CN210805345U - Production system in pencil workshop - Google Patents

Abstract

The utility model relates to a production system in pencil workshop, production system includes the auxiliary material storehouse, the wire material storehouse, the terminal material storehouse, the mould material storehouse, cutting production center, the semi-manufactured goods storehouse, stranded conductor welding center, assembly center, and the finished product storehouse, cutting production center includes a plurality of cutting work platform, still include transmission rail system, AVG conveying system, information input system, and MES system, transmission rail system includes the track of a plurality of connections each production center and warehouse, AVG conveying system includes magnetism track and a plurality of AVG dolly, the magnetism track is via wire material storehouse delivery department, the terminal delivery track, the mould delivery track, and each cutting work platform. The information input system comprises a code scanning machine and a bar code printer, wherein the code scanning machine and the bar code printer are connected into an MES system, the MES system is connected with an AVG conveying system and controls the movement of an AVG trolley, and the MES system controls the production work of a cutting production center, a stranded wire welding center and a final assembly center.

Description

Production system in pencil workshop

Technical Field

The utility model relates to a pencil production field, concretely relates to production system in pencil workshop.

Background

At present, an automobile wire harness production factory is of a traditional layout structure, each process is carried out in independent centers, and a raw material center, a material distribution center, a cutting production center, a welding stranded wire production center, a semi-finished product transportation center, a final assembly pre-locking center, an assembly production center, a checking center, a shipping center and the like are formed; each center is provided with an independent system, each system is independent, pulling production cannot be effectively implemented, excessive semi-finished products and products in process need to be additionally produced, and data among the centers cannot be effectively shared.

SUMMERY OF THE UTILITY MODEL

In view of the above shortcomings in the prior art, the to-be-solved technical problem of the present invention is to provide a production system for wiring harness workshops, which can systematically connect various centers to form a whole, and perform intelligent and automatic production.

In order to achieve the purpose, the utility model provides a production system in pencil workshop, including auxiliary material storehouse, wire material storehouse, terminal material storehouse, mould material storehouse, cutting production center, semi-manufactured goods storehouse, stranded conductor welding center, assembly center and finished product storehouse, cutting production center includes a plurality of cutting work platforms, still includes transmission rail system, AVG conveying system, information input system and MES system; the transmission track system comprises a terminal delivery track, a mold delivery track, a semi-finished product warehousing track, a semi-finished product delivery track, an auxiliary component delivery track, a general assembly input track, a general assembly transfer track and a finished product warehousing track, wherein the terminal delivery track extends from a delivery position of a terminal material warehouse to a position close to a cutting production center, the mold delivery track extends from a delivery position of the mold material warehouse to a position close to the cutting production center, the semi-finished product warehousing track extends from a cutting workbench of the cutting production center to a semi-finished product warehousing position, the semi-finished product delivery track extends from the delivery position of the semi-finished product warehouse to form two branches, one branch to the welding center of a stranded wire is connected with the general assembly input track or the general assembly transfer track, the general assembly input track extends from the welding center of the stranded wire to be connected with the general assembly transfer track, the auxiliary component delivery track extends from the auxiliary component material warehouse to be connected with the general assembly track, the final assembly transfer track passes through each final assembly workbench of a final assembly center, and the finished product warehousing track is connected with the final assembly transfer track and extends to a finished product warehouse warehousing position; the AVG conveying system comprises a magnetic track and a plurality of AVG trolleys, the magnetic track passes through a lead material warehouse outlet position, a terminal warehouse outlet track, a mould warehouse outlet track and each cutting workbench, and the AVG trolleys run along the magnetic track; the information input system comprises a code scanner and a bar code printer, wherein the code scanner and the bar code printer are connected into the MES system, the code scanner is arranged at the warehousing position of a lead material warehouse, the warehousing position of a terminal material warehouse, the warehousing position of a die material warehouse, the warehousing position of a semi-finished product warehouse and the warehousing position of a finished product warehouse, and the bar code printer and the code scanner are arranged at a cutting workbench, a stranded wire welding center workbench and a general assembly workbench of a general assembly center; the MES system is connected with the AVG conveying system and controls the motion of the AVG trolley, and the MES system controls the production work of the cutting production center, the stranded wire welding center and the final assembly center.

Furthermore, the wire material warehouse comprises a plurality of multi-layer wire racks and a wire guide rail vehicle arranged between the wire racks, the wire racks are provided with a plurality of goods spaces, the wire guide rail vehicle is connected with the MES system, the wire guide rail vehicle can move along the racks and has a goods conveying platform with a lifting function, and the wire guide rail vehicle is used for conveying wire materials to a specified goods space or conveying the wire materials in the specified goods space out of the warehouse.

Further, the terminal material warehouse comprises a plurality of multilayer terminal shelves and terminal guide rail vehicles arranged among the terminal shelves, the terminal shelves are provided with a plurality of goods spaces, the terminal guide rail vehicles are connected with the MES system, the terminal guide rail vehicles can move along the shelves and are provided with goods carrying platforms with lifting functions, and the terminal guide rail vehicles are used for carrying terminal materials to appointed goods spaces or carrying the terminal materials in the appointed goods spaces out of the terminal material warehouse.

Further, the die material warehouse comprises a plurality of multi-layer die goods shelves and die guide rail vehicles arranged between the die goods shelves, the die goods shelves are provided with a plurality of goods positions, the die guide rail vehicles are connected with the MES system, the die guide rail vehicles can move along the goods shelves and have a goods conveying platform with a lifting function, and the die guide rail vehicles are used for conveying die materials into the appointed goods positions or conveying the die materials in the appointed goods positions out of the warehouse.

Further, the semi-finished product warehousing track and the semi-finished product ex-warehousing track are both arranged in the midair, the cutting production center comprises a reciprocating type elevator arranged at the cutting workbench, and the reciprocating type elevator is used for lifting the semi-finished products from the cutting workbench to the semi-finished product warehousing track.

Further, semi-manufactured goods storehouse includes the semi-manufactured goods shelves of a plurality of multilayer and sets up the semi-manufactured goods guide rail car between the semi-manufactured goods shelves, semi-manufactured goods shelves have a plurality of goods positions, semi-manufactured goods guide rail car links to each other with MES system, semi-manufactured goods guide rail car can follow the goods shelves and remove and have lift freight station, semi-manufactured goods guide rail car is arranged in transporting the semi-manufactured goods to appointed goods position, or transports the semi-manufactured goods in the appointed goods position to the department of shipment in semi-manufactured goods storehouse.

Further, the finished product warehousing rail is arranged in the air, the final assembly center comprises a reciprocating type elevator arranged beside the workbench, and the reciprocating type elevator is used for lifting the finished products from the workbench to the finished product warehousing rail.

