CN112101871A - Warehouse goods location management method and management system - Google Patents

Abstract

The application relates to a warehouse goods location management method and a management system, which comprises the steps of establishing a warehouse goods location map, and dividing a warehouse into a plurality of goods storage areas according to the goods location map; inputting information of goods needing to be put in and out of a warehouse; the storage area to which the goods are assigned is identified based on the input goods information. According to the method and the device, the goods bitmap is established, the corresponding storage area is established, and then the specific position of goods storage can be quickly found when the goods are put in and out of a warehouse, so that the time for putting the goods in and out of the warehouse is saved, and the efficiency for putting the goods in and out of the warehouse is improved.

Description

Warehouse goods location management method and management system

Technical Field

The application relates to the field of warehouse management, in particular to a warehouse goods location management method and a warehouse goods location management system.

Background

At present, ERP software manages warehouse goods positions in a grid list mode, goods warehousing information is recorded on a grid once when warehousing is performed, goods are placed in a warehouse, goods ex-warehouse information is recorded on the grid once when ex-warehouse information is performed, goods are found from the warehouse and are delivered, and in the whole warehousing and ex-warehouse process, specific positions of the goods positions where certain goods are located in the warehouse are not recorded, so that the specific goods positions are not clearly needed to be input and the goods are delivered from the specific goods positions when warehousing and ex-warehouse are handled each time, and blind searching is needed. In view of the above-mentioned related technologies, the inventor believes that there is a defect that it is time consuming to get goods out of the warehouse.

Disclosure of Invention

In order to save the time of goods entering and leaving the warehouse, the application provides a warehouse goods space management method and a warehouse goods space management system.

In a first aspect, the present application provides a warehouse goods space management method, which adopts the following technical scheme:

a warehouse goods space management method comprises the following steps:

establishing a warehouse goods bitmap, and dividing a warehouse into a plurality of goods storage areas according to the goods bitmap;

inputting information of goods needing to be put in and out of a warehouse;

the storage area to which the goods are assigned is identified based on the input goods information.

By adopting the technical scheme, the goods position map is established, the corresponding storage area is established for the goods, when the goods need to be delivered to and stored in the warehouse, the specific positions for storing the goods can be quickly found from the warehouse only by inputting the information of the goods, so that the time for finding the positions of the goods in the warehouse can be reduced, the time for delivering the goods to and stored in the warehouse is saved, and the efficiency for delivering the goods to and stored in the warehouse is improved.

Optionally, a color indication interval and a quantity indication interval are arranged in the storage area, the color indication interval is used for indicating the storage condition of the goods, and the quantity indication interval is used for displaying the specific quantity of the goods.

Through adopting above-mentioned technical scheme, instruct interval and quantity through setting up the colour and instruct the interval to whether have the goods to deposit and deposit concrete quantity in depositing the region and carry out visual display.

Optionally, when identifying the storage area of the warehoused goods, the method includes:

acquiring storage area positions corresponding to the same warehousing goods information displayed in the goods bitmap;

acquiring the color of a color indication interval corresponding to the storage area and warehousing the goods into the storage area when the acquired color is a goods-free storage color;

when the acquired color is the goods storage color, acquiring the number of goods in a quantity indication interval corresponding to the storage area, and warehousing the goods into the storage area when the acquired number of the goods is smaller than a preset goods number threshold;

and when the obtained goods number is larger than a preset goods number threshold value, establishing storage areas of the same goods to be warehoused in the areas adjacent to the storage areas in the goods bitmap, and warehousing the goods to the established storage areas.

By adopting the technical scheme, when goods are put in storage, the storage condition of the goods in the storage area is sequentially determined through color indication and quantity indication, and when the quantity of the goods put in storage exceeds a storage threshold value, the same storage area is established at the adjacent position of the storage area, so that the goods are put in storage conveniently, and the storage distance of the goods is shortened.

Optionally, when identifying the warehousing goods storage area, the method further includes:

and when the storage area corresponding to the same warehousing goods information is not acquired in the goods bitmap, establishing the storage area of the goods.

