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Ch. 29: Predetermined Time Systems

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.

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Ch. 29: Predetermined Time Systems

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  1. 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.

  2. Methods-Time Measurements (MTM) • Developed in 1946 • Simplified versions are available. • A training course is required for using the system correctly.

  3. MTM-1 • 10 categories of movements • Times in TMUs (1 TMU = .000 010 h) • Times are for an experienced worker working at a normal pave. • No allowances are included in the times.

  4. Reach • 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.

  5. Move • Move object to the other hand or against stop. • Move object to an approximate or indefinite location. • Move object to an exact location.

  6. Turn • 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.

  7. Apply Pressure • Application of force without resultant movement.

  8. Grasp • Pickup grasp • Regrasp • Transfer grasp • Jumbled grasp • Contact, sliding, or hook grasp

  9. Position • 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

  10. Disengage • Breaking contact between one object and another • Times vary with: • Class of fit • Ease of handling • Care in handling

  11. Release • Relinquishing control of an object by the hand or fingers • Two types: • Simple opening of the fingers • Contact release

  12. Other Motions • Body, leg, and foot motions • Eye motions • Combined motions • Limited motions

  13. MTM Form

  14. 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. • Provides decision trees to determine case. • User estimates distance and uses time from table. • Includes 7 other motions.

  15. MTM-2 Analysis

  16. 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.

  17. MTM-3 Analysis

  18. 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.

  19. General Move Sequence Model

  20. 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).

  21. 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.

  22. Purposes of PTS Studies • Make a methods analysis to determine an efficient work method • Determine the amount of time necessary to do the job

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