THE PUSH-FIT SOLUTION FOR UNDERFLOOR...
Transcript of THE PUSH-FIT SOLUTION FOR UNDERFLOOR...
THE PUSH-FIT SOLUTION FOR UNDERFLOOR HEATING
Installation and Technical Guide
JANUARY 2014
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The John Guest Group has a long established reputation as a world leading manufacturer of push-fit fittings, tube and other fluid control products. A reputation built on producing consistently high quality products with an ongoing commitment to value engineering and product development.
Worldwide Connections
The strictest control is maintained by virtue of the fact that design and manufacture is carried out in modern purpose built manufacturing centres in west London and at Maidenhead in Berkshire.
Maintaining control over the whole process from initial tool design and tool making through to final assembly and testing ensuring that only products of the highest quality are produced.
The company believe it is this commitment to quality that has led to it receiving prestigious awards from many of the world’s leading testing and approvals organisations.
John Guest is a preferred supplier to many international companies.
A commitment to quality is at the heart of the John Guest Philosophy
Quality Manufacture
Speedfit PEX Fittings and Barrier Pipe.
K24076, K24077 and K24078
British Gas Service
BS7291No. KM39767
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Members of the Technical Support Team are available to help you get the best from your Speedfit Underfloor Heating System.
To obtain an estimate send us a plan of the area where underfloor heating is required, indicating the preferred location of the manifold and intended floor construction.
An estimate will be prepared and when approved and an order placed, the Speedfit CAD
Design Service will provide a detailed drawing showing pipe layout, flow rates, suggested zone temperatures and advice on commissioning.
A member of our national team of Technical Support Engineers will be available to offer on-site support during the installation process.
Technical Help Desk: 01895 425333 | [email protected]
The JG Speedfit Technical Advisory Service is available to assist and advise on all aspects of using the Speedfit System. The service is available between 8.00am and 5.00pm Monday to Friday.
Design Service and Technical SupportCAD Design Service
The Speedfit System for Underfloor Heating has been designed to be as quick and easy as possible to install with component parts manufactured under an ISO9001 Quality Management System.
The System has water pumped from a boiler or other heat source to a pump pack where it is mixed to approximately
50ºC then distributed via a manifold to heating circuits made using Speedfit Barrier Pipe. The temperature and volume of water is altered to maintain the requirements of the system.
The pipe is laid in concrete or suspended just below the surface of timber flooring.
A wide range of electrical components means the system can have as much control as required.
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CONTENTS:UNDERFLOOR HEATING
PREPARATION CONSIDERATIONS
PIPE INSTALLATION
JG UFH MANIFOLD & PUMP PACK INSTALLATION
p6-9
p10-19
p20-33
p34
HEATING CONTROLS
p36-45
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COMMISSIONING CHECKLIST
FREQUENTLY ASKED QUESTIONS& TROUBLESHOOTING
FILLING & TESTING
p46-47
p50-51
p52-53
START-UP & COMMISSIONING
p48-49
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Underfloor heating provides the most comfortable, even warmth of any heating system. It is economical to run and virtually maintenance free.
Warm water from a heat source such as a boiler or heat pump is distributed via a manifold to heating circuits made using Speedfit Barrier Pipe. The pipe can be installed in a screed, floating or suspended timber floor.
In screeded floors, the pipe is laid on insulation and then covered with a screed which can be laid almost any type of floor covering.
For timber floors, spreader plates are laid between the joists and the floor decking or on the underside of the floor. Speedfit Pipe is pushed into the grooves on the plates.
The Floor area is typically warmed to between 25ºC and 28ºC, providing an even distribution of heat at only slightly higher than room temperature. The system is controlled by one or more thermostats which control the manifold and boiler as required.
The heat is concentrated where it is most needed for comfort and efficiency.
By contrast, radiators transfer heat from a relatively small area at a much higher temperature than the space being heated.
The radiator system heats mainly by convection. This results in the floor being the coolest place in the room, with the mass of warm air at ceiling level.
Ceiling18oC
Ceiling24oC
Floor24oC
Floor18oC
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The Speedfit Underfloor Heating System offers many benefits to the consumer. These include:
Efficiency SavingsUnderfloor Heating Systems are designed to operate at lower temperatures than radiator systems, making them especially suitable for condensing boilers and heat pumps. This results in reduced energy consumption and lower heating costs for the building.
InstallationIt is simple to install, requiring the minimum of installation effort and little maintenance.
ComfortThe system uses mainly radiant heat, the most comfortable form of heating, giving an even distribution of warmth over the whole room.
Space The system is unobtrusive and space saving which means every square metre of floor and wall space can be utilised giving freedom of interior design.
NoiseCompared to radiator systems the system is virtually silent running.
HealthDust is minimised reducing the problem of house dust mites. Reduced numbers of hot surfaces and sharp edges minimise risk of burns or injury.
ControlUnderfloor heating is easy to control and unlike conventional radiator systems, makes use of multi-zoning so each room benefits from individual time and temperature control resulting in a more flexible heating system with lower running costs.
Environment Underfloor heating is suitable for use with the most energy efficient and environmentally friendly heating systems including condensing boilers, solar power and heat pumps.
The Speedfit Underfloor Heating System is suitable for most floor finishes, including ceramic tiles, carpets, vinyl and laminate.
However, the thermal resistance of the floor covering will have a marked effect on the performance of the heating system.
Advice on the use of floor coverings and their effect on the performance of a system is available from our Technical Help Desk.
For information on the effect of different floor finishes please refer the table on page 11.
FEATURES & BENEFITS
FLOOR FINISHES AND COVERING
Variety of Floor Finish Options
SET BACK - EXPLAINED
Compared to other forms of heating, underfloor heating can have a relatively slow response time, taking longer to heat up and cool down than radiator systems.
In order to reduce running costs and to have realistic heat up and cool down response times, rather than the system being switched off, the temperature setting is reduced by about 4ºC. This is called set back because the system is turned down not off.
With the Speedfit System, set back can be achieved in two ways:
Individual ProgrammingProgrammable Room Thermostats can be installed in each zone. They give individual time and temperature control, alternating between daytime and set back temperatures.
Centralised ProgrammingThe Dial Set Back Room Thermostat has its own ‘Daytime’ and ‘Set Back’ time controlled centrally using a Touch Screen Time Clock.
The Whole Floor Acts as a Heat Source
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As the chart above shows, people are more comfortable when their feet are in a warm area and their head is slightly cooler.
A system using radiators will have colder air at the bottom of a room which places your feet in the wrong place for comfortable living. This is because cold air is more dense (heavy) and it is pulled downwards by gravity.
In contrast, Underfloor Heating heats the whole floor. This means that the warmest space is the area nearest the floor, which matches the preferred heat profile.
In practice, normal comfort can be achieved at a lower air temperature than with conventional radiators because underfloor heating systems heat mainly by radiated energy, just like the energy from the sun.
Radiant energy is emitted by the floor giving an even distribution of heat. This means no cold spots, hot ceilings or cold feet.
In its simplest form, Underfloor Heating is pipes in the floor with blended water passing through them. The Speedfit Underfloor Heating System receives water from a heat source such as a boiler or heatpump. High temperature water from a source like a conventional boiler is then blended to reduce the flow temperature. It is then distributed via a manifold to heating circuits made up of Speedfit Barrier Pipe. Low temperature water, such as from a Heat Pump, may not need to be blended down.
The pipe is laid in concrete or suspended under timber flooring. Effectively, the floor is turned into a large, low surface temperature heat emitter which is economical to run and provides a similar level of comfort, at 20°C, to a convection system providing an air temperature of 21° - 22°C.
Heating times and comfort temperatures are controlled by individual thermostats to enable the user to maximise comfort, flexibility and reduce running costs.
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Theoretically ideal heating
24º 24º 18º 16º
20º 20º 20º 20º
16º 16º 24º 24º
1.70
2.70
Underfloor Heating
Radiator heating on inside wall
Warm air heating
Eye level
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PLANNING AND ORGANISING YOUR PROJECT
The design of an underfloor heating system has a direct link to its output and efficiency. Careful consideration should be given to underfloor heating at an early stage in any project as the system needs to be integrated with construction and building programmes. The key to a successful installation is to invest time in planning the system. If your system has already been designed and you are ready to start your installation, it is useful to ensure you have covered all the points below. For example, the builder or architect needs to ensure that sufficient floor depth is available and that suitable insulation is specified. An increase in floor height at a late stage can have implications to other areas of the construction.
THINGS TO REMEMBER •Insulationdepthasrequiredbydesign
or building regulations and to ensure that any downward heat loss does notexceed 10 watts per m2 in accordance
with BSEN1264.
•Theoverall quality and thicknessof a sand and cement screed should meet the requirements of BS8204-1.
ORGANISING YOUR UNDERFLOOR HEATING PROJECT
CUSTOMER / CLIENT •Supplyuptodateplansandrelevant information to system designer.
SYSTEM DESIGNER •Preparedesigncalculations, specifications, material schedules and layout drawings to BSEN1264.
INSTALLER •Ensurethedesigndrawings and specifications are followed and installed correctly.
GATHERING ALL THE INFORMATION
The following information will be required to complete a system design.
•Fullbuildingplansincludingsections and elevations. •Calculationofheatlossandheat requirement. •Floorconstructionandinsulationto be used. •Preferredmanifoldlocations.•Heatsourcetobeused.
SPEEDFIT SERVICE Planning your system does not need to be daunting. Speedfit offer a comprehensive design and technical support service. Our National team of engineers and designers will work closely with our customers and guide them through the whole process. A full support package is offered at every stage from the initial enquiry, through the design process, procurement of materials and followed up with on-site visits to offer installer advice.
Some buildings need more heat than others. As building methods have progressed over the years and insulation materials have improved, less and less energy is needed to heat them up. When using radiators in an old building it is easy to increase the size of the radiator for poorly insulated rooms. This is not possible with Underfloor Heating as the floor size is fixed. While Underfloor Heating can easily heat the majority of homes, care needs to be taken to match the output of the Underfloor Heating to the needs of a room.
When installing the Underfloor Heating system, consideration should be paid to areas of high heat loss which may affect performance of the system.
These include :- •Conservatories•Un-insulated/poorlyinsulatedwalls.•Singleglazedordraughtywindows.•Openfireplace.•Un-insulatedloftsandfloors.•Areaswithahighproportionofglazing.• Roomwithahighperimeterwallto floor ratio.
In these situations, the thermal envelope of the buildings should be brought up to current building insulation standards.
The table opposite helps to highlight the relative heat output of a varity of floor finishes when used with different installation methods.
Preparation Considerations
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HEAT LOSS & HEAT OUTPUT FROM AN UNDERFLOOR HEATING SYSTEM
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HEAT OUTPUT TABLES (W/M2)25MM OVERFITFloor finish and resistance (Tog) Flow and Return Temperature ºC Tog Value 40/30 45/35 50/40 55/45Tiles 0.1 36 50 65 78Thin Timber Finish 0.5 32 45 58 70Carpet Tiles/Laminate 1 29 40 52 64Carpet and Underlay 1.5 26 36 47 58
Figures based on 15mm PB tube using 150mm pipe centres and a 10mm Plywood laid over.
HEAT OUTPUT TABLES (W/M2)50MM UNDERFIT BOARDFloor finish and resistance (Tog) Flow and Return Temperature ºC Tog Value 40/30 45/35 50/40 55/45Tiles 0.1 22 20 39 48Thin Timber Finish 0.5 20 28 36 44Carpet Tiles/Laminate 1 18 26 33 41Carpet and Underlay 1.5 17 22 31 38
Figures based on 15mm PB tube using 200mm pipe centres and a 22mm chipboard deck laid over.
HEAT OUTPUT TABLES (W/M2)ALUMINIUM SPREADER PLATESFloor finish and resistance (Tog) Flow and Return Temperature ºC Tog Value 40/30 45/35 50/40 55/45Tiles 0.1 28 40 52 64Thin Timber Finish 0.5 26 36 47 58Carpet Tiles/Laminate 1 24 33 43 53Carpet and Underlay 1.5 22 31 39 48
Figures based on 15mm PB tube using 200mm pipe centres and a 22mm chipboard deck laid over.
HEAT OUTPUT TABLES (W/M2)SCREEDED FLOORFloor finish and resistance (Tog) Flow and Return Temperature ºC Tog Value 40/30 45/35 50/40 55/45Tiles 0.1 60 80 95 120Thin Timber Finish 0.5 48 66 83 95Carpet Tiles/Laminate 1 40 53 69 83Carpet and Underlay 1.5 34 47 58 70
Figures based on 15mm PB tube using 200mm pipe centres and a 65mm screed deck laid over.
Heat outputs are for guidance only and can vary with water temperature, floor finish and construction. Further information and advice is available on 01895 425333 or www.speedfitUFH.co.uk
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If you are new to installing Underfloor Heating, you need to understand that the floor construction will normally determine the way in which the system is installed. There are several options available to suit both new build and renovation projects. Before commencing work, it is important to take some time to familiarise yourself with the steps needed for the floor construction you are working with.
Solid floors already have a requirement for insulation and screed. The pipework is fitted to the insulation using clips, staples, or using a number of other alternative methods. Once the pipework is in place and has been tested for leaks, the screed is laid on
top and left to cure. When the screed has had sufficient time to cure the heating is turned on, the screed is heated and this in turn heats the room. Solid screeded floors tend to give the highest heat output.
Suspended Floors are different as there is no screed to absorb the heat from the pipes and transfer this energy to the floor. There are a number of things to consider, such as, holding the pipes in place, transferring the energy from the pipes to the floor and insulating below the pipework in order to force the heat up into the floor covering. Suspended flooring usually needs a higher flow temperature from the boiler or heat
source. Due to the nature of the floor construction (e.g. floor boards, underlay and carpets) the resistance to heat transfer is higher.
Overfit - Typically this method is used in refurbishment projects where floor depths are a consideration. Thin pre-grooved insulation boards are laid over the floor structure to enable a low height installation.
Refer to pages 20 to 33 for more information on solid/supended/overfit systems.
With the drive to promote the use of renewable-energy sources in new buildings and refurbishment projects, the use of Heat Pumps with Underfloor Heating has clear benefits. Heat pumps generally supply a maximum water flow temperature of 35-45°C, which is an ideal temperature for Underfloor Heating. Using these lower temperatures increases the COP (Coefficient Of Performance) of the heat pump.
Because of the lower temperatures there is less energy per metre of pipe, therefore there may need to be an increase to the amount of pipe used in a project. This is typically achieved by using pipework at closer spacings which will
depend on the floor construction. With careful design of the Underfloor Heating system when combined with lower resistance floor finishes, efficiency can be increased resulting in lower emissions and lower fuel bills.
Converseley, poor levels of building insulation when combined with high resistance floor coverings may require a higher temperature output from the heat pump which may lead to poor performance or unacceptable response times.
For further advice & information please contact our technical support line 01895 425333.
Preparation ConsiderationsDETERMINE THE FLOOR CONSTRUCTION AND INSTALLATION METHOD
HEAT SOURCE & INTEGRATION OF NEW TECHNOLOGIES
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UNDERFLOOR HEATING MANIFOLD Manifolds distribute the heating water to each heating circuit in the system and allows the isolation and flow rate setting of each circuit. A unique feature to JG systems is that connections to the heating pipes are Speedfit push-fit, offering much reduced installation times. All manifolds are pre-fitted with brackets, vibration isolation mounts, and an automatic air vent. Flow rate indicators include the means to adjust flow rate and isolate the circuit. The Manifold can be assembled to suit left-hand or right-hand supply depending upon project type.
CONTROL PACK Connected to the manifold, this unit regulates the flow temperature and pumps the water to each circuit. When using a low temperature heat source or a dedicated boiler, a control unit may not be required. These compact, modular control packs for underfloor heating systems up to 14kW, are designed to be lightweight in order to connect directly to Speedfit manifolds without the need for extra brackets or support. The nickel plated material matches the stainless steel Speedfit manifold. The Control Pack consists of a mixing valve, circulating pump, return elbow, manifold adaptor and all necessary seals.
SPEEDFIT LAYFLAT® BARRIER PIPE Manufactured to the highest of standards, our pipe is available in either PEX or JG Layflat® Polybutylene. Speedfit Pipe has an inner barrier to prevent the ingress of oxygen molecules. It is manufactured and Kitemarked to British Standard BS7291: Parts 1, 2 & 3: Class S. JG Layflat® Pipe is easy to handle when removed from the coil and very flexible making it especially suitable for underfloor heating installations. For screed systems, the pipe is attached directly to insulation with staples, floor clips or mounting rails. Spreader Plates are available for timber flooring using either traditional joists or engineered I-Beam Joists.
PIPE FIXING SYSTEM A pipe fixing method will be needed in order to complete the necessary pipe circuits. A host of different pipe fixing systems are available depending on project type such as whether the installation is being completed on a solid or timber floor. For solid floor projects that will involve the use of screed, it is also important to choose appropriate insulation that can be fitted to a flat sub-base. For more information on the different Speedfit fixing systems, please go to our pipe installation section on pages 20 to 33.
HEATING CONTROL SYSTEM An appropriate allocation of heating thermostats will be required on all underfloor heating systems. JG Speedfit offer three systems to choose from; Network, Mains Voltage and Wireless. For more information on the different Speedfit Thermostat Control Systems please go to page 36.
PRODUCT CHECKLIST
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A pipe layout plan is supplied with each project upon request. The drawing shows all the important information to correctly install the Underfloor Heating pipework and Manifolds. There are also details of flow rates, pipe spacing and routing of pipe from the manifold to each heated zone.
Before starting the installation, it is important to check that the drawing matches the site conditions as any
deviation could result in the need to revise the plans and potentially the underfloor heating materials required.
The manifold location and position of permanent fixtures such as kitchen units, cupboards and sanitary fittings should also be checked prior to installation to ensure they do not interfere with the pipe routing.
Thermostats should be cited in accordance with the manufacturers
recommendation and site requirements.
There are alternative pipe patterns to those shown here, however, the main two that are used are Serpentine and Counterflow patterns.
READING A CAD DRAWING
Preparation Considerations
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TYPICAL PIPE LAYOUTS
There are several ways to lay pipe depending on pipe spacing, room layout and fixing method. If a CAD drawing has been produced, this will show the specific pipe routes and patterns for the job. The examples opposite show the main options available, although there are many possible combinations.
Diagram 1 - Serpentine is a simple up & down circuit pattern. It is especially good to use when you have irregular shaped rooms or small areas such as kitchens and utility rooms.
Diagram 2 - Counterflow is a common circuit pattern to use. It can also sometimes be referred to as a spiral pattern. This pattern achieves an even floor temperature with alternating flow and returns (Typical pipe Spacing 200mm).
COMBINED PIPE LAYOUTS
Different pipe patterns can be combined in irregular shaped rooms. In the below example the main area is a Counterflow pattern and then a Serpentine layout is used in the small ensuite area.
TIP: To reduce the chance of running out of pipe, the final part of the circuit in this example has been completed in a Serpentine pattern to enable circuit length adjustment on site.
In rooms requiring multiple circuit areas, both Counterflow and Serpentine layouts can be used to good effect. Typical examples are shown below with three circuits required that enter the room at the bottom left hand corner. It is important to choose a pattern suitable for the room. For example, in areas of high heat loss, pipes may need to be closer together at one end of the room to counteract a large area of glazing.
The JG Speedfit Technical Support Team can advise you on your specific project.
Diagram 1 - Serpentine is a simple up & Diagram 2 Counterflow is a common
Typical Pipe Layouts There are several ways to lay pipe out depending on pipe spacing, room layout and xing method. If a CAD drawing has been produced, this will show the specic pipe routes and pa�erns for the job, however the examples below show the main op�ons available although there are many combina�ons possible.
TIP : to reduce the chance of running out pipe the nal part of the circuit, in this example has been completed in a serpen�ne pa�ern to enable easy adjustment on site.
