CN112184105A - Storage material management method - Google Patents

Abstract

The invention discloses a storage material management method, which comprises the following steps: detecting materials to be stored in a warehouse, and inputting obtained detection data into a positioning sheet; and installing the positioning sheet with the input corresponding detection data outside the material, classifying the warehoused material by the server according to the material data, acquiring the vacant position coordinates from the database, placing the warehoused material on a weighing plate with the corresponding coordinates on a goods shelf, and completing warehousing. The invention relates to a material management method for storage, which comprises the steps that firstly, positioning pieces are arranged outside materials, and information such as weight, volume, packaging materials and the like of the stored materials can be acquired; secondly, the LED lamp and the buzzer are arranged inside the positioning sheet, so that the searching time and the searching accuracy of a user can be reduced; thirdly, through set up weighing plate on goods shelves, can in time acquire getting of each position material and put the condition, the convenience is compared with the access of material, improves the accuracy that the material was got and is put.

Description

Storage material management method

Technical Field

The invention relates to the technical field of material management, in particular to a storage material management method.

Background

The material management is a general term of a series of management activities such as planning, organization, control and the like, such as purchasing, acceptance, supply, storage, distribution, reasonable use, saving, comprehensive utilization and the like of various materials required by production and operation activities such as enterprises and the like;

at present, when the existing material management method is used, taking and placing information is mainly input to a server through manual work, then the server records taking and placing of materials, meanwhile, different materials have different characteristics, and therefore the server needs to occupy a large amount of storage space when recording the materials.

Disclosure of Invention

The invention mainly aims to provide a storage material management method which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

a method for managing storage materials comprises the following steps:

warehousing: detecting materials to be stored in a warehouse, and inputting obtained detection data into a positioning sheet;

installing a positioning sheet: installing the positioning sheet with the input corresponding detection data outside the material to obtain a warehousing material;

acquiring vacant positions: the server classifies the warehoused materials according to the material data and acquires vacant position coordinates from the database;

placing materials: putting the warehoused materials on a weighing plate with corresponding coordinates on a goods shelf, and completing warehousing;

and (4) shipment: inputting material data to be taken to a server, acquiring material position coordinates, and sending goods taking information to a specified positioning sheet;

taking out materials: the appointed locating plate sends a position signal, and after the material is taken out, the weighing plate sends feedback information to the server;

and (4) taking goods and confirming: and the server receives the feedback information and recovers the positioning sheet to finish the goods taking.

Preferably, during warehousing detection, the detection data comprise the weight, the volume, the packaging material, the name of the material and the density of the material to be detected.

Preferably, the positioning piece comprises a wireless transceiver, an LED lamp, a buzzer, a positioner, a timer and a secondary battery, and the secondary battery supplies power for the wireless transceiver, the LED lamp, the buzzer, the positioner and the timer.

Preferably, before the locating piece is installed, the material is packaged, the locating piece is installed outside the material package, the server sends a detection instruction to the locating piece, and the locating piece receives the detection instruction.

Preferably, the positioning sheet receives the detection instruction and includes the following three conditions:

(1) the positioning sheet receives the detection instruction and sends detection feedback to the server, the server receives the detection feedback, and the state conversion of the positioning sheet conforms to the detection instruction and sends qualified information;

(2) the positioning sheet receives the detection instruction and sends detection feedback to the server, the server receives the detection feedback, and the positioning sheet state conversion does not accord with the detection instruction and sends fault information;

(3) the server can not obtain the detection feedback and sends out fault information.

Preferably, the bearing plate comprises a support plate placed on the goods shelf, a pressure sensor installed between the bottom of the support plate and the goods shelf, and a main battery, wherein the main battery supplies power for the pressure sensor.

Preferably, the feedback information sent by the weighing plate comprises coordinates and pressure change values, and the feedback information sent by the weighing plate comprises the following two conditions:

i, when the coordinates in the feedback information are the same as the coordinates sent by the server, sending normal goods taking information;

and II, when the coordinates in the feedback information are different from the coordinates sent by the server, sending out abnormal goods taking information.

Preferably, the topogram is recovered and entered into the database.