Through adopting above-mentioned technical scheme to increase the storage area to the goods.

Optionally, when the warehouse goods storage area is identified, the method includes:

acquiring storage area positions corresponding to the same goods information for delivery displayed in the goods bitmap;

when the number of the obtained storage areas with the same goods information for delivery is multiple, the number of the goods in the interval is indicated according to the number corresponding to each storage area, and the goods with the required number are delivered from the corresponding storage areas in sequence from small to large according to the number of the goods.

Through adopting above-mentioned technical scheme, when the goods is delivered from the warehouse, through the less goods of depositing the region of quantity of delivering from the warehouse earlier to make the goods more orderly in the depositing region, reduce every depositing the messy condition that the region all has the goods to reduce.

Optionally, the storage area includes a plurality of goods quality areas, when the goods are stored in the warehouse and the storage area position corresponding to the information of the stored goods is obtained, the areas corresponding to the quality are sequentially stored in the warehouse according to the quality of the goods, and when the goods are taken out of the warehouse and the storage area position corresponding to the information of the goods taken out of the warehouse, the goods with the quantity required by the normal quality in the plurality of goods quality areas are taken out of the warehouse.

Through adopting above-mentioned technical scheme, through setting up a plurality of goods quality regions to distinguish the quality of goods, so that guarantee the quality of shipment goods.

Optionally, the method further includes:

presetting goods quantity intervals and goods storage colors corresponding to each quantity interval;

when goods are delivered into and delivered out of the warehouse, after the quantity interval where the quantity of the goods in the corresponding storage area is located is changed, the color indication interval corresponding to the storage area is changed to the corresponding color for indication.

By adopting the technical scheme, when the goods are delivered from the warehouse or put in the warehouse and the quantity interval of the goods in the storage area is changed, the color indication interval can change the color so as to allow workers to visually know the quantity interval of the goods in the storage area.

In a second aspect, the present application provides a warehouse cargo space management system, which adopts the following technical scheme:

a warehouse cargo space management system comprising:

the modeling module is used for establishing a warehouse goods bitmap and dividing the warehouse into a plurality of goods storage areas according to the goods bitmap, and the storage areas are internally provided with color indication intervals used for indicating goods storage conditions and quantity indication intervals used for displaying specific quantities of goods.

The information input module is used for inputting information of goods needing to be put in and out of a warehouse;

and the area identification module is used for identifying the storage area to which the goods are distributed according to the input goods information.

Optionally, the method further includes:

the first warehousing acquisition module is used for acquiring the storage area position corresponding to the same warehousing goods information displayed in the goods bitmap when the warehousing goods storage area is identified;

the second warehousing acquisition module is used for acquiring the color of the color indication interval corresponding to the storage area and warehousing the goods into the storage area when the acquired color is the goods-free storage color;

the third warehousing acquisition module is used for acquiring the quantity of the goods in the quantity indication interval corresponding to the storage area when the acquired color is the goods storage color and warehousing the goods to the storage area when the acquired quantity of the goods is smaller than a preset goods quantity threshold value;

and the warehousing storage module is used for establishing a storage area for the same warehoused goods in an area adjacent to the storage area in the goods bitmap and warehousing the goods to the established storage area when the obtained goods number is greater than a preset goods number threshold value.

Optionally, the method further includes:

the warehouse-out information acquisition module is used for acquiring the storage area position corresponding to the same warehouse-out goods information displayed in the goods bitmap when the warehouse-out goods storage area is identified;

and the ex-warehouse module is used for sequentially ex-warehouse the required quantity of goods from the corresponding storage areas from small to large according to the quantity of the goods in the quantity indication interval corresponding to each storage area when the quantity of the storage areas of the same obtained ex-warehouse goods information is multiple.

In summary, the present application includes at least one of the following beneficial technical effects: by establishing the goods bitmap and establishing the corresponding storage area, the specific position for storing the goods can be quickly found when the goods are delivered to the warehouse, the time for delivering the goods to the warehouse is saved, and the efficiency for delivering the goods to the warehouse is improved.

