AUTOMATIC GLASS PRINTING MACHINE Page 1

AUTOMATIC GLASS PRINTING

MACHINE

A

DISSERTATION SUBMITTED TO

MAHARISHI MARKANDESHWAR UNIVERSITY, MULLANA,

In the partial fulfilment for the degree of

Bachelor of technology

(Session 2010-14)

Under the supervision of: Submitted By:

Dr. R.C. Sharma Sanyam Jain (11100975)

Professor, MMEC, Mullana Sandeep (11100972)

Prof. N.K. Batra Rahul Dogra (11100965)

HOD, Mechanical Deptt. Aditya Dev Singh (11102304)

Jatin Bindra (2308909)

Kapil kumar (11102317)

MAHARISHI MARKANDESHWAR ENGG. COLLEGE

AFFILIATED TO:

MAHARISHI MARKANDESHWAR UNIVERSITY, MULLANA

AMBALA-HARYANA,133203,INDIA

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DECLARATION

We hereby declare that the work which is being presented in this report

entitled “AUTOMATIC GLASS PRINTING MACHINE” by us is in partial fulfilment

of the requirement for the award of degree of bachelors of technology in

mechanical submitted in the department of mechanical engineering of

maharishi markandeshwar engineering college is a authentic record under the

supervision of Dr.R.C. Sharma

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ACKNOWLEDGEMENT

I take this opportunity to express my profound gratitude and deep regards to

my guide DR.R.C.SHARMA and H.O.D. MR.N.K. BATRA for his exemplary

guidance, monitoring and constant encouragement throughout the course of

this project “AUTOMATIC GLASS PRINTING MACHINE”. The blessing, help and

guidance given by him time to time shall carry me a long way in the journey of

life on which I am about to embark.

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CONTENTS

Bill of material………………………………………………………….05

Purpose …………………………………………………………………..06

Screen printing…………………………………………………………07

Chain drive……………………………………………………………….13

Reduction gearbox……………………………………………………21

Cams…………………………………………………………………………26

Bearings……………………………………………………………………35

Material…………………………………………………………………...38

Appendix………………………………………………………………….40

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BILL OF MATERIAL

NAME SPECIFICATION QUANTITY Electric motor ¼ hp single phase 1

Reduction gearbox 40:1 ratio 1 Cams Radial 2

Sprockets 16,32,40 teeth 7

Roller chain 0.5 inch 1 Shafts As per design 4

Rectangular links As per design 6 Bearings As per design 12

Cams As per design 2

Springs As per design 3 Nuts and bolts As per design As per design

Sheet screws As per design 2 Cast iron angle 1 inch 4

Cast iron sheet 10 mm thick 1 Square rods 25 mm 2

Rubber brush 40 mm 1

Electric switch Single phase 1

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HIGHLIGHTS OF MACHINE

Fully automatic machine based on mechanical system using cams and chain drive

Can print on complete 360◦ of the work piece

No electronic component, no PLC, no computer programming is used for automation

Single motor is engaged for every movement in the machine

Variable gear box can be employed for variation of speed

Chain drive is used for power transmission

Can print 2000-3000 test tubes in an hour

V plate type conveyor is used, this conveyor can be connected to worm conveyor for heating purpose which has minimum heat loss in furnace

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WHAT IS SCREEN PRINTING

INTRODUCTION Screen printing is simply a process used for making prints of the same design .Screen printing uses a stencil with open areas through which ink or paint passes and solid areas as a mask preventing the passage of ink. When the fabric - covered frame is used the process is often called as “silk screening” because was originally used as the fabric of choice. The procedures described in this handout can be used for printing on either paper or fabric. There are several methods that can be used to produce the stencil and screen and a variety of inks and paints that can be used. In some cases, alternative methods are described. This silk screening method is inexpensive and allow girls to be involved in the actual printing process. However, it is important to remind them that even though they are using a stencil, they are creating an original work of art. The amount of ink, the pressure applied, and the care taken with the screen will effect their finished design. If you are looking for perfect , identical shirts, you should use a different method.

Materials The following materials will be necessary or useful throughout the process:

Silk screen frame and fabric

Photo emulsion kit

Screen filler

Photo emulsion remover

Soft nylon brush

Dish washer detergent

Masking tape

Small Paint brush

Small blocks of wood

Craft sticks

Glass or Plexiglas

Squeegee

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GETTING READY THE SCREEN: A silk screen frame is simply any frame over which a fine mesh fabric can be stretched and secured. Pre –made frames complete with Stretched fabric are easiest .Frames can also assembled from precut pieces at art supply stores , but this can be challenging. Most people will use prepared frame. The fabric is attached to the frame and stretched tightly and uniformly. Fabric should be cut atleast larger the frame on the all sides. If using a frame with a c fabric channel is centered over the channel side of the frame loosely thumbtacked to the corners. A spline or chord is gently tapped into the grove and the thumbtacks removed. The cord is then set in the groove by using a spline or cordoing tool or tapping it into place with a hammer and wedge such as a wide screwdriver. This method allow for easy removal of the fabric when required. Fabric can also be more easily cause tears in the fabric. In all cases, the fabric must be clean and factory sizing removed to allow photosensitive chemicals to adhere to the screen.do this by scrubbing the fabric with a soft nylon brush and a solution of dish washer powder mixed with water. Thoroughly rinse and allow screen to dry.

PRINTING BOARD A printing board is essential for professional quality print especially where more than one color is used or where uniformly of the prints is essential.

THE PHOTO EMULSION MATERIAL Creation of a photographic stencil utilizes light sensitive material which hardens when exposed to light. A thick syrupy liquid emulsion is used to coat both sides of the fabric. Once dry the design is placed on the screen and exposed to light . The light hardens the emulsion in area of the screen not blocked out by the positive created from your design. There are two types of chemicals which can be used and r generally readily available BICHROMATE OR DIAZO each uses an emulsion that is not light sensitive and makes up the bulk of material . a small amount of sensitizer either diazo bis added , the biochronate emulsion is designed for quickly exposure and can be used with most kinds of ink.

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Diazo sensitinzed emulsion last longer and can be stored up to 3 months at room temperature and up to 6 months if refrigerated . screens coated with a diazo mixture can be stored up to 8 weeks if not exposed to light the diazo has less toxicity and no known environmental problems associated with it. The squeegee is used to apply the ink . squeegees can be made with a plastic wooden or aluminium handle. All use a rubber blade that is either removable for easier cleaning or permanently attached to handle. Squeegee come in different lengths. You generally want to use a squeegee that will cover the areas is one pass.

INK This is being printed how it will be used and any he type of ink used will depened on what is being printed how it will be used and any special effects desired . When printing on fabric it is important to use textile ink. Water soluble ink is recommended because it is easier to clean up. SCREEN FILLER Screen filler can be painted on the screen to fill in areas that you do not want to print. It is very useful in covering pinholes or other flaws that appear in the fabric after exposing it to the light.

DESIGN The part of your design that is black on your drawing will be the part that accepts the colored ink. Areas that are white in your drawing will remain the colour of the fabric or other background material. As you become more experienced. Your ultimate goal is to create a stencil but the method described here will be for creating a photographic stencil. Once you have a black and white design, you are ready to copy it onto clear acetate also known as transparency film or overhead film. This method produces the most accurate copy of the design and allows the most complicated design to turned into a screen stencil. Be sure to check that the copier is producing clean copies. You will need 3-4 copies to assure light does not show through the darkened areas. Carefully line up copies and tape them together copies. Your resulting sheet is called as “positive”.

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PREPARING THE SCREEN Since emulsions react to the U.V rays but less readily to incandescent light. It is possible to prepare the mixtures and the screen using normal room light, although it is best to work with the little direct bright light as necessary. Cover work in newspapers. Mix photo emulsions solution according to the directions. Place the screen on the work surface with the flat fabric side up. Using a squeegee or piece of stiff cardboard spread the emulsion evenly. Turn screen over. Repeat the coating procedure on the inside of the frame. Screen should be dried in the dark room such as closet. Screen will generally dry in 3 hours. A fan will speed the drying process. When dry, apply a second coat on the bottom if more than 200 prints will be made.

PLACING POSITIVE You should consider where and you will expose your screen outside, you will need to set it up so it can be carried outside when ready. A shallow box with lid works well. if you r going to expose it inside , you can set up in position using dim room light and position the lamp the correct distance.

EXPOSING THE SCREEN The screen can be exposed to either sunlight or artificial but direct sunlight, if available is preferable since exposure time is considerably shorter. Exposure time depend on intensity of light source and the type of emulsion used. For outdoor exposure place screen in box or cover with opaque prevent exposure until ready carrying prepared screen to a sunny location. Length of exposure time will depend on intensity of light and the type of emulsion used. Do not do this if it is raining or sprinkling since this will begin to wash chemicals before they are hardened. At the end of exposure time immediately cover remove the positive and glass if used and the wash screen with forceful spray of taped water. Design area should appear lighter than exposed area. Use masking paste tape or screen filter to cover these holes . If screen filler is used allow it to dry.

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MAKING PRINTS Printing can be done on a variety of poor textiles although cotton or poly cotton works best . Ink generally will not adhere to high holes or plastic coated papers.in some cases it is recommended that fabrics be washed and dried before adhering or interference with permanency of the ink. When printing on t shirt place a piece of smooth cardboard inside the t shirt so ink does not seep through to the back of the shirt, make sure fabric is smooth and free of wrinkles . Different fabrics accept ink differently so a test print should be made. Place screen bottom side down directly on top of them. In this method the stenciled fabric touches the screen only when forced down by the squeegee so that ink left on the screen from the previous prints will not create a double image on the item. To begin printing, pour or spoon a small amount of ink along one edge of screen. Make sure screen in held tightly in place either with one hand or with another person helping. Using a squeegee, slowly dark ink to the opposite side of the screen witthout pressing down. This first stroke is the “flood stroke” and it fills the screen with ink. When inking is done rest squeegee along one edge of the screen and carefully lift screen of shirt. Screen should be used immediately for the next item. For jobs making multiple prints. It is advisable to make 2 or more screens. This way one screen can be washed and allowed to dry while a 2nd screen is used.

CLEANUP When all prints have been made, scrape excess ink from screen and thoroughly wash all ink from screen using warm water and mild soap. If the design is not of use further, wash remaining photo emulsion off so used for a different design. It may be necessary to gently scrub the screen with a nylon brush to remove all emulsion. Hold screen up to the light to be sure as all ink and emulsion can be removed. Remember to clean all the squeegee. If the squeegee has are movable rubber blade, remove it and clean it in grove.

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PRINTING MORE THAN ONE SCREEN If a multi colored print is desired, it can be done either using a single screen and blocking off desired sections, or by making a separate screen for each colour. If a single screen is used, cover areas you don’t want using masking tape. When ready to use , uncover the area , wash and dry the screen , and reposition the mask. Try the position tape so it will not damage the design.

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CHAIN DRIVES Introduction

Three major types of chain are used for power transmission: roller, engineering steel, and silent. Roller chains are probably the most common and are used in a wide vari-ety of low-speed to high-speed drives. Engineering steel chains are used in many low-speed, high-load drives. Silent chains are mostly used in high-speed drives. Other types of standard chains, and many types of special chains for unique applica-tions, may be found in manufacturers’ catalogs. Chains can span long center distances like belts, and positively transmit speed and torque like gears. For a given ratio and power capacity, chain drives are more compact than belt drives, but less compact than gear drives. Mounting and alignment of chain drives does not need to be as precise as for gear drives. Chain drives can operate at 98 to 99 percent efficiency under ideal conditions. Chain drives are usu-ally less expensive than gear drives and quite competitive with belt drives. Chain drives can be dangerous. Provide proper guarding to prevent personnel from coming in contact with, or being caught in, a running drive. Any chain can break from unexpected operating conditions. If a chain breaks at speed, it can be thrown off the drive with great force and cause personal injury and property damage. Provide adequate guarding to contain a broken chain or to prevent personnel from entering an area where they might be struck by a broken chain. A broken chain can sometimes release a load and cause personal injury and property damage. Provide an adequate brake or restraint to stop and hold the load in case of a chain breakage

Roller Chains

Standard Roller Chains. A portion of a typical roller-chain drive is shown in Fig. 15.1. The American National Standards Institute (ANSI) has standardized limiting dimensions, tolerances, and minimum ultimate tensile strength for chains and sprockets of 0.25 to 3.0 in pitch [15.1]. The chain pitch is the distance between suc-cessive roller, or bushing, centers, and is the basic dimension for designating roller chains. The standard includes both standard and heavy series chains. Multiple-Strand Roller Chains. Multiple-strand roller chains consist of two or more parallel strands of chain assembled on common pins. They also are standard-ized [15.1].

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Double-Pitch Roller Chains. Double-pitch roller chains are standardized in Ref. [15.2]. Double-pitch chains have the same pin, bushing, and roller dimensions as cor- responding chains in Ref. [15.1], but the pitch of the link plates is twice as long. The standard [15.2] covers chains of 1.0 to 4.0 in pitch. Nonstandard Roller Chains. Many manufacturers offer high-strength, extra-clearance, sintered metal bushing, sealed-joint, and corrosion-resistant chains for special applications or adverse environments. These chains are not covered by any standard, but most are designed to run on standard sprockets. Sprockets. Roller-chain sprockets have precisely designed, radiused pockets which smoothly engage the rollers on the chain and positively transmit torque and motion. Driver sprockets receive power from the prime mover and transfer it to the chain. Driven sprockets take power from the chain and transfer it to the selected machinery. Idler sprockets transmit no power; they are used to take up slack chain, increase the amount of chain wrap on another sprocket, guide the chain around other machine members, and reverse the normal direction of rotation of another sprocket.

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ROLLER CHAINS: NOMENCLATURE AND DIMENSIONS

Standard Roller-Chain Nomenclature

Roller Chain. Roller chain is an assembly of alternating roller links and pin links in which the pins pivot inside the bushings, and the rollers, or bushings, engage the sprocket teeth to positively transmit power, as shown in Fig. 15.1 and the illustration with Table 15.1. Roller Links. Roller links are assemblies of two bushings press-fitted into two roller link plates with two rollers free to rotate on the outside of each of the bushings. Pin Links. Pin links are assemblies of two pins press-fitted into two pin link plates. Connecting Links. Connecting links are pin links in which one of the pin link plates is detachable and is secured either by a spring clip that fits in grooves on the ends of the pins or by cotters that fit in cross-drilled holes through the ends of the pins. Illustrations of connecting links may be found in Ref. [15.1] or [15.4] or in man-ufacturers’ catalogs. Offset Links. Offset links are links in which the link plates are bent to accept a bushing in one end and a pin in the other end. The pin may be a press fit in the link plates, or it may be a slip fit in the link plates and be secured by cotters. Illustrations of offset links may be found in Ref. [15.1] or [15.4] or in manufacturers’ catalogs.

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Roller-Chain Sprockets

Definitions and Types. Four styles of sprockets are standardized in Ref. [15.1]. Style A is a flat plate with no hub extensions. Style B has a hub extension on one side of the plate (flange). Style C has hub extensions on both sides of the flange. The extensions do not have to be equal. Style D has a detachable hub. The style D hub is normally attached to the flange with bolts. Most sprockets have a central bore with a keyway and setscrew to mount them on a shaft. Many other configurations of sprocket hubs and bores may be found in manufacturers’ catalogs. Tooth Form. The tooth form and profile dimensions for single- and multiple-strand roller-chain sprockets are defined in Ref. [15.1]. Sprocket Diameters. There are five important sprocket diameters defined in Ref. [15.1]. They are pitch, outside, bottom, caliper, and maximum hub diameters. The equations for those diameters, shown in Fig. 15.2, are PD =P/sin (180/N) OD =P[0.6 cot (180/N)]

BD PD − D CD =PD cos (90/N) − D

MHD = P[cot (180/N) − 1] − 0.030

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Types of Chain Lubrication

All three types of chain drives—roller, engineering steel, and silent—will work with three types of lubrication system. The type of lubrication system used is dependent on the speed and the amount of power transmitted. The three types of chain drive lubrication systems are

Type 1. Manual or drip

Type 2. Oil bath or slinger disk

Type 3. Oil stream

A description of each type of lubrication follows.