Compared with the prior art, the invention has the following beneficial effects:

firstly, the positioning piece is arranged outside the material, so that the information such as the weight, the volume, the packaging material, the material name, the material density and the like of the stored material can be acquired;

secondly, the LED lamp and the buzzer are arranged inside the positioning sheet, so that the searching time and the searching accuracy of a user can be reduced;

thirdly, a timer is arranged in the positioning sheet, so that the material storage time can be recorded, and the storage condition of the material can be conveniently and timely known;

fourthly, the positioning sheet is detected before being used, so that the normal use of the positioning sheet can be ensured, and the error condition of the positioning sheet is reduced;

fifthly, the weighing plate is arranged on the goods shelf, so that the taking and placing conditions of the materials at all positions can be timely acquired, the materials can be conveniently stored and taken for comparison, and the accuracy of taking and placing the materials is improved.

Drawings

FIG. 1 is a block diagram illustrating a process of warehousing in a warehousing material management method according to the present invention;

fig. 2 is a block diagram illustrating a process of picking up a warehouse material management method according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 and 2, a method for managing storage materials includes the following steps:

warehousing: detecting materials needing to be stored in a warehouse, inputting obtained detection data into a positioning sheet, wherein the positioning sheet comprises a wireless transceiver, an LED lamp, a buzzer, a positioner, a timer and an auxiliary battery, the auxiliary battery supplies power for the wireless transceiver, the LED lamp, the buzzer, the positioner and the timer, and the detection data comprise the weight, the volume, the packaging material, the material name and the material density of the detected materials when the materials are detected in the warehouse;

installing a positioning sheet: the utility model discloses a material packing, including the locating piece, the locating piece is installed to the outside of material, obtains the warehouse entry material to the locating piece of typing corresponding detection data, before the locating piece installation, packs the material earlier, installs the outside of material packing with the locating piece to send the detection instruction to the locating piece by the server, the locating piece receives the detection instruction, includes following three kinds of condition when the locating piece receives the detection instruction:

(1) the positioning sheet receives the detection instruction and sends detection feedback to the server, the server receives the detection feedback, and the state conversion of the positioning sheet conforms to the detection instruction and sends qualified information;

(2) the positioning sheet receives the detection instruction and sends detection feedback to the server, the server receives the detection feedback, and the positioning sheet state conversion does not accord with the detection instruction and sends fault information;

(3) the server can not obtain the detection feedback and sends out fault information;

acquiring vacant positions: the server classifies the warehoused materials according to the material data and acquires vacant position coordinates from the database;

placing materials: putting the warehoused materials on a weighing plate with corresponding coordinates on a goods shelf to finish warehousing, wherein a bearing plate comprises a supporting plate arranged on the goods shelf, a pressure sensor arranged between the bottom of the supporting plate and the goods shelf and a main battery, and the main battery supplies power for the pressure sensor;

and (4) shipment: inputting material data to be taken to a server, acquiring material position coordinates, and sending goods taking information to a specified positioning sheet;

taking out materials: the appointed locating plate sends a position signal, and after the material is taken out, the weighing plate sends feedback information to the server;

and (4) taking goods and confirming: the server receives the feedback information and recovers the locating piece, goods taking is completed, the locating piece is recovered and then is input into the database, the feedback information sent by the weighing plate comprises coordinates and pressure change numerical values, and the feedback information sent by the weighing plate comprises the following two conditions:

i, when the coordinates in the feedback information are the same as the coordinates sent by the server, sending normal goods taking information;

and II, when the coordinates in the feedback information are different from the coordinates sent by the server, sending out abnormal goods taking information.

Warehousing: detecting materials to be stored in a warehouse, and inputting obtained detection data into a positioning sheet;

installing a positioning sheet: installing the positioning sheet with the input corresponding detection data outside the material to obtain a warehousing material;

acquiring vacant positions: the server classifies the warehoused materials according to the material data and acquires vacant position coordinates from the database;

placing materials: putting the warehoused materials on a weighing plate with corresponding coordinates on a goods shelf, and completing warehousing;

and (4) shipment: inputting material data to be taken to a server, acquiring material position coordinates, and sending goods taking information to a specified positioning sheet;

taking out materials: the appointed locating plate sends a position signal, and after the material is taken out, the weighing plate sends feedback information to the server;

and (4) taking goods and confirming: and the server receives the feedback information and recovers the positioning sheet to finish the goods taking.

