CN117602254A - Furniture raw material vertical warehouse management system - Google Patents

Abstract

The invention discloses a furniture raw material vertical warehouse management system which comprises a raw material warehouse-in end, a raw material warehouse-out end, a base plate storage area and a stacker, wherein a raw material storage area, a raw material pre-sorting area and a portal frame area are sequentially arranged between the raw material warehouse-in end and the raw material warehouse-out end, a raw material warehouse-out channel is arranged between the portal frame area and the raw material storage area, a plurality of raw material storage warehouse positions are arranged on the raw material storage area, a plurality of raw material pre-sorting warehouse positions are arranged in the raw material pre-sorting area, a plurality of portal frame subareas are arranged in the portal frame area, a plurality of portal frame slow warehouse positions and a portal frame for running and warehouse-out raw materials placed on the portal frame slow warehouse positions are arranged in the portal frame subareas.

Description

Furniture raw material vertical warehouse management system

[ technical field ]

The invention relates to a furniture raw material vertical warehouse management system.

[ background Art ]

At present, raw materials of plate furniture manufacturing enterprises generally have the following specifications: 48 chi 2440 x 1220 x 920/1025mm (50 layers (18 mm)/40 layers (25 mm)), 49 chi 2745 x 1220 x 920/1025mm (50 layers (18 mm)/40 layers (25 mm)), 79 chi 2800 x 2080 x 6200 mm (30 layers (18 mm)/24 layers (25 mm)), and the plate is large and heavy and the quantity of depositing is numerous, therefore after the raw materials are deposited in the warehouse, there are the moving difficulty, the transportation degree of difficulty is big, be difficult to in time feed the cutting equipment and take up big scheduling problem of area to lead to production inefficiency. When the number of orders is increased, the problem of irregular management of raw materials is prominent, and transparent and efficient management is difficult to realize.

[ summary of the invention ]

The invention overcomes the defects of the prior art and provides a furniture raw material vertical warehouse management system.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a furniture raw material vertical warehouse management system is characterized in that: the system comprises a raw material entering end, a raw material exiting end, a base plate storage area and a stacker for moving and transferring raw materials and base plates between the raw material entering end and the raw material exiting end, wherein a raw material storage area, a raw material pre-sorting area and a portal frame area are sequentially arranged between the raw material entering end and the raw material exiting end, a raw material returning channel is arranged between the portal frame area and the raw material storage area, a plurality of raw material storage area are arranged on the raw material storage area, a plurality of raw material pre-sorting area is arranged in the raw material pre-sorting area, a plurality of portal frame partitions are arranged in the portal frame area, a plurality of portal frame buffer area are arranged in the portal frame partition, and a portal frame for moving and exiting raw materials placed on the portal frame buffer area.

The furniture raw material vertical warehouse management system is characterized in that: two portal frame partitions are arranged in the portal frame area, and two portal frame buffer storage positions are arranged in the portal frame partitions.

The furniture raw material vertical warehouse management system is characterized in that: when the raw materials arrive at the goods and the upper computer detects that the idle raw material storage warehouse positions are sufficient, the upper computer controls the stacker to convey the arriving raw materials to the idle raw material storage warehouse positions for storage according to the same batch and the same raw material standard; when the raw materials arrive at the goods and the upper computer detects that the space is left and the adjacent raw material storage warehouse is insufficient, the upper computer controls the stacker to operate the arriving raw materials to the adjacent raw material storage warehouse for mixed storage according to the same batch and different raw material standards; when the raw materials arrive and the upper computer detects that the raw material storage warehouse is insufficient, the upper computer controls the stacker to operate the arriving raw materials to the idle and adjacent raw material pre-sorting warehouse for storage according to the same batch and the same raw material standard.

