CN110647957A

CN110647957A - Object management device and system

Info

Publication number: CN110647957A
Application number: CN201910869822.6A
Authority: CN
Inventors: 王培学; 谢名优; 李广宾; 翁德裕; 黄晓佳; 王培玉
Original assignee: Shantou Dongfeng Printing Co Ltd
Current assignee: Shantou Dongfeng Printing Co Ltd
Priority date: 2019-09-12
Filing date: 2019-09-12
Publication date: 2020-01-03

Abstract

The application discloses an object management device, which comprises a controller, a memory, a code scanner and a plurality of library positions; each storage position is provided with at least one light-emitting device and at least one first information code; the controller is used for acquiring the object information of the object and starting the light-emitting device on the storage position corresponding to the object information according to the object information; the code scanner is used for scanning a second information code of a package which is taken out of or put into the storage position where the light-emitting device is started and is provided with an object, acquiring the number of the objects in the package and sending the number of the objects to the controller, so that the controller updates the residual capacity of the storage position according to the number of the objects; the controller is also used for closing the light-emitting device corresponding to the storage position when detecting that the residual capacity reaches a preset threshold value; the memory is used for storing the current inventory information of each inventory position. Compared with the prior art, the method and the device have the advantages that automatic counting can be carried out on the articles entering or leaving the warehouse, workload is reduced, and meanwhile counting errors or false touch of the light-emitting device caused by manual counting are avoided.

Description

Object management device and system

Technical Field

The application relates to the technical field of automatic logistics, in particular to an object management device and system.

Background

With the increasing of labor cost and the increasing of production cost, how to improve the working efficiency and reduce the labor cost is a key point of work of logistics enterprises. In order to solve the problems, a plurality of intelligent automatic devices are invented, like an intelligent warehouse system, a robot automatically carries out shelving work according to the warehouse position according to instructions, and the efficiency is high. However, the self-energy warehouse needs to invest a certain amount of money, especially for the first time, so that the self-energy warehouse is a great burden for many enterprises, has high requirements on fields and poor flexibility, is low in popularization and is used by only a few large enterprises; secondly, for some smaller articles and articles with complex types, a uniform packing box cannot be used for packing, or the required quantity is different when the articles are used every time, so that the conventional intelligent warehouse system cannot effectively manage the articles.

In order to solve the above problems, in the prior art, the electronic shelf label is usually used to manage the shelving of the objects, the server is used to input the name and quantity information of the objects for each electronic shelf label arranged on the storage location, when the objects are stored in or taken out of the storage, the server sends a control signal to the corresponding electronic shelf label to prompt the location, and the location prompt is eliminated after the storage is finished or the articles are taken out of the storage. By adopting the mode, the working efficiency can be improved, the labor cost can be reduced and the cost performance is higher while excessive expenses are not required to be invested. However, in this management method, the position prompt needs to be manually eliminated, that is, the articles leaving or entering the warehouse need to be counted manually, the automation degree is not high, and the situation of counting error or forgetting to turn off the electronic shelf label is also easy to occur in manual counting.

Disclosure of Invention

An object management apparatus is provided to solve the above problem.

To solve the above problem, an embodiment of the present invention provides an object management apparatus, including:

a controller, a memory, a code scanner, and a plurality of bin bits;

each storage position is provided with at least one light-emitting device and at least one first information code;

each light-emitting device is connected with the controller;

the controller is connected with the memory, and the memory is connected with the code scanner;

the controller is used for acquiring object information of an object and starting a light-emitting device on a storage position corresponding to the object information according to the object information;

the code scanner is used for scanning a second information code of a package which is taken out of or put into the storage position where the light-emitting device is started and is filled with the object, acquiring the number of the object in the package and sending the number of the object to the controller, so that the controller updates the residual capacity of the storage position according to the number of the object;

the controller is further used for turning off the light-emitting device corresponding to the storage position when the fact that the residual capacity reaches a preset threshold value is detected;

the memory is used for storing the current inventory information of each inventory position.

Further, the controller comprises a lamp controller and an instruction controller;

the output end of the lamp controller is connected with each light-emitting device, the input end of the instruction controller is connected with the output end of the memory, and the output end of the instruction controller is connected with the lamp controller.

Further, the object information includes name and quantity information of the objects put in storage, and the preset threshold includes a first preset threshold;

the instruction controller is used for acquiring the object names of the warehoused objects, starting the light-emitting devices on the warehouse positions corresponding to the object names of the warehoused objects through the lamp controller according to the object names of the warehoused objects, and closing the light-emitting devices of the corresponding warehouse positions when detecting that the residual capacity of the warehouse positions updated according to the number of the warehoused objects reaches the first preset threshold value so as to eliminate the position prompt of the corresponding warehouse positions.

