Disclosure of Invention
The technical problem to be solved by the embodiments of the present application is to provide a method and a device for managing storage of objects, so as to solve the above-mentioned problem.
In order to solve the above problem, an embodiment of the present application provides an article warehousing management method, which at least includes the following steps:
acquiring object name and quantity information of objects to be put in storage;
selecting N storage positions for storing the objects to be warehoused according to the object names and the quantity information, and carrying out position prompt on the N storage positions;
when the articles to be warehoused are detected to be warehoused, the number of the articles to be warehoused in the packages stored in the warehouse location is acquired according to the information code of the packages containing the articles to be warehoused, and the remaining capacity of the warehouse location is updated according to the number of the articles;
and eliminating the corresponding position prompt of the library position after detecting that the residual capacity reaches a preset threshold value.
Further, the method also comprises the following steps: and adjusting the position information of each warehouse position for storing the articles to be warehoused on the goods shelf according to the warehouse-out frequency of the articles to be warehoused in a preset time period.
Further, the method also comprises the following steps: and adjusting the position information of each storage position of the articles to be warehoused on the shelf according to the weight of the articles to be warehoused.
Further, the selecting N storage locations for storing the to-be-warehoused objects and performing position prompting on the N storage locations according to the object names and the quantity information includes:
and sending a first control signal to the light-emitting devices positioned at the N storage positions according to the object names and the quantity information, and starting the light-emitting devices of the N storage positions so as to prompt the positions of the N storage positions.
Further, after the remaining capacity reaches a preset threshold, eliminating the position prompt of the corresponding library position includes:
and after the residual capacity reaches a preset threshold value, sending a second control signal to the light-emitting device positioned at the corresponding storage position, and closing the light-emitting device of the corresponding storage position so as to eliminate the position prompt of the corresponding storage position.
Further, the method also comprises the following steps:
and eliminating the corresponding position prompt of the library position after the residual capacity does not reach the preset threshold value and a control instruction is received.
Further, the method also comprises the following steps:
and acquiring the shelf life information, the production date information and the object size information of the object to be warehoused according to the information code of the object to be warehoused, and associating the shelf life information, the production date information and the object size information to the warehouse location information corresponding to the warehouse location.
Further, there is provided an article warehousing management device, including:
the information acquisition module is used for acquiring the name and quantity information of the objects to be put in storage;
the first control module is used for selecting N storage positions for storing the objects to be warehoused according to the object names and the quantity information and carrying out position prompt on the N storage positions;
the information updating module is used for acquiring the number of the articles to be warehoused in the packages stored in the warehouse location according to the information codes of the packages containing the articles to be warehoused when the warehousing of the articles to be warehoused is detected, and updating the residual capacity of the warehouse location according to the number of the articles;
and the second control module is used for eliminating the corresponding position prompt of the library position after detecting that the residual capacity reaches a preset threshold value.
Further, the method also comprises the following steps:
and the storage position adjusting module is used for adjusting and storing the position information of each storage position of the to-be-stored objects on the goods shelf according to the ex-warehouse frequency of the to-be-stored objects in a preset time period.
Further, the second control module is further configured to:
and eliminating the corresponding position prompt of the library position after the residual capacity does not reach the preset threshold value and a control instruction is received.
The embodiment of the application has the following beneficial effects:
compared with the prior art, the embodiment automatically counts the warehousing objects, reduces the workload, and avoids the counting error or false touch of the light-emitting device caused by manual counting. By adopting the mode, even if the warehousing object is a small object such as an electronic element, the rapid counting can be still carried out, so that the position prompt is automatically eliminated, and the method has strong applicability.
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 flow chart of an article warehousing management method according to an embodiment of the present application includes:
step S11, the object name and quantity information of the object to be put in storage is obtained.
In this embodiment, the object name is obtained by scanning a barcode or a two-dimensional code on the object to be put in storage, and the quantity information is obtained from a storage list or is artificially determined. Besides the name and quantity information of the articles to be warehoused, the shelf life information, the production date information, the article size information and the weight information of the articles to be warehoused are obtained according to the information codes of the articles to be warehoused and are related to the warehouse location information corresponding to the warehouse location.
By the aid of the library position information corresponding to the library positions, various information of the object can be conveniently and quickly found through the library position information.