Manual. Oil is manually applied periodically with a brush or spout can. The time period between applications is often 8 hours, but it may be longer if this is proven adequate for the particular conditions.

Drip. Oil is dripped between the link plate edges from a lubricator with a reser-voir. Rates range from 4 to 20 drops per minute; 10 drops per minute is equal to about one ounce per hour. A distribution pipe is needed to direct oil to all the rows of link plates in multiple-strand chain, and a wick packing in the pipe will ensure uni-form distribution of oil to all the holes in the pipe. Windage may misdirect the oil droplets. If that occurs, the lubricator must be relocated.

Oil Bath. A short section of chain runs through the oil in the sump of a chain cas-ing. The oil level should not be higher than the pitch line of the chain at its lowest point in operation. Long sections of chain running through the oil bath can cause foaming and overheating. If that occurs, slinger disk–type lubrication should be considered.

Slinger Disk. The chain runs above the oil level while a disk on one shaft picks up oil from the sump and slings it against a collector plate. The oil is then directed into a trough which applies it to the upper edges of the chain link plates in the lower span of the chain. The disk diameter should be sized so that the disk runs at a rim speed of 600 to 8000 ft/min. Slower speeds will not effectively pick up the oil. Higher speeds can cause foaming and overheating.

Oil Stream. A pump sends a stream or spray of oil under pressure onto the chain. The oil must be applied evenly across the entire width of the chain, and

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it must be directed onto the lower span from the inside of the chain loop. Excess oil is collected in the sump and returned to the pump reservoir. The oil stream both lubricates and cools the chain when high power is transmitted at high speeds (Table 15.5). The oil may be cooled by radiation from the external surfaces of the reservoir or, if power is very high, by a separate heat exchanger.

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REDUCTION GEARBOX

Introduction: The purpose of a gear reduction system is to convert input an speed and torque into a different output speed and torque. The design at hand requires the use of two gears whose diameters are specified at 24 and 12 inches each. These gears are attached to a shaft whose diameter is specified at two inches, and the bearings, keys, gears, speeds, safety factors, etc need to be determined from statics, strengths, fatigue, and various other design considerations. The gears are crucial elements of this system. They transmit the power and act as the reducers of velocity to the other parts. They need to be carefully engineered and considered if the design is to be successful. The Bearings need to provide the smoothness to the motion, while still withstanding the loads to which the system is subjected. The keys hold the shaft and the gears together. The shaft holds everything and provides uniform rotation to all the parts. It is, therefore, key to design these elements so that they can interact with one another in perfect harmony and still achieve their goal.

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A worm drive is a gear arrangement in which a worm (which is a gear in the

form of a screw) meshes with a worm gear (which is similar in appearance to a

spur gear, and is also called a worm wheel). The terminology is often confused

by imprecise use of the term worm gear to refer to the worm, the worm gear, or

the worm drive as a unit.

Like other gear arrangements, a worm drive can reduce rotational speed or

allow higher torque to be transmitted. The image shows a section of a gear box

with a worm gear being driven by a worm. A worm is an example of a screw,

one of the six simple machines.

A gearbox designed using a worm and worm-wheel will be considerably smaller than one made from plain spur gears and has its drive axes at 90° to each other. With a single start worm, for each 360° turn of the worm, the worm-gear advances only one tooth of the gear. Therefore, regardless of the worm's size (sensible engineering limits notwithstanding), the gear ratio is the "size of the worm gear - to - 1". Given a single start worm, a 20 tooth worm gear will reduce the speed by the ratio of 20:1. With spur gears, a gear of 12 teeth (the smallest size permissible, if designed to good engineering practices) would have to be matched with a 240 tooth gear to achieve the same ratio of 20:1. Therefore, if the diametrical pitch (DP) of each gear was the same, then, in terms of the physical size of the 240 tooth gear to that of the 20 tooth gear, the worm arrangement is considerably smaller in volume.

There are three different types of gears that can be used in a worm drive.

The first are non-throated worm gears. These don't have a throat, or groove,

machined around the circumference of either the worm or worm wheel. The

second are single-throated worm gears, in which the worm wheel is throated.

The final type are double-throated worm gears, which have both gears throated.

This type of gearing can support the highest loading.

An enveloping (hourglass) worm has one or more teeth and increases in

diameter from its middle portion toward both ends.

Double-enveloping wormgearing comprises enveloping worms mated with fully

enveloping wormgears. It is also known as globoidal wormgearing

Unlike with ordinary gear trains, the direction of transmission (input shaft vs

output shaft) is not reversible when using large reduction ratios, due to the

greater friction involved between the worm and worm-wheel, when usually a

single start (one spiral) worm is used. This can be an advantage when it is

desired to eliminate any possibility of the output driving the input. If a multistart

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worm (multiple spirals) is used then the ratio reduces accordingly and the

braking effect of a worm and worm-gear may need to be discounted as the gear

may be able to drive the worm.

Worm gear configurations in which the gear cannot drive the worm are said to

be self-locking. Whether a worm and gear will be self-locking depends on the

lead angle, the pressure angle, and the coefficient of friction; however, it is

approximately correct to say that a worm and gear will be self-locking if the

tangent of the lead angle is less than the coefficient of friction.

In early 20th century automobiles prior to the introduction of power steering,

the effect of a flat or blowout on one of the front wheels will tend to pull the

steering mechanism toward the side with the flat tire. The employment of a

worm screw reduced this effect. Further development of the worm drive

employs recirculating ball bearings to reduce frictional forces, allowing some of

the steering force to be felt in the wheel as an aid to vehicle control and greatly

reducing wear, which leads to difficulties in steering precisely.

Worm drives are a compact means of substantially decreasing speed and

increasing torque. Small electric motors are generally high-speed and low-

torque; the addition of a worm drive increases the range of applications that it

may be suitable for, especially when the worm drive's compactness is

considered.

Worm drives are used in presses, rolling mills, conveying engineering, mining

industry machines, on rudders, and worm drive saws. In addition, milling heads

and rotary tables are positioned using high-precision duplex worm drives with

adjustable backlash. Worm gears are used on many lift/elevator and escalator-

drive applications due to their compact size and the non-reversibility of the

gear.

In the era of sailing ships, the introduction of a worm drive to control the rudder

was a significant advance. Prior to its introduction, a rope drum drive was used

to control the rudder, and rough seas could cause substantial force to be applied

to the rudder, often requiring several men to steer the vessel, with some drives

having two large-diameter wheels to allow up to four crewmen to operate the

rudder.

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Worm drives have been used in a few automotive rear-axle final drives

(although not the differential itself at this time). They took advantage of the

location of the gear being at either the very top or very bottom of the differential

crown wheel. In the 1910s they were common on trucks; to gain the most

clearance on muddy roads the worm gear was placed on top. In the 1920s the

Stutz firm used them on its cars; to have a lower floor than its competitors, the

gear was located on the bottom. An example from around 1960 was the Peugeot

404. The worm gear carries the differential gearing, which protects the vehicle

against rollback. This ability has largely fallen from favour due to the higher-

than-necessary reduction ratios.

A more recent exception to this is the Torsen differential, which uses worms

and planetary worm gears in place of the bevel gearing of conventional open

differentials. Torsen differentials are most prominently featured in the

HMMWV and some commercial Hummer vehicles, and as a center differential

in some all wheel drive systems, such as Audi's quattro. Very heavy trucks, such

as those used to carry aggregates, often use a worm gear differential for

strength. The worm drive is not as efficient as a hypoid gear, and such trucks

invariably have a very large differential housing, with a correspondingly large

volume of gear oil, to absorb and dissipate the heat created.

Worm drives are used as the tuning mechanism for many musical instruments,

including guitars, double-basses, mandolins, bouzoukis, and many banjos

(although most high-end banjos use planetary gears or friction pegs). A worm

drive tuning device is called a machine head.

Plastic worm drives are often used on small battery-operated electric motors, to

provide an output with a lower angular velocity (fewer revolutions per minute)

than that of the motor, which operates best at a fairly high speed. This motor-

worm-gear drive system is often used in toys and other small electrical devices.

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A worm drive is used on jubilee-type hose clamps or jubilee clamps; the

tightening screw has a worm thread which engages with the slots on the clamp

band.

Occasionally a worm gear is designed to be run in reverse, resulting in the

output shaft turning much faster than the input. Examples of this may be seen in

some hand-cranked centrifuges or the wind governor in a musical box.

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CAMS

INTRODUCTION A cam is a mechanical device used to transmit motion to a follower by direct contact. The

driver

is called the cam and the driven member is called the follower. In a cam follower pair, the

cam

normally rotates while the follower may translate or oscillate. A familiar example is the

camshaft of an automobile engine, where the cams drive the push rods (the followers) to open

and close the valves in synchronization with the motion of the pistons.

Types of cams

Cams can be classified based on their physical shape.

a) Disk or plate cam (Fig. 6.1a and b): The disk (or plate) cam has an irregular contour to

impart a specific motion to the follower. The follower moves in a plane perpendicular to the

axis

of rotation of the camshaft and is held in contact with the cam by springs or gravity.

b) Cylindrical cam (Fig. 6.2): The cylindrical cam has a groove cut along its cylindrical

surface. The roller follows the groove, and the follower moves in a plane parallel to the axis

of

rotation of the cylinder.

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c) Translating cam (Fig. 6.3a and b). The translating cam is a contoured or grooved plate

sliding on a guiding surface(s). The follower may oscillate (Fig. 6.3a) or reciprocate (Fig.

6.3b).

The contour or the shape of the groove is determined by the specified motion of the follower.

Types of followers:

(i) Based on surface in contact

(a) Knife edge follower

(b) Roller follower

(c) Flat faced follower

(d) Spherical follower

(ii) Based on type of motion:

(a) Oscillating follower

(b) Translating follower

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Cam nomenclature

Cam

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Profile The contour of the working surface of the cam.

Tracer Point The point at the knife edge of a follower, or the center of a roller, or the center

of

a spherical face.

Pitch Curve The path of the tracer point.

Base Circle The smallest circle drawn, tangential to the cam profile, with its center on the

axis

of the camshaft. The size of the base circle determines the size of the cam.

Prime Circle The smallest circle drawn, tangential to the pitch curve, with its center on the

axis of the camshaft.

Pressure Angle The angle between the normal to the pitch curve and the direction of motion

of

the follower at the point of contact

Types of follower motion:

Cam follower systems are designed to achieve a desired oscillatory motion. Appropriate

displacement patterns are to be selected for this purpose, before designing the cam surface. The

cam is assumed to rotate at a constant speed and the follower raises, dwells, returns to its

original position and dwells again through specified angles of rotation of the cam, during each

revolution of the cam.

Some of the standard follower motions are as follows:

They are, follower motion with,

(a) Uniform velocity

(b) Modified uniform velocity

(c) Uniform acceleration and deceleration

(d) Simple harmonic motion

(e) Cycloidal motion

Displacement diagrams:

In a cam follower system, the motion of the follower is very

important. Its displacement can be plotted against the angular displacement θ of the cam and it is

called as the displacement diagram. The displacement of the follower is plotted along the y-axis

and angular displacement θ of the cam is plotted along x-axis. From the displacement diagram,

velocity and acceleration of the follower can also be plotted for different angular displacements

θ of the cam. The displacement, velocity and acceleration diagrams are plotted for one cycle of

operation i.e., one rotation of the cam. Displacement diagrams are basic requirements for the

construction of cam profiles. Construction of displacement diagrams and calculation of

velocities and accelerations of followers with different types of motions are discussed in the

following sections.

(a) Follower motion with Uniform velocity:

Fig.6.8 shows the displacement, velocity and acceleration patterns of a follower having uniform

velocity type of motion. Since the follower moves with constant velocity, during rise and fall,

the displacement varies linearly with θ. Also, since the velocity changes from zero to a finite

value, within no time, theoretically, the acceleration becomes infinite at the beginning and end of rise

and fall.

AUTOMATIC GLASS PRINTING MACHINE Page 30

Follower motion with modified uniform velocity:

It is observed in the displacement diagrams of the follower with uniform velocity that the

acceleration of the follower becomes infinite at the beginning and ending of rise and return

strokes. In order to prevent this, the displacement diagrams are slightly modified. In the

modified form, the velocity of the follower changes uniformly during the beginning and end of

each stroke. Accordingly, the displacement of the follower varies parabolically during these

periods. With this modification, the acceleration becomes constant during these periods, instead

of being infinite as in the uniform velocity type of motion. The displacement, velocity and

acceleration patterns are shown in fig.6.9.

AUTOMATIC GLASS PRINTING MACHINE Page 31

(c) Follower motion with uniform acceleration and retardation (UARM):

Here, the displacement of the follower varies parabolically with respect to angular displacement

of cam. Accordingly, the velocity of the follower varies uniformly with respect to angular

displacement of cam. The acceleration/retardation of the follower becomes constant

accordingly.The displacement, velocity and acceleration patterns are shown in fig. 6.10

AUTOMATIC GLASS PRINTING MACHINE Page 32

(d) Simple Harmonic Motion: In fig.6.11, the motion executed by point Pl, which is the

projection of point P on the vertical diameter is called simple harmonic motion. Here, P moves

with uniform angular velocity ωp, along a circle of radius r (r = s/2).

AUTOMATIC GLASS PRINTING MACHINE Page 33

Cams used in machine

AUTOMATIC GLASS PRINTING MACHINE Page 34

AUTOMATIC GLASS PRINTING MACHINE Page 35

BEARINGS

A bearing is a machine element that constrains relative motion and reduces

friction between moving parts to only the desired motion. The design of the

bearing may, for example, provide for free linear movement of the moving part

or for free rotation around a fixed axis; or, it may prevent a motion by

controlling the vectors of normal forces that bear on the moving parts. Many

bearings also facilitate the desired motion as much as possible, such as by

minimizing friction. Bearings are classified broadly according to the type of

operation, the motions allowed, or to the directions of the loads (forces) applied

to the parts.

The term "bearing" is derived from the verb "to bear";[1]

a bearing being a

machine element that allows one part to bear (i.e., to support) another. The

simplest bearings are bearing surfaces, cut or formed into a part, with varying

degrees of control over the form, size, roughness and location of the surface.

Other bearings are separate devices installed into a machine or machine part.

The most sophisticated bearings for the most demanding applications are very

precise devices; their manufacture requires some of the highest standards of

current technology.

By far, the most common bearing is the plain bearing, a bearing which uses

surfaces in rubbing contact, often with a lubricant such as oil or graphite. A

plain bearing may or may not be a discrete device. It may be nothing more than

the bearing surface of a hole with a shaft passing through it, or of a planar

surface that bears another (in these cases, not a discrete device); or it may be a

layer of bearing metal either fused to the substrate (semi-discrete) or in the form

of a separable sleeve (discrete). With suitable lubrication, plain bearings often

give entirely acceptable accuracy, life, and friction at minimal cost. Therefore,

they are very widely used.

However, there are many applications where a more suitable bearing can

improve efficiency, accuracy, service intervals, reliability, speed of operation,

size, weight, and costs of purchasing and operating machinery.

Thus, there are many types of bearings, with varying shape, material,

lubrication, principle of operation, and so on.

AUTOMATIC GLASS PRINTING MACHINE Page 36

AUTOMATIC GLASS PRINTING MACHINE Page 37

A rolling-element bearing, also known as a rolling bearing,[1]

is a bearing which

carries a load by placing rolling elements (such as balls or rollers) between two

bearing rings. The relative motion of the pieces causes the round elements to

roll with very little rolling resistance and with little sliding.