Further, the object information includes object name and quantity information of the objects out of the warehouse, and the preset threshold includes a second preset threshold;

the instruction controller is used for acquiring the object names of the warehouse-out objects, turning on the light-emitting devices on the warehouse positions corresponding to the object names of the warehouse-out objects through the lamp controller according to the object names of the warehouse-out objects, and turning off the light-emitting devices of the corresponding warehouse positions when detecting that the residual capacity of the warehouse positions updated according to the number of the objects of the warehouse-out objects reaches the second preset threshold value, so as to eliminate the position prompt of the corresponding warehouse positions.

Further, the light emitting device includes a first light emitting element and a second light emitting element;

when the instruction controller detects that the inventory of the objects at any one of the storage positions in the memory is smaller than a first preset inventory, the first light-emitting element on the storage position with the inventory smaller than the first preset inventory is started through the lamp controller;

and when the object stock quantity of any one stock position in the memory is detected to be smaller than a second preset stock quantity, the second light-emitting element on the stock position with the object stock quantity smaller than the second preset stock quantity is started through the lamp controller.

Further, the first light emitting element is an LED display lamp emitting yellow light, and the second light emitting element is an LED display lamp emitting red light.

Further, the lamp controller is wirelessly connected with the instruction controller.

Furthermore, each storage position is respectively provided with a corresponding storage position information code.

Further, the sizes of the library positions in different areas are different from each other; and a plurality of the library positions positioned on the same row are in the same area.

The embodiment of the application has the following beneficial effects:

compared with the prior art, the embodiment can automatically count the articles entering or leaving the warehouse, and avoid counting errors or false touch of the light-emitting device caused by manual counting while reducing the workload.

Drawings

FIG. 1 is a schematic structural diagram of an object management device according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of an object management apparatus according to a second embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, a schematic structural diagram of an object management device according to an embodiment of the present application is shown, including:

a controller 1, a memory 2, a scanner 3, and a plurality of library bits 4.

Each of the library sites 4 is provided with at least one light emitting device 11 and at least one first information code 12, the first information code 12 being provided on the surface of the library site. Each light emitting device 11 is connected to the controller 1, the controller 1 is connected to the memory 2, and the memory 2 is connected to the scanner 3.

The controller 1 is configured to obtain object information of an object, and turn on the light emitting device 11 on the storage location corresponding to the object information according to the object information.

The code scanner 3 is used for scanning a second information code of a package with articles taken out of or put into the storage 4 where the light-emitting device is turned on, acquiring the number of the articles in the package, and sending the number to the controller 1, so that the controller 1 updates the residual capacity of the storage 4 according to the number of the articles.

The controller 1 is further configured to turn off the light emitting device 11 of the reservoir 4 upon detecting that the remaining capacity of the reservoir 4 reaches a preset threshold.

The memory 2 is used to store current inventory information for each of the inventory locations 4.

In this embodiment, when an object is put into the storage 4 where the light emitting device 11 is turned on, the scanner 3 first scans the first information code 12 of the storage 4. When the scanning of the first information code 12 of the storage position 4 for turning on the light emitting device 11 is detected, the storage position 4 is bound, and it is determined that the storage of the object is to be performed on the storage position 4. When the scanner 3 scans the second information code of a package containing an object to be stored in the warehouse, the package is considered to be placed into the warehouse 4 of the scanned first information code 12, and the number of the objects to be stored in the package is acquired, so that after the number of the current objects in the warehouse 4 is updated, whether the capacity of the warehouse 4 reaches a saturation state or not is judged according to the number of the current objects. When the number of the current objects is the same as the capacity value of the storage, the capacity of the storage is judged to reach a saturation state, and the light emitting device 11 of the storage 4 is turned off.

Similarly, a method of detecting the remaining capacity of the storage 4 when an article is taken out from the storage 4 where the light emitting device 11 is turned on can be known. In contrast, when the articles are taken out from the storage 4 where the light emitting devices 11 are turned on, if the number of the current articles in the storage 4 is reduced to the preset threshold, that is, when the articles taken out from the storage 4 meet the requirement, the light emitting devices 11 of the storage 4 are turned off.

Wherein the light emitting device 11 may be, but is not limited to, an LED lamp, and the scanner 3 may be, but is not limited to, a mobile scanner.

By the mode, the automatic counting of the articles in or out of the warehouse can be realized, and the condition that the light-emitting device is mistakenly touched or counted by mistake due to manual counting is avoided while the workload is reduced.

In this embodiment, each light emitting device is connected to the controller through an independent communication channel, and the light emitting devices are not connected to each other, so that interference between the light emitting devices is avoided, and the risk of signal mistransmission is reduced.

In this embodiment, when the scanner 3 scans the first information code 12, the information such as the name and the quality guarantee period of the object stored in the corresponding storage location 4 can be obtained, which greatly facilitates the checking of the inventory information.

In this embodiment, the sizes of the library sites 4 in different regions are different from each other, wherein the library sites 4 in the same row are in the same region.

