CN214235144U - Goods sorting system - Google Patents

Abstract

The utility model provides a goods sorting system, which comprises an intelligent interactive glasses system, a storage management system, a sorting table and a handling device; the storage management system is used for controlling the carrying equipment to carry the goods to be picked to the picking platform; the intelligent interactive glasses system comprises intelligent interactive glasses and a first processor, wherein the intelligent interactive glasses comprise a glasses body, and a first image acquisition device and an information display device are arranged on the glasses body; the warehouse management system is used for issuing task information to the first processor; the first processor is used for controlling the information display device to display the task information; the image of the operated goods on the sorting platform is collected according to the first image acquisition device of task information control, and the first goods information of the operated goods is determined according to the image of the operated goods, so that the first goods information is transmitted to the storage management system, automatic goods sorting is realized, the operating personnel do not need manual operation electronic equipment, the accuracy of the goods information and the inertia of personnel operation are improved, and the operating efficiency is improved.

Description

Goods sorting system

Technical Field

The present disclosure relates to the field of smart warehousing technologies, and in particular, to a system for sorting goods.

Background

In the field of intelligent warehousing, the common automatic warehouse realizes goods-to-person sorting, and automatic equipment such as an information system, an automatic carrying robot, a three-dimensional warehouse, a conveying line and a sorting workstation are added. However, in the whole operation flow of the automatic warehouse, under each goods picking scene, an operator needs to manually interact with a computer or an electronic tag system and the like so as to meet the requirement that the flow of goods real objects is synchronous with an information system, the error probability of the operator operating the information system is high, and the operation efficiency is low due to the disconnected inertia of the operator operation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a goods is selected system for under the goods is selected the scene, need the operation personnel to interact with computer or electronic tags system etc. and the operation error probability is big, the problem that the operating efficiency is low.

One aspect of the present disclosure is to provide an item picking system comprising: the system comprises an intelligent interactive glasses system, a warehousing management system, a sorting table and carrying equipment; the warehouse management system is in communication connection with the carrying equipment and is used for controlling the carrying equipment to carry goods to be picked to the picking platform, and the picking platform is used for carrying out goods picking operation; the intelligent interactive glasses system comprises intelligent interactive glasses and a first processor, wherein the intelligent interactive glasses comprise a glasses body, and a first image acquisition device and an information display device are arranged on the glasses body; the warehousing management system is in communication connection with the first processor and used for issuing task information to the first processor; the first processor is electrically connected with the information display device and used for controlling the information display device to display the task information, and the task information is used for indicating an operator wearing the intelligent interactive glasses to carry out goods picking operation on the picking platform; the first processor is electrically connected with the first image acquisition device and used for controlling the first image acquisition device to acquire the image of the operated goods on the sorting platform according to the task information and determining the first goods information of the operated goods according to the image of the operated goods; the first processor is further configured to transmit the first item information to the warehouse management system.

In an alternative embodiment, the information presentation device comprises: a display device and/or a voice interaction device.

In an optional embodiment, the method further comprises: the carrying equipment is provided with a container for containing goods, a goods monitoring system and/or a weight monitoring system; the goods monitoring system comprises a second image acquisition device and a second processor; the second processor is in communication connection with the warehousing management system and is used for receiving task information issued by the warehousing management system; the second processor is electrically connected with the second image acquisition device and used for controlling the second image acquisition device to be used for acquiring the images of the goods in the container according to the task information, and determining the types and the first quantity of the operated goods in the container according to the images of the goods in the container.

In an alternative embodiment, the weight monitoring system comprises: a third processor, and a weight detection device disposed on each of the containers; the third processor is in communication connection with the warehousing management system and is used for receiving task information issued by the warehousing management system; and the third processor is electrically connected with the weight detection device and used for controlling the weight detection device to collect the first weight of the goods in the container at the beginning of the task according to the task information, collect the second weight of the goods in the container at the end of the task, and calculate the second quantity of the goods operated in the container according to the single weight of the goods operated in the task information, the first weight and the second weight.

In an alternative embodiment, the carrier includes a plurality of containers for holding articles.

In an optional embodiment, each container is correspondingly provided with at least one second image acquisition device, and each second image acquisition device is used for acquiring an image of goods in the corresponding container.