The furniture raw material vertical warehouse management system is characterized in that: when the upper computer detects that the idle raw material pre-sorting bin is sufficient and the idle stacker exists, the upper computer controls the idle stacker to screen raw materials from the raw material storage bin according to the first-in first-out raw materials or the designated raw material batch preferentially according to the production task, and operates the screened raw materials to the adjacent raw material pre-sorting bin for storage; when the upper computer detects that the idle raw material pre-sorting bin positions are insufficient and the idle stacker exists, the upper computer controls the idle stacker to preferentially screen raw materials from the raw material storage bin positions according to the first-in first-out raw materials or the designated raw material batches according to the production tasks and operate the screened raw materials of the same production task to the raw material pre-sorting bin positions for mixed storage.

The furniture raw material vertical warehouse management system is characterized in that: the upper computer controls the idle stacker to screen raw materials from the raw material storage warehouse according to the raw material production sequence in the production task.

The furniture raw material vertical warehouse management system is characterized in that: when the upper computer has production tasks to be executed and detects that idle portal frame buffer storage positions exist, the upper computer preferentially controls the stacker to operate raw material pre-sorting storage position storage raw materials to the portal frame buffer storage positions for storage according to the production tasks.

The furniture raw material vertical warehouse management system is characterized in that: when the upper computer does not have a production task to be executed or detects that no idle portal frame buffer warehouse position exists, the upper computer sequentially and preferentially controls the raw material warehouse entry, the raw material warehouse exit and the raw material warehouse moving operation of the stacker.

The furniture raw material vertical warehouse management system is characterized in that: the upper computer preferentially controls the stacker to operate the raw material pre-sorting warehouse to the portal frame buffer warehouse for storage according to the raw material production sequence in the production task.

The furniture raw material vertical warehouse management system is characterized in that: and the upper computer controls the portal frame to operate the raw materials stored in the portal frame buffer storage position to the raw material outlet end material opening input channel according to the production task.

The furniture raw material vertical warehouse management system is characterized in that: and the upper computer controls the portal frame to operate the raw materials stored in the portal frame buffer storage position to the raw material outlet end feeding input channel according to the raw material production sequence in the production task.

The beneficial effects of the invention are as follows:

1. the invention is provided with a raw material warehouse-in end, a raw material storage area, a raw material pre-sorting area, a portal frame area and a raw material warehouse-out end, wherein a raw material warehouse-out channel is arranged between the portal frame area and the raw material storage area, and an upper computer can pre-operate production demand raw materials from the raw material storage area to the raw material pre-sorting area according to production tasks, so that feeding of a material opening device is facilitated in time, and production efficiency and device utilization rate are improved.

2. According to the invention, the arriving raw materials are preferentially operated to the idle and adjacent raw material storage positions according to the same batch and the same raw material standard after the raw materials arrive, meanwhile, the raw materials are preferentially screened from the raw material storage positions according to the first-in first-out or designated batch of the raw materials according to the production task, and the screened raw materials are operated to the adjacent raw material pre-sorting storage positions for storage, so that the raw materials are convenient to manage and rapidly operate and convey, the feeding of the material cutting equipment is also convenient in time, the production efficiency and the equipment utilization rate are improved, and the equipment waiting time is reduced.

3. According to the invention, a plurality of stackers which are connected with an upper computer and used for moving and transferring raw materials and backing plates among a raw material warehouse-in end, a raw material storage area, a raw material pre-sorting area and a portal frame area are arranged, and raw materials in the portal frame area are transferred to a portal frame of a raw material warehouse-out end material opening input channel, so that automatic execution of raw material warehouse-in, warehouse-out and inventory business is realized, and manual moving is not required.

[ description of the drawings ]

FIG. 1 is a schematic diagram of a system architecture of the present invention;

FIG. 2 is a system management flow chart of the present invention;

FIG. 3 is a flow chart of a method for controlling warehouse entry of raw materials after arrival;

FIG. 4 is a flow chart of a method for controlling pre-sorting of raw materials according to the present invention;

FIG. 5 is a flow chart of a method for controlling the dispatch of raw materials from a warehouse.

