CN114022079A - Storage management method and system - Google Patents

Abstract

A method and a system for warehouse management belong to the technical field of warehouse management and comprise the following steps: the method comprises the following steps: acquiring position distribution information of each warehouse location of a warehouse; step two: acquiring a product warehousing list, and generating a product designation label according to verification data; step three: carrying out mapping relation processing on the specified label of the warehousing product and the position distribution information of each warehouse location; step four: acquiring a delivery list, and calculating an optimal picking path according to the product designated label, the position of the delivered product and the position distribution information of each storage position; step five: generating log data, comparing the log data with a safety preset value according to the product quantity of each warehouse location in the warehouse, and reminding a user of replenishing goods in time; the method and the system solve the problems that a large amount of labor cost needs to be invested, errors are easy to occur in management only by means of manual operation, and efficiency is low, and meanwhile the laziness of storage personnel for working experience is reduced.

Description

Storage management method and system

Technical Field

The invention belongs to the technical field of warehouse management, and particularly relates to a warehouse management method and system.

Background

The warehouse is also called a warehouse, is a building and a field for storing articles, and has the function of protecting the articles by the storage box; the term "storage" means storage for use, has a meaning of storage, and delivery for use, and is also referred to as storage when tangible articles are applied. The "warehousing" is the action of storing and storing the articles which are not used immediately by using the warehouse. In short, warehousing refers to the effective control of activities such as receiving and dispatching, balance and the like of warehoused goods.

Warehousing management is the management of warehouses and materials in the warehouses, and is the planning, organization, control and coordination process performed by warehousing institutions in order to fully utilize the owned warehousing resources to provide efficient warehousing services. The system aims to ensure the completeness and the damage of the stored goods for enterprises, ensure the normal operation of production and operation activities, classify and record the activity conditions of various goods on the basis, and express the conditions of the stored goods in the aspects of quantity and quality in a definite chart mode and the comprehensive management form of the conditions of the geographical position, the department, the order attribution, the storage dispersion degree and the like.

The traditional warehouse management mode is a mode of storing or picking goods by depending on manual memory, which causes a great amount of labor cost to be invested, and the problems of error and low efficiency are easy to occur when the management is carried out only by depending on the manual mode.

Disclosure of Invention

The present invention is directed to a method and system for warehouse management to solve the problems set forth in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

a method of warehouse management, comprising the steps of:

the method comprises the following steps: acquiring position distribution information of each warehouse location of a warehouse;

step two: acquiring a product warehousing list, and generating a product designation label according to verification data;

step three: carrying out mapping relation processing on the specified label of the warehousing product and the position distribution information of each warehouse location;

step four: when the products are delivered from the warehouse, a delivery list is obtained, the specified product specified labels are associated according to the delivery list, the positions of the current delivery products are obtained by combining the mapping relation, and the optimal picking path is calculated by combining the position distribution information of each warehouse position of the warehouse;

step five: and recording data information of the products received on the same day, generating log data, comparing the log data with a safety preset value according to the quantity of the products in each storage position of the warehouse, reminding a user of replenishing the products in time if the log data are lower than the safety preset value, and sending the product designated labels of the products to be replenished to a supplier for replenishing the products.

Preferably, the obtaining of the location distribution information of each library bit in the first step specifically includes the following contents:

1) firstly, acquiring the specific warehouse quantity and carrier information for storing commodities in the warehouse;

2) and secondly, different positions in each warehouse are used for storing the categories of the commodities and the specific information of the commodities.

Preferably, the verification data in step two includes the category of the commodity, the production lot of the commodity, and information of the supplier.

Preferably, the step four of obtaining the position of the current ex-warehouse product by combining the mapping relation comprises the following specific steps:

1) comparing the position distribution information of each library position acquired in the step one with the verification data in the step two to generate storage position information;

2) and generating a relationship set according to the storage position information and the goods information.