One of the earliest and best-known rolling-element bearings are sets of logs laid

on the ground with a large stone block on top. As the stone is pulled, the logs

roll along the ground with little sliding friction. As each log comes out the back,

it is moved to the front where the block then rolls on to it. It is possible to

imitate such a bearing by placing several pens or pencils on a table and placing

an item on top of them. See "bearings" for more on the historical development

of bearings.

A rolling element rotary bearing uses a shaft in a much larger hole, and

cylinders called "rollers" tightly fill the space between the shaft and hole. As the

shaft turns, each roller acts as the logs in the above example. However, since the

bearing is round, the rollers never fall out from under the load.

Rolling-element bearings have the advantage of a good tradeoff between cost,

size, weight, carrying capacity, durability, accuracy, friction, and so on. Other

bearing designs are often better on one specific attribute, but worse in most

other attributes, although fluid bearings can sometimes simultaneously

outperform on carrying capacity, durability, accuracy, friction, rotation rate and

sometimes cost. Only plain bearings are used as widely as rolling-element

bearings.

AUTOMATIC GLASS PRINTING MACHINE Page 38

MATERIAL USED IN MACHINE CAST IRON INTRODUCTION

Cast iron is iron or a ferrous alloy which has been heated until it liquefies, and

is then poured into a mould to solidify. It is usually made from pig iron. The

alloy constituents affect its colour when fractured: white cast iron has carbide

impurities which allow cracks to pass straight through. Grey cast iron has

graphitic flakes which deflect a passing crack and initiate countless new cracks

as the material breaks.

Carbon (C) and silicon (Si) are the main alloying elements, with the amount

ranging from 2.1–4 wt% and 1–3 wt%, respectively. Iron alloys with less

carbon content are known as steel. While this technically makes these base

alloys ternary Fe–C–Si alloys, the principle of cast iron solidification is

understood from the binary iron–carbon phase diagram. Since the compositions

of most cast irons are around the eutectic point of the iron–carbon system, the

melting temperatures closely correlate, usually ranging from 1,150 to 1,200 °C

(2,100 to 2,190 °F), which is about 300 °C (572 °F) lower than the melting

point of pure iron.

Cast iron tends to be brittle, except for malleable cast irons. With its relatively

low melting point, good fluidity, castability, excellent machinability, resistance

to deformation and wear resistance, cast irons have become an engineering

material with a wide range of applications and are used in pipes, machines and

automotive industry parts, such as cylinder heads (declining usage), cylinder

blocks and gearbox cases (declining usage). It is resistant to destruction and

weakening by oxidation (rust).

The earliest cast iron artifacts date to the 5th century BC, and were discovered

by archaeologists in what is now modern Luhe County, Jiangsu in China. Cast

iron was used in ancient China for warfare, agriculture, and architecture.[1]

During the 15th century, cast iron became utilized for artillery in Burgundy,

France, and in England during the Reformation.[2]

The first cast iron bridge was

built during the 1770s by Abraham Darby III, and is known as The Iron Bridge.

Cast iron is also used in the construction of buildings

AUTOMATIC GLASS PRINTING MACHINE Page 39

MILD STEEL INTRODUCTION

Carbon steel is steel in which the main interstitial alloying constituent is carbon

in the range of 0.12–2.0%. The American Iron and Steel Institute (AISI) defines

carbon steel as the following: "Steel is considered to be carbon steel when no

minimum content is specified or required for chromium, cobalt, molybdenum,

nickel, niobium, titanium, tungsten, vanadium or zirconium, or any other

element to be added to obtain a desired alloying effect; when the specified

minimum for copper does not exceed 0.40 percent; or when the maximum

content specified for any of the following elements does not exceed the

percentages noted: manganese 1.65, silicon 0.60, copper 0.60."[1]

The term "carbon steel" may also be used in reference to steel which is not

stainless steel; in this use carbon steel may include alloy steels.

As the carbon percentage content rises, steel has the ability to become harder

and stronger through heat treating; however it becomes less ductile. Regardless

of the heat treatment, a higher carbon content reduces weldability. In carbon

steels, the higher carbon content lowers the melting point.[2]

Mild steel, also known as plain-carbon steel, is the most common form of steel

because its price is relatively low while it provides material properties that are

acceptable for many applications, more so than iron. Low-carbon steel contains

approximately 0.05–0.3% carbon[1]

making it malleable and ductile. Mild steel

has a relatively low tensile strength, but it is cheap and malleable; surface

hardness can be increased through carburizing.[3]

It is often used when large quantities of steel are needed, for example as

structural steel. The density of mild steel is approximately 7.85 g/cm3

(7850 kg/m3 or 0.284 lb/in

3)

[4] and the Young's modulus is 210 GPa

(30,000,000 psi).[5]

Low-carbon steels suffer from yield-point runout where the material has two

yield points. The first yield point (or upper yield point) is higher than the second

and the yield drops dramatically after the upper yield point. If a low-carbon

steel is only stressed to some point between the upper and lower yield point then

the surface may develop Lüder bands.[6]

Low-carbon steels contain less carbon

than other steels and are easier to cold-form, making them easier to handle.

AUTOMATIC GLASS PRINTING MACHINE Page 40

APPENDIX

Course Thread Sizes

Tap (Thread) Size Drill Size(mm)

M1 x 0.25 0.75

M1.1 x 0.25 0.85

M1.2 x 0.25 0.95

M1.4 x 0.3 1.10

M1.6 x 0.35 1.25

M1.8 x 0.35 1.45

M2 x 0.4 1.60

M2.2 x 0.45 1.75

M2.5 x 0.45 2.05

M3 x 0.5 2.50

M3.5 x 0.6 2.90

M4 x 0.7 3.30

M4.5 x 0.75 3.70

M5 x 0.8 4.20

M6 x 1 5.00

M7 x 1 6.00

M8 x 1.25 6.80

M9 x 1.25 7.80

M10 x 1.5 8.50

M11 x 1.5 9.50

M12 x 1.75 10.20

M14 x 2 12.00

M16 x 2 14.00

M18 x 2.5 15.50

M20 x 2.5 17.50

M22 x 2.5 19.50

M24 x 3 21.00

M27 x 3 24.00

M30 x 3.5 26.50

M33 x 3.5 29.50

M36 x 4 32.00

M39 x 4 35.00

M42 x 4.5 37.50

M45 x 4.5 40.50

M48 x 5 43.00

M52 x 5 47.00

M56 x 5.5 50.50

M60 x 5.5 54.50

M64 x 6 58.00

M68 x 6 62.00

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Fine Thread Sizes

Tap (Thread) Size Drill Size(mm)

M4 x 0.35 3.60

M4 x 0.5 3.50

M5 x 0.5 4.50

M6 x .5 5.50

M6 x .75 5.25

M7 x .75 6.25

M8 x .5 7.00

M8 x .75 7.25

M8 x 1 7.50

M9 x 1 8.00

M10 x 0.75 9.25

M10 x 1 9.0

M10 x 1.25 8.8

M11 x 1 10.0

M12 x .75 11.25

M12 x 1 11.0

M12 x 1.5 10.5

M14 x 1 13.0

M14 x 1.25 12.8

M14 x 1.5 12.5

M16 x 1 15.0

M16 x 1.5 15.0

M18 x 1 17.0

M18 x 2 16.0

M20 x 1 19.0

M20 x 1.5 18.5

M20 x 2 18.0

M22 x 1 21.0

M22 x 1.5 20.5

M22 x 2 20.0

M24 x 1.5 22.5

M24 x 2 22.0

M26 x 1.5 24.5

M27 x 1.5 25.5

M27 x 2 25.0

M28 x 1.5 26.5

M30 x 1.5 28.5

M30 x 2 28.0

M33 x 2 31.0

M36 x 3 36.0

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N C PROGRAMMING FOR CAM 1 ;%_N_F_CONTOUR_MPF ;$PATH=/_N_MPF_DIR N1 ; PART NAME : LUK N2 ; PROGRAM NUMBER : 5000 N3 ; DATE - TIME : 10-DEC-2013 - 11:57:51 N4 ; TOOLS USED : N5 ; - T1 END MILL DIAMETER = 10. N6 G17 G90 G40 N7 G54 N8 G90 G40 G17 N9 G90 G54 N10 M1 N11 G0 Z50. N12 S2200 M3 N13 MSG("F-CONTOUR - PROFILE") N14 G0 X0.786 Y-16.5 N15 G0 Z100. N16 G0 Z2. N17 G1 Z-0.15 F250 N18 G3 X0.786 Y-1.5 I0. J7.5 F1500 N19 X0.786 Y-16.5 I0. J-7.5 N20 G1 Z-0.3 F250 N21 G3 X0.786 Y-1.5 I0. J7.5 F1500 N22 X0.786 Y-16.5 I0. J-7.5 N23 G1 Z-0.45 F250 N24 G3 X0.786 Y-1.5 I0. J7.5 F1500 N25 X0.786 Y-16.5 I0. J-7.5 N26 G1 Z-0.6 F250 N27 G3 X0.786 Y-1.5 I0. J7.5 F1500 N28 X0.786 Y-16.5 I0. J-7.5 N29 G1 Z-0.75 F250 N30 G3 X0.786 Y-1.5 I0. J7.5 F1500 N31 X0.786 Y-16.5 I0. J-7.5 N32 G1 Z-0.9 F250 N33 G3 X0.786 Y-1.5 I0. J7.5 F1500 N34 X0.786 Y-16.5 I0. J-7.5 N35 G1 Z-1.05 F250 N36 G3 X0.786 Y-1.5 I0. J7.5 F1500 N37 X0.786 Y-16.5 I0. J-7.5 N38 G1 Z-1.2 F250 N39 G3 X0.786 Y-1.5 I0. J7.5 F1500 N40 X0.786 Y-16.5 I0. J-7.5 N41 G1 Z-1.35 F250 N42 G3 X0.786 Y-1.5 I0. J7.5 F1500 N43 X0.786 Y-16.5 I0. J-7.5 N44 G1 Z-1.5 F250 N45 G3 X0.786 Y-1.5 I0. J7.5 F1500 N46 X0.786 Y-16.5 I0. J-7.5 N47 G1 Z-1.65 F250 N48 G3 X0.786 Y-1.5 I0. J7.5 F1500 N49 X0.786 Y-16.5 I0. J-7.5 N50 G1 Z-1.8 F250 N51 G3 X0.786 Y-1.5 I0. J7.5 F1500 N52 X0.786 Y-16.5 I0. J-7.5 N53 G1 Z-1.95 F250 N54 G3 X0.786 Y-1.5 I0. J7.5 F1500 N55 X0.786 Y-16.5 I0. J-7.5 N56 G1 Z-2.1 F250 N57 G3 X0.786 Y-1.5 I0. J7.5 F1500 N58 X0.786 Y-16.5 I0. J-7.5 N59 G1 Z-2.25 F250 N60 G3 X0.786 Y-1.5 I0. J7.5 F1500 N61 X0.786 Y-16.5 I0. J-7.5 N62 G1 Z-2.4 F250 N63 G3 X0.786 Y-1.5 I0. J7.5 F1500 N64 X0.786 Y-16.5 I0. J-7.5 N65 G1 Z-2.55 F250 N66 G3 X0.786 Y-1.5 I0. J7.5 F1500

N67 X0.786 Y-16.5 I0. J-7.5 N68 G1 Z-2.7 F250 N69 G3 X0.786 Y-1.5 I0. J7.5 F1500 N70 X0.786 Y-16.5 I0. J-7.5 N71 G1 Z-2.85 F250 N72 G3 X0.786 Y-1.5 I0. J7.5 F1500 N73 X0.786 Y-16.5 I0. J-7.5 N74 G1 Z-3. F250 N75 G3 X0.786 Y-1.5 I0. J7.5 F1500 N76 X0.786 Y-16.5 I0. J-7.5 N77 G1 Z-3.15 F250 N78 G3 X0.786 Y-1.5 I0. J7.5 F1500 N79 X0.786 Y-16.5 I0. J-7.5 N80 G1 Z-3.3 F250 N81 G3 X0.786 Y-1.5 I0. J7.5 F1500 N82 X0.786 Y-16.5 I0. J-7.5 N83 G1 Z-3.45 F250 N84 G3 X0.786 Y-1.5 I0. J7.5 F1500 N85 X0.786 Y-16.5 I0. J-7.5 N86 G1 Z-3.6 F250 N87 G3 X0.786 Y-1.5 I0. J7.5 F1500 N88 X0.786 Y-16.5 I0. J-7.5 N89 G1 Z-3.75 F250 N90 G3 X0.786 Y-1.5 I0. J7.5 F1500 N91 X0.786 Y-16.5 I0. J-7.5 N92 G1 Z-3.9 F250 N93 G3 X0.786 Y-1.5 I0. J7.5 F1500 N94 X0.786 Y-16.5 I0. J-7.5 N95 G1 Z-4.05 F250 N96 G3 X0.786 Y-1.5 I0. J7.5 F1500 N97 X0.786 Y-16.5 I0. J-7.5 N98 G1 Z-4.2 F250 N99 G3 X0.786 Y-1.5 I0. J7.5 F1500 N100 X0.786 Y-16.5 I0. J-7.5 N101 G1 Z-4.35 F250 N102 G3 X0.786 Y-1.5 I0. J7.5 F1500 N103 X0.786 Y-16.5 I0. J-7.5 N104 G1 Z-4.5 F250 N105 G3 X0.786 Y-1.5 I0. J7.5 F1500 N106 X0.786 Y-16.5 I0. J-7.5 N107 G1 Z-4.65 F250 N108 G3 X0.786 Y-1.5 I0. J7.5 F1500 N109 X0.786 Y-16.5 I0. J-7.5 N110 G1 Z-4.8 F250 N111 G3 X0.786 Y-1.5 I0. J7.5 F1500 N112 X0.786 Y-16.5 I0. J-7.5 N113 G1 Z-4.95 F250 N114 G3 X0.786 Y-1.5 I0. J7.5 F1500 N115 X0.786 Y-16.5 I0. J-7.5 N116 G1 Z-5.1 F250 N117 G3 X0.786 Y-1.5 I0. J7.5 F1500 N118 X0.786 Y-16.5 I0. J-7.5 N119 G1 Z-5.25 F250 N120 G3 X0.786 Y-1.5 I0. J7.5 F1500 N121 X0.786 Y-16.5 I0. J-7.5 N122 G1 Z-5.4 F250 N123 G3 X0.786 Y-1.5 I0. J7.5 F1500 N124 X0.786 Y-16.5 I0. J-7.5 N125 G1 Z-5.55 F250 N126 G3 X0.786 Y-1.5 I0. J7.5 F1500 N127 X0.786 Y-16.5 I0. J-7.5 N128 G1 Z-5.7 F250 N129 G3 X0.786 Y-1.5 I0. J7.5 F1500 N130 X0.786 Y-16.5 I0. J-7.5 N131 G1 Z-5.85 F250 N132 G3 X0.786 Y-1.5 I0. J7.5 F1500 N133 X0.786 Y-16.5 I0. J-7.5 N134 G1 Z-6. F250