Diagram 2— Counter Flow a common circuit pa�ern to use, it can some�mes be referred to as a spiral pa�ern. This pa�ern achieves an even oor temperature with alterna�ng ow and returns. (Typical pipe Spacing 200mm)
Diagram 1— Serpen�ne is a simple up & down circuit pa�ern. It is espe‐cially good to use when you have irregular shaped rooms or small areas such as kitchens and u�lity rooms. This pa�ern is also used for the
Different pipe pa�erns can be combined in irregular shaped rooms. In this example the main area is a counterow pa�ern and then ser‐pen�ne is used in the small en‐suite area.
In rooms requiring mul�ple circuits areas, both counterow and serpen�ne can be used to good effect. A typical example is shown here with 3 circuits required which enter to room at the bo�om le� hand corner. It is important to choose a pa�ern suitable for the room. For example in areas of high heatloss pipes may need to be closer together at one end of the room to counteract a large area of glazing.
The JG Speedt Technical Support Team can advise you on your specic project
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Typical Pipe Layouts There are several ways to lay pipe out depending on pipe spacing, room layout and xing method. If a CAD drawing has been produced, this will show the specic pipe routes and pa�erns for the job, however the examples below show the main op�ons available although there are many combina�ons possible.
TIP : to reduce the chance of running out pipe the nal part of the circuit, in this example has been completed in a serpen�ne pa�ern to enable easy adjustment on site.
Diagram 2— Counter Flow a common circuit pa�ern to use, it can some�mes be referred to as a spiral pa�ern. This pa�ern achieves an even oor temperature with alterna�ng ow and returns. (Typical pipe Spacing 200mm)
Diagram 1— Serpen�ne is a simple up & down circuit pa�ern. It is espe‐cially good to use when you have irregular shaped rooms or small areas such as kitchens and u�lity rooms. This pa�ern is also used for the
Different pipe pa�erns can be combined in irregular shaped rooms. In this example the main area is a counterow pa�ern and then ser‐pen�ne is used in the small en‐suite area.
In rooms requiring mul�ple circuits areas, both counterow and serpen�ne can be used to good effect. A typical example is shown here with 3 circuits required which enter to room at the bo�om le� hand corner. It is important to choose a pa�ern suitable for the room. For example in areas of high heatloss pipes may need to be closer together at one end of the room to counteract a large area of glazing.
The JG Speedt Technical Support Team can advise you on your specic project
Typical Pipe Layouts There are several ways to lay pipe out depending on pipe spacing, room layout and xing method. If a CAD drawing has been produced, this will show the specic pipe routes and pa�erns for the job, however the examples below show the main op�ons available although there are many combina�ons possible.
TIP : to reduce the chance of running out pipe the nal part of the circuit, in this example has been completed in a serpen�ne pa�ern to enable easy adjustment on site.
Diagram 2— Counter Flow a common circuit pa�ern to use, it can some�mes be referred to as a spiral pa�ern. This pa�ern achieves an even oor temperature with alterna�ng ow and returns. (Typical pipe Spacing 200mm)
Diagram 1— Serpen�ne is a simple up & down circuit pa�ern. It is espe‐cially good to use when you have irregular shaped rooms or small areas such as kitchens and u�lity rooms. This pa�ern is also used for the
Different pipe pa�erns can be combined in irregular shaped rooms. In this example the main area is a counterow pa�ern and then ser‐pen�ne is used in the small en‐suite area.
In rooms requiring mul�ple circuits areas, both counterow and serpen�ne can be used to good effect. A typical example is shown here with 3 circuits required which enter to room at the bo�om le� hand corner. It is important to choose a pa�ern suitable for the room. For example in areas of high heatloss pipes may need to be closer together at one end of the room to counteract a large area of glazing.
The JG Speedt Technical Support Team can advise you on your specic project
Typical Pipe Layouts There are several ways to lay pipe out depending on pipe spacing, room layout and xing method. If a CAD drawing has been produced, this will show the specic pipe routes and pa�erns for the job, however the examples below show the main op�ons available although there are many combina�ons possible.
TIP : to reduce the chance of running out pipe the nal part of the circuit, in this example has been completed in a serpen�ne pa�ern to enable easy adjustment on site.
Diagram 2— Counter Flow a common circuit pa�ern to use, it can some�mes be referred to as a spiral pa�ern. This pa�ern achieves an even oor temperature with alterna�ng ow and returns. (Typical pipe Spacing 200mm)
Diagram 1— Serpen�ne is a simple up & down circuit pa�ern. It is espe‐cially good to use when you have irregular shaped rooms or small areas such as kitchens and u�lity rooms. This pa�ern is also used for the
Different pipe pa�erns can be combined in irregular shaped rooms. In this example the main area is a counterow pa�ern and then ser‐pen�ne is used in the small en‐suite area.
In rooms requiring mul�ple circuits areas, both counterow and serpen�ne can be used to good effect. A typical example is shown here with 3 circuits required which enter to room at the bo�om le� hand corner. It is important to choose a pa�ern suitable for the room. For example in areas of high heatloss pipes may need to be closer together at one end of the room to counteract a large area of glazing.
The JG Speedt Technical Support Team can advise you on your specic project
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TYPICAL PIPE LAYOUT USING COUNTERFLOW PIPE PATTERN
TYPICAL PIPE LAYOUT USING SERPENTINE PIPE PATTERN
Preparation Considerations
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LAYING YOUR P IPE
STEP 1. Install Underfloor Heating Manifold.
STEP 4. Repeat the process for the next room.STEP 3. To complete the loop, return pipe inside the exisiting pattern back to the manifold maintaining the pipe spacing (typically 200mm).
STEP 6. Continue the process for the remaining rooms, ensuring pipes are not crossed in the floor.
STEP 2. Working from left to right or right to left, install first loop working into the centre of the room.
STEP 5. In rooms with more than one circuit care should be taken to ensure enough room is left for flow and return runs back to the manifold.
1 . Install UFH manifold
2 . Working from le� to right or right to le� install rst loop working into the centre of the room.
3 . To complete the loop , return inside the pipe back to the mani‐fold maintaining the pipe spacing (typically 200mm)
4 . Repeat the process for the next room.
5 . In rooms with more than one circuit care should be taken to ensure enough room is le� for ow and returns back to the manifold.
6 . Con�nue the process for the re‐maining rooms, ensuring pipes are not crossed in the oor.
1 . Install UFH manifold
2 . Working from le� to right or right to le� install rst loop working into the centre of the room.
3 . To complete the loop , return inside the pipe back to the mani‐fold maintaining the pipe spacing (typically 200mm)
4 . Repeat the process for the next room.
5 . In rooms with more than one circuit care should be taken to ensure enough room is le� for ow and returns back to the manifold.
6 . Con�nue the process for the re‐maining rooms, ensuring pipes are not crossed in the oor.
1 . Install UFH manifold
2 . Working from le� to right or right to le� install rst loop working into the centre of the room.
3 . To complete the loop , return inside the pipe back to the mani‐fold maintaining the pipe spacing (typically 200mm)
4 . Repeat the process for the next room.
5 . In rooms with more than one circuit care should be taken to ensure enough room is le� for ow and returns back to the manifold.
6 . Con�nue the process for the re‐maining rooms, ensuring pipes are not crossed in the oor.
1 . Install UFH manifold
2 . Working from le� to right or right to le� install rst loop working into the centre of the room.
3 . To complete the loop , return inside the pipe back to the mani‐fold maintaining the pipe spacing (typically 200mm)
4 . Repeat the process for the next room.
5 . In rooms with more than one circuit care should be taken to ensure enough room is le� for ow and returns back to the manifold.
6 . Con�nue the process for the re‐maining rooms, ensuring pipes are not crossed in the oor.
1 . Install UFH manifold
2 . Working from le� to right or right to le� install rst loop working into the centre of the room.
3 . To complete the loop , return inside the pipe back to the mani‐fold maintaining the pipe spacing (typically 200mm)
4 . Repeat the process for the next room.
5 . In rooms with more than one circuit care should be taken to ensure enough room is le� for ow and returns back to the manifold.
6 . Con�nue the process for the re‐maining rooms, ensuring pipes are not crossed in the oor.
1 . Install UFH manifold
2 . Working from le� to right or right to le� install rst loop working into the centre of the room.
3 . To complete the loop , return inside the pipe back to the mani‐fold maintaining the pipe spacing (typically 200mm)
4 . Repeat the process for the next room.
5 . In rooms with more than one circuit care should be taken to ensure enough room is le� for ow and returns back to the manifold.
6 . Con�nue the process for the re‐maining rooms, ensuring pipes are not crossed in the oor.
STEP 1. Insulation depth and quality as required by design or building regulations, “whichever is greater” and to ensure that any downward heat loss from the Underfloor Heating does not exceed 10W/m2, in accordance with BSEN1264.
STEP 4. This vapour barrier will prevent the contamination of the insulation by the screed. It will also prevent liquid type screeds from flowing between gaps in the insulation and “floating” the boards during installation.
STEP 3. BS EN 1264 Part 4 requires a protective membrane placed over the insulation layer and it specifies Polyethylene film of at least 0.15mm thickness with 80mm overlaps or a similar product which performs the same function e.g. Aluminium Foil - fitted at the factory.
STEP 2. An expansion strip is required to accommodate the expansion which will occur within the screed as the result of it heating up. This expansion strip should be fitted round the perimeter of the room and taped to the membrane.
STEP 5. Screed is placed on top of the pipe circuits.
STEP 6. Screed depths need to be taken into consideration as part of the floor build thickness. (See page 20 for typical floor section).
Prepared floor insulation should be fitted to a flat sub-base. This is important as the sheet insulation needs to be fully supported for maximum strength. The joints should be securely taped over.
SCREEDING The Screed should be laid as soon as possible after the pressure test and the system should be left under pressure during the screeding process. Cement, sand and fine concrete screeds should be designed and laid to the recommendations in BS 8204. Low thickness pumped screeds are available from specialist installers and work well with Underfloor Heating. Screed drying times will vary, typically 28 days for a sand/cement screed. Underfloor Heating systems should not be used to speed up the screed drying process.
Some buildings, especially older types may have a higher heat loss than the Underfloor Heating can provide. In this case there may be a need to increase the insulation and reduce heat loss of the building or supplementary heating should be considered.
18
PREPARING THE FLOORS IN SCREEDED AREAS
Preparation Considerations
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THE UFH STAPLE SYSTEM
20
Pipe Installation
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Part No. Description
JGUFHEDGE 25 METRE ROLL
EDGE STRIP
Part No. Description
JGUFHGUN STAPLE GUN
JGUFHSTAPLE PIPE STAPLES
PIPE STAPLES
PRODUCTS ESSENTIAL FOR THIS INSTALLATION
Part No. Description Size
15BPB-50C BARRIER PIPE 15MM X 50M
15BPB-100C BARRIER PIPE 15MM X 100M
15BPB-120C BARRIER PIPE 15MM X 120M
15BPB-150C BARRIER PIPE 15MM X 150M
JG LAYFLAT® POLYBUTYLENE BARRIER PIPE
THINGS TO R EMEMBER • Insulationdepthasrequiredbydesignorbuildingregulationstoensurethatanydownwardheatloss does not exceed 10 watts per m/2 in accordance with BSEN1264.
• TheoverallqualityandthicknessofasandandcementscreedshouldmeettherequirementsofBS8204-1.
STEP 1. To prepare the floor, insulation should be fitted to a flat sub-base. The joints should also be taped and a membrane placed over the insulation.
STEP 4. Using the staple gun, fix the pipework to the installation in the desired pattern (see page 15 images on patterns of pipework). Starting the first circuit 75mm from the perimeter and staples should be approximately 500mm apart. More staples maybe needed on bends.
STEP 3. After establishing the area to be covered by the pipe circuit, connect to the manifold and start the circuit. If the circuit has to pass through other heated zones before reaching the zone it is intended to heat, conduit may be required.
STEP 6. Once the pipe circuit has been installed and pressure tested, the system should remain under pressure (6 bar) in order to help prevent the risk of any damage to the pipe while the screed is being applied. When applying the screed, care should be taken to ensure the screed is tightly compacted around the pipe ensuring no voids are present.
STEP 2. An expansion strip is required around the perimeter of the room to accommodate the expansion which will occur within the screed as a result of heating up. This should be fitted around the perimeter of the room and taped to the membrane.
STEP 5. When using the pipe, unroll it from the outside of the coil and do not try to uncoil it from the centre, this will make the process easier. Keeping the first run of pipe around the perimeter straight and using a gauge to keep the designed pipe centres even will also help the installation process.
STEP 2.
When using the pipe, unroll it from
STEP 3. After establishing the area to be STEP 1 To prepare the floor, insulation
Using the screed as a heat diffuser, JG Speedfit pipe is secured with staples to rigid insulation placed over the concrete sub-floor. A variety of screeds can be used and are typically 65-75mm thick for sand-cement types or 40-50mm for liquid pumped screeds. The system is quick to install, cost effective, and can be easily adaptable to irregular room shapes. Floor coverings can be laid when the screed is fully cured.
INSTALLING THE UFH STAPLE SYSTEM
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THE MOUNTING RAIL
PRODUCTS ESSENTIAL FOR THIS INSTALLATION
Pipe Installation
22
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Part No. Description
JGUFHEDGE 25 METRE ROLL
EDGE STRIP
Part No. Description
JGUFHRAIL 2 METRE LONG
JGUFHPIN RAIL PINS FOR ABOVE
MOUNTING RAIL
Part No. Description Size
15BPB-50C BARRIER PIPE 15MM X 50M
15BPB-100C BARRIER PIPE 15MM X 100M
15BPB-120C BARRIER PIPE 15MM X 120M
15BPB-150C BARRIER PIPE 15MM X 150M
JG LAYFLAT® POLYBUTYLENE BARRIER PIPE
THINGS TO R EMEMBER • 1.5 to 2 linear metres of mounting rail per sq/m of floor area. 1 pack per 20sq/m.• Maximumcircuitlength100m of 15mm pipe.• MaximumcoverageApprox.100m centres 11 sq/m 200mm centres 20sq/m.• Maximumheatoutputfor200mmcentres=100Wsq/m.• Recommendeddesignflowtemperature50oC.• Insulationdepthasrequiredbydesignorbuildingregulationstoensurethatanydownward. heat loss does not exceed 10 watts per m/2 in accordance with BSEN1264.
STEP 1. To prepare the floor, insulation should be fitted to a flat sub-base. The joints should be taped and membrane placed over the insulation.
STEP 4. The mounting rail has double sided tape, this may need to be supplemented with the use of JGUFHPIN depending on the adhesions of the installation.
STEP 3. After establishing the area to be covered by the circuit, connect to the manifold and start the circuit. If the circuit has to pass through other heated zones before reaching the zone it is intended to heat, conduit may be required.
STEP 6. A serpentine pattern is usually the most convenient to use with the mounting rail system. Ensure to allow enough space at the end of the circuits for the flow and return from the manifolds.
STEP 2. An expansion strip is required around the perimeter of the room to accommodate the expansion which will occur within the screed as a result of heating up. This should be fitted around the perimeter of the room and taped to the membrane.
STEP 5. The mounting rail is placed at about 750/800mm apart ensuring the slots are aligned neatly.
STEP 3.STEP 2.
STEP 5. The mounting rail is placed at
STEP 3. After establishing the area to STEP 3.
STEP 6. A serpentine pattern is usually the STEP 6.
STEP 1 To prepare the floor, insulation STEP 2. STEP 2.
STEP 4. The mounting rail has double sided STEP 5.STEP 5.
Using the screed as a heat diffuser, Speedfit Pipe is secured to ‘Clip Rails’ on top of rigid insulation which is placed over the concrete sub-floor. A variety of screeds can be used and are typically 65-75mm thick for sand-cement types or 40-50mm for liquid pumped screeds. The system provides ready made pipe spacing, can be fixed to insulation which is too thin for staples, and is especially suitable for large regular shaped areas. Floor coverings can be laid when the screed is fully cured.
INSTALLING THE MOUNTING RAIL
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FLOOR PANEL SYSTEM
Pipe Installation
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Part No. Description Size
JGUFHTILE FLOOR TILE 1400MM X 800MM
FLOOR PANELS
Part No. Description
JGUFHEDGE 25 METRE ROLL
EDGE STRIP
PRODUCTS ESSENTIAL FOR THIS INSTALLATION
Part No. Description Size
15BPB-50C BARRIER PIPE 15MM X 50M
15BPB-100C BARRIER PIPE 15MM X 100M
15BPB-120C BARRIER PIPE 15MM X 120M
15BPB-150C BARRIER PIPE 15MM X 150M
JG LAYFLAT® POLYBUTYLENE BARRIER PIPE
THINGS TO R EMEMBER • BSEN1264-4 recommends that an expansion joint is constructed in stone and ceramic finished screeds for every 40m2 of floor area at a maximum length of 8m and an aspect ration of 2:1. An expansion joint is also required in long narrow areas such corridors etc.
• Insulationdepthasrequiredbydesignorbuildingregulationsandtoensurethatany downward heat loss does not exceed 10 watts per m/2 in accordance with BSEN1264.
STEP 1. Edge insulation should be installed around the perimeter of the room to accommodate expansion that will occur when the screed is heated up. It is good practice to seal the gap between the potential space between the expansion and the floor panel.
Speedfit Floor Panels make a simple grid to ensure quick and easy pipe laying and also provide a precise guide for the pipe, ensuring that minimum pipe bending radius is achieved. Suitable for use with cement screed (4:1 mix), pumped screed systems (anhydrite, etc.), fine or heavy concrete or polymer modified screeds.
STEP 4. When a pumped (liquid) screed is to be used it is essential that all of the panel joints are made correctly and that no panels are allowed to simply ‘butt-up’ as this may allow the screed to flow below the panels causing them to rise up.
STEP 3. The “egg box” sections of the panel clip firmly together to make a continuous seal. Floor panels should not be used at the base of a manifold as pipes need to be closer together than the floor panels will allow. Pipes around this area should be secured using pipe staples.
STEP 6. Once the pipe circuits have been installed and pressure tested, the system should remain under pressure (6 bar) in order to prevent the risk of any damage being caused to the pipe while the screed is being applied. When applying the screed cover, care should be taken to ensure that the screed is tightly compacted.
STEP 2. Floor panels should be fitted to a suitable flat sub base. Extra insulation maybe required to match design or building regulations and to ensure that any downward heat loss does not exceed 10 Watts m2 in accordance with BSEN1264.
STEP 5. Starting from a manifold, after establishing the area to be covered, unroll the pipe and push firmly into the gap between the egg box sections. Cover the designed area in the appropriate pattern and return the pipework to the manifold.
STEP 3. The “egg box” sections of the panel 1
INSTALLING FLOOR PANEL SYSTEM
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Timber and floating floors generally use heat spreader plates to transfer the heat from the pipes. There are many variations of these floor types and particular requirements should be discussed with our Technical Support Team.
Speedfit Pipe is installed into grooved aluminum plates which are first fixed from above in the case of traditional joists or from below when engineered I-Beam Joist systems are used. If the floor can be raised, floors can also be counter-battened to make installation even easier. Insulation is installed below the plates and it is important that the floor decking is in contact with the plate to maximise output.
SPREADER PLATES
UNDERFIT
SUSPENDED TIMBER FLOORS
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Pipe Installation
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STEP 1. Plates need to be supported so that they sit level and make a good contact with the floor placed on them from above. Maintaining this contact is essential in producing good heat transfer.
STEP 4. Fix the plates to the top of the joists ensuring the fixing will not protrude and prevent the floor from having a good contact with the floor. 18mm staples fixed using an air stapler is the preferred method. Allow 300mm for pipe end returns and a 15mm gap between plates. Use a short length of pipe pressed into the grooves to line up the plates before fixing.
STEP 3. Battens should be fixed along the length of the joist, 15mm plus the depth of insulation board being used down from the top of the joists in order to support the insulation along its length. This will allow a 15mm gap between the surface of the insulation and the top of the joist.
STEP 6. Before fixing the floor to the joists it is recommended that a thin sheet of plastic is placed over the plates. This will act as a slip membrane to cut down expansion noises as the plates heat up and rub against the bottom of the finished floor.
STEP 2. Some time spent planning the installation will save time later and make installation easier. The main consideration is the amount of runs and the route those pipes will take from the manifold.
