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Manufacturing Process Management allows you to manage manufacturing2 _5 r4 c' j, w) t8 m4 F! Q; p% }
planning and execution, using information generated in the design stage.# W4 V$ C5 D# n! `6 D7 J% p- b1 P% X
The manufacturing planning model includes several interrelated process and
; d. k! z/ x+ r# l$ hoperation types, as follows:7 M0 C% v; @5 A) V) U& S! b h: J `
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Manufacturing process& K- @" ]5 x2 r$ z* d7 D* o* r
A set of manufacturing process operations and other manufacturing
/ l( `3 [4 S/ Y4 M' O5 pprocesses that are closely related to each other. It is a mechanism to group
/ X. ?% ]8 W* L7 G) B8 foperations into logical groups. It also maintains constraints on the order
: B2 }: [/ }* E D1 x: i% Q1 u ]of execution between subprocesses and process operations.9 V6 P- C2 D; h/ w6 D
The process structure is the model of the complete manufacturing plan,0 U4 ^; c- }/ i9 N- y" j( ^
and describes how and where the product is manufactured. It contains
6 V v X# W+ H! u5 ~information about which plant structure elements are used and where.& ^2 h$ e" V }% A9 |1 W- f
It establishes links between the product, plant layout, and the resources' |9 x! [1 z9 k. q( i
necessary to produce the product.% V7 Q9 x* z' D# S
Operations and resources can be shared by several processes. You can' o' S% u: }! ]+ c7 I
define multiple views of a process to allow for different manufacturing
, r' Q; W: W8 f$ b; {requirements.
4 x7 t$ ]8 h2 K7 `You can also vary the generic bill of process (BOP) by defining and
! O1 G# @! u! G- @9 \' e0 [3 Happlying variant or revision rules.
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Process operation7 ]# b% X( n& l
A process operation represents one controlled step in the process and w/ z& @ O3 H" ~+ ~, r; \ m
contains the work done in one work area; technically, it is a leaf node4 Z$ u) t# r; y0 l
in the process structure. Optionally, you can break a process operation
- o' y! E9 b6 h6 `into steps called activities. Examples of process operations include an
7 f0 F* O! K: \' `% C. P/ xNC machining operation on a single machine tool and an operation to6 I, \0 r7 `/ r) ~" c# ^$ T
assemble several components into a structure.
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Operation activities
/ S. p% g% d1 cA breakdown of manufacturing process operations into activities, each7 q$ Z: R! m: V
with an associated start time and duration. The total time of an operation* T9 x) w: ?2 l, p) R* P
is calculated from the start time and duration of each activity./ g" N' k$ z9 `- K6 |9 L
9 ]; _: I) p$ u& l: Z2 P3 B1 V2 b* vWorkstation3 S X1 U9 }9 u: ?4 \
A unique location within the factory to which you can assign) v6 j% U7 \3 {
manufacturing operations, for example, a paint spraying booth.# Y/ `0 t4 }+ s% _
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Plant
3 O- f$ e1 _4 d5 A) |2 XA manufacturing facility in which operations and processes are executed.
" I1 |9 C) [3 Z- }6 D3 OThe plant structure is hierarchical structure of work areas of the factory3 ^' E' l/ d4 k/ _
in which the product is manufactured. Its definition is independent of, but8 N" G( q$ r9 {" _, A
related to, the manufacturing processes that are performed in it./ b J* P5 Q; \) `( j6 @
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Work area: P1 A1 [0 h' r# ~- A9 O
Any element in the plant structure such as a factory, line, section, work" P2 b/ T1 T8 O1 ^6 p3 p( L
cell, or station. Typically, a work area is assigned to one process operation. y: X" J _! A$ e$ T, O$ ^$ I+ {! Y. D
A work area is defined by a location on the shop floor and the process. v% C& h: I5 o2 T/ [* b
capability it provides.3 A: \* Z0 H, y" {
To group resources further, your organization may define a hierarchy of' U9 o2 t1 Y! @) N) N- q
work areas. For example, a plant may include a welding line, a lathe: F( k* u; T9 d
workstation, a milling workstation, and an inspection workstation. The
5 G" s; h0 _- X* Y: ^& \+ s1 p, Wwelding line may contain a welding workstation and a welding work cell.4 a4 l0 e% f1 T, x
You configure each work area with standard equipment, and you can
! y I' a+ |' b* v- p- k1 p0 W, c4 ufurther configure equipment that is needed to execute a specific process
; Y6 q6 a# y, v( Z) m3 q& L# t0 Roperation. The process designer tries to use as much standard equipment2 L3 e+ ^( N$ j, }/ K! s
in the work area as possible. If additional equipment is needed, the
2 T8 i+ ~" b& C/ Oprocess designer provides work instructions on how to configure the work8 ~2 D) h% B% h& t
area with the additional equipment. For example, an NC machining% P+ C: o/ s9 |3 o
center may be pre-loaded with standard tools that are commonly used on
+ R$ c/ P6 l" m! C% zthe machine. If a process operation requires tools that are not pre-loaded,
* P" s1 `2 N6 R4 dthe operator loads them on the machine when the particular process