The finished product warehousing track comprises a finished product warehousing front-section track extending from the general assembly circulation track to the finished product sorting center and a finished product warehousing rear-section track extending from the finished product sorting center to the finished product warehousing position, the finished product sorting center is distributed by a mechanical arm, and the mechanical arm is connected to the MES system.

Further, the finished product warehouse comprises a plurality of multi-layer finished product shelves and finished product guide rail vehicles arranged among the finished product shelves, the finished product shelves are provided with a plurality of goods spaces, the finished product guide rail vehicles are connected with the MES system, the finished product guide rail vehicles can move along the shelves and have a goods conveying platform with a lifting function, and the finished product guide rail vehicles are used for delivering finished products to the appointed goods spaces or conveying the finished products in the appointed goods spaces out to the finished product warehouse outlet.

As described above, the utility model relates to a production system has following beneficial effect:

through setting up transmission track system, AVG conveying system, information input system and MES system, between each processing assembly center, carry through transmission track system and AVG conveying system, improved transport work efficiency and workshop space utilization. Through MES system, information input system, transmission track system and AVG conveying system, in whole production process, the production warehousing and the transport of various raw materials and semi-manufactured goods are carried under overall control to the record is in the system, and data sharing between each production center and the warehouse each other, and data maximize in the production process uses, makes the production operation realize complete data chain, and the production system in pencil workshop constitutes an intelligent production system.

Drawings

Fig. 1 is a schematic diagram of a first part of the structure of the production system of the present invention.

Fig. 2 is a schematic diagram of a second part of the structure of the production system of the present invention.

Fig. 3 is a schematic diagram of a third part of the structure of the production system of the present invention.

Fig. 4 is a schematic view of the fourth partial structure of the production system of the present invention.

Description of the element reference numerals

1 wire Material library

1a wire goods shelf

1b guide rail vehicle

2 terminal material library

2a terminal goods shelf

2b terminal guide rail car

3 cutting production center

3a cutting table

3b reciprocating type elevator

4 semi-finished product warehouse

4a semi-finished goods shelf

4b semi-finished product guide rail vehicle

5 die Material warehouse

6 stranded wire welding center

7 Assembly center

8 finished product sorting center

9 finished product warehouse

10 auxiliary material library

11a terminal delivery track

11b mould delivery track

11c wire warehousing track

11d terminal warehouse entry track

11e semi-finished product warehousing track

11f semi-finished product delivery track

11g mould warehouse entry track

11h semi-finished product ex-warehouse stranded wire branch

11i semi-manufactured goods warehouse-out general assembly branch

11j Assembly input track

11k auxiliary member delivery track

11l general assembly circulation track

11m finished product warehousing track

12 elevator terminal

13 AVG conveying system

13a magnetic track

13b AVG trolley

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

It should be understood that the drawings of the present application are only used to match the contents disclosed in the specification, so as to be known and read by those skilled in the art, and not to limit the practical limitations of the present invention, so that the present application does not have any technical significance, and any modification of the structure, change of the ratio relationship, or adjustment of the size should still fall within the scope of the present application without affecting the function and the achievable purpose of the present application. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle", and the like used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be considered as the scope of the present invention without substantial changes in the technical content.

Referring to fig. 1 to 4, the utility model provides a production system in pencil workshop, including accessory material storehouse 10, wire material storehouse 1, terminal material storehouse 2, mould material storehouse 5, cutting production center 3, semi-finished product storehouse 4, stranded conductor welding center 6, final assembly center 7 and finished product storehouse 9, cutting production center 3 includes a plurality of cutting work platforms 3a, still includes transmission track system, AVG conveying system 13, information input system, and MES system; the transmission track system comprises a terminal delivery track 11a, a mould delivery track 11b, a semi-finished product warehousing track 11e, a semi-finished product delivery track 11f, an auxiliary component delivery track 11k, a general assembly input track 11j, a general assembly transfer track 11l and a finished product warehousing track 11m, wherein the terminal delivery track 11a extends from the delivery position of a terminal material warehouse 2 to a position close to a cutting production center 3, the mould delivery track 11b extends from the delivery position of a mould material warehouse 5 to a position close to the cutting production center 3, the semi-finished product warehousing track 11e extends from a cutting worktable 3a of the cutting production center 3 to the warehousing position of a semi-finished product warehouse 4, the semi-finished product delivery track 11f extends from the delivery position of the semi-finished product warehouse 4 to form two branches, one branch is connected to the general assembly input track 11j or the general assembly transfer track 11l through the other branch at the stranded wire welding center 6, the general assembly input track 11j extends from the stranded wire welding center 6 to the general assembly transfer track 11l, the auxiliary part delivery track 11k extends from the auxiliary part material warehouse 10 to be connected with the general assembly transfer track 11l, the general assembly transfer track 11l passes through all the general assembly workbenches of the general assembly center 7, and the finished product warehousing track 11m is connected with the general assembly transfer track 11l and extends to the warehousing position of the finished product warehouse 9; the AVG conveying system 13 comprises a magnetic track 13a and a plurality of AVG trolleys 13b, the magnetic track 13a passes through the delivery position of the wire material warehouse 1, the terminal delivery track 11a, the mould delivery track 11b and each cutting workbench 3a, and the AVG trolleys 13b run along the magnetic track 13 a; the information input system comprises a code scanner and a bar code printer (not marked in the drawing), the code scanner and the bar code printer are connected into the MES system, the code scanner is arranged at the warehousing position of the lead material warehouse 1, the warehousing position of the terminal material warehouse 2, the warehousing position of the die material warehouse 5, the warehousing position of the semi-finished product warehouse 4 and the warehousing position of the finished product warehouse 9, and the bar code printer and the code scanner are arranged at the cutting workbench 3a, the workbench of the stranded wire welding center 6 and the general assembly workbench of the general assembly center 7; the MES system is connected with the AVG conveying system 13 and controls the movement of the AVG trolley 13b, and the MES system controls the production work of the cutting production center 3, the stranded wire welding center 6 and the final assembly center 7.

The utility model discloses in, each track among the transmission track system for carry the effect, specifically can adopt modes such as roll table, perhaps conveyer belt, its specific route of arranging can be confirmed according to the actual overall arrangement in pencil workshop. The Manufacturing System (Manufacturing Execution System) is used as an intelligent control part of the production System of the whole wiring harness workshop and used for controlling the production work of modules such as a lead material library 1, a terminal material library 2, a mold material library 5, a cutting production center 3, a semi-finished product library 4, a stranded wire welding center 6, a final assembly center 7, a finished product library 9 and the like.