The utility model provides a warehouse management system, includes data collection station, and the electricity connect in data collection station's terminal equipment, still including locating separately the goods shelves of each position, the goods shelves possess a plurality of storage positions, and a plurality of storage positions correspond only label respectively, just all be provided with data collection station on a plurality of storage positions, terminal equipment includes hand-held type scanning device and backstage management device, hand-held type scanning device is used for acquireing current product warehouse exit/warehouse entry list, sends to backstage management device, backstage management device acquires the appointed label of product according to current product warehouse exit/warehouse entry list, combines the position distribution information of each position in warehouse to calculate the optimum route of picking up goods.

Preferably, the picking robot system further comprises a plurality of picking robots, the picking robots are respectively arranged at corresponding storage positions, and the picking robots are electrically connected to the background management device.

Compared with the prior art, the technical scheme has the following effects:

compared with the traditional warehouse management mode, the method solves the problems that a large amount of labor cost needs to be invested, and management is easy to cause errors and low efficiency only by means of manpower; the appointed label of specific through acquireing the product to and the specific information of parking position, combine the storage management system, avoid the manual work to go memory and accounting, the liberation labour improves the accuracy, simultaneously, calculates reasonable route of picking up goods through the storage management system, and the quantity of statistics business turn over product, reduces the problem of storage personnel to the laziness of working experience.

Drawings

FIG. 1 is a flow chart illustrating a warehouse management method according to the present invention;

FIG. 2 is a schematic diagram of a warehouse management system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below in detail and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments.

Example (b):

a method of managing a warehouse as shown in fig. 1, comprising the steps of:

step one S100: acquiring position distribution information of each warehouse location of a warehouse; the obtaining of the position distribution information of each library position specifically includes the following contents:

1) firstly, acquiring the specific warehouse quantity and carrier information for storing commodities in the warehouse;

2) secondly, different positions in each warehouse are used for storing the categories of the commodities and the specific information of the commodities;

step two S101: acquiring a product warehousing list, and generating a product designation label according to verification data;

the verification data comprises the category of the commodity, the production batch of the commodity and the information of a supplier; through typing in verification data, be convenient for master the detailed information of commodity in the warehouse management on the one hand, avoid the commodity to appear overdue or other problems, if: the supplier provides inferior products, realizes the traceable,

step three S102: carrying out mapping relation processing on the specified label of the warehousing product and the position distribution information of each warehouse location; in the embodiment, one product corresponds to one storage position, so that the quantity of the products entering and exiting the warehouse is convenient to count, and the products are prevented from being damaged due to stacking when the products are stored;

step four S103: when the products are delivered from the warehouse, a delivery list is obtained, the specified product specified labels are associated according to the delivery list, the positions of the current delivery products are obtained by combining the mapping relation, and the optimal picking path is calculated by combining the position distribution information of each warehouse position of the warehouse; the specific steps of obtaining the position of the current ex-warehouse product by combining the mapping relation are as follows:

1) comparing the position distribution information of each library position acquired in the step one with the verification data in the step two to generate storage position information;

2) generating a relationship set according to the storage position information and the goods information;

step five S104: and recording data information of the products received on the same day, generating log data, comparing the log data with a safety preset value according to the quantity of the products in each storage position of the warehouse, reminding a user of replenishing the products in time if the log data are lower than the safety preset value, and sending the product designated labels of the products to be replenished to a supplier for replenishing the products.

Compared with the traditional warehouse management mode, the method solves the problems that a large amount of labor cost needs to be invested, and management is easy to cause errors and low efficiency only by means of manpower; the specific label of the product is obtained, the specific information of the storage position is obtained, the warehousing management system is combined, manual memory and accounting are avoided, labor force is liberated, and accuracy is improved.

