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 object ex-warehouse, so as to solve the above-mentioned problem.
To solve the above problem, an embodiment of the present application provides an article warehouse-out management method, which at least includes the following steps:
acquiring object name and quantity information of the objects to be delivered out of the warehouse;
selecting N ex-warehouse positions in which the objects to be ex-warehouse are stored according to the object names and the quantity information, and carrying out position prompt on the N ex-warehouse positions;
when the object to be delivered is detected to be delivered, the number of the objects to be delivered in the package taken out from the delivery position is obtained according to the information code of the package containing the object to be delivered, and the residual capacity of the delivery position is updated according to the number of the objects;
and eliminating the corresponding position prompt of the warehouse-out position when detecting that the residual capacity of the warehouse-out position reaches a preset threshold value.
Further, the selecting N warehouse-out locations in which the objects to be warehoused are stored and performing location prompting on the N warehouse-out locations according to the object names and the quantity information includes:
determining each storage position in which the object to be delivered is stored according to the object name, selecting N storage positions from the storage positions from small to large according to the number information and the residual quality guarantee period of the object to be delivered stored in each storage position, marking the N storage positions as N delivery storage positions, and carrying out position prompt on the N delivery storage positions; wherein, the remaining shelf lives of the objects to be delivered stored in the same storage position are the same.
Further, the position prompt of the warehouse-out position comprises:
and sending a first control signal to the light-emitting device positioned at each warehouse-out position, and starting the light-emitting device to prompt the position of each warehouse-out position.
Further, the method also comprises the following steps: and adjusting and storing the position information of each warehouse position of the articles to be delivered on the shelf according to the delivery frequency of the articles to be delivered in a preset time period.
Further, the eliminating the corresponding position prompt of the warehouse-out position includes:
and sending a second control signal to the light-emitting device positioned at the corresponding warehouse-out position, and closing the corresponding light-emitting device at the warehouse-out position so as to eliminate the position prompt of the corresponding warehouse-out position.
Further, the method also comprises the following steps:
and eliminating the corresponding position prompt of the warehouse-out position when the residual capacity does not reach the preset threshold and a control instruction is received.
Further, an article warehouse-out management device is provided, which includes:
the information acquisition module is used for acquiring the object name and quantity information of the objects to be delivered out of the warehouse;
the position prompting module is used for selecting N warehouse-out positions in which the objects to be warehoused are stored according to the object names and the quantity information and carrying out position prompting on the N warehouse-out positions;
the information updating module is used for acquiring the number of the objects to be delivered from the packages taken out from the delivery warehouse location according to the information codes of the packages containing the objects to be delivered when the delivery of the objects to be delivered is detected, and updating the residual capacity of the delivery warehouse location according to the number of the objects;
and the prompt elimination module is used for eliminating the corresponding position prompt of the warehouse-out position when detecting that the residual capacity of the warehouse-out position reaches a preset threshold value.
Further, the position prompt module is specifically configured to:
determining each storage position in which the object to be delivered is stored according to the object name, selecting N storage positions from the storage positions from small to large according to the residual quality guarantee period of the object to be delivered stored in each storage position according to the quantity information, and marking the N storage positions as N delivery storage positions; wherein, the remaining shelf lives of the objects to be delivered stored in the same storage position are the same.
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 articles to be delivered on the goods shelf according to the delivery frequency of the articles to be delivered in a preset time period.
The embodiment of the application has the following beneficial effects:
compared with the prior art, the embodiment can automatically count the articles discharged from the warehouse, reduce the workload and avoid the counting error or the false touch of the light-emitting device caused by manual counting. In addition, by adopting the mode, even if the warehouse-out object is a small object such as an electronic element, the position prompt can be rapidly counted, so that the position prompt can be 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 warehouse-out management method according to an embodiment of the present application is shown, including:
in step S11, the object name and quantity information of the object to be delivered is obtained.
In this embodiment, the name and quantity information of the object is obtained by scanning the information code of the object to be delivered. Besides the name and quantity information of the objects to be delivered, the shelf life information, the production date information and the object size information of the objects to be delivered are obtained according to the information codes of the objects to be delivered and are related to the storage position information corresponding to the storage positions.