STEP 5. Run the pipework to the designed or desired pattern being careful to ensure the plates remain flush with the top of the joists. The pipework can enter the plate system at either end or in the centre, pipework can be cabled through joists or via grooves at the top of the joists. Consult building regulations to ensure compliance.
KEY DATA Approx. Coverage Double Plates - 2 Plates per 1m2 1 box of 10=5m2
Recommended Design Temperature 60oC - Maximum Heat Output Approx. 70W/m
JG Speedfit’s plate system is designed for use in timber suspended or battened floors. The floor system uses aluminium single or double spreader plates to transmit the heat evenly across the finished floor surface.
They can be used as illustrated, below a floor supported on insulation. Alternatively, where there will be a secondary layer of floor placed above a sheet sub floor the plates can be sandwiched between the floor layers supported on battens. With a twin layer floor this second method is recommended as it removes a layer of resistence to heat transfer.
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INSTALLING JG UFH PLATE SYSTEM - FROM ABOVE
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Pipe Installation
STEP 1. Planning is important to establish the areas that are to be fitted with plates and the route the pipework must take from the manifold to the area to be heated. Remember that the pipework can pass through the joists in the same way that the Heating and hot and cold pipes do. Make sure that any drilling zones are observed.
STEP 4. The pipework can start at either end or if needed in the middle of a run. Again this is usualy dictated by the joist layout. A serpentine pattern is usually best suited to this system, working out beforehand the path the pipework will take will make the installation process easier.
STEP 3. Take care to allow enough room at the ends for pipework returns and accommodate the designed spacing, this will typically be 200mm which is often dictated by the joist centres.
STEP 6. Once the pipework is installed and pressure tested, insulation can be fitted to prevent downwards heat loss.
STEP 2. Fixing the plates firmly to the underneath of the joists using screws, tacks or a suitable staple gun. Allow a 50mm gap between the plates, a straight length of pipework can be used to ensure the grooves are lined up.
STEP 5. Care needs to be taken when installing the pipework as kinking the pipe due to over bending or careless use will necessitate a new section of pipework. Unlike using a pipe in a screed that cannot be replaced if damaged, pipework used below joists can have fittings as part of the heating system as long as the normal operating temperatures are observed and access is provided in the unlikely event of a leak.
KEY DATA Approx. Coverage - 4 Plates per 1m2 Recommended Design Temperature 60oC - Maximum Heat Output Approx. 70W/m
JG Plate from below system is intended for use with modern pre engineered joists.
As modern joists rely on the floor above being bonded and screwed to the joist’s top surface. Because of this the normal practice of fitting the plates onto the top of the joists is not available.
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INSTALLING JG UFH PLATE SYSTEM - FROM BELOW
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STEP 1. JG ‘Underfit®’ is intended to be used below flooring and supported firmly in contact with the underside of the flooring. It is ideally suited to refurbishment projects. As with all Underfloor Heating systems additional insulation may be required to meet building requirements.
STEP 4. Grooves spaced at 200mm from centre of pipe, the boards can be sized to accommodate most joist centres. If the panel is too wide, trim the material evenly from both sides to ensure a snug fit.
STEP 3. Battens should be fixed along the length of the joist, 50mm down from the top of the joists in order to support the panels along its length. Good contact between the surface of the panel and the bottom of the flooring is essential in maximising the performance of this system.
STEP 2. Some time spent planning the installation will save time later and make installation easier. The main consideration is the amount of runs and the route these pipes will take from the manifold.
STEP 5. Pipework can enter the panel system at either end or even in the centre, pipework can be cabled through joists or via grooves at the top of the joists. Consult building regulations to ensure compliance.
STEP 6. Pipework can enter the panel system at either end or even in the centre, pipework can be cabled through joists or via grooves at the top of the joists. Consult building regulations to ensure compliance.
DATA - 50mm UNDERFIT® BOARDDimensions - 1200 x 350 x 50 mmMaterials - Expanded Polystyrene BS EN 13163Compressive Strength - 100 (kPa) @ 10% compressionConductivity - 0.036 (W/mk)Heat Output - Approx 50 - 60w/m2
Recommended Flow Temperature - 50 - 60oCPipe Centres - 200mmMaximum Circuit Length - 100mTypical Coverage per Loop - 15 - 20m2
Applications - New Build or renovation, single or multiple rooms
Floor Coverings - Tiles/slate,/ceramic etc. Carpet/Vinyl Laminate floors Natural wood
A grooved, foil faced insulation panel for installing 15mm Speedfit pipe over existing floor structures (between battens) or under the floor (between existing joists). The system is a suitable choice for both new build and renovation projects.
Similar to other JG Speedfit Underfloor Heating systems, a variety of floor coverings can be used.
INSTALLING JG UNDERFIT® - JOISTS AND BATTENED FLOORS
Pipe Installation
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NOTE: In order to prevent movement and subsequent cracking, when planning to lay a tiled floor the following recommendations should be followed. A heavy lapped backer board should be used.
The Overfit should be fitted to a flat surface giving sufficient support for the boards and intended use. Good building practice should be observed and the tile & backer board manufacturers recommendations should be followed.
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RETROFIT (OVERFIT)
Pipe Installation
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THINGS TO R EMEMBER Dimensions – 1250 x 600 x 25mm BoardHeat Output – Approx 50-60 w/m2
Pipe Centres – 150mmMaximum Circuit length – 100m
Part No. Description Size
JGUFHBOARD1 OVERFIT BOARD 1250MM X 600MM
OVERFIT® BOARD
Part No. Description
JGUFHEDGE 25 METRE ROLL
EDGE STRIP
PRODUCTS ESSENTIAL FOR THIS INSTALLATION
Part No. Description Size
15BPB-50C BARRIER PIPE 15MM X 50M
15BPB-100C BARRIER PIPE 15MM X 100M
15BPB-120C BARRIER PIPE 15MM X 120M
15BPB-150C BARRIER PIPE 15MM X 150M
JG LAYFLAT® POLYBUTYLENE BARRIER PIPE
DATA - 25mm OVERFIT® BOARDDimensions - 1250 x 600 x 25mmMaterials - Extruded Polystyrene-XPS2 (BS EN 13164)Compressive Strength - 250 (kPa) @ 10% compressionConductivity - 0.029 (W/mk)Heat Output - Approx 50 - 60w/m2
Recommended Flow Temperature - 50 - 60oCPipe Centres - 150mmMaximum Circuit Length - 100mTypical Coverage per Loop - 13 - 15m2
Applications - New Build or renovation, single or multiple rooms
Floor Coverings Tiles/slate/ceramic etc. - use with Knauff Brio Board or eqivalent.
Carpet/vinyl - use with suitable plywood covering.
Laminate floors - use directly over insulation as floating floor.
Natural wood - fix to battens between panels.
STEP 4. Start laying the pipework by pressing it firmly into the grooves. Where the pipework is connected to the manifold there will be a need to use plain insulation and pipe staples to accommodate the closer pipe centres.
STEP 3. After placing the boards and ensuring they are flat and level and the joints are butted up firmly. Tape the joints using JGTAPE.
STEP 6. After installing the pipework JGTAPE can be placed over the end loops to prevent the pipework from becoming dislodged during the installation of the finished floor.
STEP 2. Plates need to be supported so that they sit level and make a good contact with the floor placed on them from above. Maintaining this contact is essential in producing good heat transfer.
STEP 5. Where the pipe changes direction cut the foil in the return loops using a craft knife to prevent damage to the board. This will ensure a tight fit for the pipework.
STEP 6.STEP 5. Where the pipe changes direction cut STEP 6. After installing the pipework JGTAPE STEP 6.STEP 4. Start laying the pipework by pressing STEP 5.STEP 5.
STEP 1. The main consideration is the amount of runs and the route those pipes will take from the manifold. If more transit grooves are needed then the grooves at the opposite ends can be cut off and used. Where possible route pipes through rather than around walls and doorways to cut down on pipework congestion. When lining up panels use a short length of pipe placed in the grooves to align them together.
JG UFH Overfit® is a low profile System for new build or renovation projects.
JG Overfit® is a lightweight insulated panel with high compressive strength intended for use with lightweight floor coverings, e.g. laminate, engineered wood and carpet. Due to its ease of handling and cutting it is also suitable for larger areas and multiple room installations.
The installation uses 15mm pipe and 150mm centres for a highly responsive system.
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INSTALLING THE JG OVERFIT® SYSTEM
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The installation of the manifold is an integral stage of the process. The JG Speedfit Manifold kits are for use on underfloor heating or radiator systems. The Manifold consists of two rails, one for the flow and one for the return, complete with ball valves and drain / filling valves. JG Manifolds are complete with pre-fitted brackets and vibration isolation mounts.
THINGS TO R EMEMBER
• Insulationdepthasrequiredbydesignorbuildingregulationsandtoensurethatanydownwardheat loss does not exceed 10 watts per m/2 in accordance with BSEN1264.
• DecoratorcapscanbeusedformanualisolationofacircuitandwillusuallybereplacedbyElectro Mechanic Actuators for fully automatic control.
STEP 1. Fix the pre-assembled manifold to the wall, allowing enough height to accommodate the insulation and screed depth and also the pipe work and conduit elbows.
STEP 4. Run the pipework from the manifold to the room that is to be heated. Ensure that if the pipework is passing through other rooms that conduit is used to prevent the pipework influencing the heat in those rooms. Ensure the pipework is at least 75mm from the perimeter wall.
STEP 3. Connect the pipework to the manifold following the guidelines for fitting JG pipe and fitting. It is best to start from one end of the manifold and work to the other. The use of JG conduit elbows will make the process easier and neater and enable the conduit to be inserted into the socket end.
STEP 6. The designed temperature through the circuits is controlled by turning the blending valve knob to the desired temperature.
STEP 2. Using the supplied washer fit the JG control pack. Isolation valves fitted to the inlet side of this unit will be useful in the event of needing to change a pump or blending unit.
STEP 5. The flow meters at the top of the manifold give a visual indication of the amount of water flowing through each circuit. The amount of flow will depend on the length of circuit and the temperature drop required. Generally the shorter the circuit the more restriction will be needed; this is called balancing the system. This is achieved by lifting the locking ring at the base of the flow guage and twisting the glass shroud.
STEP 5. The flow meters at the top of the STEP 6.STEP 6.
1
INSTALLING THE MANIFOLD AND PUMP PACK
JG UFH Manifold & Pump Pack Installation
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230v hardwired controls comprising Dial Thermostat that has the option of setback switching to give an energy saving High / Low temperature switching rather than the On or Off approach. Alternatively Programmable Room Thermostats (PRT) allow different time and temperature options for every zone.
A range of Wireless PRT controls married to our 8 zone wiring centre for those buildings where running cables for the thermostats is difficult or inconvenient. Can be combined with Repeaters and Aerials to eliminate wireless blind spots.
Hardwired system requiring Network cabling to Thermostats and offering centralised control. It utilises Programmable Room Thermostats in push-button or Touchscreen versions. These advanced thermostats can be controlled directly or even remotely due to built in software. A range of options include a central controller or mobile phone remote control.
For more information please visit www.speedfitUFH.co.uk
36
JG 230V CONTROLS
JG WIRELESS CONTROLS
JG NETWORK SYSTEM
Heating Controls - 3 Options
HEA
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HEA
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SUPPLIED CABLES
DRAIN WIRE -NOT CONNECTED
DRAIN WIRE -NOT CONNECTED
ZONE 1 ZONE 2
230V MAINS AC SUPPLY (FROM COMMON BOILER
OR SYSTEM SPUR)
ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7
ZONE
7
ZONE
8
END
SWIT
CH
HOT
WAT
ERCY
LINDE
RTH
ERMO
STAT
OUTMANIFOLD
PUMP
L E NIN
BOILERENABLE
OUTIN
1
2
3
4
5
6
7
8
POWER HEATINGZONES
WATERVALVEPUMPBOILER
MINI FUSE 2extra low voltage
FUSE OKWHEN LIT
MINI FUSE 3
MINI FUSE 1
230V TO UFH PUMP
230V
230V
230V
230V
SUPPLIED CABLE
SUPPLIED CABLE
SUPPLIED CABLE
230V
UNDERFLOOR HEATING MANIFOLD
OPTIONAL DHW ZONE VALVE
OPTIONAL CYLINDER STAT
COMBINED HOT WATER & PROGRAMMABLE ROOM THERMOSTAT
(MAX 2 PER TOUCHPAD)
(JGSTATPLUS/TS/V3) (JGSTATPLUS/V3)
PROGRAMMABLE ROOM THERMOSTAT
(JGSTAT/TS/V3) (JGSTAT/V3)
TWIN CHANNELPROGRAMMABLE ROOM THERMOSTAT
(JGSTAT2/TS/V3)
JG TFT TOUCHPAD(JGTOUCHPAD/TFT)
END
SWIT
CHHW
VAL
VE
HOT WATERCYLINDER
VALVE
L E N 1 2 ZONE 8
ON ON
OFF OFF
MAINS IN
L N E+ A1
- A2
ZONE 6+ A1
- A2
ZONE 5+ A1
- A2
ZONE 4+ A1
- A2
ZONE 3
B1 B2
L E N1 2
SEE NOTE 4+ Y B- A2A1+ B1 B2 Y B- A2A1 + C D- BY+ B1 B2 Y B- A2A1
MANIFOLD VALVE
ZONE
3ZO
NE 4
ZONE
5ZO
NE 6
12V
DRAIN WIRE -NOT CONNECTED
8 CORE SHIELDED 9538 BELDEN CABLE
NETWORK CABLE
8 CORE SHIELDED 9538 BELDEN CABLE
NETWORK CABLE
8 CORE SHIELDED 9538 BELDEN CABLE
NETWORK CABLE8 CORE SHIELDED
9538 BELDEN CABLE NETWORK CABLE
SEE NOTE 2
SEE NOTE 4
L
N
L
N
L
N
L
N
L
N
L
N
L
N
L
N
BOILER/HEAT SOURCE
OPTIONAL UFH ZONE VALVESEE NOTE 3
SEE NOTE 3
OPTIONAL ZONE VALVE FOR ADDITIONAL HEATING ZONE(TOWEL RAILS / RADIATORS)
SEE NOTE 2
HOT WATER
YB
YB
+- TO
UCHP
ADZO
NE 1
ZONE
2
ZONE
7ZO
NE 8
LINE
INLIN
E OU
T
+ A1- A2
ZONE 2+ A1
- A2
ZONE 1+
-
ZONE 7
A2A1
E
DRAI
NAGE
W
IRE
DRAINAGE WIRE
DRAINAGE WIRE
1.5MM2 CABLE
1.5MM2 CABLE
1.5MM2 CABLE
ORANGE AND GREY SWITCH WIRES
CAN BE IGNORED
+ C- D
TOUCHPADZONE 8
A2A1
5 amp 230v
800ma time delay 800ma time delay
SEE NOTE 10
SEE NOTE 1
SEE NOTE 9
SEE NOTE 7
SEE NOTE 5
SEE NOTE 5
LIVE IN
LIVE OUT
1.5MM2 CABLE(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED) 12V (INSTALLER SUPPLIED)
12V (INSTALLER SUPPLIED) 12V (INSTALLER SUPPLIED)
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
SEE NOTE 6SEE NOTE 6
SEE NOTE 8
COLOURS ARE INDICATIVE ONLY.EXTRA CONNECTIONS MAY BE REQUIRED AS PER MANUFACTURERS INSTRUCTIONS
TPLUS AATPLUS/TS/V3) (JGST(JGSTTA(MAX 2 PER
PROGRAMMABLE COMBINED HOT
TPLUS/VAATPLUS/V3)S/TS/V3) (JGST TAAD)OUCHPT(MAX 2 PER
AROOM THERMOST TAPROGRAMMABLE TER & AATER & WCOMBINED HOT
(JGSTTPLUS/V3)
TAAT
AT/TS/V3) (JGST (JGSTAAAT/TS/V3) (JGST(JGSTTATAROOM THERMOST TA
PROGRAMMABLE
T/V3)AAT/V3)T
(JGSTPROGRAMMABLE
TWIN CHANNEL
T2/TS/V3)AAT2/TS/V3)GSTTATAROOM THERMOST TAPROGRAMMABLE
TWIN CHANNEL
T
AD/TFT)OUCHPPAD/TFT)(JGTADOUCHP TJG TFT
AD/TFT)AD
TPLUS AATPLUS/TS/V3) (JGST(JGSTTA
-+
TPLUS/VAATPLUS/V3)S/TS/V3) (JGST TA
A1 A2 BYB2B1
TPLUS/V3)
A1 A2- BY+
SEE NOTE 10
8 CORE SHIELDED
-+8 CORE SHIELDED
A1 A2 BYB2B1
SEE NOTE 1
Y B- DC+
CONNECTEDNOTDRAIN WIRE -
NETWORK CABLE9538 BELDEN CABLE 8 CORE SHIELDED
12V
CONNECTEDNOTDRAIN WIRE -
NETWORK CABLE9538 BELDEN CABLE 8 CORE SHIELDED
12V ALLER SUPPLIED)(INST
CONNECTEDDRAIN WIRE -
NETWORK CABLEBELDEN CABLE 9538
8 CORE SHIELDED
ALLER SUPPLIED)(INST12V
NETWORK CABLE9538 8 CORE SHIELDED
NETWORK CABLEBELDEN CABLE 9538
8 CORE SHIELDED
ALLER SUPPLIED)(INST12V
CONNECTEDNOTDRAIN WIRE -
NETWORK CABLEBELDEN CABLE 9538
8 CORE SHIELDED CONNECTED
DRAIN WIRE -
ALLER SUPPLIED)(INST12V
NETWORK CABLEBELDEN CABLE
8 CORE SHIELDED
ALLER SUPPLIED)
SEE NOTE 9
OR SYSTEM SPUR)(FROM COMMON BOILER
YAC SUPPL230V MAINS SEE NOTE 9
(FROM COMMON BOILER 230V CABLE21.5MMALLER SUPPLIED)(INST
2
DRAI
NAGE
ENL
MAINS IN
DRAINAGE
WIR
EDR
AINA
GE
EE
BB1IN OUT
ENABLEBOILER
B2B1WW
ZONE 3+ETER
TAW
HHHOT E 2ZO NE 2O E 1ZO NE 1ONE 1 ZONE 2
A2+ A
- A2A1+
ZONE 1
A2+
A- A2A1
-A1+
WIREDRAINAGE
SEE NOTE 8
11ZONE 3
A2-A1
ZONE 4
A2-A1+
ZONE 5
A2-A1+
ZONE 6
A2-A1+
2
WIREDRAINAGE
AAAA2
E 7E 7 7ZONE 7
-+
ZONE
1ZO
NE 2
ZONE
4ZO
NE 3
2
AD
-+
BY
ZONE
2ZO
NE 1
ADOU
CHP
OUCH
PTT2
O 1A
AU HC
2
7 7A1
A
N
A2
8E 8ZONE 8 ADPOUCHP
D+ C
-
T
D-C+
ZONE
8
ZONE
6ZO
NE 5
ZONE
4
BY
LINE
OUT
LINE
INZO
NE 8
ZONE
7
FUSED A13 AMP FUSED C
SEE NOTE 7
T 3 AMPSD A AT 3 AMPSONNECTION UNIT C
ALLER SUPPLIED)(INSTCABLE21.5MM
E 6FUSE 3MINI
FUSE 1MINI
800ma time delay
5 amp 230v
ALLER SUPPLIED)
SEE NOTE 6
BOILERPUMP
ELVVATERAW
POWER
4
3
2
1
WHEN LITFUSE OK
ZONESTINGHEA
8
7
6
5
SEE NOTE 6
WHEN LITFUSE OK
extra low voltageFUSE 2MINI
800ma time delaySEE NOTE 6
C SWITCH WIRES S E AND GREYANGE AND OR
GREY
BOILER/HEA
SEE NOTE 5
230V
SOURCETHEAAT
SEE NOTE 5
230V
21NEL
ELVVACYLINDER
TERAAT WHOT
VEALL
VHW
VEN
D SW
ITCH
1E 1 E 2 2INOUT
TAATTH
ERMO
STCY
LINDE
RTE
RAAT
WHO
T
ZONE 3ZONE 2ZONE 1N
L
N
L
N
L
SEE NOTE 5
3O N E 3 ZONE 6ZONE 5ZONE 4ONE 3
SEE NOTE 4
N
L
N
L
N
L
MANIFOLD
ZONE
7
ZONE 7ZONE 6
OFF
ON
ZONE 8
SEE NOTE 2
SEE NOTE 4
N
L
N
L
L NE
E NOTE 3
ND
E
UM
LM
PUMPF MANIFOLD
END
SWIT
CH
ZONE
81 NE2 L2 N
LD E
L
LM
OFFOFF
ONON
ELVAVAIF MANIFOLD
SEE NOTE 3
E IGNOREDAN BE IGNOREDCA C SWITCH WIRES S
SUPPLIED CABLE
230V
SEE NOTE 3
CAN BE IGNORED
VE ALLVE FOR ZONE V VALOPTIONAL
VE FOR
CYLINDER STOPTIONAL
TAATDER ST TAOPTIONAL
230V1.5MMLIVE OUT
LIVE IN ALLER SUPPLIED)(INST
ACTURERS INSTRUCTIONSAS PER MANUF CONNECTI EXTRA
ARE INDICACOLOURS
230VCABLE21.5MM
ALLER SUPPLIED)
ACTURERS INSTRUCTIONS BE REQUIRED Y ONS MA Y
.YTIVE ONL LYRE INDICA ATIVE ONL
SUPPLIED CABLES
SUPPLIED CABLES
SUPPLIED CABLE
230V
SUPPLIED CABLE
T RAILS / RADIA ATOWELL RAILS / RADIA(TTING ZONE HEA ATING ZONEADDITIONALL HEA
VE ALLVE FOR ZONE V VALOPTIONAL
SEE NOTE 2
ORS)TING ZONE
VE FOR
SUPPLIED CABLE
230V
SUPPLIED CABLE
230V
OPTIONAL
AL UFH ZONE VOPTIONAL
VELLVE
DH OPTIONALL DHW ZONE V
VEALLVE HW ZONE V VAL
UNDERFLOOR HEA
TING MANIFOLD EA ATING MANIFOLD 1.5MM
O UFH PUMPT230V CABLE21.5MM ALLER SUPPLIED)(INST
OPTIONAL
AL UFH ZONE VOPTIONALSEE NOTE 3
VELLVE
Wiring DiagramJGUH1 Wiring Centre with V3 Thermostats
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGUH1Network 8 Zone Underfloor Heating Wiring Centre UH1Note 1.This thermostat is intended to control 2 zones. It is wired as JGSTAT/TS/V3 but has 2 additionalcontacts marked (B1) and (B2). These contacts are used to control second zone.(A1) & (A2) is the relay for switching the room in which the thermostat is located. (B1) & (B2) is therelay used for controlling the room the thermostat probe is located in. Therefore, (B1) & (B2) should be connected to the zone relevant to the probe. (B1) on thermostat to (A1) on zone and (B2) on thermostat to (A2) on zone as shown in diagram.