As shown in fig. 2, the warehouse management system includes a data collector 1, a terminal device 2 electrically connected to the data collector 1, and a shelf separately disposed at each warehouse location, where the shelf has a plurality of storage locations, the storage locations respectively correspond to unique tags, and the storage locations are all provided with the data collector 1, the terminal device 2 includes a handheld scanning device 3 and a background management device 4, the handheld scanning device 3 is configured to obtain a current product warehouse-out/warehousing list and send the current product warehouse-in/warehousing list to the background management device 4, the background management device 4 obtains a product designation tag according to the current product warehouse-out/warehousing list, and calculates an optimal picking path by combining location distribution information of each warehouse location.

In this embodiment, the system further includes a plurality of picking robots 5, the picking robots 5 are respectively disposed at corresponding storage locations, and the picking robots 5 are electrically connected to the background management device 4.

In the description of the present invention, it is to be understood that the terms "center", "lateral", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified. Furthermore, the term "comprises" and any variations thereof is intended to cover non-exclusive inclusions.

The present invention has been described in terms of embodiments, and several variations and modifications can be made to the device without departing from the principles of the present invention. It should be noted that all the technical solutions obtained by means of equivalent substitution or equivalent transformation, etc., fall within the protection scope of the present invention.

Claims (6)

1. A method of managing a warehouse, comprising: the method comprises the following steps:

the method comprises the following steps: acquiring position distribution information of each warehouse location of a warehouse;

step two: acquiring a product warehousing list, and generating a product designation label according to verification data;

step three: carrying out mapping relation processing on the specified label of the warehousing product and the position distribution information of each warehouse location;

step four: when the products are delivered from the warehouse, a delivery list is obtained, the specified product specified labels are associated according to the delivery list, the positions of the current delivery products are obtained by combining the mapping relation, and the optimal picking path is calculated by combining the position distribution information of each warehouse position of the warehouse;

step five: and recording data information of the products received on the same day, generating log data, comparing the log data with a safety preset value according to the quantity of the products in each storage position of the warehouse, reminding a user of replenishing the products in time if the log data are lower than the safety preset value, and sending the product designated labels of the products to be replenished to a supplier for replenishing the products.

2. A method of warehouse management as claimed in claim 1, wherein: the obtaining of the position distribution information of each library position in the first step specifically includes the following contents:

1) firstly, acquiring the specific warehouse quantity and carrier information for storing commodities in the warehouse;

2) and secondly, different positions in each warehouse are used for storing the categories of the commodities and the specific information of the commodities.

3. A method of warehouse management as claimed in claim 1 or 2, wherein: and the verification data in the second step comprises the category of the commodity, the production batch of the commodity and the information of a supplier.

4. A method of warehouse management as claimed in claim 3, wherein: the fourth step of obtaining the position of the current ex-warehouse product by combining the mapping relation comprises the following specific steps:

1) comparing the position distribution information of each library position acquired in the step one with the verification data in the step two to generate storage position information;

2) and generating a relationship set according to the storage position information and the goods information.

5. The utility model provides a warehouse management system, includes data collection station (1) to and the electricity connect in data collection station's (1) terminal equipment (2), its characterized in that: the goods shelf system is characterized by further comprising goods shelves which are respectively arranged at the warehouse positions, the goods shelves are provided with a plurality of storage positions, the storage positions correspond to unique labels respectively, data collectors (1) are arranged on the storage positions, the terminal equipment (2) comprises a handheld scanning device (3) and a background management device (4), the handheld scanning device (3) is used for obtaining current product warehouse-out/warehouse-in lists and sending the current product warehouse-out/warehouse-in lists to the background management device (4), the background management device (4) obtains product designated labels according to the current product warehouse-out/warehouse-in lists, and the optimal goods picking path is calculated by combining position distribution information of the warehouse positions.

6. The warehouse management system of claim 5, wherein: still include a plurality of platforms pick up goods robot (5), a plurality of platforms pick up goods robot (5) and locate corresponding each storehouse position respectively, and a plurality of platforms pick up goods robot (5) all electricity and connect in backstage management device (4).

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