Drawings

Fig. 1 is a first schematic diagram illustrating a warehouse cargo space management method according to an embodiment of the present application.

Fig. 2 is a schematic diagram illustrating a second principle of a warehouse cargo space management method according to an embodiment of the present application.

Fig. 3 is a schematic diagram illustrating a third principle of a warehouse cargo space management method according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a warehouse goods space management system according to an embodiment of the present application.

Description of reference numerals: 1. a modeling module; 2. an information input module; 3. a region identification module; 4. a first warehousing acquisition module; 5. a second warehousing acquisition module; 6. a third warehousing acquisition module; 7. a warehousing storage module; 8. a warehouse-out information acquisition module; 9. and a delivery module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-4 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses a warehouse goods position management method.

Referring to fig. 1, the warehouse cargo space management method includes the steps of:

step S100, establishing a warehouse goods bitmap, dividing the warehouse into a plurality of goods storage areas according to the goods bitmap, and setting a color indication interval and a quantity indication interval in each storage area, wherein the color indication interval is used for indicating the storage condition of goods, and the quantity indication interval is used for displaying the specific quantity of the goods.

Specifically, when a goods bitmap is established, the number of rows, the number of columns, the height of rows and the width of columns are set to determine the overall layout of the whole warehouse, specific storage areas are set in the goods bitmap according to the actual placement positions of goods in the goods bitmap, and each storage area is used for storing specific goods; two sections are arranged in each storage area, wherein one section is a color indication section, when no goods are stored in the storage area, the color indication section is bright green, and when goods are stored in the storage area, other colors are displayed; the other interval is a quantity indicating interval and is used for indicating the specific quantity of the goods stored in the storage area; in addition, in the whole goods position map, a temporary stacking area is also arranged for temporarily storing goods.

Referring to fig. 1, in step S200, information of goods to be delivered into and out of a warehouse is input.

Specifically, when goods are put in or taken out of a warehouse, the positions of the goods on a goods bitmap can be searched by inputting information such as code numbers and names of the goods; when people who go in and out of a warehouse forget or do not know any information of goods, the goods information can be input in a goods sample scanning mode, an image database of the goods in all storage areas in a goods bitmap is established, when the goods samples are scanned, the goods information is compared with goods images in the image database one by one from the beginning in the scanning process in a head-to-tail scanning mode, the goods information corresponding to different images of the goods samples is eliminated one by one, for example, a hexagon bolt is taken as an example, the hexagon pattern can be identified before the head-to-head scanning, the goods without hexagon can be directly eliminated, the goods without the same characteristics are directly eliminated in the scanning process, but the goods information is determined after the scanning is finished and the images are compared, so that the redundant goods information can be reduced in the scanning process, the recognition of the working personnel to the goods sample is increased, and then the working personnel can remember the goods to be delivered into and out of the warehouse in the scanning process, so that the recognition of the goods information is accelerated, and the goods can be delivered into and out of the warehouse conveniently.

Referring to fig. 1, in step S300, a storage area to which goods are allocated is identified according to the input goods information.

Specifically, after the information of the goods needing to be delivered to the warehouse is known in a mode of inputting information such as code numbers and names of the goods or a mode of scanning goods sample images, the goods information is identified to determine the area where the corresponding goods are stored after being delivered to the warehouse or the specific position where the goods needing to be delivered to the warehouse are located in the warehouse, so that the goods can be rapidly delivered to the warehouse and delivered from the warehouse, and the time for delivering the goods to the warehouse is saved.

When goods are delivered out of the warehouse, the position of the corresponding delivered goods in the goods bitmap can be clicked, and details of the delivered goods in the warehouse, such as information of code number, name, specification, quantity, quality and the like of the delivered goods, can be directly seen.

