CN104573903A - Computer program for process control over enterprise production scheduling and production flow management - Google Patents

Abstract

The invention provides a computer program for process control over enterprise production scheduling and production flow management. The computer program provided by the invention not only can maintain the master production schedule function of existing ERP software but also can perform flat uniform plan management on each production process in a self-made component production flow; the information chain of the ERP is improved through the dynamic management on the production flow, so as to realize the data integration management function of the ERP software for the enterprise production.

Description

The computer program of a kind of enterprise scheduling and production process management process control

Art

The present invention relates to a kind of ERP (enterprise resource plan management) software, especially there is ERP (enterprise resource plan management) software of production planning management function.

Technical background

At present, the management thought that known ERP comprises is widely with deep, and why these advanced management thoughts can realize, and is the development of same infotech and applies inseparable.ERP, not only towards supply chain, embodies the spirit of lean production, Agile manufactruing, Simultaneous Engineering, and must in conjunction with total quality control (TQM) to ensure product quality and customer satisfaction; In conjunction with punctuality production (JIT) to eliminate all fruitless labours and waste, reduce stock and shorten delivery date; It also will define the bottleneck on supply chain in conjunction with bounding theory (Theory of Constraint, TOC are the development optimizing production technology OPT) and eliminate restraining factors, expands the throughput of enterprise's supply chain. ^[1]

ERP carries out plan of needs and process control according to the resource requirement of MPS to Bill of Material (BOM) (BOM), the feasibility of MPS verifies mainly through Rough-cut Capacity Planning (Rough-cut Capacity Planning, RCCP).Rough-cut Capacity Planning is a kind of CRP carrying out computing to the ability of critical work center and produce, and its plan object is only for the ability to work being set to " critical work center ". ^[2]the thin CRP of CRP (Capacity Requirements Planning, CRP) is i.e. the capabilities plan of short-term, is the capabilities plan run together with MRP.It is according to the process route of MRP, Enterprise Resource existing force, material, by production schedule requirement capability compared with available capability, whether has enough available capability to meet the ability need of all production schedules to examine each work centre.Because CRP adjusts the ability required for MRP, therefore CRP to as if all work centre. ^[3]work centre (Working Center, WC) is the basic process unit of ERP system, is the basic document carrying out MRP and CRP computing.In MRP, which work centre the demand of mandatory declaration material and output are in, and ability need refers to the ability of which work centre.The elementary cell that when work centre is also cost accounting simultaneously, cost occurs, and the elementary cell of input and output situation is examined in Workshop Production operation.A workshop is made up of one or more work centre, and a production line is also made up of one or more work centre. ^[4]system is under the prerequisite not considering ability, calculates the load at each Related Work center according to the process route of the shop order assigned, MRP planned order and order.When different orders uses same work centre, by joint account on a time period, finally the load of each work centre and work centre available capability are compared, draw the utilization factor of contrast between work centre load and ability and work centre.

At present, known ERP software production planning management is the MPS in units of workshop, so master scheduler is on a crucial position, in MPS implementation, he will coordinate the work of market sale department and production division, usually directly to Materials Manager, production control manager, schedule work manager and market manager's report ^[5], by the coordination of all departments with check material after assign the production schedule again.The production schedule due to existing ERP software needs scheduler to carry out twice decomposition and production leadtime person to the information feed back of production schedule implementation status, and becomes the bottleneck of enterprise information management.

Summary of the invention

Twice decomposition and the delayed deficiency of production leadtime is needed in order to overcome existing ERP software MPS.The invention provides the computer program of a kind of enterprise scheduling and production process management process control, this invention can not only maintain the MPS function of existing ERP software, and the unified planning management of flattening can be carried out to production process each in self-made components production procedure, by improving the message sense of ERP to the dynamic management of production procedure, realize the data integration management function that ERP software is produced enterprise.

The technical scheme that the present invention is solving existing ERP software MPS and needs twice decomposition and the delayed deficiency of production leadtime to adopt is: starting scheduling arranges each production process in MPS technological process and carries out the analysis of manufacturing capability and scheduling and generate to produce to make numbering according to technological process; Self-made components typing, scheduling inquiry feed back the implementation status of producing and making and numbering with flow process dynamic management, realize production process each in production procedure the dynamic monitoring producing order numbering executing state.

The invention has the beneficial effects as follows, compensate for the ERP software production schedule needs twice decomposition and the delayed deficiency of production leadtime, realizes the data integration management function that ERP software is produced enterprise.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is computer program process flow diagram of the present invention.

Fig. 2 is system architecture diagram of the present invention.

Fig. 3 is management schematic diagram of getting the raw materials ready of the present invention.

Fig. 4 is inquiry schematic diagram of getting the raw materials ready of the present invention.

Fig. 5 is scheduling option schematic diagram of the present invention.