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N135 G3 X0.786 Y-1.5 I0. J7.5 F1500 N136 X0.786 Y-16.5 I0. J-7.5 N137 G1 Z-6.15 F250 N138 G3 X0.786 Y-1.5 I0. J7.5 F1500 N139 X0.786 Y-16.5 I0. J-7.5 N140 G1 Z-6.3 F250 N141 G3 X0.786 Y-1.5 I0. J7.5 F1500 N142 X0.786 Y-16.5 I0. J-7.5 N143 G1 Z-6.45 F250 N144 G3 X0.786 Y-1.5 I0. J7.5 F1500 N145 X0.786 Y-16.5 I0. J-7.5 N146 G1 Z-6.6 F250 N147 G3 X0.786 Y-1.5 I0. J7.5 F1500 N148 X0.786 Y-16.5 I0. J-7.5 N149 G1 Z-6.75 F250 N150 G3 X0.786 Y-1.5 I0. J7.5 F1500 N151 X0.786 Y-16.5 I0. J-7.5 N152 G1 Z-6.9 F250 N153 G3 X0.786 Y-1.5 I0. J7.5 F1500 N154 X0.786 Y-16.5 I0. J-7.5 N155 G1 Z-7.05 F250 N156 G3 X0.786 Y-1.5 I0. J7.5 F1500 N157 X0.786 Y-16.5 I0. J-7.5 N158 G1 Z-7.2 F250 N159 G3 X0.786 Y-1.5 I0. J7.5 F1500 N160 X0.786 Y-16.5 I0. J-7.5 N161 G1 Z-7.35 F250 N162 G3 X0.786 Y-1.5 I0. J7.5 F1500 N163 X0.786 Y-16.5 I0. J-7.5 N164 G1 Z-7.5 F250 N165 G3 X0.786 Y-1.5 I0. J7.5 F1500 N166 X0.786 Y-16.5 I0. J-7.5 N167 G1 Z-7.65 F250 N168 G3 X0.786 Y-1.5 I0. J7.5 F1500 N169 X0.786 Y-16.5 I0. J-7.5 N170 G1 Z-7.8 F250 N171 G3 X0.786 Y-1.5 I0. J7.5 F1500 N172 X0.786 Y-16.5 I0. J-7.5 N173 G1 Z-7.95 F250 N174 G3 X0.786 Y-1.5 I0. J7.5 F1500 N175 X0.786 Y-16.5 I0. J-7.5 N176 G1 Z-8.1 F250 N177 G3 X0.786 Y-1.5 I0. J7.5 F1500 N178 X0.786 Y-16.5 I0. J-7.5 N179 G1 Z-8.25 F250 N180 G3 X0.786 Y-1.5 I0. J7.5 F1500 N181 X0.786 Y-16.5 I0. J-7.5 N182 G1 Z-8.4 F250 N183 G3 X0.786 Y-1.5 I0. J7.5 F1500 N184 X0.786 Y-16.5 I0. J-7.5 N185 G1 Z-8.55 F250 N186 G3 X0.786 Y-1.5 I0. J7.5 F1500 N187 X0.786 Y-16.5 I0. J-7.5 N188 G1 Z-8.7 F250 N189 G3 X0.786 Y-1.5 I0. J7.5 F1500 N190 X0.786 Y-16.5 I0. J-7.5 N191 G1 Z-8.85 F250 N192 G3 X0.786 Y-1.5 I0. J7.5 F1500 N193 X0.786 Y-16.5 I0. J-7.5 N194 G1 Z-9. F250 N195 G3 X0.786 Y-1.5 I0. J7.5 F1500 N196 X0.786 Y-16.5 I0. J-7.5 N197 G1 Z-9.15 F250 N198 G3 X0.786 Y-1.5 I0. J7.5 F1500 N199 X0.786 Y-16.5 I0. J-7.5 N200 G1 Z-9.3 F250 N201 G3 X0.786 Y-1.5 I0. J7.5 F1500 N202 X0.786 Y-16.5 I0. J-7.5 N203 G1 Z-9.45 F250 N204 G3 X0.786 Y-1.5 I0. J7.5 F1500 N205 X0.786 Y-16.5 I0. J-7.5

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N419 G3 X46.403 Y-14.92 I8.541 J-8.429 N420 G2 X-35.344 Y-37.472 I-45.617 J5.92 N421 G1 X-51.071 Y-21.51 N422 G2 X-60.194 Y10.428 I19.461 J22.831 N423 X-37.532 Y42.261 I60.98 J-19.428 N424 G1 Z-2.85 F250 N425 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N426 X58.151 Y0.466 I-11.267 J-4.129 N427 G1 X49.762 Y-8.036 N428 G3 X46.403 Y-14.92 I8.541 J-8.429 N429 G2 X-35.344 Y-37.472 I-45.617 J5.92 N430 G1 X-51.071 Y-21.51 N431 G2 X-60.194 Y10.428 I19.461 J22.831 N432 X-37.532 Y42.261 I60.98 J-19.428 N433 G1 Z-3. F250 N434 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N435 X58.151 Y0.466 I-11.267 J-4.129 N436 G1 X49.762 Y-8.036 N437 G3 X46.403 Y-14.92 I8.541 J-8.429 N438 G2 X-35.344 Y-37.472 I-45.617 J5.92 N439 G1 X-51.071 Y-21.51 N440 G2 X-60.194 Y10.428 I19.461 J22.831 N441 X-37.532 Y42.261 I60.98 J-19.428 N442 G1 Z-3.15 F250 N443 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N444 X58.151 Y0.466 I-11.267 J-4.129 N445 G1 X49.762 Y-8.036 N446 G3 X46.403 Y-14.92 I8.541 J-8.429 N447 G2 X-35.344 Y-37.472 I-45.617 J5.92 N448 G1 X-51.071 Y-21.51 N449 G2 X-60.194 Y10.428 I19.461 J22.831 N450 X-37.532 Y42.261 I60.98 J-19.428 N451 G1 Z-3.3 F250 N452 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N453 X58.151 Y0.466 I-11.267 J-4.129 N454 G1 X49.762 Y-8.036 N455 G3 X46.403 Y-14.92 I8.541 J-8.429 N456 G2 X-35.344 Y-37.472 I-45.617 J5.92 N457 G1 X-51.071 Y-21.51 N458 G2 X-60.194 Y10.428 I19.461 J22.831 N459 X-37.532 Y42.261 I60.98 J-19.428 N460 G1 Z-3.45 F250 N461 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N462 X58.151 Y0.466 I-11.267 J-4.129 N463 G1 X49.762 Y-8.036 N464 G3 X46.403 Y-14.92 I8.541 J-8.429 N465 G2 X-35.344 Y-37.472 I-45.617 J5.92 N466 G1 X-51.071 Y-21.51 N467 G2 X-60.194 Y10.428 I19.461 J22.831 N468 X-37.532 Y42.261 I60.98 J-19.428 N469 G1 Z-3.6 F250 N470 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N471 X58.151 Y0.466 I-11.267 J-4.129 N472 G1 X49.762 Y-8.036 N473 G3 X46.403 Y-14.92 I8.541 J-8.429 N474 G2 X-35.344 Y-37.472 I-45.617 J5.92 N475 G1 X-51.071 Y-21.51 N476 G2 X-60.194 Y10.428 I19.461 J22.831 N477 X-37.532 Y42.261 I60.98 J-19.428 N478 G1 Z-3.75 F250 N479 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N480 X58.151 Y0.466 I-11.267 J-4.129 N481 G1 X49.762 Y-8.036 N482 G3 X46.403 Y-14.92 I8.541 J-8.429 N483 G2 X-35.344 Y-37.472 I-45.617 J5.92 N484 G1 X-51.071 Y-21.51 N485 G2 X-60.194 Y10.428 I19.461 J22.831 N486 X-37.532 Y42.261 I60.98 J-19.428 N487 G1 Z-3.9 F250 N488 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N489 X58.151 Y0.466 I-11.267 J-4.129

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N561 X58.151 Y0.466 I-11.267 J-4.129 N562 G1 X49.762 Y-8.036 N563 G3 X46.403 Y-14.92 I8.541 J-8.429 N564 G2 X-35.344 Y-37.472 I-45.617 J5.92 N565 G1 X-51.071 Y-21.51 N566 G2 X-60.194 Y10.428 I19.461 J22.831 N567 X-37.532 Y42.261 I60.98 J-19.428 N568 G1 Z-5.25 F250 N569 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N570 X58.151 Y0.466 I-11.267 J-4.129 N571 G1 X49.762 Y-8.036 N572 G3 X46.403 Y-14.92 I8.541 J-8.429 N573 G2 X-35.344 Y-37.472 I-45.617 J5.92 N574 G1 X-51.071 Y-21.51 N575 G2 X-60.194 Y10.428 I19.461 J22.831 N576 X-37.532 Y42.261 I60.98 J-19.428 N577 G1 Z-5.4 F250 N578 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N579 X58.151 Y0.466 I-11.267 J-4.129 N580 G1 X49.762 Y-8.036 N581 G3 X46.403 Y-14.92 I8.541 J-8.429 N582 G2 X-35.344 Y-37.472 I-45.617 J5.92 N583 G1 X-51.071 Y-21.51 N584 G2 X-60.194 Y10.428 I19.461 J22.831 N585 X-37.532 Y42.261 I60.98 J-19.428 N586 G1 Z-5.55 F250 N587 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N588 X58.151 Y0.466 I-11.267 J-4.129 N589 G1 X49.762 Y-8.036 N590 G3 X46.403 Y-14.92 I8.541 J-8.429 N591 G2 X-35.344 Y-37.472 I-45.617 J5.92 N592 G1 X-51.071 Y-21.51 N593 G2 X-60.194 Y10.428 I19.461 J22.831 N594 X-37.532 Y42.261 I60.98 J-19.428 N595 G1 Z-5.7 F250 N596 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N597 X58.151 Y0.466 I-11.267 J-4.129 N598 G1 X49.762 Y-8.036 N599 G3 X46.403 Y-14.92 I8.541 J-8.429 N600 G2 X-35.344 Y-37.472 I-45.617 J5.92 N601 G1 X-51.071 Y-21.51 N602 G2 X-60.194 Y10.428 I19.461 J22.831 N603 X-37.532 Y42.261 I60.98 J-19.428 N604 G1 Z-5.85 F250 N605 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N606 X58.151 Y0.466 I-11.267 J-4.129 N607 G1 X49.762 Y-8.036 N608 G3 X46.403 Y-14.92 I8.541 J-8.429 N609 G2 X-35.344 Y-37.472 I-45.617 J5.92 N610 G1 X-51.071 Y-21.51 N611 G2 X-60.194 Y10.428 I19.461 J22.831 N612 X-37.532 Y42.261 I60.98 J-19.428 N613 G1 Z-6. F250 N614 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N615 X58.151 Y0.466 I-11.267 J-4.129 N616 G1 X49.762 Y-8.036 N617 G3 X46.403 Y-14.92 I8.541 J-8.429 N618 G2 X-35.344 Y-37.472 I-45.617 J5.92 N619 G1 X-51.071 Y-21.51 N620 G2 X-60.194 Y10.428 I19.461 J22.831 N621 X-37.532 Y42.261 I60.98 J-19.428 N622 G1 Z-6.15 F250 N623 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N624 X58.151 Y0.466 I-11.267 J-4.129 N625 G1 X49.762 Y-8.036 N626 G3 X46.403 Y-14.92 I8.541 J-8.429 N627 G2 X-35.344 Y-37.472 I-45.617 J5.92 N628 G1 X-51.071 Y-21.51 N629 G2 X-60.194 Y10.428 I19.461 J22.831 N630 X-37.532 Y42.261 I60.98 J-19.428 N631 G1 Z-6.3 F250

N632 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N633 X58.151 Y0.466 I-11.267 J-4.129 N634 G1 X49.762 Y-8.036 N635 G3 X46.403 Y-14.92 I8.541 J-8.429 N636 G2 X-35.344 Y-37.472 I-45.617 J5.92 N637 G1 X-51.071 Y-21.51 N638 G2 X-60.194 Y10.428 I19.461 J22.831 N639 X-37.532 Y42.261 I60.98 J-19.428 N640 G1 Z-6.45 F250 N641 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N642 X58.151 Y0.466 I-11.267 J-4.129 N643 G1 X49.762 Y-8.036 N644 G3 X46.403 Y-14.92 I8.541 J-8.429 N645 G2 X-35.344 Y-37.472 I-45.617 J5.92 N646 G1 X-51.071 Y-21.51 N647 G2 X-60.194 Y10.428 I19.461 J22.831 N648 X-37.532 Y42.261 I60.98 J-19.428 N649 G1 Z-6.6 F250 N650 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N651 X58.151 Y0.466 I-11.267 J-4.129 N652 G1 X49.762 Y-8.036 N653 G3 X46.403 Y-14.92 I8.541 J-8.429 N654 G2 X-35.344 Y-37.472 I-45.617 J5.92 N655 G1 X-51.071 Y-21.51 N656 G2 X-60.194 Y10.428 I19.461 J22.831 N657 X-37.532 Y42.261 I60.98 J-19.428 N658 G1 Z-6.75 F250 N659 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N660 X58.151 Y0.466 I-11.267 J-4.129 N661 G1 X49.762 Y-8.036 N662 G3 X46.403 Y-14.92 I8.541 J-8.429 N663 G2 X-35.344 Y-37.472 I-45.617 J5.92 N664 G1 X-51.071 Y-21.51 N665 G2 X-60.194 Y10.428 I19.461 J22.831 N666 X-37.532 Y42.261 I60.98 J-19.428 N667 G1 Z-6.9 F250 N668 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N669 X58.151 Y0.466 I-11.267 J-4.129 N670 G1 X49.762 Y-8.036 N671 G3 X46.403 Y-14.92 I8.541 J-8.429 N672 G2 X-35.344 Y-37.472 I-45.617 J5.92 N673 G1 X-51.071 Y-21.51 N674 G2 X-60.194 Y10.428 I19.461 J22.831 N675 X-37.532 Y42.261 I60.98 J-19.428 N676 G1 Z-7.05 F250 N677 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N678 X58.151 Y0.466 I-11.267 J-4.129 N679 G1 X49.762 Y-8.036 N680 G3 X46.403 Y-14.92 I8.541 J-8.429 N681 G2 X-35.344 Y-37.472 I-45.617 J5.92 N682 G1 X-51.071 Y-21.51 N683 G2 X-60.194 Y10.428 I19.461 J22.831 N684 X-37.532 Y42.261 I60.98 J-19.428 N685 G1 Z-7.2 F250 N686 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N687 X58.151 Y0.466 I-11.267 J-4.129 N688 G1 X49.762 Y-8.036 N689 G3 X46.403 Y-14.92 I8.541 J-8.429 N690 G2 X-35.344 Y-37.472 I-45.617 J5.92 N691 G1 X-51.071 Y-21.51 N692 G2 X-60.194 Y10.428 I19.461 J22.831 N693 X-37.532 Y42.261 I60.98 J-19.428 N694 G1 Z-7.35 F250 N695 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N696 X58.151 Y0.466 I-11.267 J-4.129 N697 G1 X49.762 Y-8.036 N698 G3 X46.403 Y-14.92 I8.541 J-8.429 N699 G2 X-35.344 Y-37.472 I-45.617 J5.92 N700 G1 X-51.071 Y-21.51 N701 G2 X-60.194 Y10.428 I19.461 J22.831 N702 X-37.532 Y42.261 I60.98 J-19.428