An AVG conveying system 13(Automated Guided Vehicle, AGV for short) adopts a magnetic track 13a and a plurality of AVG trolleys 13b, the arrangement track of the magnetic track 13a can be determined according to the actual layout of a wire harness workshop, the AVG trolleys 13b can conveniently walk, the AVG trolleys 13b can walk to the designated position along the magnetic track 13a under the control of an MES system, and therefore the wire material, the terminal material or the die material library 5 can be conveyed to the designated cutting workbench 3 a.

The utility model relates to a pencil workshop production system between each processing assembly center, carries through transmission rail system and AVG conveying system 13, has improved transport work efficiency and workshop space utilization. Through MES system, information input system, transmission track system and AVG conveying system 13, in whole production process, the production warehousing and the transport of various raw materials and semi-manufactured goods are all under overall control carries to the record is in the system, and data sharing each other between each center, and the data maximize in the production process is used, makes the production operation realize complete data chain, and pencil workshop production system constitutes an intelligent production system.

The utility model discloses a production system's in pencil workshop the description of work as follows:

the wire material warehouse 1 is used for storing wire materials, the wire materials are provided with corresponding bar codes, when the wire materials are warehoused, the bar code information of the wire materials is input into the MES system through a code scanning machine at the warehousing position of the wire material warehouse 1, data is recorded in the MES system, and then the wire materials are distributed into the designated warehouse positions of the wire material warehouse 1 according to the distribution of the MES system; when the wire material is required to be taken, the required wire material is also determined by the information stored in the MES system and taken out of the designated storage location.

As a preferable design, referring to fig. 1, in the present embodiment, the lead material library 1 includes a plurality of multi-layer lead racks 1a, and lead rail cars 1b disposed between the lead racks 1a, the lead racks 1a have a plurality of cargo spaces, the lead rail cars 1b are connected to the MES system, the lead rail cars 1b are movable along the racks and have a carrying platform with a lifting function, and the lead rail cars 1b are used for carrying lead materials into or out of designated cargo spaces. The conveying track system also comprises a wire warehousing track 11c extending from the warehousing position of the wire material warehouse 1 to the unloading position, and an electronic weighing platform connected with the MES system is preferably arranged in the wire warehousing track 11c, and is used for weighing and calculating the warehoused wire materials and recording the warehoused wire materials into the MES system. Therefore, the operation of the wire material entering and exiting the warehouse is efficient and rapid, the intelligent degree is high, and the MES system can control the wire guide rail vehicle 1b to accurately deliver the wire material to the designated cargo space or transport the wire material in the designated cargo space to the exit of the wire material warehouse 1.

The laying of the magnetic track 13a in the AVG transport system 13 at the wire material withdrawal is determined on a case-by-case basis.

After being delivered out of the warehouse, the wire material is conveyed to the cutting production center 3 through the AVG conveying system 13 for production. The working process of the lead material warehouse 1 for entering and exiting the warehouse and the conveying process of the lead material are described in detail below.

The lead material warehousing track and the lead material ex-warehousing track which are arranged at the lead material warehouse 1 can be two completely separated tracks, the warehousing and ex-warehousing of the lead materials can be mutually independent at the moment, and can also be partially overlapped and shared.

The terminal material warehouse 2 is used for storing terminal materials and the like, the terminal materials are provided with corresponding bar codes, when the terminal materials are warehoused, the information of the terminal materials is input into the MES system through a code scanning machine at the warehousing position of the terminal material warehouse 2, data is recorded in the MES system, and then the terminal materials are distributed into the designated warehouse positions of the terminal material warehouse 2 according to the distribution of the MES system; when the terminal material warehouse 2 needs to be taken out, the required terminal material is determined through the information stored in the MES system and is taken out from the designated warehouse position. The terminal ex-warehouse track 11a extends to a proper position close to the cutting center from the terminal material warehouse 2 out-warehouse position, and then is transferred to the AVG conveying system 13 for conveying, so that the magnetic track 13a can be laid conveniently, and the workshop layout is facilitated.

As a preferable design, referring to fig. 1, in the present embodiment, the terminal material library 2 includes a plurality of terminal shelves 2a in multiple layers, and a terminal guide cart 2b disposed between the terminal shelves 2a, the terminal shelves 2a have a plurality of cargo spaces, the terminal guide cart 2b is connected to the MES system, the terminal guide cart 2b is movable along the shelves and has a carrying platform with a lifting function, and the terminal guide cart 2b is used for delivering the terminal material into a specified cargo space or carrying the terminal material in the specified cargo space out to the terminal material library 2 ex-warehouse.

The transport rail system further includes a terminal warehousing rail 11d extending from the terminal material warehouse 2 warehousing location to the unloading location. Therefore, the terminal materials can be efficiently and quickly put in and out of the warehouse, the intelligent degree is high, and the MES system can control the terminal guide rail vehicle 2b to accurately convey the terminal materials to the specified goods space or take out the terminal materials in the specified goods space. After the terminal material is delivered out of the warehouse, the terminal material is delivered to the cutting production center 3 through the terminal delivery track 11a and the AVG conveying system 13 for production, wherein the working process of delivering the terminal material into and out of the warehouse and the conveying process of the terminal material are described in detail below.

The terminal warehousing track 11d and the terminal ex-warehousing track 11a which are arranged at the terminal material warehouse 2 can be two completely separated tracks, the warehousing and ex-warehousing of the terminal materials can be mutually independent at the moment, and can also be partially overlapped and shared, the space and track laying can be saved by adopting a way of partially overlapping and sharing the tracks, and the ex-warehousing and the warehousing of the terminal materials are separately carried out at the moment.

And the die material library 5 is used for storing die materials, the die materials comprise dies, wiper plug dies and other materials required by terminals during production, the die materials can be stored and transported through a die material box, the required die materials are placed in the die material box, and bar codes corresponding to the die material information are pasted on the die material box. And (3) warehousing the mould materials by scanning the bar codes of the mould material box, and extracting the corresponding mould materials from the mould material warehouse 5 according to production requirements.

As a preferable design, referring to fig. 1, the mold material library 5 may also be designed in the same manner as the lead material library 1 and the terminal material library 2, and specifically, the mold material library 5 includes a plurality of multi-layered mold racks having a plurality of cargo spaces and a mold guide cart disposed between the mold racks, the mold guide cart being connected to the MES system, the mold guide cart being movable along the rack and having a cargo carrying table with a lifting function, the mold guide cart being used to carry the mold material to a designated cargo space or carry the mold material in the designated cargo space out of the mold material library 5. The warehousing position of the mold material warehouse 5 is provided with a mold warehousing track 11g extending to the unloading position. The mold delivery track 11b extends from the delivery position of the mold material warehouse 5 to a proper position close to the cutting production center 3, a specific path can be laid according to the layout condition of a workshop, when the mold material warehouse 5 and the cutting production center 3 are positioned at different floors, referring to fig. 1 and fig. 2, an elevator is arranged in the middle of the mold delivery track 11b, the mold material is conveyed to an elevator wharf 12 through the mold delivery track 11b, conveyed to the floor where the cutting production center 3 is positioned through the elevator, then conveyed to the position close to the cutting production center 3 through the mold delivery track 11b, and then transferred to the cutting production center 3 through the AVG conveying system 13 for production, wherein the specific delivery working process of the mold material and the specific conveying process of the mold material are described in detail below.