In addition, each storage area also comprises a plurality of goods quality areas such as certified products, waste products, unqualified products, products to be detected, returned products and the like, and each quality area displays different colors for distinguishing; when the goods are warehoused to obtain the storage area position corresponding to the information of the warehoused goods, the warehoused goods are sequentially stored in the areas corresponding to the quality according to the quality of the goods, and when the goods are warehoused to obtain the storage area position corresponding to the information of the goods being warehoused, the goods in the certified goods areas in the goods quality areas are delivered in the required quantity.

Referring to fig. 2, further, when identifying the storage area of the warehoused goods, the method for identifying the warehoused goods storage area includes the following steps:

and S400, acquiring the storage area position corresponding to the same warehousing goods information displayed in the goods bitmap.

Specifically, according to the goods information obtained through an input or scanning mode, the worker determines the storage area corresponding to the same goods information as the goods to be warehoused on the goods bitmap.

Referring to fig. 2, in step S410, the color of the color indication section corresponding to the storage area is obtained, and when the obtained color is the no-goods storage color, goods are put into the storage area.

Specifically, when the goods are transported to the determined storage area to be stored and warehoused, the color of the color indication section of the determined storage area is observed, when the color of the color indication section is displayed as green, the fact that no goods exist in the current storage area is indicated, and at the moment, the goods can be warehoused to the determined storage area.

Referring to fig. 2, in step S420, when the obtained color is the cargo storage color, the number of the cargos in the quantity indication section corresponding to the storage area is obtained, and when the obtained number of the cargos is smaller than the preset threshold value of the number of the cargos, the cargos are put into the storage area.

Specifically, when the color indication section of the storage area to be warehoused is displayed to be non-green, the corresponding goods are stored in the storage area, in order to avoid the situation that the warehoused goods exceed the upper limit of the storage area, the number of the goods in the storage area is known through the number indication section and is compared with a preset goods number threshold, the number threshold of the goods in the storage area is preferably 1000, and the goods are warehoused to the corresponding storage area only when the number of the goods in the storage area is smaller than 1000.

Referring to fig. 2, in step S430, when the obtained number of the goods is greater than the preset threshold value of the number of the goods, a storage area for the same goods to be warehoused is established in an area adjacent to the storage area in the goods bitmap, and the goods are warehoused in the established storage area.

Specifically, when the number of the goods in the storage areas is larger than 1000, the storage areas which are adjacent to the corresponding storage areas in the goods bitmap are established to be the same as the goods in the storage areas, so that the goods can be stored in the storage areas, meanwhile, the adjacent same storage areas are convenient to take when the goods in the storage areas are more and the goods need to be taken from the two storage areas, and in addition, when the goods are stored in the storage areas, when the goods stored in one storage area reach the upper limit, the redundant goods can be conveniently stored in the adjacent storage areas.

In addition, through the goods information obtained by inputting or scanning, when the worker does not obtain the storage area corresponding to the same warehousing goods information in the goods bitmap, the storage area of the goods is established in the goods bitmap.

Referring to fig. 3, further, for the delivery of goods, when identifying the delivery goods storage area, the method includes the following steps:

and S500, acquiring the storage area position corresponding to the same ex-warehouse goods information displayed in the goods bitmap.

Specifically, through the goods information obtained by the input or scanning mode, the staff determines the storage area corresponding to the goods information which is the same as the goods needing to be delivered from the warehouse on the goods bitmap.

Referring to fig. 3, in step S510, when the number of the storage areas of the same obtained shipment information is multiple, the required number of shipments are sequentially shipped from the corresponding storage areas from small to large according to the number of shipments in the quantity indication section corresponding to each storage area.

Specifically, when a plurality of storage areas for storing goods to be delivered out of the warehouse are arranged in the goods bitmap, the quantity of the goods stored in each storage area is determined according to the quantity indication interval of each storage area, the storage areas are sorted from small to large according to the stored quantity, and the goods in the storage areas are sequentially taken from small to large according to the sorting when the goods are delivered out of the warehouse.