Note 2.When using Zones 7 or 8 for controlling radiator circuits instead of UFH, the switch on the zonemust be in the OFF position to prevent the UFH pump from operating.
This will result in fewer zones being available for UFH.
The Zone Valve is activated by connecting the demand wire (normally brown) to the positive terminalof the appropriate actuator connection as shown.
Note 3.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when UFH is offand another ciruit is in operation.If Zone Valve is not used a link needs to be placed between motorised valve connections marked 1 &2 to enable boiler firing. When more than one JGUH1 is used in an installation the boiler enable terminalmust be connected to the boiler from each individual wiring centre.
Note 4.Up to 2 Actuators can be connected to the same terminal. ie max 6 actuators per zone block.
Note 5.Cable as specified by manufacturer. Earth as required.
Note 6 - Fuses.Fuse 1 - 230v (5 amp mini fuse). Power supply for actuators. Fuse 2 - Extra low voltage (800ma Time Delay). 12v supply from transformer.Fuse 3 - Low Voltage (800ma Time Delay). 230v power to transformer.
Note 7 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control maybe mains (LV) or ELV.The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, whichshould be ONLY connected to the "enable" contacts at the boiler.All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.An earth conductor may be required.
Note 8.When more than one JGUH1 is used in an installation the boiler enable terminal must be connectedto the boiler from each individual wiring centre or one JGUH1 to be connected to boiler and everyUH1 boiler enable is to be linked together.
Note 9 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOTisolate all mains voltages present (such as boiler enable).
Note 10 - Network Cable.JG Speedfit recommend Belden 9538 Cable - 8 Core Shielded Network Cable (Max 100m Run).
Z2105/364/08/12
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carriedout by suitable Competent/Qualified persons. The installation MUST becompliant with the IEE Wiring Regulations (British Standard 7671).
HEA
TIN
G C
ON
TRO
LS
38
WIRING DIAGRAM - JG UH1 WIRING CENTR E WITH V3 THERMOSTATS
Heating Controls
SUPPLIED CABLES
DRAIN WIRE -NOT CONNECTED
DRAIN WIRE -NOT CONNECTED
ZONE 1 ZONE 2
230V MAINS AC SUPPLY (FROM COMMON BOILER
OR SYSTEM SPUR)
ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7
ZONE
7
ZONE
8
END
SWIT
CH
HOT
WAT
ERCY
LINDE
RTH
ERMO
STAT
OUTMANIFOLD
PUMP
L E NIN
BOILERENABLE
OUTIN
1
2
3
4
5
6
7
8
POWER HEATINGZONES
WATERVALVEPUMPBOILER
MINI FUSE 2extra low voltage
FUSE OKWHEN LIT
MINI FUSE 3
MINI FUSE 1
230V TO UFH PUMP
230V
230V
230V
230V
SUPPLIED CABLE
SUPPLIED CABLE
SUPPLIED CABLE
230V
UNDERFLOOR HEATING MANIFOLD
OPTIONAL DHW ZONE VALVE
OPTIONAL CYLINDER STAT
COMBINED HOT WATER & PROGRAMMABLE ROOM THERMOSTAT
(MAX 2 PER TOUCHPAD)
(JGSTATPLUS/TS/V3) (JGSTATPLUS/V3)
PROGRAMMABLE ROOM THERMOSTAT
(JGSTAT/TS/V3) (JGSTAT/V3)
TWIN CHANNELPROGRAMMABLE ROOM THERMOSTAT
(JGSTAT2/TS/V3)
JG TFT TOUCHPAD(JGTOUCHPAD/TFT)
END
SWIT
CHHW
VAL
VE
HOT WATERCYLINDER
VALVE
L E N 1 2 ZONE 8
ON ON
OFF OFF
MAINS IN
L N E+ A1
- A2
ZONE 6+ A1
- A2
ZONE 5+ A1
- A2
ZONE 4+ A1
- A2
ZONE 3
B1 B2
L E N1 2
SEE NOTE 4+ Y B- A2A1+ B1 B2 Y B- A2A1 + C D- BY+ B1 B2 Y B- A2A1
MANIFOLD VALVE
ZONE
3ZO
NE 4
ZONE
5ZO
NE 6
12V
DRAIN WIRE -NOT CONNECTED
8 CORE SHIELDED 9538 BELDEN CABLE
NETWORK CABLE
8 CORE SHIELDED 9538 BELDEN CABLE
NETWORK CABLE
8 CORE SHIELDED 9538 BELDEN CABLE
NETWORK CABLE8 CORE SHIELDED
9538 BELDEN CABLE NETWORK CABLE
SEE NOTE 2
SEE NOTE 4
L
N
L
N
L
N
L
N
L
N
L
N
L
N
L
N
BOILER/HEAT SOURCE
OPTIONAL UFH ZONE VALVESEE NOTE 3
SEE NOTE 3
OPTIONAL ZONE VALVE FOR ADDITIONAL HEATING ZONE(TOWEL RAILS / RADIATORS)
SEE NOTE 2
HOT WATER
YB
YB
+- TO
UCHP
ADZO
NE 1
ZONE
2
ZONE
7ZO
NE 8
LINE
INLIN
E OU
T
+ A1- A2
ZONE 2+ A1
- A2
ZONE 1+
-
ZONE 7
A2A1
E
DRAI
NAGE
W
IRE
DRAINAGE WIRE
DRAINAGE WIRE
1.5MM2 CABLE
1.5MM2 CABLE
1.5MM2 CABLE
ORANGE AND GREY SWITCH WIRES
CAN BE IGNORED
+ C- D
TOUCHPADZONE 8
A2A1
5 amp 230v
800ma time delay 800ma time delay
SEE NOTE 10
SEE NOTE 1
SEE NOTE 9
SEE NOTE 7
SEE NOTE 5
SEE NOTE 5
LIVE IN
LIVE OUT
1.5MM2 CABLE(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED) 12V (INSTALLER SUPPLIED)
12V (INSTALLER SUPPLIED) 12V (INSTALLER SUPPLIED)
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
SEE NOTE 6SEE NOTE 6
SEE NOTE 8
COLOURS ARE INDICATIVE ONLY.EXTRA CONNECTIONS MAY BE REQUIRED AS PER MANUFACTURERS INSTRUCTIONS
TPLUS AATPLUS/TS/V3) (JGST(JGSTTA(MAX 2 PER
PROGRAMMABLE COMBINED HOT
TPLUS/VAATPLUS/V3)S/TS/V3) (JGST TAAD)OUCHPT(MAX 2 PER
AROOM THERMOST TAPROGRAMMABLE TER & AATER & WCOMBINED HOT
(JGSTTPLUS/V3)
TAAT
AT/TS/V3) (JGST (JGSTAAAT/TS/V3) (JGST(JGSTTATAROOM THERMOST TA
PROGRAMMABLE
T/V3)AAT/V3)T
(JGSTPROGRAMMABLE
TWIN CHANNEL
T2/TS/V3)AAT2/TS/V3)GSTTATAROOM THERMOST TAPROGRAMMABLE
TWIN CHANNEL
T
AD/TFT)OUCHPPAD/TFT)(JGTADOUCHP TJG TFT
AD/TFT)AD
TPLUS AATPLUS/TS/V3) (JGST(JGSTTA
-+
TPLUS/VAATPLUS/V3)S/TS/V3) (JGST TA
A1 A2 BYB2B1
TPLUS/V3)
A1 A2- BY+
SEE NOTE 10
8 CORE SHIELDED
-+8 CORE SHIELDED
A1 A2 BYB2B1
SEE NOTE 1
Y B- DC+
CONNECTEDNOTDRAIN WIRE -
NETWORK CABLE9538 BELDEN CABLE 8 CORE SHIELDED
12V
CONNECTEDNOTDRAIN WIRE -
NETWORK CABLE9538 BELDEN CABLE 8 CORE SHIELDED
12V ALLER SUPPLIED)(INST
CONNECTEDDRAIN WIRE -
NETWORK CABLEBELDEN CABLE 9538
8 CORE SHIELDED
ALLER SUPPLIED)(INST12V
NETWORK CABLE9538 8 CORE SHIELDED
NETWORK CABLEBELDEN CABLE 9538
8 CORE SHIELDED
ALLER SUPPLIED)(INST12V
CONNECTEDNOTDRAIN WIRE -
NETWORK CABLEBELDEN CABLE 9538
8 CORE SHIELDED CONNECTED
DRAIN WIRE -
ALLER SUPPLIED)(INST12V
NETWORK CABLEBELDEN CABLE
8 CORE SHIELDED
ALLER SUPPLIED)
SEE NOTE 9
OR SYSTEM SPUR)(FROM COMMON BOILER
YAC SUPPL230V MAINS SEE NOTE 9
(FROM COMMON BOILER 230V CABLE21.5MMALLER SUPPLIED)(INST
2
DRAI
NAGE
ENL
MAINS IN
DRAINAGE
WIR
EDR
AINA
GE
EE
BB1IN OUT
ENABLEBOILER
B2B1WW
ZONE 3+ETER
TAW
HHHOT E 2ZO NE 2O E 1ZO NE 1ONE 1 ZONE 2
A2+ A
- A2A1+
ZONE 1
A2+
A- A2A1
-A1+
WIREDRAINAGE
SEE NOTE 8
11ZONE 3
A2-A1
ZONE 4
A2-A1+
ZONE 5
A2-A1+
ZONE 6
A2-A1+
2
WIREDRAINAGE
AAAA2
E 7E 7 7ZONE 7
-+
ZONE
1ZO
NE 2
ZONE
4ZO
NE 3
2
AD
-+
BY
ZONE
2ZO
NE 1
ADOU
CHP
OUCH
PTT2
O 1A
AU HC
2
7 7A1
A
N
A2
8E 8ZONE 8 ADPOUCHP
D+ C
-
T
D-C+
ZONE
8
ZONE
6ZO
NE 5
ZONE
4
BY
LINE
OUT
LINE
INZO
NE 8
ZONE
7
FUSED A13 AMP FUSED C
SEE NOTE 7
T 3 AMPSD A AT 3 AMPSONNECTION UNIT C
ALLER SUPPLIED)(INSTCABLE21.5MM
E 6FUSE 3MINI
FUSE 1MINI
800ma time delay
5 amp 230v
ALLER SUPPLIED)
SEE NOTE 6
BOILERPUMP
ELVVATERAW
POWER
4
3
2
1
WHEN LITFUSE OK
ZONESTINGHEA
8
7
6
5
SEE NOTE 6
WHEN LITFUSE OK
extra low voltageFUSE 2MINI
800ma time delaySEE NOTE 6
C SWITCH WIRES S E AND GREYANGE AND OR
GREY
BOILER/HEA
SEE NOTE 5
230V
SOURCETHEAAT
SEE NOTE 5
230V
21NEL
ELVVACYLINDER
TERAAT WHOT
VEALL
VHW
VEN
D SW
ITCH
1E 1 E 2 2INOUT
TAATTH
ERMO
STCY
LINDE
RTE
RAAT
WHO
T
ZONE 3ZONE 2ZONE 1N
L
N
L
N
L
SEE NOTE 5
3O N E 3 ZONE 6ZONE 5ZONE 4ONE 3
SEE NOTE 4
N
L
N
L
N
L
MANIFOLD
ZONE
7
ZONE 7ZONE 6
OFF
ON
ZONE 8
SEE NOTE 2
SEE NOTE 4
N
L
N
L
L NE
E NOTE 3
ND
E
UM
LM
PUMPF MANIFOLD
END
SWIT
CH
ZONE
8
1 NE2 L2 NLD
E
L
LM
OFFOFF
ONON
ELVAVAIF MANIFOLD
SEE NOTE 3
E IGNOREDAN BE IGNOREDCA C SWITCH WIRES S
SUPPLIED CABLE
230V
SEE NOTE 3
CAN BE IGNORED
VE ALLVE FOR ZONE V VALOPTIONAL
VE FOR
CYLINDER STOPTIONAL
TAATDER ST TAOPTIONAL
230V1.5MMLIVE OUT
LIVE IN ALLER SUPPLIED)(INST
ACTURERS INSTRUCTIONSAS PER MANUF CONNECTI EXTRA
ARE INDICACOLOURS
230VCABLE21.5MM
ALLER SUPPLIED)
ACTURERS INSTRUCTIONS BE REQUIRED Y ONS MA Y
.YTIVE ONL LYRE INDICA ATIVE ONL
SUPPLIED CABLES
SUPPLIED CABLES
SUPPLIED CABLE
230V
SUPPLIED CABLE
T RAILS / RADIA ATOWELL RAILS / RADIA(TTING ZONE HEA ATING ZONEADDITIONALL HEA
VE ALLVE FOR ZONE V VALOPTIONAL
SEE NOTE 2
ORS)TING ZONE
VE FOR
SUPPLIED CABLE
230V
SUPPLIED CABLE
230V
OPTIONAL
AL UFH ZONE VOPTIONAL
VELLVE
DH OPTIONALL DHW ZONE V
VEALLVE HW ZONE V VAL
UNDERFLOOR HEA
TING MANIFOLD EA ATING MANIFOLD 1.5MM
O UFH PUMPT230V CABLE21.5MM ALLER SUPPLIED)(INST
OPTIONAL
AL UFH ZONE VOPTIONALSEE NOTE 3
VELLVE
Wiring DiagramJGUH1 Wiring Centre with V3 Thermostats
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGUH1Network 8 Zone Underfloor Heating Wiring Centre UH1Note 1.This thermostat is intended to control 2 zones. It is wired as JGSTAT/TS/V3 but has 2 additionalcontacts marked (B1) and (B2). These contacts are used to control second zone.(A1) & (A2) is the relay for switching the room in which the thermostat is located. (B1) & (B2) is therelay used for controlling the room the thermostat probe is located in. Therefore, (B1) & (B2) should be connected to the zone relevant to the probe. (B1) on thermostat to (A1) on zone and (B2) on thermostat to (A2) on zone as shown in diagram.
Note 2.When using Zones 7 or 8 for controlling radiator circuits instead of UFH, the switch on the zonemust be in the OFF position to prevent the UFH pump from operating.
This will result in fewer zones being available for UFH.
The Zone Valve is activated by connecting the demand wire (normally brown) to the positive terminalof the appropriate actuator connection as shown.
Note 3.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when UFH is offand another ciruit is in operation.If Zone Valve is not used a link needs to be placed between motorised valve connections marked 1 &2 to enable boiler firing. When more than one JGUH1 is used in an installation the boiler enable terminalmust be connected to the boiler from each individual wiring centre.
Note 4.Up to 2 Actuators can be connected to the same terminal. ie max 6 actuators per zone block.
Note 5.Cable as specified by manufacturer. Earth as required.
Note 6 - Fuses.Fuse 1 - 230v (5 amp mini fuse). Power supply for actuators. Fuse 2 - Extra low voltage (800ma Time Delay). 12v supply from transformer.Fuse 3 - Low Voltage (800ma Time Delay). 230v power to transformer.
Note 7 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control maybe mains (LV) or ELV.The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, whichshould be ONLY connected to the "enable" contacts at the boiler.All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.An earth conductor may be required.
Note 8.When more than one JGUH1 is used in an installation the boiler enable terminal must be connectedto the boiler from each individual wiring centre or one JGUH1 to be connected to boiler and everyUH1 boiler enable is to be linked together.
Note 9 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOTisolate all mains voltages present (such as boiler enable).
Note 10 - Network Cable.JG Speedfit recommend Belden 9538 Cable - 8 Core Shielded Network Cable (Max 100m Run).
Z2105/364/08/12
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carriedout by suitable Competent/Qualified persons. The installation MUST becompliant with the IEE Wiring Regulations (British Standard 7671).
HEA
TIN
G C
ON
TRO
LS
39www.speedfitUFH.co.uk
JGUH1Network 8 Zone Underfloor Heating Wiring Centre UH1
Note 1.This thermostat is intended to control 2 zones. It is wired as JGSTAT/TS/V3 but has 2 additional contacts marked (B1) and (B2). These contacts are used to control second zone.
(A1) & (A2) is the relay for switching the room in which the thermostat is located. (B1) & (B2) is the relay used for controlling the room the thermostat probe is located in.
Therefore, (B1) & (B2) should be connected to the zone relevant to the probe.
(B1) on thermostat to (A1) on zone and (B2) on thermostat to (A2) on zone as shown in diagram.
Note 2.When using Zones 7 or 8 for controlling radiator circuits instead of Underfloor Heating, the switch on the zone must be in the OFF position to prevent the UFH pump from operating.
This will result in fewer zones being available for Underfloor Heating.
The Zone Valve is activated by connecting the demand wire (normally brown) to the positive terminal of the appropriate actuator connection as shown.
Note 3.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when Underfloor Heating is off and another ciruit is in operation.
If Zone Valve is not used a link needs to be placed between motorised valve connections marked 1 & 2 to enable boiler firing. When more than one JGUH1 is used in an installation the boiler enable terminal must be connected to the boiler from each individual wiring centre.
Note 4.Up to 2 Actuators can be connected to the same terminal. ie max 6 actuators per zone block.
Note 5.Cable as specified by manufacturer. Earth as required.