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N703 G1 Z-7.5 F250 N704 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N705 X58.151 Y0.466 I-11.267 J-4.129 N706 G1 X49.762 Y-8.036 N707 G3 X46.403 Y-14.92 I8.541 J-8.429 N708 G2 X-35.344 Y-37.472 I-45.617 J5.92 N709 G1 X-51.071 Y-21.51 N710 G2 X-60.194 Y10.428 I19.461 J22.831 N711 X-37.532 Y42.261 I60.98 J-19.428 N712 G1 Z-7.65 F250 N713 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N714 X58.151 Y0.466 I-11.267 J-4.129 N715 G1 X49.762 Y-8.036 N716 G3 X46.403 Y-14.92 I8.541 J-8.429 N717 G2 X-35.344 Y-37.472 I-45.617 J5.92 N718 G1 X-51.071 Y-21.51 N719 G2 X-60.194 Y10.428 I19.461 J22.831 N720 X-37.532 Y42.261 I60.98 J-19.428 N721 G1 Z-7.8 F250 N722 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N723 X58.151 Y0.466 I-11.267 J-4.129 N724 G1 X49.762 Y-8.036 N725 G3 X46.403 Y-14.92 I8.541 J-8.429 N726 G2 X-35.344 Y-37.472 I-45.617 J5.92 N727 G1 X-51.071 Y-21.51 N728 G2 X-60.194 Y10.428 I19.461 J22.831 N729 X-37.532 Y42.261 I60.98 J-19.428 N730 G1 Z-7.95 F250 N731 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N732 X58.151 Y0.466 I-11.267 J-4.129 N733 G1 X49.762 Y-8.036 N734 G3 X46.403 Y-14.92 I8.541 J-8.429 N735 G2 X-35.344 Y-37.472 I-45.617 J5.92 N736 G1 X-51.071 Y-21.51 N737 G2 X-60.194 Y10.428 I19.461 J22.831 N738 X-37.532 Y42.261 I60.98 J-19.428 N739 G1 Z-8.1 F250 N740 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N741 X58.151 Y0.466 I-11.267 J-4.129 N742 G1 X49.762 Y-8.036 N743 G3 X46.403 Y-14.92 I8.541 J-8.429 N744 G2 X-35.344 Y-37.472 I-45.617 J5.92 N745 G1 X-51.071 Y-21.51 N746 G2 X-60.194 Y10.428 I19.461 J22.831 N747 X-37.532 Y42.261 I60.98 J-19.428 N748 G1 Z-8.25 F250 N749 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N750 X58.151 Y0.466 I-11.267 J-4.129 N751 G1 X49.762 Y-8.036 N752 G3 X46.403 Y-14.92 I8.541 J-8.429 N753 G2 X-35.344 Y-37.472 I-45.617 J5.92 N754 G1 X-51.071 Y-21.51 N755 G2 X-60.194 Y10.428 I19.461 J22.831 N756 X-37.532 Y42.261 I60.98 J-19.428 N757 G1 Z-8.4 F250 N758 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N759 X58.151 Y0.466 I-11.267 J-4.129 N760 G1 X49.762 Y-8.036 N761 G3 X46.403 Y-14.92 I8.541 J-8.429 N762 G2 X-35.344 Y-37.472 I-45.617 J5.92 N763 G1 X-51.071 Y-21.51 N764 G2 X-60.194 Y10.428 I19.461 J22.831 N765 X-37.532 Y42.261 I60.98 J-19.428 N766 G1 Z-8.55 F250 N767 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N768 X58.151 Y0.466 I-11.267 J-4.129 N769 G1 X49.762 Y-8.036 N770 G3 X46.403 Y-14.92 I8.541 J-8.429 N771 G2 X-35.344 Y-37.472 I-45.617 J5.92 N772 G1 X-51.071 Y-21.51 N773 G2 X-60.194 Y10.428 I19.461 J22.831

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N845 G2 X-60.194 Y10.428 I19.461 J22.831 N846 X-37.532 Y42.261 I60.98 J-19.428 N847 G1 Z-9.9 F250 N848 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N849 X58.151 Y0.466 I-11.267 J-4.129 N850 G1 X49.762 Y-8.036 N851 G3 X46.403 Y-14.92 I8.541 J-8.429 N852 G2 X-35.344 Y-37.472 I-45.617 J5.92 N853 G1 X-51.071 Y-21.51 N854 G2 X-60.194 Y10.428 I19.461 J22.831 N855 X-37.532 Y42.261 I60.98 J-19.428 N856 G1 Z-10.05 F250 N857 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N858 X58.151 Y0.466 I-11.267 J-4.129 N859 G1 X49.762 Y-8.036 N860 G3 X46.403 Y-14.92 I8.541 J-8.429 N861 G2 X-35.344 Y-37.472 I-45.617 J5.92 N862 G1 X-51.071 Y-21.51 N863 G2 X-60.194 Y10.428 I19.461 J22.831 N864 X-37.532 Y42.261 I60.98 J-19.428 N865 G1 Z-10.2 F250 N866 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N867 X58.151 Y0.466 I-11.267 J-4.129 N868 G1 X49.762 Y-8.036 N869 G3 X46.403 Y-14.92 I8.541 J-8.429 N870 G2 X-35.344 Y-37.472 I-45.617 J5.92 N871 G1 X-51.071 Y-21.51 N872 G2 X-60.194 Y10.428 I19.461 J22.831 N873 X-37.532 Y42.261 I60.98 J-19.428 N874 G1 Z-10.35 F250 N875 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N876 X58.151 Y0.466 I-11.267 J-4.129 N877 G1 X49.762 Y-8.036 N878 G3 X46.403 Y-14.92 I8.541 J-8.429 N879 G2 X-35.344 Y-37.472 I-45.617 J5.92 N880 G1 X-51.071 Y-21.51 N881 G2 X-60.194 Y10.428 I19.461 J22.831 N882 X-37.532 Y42.261 I60.98 J-19.428 N883 G1 Z-10.5 F250 N884 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N885 X58.151 Y0.466 I-11.267 J-4.129 N886 G1 X49.762 Y-8.036 N887 G3 X46.403 Y-14.92 I8.541 J-8.429 N888 G2 X-35.344 Y-37.472 I-45.617 J5.92 N889 G1 X-51.071 Y-21.51 N890 G2 X-60.194 Y10.428 I19.461 J22.831 N891 X-37.532 Y42.261 I60.98 J-19.428 N892 G1 Z-10.65 F250 N893 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N894 X58.151 Y0.466 I-11.267 J-4.129 N895 G1 X49.762 Y-8.036 N896 G3 X46.403 Y-14.92 I8.541 J-8.429 N897 G2 X-35.344 Y-37.472 I-45.617 J5.92 N898 G1 X-51.071 Y-21.51 N899 G2 X-60.194 Y10.428 I19.461 J22.831 N900 X-37.532 Y42.261 I60.98 J-19.428 N901 G1 Z-10.8 F250 N902 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N903 X58.151 Y0.466 I-11.267 J-4.129 N904 G1 X49.762 Y-8.036 N905 G3 X46.403 Y-14.92 I8.541 J-8.429 N906 G2 X-35.344 Y-37.472 I-45.617 J5.92 N907 G1 X-51.071 Y-21.51 N908 G2 X-60.194 Y10.428 I19.461 J22.831 N909 X-37.532 Y42.261 I60.98 J-19.428 N910 G1 Z-10.95 F250 N911 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N912 X58.151 Y0.466 I-11.267 J-4.129 N913 G1 X49.762 Y-8.036 N914 G3 X46.403 Y-14.92 I8.541 J-8.429 N915 G2 X-35.344 Y-37.472 I-45.617 J5.92

N916 G1 X-51.071 Y-21.51 N917 G2 X-60.194 Y10.428 I19.461 J22.831 N918 X-37.532 Y42.261 I60.98 J-19.428 N919 G1 Z-11.1 F250 N920 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N921 X58.151 Y0.466 I-11.267 J-4.129 N922 G1 X49.762 Y-8.036 N923 G3 X46.403 Y-14.92 I8.541 J-8.429 N924 G2 X-35.344 Y-37.472 I-45.617 J5.92 N925 G1 X-51.071 Y-21.51 N926 G2 X-60.194 Y10.428 I19.461 J22.831 N927 X-37.532 Y42.261 I60.98 J-19.428 N928 G1 Z-11.25 F250 N929 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N930 X58.151 Y0.466 I-11.267 J-4.129 N931 G1 X49.762 Y-8.036 N932 G3 X46.403 Y-14.92 I8.541 J-8.429 N933 G2 X-35.344 Y-37.472 I-45.617 J5.92 N934 G1 X-51.071 Y-21.51 N935 G2 X-60.194 Y10.428 I19.461 J22.831 N936 X-37.532 Y42.261 I60.98 J-19.428 N937 G1 Z-11.4 F250 N938 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N939 X58.151 Y0.466 I-11.267 J-4.129 N940 G1 X49.762 Y-8.036 N941 G3 X46.403 Y-14.92 I8.541 J-8.429 N942 G2 X-35.344 Y-37.472 I-45.617 J5.92 N943 G1 X-51.071 Y-21.51 N944 G2 X-60.194 Y10.428 I19.461 J22.831 N945 X-37.532 Y42.261 I60.98 J-19.428 N946 G1 Z-11.55 F250 N947 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N948 X58.151 Y0.466 I-11.267 J-4.129 N949 G1 X49.762 Y-8.036 N950 G3 X46.403 Y-14.92 I8.541 J-8.429 N951 G2 X-35.344 Y-37.472 I-45.617 J5.92 N952 G1 X-51.071 Y-21.51 N953 G2 X-60.194 Y10.428 I19.461 J22.831 N954 X-37.532 Y42.261 I60.98 J-19.428 N955 G1 Z-11.7 F250 N956 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N957 X58.151 Y0.466 I-11.267 J-4.129 N958 G1 X49.762 Y-8.036 N959 G3 X46.403 Y-14.92 I8.541 J-8.429 N960 G2 X-35.344 Y-37.472 I-45.617 J5.92 N961 G1 X-51.071 Y-21.51 N962 G2 X-60.194 Y10.428 I19.461 J22.831 N963 X-37.532 Y42.261 I60.98 J-19.428 N964 G1 Z-11.85 F250 N965 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N966 X58.151 Y0.466 I-11.267 J-4.129 N967 G1 X49.762 Y-8.036 N968 G3 X46.403 Y-14.92 I8.541 J-8.429 N969 G2 X-35.344 Y-37.472 I-45.617 J5.92 N970 G1 X-51.071 Y-21.51 N971 G2 X-60.194 Y10.428 I19.461 J22.831 N972 X-37.532 Y42.261 I60.98 J-19.428 N973 G1 Z-12. F250 N974 G2 X60.877 Y13.024 I38.318 J-51.261 F1500 N975 X58.151 Y0.466 I-11.267 J-4.129 N976 G1 X49.762 Y-8.036 N977 G3 X46.403 Y-14.92 I8.541 J-8.429 N978 G2 X-35.344 Y-37.472 I-45.617 J5.92 N979 G1 X-51.071 Y-21.51 N980 G2 X-60.194 Y10.428 I19.461 J22.831 N981 X-37.532 Y42.261 I60.98 J-19.428 N982 X60.877 Y13.024 I38.318 J-51.261 F1500 N983 X58.151 Y0.466 I-11.267 J-4.129 N984 G1 X49.762 Y-8.036 N985 G3 X46.403 Y-14.92 I8.541 J-8.429 N986 G2 X-35.344 Y-37.472 I-45.617 J5.92

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N987 G1 X-51.071 Y-21.51 N988 G2 X-60.194 Y10.428 I19.461 J22.831 N989 X-37.532 Y42.261 I60.98 J-19.428 N990 G0 Z100. N991 TRANS N992 M5 N993 G90 G54 N994 G0 Z250. N995 M30 %

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NC PROGRAMMING FOR CAM 2 ;%_N_F_CONTOUR_MPF ;$PATH=/_N_MPF_DIR N1 ; PART NAME : PART1NMJ N2 ; PROGRAM NUMBER : 5000 N3 ; DATE - TIME : 10-DEC-2013 - 12:09:44 N4 ; TOOLS USED : N5 ; - T1 END MILL DIAMETER = 10. N6 G17 G90 G40 N7 G54 N8 G90 G40 G17 N9 G90 G54 N10 M1 N11 G0 Z50. N12 S2200 M3 N13 MSG("F-CONTOUR - PROFILE") N14 G0 X7.5 Y0. N15 G0 Z100. N16 G0 Z2. N17 G1 Z-0.15 F120 N18 G3 X-7.5 Y0. I-7.5 J0. F1500 N19 X7.5 Y0. I7.5 J0. N20 G1 Z-0.3 F120 N21 G3 X-7.5 Y0. I-7.5 J0. F1500 N22 X7.5 Y0. I7.5 J0. N23 G1 Z-0.45 F120 N24 G3 X-7.5 Y0. I-7.5 J0. F1500 N25 X7.5 Y0. I7.5 J0. N26 G1 Z-0.6 F120 N27 G3 X-7.5 Y0. I-7.5 J0. F1500 N28 X7.5 Y0. I7.5 J0. N29 G1 Z-0.75 F120 N30 G3 X-7.5 Y0. I-7.5 J0. F1500 N31 X7.5 Y0. I7.5 J0. N32 G1 Z-0.9 F120 N33 G3 X-7.5 Y0. I-7.5 J0. F1500 N34 X7.5 Y0. I7.5 J0. N35 G1 Z-1.05 F120 N36 G3 X-7.5 Y0. I-7.5 J0. F1500 N37 X7.5 Y0. I7.5 J0. N38 G1 Z-1.2 F120 N39 G3 X-7.5 Y0. I-7.5 J0. F1500 N40 X7.5 Y0. I7.5 J0. N41 G1 Z-1.35 F120 N42 G3 X-7.5 Y0. I-7.5 J0. F1500 N43 X7.5 Y0. I7.5 J0. N44 G1 Z-1.5 F120 N45 G3 X-7.5 Y0. I-7.5 J0. F1500 N46 X7.5 Y0. I7.5 J0. N47 G1 Z-1.65 F120 N48 G3 X-7.5 Y0. I-7.5 J0. F1500 N49 X7.5 Y0. I7.5 J0. N50 G1 Z-1.8 F120 N51 G3 X-7.5 Y0. I-7.5 J0. F1500 N52 X7.5 Y0. I7.5 J0. N53 G1 Z-1.95 F120 N54 G3 X-7.5 Y0. I-7.5 J0. F1500 N55 X7.5 Y0. I7.5 J0. N56 G1 Z-2.1 F120 N57 G3 X-7.5 Y0. I-7.5 J0. F1500 N58 X7.5 Y0. I7.5 J0. N59 G1 Z-2.25 F120 N60 G3 X-7.5 Y0. I-7.5 J0. F1500 N61 X7.5 Y0. I7.5 J0. N62 G1 Z-2.4 F120 N63 G3 X-7.5 Y0. I-7.5 J0. F1500 N64 X7.5 Y0. I7.5 J0. N65 G1 Z-2.55 F120 N66 G3 X-7.5 Y0. I-7.5 J0. F1500