Detailed description of the preferred embodiments

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly. Furthermore, the description of "preferred," "less preferred," and the like, herein is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "preferred", "less preferred" may include at least one such feature, either explicitly or implicitly.

As shown in fig. 1, a furniture raw material vertical warehouse management system comprises a raw material warehouse-in end 1, a raw material warehouse-out end 2, a base plate storage area 3 and a stacker 4 for moving and transferring raw materials and base plates between the areas, wherein a raw material storage area 5, a raw material pre-sorting area 6 and a portal frame area 7 are sequentially arranged between the raw material warehouse-in end 1 and the raw material warehouse-out end 2, a raw material warehouse-out channel 8 is arranged between the portal frame area 7 and the raw material storage area 5, a plurality of raw material storage areas 51 are arranged on the raw material storage area 5, a plurality of raw material pre-sorting warehouse positions 61 are arranged in the raw material pre-sorting area 6, a plurality of portal frame partition areas 71 are arranged in the portal frame area 7, a plurality of portal frame buffer warehouse positions 711 and a portal frame 712 for running and warehouse-out raw materials placed on the portal frame buffer warehouse positions 711 are arranged in the portal frame area 71, the system further comprises a host computer 9 which controls the stacker 4 to operate the arriving raw materials of the raw material warehouse-in end 1 to the raw material storage warehouse position 51, controls the stacker 4 to operate the raw materials on the raw material storage warehouse position 51 to the raw material pre-sorting warehouse position 61 according to production tasks, controls the stacker 4 to operate the raw materials on the raw material pre-sorting warehouse position 61 to the portal frame buffer warehouse position 711 according to production tasks, controls the portal frame 712 to operate the raw materials on the portal frame buffer warehouse position 711 to the raw material warehouse-out end 2 to warehouse out according to production tasks, controls the stacker 4 to operate the residual raw materials on the portal frame buffer warehouse position 711 back to the raw material storage area 5 through the raw material warehouse-out channel 8 according to production tasks and controls the stacker 4 to take and put a backing plate in the backing plate storage area 3.

As shown in fig. 2, the plate raw material vertical warehouse management system flow comprises raw material arrival, warehouse position distribution, stacker scheduling, warehouse-out pre-sorting, stacker warehouse-out scheduling and residual material warehouse-out; specifically, after the plate raw materials arrive in the goods, the upper computer 9 distributes the storage positions according to the storage conditions of the raw material storage positions 51 in the raw material storage area 5, and controls the stacker 4 to operate the raw materials to be sent into the distribution storage positions; the upper computer 9 operates the production demand raw materials from the raw material storage bin position 51 in the raw material storage area 5 to the raw material pre-sorting bin position 61 of the raw material pre-sorting area 6 in advance according to the production task scheduling stacker 9; the upper computer 9 operates the raw materials on the raw material pre-sorting warehouse position 61 of the raw material pre-sorting area 6 to a portal frame buffer warehouse position 711 of the portal frame partition 71 according to the production task, so that the portal frame 712 operates the raw materials on the portal frame buffer warehouse position 711 to a raw material outlet end 2 for opening a material input channel; the upper computer 9 controls the stacker 4 to return the remaining raw materials on the gantry buffer storage position 711 to the raw material storage area 5. The automatic execution of raw material warehouse entry, warehouse exit and inventory business is realized, raw material management is facilitated, raw materials are enabled to be quickly operated and conveyed, feeding of the material cutting equipment is facilitated in time, production efficiency and equipment utilization rate are improved, and equipment waiting time is reduced.

As shown in fig. 3, when the raw materials need to be put in storage after being put in storage, the raw material storage locations 51 are preferentially allocated according to the batch and the raw material standard, and the raw materials with the same batch and standard are defaulted to be put on the adjacent raw material storage locations 51, so that the warehouse shifting operation when the raw materials are picked out of storage is reduced.