In an optional implementation manner, the carrying apparatus further includes a movable device, the second image capturing device is disposed on the movable device, the second processor is electrically connected to the movable device, and the second processor is further configured to control the movable device to move to a position corresponding to the container, and control the second image capturing device on the movable device to capture an image of goods in the container.

In an alternative embodiment, the weight detecting means provided on each of the containers includes a plurality of weight sensors, each of the weight sensors being adapted to detect the weight of the goods in the container; the third processor is electrically connected with each weight sensor and is used for receiving the detection values of the plurality of weight sensors and taking the weight value with the largest occurrence number in the detection values of the plurality of weight sensors as the weight of the goods in the container.

In an alternative embodiment, the weight sensor is a strain gauge mass detection sensor.

In an alternative embodiment, the item monitoring system further comprises a light indicating device for indicating the picking position of the item to be handled.

In an optional embodiment, the system further comprises a quantity monitoring computing system, wherein the quantity monitoring computing system comprises a fourth processor; the fourth processor is in communication connection with the second processor, and the second processor is used for transmitting the category and the first quantity of the operated goods in the container to the fourth processor; the fourth processor is in communication connection with the third processor, and the third processor is used for transmitting a second quantity of the operated goods in the container to the fourth processor; the fourth processor is in communication connection with the first processor, and the first processor is used for transmitting the first goods information to the fourth processor; the fourth processor is used for verifying the first goods information according to the category and the first quantity of the operated goods in the container and/or verifying the first goods information according to the second quantity of the operated goods in the container; transmitting a verification result to the first processor.

In an alternative embodiment, the handling apparatus comprises one or more of: the robot, the conveying equipment, the self-driven movable goods shelf and the movable goods shelf which can be combined with the moving device and driven to move.

In an optional embodiment, a power supply is further disposed on the glasses body; the power supply is used for supplying power for the first image acquisition device and the information display device.

In an optional implementation manner, the warehouse management system is further configured to determine whether a task is completed according to the first item information and the task information, and update item inventory information.

The goods system of selecting that this disclosure provided can realize automatic intelligence and select the process, and at the whole operation in-process of selecting, the operation personnel need not electronic equipment such as manual operation computer or electronic tags system, can realize that the flow in goods material object is synchronous with information system, ensures the accuracy of actual operation's goods information, guarantees the company's of personnel's operation inertia, has improved the operating efficiency greatly.

Drawings

FIG. 1 is a block diagram of an article picking system provided by an embodiment of the present disclosure;

FIG. 2 is a frame diagram of an item picking system according to another embodiment of the present disclosure;

FIG. 3 is a flow chart of a method of item picking provided by embodiments of the present disclosure;

FIG. 4 is a flow chart of a method of item picking provided by another embodiment of the present disclosure;

FIG. 5 is a schematic diagram of a configuration of an item monitoring system provided by an embodiment of the present disclosure;

FIG. 6 is a flow chart of a method of item picking provided by another embodiment of the present disclosure;

FIG. 7 is a flow chart of a method of item picking provided by another embodiment of the present disclosure;

FIG. 8 is a schematic structural diagram of a weight monitoring system provided in an embodiment of the present disclosure;

FIG. 9 is a flow chart of a method of item picking provided by another embodiment of the present disclosure;

FIG. 10 is a general flow diagram of an intelligent picking system according to another embodiment of the present disclosure;

fig. 11 is a schematic structural view of an article picking apparatus provided by an embodiment of the present disclosure;

fig. 12 is a schematic structural view of an article picking apparatus provided by an embodiment of the present disclosure;

fig. 13 is a schematic structural view of an article picking apparatus provided by an embodiment of the present disclosure;

fig. 14 is a schematic structural view of an article picking apparatus provided by an embodiment of the present disclosure;

fig. 15 is a schematic structural view of an article picking apparatus provided by an embodiment of the present disclosure;

fig. 16 is a schematic structural view of an article picking apparatus provided by an embodiment of the present disclosure.

Reference numerals:

10-goods sorting system 11-intelligent interactive glasses system 12-warehouse management system

13-sorting table 14-handling equipment 15-goods monitoring system

16-weight monitoring system 17-quantity monitoring operation system 110-intelligent interactive glasses

111-first processor 112-glasses body 113-first image acquisition device

114-information presentation means 151-second image acquisition means 152-second processor

153-light indicating means 161-third processor 162-weight detecting means

171-fourth processor

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terms "first", "second", "third", etc. referred to in this disclosure are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. In the description of the following examples, "plurality" means two or more unless specifically limited otherwise.

