Ch. 29: Predetermined Time Systems
24
1 ISE 311 - Ch. 29 Ch. 29: Predetermined Time Systems Frank and Lillian Gilbreth broke work into therbligs (elements). The next step is to assign time values to the elements. Times for elements are added to obtain a total time. Independence and additivity are assumed. PTS are based on the concept that there are basic, universal units of work with standard amounts of time.
description
Ch. 29: Predetermined Time Systems. Frank and Lillian Gilbreth broke work into therbligs (elements). The next step is to assign time values to the elements. Times for elements are added to obtain a total time. Independence and additivity are assumed. - PowerPoint PPT Presentation
Transcript of Ch. 29: Predetermined Time Systems
1ISE 311 - Ch. 29
Ch. 29: Predetermined Time Systems
Frank and Lillian Gilbreth broke work into therbligs (elements).
The next step is to assign time values to the elements.
Times for elements are added to obtain a total time.
Independence and additivity are assumed. PTS are based on the concept that there are
basic, universal units of work with standard amounts of time.
2ISE 311 - Ch. 29
Therbligs
3ISE 311 - Ch. 29
Methods-Time Measurements (MTM)
Developed in 1946 Simplified versions are available. A training course is required for using the
system correctly.
4ISE 311 - Ch. 29
MTM-1 10 categories of movements Times in TMUs (1 TMU = .000 010 h) Times are for an experienced worker working at
a normal pace. No allowances are included in the times.
5ISE 311 - Ch. 29
Reach (table 29.1, pg. 563)
Reach to an object in a fixed location or in the other hand.
Reach to a single object whose general location is known.
Reach to an object jumbled with others in a group.
Reach to a very small object or where accurate grasp is required.
Reach to an indefinite location.
6ISE 311 - Ch. 29
Move (table 29.2, pg. 565)
Move object to the other hand or against stop. Move object to an approximate or indefinite
location. Move object to an exact location.
7ISE 311 - Ch. 29
Turn (table 29.4, pg. 566)
A movement that rotates the hand, wrist, and forearm about the long axis of the forearm.
Time depends on degrees of turn, weight of the object, and resistance against turn.
8ISE 311 - Ch. 29
Apply Pressure (table 29.5, pg. 567)
Application of force without resultant movement.
9ISE 311 - Ch. 29
Grasp (table 29.6, pg. 567)
Pickup grasp Regrasp Transfer grasp Jumbled grasp Contact, sliding, or hook grasp
10ISE 311 - Ch. 29
Position (table 29.7, pg. 568)
Aligning, orienting, or engaging one object with another
Position times vary with: Amount of pressure needed to fit Symmetry of the object Ease of handling
11ISE 311 - Ch. 29
Disengage (table 29.8, pg. 569)
Breaking contact between one object and another
Times vary with: Class of fit Ease of handling Care in handling
12ISE 311 - Ch. 29
Release (table 29.9, pg. 569)
Relinquishing control of an object by the hand or fingers
Two types: Simple opening of the fingers Contact release
13ISE 311 - Ch. 29
Other Motions
Body, leg, and foot motions Eye motions Combined motions Limited motions
14ISE 311 - Ch. 29
MTM Form
15ISE 311 - Ch. 29
MTM-2
Takes about 40% of the time of MTM-1 to analyze a task.
Has only 37 times in all. Key categories are GET and PUT.
see, for example, table 29.13, pg. 574 Provides decision trees to determine case. User estimates distance and uses time from
table. Includes 7 other motions.
16ISE 311 - Ch. 29
MTM-2 Analysis
17ISE 311 - Ch. 29
MTM-3
Takes about 15% of the time of MTM-1 to analyze a task.
Has only 10 times. Key categories are HANDLE and TRANSPORT. Provides decision trees to determine case. User estimates distance (< 6 in. or > 6 in.) and
uses time from table. Includes 2 other motions.
18ISE 311 - Ch. 29
MTM-3 Analysis
19ISE 311 - Ch. 29
MOST Work Measurement System
Based on observation that the majority of activities are associated with a limited number of motion sequences.
Significantly reduces time required to perform an analysis.
4 sequence models (pp. 577 – 580) General move sequence [A B G A B P A] Controlled move sequence [A B G M X I A] Tool use sequence [A B G A B P use* A B P A] Manual crane sequence [A B G M X I A, specific to
crane use.]
20ISE 311 - Ch. 29
General Move Sequence Model
21ISE 311 - Ch. 29
Your turn … Perform a MOST analysis of the peg board task.
Perform a MOST analysis of writing “MOST” on your notes with a pencil (assume the pencil is picked up from the desk at the beginning and returned to the desk at the end of the task.)
22ISE 311 - Ch. 29
MODAPTS
Based on the concept that the body member used is the key variable.
All body movements are multiples of a MOD (1 MOD = .129 s).
23ISE 311 - Ch. 29
Comments about PTS
In theory, PTS can accurately predict task times. Evidence shows reality and theory don’t agree. One problem is that analyst judgment is required. Most managements are not concerned with a great
deal of accuracy. Managements are concerned with cost of analysis.
24ISE 311 - Ch. 29
Purposes of PTS Studies Make a methods analysis to determine an
efficient work method Determine the amount of time necessary to do
the job