And step S12, selecting N storage positions for storing the objects to be warehoused according to the object name and quantity information, and carrying out position prompt on the N storage positions.
Specifically, according to the name and the quantity information of the object, a first control signal is sent to the light emitting devices located at the N storage positions, and the light emitting devices at the N storage positions are started to prompt the positions of the N storage positions.
In this embodiment, after N storage locations for storing articles to be warehoused are determined, the LED display lamps corresponding to the storage locations are turned on by sending control signals, so as to prompt a manager to place the articles to be warehoused in the N storage locations.
In this embodiment, the N library locations may be N library locations sequentially selected from small to large according to the remaining capacity of each library location according to the quantity information. If the number of the storage positions for storing the warehoused articles is determined to be 4, the residual capacities of the warehoused articles are 40, 70, 80 and 60 respectively, and the number of the articles to be warehoused is 100, two storage positions with the residual capacities of 40 and 60 are selected for storing the articles to be warehoused.
By the aid of the storage position selection method, storage resources can be prevented from being wasted, residual capacity of each storage position can be effectively utilized, and articles to be stored can be completely stored under the condition that the number of the articles to be stored is large.
Step S13, when the object to be warehoused is detected, the number of the objects to be warehoused in the package stored in the warehouse location is acquired according to the information code of the package containing the object to be warehoused.
In this embodiment, when it is detected that the information code of the library location where the location prompt exists is scanned, the library location is bound, and it is determined that the library location is to be warehoused with the object to be warehoused. When the information code of a package containing the articles to be warehoused is scanned, the package is considered to be put into the warehouse location of the scanned information code, and the number of the articles to be warehoused in the package is acquired so as to update the remaining capacity of the warehouse location.
And step S14, after detecting that the residual capacity reaches the preset threshold value, eliminating the position prompt of the corresponding library position.
Specifically, after the remaining capacity reaches the preset threshold, a second control signal is sent to the light emitting device located at the corresponding library position, and the light emitting device at the corresponding library position is turned off, so that the position prompt of the corresponding library position is eliminated.
In this embodiment, when the amount of remaining capacity is updated to 0, it indicates that the bin is saturated, and the LED display lamp of the bin is turned off. If the remaining capacity of the current storage location is 40, the number of the articles to be warehoused in each package is 20, when the first package is stored, the information code of the package is scanned to indicate that the number of the articles to be warehoused is 20 at this time, and therefore the remaining capacity of the current storage location is updated to be 20; when a second parcel is stored, the information code of the parcel is scanned to indicate that the number of the objects to be stored in the warehouse is 20 at this time, so that the residual capacity of the current warehouse location is updated to 0, and at the moment, the capacity of the current warehouse location is judged to reach a saturated state.
In this embodiment, the method further includes eliminating the position prompt of the corresponding bin after the remaining capacity does not reach the preset threshold and the control instruction is received.
Because the situation that the object to be warehoused cannot enable one of the N warehouse positions to be filled may exist, when the object to be warehoused cannot enable one of the N warehouse positions to be filled, the LED display lamp can be turned off manually through a switch arranged on the LED display lamp or an intelligent terminal connected with the LED display lamp.
In the embodiment, the warehousing objects are automatically counted, so that the condition of counting errors or mistakenly touching the light-emitting device due to manual counting is avoided while the workload is reduced. By adopting the mode, even if the warehousing object is a small object such as an electronic element, the rapid counting can be still carried out, so that the position prompt is automatically eliminated, and the method has strong applicability.
Fig. 2 is a schematic flow chart of an article warehousing management method according to a second embodiment of the present application. In addition to the steps shown in fig. 1, the method further comprises the following steps:
and step S15, adjusting the position information of each warehouse position on the shelf for storing the articles to be warehoused according to the warehouse-out frequency of the articles to be warehoused in the preset time period.
In the embodiment, according to the historical warehouse entry and exit data, for the articles to be warehoused with high warehouse entry and exit frequency, the articles are allocated to the warehouse location which is easy to operate, such as the warehouse location in the middle of the shelf; for some items to be warehoused with low warehousing frequency, the items are allocated to warehouse positions which are not easy to operate, such as the upper side or the lower side of a shelf.
By the method, the storage mode of the objects is more scientific, and the working efficiency is improved.