Note 6 - Fuses.Fuse 1 - 230V LV (5 amp mini fuse). Power supply for actuators. Fuse 2 - Extra low voltage (800mA Time Delay). 12V supply from transformer.Fuse 3 - Low Voltage (800mA Time Delay). 230V power to transformer.
Note 7 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, which should be ONLY connected to the “enable” contacts at the boiler.
All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.
An earth conductor may be required.
Note 8.When more than one JGUH1 is used in an installation the boiler enable terminal must be connected to the boiler from each individual wiring centre or one JGUH1 to be connected to boiler and every UH1 boiler enable is to be linked together.
Note 9 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOT isolate all mains voltages present (such as boiler enable).
Note 10 - Network Cable.JG Speedfit recommend Belden 9538 Cable - 8 Core Shielded Network Cable (Max 100m Run).
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carried out by suitable Competent/Qualified persons. The installation MUST be compliant with the IEE Wiring Regulations (British Standard 7671).
UNDERFLOOR HEATING MANIFOLD
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
BOILER/HEAT SOURCE
OPTIONAL RADIATORZONE VALVE
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTE)
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTE)
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTE)
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTHW)
OPTION FOR HOT WATER CONTROL OPTION FOR RADIATOR ZONE CONTROL
ZONE 1UFH VALVE
UFH PUMP
TIME CLOCK ZONE 1THERMOSTAT
ZONE 2THERMOSTAT
ZONE 3THERMOSTAT
ZONE 4THERMOSTAT
ZONE 5THERMOSTAT
ZONE 6THERMOSTAT
ZONE 7THERMOSTAT
IF SET TO YESZONE 8 ENABLESTHE BOILER, PUMPAND VALVE.IF SET TO NO ZONE 8 IS ISOLATED
ZONE 8THERMOSTAT
ZONE 2 ZONE 3 ZONE 4 ZONE 5ACTUATORS
ZONE 6 ZONE 7 ZONE 8
ZONE 1
RT1 RT2 N N SL- LN A1 A2 B1L B2 RT1 RT2 N N SL- L RT1 RT2 N N SL- L
ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8
NO
YES
SEE NOTE 3
SEE NOTE 2
SEE NOTE 4
SEE NOTE 5
SEE NOTE 6
L L NNL L NNL L NNL N
L NL N SL L N SL L N SL L N SL L N SL L N SL L N1 2
SL L N SL
EL NEL NE GR OR L L NN L L NNL L NN L L NN L L NN
POWERBOILERVALVE
OUTIN
RELAY
RELAYFUSE
1 21 21 21 21 21 21 2 3 4 1 2
SEE NOTE 1 SEE NOTE 1
SEE NOTE 2
SEE NOTE 1
230V230V
230V
FROM B2
B2 - HOT WATER SWITCHED LIVE
FROM A2
SUPPLIED CABLE
1.5MM2 CABLE
1.5MM 2 CABLE
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
1.5MM2 CABLE
230V(INSTALLER SUPPLIED)
1.5MM2 CABLE
230V(INSTALLER SUPPLIED)
1.5MM2 CABLE 230V(INSTALLER SUPPLIED)
1.5MM2 CABLE
230V 1.5MM2 CABLE
FOR CONNECTION OF HOT WATER CONTROLSPLEASE SEE ADDITIONAL DRAWING ON REVERSE
SUPPLIED CABLE
SEE NOTE 7
BOILERMAINS
OPTION FOR HOT W
PROGRAMMABLE ROOM
TER CONTROLAT T W WA
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
OPTION FOR RADIA
PROGRAMMABLE ROOM
OR ZONE CONTROLT A AT
PROGRAMMABLE ROOM
OR ZONE CONTROL SEE NOTE 2
TAATTHERMOSTTAPROGRAMMABLE ROOM
THW) (JGPRTPROGRAMMABLE ROOM
SEE NOTE 7
AATTHERMOSTTAPROGRAMMABLE ROOM
TE) (JGPRTPROGRAMMABLE ROOM
(JGPRTAATTHERMOSTTAPROGRAMMABLE ROOM
TE) (JGPRPROGRAMMABLE ROOM
THERMOSTPROGRAMMABLE ROOM
TE) (JGPRTAATRMOSTTAPROGRAMMABLE ROOM
L A2A1N
B2B1A2
SWITCHED LIVETER AATER W WAB2 - HOT
(INST
230V
- N2TR1TRSEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)(INST
230V
FRO 2
LSLN
FROM A2FROM B2
230V CABLE21.5MM
ALLER SUPPLIED)(INST
SEE NOTE 1
1.5MM
ALLER SUPPLIED)(INST
230V
- NN2TR1TRSEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)
LSL
(INST
230V
SEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)(INST
230V
L- SLNN2TR1TR
ADDITIONALPLEASE SEE FOR CONNECTION OF HOT
WING ON REVERSE DRAADDITIONALTER CONTROLSAAT W WAFOR CONNECTION OF HOT
TIME CLOCK
NL
THERMOSTZONE 2
TAATTHERMOSTZONE 1TIME CLOCK
YRELA
NLSLNL2121 43
THERMOSTZONE 4
TAATTHERMOSTAZONE 3
TAATTHERMOSTZONE 2
NLSLNLSL12121
ATHERMOSTZONE 6
TAATTHERMOSTAZONE 5
TAATTHERMOSTZONE 4
SLNLSLNLSL21212
NO
TATTHERMOSTZONE 8
O YES TSETIF
TAATTHERMOSTAZONE 7
TAATSLNLSL
21NLSL
21
AIM S
FUSE
EL
MA NS
UMP PO ESS BOI
PUMPF UFH
LVVAUFH
SEE NOTE 4
BOILER
YRELA
YRELA
IN OUT
ELVVABOILERPOWER
ORGRN E NL L
S
E E
ZONE 4ZONE 3ZONE 2ZONE 1
ZONE 3ZONE 2ELV
UFH ZONE 1
SEE NOTE 4
EBOILERPOWER
E N N NLL N NLL L
O E
ZONE 8ZONE 7ZONE 6ZONE 5ZONE 4
ORSTACTUATZONE 5ZONE 4ONE 3
SEE NOTE 3
N NLL LN NLLN NL
E 8
YESZONE 8
ZONE 8ZONE 7ZONE 6
TEDZONE 8 IS ISOLAO NO TIF SETVE.ALLVE.AND V
THE BOILER, PUMPZONE 8 ENABLES
N NLLN NLLN NLL
TED
SEE NOTE 6
SEE NOTE 6
SEE NOTE 4SEE NOTE 4
OTE 4 OTE 4
SEE NOTE 3SEE NOTE 3
3 AMPSTFUSED A AT FUSED CONNECTION UNITAMP13
3 AMPS NNECTION UNIT
230VALLER SUPPLIED)(INST
1.5MM
ALLER SUPPLIED)
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
ABLEC21.5MM
CABLE21.5MM
CABLE21.5MM230VALLER SUPPLIED)(INST
ALLER SUPPLIED)
SUPPLIED CABLE
SUPPLIED
OPTIONAL
230V
CABLESUPPLIED
ORT RADIA ATTIONALL
SEE NOTE 5
OPTIONAL
VEALZONE V VALORT RADIA ATTIONALL RADIA
SEE NOTE 2
TBOILER/HEAAT
SOURCET
UNDERFLOOR HEA
TING MANIFOLDOOR HEA ATING MANIFOLD
TING MANIFOLD
Wiring DiagramJGUH3 WIRING CENTRE WITH 230V JGPRTE
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGUH3230v 8 Zone Underfloor Heating Wiring CentreNote 1.Connect probe to RT1 & - for Floor sensing.Connect probe to R21 & - for Air sensing.
Note 2 - Radiator Zone Control.A simple slide switch makes Zone 8 suitable for controlling a radiator zone.When used for controlling radiators, Zone 8 will enable the actuator terminalsbut does not enable the underfloor heating pump, valve and boiler.
Note 3.Up to 2 Actuators can be connected to the same terminal. i.e. max 4actuators per zone block.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of water tomanifold when UFH is off and another circuit is in operation.
If Zone Valve is not used a link needs to be placed between motorized valveconnections marked GR & OR to enable boiler firing.
Note 5 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The outputfrom the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V,3A maximum, which should be ONLY connected to the "enable" contactsat the boiler.
All connections at the boiler MUST be made in accordance with themanufacturer’s instructions.
An earth conductor may be required.
Note 6 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connectionunit MAY NOT isolate all mains voltages present (such as boiler enable).
Note 7.As JGPRTE but with an addition of a 5day/2day timer for domestic hotwater. Heating and hot water can be set to give different timed controlperiods. For options to use JGPRTHW for additional hot water or towelrail circuits please see reverse.
Note 8.Cable as specified by manufacturer. Earth as required.
Z2105/365/08/12
WarningMains Voltage Electrical Accessories, Connections and Wiring MUSTbe carried out by suitable Competent/Qualified persons. Theinstallation MUST be compliant with the IEE Wiring Regulations(British Standard 7671).
HEA
TIN
G C
ON
TRO
LS
40
WIRING DIAGRAM - JG UH3 WITH 230V JGPRTE
Heating Controls
UNDERFLOOR HEATING MANIFOLD
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
BOILER/HEAT SOURCE
OPTIONAL RADIATORZONE VALVE
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTE)
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTE)
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTE)
PROGRAMMABLE ROOMTHERMOSTAT (JGPRTHW)
OPTION FOR HOT WATER CONTROL OPTION FOR RADIATOR ZONE CONTROL
ZONE 1UFH VALVE
UFH PUMP
TIME CLOCK ZONE 1THERMOSTAT
ZONE 2THERMOSTAT
ZONE 3THERMOSTAT
ZONE 4THERMOSTAT
ZONE 5THERMOSTAT
ZONE 6THERMOSTAT
ZONE 7THERMOSTAT
IF SET TO YESZONE 8 ENABLESTHE BOILER, PUMPAND VALVE.IF SET TO NO ZONE 8 IS ISOLATED
ZONE 8THERMOSTAT
ZONE 2 ZONE 3 ZONE 4 ZONE 5ACTUATORS
ZONE 6 ZONE 7 ZONE 8
ZONE 1
RT1 RT2 N N SL- LN A1 A2 B1L B2 RT1 RT2 N N SL- L RT1 RT2 N N SL- L
ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8
NO
YES
SEE NOTE 3
SEE NOTE 2
SEE NOTE 4
SEE NOTE 5
SEE NOTE 6
L L NNL L NNL L NNL N
L NL N SL L N SL L N SL L N SL L N SL L N SL L N1 2
SL L N SL
EL NEL NE GR OR L L NN L L NNL L NN L L NN L L NN
POWERBOILERVALVE
OUTIN
RELAY
RELAYFUSE
1 21 21 21 21 21 21 2 3 4 1 2
SEE NOTE 1 SEE NOTE 1
SEE NOTE 2
SEE NOTE 1
230V230V
230V
FROM B2
B2 - HOT WATER SWITCHED LIVE
FROM A2
SUPPLIED CABLE
1.5MM2 CABLE
1.5MM 2 CABLE
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
1.5MM2 CABLE
230V(INSTALLER SUPPLIED)
1.5MM2 CABLE
230V(INSTALLER SUPPLIED)
1.5MM2 CABLE 230V(INSTALLER SUPPLIED)
1.5MM2 CABLE
230V 1.5MM2 CABLE
FOR CONNECTION OF HOT WATER CONTROLSPLEASE SEE ADDITIONAL DRAWING ON REVERSE
SUPPLIED CABLE
SEE NOTE 7
BOILERMAINS
OPTION FOR HOT W
PROGRAMMABLE ROOM
TER CONTROLAT T W WA
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
PROGRAMMABLE ROOM
OPTION FOR RADIA
PROGRAMMABLE ROOM
OR ZONE CONTROLT A AT
PROGRAMMABLE ROOM
OR ZONE CONTROL SEE NOTE 2
TAATTHERMOSTTAPROGRAMMABLE ROOM
THW) (JGPRTPROGRAMMABLE ROOM
SEE NOTE 7
AATTHERMOSTTAPROGRAMMABLE ROOM
TE) (JGPRTPROGRAMMABLE ROOM
(JGPRTAATTHERMOSTTAPROGRAMMABLE ROOM
TE) (JGPRPROGRAMMABLE ROOM
THERMOSTPROGRAMMABLE ROOM
TE) (JGPRTAATRMOSTTAPROGRAMMABLE ROOM
L A2A1N
B2B1A2
SWITCHED LIVETER AATER W WAB2 - HOT
(INST
230V
- N2TR1TRSEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)(INST
230V
FRO 2
LSLN
FROM A2FROM B2
230V CABLE21.5MM
ALLER SUPPLIED)(INST
SEE NOTE 1
1.5MM
ALLER SUPPLIED)(INST
230V
- NN2TR1TRSEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)
LSL
(INST
230V
SEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)(INST
230V
L- SLNN2TR1TR
ADDITIONALPLEASE SEE FOR CONNECTION OF HOT
WING ON REVERSE DRAADDITIONALTER CONTROLSAAT W WAFOR CONNECTION OF HOT
TIME CLOCK
NL
THERMOSTZONE 2
TAATTHERMOSTZONE 1TIME CLOCK
YRELA
NLSLNL2121 43
THERMOSTZONE 4
TAATTHERMOSTAZONE 3
TAATTHERMOSTZONE 2
NLSLNLSL12121
ATHERMOSTZONE 6
TAATTHERMOSTAZONE 5
TAATTHERMOSTZONE 4
SLNLSLNLSL21212
NO
TATTHERMOSTZONE 8
O YES TSETIF
TAATTHERMOSTAZONE 7
TAATSLNLSL
21NLSL
21
AIM S
FUSE
EL
MA NS
UMP PO ESS BOI
PUMPF UFH
LVVAUFH
SEE NOTE 4
BOILER
YRELA
YRELA
IN OUT
ELVVABOILERPOWER
ORGRN E NL L
S
E E
ZONE 4ZONE 3ZONE 2ZONE 1
ZONE 3ZONE 2ELV
UFH ZONE 1
SEE NOTE 4
EBOILERPOWER
E N N NLL N NLL L
O E
ZONE 8ZONE 7ZONE 6ZONE 5ZONE 4
ORSTACTUATZONE 5ZONE 4ONE 3
SEE NOTE 3
N NLL LN NLLN NL
E 8
YESZONE 8
ZONE 8ZONE 7ZONE 6
TEDZONE 8 IS ISOLAO NO TIF SETVE.ALLVE.AND V
THE BOILER, PUMPZONE 8 ENABLES
N NLLN NLLN NLL
TED
SEE NOTE 6
SEE NOTE 6
SEE NOTE 4SEE NOTE 4
OTE 4 OTE 4
SEE NOTE 3SEE NOTE 3
3 AMPSTFUSED A AT FUSED CONNECTION UNITAMP13
3 AMPS NNECTION UNIT
230VALLER SUPPLIED)(INST
1.5MM
ALLER SUPPLIED)
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
ABLEC21.5MM
CABLE21.5MM
CABLE21.5MM230VALLER SUPPLIED)(INST
ALLER SUPPLIED)
SUPPLIED CABLE
SUPPLIED
OPTIONAL
230V
CABLESUPPLIED
ORT RADIA ATTIONALL
SEE NOTE 5
OPTIONAL
VEALZONE V VALORT RADIA ATTIONALL RADIA
SEE NOTE 2
TBOILER/HEAAT
SOURCET
UNDERFLOOR HEA
TING MANIFOLDOOR HEA ATING MANIFOLD
TING MANIFOLD
Wiring DiagramJGUH3 WIRING CENTRE WITH 230V JGPRTE
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGUH3230v 8 Zone Underfloor Heating Wiring CentreNote 1.Connect probe to RT1 & - for Floor sensing.Connect probe to R21 & - for Air sensing.
Note 2 - Radiator Zone Control.A simple slide switch makes Zone 8 suitable for controlling a radiator zone.When used for controlling radiators, Zone 8 will enable the actuator terminalsbut does not enable the underfloor heating pump, valve and boiler.
Note 3.Up to 2 Actuators can be connected to the same terminal. i.e. max 4actuators per zone block.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of water tomanifold when UFH is off and another circuit is in operation.
If Zone Valve is not used a link needs to be placed between motorized valveconnections marked GR & OR to enable boiler firing.
Note 5 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The outputfrom the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V,3A maximum, which should be ONLY connected to the "enable" contactsat the boiler.
All connections at the boiler MUST be made in accordance with themanufacturer’s instructions.
An earth conductor may be required.
Note 6 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connectionunit MAY NOT isolate all mains voltages present (such as boiler enable).
Note 7.As JGPRTE but with an addition of a 5day/2day timer for domestic hotwater. Heating and hot water can be set to give different timed controlperiods. For options to use JGPRTHW for additional hot water or towelrail circuits please see reverse.
Note 8.Cable as specified by manufacturer. Earth as required.
Z2105/365/08/12
WarningMains Voltage Electrical Accessories, Connections and Wiring MUSTbe carried out by suitable Competent/Qualified persons. Theinstallation MUST be compliant with the IEE Wiring Regulations(British Standard 7671).
HEA
TIN
G C
ON
TRO
LS
41www.speedfitUFH.co.uk
JGUH3230v 8 Zone Underfloor Heating Wiring Centre
Note 1.Connect probe to RT1 & - for Floor sensing.Connect probe to RT2 & - for Air sensing.
Note 2 - Radiator Zone Control.A simple slide switch makes Zone 8 suitable for controlling a radiator zone. When used for controlling radiators, Zone 8 will enable the actuator terminals but does not enable the underfloor heating pump, valve and boiler.
Note 3.Up to 2 Actuators can be connected to the same terminal. i.e. max 4 actuators per zone block.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when Underfloor Heating is off and another circuit is in operation.
If Zone Valve is not used a link needs to be placed between motorized valve connections marked GR & OR to enable boiler firing.
Note 5 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, which should be ONLY connected to the “enable” contacts at the boiler.
All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.
An earth conductor may be required.
Note 6 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOT isolate all mains voltages present (such as boiler enable).
Note 7.As JGPRTE but with an addition of a 5day/2day timer for domestic hot water. Heating and hot water can be set to give different timed control periods. For options to use JGPRTHW for additional hot water or towel rail circuits please see reverse.
Note 8.Cable as specified by manufacturer. Earth as required.
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carried out by suitable Competent/Qualified persons. The installation MUST be compliant with the IEE Wiring Regulations (British Standard 7671).