The mold warehousing track 11g and the mold ex-warehousing track 11b which are arranged at the mold material warehouse 5 can be two completely separated tracks, the warehousing and ex-warehousing of the mold materials can be mutually independent at the moment, and can also be partially overlapped and shared, the space and track laying can be saved by adopting a mode of partially overlapping and sharing the tracks, and the ex-warehousing and the warehousing of the mold materials are separately carried out at the moment.

The cutting production center 3 is provided with a plurality of cutting workbenches 3a, a series of cutting processing treatment is carried out on the wire material, the terminal material and the die material which are delivered from the cutting production workbench to obtain a semi-finished product, and the specific production work of the cutting production center 3 can be the existing wire harness processing work. And a bar code corresponding to the semi-finished product information is printed by a bar code printer at the cutting workbench 3a, is attached to the semi-finished product, is scanned by a code scanner, is recorded into an MES system, and is subjected to data recording for subsequent production work. The cutting production center 3 may be a cutting production center 3 of an existing wire harness workshop.

The cutting workbench 3a performs production task allocation and production control through the MES system. Since the magnetic rail 13a of the AVG transport system 13 is routed to the individual cutting stations 3a, the AVG trolley 13b can be controlled by the MES system in such a way that the wire material, the terminal material and the die material required for each cutting station 3a are transported to the cutting station 3a without errors.

The semi-finished product warehousing track 11e may have a plurality of branches at the cutting production center 3, ensuring access to each cutting table 3 a. So that the semi-finished products after the cutting table 3a is produced can be conveyed even through the semi-finished product warehousing tracks 11 e. The semi-finished products can be conveyed in the material box, the material box is conveyed to the cutting workbench 3a through the conveying track, and the bar codes of the semi-finished products can also be attached to the material box.

As a preferable design, in the present embodiment, the semi-finished product warehousing rail 11e and the semi-finished product ex-warehousing rail 11f are both provided in mid-air, the cutting production center 3 includes a reciprocating lifter 3b provided at the cutting table 3a, and the reciprocating lifter 3b is used for lifting the semi-finished product from the cutting table 3a to the semi-finished product warehousing rail 11 e. The rail conveying system is used for conveying rails of various raw materials (including accessory materials, lead materials, terminal materials, mold materials and the like) to be arranged on the ground and arranged in a layered mode with the semi-finished product warehousing rail 11e and the semi-finished product delivery rail 11f, and therefore the space of a workshop can be fully utilized. The semi-finished products are conveyed to the delivery point of the semi-finished product warehouse 4 through a semi-finished product warehousing track 11e arranged between the cutting production center 3 and the semi-finished product warehouse 4. The working flow of the cutting production center 3 is described in detail below.

And a semi-finished product warehouse 4 for storing semi-finished products, wherein the semi-finished products are conveyed from the cutting production center 3 through a semi-finished product warehouse entry track 11e, when the semi-finished products are warehoused, a code scanning machine of the semi-finished product warehouse 4 scans bar codes of the semi-finished products, then the semi-finished products are distributed to designated warehouse positions of the semi-finished product warehouse 4 according to the distribution of an MES system and are recorded in the MES system, and when the semi-finished product warehouse 4 needs to be called, required semi-finished products are determined through information stored in the MES system and are taken out of the designated warehouse positions.

As a preferable design, in this embodiment, referring to fig. 1, the semi-finished product warehouse 4 includes a plurality of multi-layer semi-finished product shelves 4a and semi-finished product guide rail cars 4b disposed between the semi-finished product shelves 4a, the semi-finished product shelves 4a have a plurality of cargo spaces, the semi-finished product guide rail cars 4b are connected to the MES system, the semi-finished product guide rail cars 4b are movable along the shelves and have lifting cargo beds, and the semi-finished product guide rail cars 4b are used for delivering semi-finished products into specified cargo spaces or delivering semi-finished products in specified cargo spaces to delivery places of the semi-finished product warehouse 4, so that warehousing of the semi-finished products can be accurately completed through control of the MES system, and corresponding semi-finished products can be accurately extracted as required. After the semi-finished products in the semi-finished product warehouse 4 are delivered out of the warehouse, the semi-finished products are conveyed to the final assembly center 7 or the stranded wire welding center 6 through the semi-finished product delivery track 11 f. Referring to fig. 1 and 2, the semi-finished product warehouse 4 is located at different floors from the final assembly center 7 and the strand welding center 6, the transition is carried out by an elevator in the middle, the semi-finished products are conveyed to an elevator wharf through a semi-finished product warehouse-out rail 11f, are conveyed to the floors where the final assembly center 7 and the strand welding center 6 are located through the elevator, and then are conveyed by the semi-finished product warehouse-out rail 11f continuously.

The semi-finished product delivery track 11f extends from the delivery position of the semi-finished product warehouse 4 to form two branches, namely a semi-finished product delivery stranded wire branch 11h and a semi-finished product delivery general assembly branch 11i, referring to fig. 2, the semi-finished product delivery stranded wire branch 11h extends to the stranded wire welding center 6, the semi-finished product delivery general assembly branch 11i extends to the access general assembly input track 11j, and the semi-finished product delivery general assembly branch 11i can also be directly accessed to the general assembly transfer track 11l, so that a part of semi-finished products delivered from the semi-finished product warehouse 4 can be delivered to the stranded wire welding center 6, and a part of the semi-finished products can be directly delivered to the general assembly center 7.

When the semi-finished product warehouse 4 is located at different floors from the stranded wire welding center 6, referring to fig. 1 and 2, an elevator is arranged in the middle of the semi-finished product warehouse-out track 11f, the semi-finished products are conveyed to the elevator wharf 12 through the semi-finished product warehouse-out track 11f, conveyed to the floor where the stranded wire welding center 6 is located through the elevator, and conveyed through the semi-finished product warehouse-out track 11f continuously.

The semi-finished product warehousing track 11e and the semi-finished product delivery track 11f arranged at the semi-finished product warehouse 4 can be two completely separated tracks, the warehousing and delivery of the semi-finished products can be mutually independent at the moment, and can also be partially overlapped and shared, the overlapping and sharing of the tracks are adopted, the space and the track laying can be saved, and the warehousing and the delivery of the semi-finished products are separately carried out at the moment.

