CN113610461A - Method for confirming quantity of transported goods in lightweight automatic warehouse - Google Patents

Abstract

The application relates to a method for confirming the quantity of transported goods in light-weight automatic warehousing, which belongs to the technical field of logistics application, and is applied to a cloud platform connected with a plurality of processing modules, wherein each processing module corresponds to a unique logistics element and comprises the following steps: acquiring logistics element information and operation information; obtaining cargo information according to the operation information; sending the operation information to a processing module carried by the logistics elements; receiving information of transported goods sent by a processing module carried by logistics elements; and judging whether the transported goods information is matched with the goods information or not and outputting a judgment result. This application has realized the secondary affirmation to the goods, has guaranteed after with freight to the assigned position, to the reconfirmation of goods quantity, has guaranteed the accuracy of freight, has improved the work efficiency's of transportation work effect.

Description

Method for confirming quantity of transported goods in lightweight automatic warehouse

Technical Field

The application relates to the technical field of logistics application, in particular to a method for confirming the quantity of transported goods in a lightweight automatic warehouse.

Background

With the development of science and technology, the logistics industry is in a steady growth situation; and the logistics is with the storage as the center for the production and the sale of article keep synchronous, and domestic logistics company all can set up the temporary storage point in all places now, and article can circulate between each temporary storage point in the transportation, finally send to the address department that the user selected, and logistics company all can set up large-scale warehouse in all places simultaneously, is used for acting as the transfer station of freight.

A large amount of goods are stored in the warehouse, so the goods need to be managed, and the goods are generally managed by a logistics management system; the logistics management system comprises a processing module and a cloud platform, wherein a plurality of processing modules are arranged in the warehouse, and each logistics element in the warehouse is correspondingly provided with one processing module; in the process of transporting goods, the cloud platform distributes tasks to the corresponding processing modules, the processing modules receive and execute the tasks, and the transportation tasks are completed through the cooperation of the processing modules.

With respect to the related art in the above, the inventors found that: after the goods transportation is completed, the number of the transported goods is not secondarily confirmed, so that the number of the transported goods is not secondarily confirmed, the corresponding failure and other conditions of the number of the transported goods are caused, the goods need to be secondarily transported and sorted, and the transportation efficiency is low.

Disclosure of Invention

The application provides a method for confirming the quantity of goods transported in a lightweight automatic warehouse, which has the characteristic of improving the working efficiency of transportation work.

The application aims to provide a method for confirming the quantity of transported goods in a lightweight automatic warehouse.

The above object of the present application is achieved by the following technical solutions:

a method for confirming the quantity of transported goods in light-weight automatic storage is applied to a cloud platform connected with a plurality of processing modules, each processing module corresponds to a unique logistics element, and the method comprises the following steps:

acquiring logistics element information and operation information;

obtaining cargo information according to the operation information;

sending the operation information to a processing module carried by the logistics elements;

receiving information of transported goods sent by a processing module carried by logistics elements;

and judging whether the transported goods information is matched with the goods information or not and outputting a judgment result.

By adopting the technical scheme, cargo information can be obtained according to logistics element information and operation information, then the operation information is sent to the processing module carried by the logistics elements, the processing module executes a task after receiving the operation information, the transported cargo information is sent to the cloud platform after the execution task is completed, then the platform carries out secondary confirmation on the cargo information, the transported cargo information is matched with the initial cargo information and a judgment result is output, the judgment result represents a result that the transported cargo is matched with the initial cargo, thereby realizing the secondary confirmation on the cargo, ensuring the secondary confirmation on the quantity of the cargo after the cargo is transported to a specified position, ensuring the accuracy of cargo transportation and improving the working efficiency of transportation work.

The present application may be further configured in a preferred example to: the method for acquiring the logistics elements comprises the following steps:

acquiring scene information and task information;

acquiring working scene information according to the scene information and the task information;

and acquiring logistics element information in the working scene according to the working scene information.

By adopting the technical scheme, the working scene information is obtained according to the scene information and the task information distributed by the cloud platform, and then the logistics element information in the working scene is obtained, so that the logistics elements are all the logistics elements needing to execute the task.

The present application may be further configured in a preferred example to: the method for acquiring the job information comprises the following steps: splitting the task information according to the logistics element information to obtain subtask information corresponding to each logistics element; the subtask information is job information.