In the field of intelligent warehousing, the goods-to-person sorting is realized in the currently common automatic warehouse, and automatic equipment such as an information system, an automatic carrying robot, a three-dimensional warehouse, a conveying line and a sorting workstation are additionally arranged. However, in the whole operation flow of the automatic warehouse, under each goods picking scene, an operator needs to interact with a computer or an electronic tag system and the like so as to meet the requirement that the flow of goods real objects is synchronous with an information system, the error probability of the operator operating the information system is high, and the operation efficiency is low due to the fact that the operator does not have inertia.

For example, taking a picking scene of picking from a warehouse transfer robot goods to a person-dismantling-zero picking scene as an example, the picking action is dismantled: the robot enters the picking workstation → the staff sees the picking information prompted by the picking computer interface → finds the target picking position → scans the target goods → operates the picking computer interface to input the number of the goods to be picked → the electronic label lamp of the sorting wall lights the target position for prompting the staff to sort the goods by hand → the staff delivers the goods → the lamp is shot for confirmation → the staff checks the computer interface information prompt → prepares for the next picking operation. Therefore, in the whole operation link, the operators do not carry out all continuous picking operations, and a large part of time is used for information interaction with a computer system, an electronic tag system and the like. The hardware cost of the electronic tag picking system and the computer cost of the information system interaction are high, the error probability of the operation of the staff and the computer is high, and the non-connection inertia efficiency of the staff operation is low.

The embodiment of the disclosure provides an intelligent picking system, which is used for a robot or other scenes of actual contact between a robot or other automatic warehouses and goods in the warehouses, such as warehouse-out, shelving, inventory, tallying, warehouse moving and the like. The operator only needs to actually operate in the whole process, and information interaction with other equipment such as a computer system or a Personal Digital Assistant (PDA) is not needed at all.

The following describes the technical solutions of the present disclosure and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present disclosure will be described below with reference to the accompanying drawings.

Fig. 1 is a block diagram of an article picking system provided by an embodiment of the present disclosure. As shown in fig. 1, the item picking System 10 includes an intelligent interactive glasses System 11, a Warehouse Management System (WMS) 12, a picking station 13, and a handling device 14. The warehouse management system 12 and the conveying device 14 are in communication connection, and are used for controlling the conveying device 14 to convey goods to be picked to the sorting table 13, and the sorting table 13 is used for carrying out goods sorting operation. The carrying device 14 is used for carrying or carrying goods during the process of carrying the goods, and may be a robot, a conveying device, a self-driven movable shelf, a movable shelf capable of being combined with and driven by a moving device, or the like.

In this embodiment, any two devices, or two systems, or communication connection between the systems and the devices may be electrically connected, or connected through wireless/wired signals, and data communication between the two devices may be achieved.

The smart interactive glasses system 11 includes smart interactive glasses 110 and a first processor 111. The intelligent interactive glasses 110 comprise a glasses body 112, and a first image acquisition device 113 and an information display device 114 are arranged on the glasses body 112. The warehouse management system 12 is in communication connection with the first processor 111, and is configured to issue task information to the first processor 111.

The warehouse management system 12 is in communication connection with the first processor 111, and the warehouse management system 12 is configured to issue task information to the first processor 111.

The first processor 111 is electrically connected to the information display device 114, and is configured to control the information display device 114 to display task information, where the task information is used to instruct a worker wearing the intelligent interactive glasses 110 to perform a goods picking operation on the picking platform 13. When the worker performs the task, the worker wears the intelligent interactive glasses 110, receives the task information through the information display device 114 of the intelligent interactive glasses 110, and performs the goods sorting operation on the sorting table 13 according to the task information.

The first processor 111 is electrically connected to the first image capturing device 113, and is configured to control the first image capturing device 113 to capture an image of the operated item on the sorting table 13 according to the task information, and determine first item information of the operated item according to the image of the operated item.

The first processor 111 is also configured to transmit the first item information to the warehouse management system 12.