Furthermore, in order to more visually represent the quantity change of the goods in the storage area, the goods quantity interval and the goods storage color corresponding to each quantity interval are also preset in the goods bitmap, and when the goods are delivered to the warehouse, the quantity interval where the quantity of the goods corresponding to the storage area is located is changed, and then the color indication interval corresponding to the storage area is changed to the corresponding color for indication.

Specifically, the cargo quantity interval may be an interval of 200 cargos, and a corresponding color is configured, for example, blue, that is, when there are between 1 and 200 cargos in the storage area, the color indication interval corresponding to the storage area is displayed as blue, when there are between 200 and 400 cargos in the storage area, the color indication interval is displayed as the remaining color, and when the cargo is taken out of or put in the warehouse and the quantity interval of the cargos in the storage area is changed, the color indication interval is changed in color, so that the worker can visually know the quantity interval of the cargos in the storage area.

The embodiment of the application also discloses a warehouse goods space management system.

Referring to fig. 4, the warehouse cargo space management system includes a modeling module 1, an information input module 2, and an area identification module 3; the modeling module 1 is used for establishing a warehouse goods bitmap and dividing the warehouse into a plurality of goods storage areas according to the goods bitmap, and the storage areas are internally provided with color indication intervals used for indicating goods storage conditions and quantity indication intervals used for displaying specific quantities of goods; the information input module 2 is used for inputting the information of the goods which need to be put in and out of the warehouse; the area identification module 3 is used for identifying the storage area to which the goods are distributed according to the input goods information.

Referring to fig. 4, further, when identifying the warehousing goods storage area, the warehousing system further includes a first warehousing acquisition module 4, a second warehousing acquisition module 5, a third warehousing acquisition module 6 and a warehousing storage module 7; the first warehousing acquisition module 4 is used for acquiring the storage area position corresponding to the same warehousing goods information displayed in the goods bitmap when identifying the warehousing goods storage area; the second warehousing acquisition module 5 is configured to acquire a color of the color indication section corresponding to the storage area and warehouse the goods into the storage area when the acquired color is a goods-free storage color; the third warehousing acquisition module 6 is configured to acquire the number of the goods in the quantity indication section corresponding to the storage area when the acquired color is the goods storage color, and warehouse the goods into the storage area when the acquired number of the goods is smaller than a preset goods number threshold; the warehousing storage module 7 is configured to establish a storage area for the same warehoused goods in an area adjacent to the storage area in the goods bitmap and warehouse the goods into the established storage area when the obtained number of the goods is greater than a preset goods number threshold.

Referring to fig. 4, further, when the storage area of the goods in and out of the warehouse is identified, the system further includes an out-warehouse information obtaining module 8 and an out-warehouse module 9; the ex-warehouse information acquisition module 8 is used for acquiring the storage area position corresponding to the same ex-warehouse cargo information displayed in the cargo bitmap when identifying the ex-warehouse cargo storage area; when the number of the storage areas of the same obtained shipment goods information is multiple, the shipment module 9 sequentially discharges the needed number of goods from the corresponding storage areas from small to large according to the number of the goods in the quantity indication interval corresponding to each storage area.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. A warehouse goods space management method is characterized in that: the method comprises the following steps:

establishing a warehouse goods bitmap, and dividing a warehouse into a plurality of goods storage areas according to the goods bitmap;

inputting information of goods needing to be put in and out of a warehouse;

the storage area to which the goods are assigned is identified based on the input goods information.

2. The warehouse cargo space management method of claim 1, wherein: the storage area is internally provided with a color indication interval and a quantity indication interval, the color indication interval is used for indicating the storage condition of the goods, and the quantity indication interval is used for displaying the specific quantity of the goods.

3. The warehouse cargo space management method of claim 2, wherein: when discerning warehouse entry goods storage area, include:

acquiring storage area positions corresponding to the same warehousing goods information displayed in the goods bitmap;

acquiring the color of a color indication interval corresponding to the storage area and warehousing the goods into the storage area when the acquired color is a goods-free storage color;

when the acquired color is the goods storage color, acquiring the number of goods in a quantity indication interval corresponding to the storage area, and warehousing the goods into the storage area when the acquired number of the goods is smaller than a preset goods number threshold;

and when the obtained goods number is larger than a preset goods number threshold value, establishing storage areas of the same goods to be warehoused in the areas adjacent to the storage areas in the goods bitmap, and warehousing the goods to the established storage areas.