By adopting the technical scheme, the task information is split into the plurality of subtask information, and the subtask information is distributed to the corresponding logistics elements, so that each logistics element only receives the operation information about itself.

The present application may be further configured in a preferred example to: the transported cargo information is image information.

The present application may be further configured in a preferred example to: the method for judging whether the transported goods information is matched with the goods information comprises the following steps:

generating cargo image information according to the cargo information;

obtaining the quantity of goods in the goods image according to an image recognition technology;

obtaining the quantity of the transported goods in the image of the transported goods according to an image recognition technology;

when the quantity of the goods is the same as the quantity of the transported goods, showing that the goods information is matched with the transported goods information;

when the quantity of the goods is different from the quantity of the transported goods, the goods information is not matched with the transported goods information.

By adopting the technical scheme, the image of the goods is generated according to the goods information, and then the number of the goods in the image is obtained through the image recognition technology, wherein the number of the goods is the number of the goods to be transported in the task; then, the number of the goods in the image of the transported goods is obtained through an image recognition technology, the number of the two goods is compared, if the number of the two goods is the same, the goods information is matched with the information of the transported goods, and no error exists in the transportation work; if the quantity of the two cargos is different, the cargo information is not matched with the transported cargo information, and the problem occurs in the transportation work; in this way, the secondary confirmation of the quantity of the goods after the transportation of the goods is completed is realized.

The present application may be further configured in a preferred example to: when the goods information is not matched with the transported goods information, the cloud platform outputs alarm information.

Through adopting above-mentioned technical scheme, when the matching fails, explain that the transportation work goes wrong, the cloud platform is reported to the police and need inspect the transportation work with the suggestion staff to guarantee cargo transportation's security.

The second purpose of the application is to provide a method for confirming the quantity of the transported goods in the lightweight automatic warehouse, which is applied to processing modules, wherein each processing module corresponds to a unique logistics element and comprises the following steps.

The second application object of the present application is achieved by the following technical scheme:

a method for confirming the quantity of a transported cargo in a lightweight automated warehouse, comprising:

obtaining distance information;

generating trigger information based on the distance information;

acquiring information of the transported goods according to the triggering information;

and sending the transported cargo information to the cloud platform.

By adopting the technical scheme, the distance between different processing modules is acquired, the current working condition is judged according to the distance, the information of the transported goods is acquired according to the trigger information, the information is sent to the cloud platform, the cloud platform judges the information, the auxiliary cloud platform performs secondary confirmation on the quantity of the goods, the safety of goods transportation is improved, and the working efficiency of transportation work is improved.

The present application may be further configured in a preferred example to: the method for acquiring the distance information comprises the following steps: and obtaining the distance information between the processing modules through a detection module preset on the logistics elements.

The present application may be further configured in a preferred example to: the method for generating the trigger information according to the distance information comprises the following steps:

comparing the distance value in the distance information with a preset distance value;

outputting prompt information when the distance value is smaller than a preset distance value;

when the distance value is larger than a preset distance value, no prompt information is output;

and generating triggering information after the prompt information is not received.

By adopting the technical scheme, whether the operation of the current logistics elements is finished or not is judged according to the distance between the processing modules, and if the operation is finished, the triggering information is generated.

The present application may be further configured in a preferred example to: the method for acquiring the information of the transported goods according to the trigger information comprises the following steps:

receiving trigger information;

generating detection information according to the trigger information;

receiving detection information and shooting specified logistics elements to obtain information of transported goods;

and outputting the information of the transported goods, wherein the information of the transported goods is image information.

By adopting the technical scheme, the detection information is generated according to the trigger information, so that the logistics elements are detected, the image information of the transported goods is obtained in a shooting mode, and the image information is output.

In summary, the present application includes at least one of the following beneficial technical effects:

can obtain the cargo information that needs the transportation in this task according to commodity circulation element information and operation information, then distribute the operation information to the processing module that corresponds, after specific commodity circulation element accomplished the transportation work, can send the cargo information of having transported to the cloud platform, the cloud platform matches two cargo information and obtains the matching result, confirm whether quantity when the transportation is accomplished to the goods is correct with this, the secondary confirmation to the cargo quantity has been realized, the possibility of cargo transportation accident has been reduced, the security of cargo transportation has been improved, the work efficiency of transportation work has been improved.