The stranded wire welding center 6, see fig. 2, the stranded wire welding center 6 includes a welding area and a stranded wire area, and for the semi-finished product delivered from the semi-finished product ex-warehouse stranded wire branch line 11h, an operator takes the corresponding semi-finished product to the corresponding workbench according to the task to perform the treatments of stranded wire, welding, thermal shrinkage, rubber coating and the like, and the specific production content of the stranded wire welding center 6 can be the existing wire harness processing work content. In actual production, the semi-finished products are stranded in a stranding area, then most of the semi-finished products are conveyed to the assembly center 7 area through an assembly input rail 11j with one end arranged at the stranding welding center 6, and part of the semi-finished products (such as stranding welding wires and the like) are transferred to a welding area for welding production and then are distributed to the assembly center 7 area through the assembly input rail 11 j. The wire bonding center 6 may be a wire bonding center 6 of an existing wire harness workshop.

The semi-finished products processed by the stranded wire welding center 6 need to change a new number to correspond to the information of the semi-finished products, so that bar codes for the information and the number of the semi-finished products are printed by a bar code printer positioned at the stranded wire welding center 6 and are attached to the semi-finished products, and the bar code information can also comprise order numbers distributed to the stranded wire welding center 6 by an MES system; and scanning the bar code on the semi-finished product through a code scanner, inputting the bar code into an MES system, and recording and subsequently guiding production. Preferably, the semi-finished product can be stored and distributed through a physical box, and the bar code can be attached to the physical box.

The path setting of the assembly input track 11j is determined according to the layout of the stranded wire welding center 6 and the assembly center 7 in the workshop. As a preferable design, the assembly input rail 11j is also arranged in the air, and the wire twisting welding center 6 is provided with a reciprocating type lifter (not shown in the drawing) for lifting the semi-finished product processed by the wire twisting welding center 6 into the assembly input rail 11 j. Realize the layered transportation of raw materials and semi-finished products.

Preferably, a semi-finished product sorting area (not marked in the drawing) is further arranged at the stranded wire welding center 6, the semi-finished products processed by the stranded wire welding center 6 are sent to the semi-finished product sorting area, and the semi-finished products are sorted by the semi-finished product sorting area through data of an MES system and then are distributed to the assembly center 7 through an assembly input rail 11 j. Sorting between semi-manufactured goods is realized changing from manual sorting to automatic sorting completely, and the sorting time is improved to synthesize 1 minute from 10 minutes at every turn and is accomplished, and sorts the accuracy and greatly improves, makes the disability rate because the letter sorting causes can improve 0.05% from 1%.

The accessory material stocker 10 stores accessory materials required for the wire harness production, including various types of externally purchased raw materials such as connectors, air bag lines, rubber pieces, etc., which are directly distributed to the final assembly center 7, see fig. 4. An auxiliary delivery track 11k is laid between the auxiliary material warehouse 10 and the assembly center 7, the auxiliary delivery track 11k is connected into the assembly transfer track 11l, and the auxiliary materials are delivered into the assembly transfer track 11l through the auxiliary delivery track 11k and delivered to each workbench of the assembly center 7.

The assembly center 7, see fig. 3, the assembly center 7 has a plurality of assembly work tables, each assembly work table is located on the assembly transfer track 11l, and after the semi-finished products and the auxiliary materials enter the assembly transfer track 11l, the semi-finished products and the auxiliary materials are conveyed to the assembly work tables. The production task of the final assembly workbench is distributed and controlled by an MES system, materials required by the production task of the final assembly workbench are determined by the MES system, workers obtain corresponding semi-finished products and auxiliary materials from a final assembly circulation track 11l according to bar code information on the semi-finished products and the auxiliary materials, a series of assembly work is carried out to obtain finished products, and the finished products all need a bar code to correspond to the information of the semi-finished products, so that bar codes of corresponding finished product information are printed by a bar code printer positioned on the final assembly workbench, are attached to the finished products, scan the bar codes on the finished products by a bar code scanner, are recorded in the MES system and are used for subsequent production guidance. The assembly center 7 can be an assembly center 7 of an existing wiring harness workshop, and the specific production work content can be the existing wiring harness processing work content.

The path of the assembly circulation track 11l is determined according to all the assembly workbenches of the assembly center 7, and the semi-finished products and the auxiliary materials can be distributed to all the assembly workbenches through all the assembly workbenches of the assembly center 7. The finished product warehousing rail 11m is connected to an outlet of the final assembly circulation rail 11l, so that the finished products are placed on the final assembly circulation rail 11l, conveyed to the finished product warehousing rail 11m, and finally delivered to the finished product warehouse 9.

As a preferable design, in this embodiment, the finished product warehousing rail 11m is also arranged in mid-air, and the final assembly center 7 is provided with a reciprocating elevator (not shown in the drawing) beside the final assembly workbench, and the reciprocating elevator is used for lifting the finished products from the workbench to the finished product warehousing rail 11 m.

As a preferred design, in this embodiment, referring to fig. 3, the harness workshop production system further includes a finished product sorting center 8, the finished product warehousing track 11m includes a finished product warehousing front-stage track extending from the final assembly center 7 to the finished product sorting center 8, and a finished product warehousing rear-stage track extending from the finished product sorting center 8 to the finished product warehouse 9, the finished product sorting center 8 is distributed by a manipulator, and the manipulator is connected to the MES system. The semi-finished products can be stored and distributed through the material box, and the bar codes can be attached to the physical box. Finished products enter a finished product sorting center 8 through a finished product warehousing front-stage track, the mechanical arm performs material box matching in different grades according to orders of customers in an MES system computer, finished product sorting is completely mechanized and automated, PE film winding is performed on the finished product material boxes through the mechanical arm, and the wound material boxes are conveyed through the mechanical arm. And then the mechanical arm distributes the sorted finished products to a finished product warehouse 9 for warehousing through a finished product warehousing back-end track. In the finished product sorting process, only manual background operation is needed in the middle, the requirements of customers are accurately input into an MES system, the finished product production completion condition of a workshop is timely tracked, and manual intervention is not needed.

And a finished product warehouse 9 for storing finished products, wherein, referring to fig. 4, at the warehouse of the finished product warehouse 9, bar codes of the finished products distributed from the finished product sorting center 8 are scanned, and then the bar codes are distributed to the positions of the finished product warehouse 9 and recorded in the MES system for subsequently calling the required finished products from the finished product warehouse 9.