N67 X7.5 Y0. I7.5 J0. N68 G1 Z-2.7 F120 N69 G3 X-7.5 Y0. I-7.5 J0. F1500 N70 X7.5 Y0. I7.5 J0. N71 G1 Z-2.85 F120 N72 G3 X-7.5 Y0. I-7.5 J0. F1500 N73 X7.5 Y0. I7.5 J0. N74 G1 Z-3. F120 N75 G3 X-7.5 Y0. I-7.5 J0. F1500 N76 X7.5 Y0. I7.5 J0. N77 G1 Z-3.15 F120 N78 G3 X-7.5 Y0. I-7.5 J0. F1500 N79 X7.5 Y0. I7.5 J0. N80 G1 Z-3.3 F120 N81 G3 X-7.5 Y0. I-7.5 J0. F1500 N82 X7.5 Y0. I7.5 J0. N83 G1 Z-3.45 F120 N84 G3 X-7.5 Y0. I-7.5 J0. F1500 N85 X7.5 Y0. I7.5 J0. N86 G1 Z-3.6 F120 N87 G3 X-7.5 Y0. I-7.5 J0. F1500 N88 X7.5 Y0. I7.5 J0. N89 G1 Z-3.75 F120 N90 G3 X-7.5 Y0. I-7.5 J0. F1500 N91 X7.5 Y0. I7.5 J0. N92 G1 Z-3.9 F120 N93 G3 X-7.5 Y0. I-7.5 J0. F1500 N94 X7.5 Y0. I7.5 J0. N95 G1 Z-4.05 F120 N96 G3 X-7.5 Y0. I-7.5 J0. F1500 N97 X7.5 Y0. I7.5 J0. N98 G1 Z-4.2 F120 N99 G3 X-7.5 Y0. I-7.5 J0. F1500 N100 X7.5 Y0. I7.5 J0. N101 G1 Z-4.35 F120 N102 G3 X-7.5 Y0. I-7.5 J0. F1500 N103 X7.5 Y0. I7.5 J0. N104 G1 Z-4.5 F120 N105 G3 X-7.5 Y0. I-7.5 J0. F1500 N106 X7.5 Y0. I7.5 J0. N107 G1 Z-4.65 F120 N108 G3 X-7.5 Y0. I-7.5 J0. F1500 N109 X7.5 Y0. I7.5 J0. N110 G1 Z-4.8 F120 N111 G3 X-7.5 Y0. I-7.5 J0. F1500 N112 X7.5 Y0. I7.5 J0. N113 G1 Z-4.95 F120 N114 G3 X-7.5 Y0. I-7.5 J0. F1500 N115 X7.5 Y0. I7.5 J0. N116 G1 Z-5.1 F120 N117 G3 X-7.5 Y0. I-7.5 J0. F1500 N118 X7.5 Y0. I7.5 J0. N119 G1 Z-5.25 F120 N120 G3 X-7.5 Y0. I-7.5 J0. F1500 N121 X7.5 Y0. I7.5 J0. N122 G1 Z-5.4 F120 N123 G3 X-7.5 Y0. I-7.5 J0. F1500 N124 X7.5 Y0. I7.5 J0. N125 G1 Z-5.55 F120 N126 G3 X-7.5 Y0. I-7.5 J0. F1500 N127 X7.5 Y0. I7.5 J0. N128 G1 Z-5.7 F120 N129 G3 X-7.5 Y0. I-7.5 J0. F1500 N130 X7.5 Y0. I7.5 J0. N131 G1 Z-5.85 F120 N132 G3 X-7.5 Y0. I-7.5 J0. F1500 N133 X7.5 Y0. I7.5 J0. N134 G1 Z-6. F120 N135 G3 X-7.5 Y0. I-7.5 J0. F1500 N136 X7.5 Y0. I7.5 J0. N137 G1 Z-6.15 F120

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N138 G3 X-7.5 Y0. I-7.5 J0. F1500 N139 X7.5 Y0. I7.5 J0. N140 G1 Z-6.3 F120 N141 G3 X-7.5 Y0. I-7.5 J0. F1500 N142 X7.5 Y0. I7.5 J0. N143 G1 Z-6.45 F120 N144 G3 X-7.5 Y0. I-7.5 J0. F1500 N145 X7.5 Y0. I7.5 J0. N146 G1 Z-6.6 F120 N147 G3 X-7.5 Y0. I-7.5 J0. F1500 N148 X7.5 Y0. I7.5 J0. N149 G1 Z-6.75 F120 N150 G3 X-7.5 Y0. I-7.5 J0. F1500 N151 X7.5 Y0. I7.5 J0. N152 G1 Z-6.9 F120 N153 G3 X-7.5 Y0. I-7.5 J0. F1500 N154 X7.5 Y0. I7.5 J0. N155 G1 Z-7.05 F120 N156 G3 X-7.5 Y0. I-7.5 J0. F1500 N157 X7.5 Y0. I7.5 J0. N158 G1 Z-7.2 F120 N159 G3 X-7.5 Y0. I-7.5 J0. F1500 N160 X7.5 Y0. I7.5 J0. N161 G1 Z-7.35 F120 N162 G3 X-7.5 Y0. I-7.5 J0. F1500 N163 X7.5 Y0. I7.5 J0. N164 G1 Z-7.5 F120 N165 G3 X-7.5 Y0. I-7.5 J0. F1500 N166 X7.5 Y0. I7.5 J0. N167 G1 Z-7.65 F120 N168 G3 X-7.5 Y0. I-7.5 J0. F1500 N169 X7.5 Y0. I7.5 J0. N170 G1 Z-7.8 F120 N171 G3 X-7.5 Y0. I-7.5 J0. F1500 N172 X7.5 Y0. I7.5 J0. N173 G1 Z-7.95 F120 N174 G3 X-7.5 Y0. I-7.5 J0. F1500 N175 X7.5 Y0. I7.5 J0. N176 G1 Z-8.1 F120 N177 G3 X-7.5 Y0. I-7.5 J0. F1500 N178 X7.5 Y0. I7.5 J0. N179 G1 Z-8.25 F120 N180 G3 X-7.5 Y0. I-7.5 J0. F1500 N181 X7.5 Y0. I7.5 J0. N182 G1 Z-8.4 F120 N183 G3 X-7.5 Y0. I-7.5 J0. F1500 N184 X7.5 Y0. I7.5 J0. N185 G1 Z-8.55 F120 N186 G3 X-7.5 Y0. I-7.5 J0. F1500 N187 X7.5 Y0. I7.5 J0. N188 G1 Z-8.7 F120 N189 G3 X-7.5 Y0. I-7.5 J0. F1500 N190 X7.5 Y0. I7.5 J0. N191 G1 Z-8.85 F120 N192 G3 X-7.5 Y0. I-7.5 J0. F1500 N193 X7.5 Y0. I7.5 J0. N194 G1 Z-9. F120 N195 G3 X-7.5 Y0. I-7.5 J0. F1500 N196 X7.5 Y0. I7.5 J0. N197 G1 Z-9.15 F120 N198 G3 X-7.5 Y0. I-7.5 J0. F1500 N199 X7.5 Y0. I7.5 J0. N200 G1 Z-9.3 F120 N201 G3 X-7.5 Y0. I-7.5 J0. F1500 N202 X7.5 Y0. I7.5 J0. N203 G1 Z-9.45 F120 N204 G3 X-7.5 Y0. I-7.5 J0. F1500 N205 X7.5 Y0. I7.5 J0. N206 G1 Z-9.6 F120 N207 G3 X-7.5 Y0. I-7.5 J0. F1500 N208 X7.5 Y0. I7.5 J0.

N209 G1 Z-9.75 F120 N210 G3 X-7.5 Y0. I-7.5 J0. F1500 N211 X7.5 Y0. I7.5 J0. N212 G1 Z-9.9 F120 N213 G3 X-7.5 Y0. I-7.5 J0. F1500 N214 X7.5 Y0. I7.5 J0. N215 G1 Z-10.05 F120 N216 G3 X-7.5 Y0. I-7.5 J0. F1500 N217 X7.5 Y0. I7.5 J0. N218 G1 Z-10.2 F120 N219 G3 X-7.5 Y0. I-7.5 J0. F1500 N220 X7.5 Y0. I7.5 J0. N221 G1 Z-10.35 F120 N222 G3 X-7.5 Y0. I-7.5 J0. F1500 N223 X7.5 Y0. I7.5 J0. N224 G1 Z-10.5 F120 N225 G3 X-7.5 Y0. I-7.5 J0. F1500 N226 X7.5 Y0. I7.5 J0. N227 G1 Z-10.65 F120 N228 G3 X-7.5 Y0. I-7.5 J0. F1500 N229 X7.5 Y0. I7.5 J0. N230 G1 Z-10.8 F120 N231 G3 X-7.5 Y0. I-7.5 J0. F1500 N232 X7.5 Y0. I7.5 J0. N233 G1 Z-10.95 F120 N234 G3 X-7.5 Y0. I-7.5 J0. F1500 N235 X7.5 Y0. I7.5 J0. N236 G1 Z-11.1 F120 N237 G3 X-7.5 Y0. I-7.5 J0. F1500 N238 X7.5 Y0. I7.5 J0. N239 G1 Z-11.25 F120 N240 G3 X-7.5 Y0. I-7.5 J0. F1500 N241 X7.5 Y0. I7.5 J0. N242 G1 Z-11.4 F120 N243 G3 X-7.5 Y0. I-7.5 J0. F1500 N244 X7.5 Y0. I7.5 J0. N245 G1 Z-11.55 F120 N246 G3 X-7.5 Y0. I-7.5 J0. F1500 N247 X7.5 Y0. I7.5 J0. N248 G1 Z-11.7 F120 N249 G3 X-7.5 Y0. I-7.5 J0. F1500 N250 X7.5 Y0. I7.5 J0. N251 G1 Z-11.85 F120 N252 G3 X-7.5 Y0. I-7.5 J0. F1500 N253 X7.5 Y0. I7.5 J0. N254 G1 Z-12. F120 N255 G3 X-7.5 Y0. I-7.5 J0. F1500 N256 X7.5 Y0. I7.5 J0. N257 X-7.5 Y0. I-7.5 J0. F1500 N258 X7.5 Y0. I7.5 J0. N259 G0 Z100. N260 G0 X-45.271 Y-24.023 N261 G0 Z2. N262 G1 Z-0.15 F120 N263 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N264 X-14.867 Y42.151 I6.727 J-9.937 N265 G3 X14.867 Y42.151 I14.867 J20.099 N266 G2 X28.73 Y42.44 I7.136 J-9.648 N267 X28.73 Y-42.44 I-28.73 J-42.44 N268 X14.867 Y-42.151 I-6.727 J9.937 N269 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N270 G2 X-28.73 Y-42.44 I-7.136 J9.648 N271 X-45.271 Y-24.023 I28.73 J42.44 N272 G1 Z-0.3 F120 N273 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N274 X-14.867 Y42.151 I6.727 J-9.937 N275 G3 X14.867 Y42.151 I14.867 J20.099 N276 G2 X28.73 Y42.44 I7.136 J-9.648 N277 X28.73 Y-42.44 I-28.73 J-42.44 N278 X14.867 Y-42.151 I-6.727 J9.937 N279 G3 X-14.867 Y-42.151 I-14.867 J-20.099

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N280 G2 X-28.73 Y-42.44 I-7.136 J9.648 N281 X-45.271 Y-24.023 I28.73 J42.44 N282 G1 Z-0.45 F120 N283 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N284 X-14.867 Y42.151 I6.727 J-9.937 N285 G3 X14.867 Y42.151 I14.867 J20.099 N286 G2 X28.73 Y42.44 I7.136 J-9.648 N287 X28.73 Y-42.44 I-28.73 J-42.44 N288 X14.867 Y-42.151 I-6.727 J9.937 N289 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N290 G2 X-28.73 Y-42.44 I-7.136 J9.648 N291 X-45.271 Y-24.023 I28.73 J42.44 N292 G1 Z-0.6 F120 N293 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N294 X-14.867 Y42.151 I6.727 J-9.937 N295 G3 X14.867 Y42.151 I14.867 J20.099 N296 G2 X28.73 Y42.44 I7.136 J-9.648 N297 X28.73 Y-42.44 I-28.73 J-42.44 N298 X14.867 Y-42.151 I-6.727 J9.937 N299 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N300 G2 X-28.73 Y-42.44 I-7.136 J9.648 N301 X-45.271 Y-24.023 I28.73 J42.44 N302 G1 Z-0.75 F120 N303 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N304 X-14.867 Y42.151 I6.727 J-9.937 N305 G3 X14.867 Y42.151 I14.867 J20.099 N306 G2 X28.73 Y42.44 I7.136 J-9.648 N307 X28.73 Y-42.44 I-28.73 J-42.44 N308 X14.867 Y-42.151 I-6.727 J9.937 N309 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N310 G2 X-28.73 Y-42.44 I-7.136 J9.648 N311 X-45.271 Y-24.023 I28.73 J42.44 N312 G1 Z-0.9 F120 N313 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N314 X-14.867 Y42.151 I6.727 J-9.937 N315 G3 X14.867 Y42.151 I14.867 J20.099 N316 G2 X28.73 Y42.44 I7.136 J-9.648 N317 X28.73 Y-42.44 I-28.73 J-42.44 N318 X14.867 Y-42.151 I-6.727 J9.937 N319 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N320 G2 X-28.73 Y-42.44 I-7.136 J9.648 N321 X-45.271 Y-24.023 I28.73 J42.44 N322 G1 Z-1.05 F120 N323 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N324 X-14.867 Y42.151 I6.727 J-9.937 N325 G3 X14.867 Y42.151 I14.867 J20.099 N326 G2 X28.73 Y42.44 I7.136 J-9.648 N327 X28.73 Y-42.44 I-28.73 J-42.44 N328 X14.867 Y-42.151 I-6.727 J9.937 N329 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N330 G2 X-28.73 Y-42.44 I-7.136 J9.648 N331 X-45.271 Y-24.023 I28.73 J42.44 N332 G1 Z-1.2 F120 N333 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N334 X-14.867 Y42.151 I6.727 J-9.937 N335 G3 X14.867 Y42.151 I14.867 J20.099 N336 G2 X28.73 Y42.44 I7.136 J-9.648 N337 X28.73 Y-42.44 I-28.73 J-42.44 N338 X14.867 Y-42.151 I-6.727 J9.937 N339 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N340 G2 X-28.73 Y-42.44 I-7.136 J9.648 N341 X-45.271 Y-24.023 I28.73 J42.44 N342 G1 Z-1.35 F120 N343 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N344 X-14.867 Y42.151 I6.727 J-9.937 N345 G3 X14.867 Y42.151 I14.867 J20.099 N346 G2 X28.73 Y42.44 I7.136 J-9.648 N347 X28.73 Y-42.44 I-28.73 J-42.44 N348 X14.867 Y-42.151 I-6.727 J9.937 N349 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N350 G2 X-28.73 Y-42.44 I-7.136 J9.648

N351 X-45.271 Y-24.023 I28.73 J42.44 N352 G1 Z-1.5 F120 N353 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N354 X-14.867 Y42.151 I6.727 J-9.937 N355 G3 X14.867 Y42.151 I14.867 J20.099 N356 G2 X28.73 Y42.44 I7.136 J-9.648 N357 X28.73 Y-42.44 I-28.73 J-42.44 N358 X14.867 Y-42.151 I-6.727 J9.937 N359 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N360 G2 X-28.73 Y-42.44 I-7.136 J9.648 N361 X-45.271 Y-24.023 I28.73 J42.44 N362 G1 Z-1.65 F120 N363 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N364 X-14.867 Y42.151 I6.727 J-9.937 N365 G3 X14.867 Y42.151 I14.867 J20.099 N366 G2 X28.73 Y42.44 I7.136 J-9.648 N367 X28.73 Y-42.44 I-28.73 J-42.44 N368 X14.867 Y-42.151 I-6.727 J9.937 N369 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N370 G2 X-28.73 Y-42.44 I-7.136 J9.648 N371 X-45.271 Y-24.023 I28.73 J42.44 N372 G1 Z-1.8 F120 N373 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N374 X-14.867 Y42.151 I6.727 J-9.937 N375 G3 X14.867 Y42.151 I14.867 J20.099 N376 G2 X28.73 Y42.44 I7.136 J-9.648 N377 X28.73 Y-42.44 I-28.73 J-42.44 N378 X14.867 Y-42.151 I-6.727 J9.937 N379 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N380 G2 X-28.73 Y-42.44 I-7.136 J9.648 N381 X-45.271 Y-24.023 I28.73 J42.44 N382 G1 Z-1.95 F120 N383 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N384 X-14.867 Y42.151 I6.727 J-9.937 N385 G3 X14.867 Y42.151 I14.867 J20.099 N386 G2 X28.73 Y42.44 I7.136 J-9.648 N387 X28.73 Y-42.44 I-28.73 J-42.44 N388 X14.867 Y-42.151 I-6.727 J9.937 N389 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N390 G2 X-28.73 Y-42.44 I-7.136 J9.648 N391 X-45.271 Y-24.023 I28.73 J42.44 N392 G1 Z-2.1 F120 N393 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N394 X-14.867 Y42.151 I6.727 J-9.937 N395 G3 X14.867 Y42.151 I14.867 J20.099 N396 G2 X28.73 Y42.44 I7.136 J-9.648 N397 X28.73 Y-42.44 I-28.73 J-42.44 N398 X14.867 Y-42.151 I-6.727 J9.937 N399 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N400 G2 X-28.73 Y-42.44 I-7.136 J9.648 N401 X-45.271 Y-24.023 I28.73 J42.44 N402 G1 Z-2.25 F120 N403 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N404 X-14.867 Y42.151 I6.727 J-9.937 N405 G3 X14.867 Y42.151 I14.867 J20.099 N406 G2 X28.73 Y42.44 I7.136 J-9.648 N407 X28.73 Y-42.44 I-28.73 J-42.44 N408 X14.867 Y-42.151 I-6.727 J9.937 N409 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N410 G2 X-28.73 Y-42.44 I-7.136 J9.648 N411 X-45.271 Y-24.023 I28.73 J42.44 N412 G1 Z-2.4 F120 N413 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N414 X-14.867 Y42.151 I6.727 J-9.937 N415 G3 X14.867 Y42.151 I14.867 J20.099 N416 G2 X28.73 Y42.44 I7.136 J-9.648 N417 X28.73 Y-42.44 I-28.73 J-42.44 N418 X14.867 Y-42.151 I-6.727 J9.937 N419 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N420 G2 X-28.73 Y-42.44 I-7.136 J9.648 N421 X-45.271 Y-24.023 I28.73 J42.44