Drawings

Fig. 1 is a schematic flowchart of a method applied to a cloud platform in an embodiment of the present application.

FIG. 2 is a flowchart illustrating a method applied to a processing module in an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The present embodiment is only for explaining the present application and is not limited to the present application, and those skilled in the art can make modifications without inventive contribution to the present embodiment as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, 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 some embodiments of the present application, but not all 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.

The embodiments of the present application will be described in further detail with reference to the drawings attached to the specification.

The application provides a method for confirming the quantity of transported goods in a lightweight automatic warehouse, which is applied to a cloud platform connected with a plurality of processing modules, wherein each processing module corresponds to a unique logistics element; the main flow of the method is described below.

As shown in fig. 1:

step S101: and acquiring logistics element information and operation information.

The logistics system comprises a cloud platform and a plurality of processing modules, wherein the processing modules are wirelessly connected with the cloud platform; the warehouse is internally provided with a plurality of camera devices, scenes in the warehouse can be shot through the camera devices, the camera devices upload image information to the cloud platform, and the image information is scene information.

The method comprises the steps that a cloud platform obtains scene information and task information, wherein the task information refers to transportation task information which is made in the cloud platform for cargo transportation; and acquiring the working scene information according to the scene information and the task information, namely selecting the scene information which accords with the task execution information from the scene information, wherein the scene information is the working scene information.

After the working scene information is acquired, acquiring logistics element information in the working scene according to the working scene information, namely, a goods shelf, a cart, a tray, staff and the like in the working scene; and then corresponding the logistics element information with the task information, splitting the task information according to the logistics element information, splitting the task information into a plurality of subtask information, wherein each subtask information corresponds to unique logistics element information, and the subtask information is the operation information.

For example, if the task information indicates that the cart a transports 4 goods B to the shelf C, the work scene indicates that the cart transports the goods to the specified shelf, the cart and the shelf are logistics elements, the operation information of the cart is to transport 4 goods B, and the operation information of the shelf C is to receive 4 goods B.

Step S102: and obtaining cargo information according to the operation information.

The goods information can be understood as the quantity and type information of the goods, and the embodying mode of the goods information can be pictures or characters; as in the example of step S101, the cargo information may be obtained from the job information, that is, the number information of the cargo is 4, and the kind information of the cargo is B.

Step S103: and sending the operation information to a processing module carried by the logistics elements.

The operation information corresponds to the unique logistics element information, so that when the cloud platform sends the operation information, the cloud platform sends each operation information to the processing module carried by the corresponding logistics element, and the processing module starts to work after receiving the operation information; for example, after the cart receives the operation information, the operation information includes information of goods to be transported by the cart, information of a transportation route, and information of a designated shelf; the transport path information is the shortest path between the current position of the cart and the designated goods shelf, and after the cart moves to the designated position along the designated flow, the processing module carried on the cart is connected with the indicating lamp, and the indicating lamp is turned on at the moment to prompt that the current position of the cart is the designated position.

In the above example, after the cart runs to the designated position, the indicator light on the cart is turned on to prompt that the current position of the cart is the designated position; meanwhile, an indicating lamp is also arranged on the appointed goods shelf, and the indicating lamp on the goods shelf is turned on to remind that goods need to be transported to the goods shelf; the system comprises a trolley, a processing module, an indicator light, a shelf and a display, wherein the indicator light on the trolley is connected to the processing module on the trolley; the processing module on the trolley and the processing module on the indicator light are both connected with distance detection modules, and the two distance detection modules are both used for detecting the distance between the processing modules; distance values are preset in the processing module on the trolley and the processing module on the goods shelf, when the distance between the trolley and the goods shelf is smaller than the preset distance value, a prompt signal is processed and output, and the prompt lamp receives the prompt signal and is lightened so as to remind the trolley to reach a specified position and remind the specific position of the specified goods shelf.

In the embodiment of the application, the processing modules are in wireless connection through RFID (radio frequency identification), and the processing modules are internally provided with chips and can acquire, receive, process and calculate data; the distance detection module can adopt distance sensor to processing module, distance sensor and pilot lamp all are located inside the casing, and above-mentioned module integration is a device promptly, and the device is installed on each commodity circulation element, and the device that every commodity circulation element corresponds all is provided with the address code, and cloud platform record every commodity circulation element's address code, with this realization to each commodity circulation element's discernment.