As a preferable design, in this embodiment, referring to fig. 4, the finished product warehouse 9 includes a plurality of multi-layer finished product shelves having a plurality of product spaces, and a finished product guide rail car disposed between the finished product shelves, the finished product guide rail car being connected to the MES system, the finished product guide rail car being movable along the shelves and having a cargo bed with a lifting function, and the guide rail car being used for delivering the finished products into the designated product spaces or delivering the finished products in the designated product spaces to the delivery location of the finished product warehouse 9. According to the order requirement, the MES system controls the finished product guide rail vehicle to move and the transport platform of the finished product guide rail vehicle to lift, so that the transport platform is moved to a corresponding storage position, the finished product in the storage position is taken out and then transported to a delivery position, the finished product is directly transported to the transport vehicle in a fork truck mode and the like, and the finished product is sent to the client.

Fig. 1 to 4 show an approximate example of the production system of the wire harness workshop according to the present invention, but the production system of the present invention is not limited to the above example, and based on the principle of the present invention, each module area of the production system may have other reasonable layout.

The utility model also provides a production method in pencil workshop adopts foretell production system to go on, and the production task of cutting production center 3, stranded conductor welding center 6, assembly center 7 is distributed by the MES system, and pencil workshop production method includes following work:

s1, warehousing materials, which comprises the following contents:

s11, storing the lead material: at the warehousing position of the wire material warehouse 1, scanning the bar code of the wire material by using a code scanner, inputting the bar code information of the wire material into an MES system, and sending the wire material to the designated warehouse position of the wire material warehouse 1 according to the bar code information.

Specifically, when the production system in this embodiment is used, the wire material is unloaded from the unloading position, and then conveyed to the wire material warehousing position through the wire material warehousing rail, and passes through the electronic weighing platform, the wire material being warehoused is weighed and calculated, and is also entered into the MES system as parameter information of the wire material. After the bar codes of the wire materials are scanned by using a code scanner, the wire materials are placed on a transport platform of the wire guide rail vehicle 1b, and the MES system controls the movement of the wire guide rail vehicle 1b and the movement of the transport platform, so that the transport platform moves to a designated storage position, and the wire materials are delivered to the designated storage position.

S12, warehousing the terminal material: and scanning the bar code of the terminal material by using a bar code scanner at the warehousing position of the terminal material warehouse 2, inputting the bar code information of the terminal material into an MES system, and sending the terminal material to the designated warehouse position of the terminal material warehouse 2 according to the bar code information.

Specifically, when the production system in this embodiment is used, the terminal material is unloaded from the unloading position and then conveyed to the terminal material warehousing position through the terminal material warehousing rail. After the bar codes of the terminal materials are scanned by using a bar code scanner, the terminal materials are placed on a transport platform of the terminal guide rail vehicle 2b, and the MES system controls the movement of the terminal guide rail vehicle 2b and the movement of the transport platform, so that the transport platform moves to a specified storage position, and the lead materials are distributed to the specified storage position.

S13, warehousing of the die material: and scanning the bar code of the mold material by using a code scanning machine at the warehousing position of the mold material warehouse 5, inputting the bar code information of the mold material into an MES system, and conveying the mold material to the designated warehouse position of the mold material warehouse 5 according to the bar code information.

Specifically, in the production system in this embodiment, after the mold material is unloaded from the unloading position, the mold material is conveyed to the mold material storage position through the mold storage rail 11 g. After the bar codes of the die materials are scanned by using a code scanner, the die materials are placed on a transport platform of a die guide rail car, and an MES system controls the movement of the die guide rail car and the movement of the transport platform, so that the transport platform moves to a specified warehouse location, and the die materials are delivered to the specified warehouse location.

S2, discharging the materials, which comprises the following steps:

s21, discharging the lead material: the MES system calls corresponding wire materials from the specified positions of the wire material library 1 according to the wire materials required by the production tasks of the cutting workbench 3a and the stored bar code information of the wire materials, the wire materials are transferred to the AVG trolley 13b after being taken out of the library, and the MES system controls the AVG trolley 13b to convey the wire materials to the corresponding cutting workbench 3a in the cutting production center 3;

specifically, when the wire harness workshop production system in this embodiment is used, the MES system controls the movement of the wire guide trolley 1b and the movement of the transportation platform thereof until the transportation platform is located at a designated warehouse location according to the wire material required for the production task of the cutting table 3a and the stored bar code information of the wire material, and then takes out the wire material in the designated warehouse location to the ex-warehouse location.

S22, discharging the terminal material: the MES system calls corresponding terminal materials from the designated positions of the terminal material warehouse 2 according to the terminal materials required by the production tasks of the cutting working tables 3a and the stored bar code information of the terminal materials, the terminal materials are conveyed to the position near the cutting production center 3 through the terminal warehouse-out track 11a after being delivered out of the warehouse, then the terminal materials are transferred to the AVG trolley 13b, and the MES system controls the AVG trolley 13b to convey the terminal materials to the corresponding cutting working tables 3a in the cutting production center 3.

Specifically, when the wire harness workshop production system in this embodiment is used, the MES system controls the movement of the terminal guide rail car 2b and the movement of the cargo carrying platform thereof, so that the cargo carrying platform is located at the designated storage location, and then the corresponding terminal material in the designated storage location is taken out to the delivery location.

S23, unloading the die material: and (3) taking out the die materials, calling the corresponding die materials from the specified positions of the die material warehouse 5 by the MES system according to the die materials required by the production task of the cutting workbench 3a and the stored bar code information of the terminal materials, conveying the die materials to the vicinity of the cutting production center 3 through a die warehouse-out track 11b after the die materials are taken out of the warehouse, transferring the die materials to an AVG trolley 13b, and controlling the AVG trolley 13b by the MES system to distribute the die materials to the corresponding cutting workbench 3a in the cutting production center 3.

Specifically, when the wire harness workshop production system in the embodiment is adopted, the MES system controls the movement of the mold guide rail car and the movement of the transportation platform thereof, so that the transportation platform is located at the designated storage location, and then the corresponding mold material in the designated storage location is taken out to the ex-warehouse location.

S3, cutting production:

processing such as cutting the delivered wire material, terminal material and mould material at a cutting workbench 3a of a cutting production center 3 to obtain a semi-finished product, sticking a bar code corresponding to the information of the semi-finished product by using a bar code printer, scanning the bar code of the semi-finished product by using a bar code scanner, and recording the bar code into an MES system; placing the semi-finished products in a semi-finished product warehousing track 11e, and transporting the semi-finished products to a warehousing place of a semi-finished product warehouse 4 through the semi-finished product warehousing track 11 e;

specifically, when the production system in this embodiment is used, the semi-finished product is lifted to the semi-empty semi-finished product warehousing rail 11e by the reciprocating elevator 3b located at the cutting table 3a, the semi-finished product can be placed in the material box for conveying, and the label is attached to the material box.