5 L0 K( l, q5 B- e6 toperation is executed.
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Product structure; {7 y3 z) A5 v1 ~# x& a( u9 W
The product structure defines the as-designed product. It is created by
9 q" L/ K% x- q0 U+ o) i: fthe design engineers in a CAD system such as NX® and managed by( N# G4 L E' z* w U; f2 s
Teamcenter. Manufacturing Process Management allows you to take the* M3 l9 z0 C) ^, C3 A
as-designed product structure, create alternative manufacturing views of
# c2 r1 l: |# l% f% M o% hthe product and attach process definitions as necessary. (Optionally, the
7 V7 d3 M2 k$ y! r5 S) N* Mproduct structure may contain definitions of manufacturing features.)
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Operation setup
- l+ T$ B7 M2 e* ?4 }1 |/ HThe model of an operation-specific configuration of an environment in
! X/ O" x8 r" i @2 C8 i8 h Iwhich processes and operations are executed. It describes how consumed
1 b; r7 o: f& u3 A; p: C Fitems, resources, and a standard work area are utilized to perform an d" y9 D/ I0 } Z# F
operation.2 v& T# a: ~' _, }% ~+ w6 F9 h
4 u' ~1 ^7 _5 [/ y6 X' ^# V9 _Consumed items- p+ r# x; { K2 E# d
Components in the product definition that are consumed by a
5 Q6 n& ^! Z. W2 K: emanufacturing operation.) X* X0 B$ Y# i" X
* m( X- ~% Y$ Z# T7 {$ x6 i/ }' uConsumed material
- e7 L8 g* e- ?- h7 F) XItems that are consumed by a manufacturing operation but are not part of% Z _6 N% _7 [0 p* n E
the product definition, for example, glue or paint.5 X) P' ?9 Y% |, D+ \; Q/ [; v
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Raw material
' K3 K' V( ~' j5 `The initial in-process model before any manufacturing operation is
) t9 I+ V% P7 e( d {- p7 @* d% vperformed.: K/ B" J9 R" U9 M0 M
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In-process model
; b- g) W! Q( \: A- |The state of the product at some stage in the manufacturing process
0 m; r1 u+ {/ Z3 h" l& cafter an operation is executed. The raw material is the initial in-process4 Z' W) ^8 t S; w
model for the first process operation in the manufacturing process. Any
: h- {. d; ~8 b/ k9 Qsubsequent in-process model is created by attaching a work instruction to
# `+ u9 m6 S C" G* w% c9 b8 V% e/ Zthe in-process model.
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The equipment needed for the execution of manufacturing processes, and
$ K. l: Q1 W( qmay include machine tools, robots, and weld guns. A single resource can7 O, i2 U3 w Z* X1 z
be used in several operations and processes.2 _1 s, N0 ]# T3 s( Z U
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Work instructions
) F# z. \+ U4 `% }/ ?Documents that describe how work should be performed. A work8 T& X4 r# D u2 G
instruction documents the procedure by which an operator should perform$ Y' W3 m* C0 U, m
an activity. Instructions may be printable or accessed from a Web page.& |/ K( D& ]# X5 H
Manufacturing Process Management allows you to create and manage work instructions in many of the applications. You can also create
% f$ e: ]7 P. s1 xtemplates to ensure work instructions appear in a standard format.
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3 Z; Y0 f% @: G1 D7 ?$ E6 g, EManufacturing feature) u# u/ L& P9 M) c9 B3 G# x
A set of entities and parameters that define generic manufacturing data., n! T9 N$ }" q5 ~8 w. Z4 Z
For example, a weld point and its normal location comprise a feature that( e3 p7 \' `) f- I, J. h
describes where two points may be welded together. All such features T0 d. ?: K0 n! ^3 M
should be associated with a process.
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