Fig. 6 is scheduling schematic diagram of the present invention.

Fig. 7 is that Technological Process Management of the present invention reads schematic diagram.

Fig. 8 is Technological Process Management of the present invention amendment schematic diagram.

Fig. 9 is analysis of manufacturing capability schematic diagram of the present invention.

Figure 10 is that production of the present invention order generates schematic diagram.

Figure 11 is scheduling of the present invention inquiry (after producing the generation of order numbering) schematic diagram.

Figure 12 is that production of the present invention makes outbound schematic diagram.

Figure 13 is flow process dynamic management of the present invention (production make outbound after) schematic diagram

Figure 14 is self-made components typing schematic diagram of the present invention.

Figure 15 is scheduling of the present invention inquiry (after self-made components typing) schematic diagram.

Figure 16 is flow process dynamic management of the present invention (after self-made components typing) schematic diagram

Figure 17 is self-made components of the present invention warehouse-in page schematic diagram.

Figure 18 is flow process dynamic management of the present invention (self-made components typing is for empty) schematic diagram.

Figure 19 is scheduling of the present invention inquiry (self-made components typing is for empty) schematic diagram.

1. clients and contract management in the drawings, 2. evaluate Contract NO, 3. contract review management, 4. process management, 5. quality management, 6. production marketing platform, 7. simulation is got the raw materials ready, 8. price evaluation, 9. simulate scheduling, 10. accumulating customer account management, 11. accumulating contract template, 12. trade debtor management, 13. sales contract templates, 14. buying customer account managements, 15. procurement contract templates, 16. treat evaluation contract, 17. Process configuration management, 18. Technological Process Management, 19. incident managements, 20. correct and prevention, 21. procurement contract purposes, 22. sales contracts, 23. schedulings and production process management, 24. storehouse managements, 25. document typings, 26. accumulating contracts, 27. deliveries and payment for goods management, 28. accumulating management, 29. outbound task order, 30. stock management, 31. get the raw materials ready management, 32. produce order, 33. flow process dynamic management, 34. Report Server Management, 35. virtual varehouses, 36. lack material detail, 37. starting schedulings, 38. get the raw materials ready inquiry, 39. technological processes are arranged, 40. schedulings, 41. scheduling options, 42. products, 43. parts, 44. assemblies, 45. parts, 46. technological processes, 47. analysis of manufacturing capability, 48. production capacity schedulings, 49. self-made components warehouse-ins, 50. productions make outbound, 51. self-made components typings, 52. names of material, 53. material models, 54. sales contract numberings, 55. material specifications, 56. colors, 57. points of suppliers, 58. return push-buttons, 59. get the raw materials ready state, 60. get the raw materials ready inquire button, 61. article No.s, 62. scheduling buttons, 63. analysis of manufacturing capability buttons, 64. produce order detail, 65. technological process titles, 66. sequence numbers, 67. operation titles, 68. scheduling dates, 69. scheduling numbers, 70. order of classes or grades at school, 71. flow process classifications, 72. process names, 73. technique Item Titles, 74. inquire button, 75. orders, 76. operation classifications, 77. operation series, 78. device classes, 79. equipment chains, 80. device names, 81. unit types, 82. specifications of equipment, 83. frock classifications, 84. frock series, 85. frock titles, 86. frock models, 87. frock specifications, 88. operation man-hours, 89. turns of sequence man-hours, 90. add button, 91. save buttons, 92. amendment buttons, 93. cancel buttons, 94. delete buttons, 95. techniques are arranged, 96. work step classifications, 97. work step series, 98. work step titles, 99. measurement instrument classifications, 100. measurement instrument series, 101. measurement instrument titles, 102. measurement instrument models, 103. measurement instrument specifications, 104. Work tool classifications, 105. Work tool series, 106. Work tool titles, 107. Work tool models, 108. Work tool specifications, 109. piece, 110. the task time, 111. unproductive time, 112. work step man-hours, 113. device numbering, 114. equipment state, 115. frock numberings, 116. frock states, 117. production schedule numbers, 118. produce order generates button, 119. produce order numbering, 120. scheduling inquire button, 121. complete number, 122. productions make out library button, 123. quantity, 124. the date, 125. operation job numbers, 126. go out library button, 127. exit button, 128. self-made components typing buttons, 129. submission date, 130. censorship numbers, 131. the date of inspection, 132. passing number, 133. substandard products numbers, 134. the number of rejects, 135. summary, 136. checker, 137. last process, 138. reprocess number, 139. in operation processed, 140. at number processed, 141. next procedure, 142. differential number, 143. self-made components enter library button, 144. warehouse-in numbers, 145. warehouse keeper.