After the AGV trolley becomes an empty trolley, which cutting workbench 3a is finished in production is calculated according to data in an MES system, the AVG trolley moves to the cutting workbench 3a, unused wire materials, terminal materials and mould materials are put into the AVG trolley, and the AVG trolley respectively conveys the unused wire materials, terminal materials and mould materials to corresponding storehouses and then warehouses.

S4, warehousing and ex-warehouse of semi-finished products:

s41, warehousing, scanning the bar codes of the semi-finished products through a code scanning machine at the warehousing position of the semi-finished product warehouse 4, and distributing the semi-finished products to the designated warehouse positions of the semi-finished product warehouse 4 according to the bar code information;

specifically, when the production system in this embodiment is adopted, after scanning the bar codes of the semi-finished products by using the code scanner at the semi-finished product warehousing location, the semi-finished products are placed on the transportation platform of the semi-finished product guide rail car 4b, and the MES system controls the movement of the semi-finished product guide rail car 4b and the movement of the transportation platform thereof, so that the transportation platform moves to the designated warehouse location, and the semi-finished products are delivered to the designated warehouse location.

And S42, taking out of a warehouse, taking the corresponding semi-finished products from the designated warehouse positions of the semi-finished product warehouse 4 by the MES according to the semi-finished products required by the production task of the workbench of the stranded wire welding center 6, the semi-finished products required by the production task of the general assembly workbench of the general assembly center 7 and the stored bar code information of the semi-finished products, delivering the semi-finished products required to be subjected to stranded wire welding to the stranded wire welding center 6 through the semi-finished product delivery track 11f after the semi-finished products are delivered out of the warehouse, and delivering the semi-finished products not required to be subjected to stranded wire welding to the general assembly input track 11j or the general assembly circulation track 11l through the semi-finished product delivery track 11.

Specifically, when the production system in this embodiment is adopted, the MES system controls the movement of the semi-finished product guide rail car 4b and the movement of the transportation table thereof according to the semi-finished product required for the production task of the workbench of the strand welding center 6, the semi-finished product required for the production task of the assembly workbench of the assembly center 7, and the stored bar code information of the semi-finished product, so that the transportation table moves to the designated storage location, and then takes out the corresponding semi-finished product in the designated storage location to the delivery location.

S5, welding a stranded wire: in the stranded wire welding center 6, the semi-finished product is subjected to processing treatment such as stranded wire and welding, a bar code corresponding to the processed semi-finished product is attached (namely, the bar code of the semi-finished product is updated after processing), the bar code of the semi-finished product is scanned by a code scanner and is recorded into an MES system; the semi-finished products are then transported to the final transfer track 11l through the final input track 11 j.

Specifically, when the wire harness workshop production system in this embodiment is used, the processed semi-finished product is lifted to the semi-empty final assembly input rail 11j by the reciprocating hoist located at the wire stranding center 6.

S6, final assembly and assembly:

the auxiliary material in the auxiliary material warehouse 10 is conveyed to the general assembly circulation track 11l through the auxiliary material warehouse-out track 11 k; an operator of the final assembly center 7 takes corresponding semi-finished products and auxiliary materials from the final assembly circulation track 11l to the final assembly workbench according to the requirements of the production task of the final assembly workbench and the bar code information of the semi-finished products, performs final assembly to obtain finished products, pastes bar codes corresponding to the finished products through a bar code printer, scans the bar codes of the finished products by using a bar code scanner, and inputs the bar codes into an MES system; finished products enter the finished product warehousing track 11m through the final assembly circulation track 11l and are conveyed to the finished product warehousing position 9. The distribution of the accessory material to the accessory material provided by the assembly center 7 is determined according to the production tasks assigned to the assembly workstation by the MES system.

Specifically, when the production system in this embodiment is used, the finished products are conveyed to the finished product sorting center 8 and then conveyed to the finished product warehouse 9. Finished products are placed in the material boxes to be conveyed, the finished products are conveyed through the finished product warehousing front-section rail conveying product sorting center, the MES system controls the mechanical arm to work at the finished product sorting center 8, the mechanical arm carries out material box distribution trays with different grades on the finished products according to orders of customers in the MES system computer, the finished products are sorted in a fully mechanized automation mode, the finished product material boxes are wound through PE films through the mechanical arm, and the wound material boxes are conveyed through the mechanical arm. And then the mechanical arm distributes the sorted finished products to a finished product warehouse 9 for warehousing through a finished product warehousing back-end track.

S7, warehousing and ex-warehouse of finished products:

scanning the bar code of the finished product by a bar code scanner at the warehousing position of the finished product warehouse 9, and sending the semi-finished product to the designated warehouse position of the finished product warehouse 9 according to the bar code information of the finished product in the MES system;

specifically, when the wire harness workshop production system in this embodiment is used, a barcode scanner is used to scan barcodes of finished products at a finished product warehouse entry, the finished products are placed on the transportation platforms of the finished product guide rail cars, and the MES system controls the finished product guide rail cars to move and the transportation platforms to move, so that the finished products are delivered to designated warehouse locations.

When the finished products need to be delivered from the warehouse, the MES system calls corresponding finished products from the designated warehouse positions according to the finished product warehouse 9 according to the distribution task, and delivers the products.

Therefore, the utility model provides a production system in pencil workshop has following advantage:

(1) all processing and assembling centers of a wire harness workshop are organically linked to form an intelligent whole, distribution through a transmission track system and an AVG conveying system 13, timely data entry of an information entry system and control of an MES system are realized, data among production systems are mutually shared, data are used to the maximum extent, a complete data chain is realized in production operation, required raw materials or semi-finished products can be accurately distributed according to requirements according to customer orders and production tasks of all processing and assembling centers, consumption of the raw materials is reduced, production efficiency is guaranteed, and production quality is guaranteed.

(2) All the machining and assembling centers are connected with the rail through the AVG system to finish conveying of products in all stages, conveying operation in the production process is automatically finished, only necessary manual operation is needed, manual operation is reduced to the maximum extent, non-value-added actions are reduced as far as possible, only value-added actions participated by manpower are reserved, and the manual production cost is saved.

(3) The transmission track system and the AVG conveying system 13 can be flexibly arranged, the transmission track system is used for conveying the raw material track and the track used for conveying the semi-finished products and the finished products in a layered mode, and utilization rate of a workshop is improved.

Adopt the utility model discloses a production method that pencil workshop production system goes on can provide production efficiency height effectively, and degree of automation is high, has guaranteed production quality.