Step S104: and receiving the information of the transported goods sent by the processing module carried by the logistics elements.

After the logistics element completes the operation information, a signal is sent to the cloud platform, the cloud platform receives the signal, the signal comprises the attribute of the logistics element and task completion information, and the cloud platform receives the signal and knows that the logistics element completes the task; in one example, the shelf, after receiving the goods, sends the shipped goods information to the cloud platform; the information of the transported goods can be embodied in the form of characters or can be displayed in the form of images.

Step S105: and judging whether the transported goods information is matched with the goods information or not and outputting a judgment result.

The determination method is as follows.

1. And generating cargo image information according to the cargo information.

2. And obtaining the quantity of the goods in the goods image according to the image recognition technology.

3. And generating the image information of the transported goods according to the information of the transported goods.

4. And obtaining the quantity of the transported goods in the image of the transported goods according to the image recognition technology.

5. And when the quantity of the goods is the same as the quantity of the transported goods, showing that the goods information is matched with the transported goods information.

6. When the quantity of the goods is different from the quantity of the transported goods, the goods information is not matched with the transported goods information.

Through the mode, whether the transported goods information is matched with the goods information or not can be judged, and a judgment result is obtained.

Firstly, cargo image information is generated according to cargo information, and as the cargo information is obtained by a cloud platform when a task is issued, when the cargo is distributed, the cargo can be photographed by a camera device, so that the cargo image information is obtained, and then the cargo image is recognized by an image recognition technology so as to obtain the cargo quantity; cargo image information can be generated through cargo information, the image information of the cargos is stored in the cloud platform, the quantity information and the type information of the cargos are obtained according to the cargo information, the cargo images of corresponding types and quantities are called from the database, the cargo image information is formed by the cargo images of corresponding quantities, and after the image information is obtained in this way, the cargo quantity information can also be synchronously obtained.

Similarly, after the images of the transported goods are obtained, the images of the transported goods are identified by using an image identification technology to obtain the quantity of the transported goods; then comparing the quantity of the goods with the quantity of the transported goods, if the quantity is the same, indicating that the goods information is successfully matched with the transported goods information, and indicating that the transportation work is finished and no transportation accident occurs; if the quantity is different, it is failed to show that the goods information is matched with the transported goods information, or the quantity of the transported goods is large, or the quantity of the transported goods is small, so that the problem occurs in the transportation work, and at the moment, the cloud platform outputs alarm information to remind workers of checking the goods.

By the aid of the mode, secondary confirmation of the quantity of the goods can be achieved, confirmation of the quantity of the goods after goods transportation is completed is achieved, safety of goods transportation is guaranteed, possibility of secondary transportation is reduced, and working efficiency of transportation is improved.

The application also provides a method for confirming the quantity of the transported goods in the lightweight automatic warehouse, which is applied to the processing module; the main flow of the method is described below.

As shown in fig. 2:

s100: and acquiring distance information.

S200: trigger information is generated based on the distance information.

S300: and acquiring the information of the transported goods according to the trigger information.

S400: and sending the transported cargo information to the cloud platform.

In one example, the work scenario is a cart transporting goods to a designated shelf; the processing modules on the cart and the goods shelf are connected with distance detection modules, and the distance detection modules adopt distance sensors; the distance sensor is used for detecting the distance between the processing module on the trolley and the processing module on the goods shelf, comparing the distance value with a preset distance value, and if the distance value is smaller than the preset distance value, indicating that the trolley reaches the designated position at the moment; the processing module on the cart and the processing module on the goods shelf both output prompt signals, and meanwhile, prompt lamps connected with the two processing modules are turned on; the prompting lamp on the cart is turned on to remind the cart to reach the designated position, and the prompting lamp on the goods shelf is turned on to remind the specific goods shelf position where the goods are to be transported.