Specific implementation method

In FIG, contract review management (3) carries out contract review management (3) according to the data of Process configuration management (17), Technological Process Management (18), storehouse management (24) to the evaluation Contract NO (2) that production marketing platform (6) is submitted to, submits to procurement contract template (15) to generate procurement contract purpose (21) and submits to sales contract template (13) to generate sales contract (22); Scheduling and production process management (23) realize getting the raw materials ready management (31) and generating production making (32) according to simulation scheduling (9), Process configuration management (17), Technological Process Management (18), storehouse management (24), and flow process dynamic management (33) makes the execution data of (32) form virtual varehouse machine account (35) realization flow dynamic management (33) to producing in document typing (25); Correct and prevent (20) to realize quality management (5) according to incident management (19) to the overproof data in Report Server Management (34); Stock management (30) of delivery and payment for goods management (27) realizes outbound task order (29), accumulating management (28) according to the sales contract (22) of trade debtor management (12), submits to accumulating contract template (11) to generate accumulating contract (26).

In the embodiment depicted in figure 2, starting scheduling (37) is simulated the implementation status of get the raw materials ready (7) according to simulation scheduling (9) and inquiry (38) of getting the raw materials ready to management (31) of getting the raw materials ready is middle and feeds back the scarce material detail (36) of simulating scheduling (9), selects product (42), parts (43), assembly (44), part (45) to carry out the analysis of manufacturing capability (47) in scheduling (40) by scheduling option (41); The technological process (46) that the analysis of manufacturing capability (47) arranges scheduling (40) option in (39) according to technological process carries out production capacity scheduling (48) to each production process; Flow process dynamic management (33) makes the check data of the production process of outbound (50) by self-made components typing (51) realization flow dynamic management (33) to production, until complete self-made components warehouse-in (49).

In the embodiment shown in fig. 3, selective selling Contract NO (54), respectively to the option dividing the selection of the name of material (52) of supplier (57), material model (53), material specification (55), color (56) to get the raw materials ready state (59), show current state of getting the raw materials ready, click return push-button (58) and return.

In the embodiment shown in fig. 4, selection get the raw materials ready inquire button (60) and sales contract numbering (54), the article No. (61) of configuration is lacked in display simulation scheduling (9) in upper list, lack the name of material (52), material model (53), material specification (55), the color (56) that lack in detailed (36) list Show Options article No. (61) of material, click return push-button (58) and return.

In the embodiment shown in fig. 5, click scheduling button (62) and sales contract numbering (54), select product (42), parts (43), assembly (44), the part (45) in scheduling option (41).

In the embodiment shown in fig. 6, the article No. (61) of getting the raw materials ready complete in scheduling option (41) is shown in upper list, produce technological process title (65) and sequence number (66), the operation title (67) of list option article No. (61) in detailed (64) display of order, examine adjustment scheduling date (68), scheduling number (69), order of classes or grades at school (70), click analysis of manufacturing capability button (63) the redirect analysis of manufacturing capability (47).

In the figure 7, flow process classification (71), process name (72), technique Item Title (73) is selected to click inquire button (74), operation man-hour (88) of DISPLAY ORDER (75), operation title (67), the device name (80) turning sequence man-hour (89) and configuration, unit type (81), specification of equipment (82) and frock title (85), frock model (86), frock specification (87) in upper list.

In the embodiment shown in fig. 8, select the interpolation button (90) of Fig. 7, upper list selecting sequence (75), operation classification (76), operation series (77), operation title (67), device class (78), equipment chain (79), device name (80), unit type (81), specification of equipment (82), frock classification (83), frock series (84), frock title (85), frock model (86), frock specification (87) option, by amendment (92), cancel (93), delete (94) to modify, typing turns sequence man-hour (89) and clicks preservation (91) afterwards, operation man-hour (88) default technology arranges piece (109) in (95), task time (110), unproductive time (111), the operation values of work step man-hour (112), technique arranges the order (75) of (95) list Show Options operation title (67), work step classification (96), work step series (97), work step title (98) measurement instrument classification (99), measurement instrument series (100), measurement instrument title (101), measurement instrument model (102), measurement instrument specification (103), Work tool classification (104), Work tool series (105), Work tool title (106), Work tool model (107), Work tool specification (108), typing piece (109), task time (110), unproductive time (111), work step man-hour (112), by adding (90), amendment (92), cancel (93), delete after (94) modify and click preservation (91), after whole amendment completes, click return push-button (58) returns.

In the embodiment shown in fig. 9, device name (80), unit type (81), specification of equipment (82), operation man-hour (88) of in technological process (46) list, selecting sequence number (66), technique Item Title (73), process name (72), operation title (67) to configure, the Item Title (52) that technological process (46) option operation title (67) is produced is shown in production capacity scheduling (48) list, article model (53), article specification (55), color (56) and the device numbering (113) used, equipment state (114), frock numbering (115), frock state (116), examine adjustment production schedule number (117), the scheduling date (68), order of classes or grades at school (70) clicks save button (91), after whole sequence number (66) examines adjustment, click return push-button (58) return.