Alternatively, the first processor 111 may be provided on the glasses body 112, or the first processor 111 may be provided separately from the smart interactive glasses 110 and may communicate with the smart interactive glasses 110.

The automatic intelligent sorting process is realized in the embodiment, in the whole sorting operation process, the operation personnel do not need to manually operate electronic equipment such as a computer or an electronic tag system, the flow of goods in real objects can be synchronized with an information system, the accuracy of the goods information of actual operation is ensured, the connection inertia of personnel operation is ensured, and the operation efficiency is greatly improved.

Optionally, the information presentation device 114 may include: a display device and/or a voice interaction device. When the task information is displayed, the task information can be displayed through a display device and/or a voice interaction device.

Alternatively, the display device may be used as a lens portion of the smart interactive glasses 110 as a display screen for displaying dynamic information during a job. The display device is used as a display screen, information is not displayed on the full screen, and the operator can see actual operation actions and goods clearly through the display screen while displaying the information. Alternatively, the display device may be a microscopic electronic screen.

The voice interaction device is used for realizing a voice interaction function between the intelligent interaction glasses system 11 and an operator. Specifically, the voice interaction device may include a voice playing device such as an earphone or a voice playing player, and is configured to play voice information to the operator wearing the smart interaction glasses 110. The audio information to be played by the intelligent interactive glasses system 11 can be transmitted to the ears of the operator through the earphones or the voice player, and the operator can interact with the intelligent interactive glasses system without manual operation.

Optionally, the voice interaction device may further include an audio acquisition device for acquiring voice information input by the operator.

Optionally, a power supply is further disposed on the glasses body 112. The power supply is used for supplying power to the first image acquisition device 113 and the information presentation device 114. Alternatively, the power source may be a battery or a wireless charger, etc. to guarantee the cruising ability of the intelligent interactive glasses 110.

In an alternative embodiment, as shown in FIG. 2, the carrier device 14 is provided with an item monitoring system 15 and/or a weight monitoring system 16, and the carrier device 14 is further provided as a container (not shown) for holding items. The warehouse management system 12 is further configured to send task information to the smart interactive glasses system 11, the goods monitoring system 15, and the weight monitoring system 16, and start an automatic monitoring function for goods picking for the task. The connection relationship between any two of the intelligent interactive glasses system 11, the warehouse management system 12, the carrying equipment 14, the goods monitoring system 15, the weight monitoring system 16 and the quantity monitoring operation system 17 in the goods sorting system is shown in fig. 2, and a connecting line is arranged between any two of the two, which indicates that the two are in communication connection and can perform data communication.

The goods monitoring system 15 is configured to monitor the category and the first quantity of the handled goods in the container of the handling apparatus 14 during the operation process, and send the category and the first quantity of the handled goods in the container of the handling apparatus 14 during the operation process to the quantity monitoring operation system 17 during the operation process of the operator performing the operation according to the task information. In the present embodiment, for convenience of description, the "fourth article information" is used to refer to the article type and the first quantity of the articles handled in the container of the carrier device 14 during the operation, which are monitored by the article monitoring system 15, during the operation of the operator according to the task information.

The weight monitoring system 16 is configured to monitor a second quantity of the handled goods in the container of the transfer apparatus 14 during the operation and transmit the second quantity of the handled goods in the container of the transfer apparatus 14 during the operation to the quantity monitoring arithmetic system 17 during the operation of the operator according to the task information. In the present embodiment, for convenience of description, the "fifth article information" is used to refer to the second quantity of the articles handled in the container of the carrier device 14 during the operation, which is monitored by the weight monitoring system 16 during the operation of the operator according to the task information.

Optionally, the item picking system 10 may also include a quantity monitoring computing system 17. The intelligent interactive glasses system 11 is further configured to send the first goods information to the quantity monitoring computing system 17. The quantity monitoring and computing system 17 is used for verifying the first goods information and feeding back the verification result to the intelligent interactive glasses system 11. Optionally, the quantity monitoring and computing system 17 is further configured to verify the first item information according to fourth item information sent by the item monitoring system 15 and/or fifth item information sent by the weight monitoring system 16; that is, the quantity monitoring computing system 17 verifies the first item information based on the fourth item information and/or the fifth item information.