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N422 G1 Z-2.55 F120 N423 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N424 X-14.867 Y42.151 I6.727 J-9.937 N425 G3 X14.867 Y42.151 I14.867 J20.099 N426 G2 X28.73 Y42.44 I7.136 J-9.648 N427 X28.73 Y-42.44 I-28.73 J-42.44 N428 X14.867 Y-42.151 I-6.727 J9.937 N429 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N430 G2 X-28.73 Y-42.44 I-7.136 J9.648 N431 X-45.271 Y-24.023 I28.73 J42.44 N432 G1 Z-2.7 F120 N433 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N434 X-14.867 Y42.151 I6.727 J-9.937 N435 G3 X14.867 Y42.151 I14.867 J20.099 N436 G2 X28.73 Y42.44 I7.136 J-9.648 N437 X28.73 Y-42.44 I-28.73 J-42.44 N438 X14.867 Y-42.151 I-6.727 J9.937 N439 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N440 G2 X-28.73 Y-42.44 I-7.136 J9.648 N441 X-45.271 Y-24.023 I28.73 J42.44 N442 G1 Z-2.85 F120 N443 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N444 X-14.867 Y42.151 I6.727 J-9.937 N445 G3 X14.867 Y42.151 I14.867 J20.099 N446 G2 X28.73 Y42.44 I7.136 J-9.648 N447 X28.73 Y-42.44 I-28.73 J-42.44 N448 X14.867 Y-42.151 I-6.727 J9.937 N449 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N450 G2 X-28.73 Y-42.44 I-7.136 J9.648 N451 X-45.271 Y-24.023 I28.73 J42.44 N452 G1 Z-3. F120 N453 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N454 X-14.867 Y42.151 I6.727 J-9.937 N455 G3 X14.867 Y42.151 I14.867 J20.099 N456 G2 X28.73 Y42.44 I7.136 J-9.648 N457 X28.73 Y-42.44 I-28.73 J-42.44 N458 X14.867 Y-42.151 I-6.727 J9.937 N459 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N460 G2 X-28.73 Y-42.44 I-7.136 J9.648 N461 X-45.271 Y-24.023 I28.73 J42.44 N462 G1 Z-3.15 F120 N463 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N464 X-14.867 Y42.151 I6.727 J-9.937 N465 G3 X14.867 Y42.151 I14.867 J20.099 N466 G2 X28.73 Y42.44 I7.136 J-9.648 N467 X28.73 Y-42.44 I-28.73 J-42.44 N468 X14.867 Y-42.151 I-6.727 J9.937 N469 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N470 G2 X-28.73 Y-42.44 I-7.136 J9.648 N471 X-45.271 Y-24.023 I28.73 J42.44 N472 G1 Z-3.3 F120 N473 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N474 X-14.867 Y42.151 I6.727 J-9.937 N475 G3 X14.867 Y42.151 I14.867 J20.099 N476 G2 X28.73 Y42.44 I7.136 J-9.648 N477 X28.73 Y-42.44 I-28.73 J-42.44 N478 X14.867 Y-42.151 I-6.727 J9.937 N479 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N480 G2 X-28.73 Y-42.44 I-7.136 J9.648 N481 X-45.271 Y-24.023 I28.73 J42.44 N482 G1 Z-3.45 F120 N483 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N484 X-14.867 Y42.151 I6.727 J-9.937 N485 G3 X14.867 Y42.151 I14.867 J20.099 N486 G2 X28.73 Y42.44 I7.136 J-9.648 N487 X28.73 Y-42.44 I-28.73 J-42.44 N488 X14.867 Y-42.151 I-6.727 J9.937 N489 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N490 G2 X-28.73 Y-42.44 I-7.136 J9.648 N491 X-45.271 Y-24.023 I28.73 J42.44 N492 G1 Z-3.6 F120

N493 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N494 X-14.867 Y42.151 I6.727 J-9.937 N495 G3 X14.867 Y42.151 I14.867 J20.099 N496 G2 X28.73 Y42.44 I7.136 J-9.648 N497 X28.73 Y-42.44 I-28.73 J-42.44 N498 X14.867 Y-42.151 I-6.727 J9.937 N499 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N500 G2 X-28.73 Y-42.44 I-7.136 J9.648 N501 X-45.271 Y-24.023 I28.73 J42.44 N502 G1 Z-3.75 F120 N503 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N504 X-14.867 Y42.151 I6.727 J-9.937 N505 G3 X14.867 Y42.151 I14.867 J20.099 N506 G2 X28.73 Y42.44 I7.136 J-9.648 N507 X28.73 Y-42.44 I-28.73 J-42.44 N508 X14.867 Y-42.151 I-6.727 J9.937 N509 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N510 G2 X-28.73 Y-42.44 I-7.136 J9.648 N511 X-45.271 Y-24.023 I28.73 J42.44 N512 G1 Z-3.9 F120 N513 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N514 X-14.867 Y42.151 I6.727 J-9.937 N515 G3 X14.867 Y42.151 I14.867 J20.099 N516 G2 X28.73 Y42.44 I7.136 J-9.648 N517 X28.73 Y-42.44 I-28.73 J-42.44 N518 X14.867 Y-42.151 I-6.727 J9.937 N519 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N520 G2 X-28.73 Y-42.44 I-7.136 J9.648 N521 X-45.271 Y-24.023 I28.73 J42.44 N522 G1 Z-4.05 F120 N523 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N524 X-14.867 Y42.151 I6.727 J-9.937 N525 G3 X14.867 Y42.151 I14.867 J20.099 N526 G2 X28.73 Y42.44 I7.136 J-9.648 N527 X28.73 Y-42.44 I-28.73 J-42.44 N528 X14.867 Y-42.151 I-6.727 J9.937 N529 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N530 G2 X-28.73 Y-42.44 I-7.136 J9.648 N531 X-45.271 Y-24.023 I28.73 J42.44 N532 G1 Z-4.2 F120 N533 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N534 X-14.867 Y42.151 I6.727 J-9.937 N535 G3 X14.867 Y42.151 I14.867 J20.099 N536 G2 X28.73 Y42.44 I7.136 J-9.648 N537 X28.73 Y-42.44 I-28.73 J-42.44 N538 X14.867 Y-42.151 I-6.727 J9.937 N539 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N540 G2 X-28.73 Y-42.44 I-7.136 J9.648 N541 X-45.271 Y-24.023 I28.73 J42.44 N542 G1 Z-4.35 F120 N543 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N544 X-14.867 Y42.151 I6.727 J-9.937 N545 G3 X14.867 Y42.151 I14.867 J20.099 N546 G2 X28.73 Y42.44 I7.136 J-9.648 N547 X28.73 Y-42.44 I-28.73 J-42.44 N548 X14.867 Y-42.151 I-6.727 J9.937 N549 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N550 G2 X-28.73 Y-42.44 I-7.136 J9.648 N551 X-45.271 Y-24.023 I28.73 J42.44 N552 G1 Z-4.5 F120 N553 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N554 X-14.867 Y42.151 I6.727 J-9.937 N555 G3 X14.867 Y42.151 I14.867 J20.099 N556 G2 X28.73 Y42.44 I7.136 J-9.648 N557 X28.73 Y-42.44 I-28.73 J-42.44 N558 X14.867 Y-42.151 I-6.727 J9.937 N559 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N560 G2 X-28.73 Y-42.44 I-7.136 J9.648 N561 X-45.271 Y-24.023 I28.73 J42.44 N562 G1 Z-4.65 F120 N563 G2 X-28.73 Y42.44 I45.271 J24.023 F1500

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N564 X-14.867 Y42.151 I6.727 J-9.937 N565 G3 X14.867 Y42.151 I14.867 J20.099 N566 G2 X28.73 Y42.44 I7.136 J-9.648 N567 X28.73 Y-42.44 I-28.73 J-42.44 N568 X14.867 Y-42.151 I-6.727 J9.937 N569 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N570 G2 X-28.73 Y-42.44 I-7.136 J9.648 N571 X-45.271 Y-24.023 I28.73 J42.44 N572 G1 Z-4.8 F120 N573 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N574 X-14.867 Y42.151 I6.727 J-9.937 N575 G3 X14.867 Y42.151 I14.867 J20.099 N576 G2 X28.73 Y42.44 I7.136 J-9.648 N577 X28.73 Y-42.44 I-28.73 J-42.44 N578 X14.867 Y-42.151 I-6.727 J9.937 N579 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N580 G2 X-28.73 Y-42.44 I-7.136 J9.648 N581 X-45.271 Y-24.023 I28.73 J42.44 N582 G1 Z-4.95 F120 N583 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N584 X-14.867 Y42.151 I6.727 J-9.937 N585 G3 X14.867 Y42.151 I14.867 J20.099 N586 G2 X28.73 Y42.44 I7.136 J-9.648 N587 X28.73 Y-42.44 I-28.73 J-42.44 N588 X14.867 Y-42.151 I-6.727 J9.937 N589 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N590 G2 X-28.73 Y-42.44 I-7.136 J9.648 N591 X-45.271 Y-24.023 I28.73 J42.44 N592 G1 Z-5.1 F120 N593 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N594 X-14.867 Y42.151 I6.727 J-9.937 N595 G3 X14.867 Y42.151 I14.867 J20.099 N596 G2 X28.73 Y42.44 I7.136 J-9.648 N597 X28.73 Y-42.44 I-28.73 J-42.44 N598 X14.867 Y-42.151 I-6.727 J9.937 N599 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N600 G2 X-28.73 Y-42.44 I-7.136 J9.648 N601 X-45.271 Y-24.023 I28.73 J42.44 N602 G1 Z-5.25 F120 N603 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N604 X-14.867 Y42.151 I6.727 J-9.937 N605 G3 X14.867 Y42.151 I14.867 J20.099 N606 G2 X28.73 Y42.44 I7.136 J-9.648 N607 X28.73 Y-42.44 I-28.73 J-42.44 N608 X14.867 Y-42.151 I-6.727 J9.937 N609 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N610 G2 X-28.73 Y-42.44 I-7.136 J9.648 N611 X-45.271 Y-24.023 I28.73 J42.44 N612 G1 Z-5.4 F120 N613 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N614 X-14.867 Y42.151 I6.727 J-9.937 N615 G3 X14.867 Y42.151 I14.867 J20.099 N616 G2 X28.73 Y42.44 I7.136 J-9.648 N617 X28.73 Y-42.44 I-28.73 J-42.44 N618 X14.867 Y-42.151 I-6.727 J9.937 N619 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N620 G2 X-28.73 Y-42.44 I-7.136 J9.648 N621 X-45.271 Y-24.023 I28.73 J42.44 N622 G1 Z-5.55 F120 N623 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N624 X-14.867 Y42.151 I6.727 J-9.937 N625 G3 X14.867 Y42.151 I14.867 J20.099 N626 G2 X28.73 Y42.44 I7.136 J-9.648 N627 X28.73 Y-42.44 I-28.73 J-42.44 N628 X14.867 Y-42.151 I-6.727 J9.937 N629 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N630 G2 X-28.73 Y-42.44 I-7.136 J9.648 N631 X-45.271 Y-24.023 I28.73 J42.44 N632 G1 Z-5.7 F120 N633 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N634 X-14.867 Y42.151 I6.727 J-9.937

N635 G3 X14.867 Y42.151 I14.867 J20.099 N636 G2 X28.73 Y42.44 I7.136 J-9.648 N637 X28.73 Y-42.44 I-28.73 J-42.44 N638 X14.867 Y-42.151 I-6.727 J9.937 N639 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N640 G2 X-28.73 Y-42.44 I-7.136 J9.648 N641 X-45.271 Y-24.023 I28.73 J42.44 N642 G1 Z-5.85 F120 N643 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N644 X-14.867 Y42.151 I6.727 J-9.937 N645 G3 X14.867 Y42.151 I14.867 J20.099 N646 G2 X28.73 Y42.44 I7.136 J-9.648 N647 X28.73 Y-42.44 I-28.73 J-42.44 N648 X14.867 Y-42.151 I-6.727 J9.937 N649 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N650 G2 X-28.73 Y-42.44 I-7.136 J9.648 N651 X-45.271 Y-24.023 I28.73 J42.44 N652 G1 Z-6. F120 N653 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N654 X-14.867 Y42.151 I6.727 J-9.937 N655 G3 X14.867 Y42.151 I14.867 J20.099 N656 G2 X28.73 Y42.44 I7.136 J-9.648 N657 X28.73 Y-42.44 I-28.73 J-42.44 N658 X14.867 Y-42.151 I-6.727 J9.937 N659 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N660 G2 X-28.73 Y-42.44 I-7.136 J9.648 N661 X-45.271 Y-24.023 I28.73 J42.44 N662 G1 Z-6.15 F120 N663 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N664 X-14.867 Y42.151 I6.727 J-9.937 N665 G3 X14.867 Y42.151 I14.867 J20.099 N666 G2 X28.73 Y42.44 I7.136 J-9.648 N667 X28.73 Y-42.44 I-28.73 J-42.44 N668 X14.867 Y-42.151 I-6.727 J9.937 N669 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N670 G2 X-28.73 Y-42.44 I-7.136 J9.648 N671 X-45.271 Y-24.023 I28.73 J42.44 N672 G1 Z-6.3 F120 N673 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N674 X-14.867 Y42.151 I6.727 J-9.937 N675 G3 X14.867 Y42.151 I14.867 J20.099 N676 G2 X28.73 Y42.44 I7.136 J-9.648 N677 X28.73 Y-42.44 I-28.73 J-42.44 N678 X14.867 Y-42.151 I-6.727 J9.937 N679 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N680 G2 X-28.73 Y-42.44 I-7.136 J9.648 N681 X-45.271 Y-24.023 I28.73 J42.44 N682 G1 Z-6.45 F120 N683 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N684 X-14.867 Y42.151 I6.727 J-9.937 N685 G3 X14.867 Y42.151 I14.867 J20.099 N686 G2 X28.73 Y42.44 I7.136 J-9.648 N687 X28.73 Y-42.44 I-28.73 J-42.44 N688 X14.867 Y-42.151 I-6.727 J9.937 N689 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N690 G2 X-28.73 Y-42.44 I-7.136 J9.648 N691 X-45.271 Y-24.023 I28.73 J42.44 N692 G1 Z-6.6 F120 N693 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N694 X-14.867 Y42.151 I6.727 J-9.937 N695 G3 X14.867 Y42.151 I14.867 J20.099 N696 G2 X28.73 Y42.44 I7.136 J-9.648 N697 X28.73 Y-42.44 I-28.73 J-42.44 N698 X14.867 Y-42.151 I-6.727 J9.937 N699 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N700 G2 X-28.73 Y-42.44 I-7.136 J9.648 N701 X-45.271 Y-24.023 I28.73 J42.44 N702 G1 Z-6.75 F120 N703 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N704 X-14.867 Y42.151 I6.727 J-9.937 N705 G3 X14.867 Y42.151 I14.867 J20.099