Further, refer to fig. 3, which is a schematic flow chart of an article warehousing management device according to a third embodiment of the present application. In addition to the steps shown in fig. 2, the method further comprises the following steps:
and step S16, adjusting the position information of each warehouse position on the shelf for storing the articles to be warehoused according to the weight of the articles to be warehoused.
In this embodiment, the bin allocation is based on the weight of the items, with heavier items being allocated to bins below the shelves and lighter items being allocated to bins above the shelves. The weight of the articles is measured according to the articles stored in the shelf and all kinds of articles to be put in storage, and the lighter the articles are, the lighter the articles are placed at the top of the shelf, and so on.
By the method, the working strength of the manager during warehousing the objects is greatly reduced, and the working efficiency is improved.
It should be noted that, if the position information of the warehouse location adjusted according to the warehouse-out frequency of the object to be warehoused within the preset time period conflicts with the position information of the warehouse location adjusted according to the weight of the object to be warehoused, the former is selected.
Further, refer to fig. 4, which is a schematic structural diagram of an article warehousing management device according to a fourth embodiment of the present application. The method comprises the following steps:
the information obtaining module 101 is configured to obtain object name and quantity information of the objects to be put into storage.
The first control module 102 is configured to select N library locations for storing the objects to be warehoused according to the object name and quantity information, and perform position prompt on the N library locations.
In this embodiment, the first control module 102 is specifically configured to send a first control signal to the light emitting devices located in the N library positions according to the object name and the quantity information, and turn on the light emitting devices of the N library positions to prompt the positions of the N library positions.
The information updating module 103 is configured to, when it is detected that the object to be warehoused is warehoused, obtain the number of the objects to be warehoused in the packages stored in the warehouse location according to the information code of the package containing the object to be warehoused, and update the remaining capacity of the warehouse location according to the number of the objects.
In this embodiment, the information updating module 103 is specifically configured to, when it is detected that an information code of a library location with a location prompt is scanned, bind the library location, and determine that an object to be warehoused is to be warehoused in the library location. When the information code of a package containing the articles to be warehoused is scanned, the package is considered to be put into the warehouse location of the scanned information code, and the number of the articles to be warehoused in the package is acquired so as to update the remaining capacity of the warehouse location.
And the second control module 104 is configured to eliminate the position prompt of the corresponding library location after detecting that the remaining capacity reaches the preset threshold.
In this embodiment, the second control module 104 is specifically configured to send a second control signal to the light emitting device located at the corresponding library position after the remaining capacity reaches the preset threshold, and close the light emitting device at the corresponding library position to eliminate the position indication of the corresponding library position.
In the embodiment, the warehousing objects are automatically counted, so that the condition of counting errors or mistakenly touching the light-emitting device due to manual counting is avoided while the workload is reduced. By adopting the mode, even if the warehousing object is a small object such as an electronic element, the rapid counting can be still carried out, so that the position prompt is automatically eliminated, and the method has strong applicability.
Further, refer to fig. 5, which is a schematic structural diagram of an article warehousing management device according to a fifth embodiment of the present application. In addition to the structure shown in fig. 4, the method further includes:
the storage position adjusting module 105 is configured to adjust position information of each storage position, on the shelf, storing the to-be-stored items according to the ex-warehouse frequency of the to-be-stored items within a preset time period.
In this embodiment, the storage position adjusting module 105 is further configured to adjust the position information of each storage position storing the items to be stored on the shelf according to the weight of the items to be stored.
It should be noted that, if the position information of the warehouse location adjusted according to the warehouse-out frequency of the object to be warehoused within the preset time period conflicts with the position information of the warehouse location adjusted according to the weight of the object to be warehoused, the former is selected.
In the embodiment, the warehousing objects are automatically counted, so that the condition of counting errors or mistakenly touching the light-emitting device due to manual counting is avoided while the workload is reduced. By adopting the mode, even if the warehousing object is a small object such as an electronic element, the rapid counting can be still carried out, so that the position prompt is automatically eliminated, and the method has strong applicability.
In addition, the position information of each warehouse position of the articles to be warehoused on the goods shelf is adjusted and stored according to the warehousing frequency and the weight of the articles, so that the working strength of managers during warehousing the articles is greatly reduced, and the working efficiency is improved.
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.
It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.