The intelligent interactive glasses system 11 is further configured to send the first goods information to the warehousing management system 12 according to the verification result fed back by the quantity monitoring operation system if the verification of the first goods information is passed. The warehouse management system 12 is further configured to confirm whether the task is completed and update the inventory information of the goods according to the first goods information and the task information. Fig. 3 is a flow chart of a method of item picking provided by an embodiment of the present disclosure. Based on the above goods picking system shown in fig. 1 or fig. 2, the embodiment provides a method for picking goods, as shown in fig. 3, the method includes the following specific steps:

and S200, the warehousing management system sends task information to the intelligent interactive glasses system, wherein the task information comprises an operation type and second goods information.

When a task of goods picking operation needs to be carried out, the storage management system sends task information to the intelligent interactive glasses system according to the task need.

The task information comprises the operation type of the operator when the task is executed and second goods information. The second goods information comprises the storage position, the goods type and the quantity of the goods to be operated.

Step S201, the intelligent interactive glasses system receives and displays task information.

In this embodiment, when the staff carries out the task, dress intelligent mutual glasses. The intelligent interactive glasses system is responsible for receiving task information of a task to be operated, which is issued by the warehousing management system WMS, and displaying the task information through the intelligent interactive glasses. The operation personnel can carry out actual operation according to the task information that intelligent interactive glasses show.

Step S202, collecting first goods information of the goods operated in the operation process of the operator according to the task information.

The intelligent interactive glasses can monitor the operation action of the operating personnel in real time through the first image acquisition device, and monitor and acquire the images of the operated goods in the operation process in real time in the operation process of the operating personnel operating according to the task information. And the processor of the intelligent interactive glasses system automatically identifies and determines the first goods information of the operated goods in the task operation process according to the collected images of the operated goods in the operation process.

Wherein the first item information may include the category and the number of the operated item.

And step S203, sending the first goods information to the quantity monitoring operation system.

And S204, receiving first goods information sent by the intelligent interactive glasses system by the quantity monitoring operation system, wherein the first goods information is information of goods operated in the operation process of one task.

Step S205, the quantity monitoring and calculating system obtains third goods information sent by the monitoring system of the transporting device, where the third goods information is information of the goods being handled in the container of the transporting device during the operation process of the same task.

In this embodiment, the quantity monitoring operation system may further interact with the goods monitoring system and/or the quality monitoring system of the transportation device to obtain third goods information sent by the monitoring system of the transportation device.

Optionally, the third item information may include fourth item information sent by the item monitoring system, and/or fifth item information sent by the quality monitoring system. And the fourth goods information is information of the operated goods in the container of the determined carrying equipment, which is automatically monitored by the goods monitoring system in the operation process of the same task. The fourth article information includes the kind and the number of the article to be handled. And the fifth goods information is information of the operated goods in the container of the determined carrying equipment, which is automatically monitored by the quality monitoring system in the operation process of the same task. The fifth item information includes the operated item number.

And S206, the quantity monitoring and calculating system verifies the first goods information according to the third goods information and sends a verification result to the intelligent interactive glasses system.

And the quantity monitoring operation system verifies the first goods information according to the third goods information, determines whether the first goods information passes verification, and sends a verification result to the intelligent interactive glasses system.

And S207, the intelligent interactive glasses system sends the first goods information to the warehousing management system according to the verification result of the quantity monitoring operation system on the first goods information if the first goods information passes the verification.

The intelligent interactive glasses system receives the verification result of the quantity monitoring operation system on the first goods information. And according to the verification result of the first goods information, if the first goods information is verified to be passed, the first goods information is accurate, and the first goods information is sent to the warehousing management system.

And S208, displaying second prompt information according to the verification result of the quantity monitoring operation system on the first goods information, wherein the second prompt information is used for prompting an operator to check the information of the operated goods in the operation process if the verification on the first goods information is not passed.

According to the verification result of the first goods information, if the first goods information is not verified, the fact that the first goods information is inaccurate is indicated, and manual checking by an operator is needed, the intelligent interactive glasses system displays second prompt information, and the second prompt information is used for prompting the operator to check the information of the operated goods in the operation process. The display mode of the first prompt information is consistent with the display mode of the task information, and is not described here again.

And S209, receiving first goods information by the storage management system, wherein the first goods information is the first goods information of the operated goods in the operation process acquired by the intelligent interactive glasses system in the operation process of the operation personnel according to the task information.