The cart conveys goods to the goods shelf after reaching the designated position, and in the process, the distance sensor on the cart and the distance sensor on the goods shelf detect the distance between the cart and the goods shelf in real time and send distance signals to the corresponding processing modules to indicate that the working condition at the moment is to convey the goods; when the cart is far away from the goods shelf after the cart carries the goods, the distance value detected by the distance sensor is larger than the preset distance value, when the cart is far away from the goods shelf, the distance sensor on the cart cannot detect the goods shelf, a distance signal is not output, and when the processing module does not receive the distance signal, a work completion signal is sent to the cloud platform to indicate that the transportation work of the cart is completed; when the distance sensor on the goods shelf does not detect the trolley, the distance sensor does not output a distance signal, the processing module receives the distance signal and generates trigger information to indicate that the transportation work of the trolley is finished at the moment, the transported goods information on the goods shelf is collected at the moment, and the information is sent to the cloud platform to be secondarily confirmed by the cloud platform.

In the embodiment of the application, the information of the transported goods on the shelf can be obtained by installing a camera above the shelf and shooting the shelf through the camera.

Through the cooperation use between processing module and the cloud platform, realized the secondary affirmation to the goods, guaranteed after with freight to the assigned position, to the reconfirmation of goods quantity, guaranteed the accuracy of freight, improved the work efficiency of transportation work.

The foregoing description is only exemplary of the preferred embodiments of the invention and is provided for the purpose of illustrating the general principles of the technology. It will be appreciated by those skilled in the art that the scope of the disclosure herein is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the spirit of the disclosure. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (10)

1. A method for confirming the quantity of transported goods in light-weight automatic warehousing is applied to a cloud platform connected with a plurality of processing modules, each processing module corresponds to a unique logistics element, and the method is characterized by comprising the following steps:

acquiring logistics element information and operation information;

obtaining cargo information according to the operation information;

sending the operation information to a processing module carried by the logistics elements;

receiving information of transported goods sent by a processing module carried by logistics elements;

and judging whether the transported goods information is matched with the goods information or not and outputting a judgment result.

2. The method for determining the quantity of a transported cargo in a lightweight automated warehouse according to claim 1, wherein the method for obtaining logistics elements comprises:

acquiring scene information and task information;

acquiring working scene information according to the scene information and the task information;

and acquiring logistics element information in the working scene according to the working scene information.

3. The method for confirming the quantity of transported goods in the lightweight automated warehouse according to claim 2, wherein the method for acquiring the operation information comprises: splitting the task information according to the logistics element information to obtain subtask information corresponding to each logistics element; the subtask information is job information.

4. The method of claim 1, wherein the information of the transported cargo is image information.

5. The method for confirming the quantity of transported goods in light-weight automated warehouse of claim 4, wherein the method for judging whether the information of the transported goods is matched with the information of the goods comprises:

generating cargo image information according to the cargo information;

obtaining the quantity of goods in the goods image according to an image recognition technology;

obtaining the quantity of the transported goods in the image of the transported goods according to an image recognition technology;

when the quantity of the goods is the same as the quantity of the transported goods, showing that the goods information is matched with the transported goods information;

when the quantity of the goods is different from the quantity of the transported goods, the goods information is not matched with the transported goods information.

6. The method for confirming the quantity of the transported goods in the lightweight automated warehouse of claim 5, wherein when the goods information does not match the transported goods information, the cloud platform outputs alarm information.

7. A method for confirming the quantity of transported goods in light-weight automatic storage is applied to processing modules, each processing module corresponds to a unique logistics element, and the method is characterized by comprising the following steps:

obtaining distance information;

generating trigger information based on the distance information;

acquiring information of the transported goods according to the triggering information;

and sending the transported cargo information to the cloud platform.

8. The method for confirming the quantity of transported goods in a lightweight automated warehouse of claim 7, wherein the method for obtaining distance information comprises: and obtaining the distance information between the processing modules through a detection module preset on the logistics elements.

9. The method for confirming the quantity of transported goods in the lightweight automated warehouse of claim 7, wherein the method for generating the trigger information according to the distance information comprises:

comparing the distance value in the distance information with a preset distance value;

outputting prompt information when the distance value is smaller than a preset distance value;

when the distance value is larger than a preset distance value, no prompt information is output;

and generating triggering information after the prompt information is not received.

10. The method for confirming the quantity of transported goods in the lightweight automated warehouse according to claim 7, wherein the method for acquiring the information of the transported goods according to the trigger information comprises:

receiving trigger information;

generating detection information according to the trigger information;

receiving detection information and shooting specified logistics elements to obtain information of transported goods;

and outputting the information of the transported goods, wherein the information of the transported goods is image information.

Images