In the embodiment shown in fig. 10, select scheduling button (62), the production order of click option article No. (61) generates button (118), is producing production order numbering (119) of generating process process name (65) each sequence number (66), operation title (67), scheduling date (68), order of classes or grades at school (70), scheduling number (69) in detailed (64) list of order.

In the embodiment shown in fig. 11, select scheduling inquire button (120) and sales contract numbering (54), produce the production order showing generation in detailed (64) list of order number (119) and technological process title (65) thereof, sequence number (66), operation title (67), scheduling date (68), scheduling number (69), order of classes or grades at school (70) and complete number (121), click return push-button (58) and return.

In the embodiment shown in fig. 12, select production to make out library button (122) and outbound configure uniterming and choose and produce order numbering (119), show the quantity (123) of the Item Title (52) of production order numbering (119) configuration list, article model (53), article specification (55), color (56) in lists, option date (124), operation job number (125), click out library button (126), choose exit button (127) and return.

In the embodiment shown in fig. 13, selective selling Contract NO (54) clicks inquire button (74), and the production schedule number (117) of (119) and Item Title (52), article model (53), article specification (55), color (56) is numbered in the production order that Show Options sales contract numbering (54) has been assigned in lists.

In the embodiment shown in fig. 14, select self-made components typing button (128) and produce order numbering (119), option date (124), submission date (129), the date of inspection (131) respectively, input censorship number (130), passing number (132), substandard products number (133), the number of rejects (134), summary (135), selection check person (136), click save button (91), choose exit button (127) and return.

In the embodiment shown in fig. 15, select scheduling inquire button (120) and sales contract numbering (54), produce in detailed (64) list of order and no longer show in production order numbering (119) of Figure 14 self-made components typing (128), click return push-button (58) and return.

In the embodiment shown in fig. 16, selective selling Contract NO (54) and click inquire button (74), shows the sequence number (66) of the Item Title (52) of article No. (61) in list on Figure 11, article model (53), article specification (55), color (56) and technological process title (65) thereof, the positioned next procedure (141) of operation title (67), dynamic position at operation processed (139), last process (137) in list.

In embodiment illustrated in fig. 17, click self-made components and enter library button (143), select to produce order numbering (119), the date (124), typing warehouse-in number (144), summary (135), select warehouse keeper (145), click save button (91), choose exit button (127) and return.

In embodiment illustrated in fig. 18, when producing order numbering (119) in Figure 14 and being empty, in sales contract numbering (54), there is no option.

In embodiment illustrated in fig. 19, click scheduling inquire button (120) selective selling Contract NO (54), when producing order numbering (119) in Figure 17 self-made components warehouse-in (143) and being empty, sales contract numbering (54) option is empty.

List of references:

[1] ERP principle and structure Gou Juan fine jade, publishing house of Beijing Jiaotong University of Chang Danzhu Tsing-Hua University 2005 03 month the 1st edition the 26th page.

[2] <<ERP principle design is implemented >> Luo Hong and is write the 97th page, Electronic Industry Press's in August, 2002 text.

[3] << Enterprise Resources Plan (ERP) >> Sun Fu weigh [etc.] write publishing house of Northeastern University in July, 2006 text page the 109th page.

[4] << Enterprise Resources Plan (ERP) >> Sun Fu weigh [etc.] write publishing house of Northeastern University in July, 2006 text page the 40th page.

[5] <<ERP principle, to implement and case >> Wang Guozhang edits in January, 2003 text page the 30th page.

Claims (4)

1. a computer program for enterprise's scheduling and production process management process control, starting scheduling is arranged according to technological process carries out the analysis of manufacturing capability and scheduling and generates to produce to make numbering to production process each in MPS technological process; Self-made components typing, scheduling inquiry feed back the implementation status of producing and making and numbering with flow process dynamic management, realize production process each in production procedure the dynamic monitoring producing order numbering executing state.

2. the computer program of a kind of enterprise scheduling according to claim 1 and production process management process control, it is characterized in that: the analysis of manufacturing capability sets scheduling date of sequence number each in the process name of scheduling article No., operation title, order of classes or grades at school, production schedule number, and generate and produce order numbering.

3. the computer program of a kind of enterprise scheduling according to claim 1 and production process management process control, it is characterized in that: scheduling query display has assigned the scheduling article No. producing order numbering, produce and make detailed list display also not have the production of each sequence number operation title in the process name of the scheduling article No. of self-made components typing to make numbering, scheduling date, order of classes or grades at school, scheduling number, complete number.

4. the computer program of a kind of enterprise scheduling according to claim 1 and production process management process control, is characterized in that: assigned in flow process dynamic management list Show Options sales contract numbering and produced order numbering and the dynamic position of scheduling article No. in technological process also not having self-made components typing.