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.
Step S12, according to the name and quantity information of the objects, selecting N warehouse-out positions storing the objects to be warehouse-out and carrying out position prompt on the N warehouse-out positions.
Specifically, each storage position for storing the object to be delivered is determined according to the object name, N storage positions are selected from the storage positions from small to large according to the residual quality guarantee period of the object to be delivered stored in each storage position according to the quantity information, the N storage positions are marked as N delivery storage positions, and position prompt is carried out on the N delivery storage positions. Wherein, the remaining shelf lives of the objects to be delivered stored in the same storage position are the same.
In the embodiment, the articles with less remaining shelf life duration are preferentially selected for delivery, so that the articles can be fully utilized, and the risk of overdue articles is reduced.
In this embodiment, the minimum number of the bin is selected according to the number information for marking, and if only one bin is needed to meet the warehouse-out requirement, only the bin is marked as the warehouse-out bin.
By the method for selecting the storage positions, the storage resources can be prevented from being wasted, and the residual capacity of each storage position can be effectively utilized.
In this embodiment, the method for prompting the position of the warehouse-out location includes sending a first control signal to the light emitting device located at each warehouse-out location, and turning on the light emitting device to prompt the position of each warehouse-out location.
In this embodiment, after each warehouse-out location for executing warehouse-out of the object to be warehoused is determined, the LED display lamp corresponding to the warehouse location is turned on by sending the control signal, so as to perform location prompting, so that the manager can obtain the object from each warehouse-out location. The LED display lamps of each ex-warehouse position are sequentially turned on, namely, after the ex-warehouse of the object in one ex-warehouse position is finished, the LED display lamp of the next ex-warehouse position is turned on, so that a manager is prompted to continue to obtain the object from the ex-warehouse position where the LED display lamps are turned on.
By the method, the problem that the warehouse position cannot be clearly distinguished and selected due to too many warehouse position prompts when the objects are delivered out of the warehouse by a manager can be avoided, and the warehouse position is not selected yet, so that the delivery efficiency is improved.
Step S13, when detecting the delivery of the articles to be delivered, according to the information code of the parcel with the articles to be delivered, obtaining the number of the articles to be delivered in the parcel taken out from the delivery position, and updating the residual capacity of the delivery position according to the number of the articles.
In this embodiment, when it is detected that the information code of the ex-warehouse location with the location prompt is scanned, the ex-warehouse location is bound, and it is determined that the ex-warehouse location is to be ex-warehouse of the object to be ex-warehouse. When the information code of a package containing the articles to be delivered is scanned, the package is taken out from the delivery position of the scanned information code, and the number of the articles to be delivered in the package is acquired to update the residual capacity of the delivery position.
And S14, when the residual capacity of the warehouse-out position reaches the preset threshold value, eliminating the position prompt of the corresponding warehouse-out position.
Specifically, after the residual capacity reaches the preset threshold, a second control signal is sent to the light emitting device located at the corresponding warehouse-out position, and the light emitting device at the corresponding warehouse-out position is turned off, so that the position prompt of the corresponding warehouse-out position is eliminated.
In this embodiment, when the ex-warehouse location is selected, the corresponding number of ex-warehouse objects is automatically allocated to the ex-warehouse location. According to the number of the ex-warehouse objects and the initial residual capacity of the ex-warehouse positions, a preset threshold value can be automatically determined. If the number of the outbound objects allocated to the outbound library location is 20 and the initial capacity is 50, the preset threshold of the outbound library location is 30.
In this embodiment, the method further includes eliminating the position prompt of the corresponding ex-warehouse location when the remaining capacity does not reach the preset threshold and the control instruction is received.
In this embodiment, the position prompt may be automatically turned off according to the remaining capacity, and the LED display lamp may be manually turned off through a switch disposed on the LED display lamp or an intelligent terminal connected to the LED display lamp.
According to the embodiment, the automatic counting of the articles discharged from the warehouse is realized, so that the condition that counting errors or false touch of the light-emitting device caused by manual counting is avoided while the workload is reduced. In addition, by adopting the mode, even if the warehouse-out object is a small object such as an electronic element, the position prompt can be rapidly counted, so that the position prompt can be automatically eliminated, and the method has strong applicability.