By providing different sized regions, the device can accommodate a variety of different sized articles. Preferably, the warehouse position with the minimum size is positioned at the top of the device, the sizes of the objects are sequentially increased from top to bottom, and the warehouse position positioned at the bottom of the device has the maximum size, so that the working intensity of managers during warehousing or ex-warehouse of the objects is greatly reduced, and the working efficiency is improved.

Fig. 2 is a schematic structural diagram of an object management device according to a second embodiment of the present application. In the present embodiment, the controller 1 includes a lamp controller 21 and an instruction controller 22.

The output end of the lamp controller 21 is connected with each light emitting device 11, the input end of the instruction controller 22 is connected with the output end of the memory 2, and the output end of the instruction controller 22 is connected with the lamp controller 21.

The lamp controller 21 and the command controller 22 may be, but not limited to, connected wirelessly.

In this embodiment, when an article is put in or out of a warehouse, the article management device performs the following processes:

when the device is put in storage, the object information comprises the object name and the quantity information of the put-in objects. The preset threshold includes a first preset threshold. The instruction controller 22 is configured to obtain an object name of the warehousing object, turn on the light emitting device 11 on each warehouse location 3 corresponding to the object name of the warehousing object through the lamp controller 21 according to the object name of the warehousing object, and turn off the light emitting device 11 of the corresponding warehouse location 4 when detecting that the remaining capacity of the warehouse location 4 updated according to the number of the warehousing objects reaches a first preset threshold, so as to eliminate the position prompt of the corresponding warehouse location 4. In this embodiment, the first preset threshold may be manually set according to actual conditions, and preferably, the first preset threshold is 0.

When the device is taken out of the warehouse, the object information comprises the object name and the quantity information of the taken-out objects, and the preset threshold comprises a second preset threshold. The instruction controller 22 is configured to obtain the name of the outbound article, turn on the light emitting device 11 on each bin 3 corresponding to the name of the outbound article through the lamp controller 21 according to the name of the outbound article, and turn off the light emitting device 11 of the corresponding bin 4 when detecting that the remaining capacity of the bin 4 updated according to the number of the outbound articles reaches a second preset threshold, so as to eliminate the position indication of the corresponding bin 4. In this embodiment, the second preset threshold may be manually set according to actual conditions, and preferably, the second preset threshold is set as a maximum value of the number of the objects that can be stored in the storage space.

The objects are automatically counted when the objects are delivered from the warehouse and put in the warehouse, so that the automation of object management is realized, manual operation is not needed, and the delivery from the warehouse and the warehouse are more convenient and faster.

In the present embodiment, the light emitting device 11 includes a first light emitting element and a second light emitting element. When detecting that the inventory of the object at any position 3 in the memory 3 is smaller than a first preset inventory, the instruction controller 22 starts a first light-emitting element at the position 3 with the inventory smaller than the first preset inventory through the lamp controller 21; when detecting that the inventory of the object at any one of the locations 3 in the memory 3 is less than the second preset inventory, the lamp controller 21 turns on the second light emitting element at the location 3 where the inventory of the object is less than the second preset inventory.

In this embodiment, the first light emitting element is an LED display lamp emitting yellow light, and the second light emitting element is an LED display lamp emitting red light.

In this embodiment, the first preset inventory amount is the alarm inventory amount of the stock level, and the second preset inventory amount is the lowest inventory amount of the stock level. If the alarm stock quantity of the object in a certain stock position is 20 and the lowest stock quantity is 10, the first light-emitting element of the stock position is turned on when the number information of the object in the stock position is detected to be less than 20 and greater than 10, and the second light-emitting element of the stock position is turned on when the number information of the object in the stock position is detected to be less than 10, so that the stock position is not required to be checked manually, the condition of missed detection is reduced, management personnel can conveniently and quickly control the stock quantity, the replenishment can be carried out in time, and the subsequent object delivery is not influenced.

The foregoing is a preferred embodiment of the present application, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present application, and these modifications and decorations are also regarded as the protection scope of the present application.

Claims

1. An object management apparatus, comprising:

a controller, a memory, a code scanner, and a plurality of bin bits;

each light-emitting device is connected with the controller;

2. The article management apparatus according to claim 1, wherein the controller includes a lamp controller and an instruction controller;

3. The object management apparatus according to claim 2, wherein the object information includes object name and number information of the put-in objects, and the preset threshold includes a first preset threshold;

4. The object management apparatus according to claim 2, wherein the object information includes object name and number information of the outbound objects, and the preset threshold includes a second preset threshold;

5. The article management apparatus according to claim 2, wherein the light emitting device includes a first light emitting element and a second light emitting element;

6. The object management device of claim 5, wherein the first light emitting element is an LED display lamp emitting yellow light, and the second light emitting element is an LED display lamp emitting red light.

7. The article management apparatus of claim 2, wherein the light controller is wirelessly connected to the command controller.

8. The apparatus according to claim 1, wherein each of said storage locations has a corresponding storage location information code.

9. The apparatus according to claim 1, wherein the sizes of the slots in different regions are different from each other; and a plurality of the library positions positioned on the same row are in the same area.