UNDERFLOOR HEATING MANIFOLD
OPTIONAL RADIATORZONE VALVE
SET BACK DIAL THERMOSTATZONE 8 / TIME CHANNEL 2
SET BACK DIAL THERMOSTATZONE 1 / TIME CHANNEL 1
(PART NO. JGDSSB)
4 CHANNEL TIME CLOCK (PART NO. JGTM4)
ZONE 1UFH VALVE
UFH PUMP
ZONE 1THERMOSTAT
ZONE 2THERMOSTAT
ZONE 3THERMOSTAT
ZONE 4THERMOSTAT
ZONE 5THERMOSTAT
ZONE 6THERMOSTAT
ZONE 7THERMOSTAT
IF SET TO YESZONE 8 ENABLESTHE BOILER, PUMPAND VALVE.IF SET TO NO ZONE 8 IS ISOLATED
ZONE 8THERMOSTAT
ZONE 2 ZONE 3 ZONE 4 ZONE 5ACTUATORS
ZONE 6 ZONE 7 ZONE 8
ZONE 1
N1 2 3
L4 RT+ N SLRT- L RT+ N SLRT- L
ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8
NO
YES
SEE NOTE 3
SEE NOTE 2
SEE NOTE 7
SEE NOTE 4
SEE NOTE 5
L L NNL L NNL L NNL N
L NL N SL L N SL L N SL L N SL L N SL L N SL L N1 2
SL L N SL
EL NEL NE GR OR L L NN L L NNL L NN L L NN L L NN
POWERBOILERVALVE
OUTIN
RELAY
RELAYFUSE
1 21 21 21 21 21 21 2 1 2
SEE NOTE 4
SET BACK DIAL THERMOSTATZONE 2 / TIME CHANNEL 1
(PART NO. JGDSSB)
SET BACK DIAL THERMOSTATZONE 3 / TIME CHANNEL 1
(PART NO. JGDSSB)
RT+ N SLRT- LRT+ N SLRT- L
3 4
TIME CLOCK
BOILER/HEAT SOURCE
MAINS
230V
230V
230V
230V
SEE NOTE 1
SEE NOTE 8
SEE NOTE 1 SEE NOTE 1 SEE NOTE 1
SUPPLIED CABLE
1.5MM2 CABLE
1.5MM2 CABLE
1.5MM2 CABLE
SUPPLIED CABLE1.5MM 2 CABLE (INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED) 230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
OPTION FOR HOT WATER CONTROL
FOR CONNECTION OF HOT WATER CONTROLSPLEASE SEE ADDITIONAL DRAWING ON REVERSE
OPTION FOR RADIATOR ZONE CONTROL SEE NOTE 2
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
SEE NOTE 6
BOILER
TIME CLOCK 4 CHANNEL
OPTION FOR HOT W
TIME CLOCK
TER CONTROLAT W W
THERMOST BACK DIALSET
TAATMOSTTA
BACK DIALSET
TAATTHERMOSTTA BACK DIAL
THERMOST BACK DIALSET
TAATHERMOSTTA
OPTION FOR RADIA
THERMOST BACK DIALSET
OR ZONE CONTROLT R RADIA AT
TAATOSTTA
OR ZONE CONTROL SEE NOTE 2
L N
NO. JGTM4)TAR(PPAR
NO. JGTM4)
NO. JGDSSB) TAR(PPATIME CHANNELZONE 1 /
NO. JGDSSB) 1 EL L 1
A(PPARZONE 2 /
NO. JGDSSB) TAR 1 TIME CHANNEL L 1 ZONE 2 /
NO. JGDSSB) TAR(PPARTIME CHANNELZONE 3 /
NO. JGDSSB) 1 HANNEL L 1
TIME CHANNELZONE 8 /
2 EL L 2
L21
N
SEE NOTE 8
43
230V
SEE NOTE 1
SEE NOTE 8
1.5MM
ALLE (INSTTA
LT-R SLNT+RSEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)
SL
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
T+R
2
SEE NOTE 1
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
LT-R SLNT+
CABLE
230V
LT-R+TRSEE NOTE 1
ALLER SUPPLIED)(INSTTA
CABLE21.5MM230V
SLNSEE NOTE 1
LT-R N+TRSEE NOTE 1
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
SLN
DRAADDITIONALPLEASE SEE FOR CONNECTION OF HOT
WING ON REVERSE DRATER CONTROLSAT W WAFOR CONNECTION OF HOT
ATHERMOSTAZONE 1
SLNL NL
TIME CLOCK
TAATTHERMOSTZONE 3
TAATTHERMOSTAZONE 2
TAATSLNLSLNLSL
THERMOSTTAATTHERMOSTZONE 5
TAATTHERMOSTZONE 4
SEE NOTE 7
LSLNLSLNL
THERMOSTZONE 8
TAATTHERMOSTZONE 7
TATTHERMOSTZONE 6
NLSLNLSLNL
TAATTHERMOSTZONE 8
SLN
FUSE
YRELA
YRELA
IN OUTE NL E NL
2121 43
ZONE 3ZONE 2ZONE 1ELVVABOILERPOWER
ORGR E NL N NLL LL
2121
ZONE 7ZONE 6ZONE 5ZONE 4ZONE 3
LN NLLN N N NLL
2121
YES
NO
ZONE 8ZONE 7ZONE 8 IS ISOLAIF SET
ALAND VTHE BOILER, PUMPZONE 8 ENABLES
SETIF
LN NLLN NL N NLL
2121
TEDZONE 8 IS ISOLAO NO TVE.ALLV
THE BOILER, PUMPZONE 8 ENABLES
O YES T
N NLL
21
SEE NOTE 6
O EAIMUMPP P
SS BOIPUMP
F UFH MA NS BOILER
E
SEE NOTE 4
ZONE 2ELVVA
UFH ZONE 1
SEE NOTE 4
E O E
SEE NOTE 3ORSTACTUAATZONE 5ZONE 4ZONE 3NE 2
SEE NOTE 3
3
ZONE 7ZONE 6ORSZONE 5
3
E 8ZONE 8
T 3 AMFUSED A AT 3 AMPSONNE 13 AMP FUSED C
230V 21.5MM
T 3 AMPSECTION UNIT
CABLE ALLER SUPPLIED)(INSTTALLER SUPPLIED)
ALLER SUPPLIED)(INSTTALLER SUPPLIED)ABLEC21.5MM
230V 1.5MM(INST
ALLER SUPPLIED)
CABLE21.5MMALLER SUPPLIED)STTALLER SUPPLIED)
SUPPLIED CABLE
SUPPLIED CABLE
230V
CABLESUPPLIED
SEE NOTE 5
(INST
ALLER SUPPLIED)STTALLER SUPPLIED)
VEALLVEZONE V VALORT RADIA ATOPTIONALL RADIA
SEE NOTE 2
OR
SOURCETBOILER/HEAAT
SOURCE
UNDERFLOOR HEA
TING MANIFOLDNDERFLOOR HEA ATING MANIFOLD
TING MANIFOLD
Wiring DiagramJGUH3 Wiring Centre with JGDSSB
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGUH3230v 8 Zone Underfloor Heating Wiring CentreNote 1.Connect probe to RT+ and RT- for Air sensing.
Note 2 - Radiator Zone Control.A simple slide switch makes Zone 8 suitable for controlling a radiator zone. When used for controlling radiators,Zone 8 will enable the actuator terminals but does not enable the underfloor heating pump, valve andboiler.Cable as specified by manufacturer. Earth as required.
Note 3.Up to 2Actuators can be connected to the same terminal. i.e. max 4 actuators per zone block.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when UFH is off andanother circuit is in operation.
If Zone Valve is not used a link needs to be placed between motorized valve connections marked GR & ORto enable boiler firing.
Note 5 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control may bemains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, which should beONLY connected to the "enable" contacts at the boiler.
All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.
An earth conductor may be required.
Note 6 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOT isolateall mains voltages present (such as boiler enable).
Note 7 - Set Back Function.The set back function is a simple way of reducing energy costs by automatically reducing the thermostattemperature when the heating is timed to be off.
Standard dial thermostats are either on or off. A Set Back Thermostat is different as it has 2 temperatures.(High & Set Back). When Set Back mode is activated from the JGTM4 Time Clock, the thermostat willautomatically reduce the temperature by 4°C.
2 time channels are provided to allow 2 different Set Back time periods to be set.
Multiple thermostats can be grouped together on one of two time channels to allow different rooms to worktogether.
E.g. Bedrooms and Living Areas
Note 8.When using the 4 Channel Time Clock (JGTM4) Channel 3 & 4 can be used for controlling the on/off switchingtime for hot water, radiators or towel rail circuits. See reverse for additional details.
Note 9.Cable as specified by manufacturer. Earth as required.
1 2
1 2
Z2105/366/08/12
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carried out bysuitable Competent/Qualified persons. The installation MUST be compliant with the IEEWiring Regulations (British Standard 7671).
HEA
TIN
G C
ON
TRO
LS
42
WIRING DIAGRAM - JG UH3 WITH JGDSSB
Heating Controls
UNDERFLOOR HEATING MANIFOLD
OPTIONAL RADIATORZONE VALVE
SET BACK DIAL THERMOSTATZONE 8 / TIME CHANNEL 2
SET BACK DIAL THERMOSTATZONE 1 / TIME CHANNEL 1
(PART NO. JGDSSB)
4 CHANNEL TIME CLOCK (PART NO. JGTM4)
ZONE 1UFH VALVE
UFH PUMP
ZONE 1THERMOSTAT
ZONE 2THERMOSTAT
ZONE 3THERMOSTAT
ZONE 4THERMOSTAT
ZONE 5THERMOSTAT
ZONE 6THERMOSTAT
ZONE 7THERMOSTAT
IF SET TO YESZONE 8 ENABLESTHE BOILER, PUMPAND VALVE.IF SET TO NO ZONE 8 IS ISOLATED
ZONE 8THERMOSTAT
ZONE 2 ZONE 3 ZONE 4 ZONE 5ACTUATORS
ZONE 6 ZONE 7 ZONE 8
ZONE 1
N1 2 3
L4 RT+ N SLRT- L RT+ N SLRT- L
ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8
NO
YES
SEE NOTE 3
SEE NOTE 2
SEE NOTE 7
SEE NOTE 4
SEE NOTE 5
L L NNL L NNL L NNL N
L NL N SL L N SL L N SL L N SL L N SL L N SL L N1 2
SL L N SL
EL NEL NE GR OR L L NN L L NNL L NN L L NN L L NN
POWERBOILERVALVE
OUTIN
RELAY
RELAYFUSE
1 21 21 21 21 21 21 2 1 2
SEE NOTE 4
SET BACK DIAL THERMOSTATZONE 2 / TIME CHANNEL 1
(PART NO. JGDSSB)
SET BACK DIAL THERMOSTATZONE 3 / TIME CHANNEL 1
(PART NO. JGDSSB)
RT+ N SLRT- LRT+ N SLRT- L
3 4
TIME CLOCK
BOILER/HEAT SOURCE
MAINS
230V
230V
230V
230V
SEE NOTE 1
SEE NOTE 8
SEE NOTE 1 SEE NOTE 1 SEE NOTE 1
SUPPLIED CABLE
1.5MM2 CABLE
1.5MM2 CABLE
1.5MM2 CABLE
SUPPLIED CABLE1.5MM 2 CABLE (INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED) 230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
OPTION FOR HOT WATER CONTROL
FOR CONNECTION OF HOT WATER CONTROLSPLEASE SEE ADDITIONAL DRAWING ON REVERSE
OPTION FOR RADIATOR ZONE CONTROL SEE NOTE 2
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
SEE NOTE 6
BOILER
TIME CLOCK 4 CHANNEL
OPTION FOR HOT W
TIME CLOCK
TER CONTROLAT W W
THERMOST BACK DIALSET
TAATMOSTTA
BACK DIALSET
TAATTHERMOSTTA BACK DIAL
THERMOST BACK DIALSET
TAATHERMOSTTA
OPTION FOR RADIA
THERMOST BACK DIALSET
OR ZONE CONTROLT R RADIA AT
TAATOSTTA
OR ZONE CONTROL SEE NOTE 2
L N
NO. JGTM4)TAR(PPAR
NO. JGTM4)
NO. JGDSSB) TAR(PPATIME CHANNELZONE 1 /
NO. JGDSSB) 1 EL L 1
A(PPARZONE 2 /
NO. JGDSSB) TAR 1 TIME CHANNEL L 1 ZONE 2 /
NO. JGDSSB) TAR(PPARTIME CHANNELZONE 3 /
NO. JGDSSB) 1 HANNEL L 1
TIME CHANNELZONE 8 /
2 EL L 2
L21
N
SEE NOTE 8
43
230V
SEE NOTE 1
SEE NOTE 8
1.5MM
ALLE (INSTTA
LT-R SLNT+RSEE NOTE 1
CABLE21.5MM
ALLER SUPPLIED)
SL
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
T+R
2
SEE NOTE 1
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
LT-R SLNT+
CABLE
230V
LT-R+TRSEE NOTE 1
ALLER SUPPLIED)(INSTTA
CABLE21.5MM230V
SLNSEE NOTE 1
LT-R N+TRSEE NOTE 1
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
SLN
DRAADDITIONALPLEASE SEE FOR CONNECTION OF HOT
WING ON REVERSE DRATER CONTROLSAT W WAFOR CONNECTION OF HOT
ATHERMOSTAZONE 1
SLNL NL
TIME CLOCK
TAATTHERMOSTZONE 3
TAATTHERMOSTAZONE 2
TAATSLNLSLNLSL
THERMOSTTAATTHERMOSTZONE 5
TAATTHERMOSTZONE 4
SEE NOTE 7
LSLNLSLNL
THERMOSTZONE 8
TAATTHERMOSTZONE 7
TATTHERMOSTZONE 6
NLSLNLSLNL
TAATTHERMOSTZONE 8
SLN
FUSE
YRELA
YRELA
IN OUTE NL E NL
2121 43
ZONE 3ZONE 2ZONE 1ELVVABOILERPOWER
ORGR E NL N NLL LL
2121
ZONE 7ZONE 6ZONE 5ZONE 4ZONE 3
LN NLLN N N NLL
2121
YES
NO
ZONE 8ZONE 7ZONE 8 IS ISOLAIF SET
ALAND VTHE BOILER, PUMPZONE 8 ENABLES
SETIF
LN NLLN NL N NLL
2121
TEDZONE 8 IS ISOLAO NO TVE.ALLV
THE BOILER, PUMPZONE 8 ENABLES
O YES T
N NLL
21
SEE NOTE 6
O EAIMUMPP P
SS BOIPUMP
F UFH MA NS BOILER
E
SEE NOTE 4
ZONE 2ELVVA
UFH ZONE 1
SEE NOTE 4
E O E
SEE NOTE 3ORSTACTUAATZONE 5ZONE 4ZONE 3NE 2
SEE NOTE 3
3
ZONE 7ZONE 6ORSZONE 5
3
E 8ZONE 8
T 3 AMFUSED A AT 3 AMPSONNE 13 AMP FUSED C
230V 21.5MM
T 3 AMPSECTION UNIT
CABLE ALLER SUPPLIED)(INSTTALLER SUPPLIED)
ALLER SUPPLIED)(INSTTALLER SUPPLIED)ABLEC21.5MM
230V 1.5MM(INST
ALLER SUPPLIED)
CABLE21.5MMALLER SUPPLIED)STTALLER SUPPLIED)
SUPPLIED CABLE
SUPPLIED CABLE
230V
CABLESUPPLIED
SEE NOTE 5
(INST
ALLER SUPPLIED)STTALLER SUPPLIED)
VEALLVEZONE V VALORT RADIA ATOPTIONALL RADIA
SEE NOTE 2
OR
SOURCETBOILER/HEAAT
SOURCE
UNDERFLOOR HEA
TING MANIFOLDNDERFLOOR HEA ATING MANIFOLD
TING MANIFOLD
Wiring DiagramJGUH3 Wiring Centre with JGDSSB
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGUH3230v 8 Zone Underfloor Heating Wiring CentreNote 1.Connect probe to RT+ and RT- for Air sensing.
Note 2 - Radiator Zone Control.A simple slide switch makes Zone 8 suitable for controlling a radiator zone. When used for controlling radiators,Zone 8 will enable the actuator terminals but does not enable the underfloor heating pump, valve andboiler.Cable as specified by manufacturer. Earth as required.
Note 3.Up to 2Actuators can be connected to the same terminal. i.e. max 4 actuators per zone block.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when UFH is off andanother circuit is in operation.
If Zone Valve is not used a link needs to be placed between motorized valve connections marked GR & ORto enable boiler firing.
Note 5 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control may bemains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, which should beONLY connected to the "enable" contacts at the boiler.
All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.
An earth conductor may be required.
Note 6 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOT isolateall mains voltages present (such as boiler enable).
Note 7 - Set Back Function.The set back function is a simple way of reducing energy costs by automatically reducing the thermostattemperature when the heating is timed to be off.
Standard dial thermostats are either on or off. A Set Back Thermostat is different as it has 2 temperatures.(High & Set Back). When Set Back mode is activated from the JGTM4 Time Clock, the thermostat willautomatically reduce the temperature by 4°C.
2 time channels are provided to allow 2 different Set Back time periods to be set.
Multiple thermostats can be grouped together on one of two time channels to allow different rooms to worktogether.
E.g. Bedrooms and Living Areas
Note 8.When using the 4 Channel Time Clock (JGTM4) Channel 3 & 4 can be used for controlling the on/off switchingtime for hot water, radiators or towel rail circuits. See reverse for additional details.
Note 9.Cable as specified by manufacturer. Earth as required.
1 2
1 2
Z2105/366/08/12
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carried out bysuitable Competent/Qualified persons. The installation MUST be compliant with the IEEWiring Regulations (British Standard 7671).
HEA
TIN
G C
ON
TRO
LS
43www.speedfitUFH.co.uk
JGUH3230v 8 Zone Underfloor Heating Wiring Centre
Note 1.Connect probe to RT+ and RT- for Air sensing.
Note 2 - Radiator Zone Control.A simple slide switch makes Zone 8 suitable for controlling a radiator zone. When used for controlling radiators, Zone 8 will enable the actuator terminals but does not enable the underfloor heating pump, valve and boiler.Cable as specified by manufacturer. Earth as required.
Note 3.Up to 2 Actuators can be connected to the same terminal. i.e. max 4 actuators per zone block.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when Underfloor Heating is off and another circuit is in operation.
If Zone Valve is not used a link needs to be placed between motorized valve connections marked GR & OR to enable boiler firing.
Note 5 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, which should be ONLY connected to the “enable” contacts at the boiler.
All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.
An earth conductor may be required.
Note 6 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOT isolate all mains voltages present (such as boiler enable).
Note 7 - Set Back Function.The set back function is a simple way of reducing energy costs by automatically reducing the thermostat temperature when the heating is timed to be off.
Standard dial thermostats are either on or off. A Set Back Thermostat is different as it has 2 temperatures. (High & Set Back). When Set Back mode is activated from the JGTM4 Time Clock, the thermostat will automatically reduce the temperature by 4°C.
2 time channels are provided to allow 2 different Set Back time periods to be set.
Multiple thermostats can be grouped together on one of two time channels to allow different rooms to work together. E.g. Bedrooms and Living Areas.
Note 8.When using the 4 Channel Time Clock (JGTM4) Channel 3 & 4 can be used for controlling the on/off switching time for hot water, radiators or towel rail circuits. See reverse for additional details.
Note 9.Cable as specified by manufacturer. Earth as required.
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carried out by suitable Competent/Qualified persons. The installation MUST be compliant with the IEE Wiring Regulations (British Standard 7671).
