The Design of Manufacturing Systems Part 12 ppt

© 2001 by CRC Press LLCwhich will be used to set up control procedures, is the frame of the unit, i.e., its casing, which connects all models of shape and provides output of reaction for

© 2001 by CRC Press LLC

which will be used to set up control procedures, is the frame of the unit, i.e., its casing, which connects all models of shape and provides output of reaction forces from the system

The first control procedure which follows from the general structure of mechanical drive units depends

on the number of stages of the mechanical drive unit; the second one depends on whether it is an input

or output branch of mechanical energy, and the third one depends indirectly on the number of stages AND nodes in both figures indicate that the following two conditions need to be satisfied to fulfill the required function (in the case of mechanical drive units, the transformation of mechanical energy):

• Input of mechanical energy,

• Output of mechanical energy

The selection of the basic function structure depends on the gear ratio The function of component binding is represented by the last node in the basic function structure, and the conceptual design of a technical system, i.e., speed reducer in our case, can be completed with it

Attribute Vector

The conceptual design model presented in this section is intended for composing technical systems from existing components These can be represented entirely by attribute vectors:

composed on the basis of existing models of shape

In addition to functions, each description of a model of shape must also contain the following information for the model to function properly: working principles and their auxiliary functions which finally define the working principle, name of the model of shape, including the auxiliary functions which

FIGURE 7.11 Function tree.

attribute vector  ( funi, wpij, auxwijm, mosijk, auxmijn, bfunijkl)

funi { function }, i  1 2 , , … F ,

wpij { working principles }, j  1 2 , , … W ,

auxwijm { auxiliary functions of working principles }, m  1 2 , , … A ,

mosijk { models of shape }, k  1 2 , , … M ,

auxmijn { auxiliary functions of models of shape }, n  1 2 , , … N ,

bfunijkl { binding functions } l ,  1 2 , , … B ,