Specifically, when the raw materials arrive and the upper computer 9 detects that the idle raw material storage warehouse positions 51 are sufficient, the upper computer 9 controls the stacker 4 to operate the arriving raw materials to the idle raw material storage warehouse positions 51 for storage preferentially according to the same batch and the same raw material standard; when the raw materials arrive and the upper computer 9 detects that the raw materials are idle and the adjacent raw material storage warehouse positions 51 are insufficient, the upper computer 9 controls the stacker 4 to operate the arriving raw materials to the adjacent raw material storage warehouse positions 51 to mix and store the arriving raw materials preferentially according to the same batch and different raw material product regulations; when the raw materials arrive and the upper computer 9 detects that the raw material storage warehouse position 51 is insufficient, the upper computer 9 controls the stacker 4 to operate the arriving raw materials to the idle and adjacent raw material pre-sorting warehouse position 61 for storage preferentially according to the same batch and the same raw material standard.

As shown in fig. 4, according to the production task, when the stacker 4 is idle, the raw materials are screened out according to the set first-in first-out principle or the principle of designating batches, the raw materials conforming to the production task are placed on the raw material pre-sorting bin 61 in advance, and the raw materials according to the same delivery order are placed on the adjacent raw material pre-sorting bin 61 of the raw material pre-sorting area 6, so as to improve the operation speed of delivering the raw materials.

Specifically, when the upper computer 9 detects that the empty adjacent raw material pre-sorting bin 61 is sufficient and the empty stacker 4 exists, the upper computer 9 controls the empty stacker 4 to screen raw materials from the raw material storage bin 51 and operate the screened raw materials to the adjacent raw material pre-sorting bin 61 for storage according to first-in first-out raw materials or designated raw material batches preferentially according to production tasks; when the upper computer 9 detects that the empty adjacent raw material pre-sorting bin 61 is insufficient and the empty stacker 4 exists, the upper computer 9 controls the empty stacker 4 to screen raw materials from the raw material storage bin 51 preferentially according to the first-in first-out or designated raw material batches of the raw materials according to the production task and operates the screened raw materials of the same production task to the raw material pre-sorting bin 61 for mixed storage.

Further, when the raw materials are pre-sorted, the upper computer 9 controls the idle stacker 4 to screen the raw materials from the raw material storage warehouse 51 according to the raw material production sequence in the production task.

As shown in fig. 1, two gantry partitions 71 are arranged in the gantry region 7 near the raw material delivery end 2, and two gantry buffer storage positions 711 are arranged in the gantry partitions 71 for the gantry 712 to perform plate raw material sorting operation. Therefore, the stacker 4 needs to be scheduled, including raw material delivery, leaving and returning, transportation of the pallet, regular transportation, and the like.

On the other hand, when the stacker 4 is scheduled, the situation that the stacker 4 is busy and no plate raw material can be selected by the portal frame 712 needs to be avoided. For this reason, as shown in fig. 5, the allocation of the sorting tasks of the gantry 712 is prioritized when the raw material of the sorting boards of the gantry 712 is to be delivered. Specifically, when the upper computer 9 has a production task to be executed and detects that an idle portal frame buffer storage position 711 exists, the upper computer 9 preferentially generates a warehouse-out instruction, and preferentially controls the stacker 4 to operate the raw material pre-sorting storage position 61 to store raw materials on the portal frame buffer storage position 711 according to the production task; when the upper computer 9 has no production task to be executed or detects that no idle portal frame buffer warehouse position 711 exists, the upper computer 9 sequentially and preferentially controls the raw material warehouse-in, raw material warehouse-out and raw material warehouse-moving operation of the stacker 4.

Further, the upper computer 9 preferably controls the stacker 4 to operate the raw material pre-sorting bin 61 to the gantry buffer bin 711 for storage according to the raw material production sequence in the production task.

When the raw materials are discharged, the upper computer 9 controls the portal frame 712 to operate the raw materials stored in the portal frame buffer storage position 711 to the material discharging input channel of the raw material discharging end 2 according to production tasks.