MAINS IN BOILERENABLE
K10
HOTWATER
ZONE 1 ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8
POWERBOILER
1 2 3 45 6 7 8
PUMPH/W
UFH VALVE UFH PUMPL E N
DHW VALVEDHW STAT
LOUT
OUTIN
E N
L E N
L E N
K1 K2 K3 K4 K5 K6 K7 K8
MINI FUSE 15 am
p 230v electrics
MINI FUSE 2800m
a electronics
MINI FUSE 3
PUMPRELAY
AERIAL SUPPLIEDWITH JGWWC
2 amp m
ini fuse U
FH pum
p
TO BOILERENABLE
TO BOILERENABLE
UNDERFLOOR HEATING MANIFOLD
WIRELESS PROGRAMMABLE ROOM THERMOSTAT (JGWPRT)
WIRELESS PROGRAMMABLEROOM THERMOSTAT WITH
HOT WATER TIMER (JGWPRTHW)SEE NOTE 5
SEE NOTE 5
SEE NOTE 1
SEE NOTE 4
SEE NOTE 3
SEE NOTE 3
SEE NOTE 8
SEE NOTE 7
SEE NOTE 6
SEE NOTE 6
ON
1 2 3 4 5 6 7 8 9 10
IN
1 2
34
5678
9
OPTIONAL UFHZONE VALVE
BOILER/HEAT SOURCE
230V
230V230V
1.5MM2 CABLE
SUPPLIED CABLE
SUPPLIED CABLE
230V TO UFH PUMP1.5MM2 CABLE
SUPPLIED CABLES
LIVE IN
LIVE OUT
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
OPTION FOR HOT WATER CONTROL
COLOURS ARE INDICATIVE ONLY.EXTRA CONNECTIONS MAY BE REQUIRED AS PER MANUFACTURERS INSTRUCTIONS
SEE NOTE 8
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
1.5MM230V
ALLER SUPPLIED)
CABLE21.5MM
ROOM THERMOSTWIRELESS PROGRAMMABLE
T)(JGWPRTAAT ST TAWIRELESS PROGRAMMABLE
BOILER/HEA
SEE NOTE 7
SOURCET/HEAAT
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
NN M EOBOILERMAINS IN
ROOM THERMOST
T)(JGWPRTAAT ST TA
SEE NOTE 1
WITH JGWWC SUPPLIEDAERIAL
WITH JGWWC SUPPLIED
FUSED A FUSED CONNECTION UNITAMP13
3 AMPSTUSED A AT SED CONNECTION UN
FUSED CONNECTION UNIT
NEL UN
800ma elec
MINI FUSE 2
5 amp 230v elec
MINI FUSE 1
N
N
E
N
L
M
INN
OUTBLENABLEEOBOILERMAINS IN
SEE NOTE 3
K10
BOILERPOWER
2
H/WPUMP SEE NOTE 5
987654321
ON
9
87 6 5
43
21
10
OPTION FOR HOT W
TER CONAATER CONTROL FOR HOT W W
TER CONTROL
onicstr
800ma elec
MINI FUSE 2icstr
5 amp 230v elec
MINI FUSE 1
TERAATERWHOT
K3K2K1
K7K6K5K4
6521
K8K7
8743
YRELAPUMP
UFH
pump
2 amp m
ini fuse MINI FUSE 3
HOTROOM THERMOST
WIRELESS PROGRAMMABLE
THW)TIMER (JGWPRTER AATER WWITHTAATOOM THERMOST TA
WIRELESS PROGRAMMABLE
THW)WITH
WIRELESS PROGRAMMABLESEE NOTE 6
EU
T
L N
N
NV
E V
OUT
S
LDHW V
TAT
SD DHW
NVEALLVEDHW V A
ENABLEO BOILERT
E NOTE 6
IN
Z O Z O Z O ZONE 3ZONE 2ZONE 1
O BOILER
SEE NOTE 5
Z ONE 4 4
E
ZONE 6ZONE 5ZONE 4
E E OT SEE NOTE 5
L E NNE
E V
LUF UFH PUMPVE
E 4
ALVUFH V A
E NOTE 4 O
ZONE 8ZONE 7
ENABLEO BOILERT
SEE NOTE 4
SEE NOTE 3
L NE N PE P
LU UFH PUMP
SEE NOTE 3
SEE NOTE 6
LIVE OUT
LIVE IN
ACTURERS INSTRUCTIONSAS PER MANUF BE REQUIRED Y CONNECTIONS MAEXTRA TIV ARE INDICA ATIVE ONLCOLOURS
CABLE21.5MM230V
ACTURERS INSTRUCTIONS BE REQUIRED
.YVE ONL LY
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
SUPPLIED CABLES
SUPPLIED CABLE
230V
SUPPLIED CABLE
SUPPLIED CABLE
230V
SUPPLIED CABLE
O UFH PUMPT230V
VEALLVEZONE V VAL UFHOPTIONALL UFH
UFH
UNDERFLOOR HEA
TING MANIFOLD HEA ATING MANIFOLD
CABLE21.5MM
O UFH PUMPT230V ALLER SUPPLIED)(INSTTALLER SUPPLIED)
ALLER SUPPLIED)
Wiring DiagramJGWWC Wireless UFH Wiring Centre with JGWPRT
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGWWC Wireless Underfloor Heating Wiring Centre
Note 1 - Wiring Centre Number Selection Dial.Up to 9 JGWWC’s can be used in a system. The wiring centrenumber needs to be set and matched to the room stats to bepaired to this box.
Note 2.Default standard position is down.
Note 3 - Fuses.Mini Fuse 1 - Power Supply (5Amp mini fuse)Mini Fuse 2 - 800ma Electronics (800ma Time Delay mini fuse)Mini Fuse 3 - 230v (2amp mini fuse) UFH Pump.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of waterto manifold when UFH is off and another circuit is in operation.
Note 5.Up to 2 Actuators can be connected to the same terminal. i.e.max 6 actuators per zone block.
Note 6.Cable as specified by manufacturer. Earth as required.
Note 7 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fusedconnection unit MAY NOT isolate all mains voltages present (such asboiler enable).
Note 8 - Boiler Control Connection.This is required to fire the boiler under demand conditions. Theoutput from the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contactsrated at 230V, 3A maximum, which should be ONLY connectedto the "enable" contacts at the boiler.
All connections at the boiler MUST be made in accordancewith the manufacturer’s instructions.
An earth conductor may be required.
Aerial Extension (Optional).In areas of poor reception, this item can beused to replace the factory supplied aerial onthe wiring centre. Comes with 3m of cable forflexible location.
Wireless Signal Repeater (Optional).In areas of poor reception, the mains poweredrepeater will boost the signals from theaffected wireless stats to the wiring centre.
Z2105/363/08/12
WarningMains Voltage Electrical Accessories, Connections and WiringMUST be carried out by suitable Competent/Qualifiedpersons. The installation MUST be compliant with the IEEWiring Regulations (British Standard 7671).
HEA
TIN
G C
ON
TRO
LS
44
WIRING DIAGRAM - JG WWC WIRELESS UFH WIRING CENTRE WITH JGWPRT
Heating Controls
MAINS IN BOILERENABLE
K10
HOTWATER
ZONE 1 ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8
POWERBOILER
1 2 3 45 6 7 8
PUMPH/W
UFH VALVE UFH PUMPL E N
DHW VALVEDHW STAT
LOUT
OUTIN
E N
L E N
L E N
K1 K2 K3 K4 K5 K6 K7 K8
MINI FUSE 15 am
p 230v electrics
MINI FUSE 2800m
a electronics
MINI FUSE 3
PUMPRELAY
AERIAL SUPPLIEDWITH JGWWC
2 amp m
ini fuse U
FH pum
p
TO BOILERENABLE
TO BOILERENABLE
UNDERFLOOR HEATING MANIFOLD
WIRELESS PROGRAMMABLE ROOM THERMOSTAT (JGWPRT)
WIRELESS PROGRAMMABLEROOM THERMOSTAT WITH
HOT WATER TIMER (JGWPRTHW)SEE NOTE 5
SEE NOTE 5
SEE NOTE 1
SEE NOTE 4
SEE NOTE 3
SEE NOTE 3
SEE NOTE 8
SEE NOTE 7
SEE NOTE 6
SEE NOTE 6
ON
1 2 3 4 5 6 7 8 9 10
IN
1 2
34
5678
9
OPTIONAL UFHZONE VALVE
BOILER/HEAT SOURCE
230V
230V230V
1.5MM2 CABLE
SUPPLIED CABLE
SUPPLIED CABLE
230V TO UFH PUMP1.5MM2 CABLE
SUPPLIED CABLES
LIVE IN
LIVE OUT
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
OPTION FOR HOT WATER CONTROL
COLOURS ARE INDICATIVE ONLY.EXTRA CONNECTIONS MAY BE REQUIRED AS PER MANUFACTURERS INSTRUCTIONS
SEE NOTE 8
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
1.5MM230V
ALLER SUPPLIED)
CABLE21.5MM
ROOM THERMOSTWIRELESS PROGRAMMABLE
T)(JGWPRTAAT ST TAWIRELESS PROGRAMMABLE
BOILER/HEA
SEE NOTE 7
SOURCET/HEAAT
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
NN M EOBOILERMAINS IN
ROOM THERMOST
T)(JGWPRTAAT ST TA
SEE NOTE 1
WITH JGWWC SUPPLIEDAERIAL
WITH JGWWC SUPPLIED
FUSED A FUSED CONNECTION UNITAMP13
3 AMPSTUSED A AT SED CONNECTION UN
FUSED CONNECTION UNIT
NEL UN
800ma elec
MINI FUSE 2
5 amp 230v elec
MINI FUSE 1
N
N
E
N
L
M
INN
OUTBLENABLEEOBOILERMAINS IN
SEE NOTE 3
K10
BOILERPOWER
2
H/WPUMP SEE NOTE 5
987654321
ON
9
87 6 5
43
21
10
OPTION FOR HOT W
TER CONAATER CONTROL FOR HOT W W
TER CONTROL
onicstr
800ma elec
MINI FUSE 2icstr
5 amp 230v elec
MINI FUSE 1
TERAATERWHOT
K3K2K1
K7K6K5K4
6521
K8K7
8743
YRELAPUMP
UFH
pump
2 amp m
ini fuse MINI FUSE 3
HOTROOM THERMOST
WIRELESS PROGRAMMABLE
THW)TIMER (JGWPRTER AATER WWITHTAATOOM THERMOST TA
WIRELESS PROGRAMMABLE
THW)WITH
WIRELESS PROGRAMMABLESEE NOTE 6
EU
T
L N
N
NV
E V
OUT
S
LDHW V
TAT
SD DHW
NVEALLVEDHW V A
ENABLEO BOILERT
E NOTE 6
IN
Z O Z O Z O ZONE 3ZONE 2ZONE 1
O BOILER
SEE NOTE 5
Z ONE 4 4
E
ZONE 6ZONE 5ZONE 4
E E OT SEE NOTE 5
L E NNE
E V
LUF UFH PUMPVE
E 4
ALVUFH V A
E NOTE 4 O
ZONE 8ZONE 7
ENABLEO BOILERT
SEE NOTE 4
SEE NOTE 3
L NE N PE P
LU UFH PUMP
SEE NOTE 3
SEE NOTE 6
LIVE OUT
LIVE IN
ACTURERS INSTRUCTIONSAS PER MANUF BE REQUIRED Y CONNECTIONS MAEXTRA TIV ARE INDICA ATIVE ONLCOLOURS
CABLE21.5MM230V
ACTURERS INSTRUCTIONS BE REQUIRED
.YVE ONL LY
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
SUPPLIED CABLES
SUPPLIED CABLE
230V
SUPPLIED CABLE
SUPPLIED CABLE
230V
SUPPLIED CABLE
O UFH PUMPT230V
VEALLVEZONE V VAL UFHOPTIONALL UFH
UFH
UNDERFLOOR HEA
TING MANIFOLD HEA ATING MANIFOLD
CABLE21.5MM
O UFH PUMPT230V ALLER SUPPLIED)(INSTTALLER SUPPLIED)
ALLER SUPPLIED)
Wiring DiagramJGWWC Wireless UFH Wiring Centre with JGWPRT
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGWWC Wireless Underfloor Heating Wiring Centre
Note 1 - Wiring Centre Number Selection Dial.Up to 9 JGWWC’s can be used in a system. The wiring centrenumber needs to be set and matched to the room stats to bepaired to this box.
Note 2.Default standard position is down.
Note 3 - Fuses.Mini Fuse 1 - Power Supply (5Amp mini fuse)Mini Fuse 2 - 800ma Electronics (800ma Time Delay mini fuse)Mini Fuse 3 - 230v (2amp mini fuse) UFH Pump.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of waterto manifold when UFH is off and another circuit is in operation.
Note 5.Up to 2 Actuators can be connected to the same terminal. i.e.max 6 actuators per zone block.
Note 6.Cable as specified by manufacturer. Earth as required.
Note 7 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fusedconnection unit MAY NOT isolate all mains voltages present (such asboiler enable).
Note 8 - Boiler Control Connection.This is required to fire the boiler under demand conditions. Theoutput from the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contactsrated at 230V, 3A maximum, which should be ONLY connectedto the "enable" contacts at the boiler.
All connections at the boiler MUST be made in accordancewith the manufacturer’s instructions.
An earth conductor may be required.
Aerial Extension (Optional).In areas of poor reception, this item can beused to replace the factory supplied aerial onthe wiring centre. Comes with 3m of cable forflexible location.
Wireless Signal Repeater (Optional).In areas of poor reception, the mains poweredrepeater will boost the signals from theaffected wireless stats to the wiring centre.
Z2105/363/08/12
WarningMains Voltage Electrical Accessories, Connections and WiringMUST be carried out by suitable Competent/Qualifiedpersons. The installation MUST be compliant with the IEEWiring Regulations (British Standard 7671).
MAINS IN BOILERENABLE
K10
HOTWATER
ZONE 1 ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8
POWERBOILER
1 2 3 45 6 7 8
PUMPH/W
UFH VALVE UFH PUMPL E N
DHW VALVEDHW STAT
LOUT
OUTIN
E N
L E N
L E N
K1 K2 K3 K4 K5 K6 K7 K8
MINI FUSE 15 am
p 230v electrics
MINI FUSE 2800m
a electronics
MINI FUSE 3
PUMPRELAY
AERIAL SUPPLIEDWITH JGWWC
2 amp m
ini fuse U
FH pum
p
TO BOILERENABLE
TO BOILERENABLE
UNDERFLOOR HEATING MANIFOLD
WIRELESS PROGRAMMABLE ROOM THERMOSTAT (JGWPRT)
WIRELESS PROGRAMMABLEROOM THERMOSTAT WITH
HOT WATER TIMER (JGWPRTHW)SEE NOTE 5
SEE NOTE 5
SEE NOTE 1
SEE NOTE 4
SEE NOTE 3
SEE NOTE 3
SEE NOTE 8
SEE NOTE 7
SEE NOTE 6
SEE NOTE 6
ON
1 2 3 4 5 6 7 8 9 10
IN
1 2
34
5678
9
OPTIONAL UFHZONE VALVE
BOILER/HEAT SOURCE
230V
230V230V
1.5MM2 CABLE
SUPPLIED CABLE
SUPPLIED CABLE
230V TO UFH PUMP1.5MM2 CABLE
SUPPLIED CABLES
LIVE IN
LIVE OUT
(INSTALLER SUPPLIED)
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
230V 1.5MM2 CABLE
(INSTALLER SUPPLIED)
13 AMP FUSED CONNECTION UNITFUSED AT 3 AMPS
OPTION FOR HOT WATER CONTROL
COLOURS ARE INDICATIVE ONLY.EXTRA CONNECTIONS MAY BE REQUIRED AS PER MANUFACTURERS INSTRUCTIONS
SEE NOTE 8
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
1.5MM230V
ALLER SUPPLIED)
CABLE21.5MM
ROOM THERMOSTWIRELESS PROGRAMMABLE
T)(JGWPRTAAT ST TAWIRELESS PROGRAMMABLE
BOILER/HEA
SEE NOTE 7
SOURCET/HEAAT
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
CABLE21.5MM230V
NN M EOBOILERMAINS IN
ROOM THERMOST
T)(JGWPRTAAT ST TA
SEE NOTE 1
WITH JGWWC SUPPLIEDAERIAL
WITH JGWWC SUPPLIED
FUSED A FUSED CONNECTION UNITAMP13
3 AMPSTUSED A AT SED CONNECTION UN
FUSED CONNECTION UNIT
NEL UN
800ma elec
MINI FUSE 2
5 amp 230v elec
MINI FUSE 1
N
N
E
N
L
M
INN
OUTBLENABLEEOBOILERMAINS IN
SEE NOTE 3
K10
BOILERPOWER
2
H/WPUMP SEE NOTE 5
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21
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OPTION FOR HOT W
TER CONAATER CONTROL FOR HOT W W
TER CONTROL
onicstr
800ma elec
MINI FUSE 2icstr
5 amp 230v elec
MINI FUSE 1
TERAATERWHOT
K3K2K1
K7K6K5K4
6521
K8K7
8743
YRELAPUMP
UFH
pump
2 amp m
ini fuse MINI FUSE 3
HOTROOM THERMOST
WIRELESS PROGRAMMABLE
THW)TIMER (JGWPRTER AATER WWITHTAATOOM THERMOST TA
WIRELESS PROGRAMMABLE
THW)WITH
WIRELESS PROGRAMMABLESEE NOTE 6
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LDHW V
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ENABLEO BOILERT
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Z O Z O Z O ZONE 3ZONE 2ZONE 1
O BOILER
SEE NOTE 5
Z ONE 4 4
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ZONE 6ZONE 5ZONE 4
E E OT SEE NOTE 5
L E NNE
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LUF UFH PUMPVE
E 4
ALVUFH V A
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ZONE 8ZONE 7
ENABLEO BOILERT
SEE NOTE 4
SEE NOTE 3
L NE N PE P
LU UFH PUMP
SEE NOTE 3
SEE NOTE 6
LIVE OUT
LIVE IN
ACTURERS INSTRUCTIONSAS PER MANUF BE REQUIRED Y CONNECTIONS MAEXTRA TIV ARE INDICA ATIVE ONLCOLOURS
CABLE21.5MM230V
ACTURERS INSTRUCTIONS BE REQUIRED
.YVE ONL LY
ALLER SUPPLIED)(INSTTALLER SUPPLIED)
SUPPLIED CABLES
SUPPLIED CABLE
230V
SUPPLIED CABLE
SUPPLIED CABLE
230V
SUPPLIED CABLE
O UFH PUMPT230V
VEALLVEZONE V VAL UFHOPTIONALL UFH
UFH
UNDERFLOOR HEA
TING MANIFOLD HEA ATING MANIFOLD
CABLE21.5MM
O UFH PUMPT230V ALLER SUPPLIED)(INSTTALLER SUPPLIED)
ALLER SUPPLIED)
Wiring DiagramJGWWC Wireless UFH Wiring Centre with JGWPRT
www.speedfitUFH.co.ukTechnical Help Desk: 01895 425333
JGWWC Wireless Underfloor Heating Wiring Centre
Note 1 - Wiring Centre Number Selection Dial.Up to 9 JGWWC’s can be used in a system. The wiring centrenumber needs to be set and matched to the room stats to bepaired to this box.
Note 2.Default standard position is down.
Note 3 - Fuses.Mini Fuse 1 - Power Supply (5Amp mini fuse)Mini Fuse 2 - 800ma Electronics (800ma Time Delay mini fuse)Mini Fuse 3 - 230v (2amp mini fuse) UFH Pump.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of waterto manifold when UFH is off and another circuit is in operation.
Note 5.Up to 2 Actuators can be connected to the same terminal. i.e.max 6 actuators per zone block.
Note 6.Cable as specified by manufacturer. Earth as required.
Note 7 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fusedconnection unit MAY NOT isolate all mains voltages present (such asboiler enable).
Note 8 - Boiler Control Connection.This is required to fire the boiler under demand conditions. Theoutput from the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contactsrated at 230V, 3A maximum, which should be ONLY connectedto the "enable" contacts at the boiler.
All connections at the boiler MUST be made in accordancewith the manufacturer’s instructions.
An earth conductor may be required.
Aerial Extension (Optional).In areas of poor reception, this item can beused to replace the factory supplied aerial onthe wiring centre. Comes with 3m of cable forflexible location.
Wireless Signal Repeater (Optional).In areas of poor reception, the mains poweredrepeater will boost the signals from theaffected wireless stats to the wiring centre.
Z2105/363/08/12
WarningMains Voltage Electrical Accessories, Connections and WiringMUST be carried out by suitable Competent/Qualifiedpersons. The installation MUST be compliant with the IEEWiring Regulations (British Standard 7671).
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JGWWC Wireless Underfloor Heating Wiring Centre
Note 1. Wiring Centre Number Selection Dial.Up to 9 JGWWC’s can be used in a system. The wiring centre number needs to be set and matched to the room stats to be paired to this box.
Note 2.Default standard position is down.
Note 3 - Fuses.Mini Fuse 1 - 230V LV (5 amp mini fuse)Mini Fuse 2 - ELV 800mA Electronics (800mA Time Delay mini fuse)Mini Fuse 3 - 230V LV (2 amp mini fuse) UFH Pump.
Note 4.Optional UFH Manifold Zone Valve used only to prevent flow of water to manifold when Underfloor Heating is off and another circuit is in operation.
Note 5.Up to 2 Actuators can be connected to the same terminal. i.e. max 6 actuators per zone block.
Note 6.Cable as specified by manufacturer. Earth as required.
Note 7 - WARNING:Isolation of the mains supply to the JG wiring centre via the local fused connection unit MAY NOT isolate all mains voltages present (such as boiler enable).
Note 8 - Boiler Control Connection.This is required to fire the boiler under demand conditions. The output from the boiler control may be mains (LV) or ELV.
The JG Wiring Centre provides a relay with volt-free contacts rated at 230V, 3A maximum, which should be ONLY connected to the “enable” contacts at the boiler.
All connections at the boiler MUST be made in accordance with the manufacturer’s instructions.
An earth conductor may be required.
WarningMains Voltage Electrical Accessories, Connections and Wiring MUST be carried out by suitable Competent/Qualified persons. The installation MUST be compliant with the IEE Wiring Regulations (British Standard 7671).