To sum up, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (9)

1. The utility model provides a production system in pencil workshop, includes auxiliary material storehouse (10), wire material storehouse (1), terminal material storehouse (2), mould material storehouse (5), cutting production center (3), semi-manufactured goods storehouse (4), stranded conductor welding center (6), final assembly center (7) and finished product storehouse (9), cutting production center (3) include a plurality of cutting work platform (3a), its characterized in that: the system also comprises a transmission track system, an AVG conveying system (13), an information input system and an MES system;

the conveying track system comprises a terminal ex-warehouse track (11a), a mold ex-warehouse track (11b), a semi-finished product warehousing track (11e), a semi-finished product ex-warehouse track (11f), an auxiliary component ex-warehouse track (11k), a general assembly input track (11j), a general assembly circulation track (11l) and a finished product warehousing track (11m), wherein the terminal ex-warehouse track (11a) extends to be close to a cutting production center (3) from an ex-warehouse position of a terminal material warehouse (2), the mold ex-warehouse track (11b) extends to be close to the cutting production center (3) from an ex-warehouse position of a mold material warehouse (5), the semi-finished product warehousing track (11e) extends to be close to the warehousing position of a semi-finished product warehouse (4) from a cutting workbench (3a) of the cutting production center (3), the semi-finished product ex-warehouse track (11f) extends from an ex-warehouse position of the semi-finished product warehouse (4) and forms two branches, One branch to the stranded wire welding center (6) and the other branch are connected with a general assembly input track (11j) or a general assembly transfer track (11l), the general assembly input track (11j) extends from the stranded wire welding center (6) to be connected with the general assembly transfer track (11l), an auxiliary part ex-warehouse track (11k) extends from an auxiliary part material warehouse (10) to be connected with the general assembly transfer track (11l), the general assembly transfer track (11l) passes through all general assembly workbenches of the general assembly center (7), and the finished product warehousing track (11m) is connected with the general assembly transfer track (11l) and extends to a finished product warehouse (9) warehousing position;

the AVG conveying system (13) comprises a magnetic track (13a) and a plurality of AVG trolleys (13b), the magnetic track (13a) passes through a delivery position of the wire material warehouse (1), a terminal delivery track (11a), a mould delivery track (11b) and each cutting workbench (3a), and the AVG trolleys (13b) run along the magnetic track (13 a);

the information input system comprises a code scanning machine and a bar code printer, wherein the code scanning machine and the bar code printer are connected into an MES system, the code scanning machine is arranged at the warehousing position of a lead material warehouse (1), the warehousing position of a terminal material warehouse (2), the warehousing position of a die material warehouse (5), the warehousing position of a semi-finished product warehouse (4) and the warehousing position of a finished product warehouse (9), and the bar code printer and the code scanning machine are arranged at a cutting workbench (3a), a stranded wire welding center (6) workbench and a general assembly workbench of a general assembly center;

the MES system is connected with the AVG conveying system (13) and controls the movement of the AVG trolley (13b), and the MES system controls the production work of the cutting production center (3), the stranded wire welding center (6) and the final assembly center (7).

2. The production system according to claim 1, wherein: the wire material storehouse (1) includes wire goods shelves (1a) of a plurality of multilayers and sets up wire guide rail car (1b) between wire goods shelves (1a), wire goods shelves (1a) have a plurality of goods spaces, wire guide rail car (1b) links to each other with MES system, wire guide rail car (1b) can be followed goods shelves and removed and have raising and lowering functions's freight platform, wire guide rail car (1b) are arranged in transporting the wire material to appointed goods space or transporting out the wire material in the appointed goods space to wire material storehouse (1) delivery department.

3. The production system according to claim 1, wherein: the terminal material library (2) comprises a plurality of multilayer terminal shelves (2a) and terminal guide rail vehicles (2b) arranged between the terminal shelves (2a), wherein the terminal shelves (2a) are provided with a plurality of goods spaces, the terminal guide rail vehicles (2b) are connected with an MES system, the terminal guide rail vehicles (2b) can move along the shelves and are provided with goods carrying platforms with lifting functions, and the terminal guide rail vehicles (2b) are used for carrying terminal materials into specified goods spaces or carrying out the terminal materials in the specified goods spaces to the delivery places of the terminal material library (2).

4. The production system according to claim 1, wherein: the die material warehouse (5) comprises a plurality of multi-layer die goods shelves and die guide rail vehicles arranged between the die goods shelves, the die goods shelves are provided with a plurality of goods positions, the die guide rail vehicles are connected with an MES system, the die guide rail vehicles can move along the goods shelves and have a goods conveying platform with a lifting function, and the die guide rail vehicles are used for conveying die materials to appointed goods positions or conveying the die materials in the appointed goods positions out of the warehouse.

5. The production system according to claim 1, wherein: the semi-finished product warehousing track (11e) and the semi-finished product ex-warehousing track (11f) are arranged in the air, the cutting production center (3) comprises a reciprocating type elevator (3b) arranged on the cutting workbench (3a), and the reciprocating type elevator (3b) is used for lifting the semi-finished products from the cutting workbench (3a) to the semi-finished product warehousing track (11 e).

6. The production system according to claim 1, wherein: semi-manufactured goods storehouse (4) include semi-manufactured goods shelves (4a) of a plurality of multilayers and set up semi-manufactured goods guide rail car (4b) between semi-manufactured goods shelves (4a), semi-manufactured goods shelves (4a) have a plurality of goods positions, semi-manufactured goods guide rail car (4b) link to each other with MES system, semi-manufactured goods guide rail car (4b) can be followed the goods shelves and removed and have lift freight transportation platform, semi-manufactured goods guide rail car (4b) are arranged in transporting the semi-manufactured goods to appointed goods position, or will appoint the shipment department that semi-manufactured goods in the goods position transported semi-manufactured goods storehouse (4).

7. The production system according to claim 1, wherein: the finished product warehousing rail (11m) is arranged in the air, the final assembly center (7) comprises a reciprocating type elevator arranged beside the workbench, and the reciprocating type elevator is used for lifting the finished products from the workbench to the finished product warehousing rail (11 m).

8. The production system according to claim 1, wherein: the finished product warehousing system is characterized by further comprising a finished product sorting center (8), the finished product warehousing track (11m) comprises a finished product warehousing front-section track extending from the total assembly and circulation track (11l) to the finished product sorting center (8) and a finished product warehousing rear-section track extending from the finished product sorting center (8) to the finished product warehouse (9) warehousing position, the finished product sorting center (8) is distributed by a mechanical arm, and the mechanical arm is connected to the MES system.

9. The production system according to claim 1, wherein: finished product storehouse (9) include the finished product goods shelves of a plurality of multilayers and set up the finished product guide rail car between the finished product goods shelves, the finished product goods shelves have a plurality of goods spaces, finished product guide rail car links to each other with MES system, finished product guide rail car can follow the goods shelves and remove and have raising and lowering functions's freight platform, finished product guide rail car is arranged in delivering the finished product to appointed goods space or will appoint the finished product in the goods space to transport out to finished product storehouse (9) delivery department.

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