Further, the upper computer 9 controls the gantry 712 to operate the raw materials stored in the gantry buffer storage position 711 to the raw material feeding input channel of the raw material delivery end 2 according to the raw material production sequence in the production task.

Such as: the first task performed by the first gantry 712 may require only one stack of material, occupying one gantry buffer pool position 711 of the first gantry 712, while the other gantry buffer pool position 711 is in an idle state. At this time, the upper computer 9 allocates the idle portal frame buffer storage position 711 to another task, so that the stacker 4 needs to send the raw materials of the two tasks to the portal frame buffer storage position 711 of the first portal frame 712, and the first portal frame 712 can pick the second task immediately after picking the first task; likewise, the second gantry 712; therefore, when the two portal frames work, the stacker 4 is controlled to execute other works such as warehousing, ex-warehouse, raw material warehouse-out, backing plate transportation and the like according to the state of the stacker 4. When detecting that a certain portal frame buffer storage position 711 has no raw materials, checking whether the raw materials are subjected to the warehouse-out task or not, and preferentially executing the raw material warehouse-out transportation operation; thereby improving the utilization rate of the equipment and reducing the waiting time of the equipment.

In this case, when the raw materials are stored on the raw material storage bin position 51 or the raw material pre-sorting bin position 61 for a long time, a base plate needs to be arranged on the top end cover of the raw materials, so that dust is prevented from falling onto the plate raw materials on the top layer; meanwhile, when the raw materials of the multi-layer plates are required to be stacked or mixed, the base plates are required to be covered and separated, so that the base plate storage area 3 is required to be arranged, and the stacker 4 is controlled to take and put the base plates according to the actual use requirement.

The upper computer of the system can also accept data docking with ERP and MES to acquire required in-warehouse and out-warehouse tasks, and generate corresponding control instructions of in-warehouse, out-warehouse, warehouse-moving, cushion plate conveying and the like according to the states of the tasks and the equipment to control related equipment to perform corresponding operations, so that automatic execution of raw material in-warehouse, out-warehouse and inventory business is realized, smooth operation of production is ensured, the working intensity of operators is reduced, human resource investment is reduced, and the working efficiency is effectively improved.

The foregoing description of the preferred embodiments of the present invention should not be construed as limiting the scope of the invention, but rather should be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the following description and drawings or any application directly or indirectly to other relevant art(s).

Claims (10)

1. A furniture raw material vertical warehouse management system is characterized in that: comprises a raw material warehouse-in end (1), a raw material warehouse-out end (2), a base plate storage area (3) and a stacker (4) for moving and transferring raw materials and base plates between the areas, wherein a raw material storage area (5), a raw material pre-sorting area (6) and a portal frame area (7) are sequentially arranged between the raw material warehouse-in end (1) and the raw material warehouse-out end (2), a raw material warehouse-out channel (8) is arranged between the portal frame area (7) and the raw material storage area (5), a plurality of raw material storage areas (51) are arranged on the raw material storage area (5), a plurality of raw material pre-sorting warehouse positions (61) are arranged in the raw material pre-sorting area (6), a plurality of portal frame partitions (71) are arranged in the portal frame area (7), the portal frame partition (71) is internally provided with a plurality of portal frame buffer storage positions (711) and a portal frame (712) for operating and delivering raw materials placed on the portal frame buffer storage positions (711), the system also comprises a control stacker (4) for operating the arriving raw materials of the raw material storage end (1) to the raw material storage position (51), a control stacker (4) for operating the raw materials on the raw material storage position (51) to the raw material pre-sorting position (61) according to production tasks, a control stacker (4) for operating the raw materials on the raw material pre-sorting position (61) to the portal frame buffer storage positions (711) according to the production tasks, a control system for controlling the stacker to operate the raw materials on the raw material pre-sorting position (61) to the raw material pre-sorting position (61), the method comprises the steps of controlling a portal frame (712) to operate raw materials on a portal frame buffer storage position (711) to a raw material delivery end (2) for delivery according to production tasks, controlling a stacker (4) to operate residual raw materials on the portal frame buffer storage position (711) to a raw material storage area (5) through a raw material delivery channel (8) according to production tasks, and controlling the stacker (4) to take and place an upper computer (9) of a base plate in a base plate storage area (3).