When in stock, the characteristics of the materials are detected, the detected detection data are transmitted to the positioning sheet for storage, then the positioning sheet is arranged outside the material storage package to complete the packaging of the materials, then the characteristics of the materials are input into the server, the server arranges the materials into corresponding areas according to the characteristics of the materials, meanwhile, the vacant positions in the area of the material are displayed to the user, the user places the material on the goods shelf at the specified coordinate position according to the coordinates, and when the material is placed, the materials are required to be placed on the weighing plate, the pressure sensor at the bottom of the weighing plate senses the pressure and sends the pressure condition to the server, the server judges whether the materials are the specified materials according to the characteristics recorded before, when the material is the designated material, the pressure sensor detects the weight of the material in real time, and the material is put into a warehouse.

When the goods are taken, a user inputs the characteristics of the goods to be taken to the server, then the server extracts the goods with the corresponding characteristics, after the user selects the goods, the server displays the coordinates of the materials to the user, meanwhile, the goods taking information is sent to the corresponding positioning sheet, after the positioning sheet receives the goods taking information, the LED lamp in the positioning sheet is controlled to emit light, the buzzer emits sound, the user can conveniently find the goods according to the sound and the light, after the user takes down the materials, the pressure sensor sends the pressure change and the coordinate condition of the pressure sensor to the server, and then the server detects whether the goods are at the appointed goods taking position.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A storage material management method is characterized by comprising the following steps:

warehousing: detecting materials to be stored in a warehouse, and inputting obtained detection data into a positioning sheet;

installing a positioning sheet: installing the positioning sheet with the input corresponding detection data outside the material to obtain a warehousing material;

acquiring vacant positions: the server classifies the warehoused materials according to the material data and acquires vacant position coordinates from the database;

placing materials: putting the warehoused materials on a weighing plate with corresponding coordinates on a goods shelf, and completing warehousing;

and (4) shipment: inputting material data to be taken to a server, acquiring material position coordinates, and sending goods taking information to a specified positioning sheet;

taking out materials: the appointed locating plate sends a position signal, and after the material is taken out, the weighing plate sends feedback information to the server;

and (4) taking goods and confirming: and the server receives the feedback information and recovers the positioning sheet to finish the goods taking.

2. The warehouse material management method according to claim 1, wherein: when the materials are put into a warehouse for detection, the detection data comprise the weight, the volume, the packaging material, the name of the materials and the density of the materials.

3. The warehouse material management method according to claim 1, wherein: the locating piece comprises a wireless transceiver, an LED lamp, a buzzer, a locator, a timer and an auxiliary battery, wherein the auxiliary battery supplies power for the wireless transceiver, the LED lamp, the buzzer, the locator and the timer.

4. The warehouse material management method according to claim 1, wherein: before the locating piece is installed, the material is packaged, the locating piece is installed outside the material package, a detection instruction is sent to the locating piece by the server, and the locating piece receives the detection instruction.

5. The warehouse material management method according to claim 4, wherein: the following three conditions are included when the positioning sheet receives the detection instruction:

(1) the positioning sheet receives the detection instruction and sends detection feedback to the server, the server receives the detection feedback, and the state conversion of the positioning sheet conforms to the detection instruction and sends qualified information;

(2) the positioning sheet receives the detection instruction and sends detection feedback to the server, the server receives the detection feedback, and the positioning sheet state conversion does not accord with the detection instruction and sends fault information;

(3) the server can not obtain the detection feedback and sends out fault information.

6. The warehouse material management method according to claim 1, wherein: the bearing plate comprises a supporting plate placed on the goods shelf, a pressure sensor installed between the bottom of the supporting plate and the goods shelf and a main battery, and the main battery supplies power for the pressure sensor.

7. The warehouse material management method according to claim 1, wherein: the feedback information sent by the weighing plate comprises coordinates and pressure change values, and the feedback information sent by the weighing plate comprises the following two conditions:

i, when the coordinates in the feedback information are the same as the coordinates sent by the server, sending normal goods taking information;

and II, when the coordinates in the feedback information are different from the coordinates sent by the server, sending out abnormal goods taking information.

8. The warehouse material management method according to claim 1, wherein: and after the locating plate is recovered, recording the locating plate into a database.

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