4. The warehouse cargo space management method of claim 3, wherein: when discerning warehouse entry goods storage area, still include:

and when the storage area corresponding to the same warehousing goods information is not acquired in the goods bitmap, establishing the storage area of the goods.

5. The warehouse cargo space management method of claim 3, wherein: when discerning the goods in storage area of storehouse, include:

acquiring storage area positions corresponding to the same goods information for delivery displayed in the goods bitmap;

when the number of the obtained storage areas with the same goods information for delivery is multiple, the number of the goods in the interval is indicated according to the number corresponding to each storage area, and the goods with the required number are delivered from the corresponding storage areas in sequence from small to large according to the number of the goods.

6. The warehouse cargo space management method of claim 5, wherein: the storage area comprises a plurality of goods quality areas, when the goods are stored in the warehouse and the position of the storage area corresponding to the information of the goods stored in the warehouse is obtained, the goods stored in the warehouse are sequentially stored in the areas corresponding to the quality according to the quality of the goods, and when the goods are taken out of the warehouse and the position of the storage area corresponding to the information of the goods taken out of the warehouse, the goods with the quantity required by the normal quality in the goods quality areas are taken out of the warehouse.

7. The warehouse cargo space management method of claim 5, wherein: further comprising:

presetting goods quantity intervals and goods storage colors corresponding to each quantity interval;

when goods are delivered into and delivered out of the warehouse, after the quantity interval where the quantity of the goods in the corresponding storage area is located is changed, the color indication interval corresponding to the storage area is changed to the corresponding color for indication.

8. The utility model provides a warehouse goods position management system which characterized in that: the method comprises the following steps:

the system comprises a modeling module (1) and a storage module, wherein the modeling module is used for establishing a warehouse goods bitmap and dividing a warehouse into a plurality of goods storage areas according to the goods bitmap, and the storage areas are internally provided with color indication intervals used for indicating goods storage conditions and quantity indication intervals used for displaying specific quantities of goods;

the information input module (2) is used for inputting the information of the goods which need to be put in and out of a warehouse;

and the area identification module (3) is used for identifying the storage area to which the goods are distributed according to the input goods information.

9. The warehouse cargo space management system of claim 8, wherein: further comprising:

the first warehousing acquisition module (4) is used for acquiring the storage area position corresponding to the same warehousing goods information displayed in the goods bitmap when the warehousing goods storage area is identified;

the second warehousing acquisition module (5) is used for acquiring the color of the color indication section corresponding to the storage area and warehousing the goods into the storage area when the acquired color is the goods-free storage color;

the third warehousing acquisition module (6) is used for acquiring the quantity of the goods in the quantity indication section corresponding to the storage area when the acquired color is the goods storage color and warehousing the goods to the storage area when the acquired quantity of the goods is smaller than a preset goods quantity threshold value;

and the warehousing storage module (7) is used for establishing a storage area for the same warehoused goods in an area adjacent to the storage area in the goods bitmap and warehousing the goods to the established storage area when the obtained goods number is larger than a preset goods number threshold value.

10. The warehouse cargo space management system of claim 9, wherein: further comprising:

the ex-warehouse information acquisition module (8) is used for acquiring the storage area position corresponding to the same ex-warehouse cargo information displayed in the cargo bitmap when identifying the ex-warehouse cargo storage area;

and the ex-warehouse module (9) is used for indicating the quantity of the goods in the interval according to the quantity corresponding to each storage area when the quantity of the storage areas with the same obtained ex-warehouse goods information is multiple, and sequentially ex-warehouse the goods with the required quantity from the corresponding storage areas according to the quantity of the goods from small to large.

Images