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N706 G2 X28.73 Y42.44 I7.136 J-9.648 N707 X28.73 Y-42.44 I-28.73 J-42.44 N708 X14.867 Y-42.151 I-6.727 J9.937 N709 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N710 G2 X-28.73 Y-42.44 I-7.136 J9.648 N711 X-45.271 Y-24.023 I28.73 J42.44 N712 G1 Z-6.9 F120 N713 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N714 X-14.867 Y42.151 I6.727 J-9.937 N715 G3 X14.867 Y42.151 I14.867 J20.099 N716 G2 X28.73 Y42.44 I7.136 J-9.648 N717 X28.73 Y-42.44 I-28.73 J-42.44 N718 X14.867 Y-42.151 I-6.727 J9.937 N719 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N720 G2 X-28.73 Y-42.44 I-7.136 J9.648 N721 X-45.271 Y-24.023 I28.73 J42.44 N722 G1 Z-7.05 F120 N723 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N724 X-14.867 Y42.151 I6.727 J-9.937 N725 G3 X14.867 Y42.151 I14.867 J20.099 N726 G2 X28.73 Y42.44 I7.136 J-9.648 N727 X28.73 Y-42.44 I-28.73 J-42.44 N728 X14.867 Y-42.151 I-6.727 J9.937 N729 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N730 G2 X-28.73 Y-42.44 I-7.136 J9.648 N731 X-45.271 Y-24.023 I28.73 J42.44 N732 G1 Z-7.2 F120 N733 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N734 X-14.867 Y42.151 I6.727 J-9.937 N735 G3 X14.867 Y42.151 I14.867 J20.099 N736 G2 X28.73 Y42.44 I7.136 J-9.648 N737 X28.73 Y-42.44 I-28.73 J-42.44 N738 X14.867 Y-42.151 I-6.727 J9.937 N739 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N740 G2 X-28.73 Y-42.44 I-7.136 J9.648 N741 X-45.271 Y-24.023 I28.73 J42.44 N742 G1 Z-7.35 F120 N743 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N744 X-14.867 Y42.151 I6.727 J-9.937 N745 G3 X14.867 Y42.151 I14.867 J20.099 N746 G2 X28.73 Y42.44 I7.136 J-9.648 N747 X28.73 Y-42.44 I-28.73 J-42.44 N748 X14.867 Y-42.151 I-6.727 J9.937 N749 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N750 G2 X-28.73 Y-42.44 I-7.136 J9.648 N751 X-45.271 Y-24.023 I28.73 J42.44 N752 G1 Z-7.5 F120 N753 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N754 X-14.867 Y42.151 I6.727 J-9.937 N755 G3 X14.867 Y42.151 I14.867 J20.099 N756 G2 X28.73 Y42.44 I7.136 J-9.648 N757 X28.73 Y-42.44 I-28.73 J-42.44 N758 X14.867 Y-42.151 I-6.727 J9.937 N759 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N760 G2 X-28.73 Y-42.44 I-7.136 J9.648 N761 X-45.271 Y-24.023 I28.73 J42.44 N762 G1 Z-7.65 F120 N763 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N764 X-14.867 Y42.151 I6.727 J-9.937 N765 G3 X14.867 Y42.151 I14.867 J20.099 N766 G2 X28.73 Y42.44 I7.136 J-9.648 N767 X28.73 Y-42.44 I-28.73 J-42.44 N768 X14.867 Y-42.151 I-6.727 J9.937 N769 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N770 G2 X-28.73 Y-42.44 I-7.136 J9.648 N771 X-45.271 Y-24.023 I28.73 J42.44 N772 G1 Z-7.8 F120 N773 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N774 X-14.867 Y42.151 I6.727 J-9.937 N775 G3 X14.867 Y42.151 I14.867 J20.099 N776 G2 X28.73 Y42.44 I7.136 J-9.648

N777 X28.73 Y-42.44 I-28.73 J-42.44 N778 X14.867 Y-42.151 I-6.727 J9.937 N779 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N780 G2 X-28.73 Y-42.44 I-7.136 J9.648 N781 X-45.271 Y-24.023 I28.73 J42.44 N782 G1 Z-7.95 F120 N783 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N784 X-14.867 Y42.151 I6.727 J-9.937 N785 G3 X14.867 Y42.151 I14.867 J20.099 N786 G2 X28.73 Y42.44 I7.136 J-9.648 N787 X28.73 Y-42.44 I-28.73 J-42.44 N788 X14.867 Y-42.151 I-6.727 J9.937 N789 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N790 G2 X-28.73 Y-42.44 I-7.136 J9.648 N791 X-45.271 Y-24.023 I28.73 J42.44 N792 G1 Z-8.1 F120 N793 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N794 X-14.867 Y42.151 I6.727 J-9.937 N795 G3 X14.867 Y42.151 I14.867 J20.099 N796 G2 X28.73 Y42.44 I7.136 J-9.648 N797 X28.73 Y-42.44 I-28.73 J-42.44 N798 X14.867 Y-42.151 I-6.727 J9.937 N799 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N800 G2 X-28.73 Y-42.44 I-7.136 J9.648 N801 X-45.271 Y-24.023 I28.73 J42.44 N802 G1 Z-8.25 F120 N803 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N804 X-14.867 Y42.151 I6.727 J-9.937 N805 G3 X14.867 Y42.151 I14.867 J20.099 N806 G2 X28.73 Y42.44 I7.136 J-9.648 N807 X28.73 Y-42.44 I-28.73 J-42.44 N808 X14.867 Y-42.151 I-6.727 J9.937 N809 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N810 G2 X-28.73 Y-42.44 I-7.136 J9.648 N811 X-45.271 Y-24.023 I28.73 J42.44 N812 G1 Z-8.4 F120 N813 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N814 X-14.867 Y42.151 I6.727 J-9.937 N815 G3 X14.867 Y42.151 I14.867 J20.099 N816 G2 X28.73 Y42.44 I7.136 J-9.648 N817 X28.73 Y-42.44 I-28.73 J-42.44 N818 X14.867 Y-42.151 I-6.727 J9.937 N819 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N820 G2 X-28.73 Y-42.44 I-7.136 J9.648 N821 X-45.271 Y-24.023 I28.73 J42.44 N822 G1 Z-8.55 F120 N823 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N824 X-14.867 Y42.151 I6.727 J-9.937 N825 G3 X14.867 Y42.151 I14.867 J20.099 N826 G2 X28.73 Y42.44 I7.136 J-9.648 N827 X28.73 Y-42.44 I-28.73 J-42.44 N828 X14.867 Y-42.151 I-6.727 J9.937 N829 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N830 G2 X-28.73 Y-42.44 I-7.136 J9.648 N831 X-45.271 Y-24.023 I28.73 J42.44 N832 G1 Z-8.7 F120 N833 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N834 X-14.867 Y42.151 I6.727 J-9.937 N835 G3 X14.867 Y42.151 I14.867 J20.099 N836 G2 X28.73 Y42.44 I7.136 J-9.648 N837 X28.73 Y-42.44 I-28.73 J-42.44 N838 X14.867 Y-42.151 I-6.727 J9.937 N839 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N840 G2 X-28.73 Y-42.44 I-7.136 J9.648 N841 X-45.271 Y-24.023 I28.73 J42.44 N842 G1 Z-8.85 F120 N843 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N844 X-14.867 Y42.151 I6.727 J-9.937 N845 G3 X14.867 Y42.151 I14.867 J20.099 N846 G2 X28.73 Y42.44 I7.136 J-9.648 N847 X28.73 Y-42.44 I-28.73 J-42.44

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N848 X14.867 Y-42.151 I-6.727 J9.937 N849 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N850 G2 X-28.73 Y-42.44 I-7.136 J9.648 N851 X-45.271 Y-24.023 I28.73 J42.44 N852 G1 Z-9. F120 N853 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N854 X-14.867 Y42.151 I6.727 J-9.937 N855 G3 X14.867 Y42.151 I14.867 J20.099 N856 G2 X28.73 Y42.44 I7.136 J-9.648 N857 X28.73 Y-42.44 I-28.73 J-42.44 N858 X14.867 Y-42.151 I-6.727 J9.937 N859 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N860 G2 X-28.73 Y-42.44 I-7.136 J9.648 N861 X-45.271 Y-24.023 I28.73 J42.44 N862 G1 Z-9.15 F120 N863 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N864 X-14.867 Y42.151 I6.727 J-9.937 N865 G3 X14.867 Y42.151 I14.867 J20.099 N866 G2 X28.73 Y42.44 I7.136 J-9.648 N867 X28.73 Y-42.44 I-28.73 J-42.44 N868 X14.867 Y-42.151 I-6.727 J9.937 N869 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N870 G2 X-28.73 Y-42.44 I-7.136 J9.648 N871 X-45.271 Y-24.023 I28.73 J42.44 N872 G1 Z-9.3 F120 N873 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N874 X-14.867 Y42.151 I6.727 J-9.937 N875 G3 X14.867 Y42.151 I14.867 J20.099 N876 G2 X28.73 Y42.44 I7.136 J-9.648 N877 X28.73 Y-42.44 I-28.73 J-42.44 N878 X14.867 Y-42.151 I-6.727 J9.937 N879 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N880 G2 X-28.73 Y-42.44 I-7.136 J9.648 N881 X-45.271 Y-24.023 I28.73 J42.44 N882 G1 Z-9.45 F120 N883 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N884 X-14.867 Y42.151 I6.727 J-9.937 N885 G3 X14.867 Y42.151 I14.867 J20.099 N886 G2 X28.73 Y42.44 I7.136 J-9.648 N887 X28.73 Y-42.44 I-28.73 J-42.44 N888 X14.867 Y-42.151 I-6.727 J9.937 N889 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N890 G2 X-28.73 Y-42.44 I-7.136 J9.648 N891 X-45.271 Y-24.023 I28.73 J42.44 N892 G1 Z-9.6 F120 N893 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N894 X-14.867 Y42.151 I6.727 J-9.937 N895 G3 X14.867 Y42.151 I14.867 J20.099 N896 G2 X28.73 Y42.44 I7.136 J-9.648 N897 X28.73 Y-42.44 I-28.73 J-42.44 N898 X14.867 Y-42.151 I-6.727 J9.937 N899 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N900 G2 X-28.73 Y-42.44 I-7.136 J9.648 N901 X-45.271 Y-24.023 I28.73 J42.44 N902 G1 Z-9.75 F120 N903 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N904 X-14.867 Y42.151 I6.727 J-9.937 N905 G3 X14.867 Y42.151 I14.867 J20.099 N906 G2 X28.73 Y42.44 I7.136 J-9.648 N907 X28.73 Y-42.44 I-28.73 J-42.44 N908 X14.867 Y-42.151 I-6.727 J9.937 N909 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N910 G2 X-28.73 Y-42.44 I-7.136 J9.648 N911 X-45.271 Y-24.023 I28.73 J42.44 N912 G1 Z-9.9 F120 N913 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N914 X-14.867 Y42.151 I6.727 J-9.937 N915 G3 X14.867 Y42.151 I14.867 J20.099 N916 G2 X28.73 Y42.44 I7.136 J-9.648 N917 X28.73 Y-42.44 I-28.73 J-42.44 N918 X14.867 Y-42.151 I-6.727 J9.937

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N990 G2 X-28.73 Y-42.44 I-7.136 J9.648 N991 X-45.271 Y-24.023 I28.73 J42.44 N992 G1 Z-11.1 F120 N993 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N994 X-14.867 Y42.151 I6.727 J-9.937 N995 G3 X14.867 Y42.151 I14.867 J20.099 N996 G2 X28.73 Y42.44 I7.136 J-9.648 N997 X28.73 Y-42.44 I-28.73 J-42.44 N998 X14.867 Y-42.151 I-6.727 J9.937 N999 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N1000 G2 X-28.73 Y-42.44 I-7.136 J9.648 N1001 X-45.271 Y-24.023 I28.73 J42.44 N1002 G1 Z-11.25 F120 N1003 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N1004 X-14.867 Y42.151 I6.727 J-9.937 N1005 G3 X14.867 Y42.151 I14.867 J20.099 N1006 G2 X28.73 Y42.44 I7.136 J-9.648 N1007 X28.73 Y-42.44 I-28.73 J-42.44 N1008 X14.867 Y-42.151 I-6.727 J9.937 N1009 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N1010 G2 X-28.73 Y-42.44 I-7.136 J9.648 N1011 X-45.271 Y-24.023 I28.73 J42.44 N1012 G1 Z-11.4 F120 N1013 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N1014 X-14.867 Y42.151 I6.727 J-9.937 N1015 G3 X14.867 Y42.151 I14.867 J20.099 N1016 G2 X28.73 Y42.44 I7.136 J-9.648 N1017 X28.73 Y-42.44 I-28.73 J-42.44 N1018 X14.867 Y-42.151 I-6.727 J9.937 N1019 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N1020 G2 X-28.73 Y-42.44 I-7.136 J9.648 N1021 X-45.271 Y-24.023 I28.73 J42.44 N1022 G1 Z-11.55 F120 N1023 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N1024 X-14.867 Y42.151 I6.727 J-9.937 N1025 G3 X14.867 Y42.151 I14.867 J20.099 N1026 G2 X28.73 Y42.44 I7.136 J-9.648 N1027 X28.73 Y-42.44 I-28.73 J-42.44 N1028 X14.867 Y-42.151 I-6.727 J9.937 N1029 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N1030 G2 X-28.73 Y-42.44 I-7.136 J9.648 N1031 X-45.271 Y-24.023 I28.73 J42.44 N1032 G1 Z-11.7 F120 N1033 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N1034 X-14.867 Y42.151 I6.727 J-9.937 N1035 G3 X14.867 Y42.151 I14.867 J20.099 N1036 G2 X28.73 Y42.44 I7.136 J-9.648 N1037 X28.73 Y-42.44 I-28.73 J-42.44 N1038 X14.867 Y-42.151 I-6.727 J9.937 N1039 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N1040 G2 X-28.73 Y-42.44 I-7.136 J9.648 N1041 X-45.271 Y-24.023 I28.73 J42.44 N1042 G1 Z-11.85 F120 N1043 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N1044 X-14.867 Y42.151 I6.727 J-9.937 N1045 G3 X14.867 Y42.151 I14.867 J20.099 N1046 G2 X28.73 Y42.44 I7.136 J-9.648 N1047 X28.73 Y-42.44 I-28.73 J-42.44 N1048 X14.867 Y-42.151 I-6.727 J9.937 N1049 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N1050 G2 X-28.73 Y-42.44 I-7.136 J9.648 N1051 X-45.271 Y-24.023 I28.73 J42.44 N1052 G1 Z-12. F120 N1053 G2 X-28.73 Y42.44 I45.271 J24.023 F1500 N1054 X-14.867 Y42.151 I6.727 J-9.937 N1055 G3 X14.867 Y42.151 I14.867 J20.099 N1056 G2 X28.73 Y42.44 I7.136 J-9.648 N1057 X28.73 Y-42.44 I-28.73 J-42.44 N1058 X14.867 Y-42.151 I-6.727 J9.937 N1059 G3 X-14.867 Y-42.151 I-14.867 J-20.099 N1060 G2 X-28.73 Y-42.44 I-7.136 J9.648

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