Fig. 2 is a schematic flow chart of an article ex-warehouse 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 delivered according to the delivery frequency of the articles to be delivered in the preset time period.
In this embodiment, according to the historical warehouse-out data, for the object to be warehoused with high warehouse-out frequency, the object is allocated to a warehouse location which is easy to operate, such as a warehouse location in the middle of a shelf; for some items to be delivered with low delivery frequency, the items are allocated to storage positions which are not easy to operate, such as the upper or lower part of a shelf.
By the method, the ex-warehouse mode of the objects is more scientific, and the working efficiency is improved.
Further, referring to fig. 3, a schematic structural diagram of an article warehouse-out management device according to a third embodiment of the present application is shown. The method comprises the following steps:
the information obtaining module 101 is configured to obtain the name and quantity information of the object to be delivered.
In this embodiment, the name and quantity information of the object is obtained by scanning the information code of the object to be delivered. Besides the name and quantity information of the objects to be delivered, the shelf life information, the production date information and the object size information of the objects to be delivered are obtained according to the information codes of the objects to be delivered and are related to the storage position information corresponding to the storage positions.
And the position prompting module 102 is configured to select N ex-warehouse positions in which the objects to be ex-warehouse are stored according to the object name and quantity information, and perform position prompting on the N ex-warehouse positions.
In this embodiment, the location prompt module 102 is specifically configured to determine, according to the name of the object, each storage location in which the object to be delivered is stored, select, according to the quantity information, N storage locations from the plurality of storage locations from small to large according to the remaining quality guarantee period of the object to be delivered stored in each storage location, mark the N storage locations as N delivery storage locations, and perform location prompt on the N delivery storage locations. Wherein, the remaining shelf lives of the objects to be delivered stored in the same storage position are the same.
The information updating module 103 is configured to, when it is detected that the articles to be delivered are delivered, obtain the number of articles to be delivered in the packages taken out from the delivery location according to the information code of the package in which the articles to be delivered are loaded, and update the remaining capacity of the delivery location according to the number of articles.
In this embodiment, when it is detected that the information code of the ex-warehouse location with the location prompt is scanned, the ex-warehouse location is bound, and it is determined that the ex-warehouse location is to be ex-warehouse of the object to be ex-warehouse. When the information code of a package containing the articles to be delivered is scanned, the package is taken out from the delivery position of the scanned information code, and the number of the articles to be delivered in the package is acquired to update the residual capacity of the delivery position.
And the prompt eliminating module 104 is configured to eliminate the position prompt of the corresponding warehouse-out location when it is detected that the remaining capacity of the warehouse-out location reaches a preset threshold.
In this embodiment, the prompt eliminating module 104 is specifically configured to, after the remaining capacity reaches the preset threshold, send a second control signal to the light emitting device located at the corresponding ex-warehouse location, and close the light emitting device at the corresponding ex-warehouse location, so as to eliminate the position prompt of the corresponding ex-warehouse location.
In this embodiment, the prompt eliminating module 104 is further configured to eliminate the position prompt of the corresponding ex-warehouse location when the remaining capacity does not reach the preset threshold and the control instruction is received.
According to the embodiment, the automatic counting of the articles discharged from the warehouse is realized, so that the condition that counting errors or false touch of the light-emitting device caused by manual counting is avoided while the workload is reduced. In addition, by adopting the mode, even if the warehouse-out object is a small object such as an electronic element, the position prompt can be rapidly counted, so that the position prompt can be automatically eliminated, and the method has strong applicability.
Further, referring to fig. 4, a schematic structural diagram of an article warehouse-out management device according to a fourth embodiment of the present application is shown. In addition to the structure shown in fig. 3, the structure further includes:
the storage position adjusting module 105 is configured to adjust the position information of each storage position of the to-be-delivered items on the shelf according to the delivery frequency of the to-be-delivered items in a preset time period.
In the embodiment, the position information of each warehouse position of the articles to be delivered on the shelf is adjusted and stored according to the delivery frequency, so that the working strength of the management personnel during delivery of 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.