Step S210, according to the first goods information and the second goods information, whether the task is completed is confirmed, and goods stock information is updated.

After receiving the first goods information sent by the intelligent interactive glasses system, the warehousing management system confirms whether the task is completed or not according to the second goods information of the goods needing to be operated in the task information and the first goods information of the operated goods in the actual operation process, and updates the goods inventory information according to the first goods information.

Optionally, if the task is completed, the warehousing management system may also send a task success message to the intelligent interactive glasses system, and the intelligent interactive glasses system may display the task success message to the operator.

Optionally, if the task is not completed, the warehousing management system reformulates a new task for correcting the task according to the difference between the first goods information and the second goods information, and the task information of the new task below. Based on the task information of the new task, the intelligent warehousing system executes the new task.

According to the embodiment of the disclosure, the task information issued by the warehousing management system can be received and displayed through the intelligent interactive glasses system, so that an operator can operate according to the displayed task information. In the process that the operating personnel operate according to the task information, the intelligent interactive glasses system automatically collects first goods information of the operated goods in the operating process and sends the first goods information to the quantity monitoring and calculating system. The quantity monitoring operation system can verify the first goods information based on the third goods information acquired by at least one monitoring system of the carrying equipment in the operation process and feed back a verification result. And after the intelligent interactive glasses system determines that the first goods information passes the verification, the intelligent interactive glasses system sends the first goods information to the storage management system, and the storage management system confirms whether the task is completed according to the first goods information and updates the inventory information. The automatic intelligent sorting system can realize the automatic intelligent sorting process, and in the whole sorting operation process, an operator does not need to manually operate electronic equipment such as a computer or an electronic tag system, so that the flow of goods in real objects and the information system can be synchronized, the accuracy of the goods information of actual operation is ensured, the continuous inertia of personnel operation is ensured, and the operation efficiency is greatly improved.

Fig. 4 is a flow chart of a method of item picking according to another embodiment of the present disclosure. On the basis of the above-mentioned method embodiment corresponding to fig. 3, in this embodiment, a detailed description is given of a method flow of item picking. As shown in fig. 4, the method comprises the following specific steps:

and S300, the warehousing management system sends task information to the intelligent interactive glasses system, wherein the task information comprises an operation type and second goods information.

This step is identical to the step S200, and is not described herein again.

And S301, receiving and displaying task information by the intelligent interactive glasses system.

The task information comprises an operation type and second goods information, and the second goods information comprises a storage position, a type and a quantity of goods to be operated.

Optionally, the displaying the task information includes: displaying the task information through a display device; and/or playing the task information through the voice interaction device. For example, the task information can be displayed through the lenses of the intelligent interactive glasses, and/or the audio information corresponding to the task information can be played through the voice interactive device.

Optionally, in order to facilitate the operator to know information such as the appearance of the article to be operated, the picking efficiency of the operator is improved, and when the information is displayed, the characteristic information of the article to be operated can be displayed according to the second article information. Wherein, the characteristic information of the goods to be operated comprises at least one of the following items: the image, the identification information and the appearance information of the goods to be operated. The identification information of the goods can uniquely identify information such as one-dimensional codes, two-dimensional codes and the like of the goods.

After the task information is received by the operating personnel through the intelligent interactive glasses system, corresponding operation can be directly carried out according to the task information without manual feedback operation of the task, and the task can also be freely completed.

In an optional implementation manner of this embodiment, in the process of performing an operation by an operator according to task information, collecting first item information of an operated item in the operation process includes: collecting a first image of an operated goods during the operation process of an operator according to task information; and determining first article information of the operated article in the operation process according to the first image of the operated article.

Specifically, through the subsequent steps S302 to S303, the first image of the operated item is collected during the operation of the operator according to the task information. Through the subsequent steps S304-S305, first item information of the operated item during the job may be determined based on the first image of the operated item.

And step S302, monitoring the operation action of the operator according to the task information.

In this embodiment, the intelligent interactive glasses system can monitor the operation actions of the operator in real time through the first image acquisition device, and when determining that the operator performs the corresponding operation actions and operates the physical goods, the first image acquisition device is started to acquire the images of the operated goods.