2. A furniture raw material warehouse management system as claimed in claim 1, wherein: two portal frame partitions (71) are arranged in the portal frame area (7), and two portal frame buffer storage positions (711) are arranged in the portal frame partitions (71).

3. A furniture raw material warehouse management system as claimed in claim 1, wherein:

when the raw materials arrive and the upper computer (9) detects that the idle raw material storage warehouse positions (51) are sufficient, the upper computer (9) controls the stacker (4) to operate the arriving raw materials to the idle raw material storage warehouse positions (51) for storage preferentially according to the same batch and the same raw material standard;

when the raw materials arrive and the upper computer (9) detects that the adjacent raw material storage warehouse positions (51) are not enough, the upper computer (9) controls the stacker (4) to operate the arriving raw materials to the adjacent raw material storage warehouse positions (51) to mix and store according to the same batch and different raw material standard preferentially;

when the raw materials arrive and the upper computer (9) detects that the raw material storage warehouse (51) is insufficient, the upper computer (9) controls the stacker (4) to operate the arriving raw materials to the idle and adjacent raw material pre-sorting warehouse (61) for storage according to the same batch and the same raw material standard preferentially.

4. A furniture raw material warehouse management system as claimed in claim 1, wherein:

when the upper computer (9) detects that the idle and adjacent raw material pre-sorting bin (61) is sufficient and the idle stacker (4) exists, the upper computer (9) controls the idle stacker (4) to screen raw materials from the raw material storage bin (51) and operate the screened raw materials to the adjacent raw material pre-sorting bin (61) for storage according to the first-in first-out or designated raw material batch of the raw materials preferentially;

when the upper computer (9) detects that the idle raw material pre-sorting bin (61) is insufficient and the idle stacker (4) exists, the upper computer (9) controls the idle stacker (4) to screen raw materials from the raw material storage bin (51) according to the first-in first-out or designated raw material batch of the raw materials preferentially according to the production task, and the screened raw materials of the same production task are operated on the raw material pre-sorting bin (61) to be mixed and stored.

5. A furniture raw material inventory management system according to claim 4, wherein: the upper computer (9) controls the idle stacker (4) to screen raw materials from the raw material storage warehouse (51) according to the raw material production sequence in the production task.

6. A furniture raw material warehouse management system as claimed in claim 1, wherein:

when the upper computer (9) has production tasks to be executed and detects that the idle portal frame buffer storage position (711) exists, the upper computer (9) preferentially controls the stacker (4) to operate the raw material pre-sorting storage position (61) to store raw materials on the portal frame buffer storage position (711) according to the production tasks.

7. A furniture raw material inventory management system according to claim 6, wherein: when the upper computer (9) has no production task to be executed or detects that no idle portal frame buffer warehouse (711) exists, the upper computer (9) sequentially and preferentially controls the raw material warehouse entering, raw material warehouse exiting and raw material warehouse moving operations of the stacker (4).

8. A furniture raw material inventory management system according to claim 6, wherein: the upper computer (9) controls the stacker (4) to operate the raw material pre-sorting storage position (61) to the portal frame buffer storage position (711) for storage according to the raw material production sequence in the production task.

9. A furniture raw material warehouse management system as claimed in claim 1, wherein: the upper computer (9) controls the portal frame (712) to operate the raw materials stored in the portal frame buffer storage position (711) to the material input channel of the raw material delivery end (2) according to the production task.

10. A furniture raw material inventory management system according to claim 9, wherein: the upper computer (9) controls the portal frame (712) to operate the raw materials stored in the portal frame buffer storage position (711) to the material input channel of the raw material delivery end (2) according to the raw material production sequence in the production task.