STEP 1. Turn off any electrical equipment.
Due to the large quantity of pipework in the system, it is important to follow the correct procedures to minimise the amount of air in the system which can lead to problems with testing and operating.
STEP 4. Connect a drain hose to the bottom hose connector valve on the return manifold rail and run to a convenient drain point. Ensure the valve is in the open position.
STEP 3. Open all flow gauges at the top of the manifold by lifting the locking cover and turn the adjuster anti-clockwise. Ensure all Temporary Adjuster Heads are in the closed position by turning clockwise.
STEP 2. Isolate the manifold from the heating system by turning the ball valves to the off position.
STEP 5. Connect the fill hose to the top hose connector valve on the manifold Flow Rail. Ensure the valve is in the open position.
1
It is important to ensure the water is forced around the Underfloor Heating loops one at a time to prevent short circuiting from one manifold rail to the other. Starting at one end of the manifold, open one pipe run at a time. Open the temporary adjuster head, turn on the water supply to the top flow manifold rail and run the water until the loop is thoroughly flushed through and the water exits the lower drain point on the bottom manifold.
Close the Temporary Adjuster Head and repeat the process for each loop on the manifold. This process will ensure air is purged thoroughly from each pipework loop on the manifold leaving the whole system free of air.
When completed, close the bottom valve, shut off the water supply and close the top valve. The system is now ready for pressure testing. If the Underfloor Heating is being installed when there is a possibility
of freezing conditions, suitable antifreeze should be added to protect the pipework. The system will need to be flushed out and refilled prior to operation.
46
FILLING THE SYSTEM
Filling & Testing
FILL
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STEP 1. Turn off any electrical equipment.Isolate the manifold from the heating system by turning the ball valves to the off position.
Once the system has been filled a hydraulic pressure test should be carried out on all loops in the system prior to the installation of floor coverings. (JG Speedfit do not recommend air testing of pipework).
STEP 4. Connect a suitable pressure testing kit to one of the fill valves. With the valve open, pump up the pressure to 2 Bar. Isolate the pressure at the tester and leave for 10mins while checking for leaks or pressure drops.
STEP 3. Ensure all Temporary Adjuster Heads are in the closed position by turning clockwise.
STEP 2. Open all flow gauges at the top of the manifold by lifting the locking cover and turning the adjuster anti-clockwise.
STEP 5. If all is well, increase the pressure to 10 bar and leave for a further 10 minutes while checking for leaks or pressure drops.
STEP 6. If all remains well, reduce pressure to operating pressure. For screeded floors, pipework should be left to approxiamately 3-6 bar until the screed has been laid and dried to protect pipework from damage. Consult screed supplier for drying out and curing time.
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47www.speedfitUFH.co.uk
TESTING THE S YSTEM
FILL
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STEP 1. ELECTRICAL SAFETY CHECK Confirm that the system wiring is in accordance with the current Electrical Wiring Regulations.
STEP 5. GAUGE AND VALVE CHECKS
Check & adjust flow gauge function & confirm that all circuit valves are open and that any flowmeters are registering a positive flowrate.
STEP 4. CHECK ROOMSTAT & ACTUATOR FUNCTION & CONTROLS FUNCTION Room thermostats should be set to call for heat and confirmed to be operating the Circuit Actuator Heads on the Manifold(s). There will be a delay of up to 2 minutes before the actuators are fully open.
STEP 3. INITIAL START UP The temperature control on the JG Control or JG Roompack should initially be set down to the lowest possible setting (25-30°C).
STEP 7. System response will be slow on initial start up. When the system has been operating for an hour, check the return pipe temperatures where pipe is rising out of the floor back to the manifold. Ensure that all loops are open and operating, there will be a temperature difference of 8°C. Confirm with JG designs for specific temperature information.
STEP 2. SYSTEM CHECK Ensure the system is filled, leak free, vented and has been pressure tested. Ensure all isolator valves are open, automatic valves are functional, and the circulator pump is in working order before switching on.
STEP 6. FLOW AND TEMPERATURE CHECKS
Check there is sufficient flow & temperature supply from the heat source to the manifold.
The warm up procedure should be carried out using natural infiltration and after switching-off all other heating. All external doors and windows should be closed.
48
SCREED DRYING/CURING FOR SCREEDED FLOORSTo prevent damage by cracking, curling, expansion or shrinkage effects, new floor screeds require careful preheating before commissioning can take place.
Most screeded floors require 28 days after laying before preheating can begin, however, Calcium Sulphate screeds may need only 7 days after laying (check with manufacturer for specific drying times).
The Underfloor Heating should not be used during this time period and under no circumstances should it be used to accelerate the drying period.
Start-up & Commissioning
Blue disk in actuator will rise to show valve is open. The actuator comes partly open from factory to assist with initial assembly.
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TYPICAL FLOW RATE SETTINGS FOR UFH MANIFOLD
NOTES* Flow Rates above 2.5 l/m should be avoided in favour of smaller loop lengths.** Please note this table is for guidance only and does not guarantee system performance.***Please refer to your Speedfit Underfloor Heating design for specific flow temperatures and flow rates relating to your project.
On Screeded Floors the initial water flow temperature should be maintained at 25ºC for 3 days. On day 4, the temperature can be increased gradually in increments of 5ºC/day until the maximum design temperature is reached and must be maintained for a further 4 days at maximum design flow temperature.
After the heating system has been running for the recommended time at the minimum setting, i.e. 3 days for solid concrete floors and 1 day for wooden suspended floors, gradually
raise the water temperature to the design temperature.
Check all room and floor operating temperatures and adjust as needed in accordance with BSEN1264 and recommendations of floor covering supplier.
Care must be taken to ensure that floor surface temperatures recommended for wood or plastic floor finishes (27°C with a variance of approx +/- 1 °C) are not exceeded.
Flow Temp 60ºC 50ºC 40ºC
Return 50ºC 40ºC 30ºC
Loop Length(m)
Typical Flow Release(l/m)
100 3.0* 2.1 1.3
90 2.7* 1.9 1.180 2.4 1.7 1.0
70 2.1 1.5 0.9
60 1.8 1.3 0.8
50 1.5 1.0 0.6
40 1.2 0.9 0.5
30 0.9 0.6 0.4
20 0.6 0.5 0.4
On a room by room basis, ensure that all actuators are controlled by the correct thermostat and that each one switches the system on and off. This should also include the boiler being switched on and off.
NOTE: The boiler will only switch off, if no other user circuits are calling for heat, so make sure that these are turned off before starting the test procedure.
Set the flow rate in the underfloor heating circuit to maximum by adjusting the flow gauges on the manifold. After the initial temperature is reached, adjust the flow rate in the underfloor heating circuit to the designed flow rate by turning the flow adjuster until the required flow is indicated.
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Project Name/Ref No.
Commissioning Date
Type of system :- Ground Floor:
1st Floor:
2nd Floor:
3rd Floor:
Initial Checks YES NO
Confirm system has been filled and purged of air as described in installation manual
Time clock/programmer calling heat
All room thermostats set to 20ºC or neon light on
Actuator heads open (warm to the touch)
Manifold Thermostatic head set to 50ºC
Pump running on speed 2 and pumping up
Return valve open (bottom right)
By-pass valve open 2 turns (factory set) Anti-clockwise
Record initial water flow-rate of every circuit flow meter (from left - right)
No. Name Lt/min No Name Lt/min
1 12 2
3 3
4 4
5 5
6 6
7 7
8 8
9 9
10 10
11 1112 12
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Commissioning Checklist
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Final Checks after 2-4 hours running YES NO
Record flow bar temperature 45ºC Screeded/65ºC suspended
Record return bar temperature. Between 5-10ºC lower than flow bar
Confirm all fittings are water tight and system operating satisfactorily
Check the average floor temperatures do not exceed 29ºC except for bathrooms
Check room temperatures are reaching the design temp
Check boiler flow to manifold and record temperature
Record final pump speed
Record adjusted water flow-rate of every circuit flow meter (from left - right)
No. Name Lt/min No Name Lt/min
1 12 2
3 3
4 4
5 5
6 6
7 7
8 8
9 9
10 10
11 1112 12
Installer/Commissioning Engineer Details
Name:
Address:
Tel No:
Registrations (Gas Safe):
51www.speedfitUFH.co.uk
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HOW LONG DOES UNDERFLOOR HEATING TAKE TO WARM UP A ROOM FROM COLD?In high mass systems such as some screed floors the system can take 2 - 3 hours to heat up from cold.
After an initial heat up advanced controls maintain the screed temperature and with a process known as set back, reduces the room temperature by approx 4°C during periods of low demand such as overnight, allowing for a quicker heat up time the following morning.
HOW MUCH HEAT WILL MY UNDERFLOOR HEATING SYSTEM PROVIDE?Typically, a screeded floor will emit a maximum of 100w/sqm. Timber floor structure will emit a maximum of 70w/ sqm.
WHAT FLOOR AREA CAN A MANIFOLD HEAT?Manifolds are available to cater from 2 to 12 zones.
A 12 zone manifold, feeding 12 heating loops can serve between 120 and 150 sqm of floor area. For larger systems use more than one manifold.
HOW LONG DO I LEAVE MY UNDERFLOOR HEATING ON FOR DURING THE DAY?Underfloor Heating is at its most efficient if left on 24 hours a day using room thermostats to control the comfort levels in each space or zone.
Timers and programmers allow the user to choose when the heating is on or off or when to tell the system to reduce average temperature overnight, for example, known as set back.
This saves energy and gives a faster heat up time the following morning.
CAN I JOIN PIPES IN THE FLOOR?No, pipes must not be joined in the floor.
HOW MUCH WATER WILL BE IN MY SYSTEM?Speedfit manufacture a 15mm pipe for use with underfloor heating. Every 1m of pipe contains 0.1L of water.
HOW MUCH PIPE DO I NEED?In a typical installation, pipe is laid at 200mm centres. This equates to approx 5 metres per sqmLoops should be no longer than 100m. Speedfit will calculate the pipe spacing and loop lengths for each room or zone to meet the heat requirements of the space.
WHAT IS EDGE INSULATION USED FOR?Edge insulation is very important and is used on screeded floor systems.
It creates an insulation barrier around the perimeter of a room to prevent lateral heat loss and provides an expansion gap for the solid floor as it heats up and cools down.
Speedfit Edge insulation can also be used as an expansion medium on areas of screeded floor in excess of 40 sqm.
WHAT TYPE OF SCREED SHOULD I USE?Most screeds are a traditional sand and cement mix of 65 - 75 mm in thickness. Additives and binding agents are also used for added strength and flexibility.
Thinner screeds of 40 - 50 mm often known as pumped or liquid screeds are available. These offer better response times for underfloor heating and quicker drying time.
Specific advice should be sought from the screed manufacturer who will specify the correct screed for your project.
DO I NEED TO ADD INHIBITORS TO THE SYSTEM?Yes, Speedfit advise that inhibitors should be used in all central heating systems including underfloor systems. Fernox and Betz Dearborn manufacture suitable products.
WHERE SHOULD THE MANIFOLD BE POSITIONED?The underfloor heating manifold can be located anywhere. However, to reduce pipe runs and achieve a balanced system it is preferable to locate the manifold as near as possible to the centre of the building.
WHAT FLOOR COVERINGS CAN BE USED WITH UNDERFLOOR HEATING?Almost all floor coverings will work with underfloor heating including carpets, stone tiles, laminate and natural wood. This gives you a virtually unlimited choice. All materials have
a resistance to heat transfer and this can be expressed as a TOG value - the same as for a duvet.
BSEN1264 states that floor coverings should be no greater than 1.5 TOGs.
However, experience has shown that many carpet and underlay combinations with high resistance work with underfloor heating.
Always ask the floor covering supplier if a their products are suitable for use with underfloor heating.
HOW MUCH INSULATION DO I NEED?The amount of insulation within a building is very important for an underfloor heating.
A layer of insulation should be placed immediately below the heating pipes to minimise the downward heat loss of the floor and maximise the heat emitted upwards.
The total amount of insulation required is calculated in 2 parts. Firstly, the architect will specify the type and depth of installation to comply with the Building Regulations.
WHAT GUARANTEES DO SPEEDFIT GIVE?As a result of long term test programmes and rigorous quality standards, John Guest Speedfit Limited offer a 25 year guarantee against the defects in materials or manufacturing of “PEM” “PSE” and “SFM” Range Plumbing Fittings and Speedfit Barrier Pipe manufactured by John Guest.
John Guest Underfloor Heating Products, which should be installed and maintained in accordance with our recommendations, carry a 2 year guarantee against defects in materials and manufacture.
John Guest Plumbing and Heating Products are for use with normal UK domestic plumbing and heating systems and are supplied in accordance with our Conditions of Sales.
Frequently Asked Questions
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Troubleshooting
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This guide shows the sequence of operations in a typical JG Underfloor Heating system together with suggested checks needed to rectify most installation or operational problems. For more detailed information please consult the detailed instructions supplied with the individual components. Please note that all electrical and plumbing work should only be carried out by a suitably qualified and competent person.
Thermostat calls for heat, all thermostats in the JG range (excluding JGDSSB) will indicate a call for heat by showing a flame symbol. The JGDSSB will show a red neon to indicate a call for heat.
In the event of no call for heat, read the operating instructions for the thermostat before checking the wiring or changing the thermostat.
A corresponding Neon on the wiring centre will light up to confirm the call for heat from the thermostat.
If no corresponding neon lights up check wiring from thermostat to wiring centre.
The Neons for the Boiler & UFH pump light up. Refer to instructions for wiring centre.
Check internal links, motorized valve connections and operation.
Motorised Valve, if fitted, opens.
UFH Pump runs.
Boiler start.
Check operation of motorised valve.
Check for Power at Pump and ensure it is freely turning.
Confirm that Boiler enable in and out terminals are working. They should have continuity when there is a call for heat.
If there is continuity and boiler will not start suspect a boiler fault.
Actuators open after 1-2 minutes.
Blue disc at top raises during operation.
Flow Gauges move to visibly indicate flow of water around circuit(s). Check power to actuator before changing.
If there is no visible indication of flow at the gauges after the actuator opens then check for closed or blocked flow gauge and UFH pump operation. If checks are OK then suspect air or debris in UFH pipe circuits. To remove air follow manifold filling instructions.
Is the flow & return pipework from boiler or heat source to manifold mixing valve reaching the correct temperature. This will depend on heat source and initial design.
Check design supply temperature.
Check correct operation of boiler or heat source.
Check Pipe sizing length of run and installation of supply pipework to and from the manifold.
Check system pump operation.
Is the water at the flow gauges reaching design temperature.
Is the Underfloor Heating circuit return temperature reaching design temperature.
Check Mixing valve setting and operation.
Allow sufficient time for warm up period, this may depend on a number of factors such as; floor type, temperature of floor slab, room temperature, pipe length, flow rates, heat loss etc.
System Working C orrectly.
54
Technical Checklist - Underfloor Heating• Applications. Underfloor Heating Installations in solid or timber floors.
• Pipes. 15mm JG Speedfit Barrier Pipe to BS 7291, Parts 1, 2 and 3 Class S.
• DO NOT USE Speedfit UFH Products for Gas, fuel oil or compressed air applications.
• Floor Insulation. Should be a suitable material and thickness to comply with current regulations.• Minimum Bending Radii. For Speedfit B-PEX Pipe is 175mm. • Expansion (PEX - Pipe). 1% on length between 20˚C and 82˚C.
• Cleaners, Inhibitors and Descalents. For advice on the replenishment of additives such as corrosion inhibitors, the following manufacturers should be contacted: Fernox Manufacturing Limited on 01799 550811 or Sentinel, BetzDearborn Limited on 0151420 9595.
• Paint and Chemicals. Only use water or oil based paint. DO NOT ALLOW CONTACT WITH cellulose based paints, paint thinners or strippers, solder flux or acid based descalents or aggressive household cleaning products.
• Exposure to sunlight. Speedfit products, when used indoors, are not affected by sunlight. When used out doors protect from ultra violet light by lagging or painting.
• Pipe Inserts. Must be used on all installations when using plastic pipe and should be fully inserted.
• Electrical Components. Electrical products in the Speedfit Underfloor Heating System are designed only to be used in U.K. Electrical Supply situations.
• Electrical Continuity. If Speedfit is used in an existing metal system which may have been used for earthing, electrical continuity should be reinstated.
• Pre-Screed System Testing. To ensure the pipework has been installed correctly and prior to the screed being laid, it is essential that the system is checked and hydraulically wet tested.
Testing should be carried out at 2 bar for 10 minutes and 10 bar for 10 minutes.
This testing, combined with other relevant checks, should reveal installation problems and is regarded as good plumbing practice.
• Pressurisation During Screed Laying & Curing. In accordance with BS1264-4, the system should be left under pressure at a minimum of 6 bar for the duration of the laying and curing of the screed.
Under NO circumstances should the UFH System be used to quicken the screed drying process.
• System Flushing. As is usual practice for any plumbing installation, flushing of the system prior to the use of JG Speedfit is recommended to remove any contaminants/chemical residue from elsewhere in the system.
• Vermin. Speedfit products should not be used in vermin infested areas.
• Frost Protection. During the installation process it is important that pipe containing water be protected from frost.
Heat Output - Dry Floor ConstructionsWith a wide variety of Underfloor heating systems available, it is important to know what heat output you can expect from differing floor make ups. Outputs for Screeded systems are normally calculated using proven mathematical equations and experience. However, with the increasing use of renewable heat sources and lower water temperatures, performace for dry floor constructions can be difficult to calculate. Therefore, due to our ongoing commitment to product development, Speedfit have conducted performance testing at the independent test house , BSRIA for the Overfit, Underfit & Aluminium Heat plates systems. The tables below show typical output figures for various floor coverings and flow temperatures. For advice on specific systems please contact our technical helpline 01895 425333.
Figures based on 15mm PB tube using 150mm pipe centres and a 10mm Plywood laid over.
Figures based on 15mm PB tube using 200mm pipe centres and a 22mm chipboard deck laid over.
Figures based on 15mm PB tube using 200mm pipe centres and a 22mm chipboard deck laid over.
Heat ouputs are for guidance only and can vary with water temperature, floor finish and construction. Further information and advice is available on 01895 425333 or www.speedfitufh.co.uk
25mm Overfit - Floor Finish + Resistance (Tog) Flow and Return Temperature oC Tog Value 40/30 45/35 50/40 55/45
Tiles 0.1 36 50 65 78Thin Timber Finish 0.5 32 45 58 70Carpet Tiles / Laminate 1 29 40 52 64Carpet and underlay 1.5 26 36 47 58
50mm UnderfitFloor Finish + Resistance (Tog) Flow and Return Temperature oC
Tog Value 40/30 45/35 50/40 55/45
Tiles 0.1 22 20 39 48Thin Timber Finish 0.5 20 28 36 44Carpet Tiles / Laminate 1 18 26 33 41Carpet and underlay 1.5 17 22 31 38
Aluminium Spreader PlatesFloor Finish + Resistance (Tog) Flow and Return Temperature oC
Tog Value 40/30 45/35 50/40 55/45
Tiles 0.1 28 40 52 64Thin Timber Finish 0.5 26 36 47 58Carpet Tiles / Laminate 1 24 33 43 53Carpet and underlay 1.5 22 30 39 48
HEAT OUTPUT TABLES (W/M2)
HEAT OUTPUT TABLES (W/M2)
HEAT OUTPUT TABLES (W/M2)
55www.speedfitUFH.co.uk
Notes
John Guest Speedfit Limited
Horton Road, West Drayton, Middlesex UB7 8JL, England.Tel: 01895 449233 Fax: 01895 420321 www.speedfit.co.uk | www.speedfitUFH.co.uk
Technical Help Desk: 01895 425333
The company has a policy of continuous research and development and reserves the right to amend without notice the specification and design of all products illustrated in this catalogue. John Guest Speedfit reserve the right to change the colour and shape of products. Photographs are for illustration purposes only.
Subject to our Terms and Conditions of Sale available on request.
and are registered trademarks of John Guest International Limited © Copyright 2014.
AVAILABLE FROM:
Z2105/387/01/14