Specifically, this step can be implemented as follows:

collecting a second image of the operator; and according to the operation type in the task information, carrying out image recognition on the second image, and recognizing the operation action corresponding to the operation type in the second image.

The second image is an image which contains the operation action of the operator and is in the acquisition range of the first image acquisition device. In this step, whether the operator performs the task of this time is monitored by monitoring the operation action corresponding to the operation type in the task information. If the second image contains the operation action corresponding to the operation type in the task information, the operation staff is indicated to start the operation, and the first image acquisition device can be started to acquire the first image of the operated goods. If the second image does not contain the operation action corresponding to the operation type in the task information, the operation of the operator is not started, and the first image continues the operation action of the operator until the operator starts the operation.

Optionally, the second image may be subjected to image recognition according to the operation type in the task information through a neural network model, and an operation action corresponding to the operation type in the second image is recognized. Therefore, the intelligent interactive glasses system judges whether the second image contains the corresponding operation action through the pre-trained neural network model, and automatically triggers the first image acquisition device to acquire the first image of the operated goods and store the first image when the second image contains the corresponding operation action.

Step S303, when the operator performs the operation action corresponding to the task information on the goods, acquiring a first image of the operated goods.

Illustratively, when it is determined that the worker performs an operation action corresponding to the task information on the goods, the first image acquisition device is started to acquire a first image of the operated goods.

Step S304, image processing is carried out on the first image of the operated goods, and the operated goods in the first image are identified.

In this embodiment, the intelligent interactive glasses system may store the category information and the feature data of all the goods, and bind the identification information of the goods with the category information and the feature data. The characteristic data of the goods comprises appearance characteristics of the goods, specifically comprising size, color, shape, contained special figures and other characteristics. The presence of the item in the image may be identified based on the characteristic data of the item.

Before the first image of the operated goods is subjected to image processing and the operated goods in the first image are identified, the intelligent interactive glasses system acquires and stores characteristic data corresponding to the identification information of all the goods.

Further, the step can be specifically realized by adopting the following mode:

carrying out image processing on a first image of an operated goods, and extracting goods characteristic data in the first image; matching the characteristic data of the goods with the characteristic data corresponding to the identification information of all the goods, and determining the identification information of the operated goods in the first image.

Step S305, according to the identification information of the operated goods in the identified first image.

After the identification information of the operated goods in all the first images is identified, all the operated goods in the operation process of the task can be determined, and the number of the operated goods can be further counted. Furthermore, the types of all the operated goods in the operation process can be determined according to the type information bound by the identification information of all the goods.

Step S306, if the operated goods in the first image of one operated goods can not be identified, displaying first prompt information, wherein the first prompt information is used for prompting an operator to align the identification information of the operated goods to the first image acquisition device.

In the step S304, if the operated item in the first image of the operated item cannot be identified, the intelligent interactive glasses system displays the first prompt information to prompt the operator to align the identification information such as the barcode of the operated item to the first image capturing device, and the first image capturing device can capture the third image containing the identification information of the operated item.

In this step, the display mode of the first prompt message is consistent with the display mode of the task message, and is not described here again.

Step S307, collecting a third image containing the identification information of the operated goods, and identifying the identification information of the operated goods in the third image.

After receiving the first prompt message, the operator aligns the identification information such as the bar code of the operated goods to the first image acquisition device again, and the first image acquisition device acquires a third image containing the identification information of the operated goods. The intelligent interactive glasses system can identify the identification information of the operated goods in the third image, so that the operated goods are successfully identified.

In an optional implementation mode, for some goods with higher requirements on accuracy of goods information, the operator can be required to align the identification information of the goods with the first image acquisition device during operation, and the first image acquisition device directly acquires a third image containing the identification information of the operated goods and identifies the goods based on the third image. Among them, the items with higher requirement for accuracy of the information of the items include but are not limited to: medical goods, precision instruments, and expensive goods.

And S308, extracting and saving the characteristic data of the operated goods in the first image.

In the step S304, if the operated item in the first image of the operated item cannot be identified, it is described that the stored feature data does not include the feature data of the operated item, or the feature data of the operated item is changed, for example, a case of replacing the package. After the third image containing the identification information of the operated goods is collected and the identification information of the operated goods in the third image is recognized, the intelligent interactive glasses system extracts the feature data of the operated goods in the first image, updates the feature data bound with the identification information of the goods and realizes the independent learning of the features of the goods. When the goods are operated next time, the intelligent interactive glasses system can identify the goods by collecting the first image of the goods.

Optionally, the intelligent interactive glasses system may also perform synchronous update of the feature data bound to the identification information of all the goods with the quantity monitoring computing system in real time or at intervals.

Step S309, determining the types and the quantity of the operated goods in the working process, and obtaining first goods information.

After identifying the identification information of all operated goods, the intelligent interactive glasses system can acquire the category information bound with the identification information, so that the category of the operated goods is determined, the number of the operated goods can be further counted, and the first goods information is obtained.

Step S310, sending the first goods information to the quantity monitoring operation system.

After the intelligent interactive glasses system determines the first goods information, the intelligent interactive glasses system sends the first goods information to the quantity monitoring operation system.

Step S311, the quantity monitoring and calculating system receives first goods information sent by the intelligent interactive glasses system, wherein the first goods information is information of goods operated in the operation process of one task.

Step S312, third item information sent by the monitoring system of the transportation device is obtained, where the third item information is information of an operated item in a container of the transportation device during an operation process of the same task.

In this embodiment, in the operation process of the task, the goods monitoring system and/or the weight monitoring system of the carrying apparatus may monitor information of the operated goods in real time. The quantity monitoring operation system can also interact with a goods monitoring system and/or a quality monitoring system of the carrying equipment to acquire third goods information sent by the monitoring system of the carrying equipment.

Wherein the third item information includes:

and fourth goods information sent by the goods monitoring system of the carrying equipment and/or fifth goods information sent by the weight monitoring system of the carrying equipment. The fourth goods information comprises the types and the quantity of the goods operated in the container of the carrying equipment in the operation process, and the fifth goods information comprises the quantity of the goods operated in the container of the carrying equipment in the operation process.

And S313, verifying the first goods information according to the third goods information, and sending a verification result to the intelligent interactive glasses system.

In this embodiment, the first item information is the type and number of items operated by an operator in the operation process, the type and number of items operated in a container of the carrier in the same operation process of the fourth item information are the same, and the first item information and the fourth item information should be the same.

If the third item information includes fourth item information, in this step, the first item information is verified according to the fourth item information, which can be specifically realized in the following manner:

judging whether the first goods information is consistent with the fourth goods information; if the first goods information is consistent with the fourth goods information, the first goods information is verified to be passed; and if the first goods information is inconsistent with the fourth goods information, the first goods information is not verified.

In this embodiment, the fifth item information includes the number of operated items in the container of the carrier during the operation, and the number of operated items in the fifth item information should be identical to the number of operated items in the first item information.

If the third item information includes fifth item information, in this step, the first item information is verified according to the fifth item information, which can be specifically implemented in the following manner:

judging whether the quantity of the operated goods in the fifth goods information is consistent with that in the first goods information or not; if the number of the operated goods in the fifth goods information is consistent with that in the first goods information, the first goods information is verified to be passed; and if the fifth goods information is inconsistent with the operated goods quantity in the first goods information, the first goods information is not verified.

In an optional implementation manner of this embodiment, the intelligent interactive glasses system may further send the first image and the third image to the quantity monitoring computing system. And the quantity monitoring and calculating system receives the first image and the third image of the operated goods in the task process sent by the intelligent interactive glasses system, and verifies the information of the first goods according to the first image and the third image of the operated goods.

Specifically, the quantity monitoring operation system performs image processing on the first image and identifies the operated goods in the first image; carrying out image processing on the third image to identify the identification information of the operated goods in the third image; and determining the category and the quantity of the operated goods in the working process according to the identified operated goods in the first image and the third image.

The quantity monitoring and computing system performs image processing on the first image, identifies the operated goods in the first image, performs image processing on the first image of the operated goods with the intelligent interactive glasses system in the step S304, and identifies the operated goods in the first image in a consistent implementation manner, which is not repeated herein. The quantity monitoring and computing system performs image processing on the third image, identifies the identification information of the operated goods in the third image, and is consistent with the implementation manner of the intelligent interactive glasses system identifying the identification information of the operated goods in the third image in the step S307, which is not repeated here. The quantity monitoring and calculating system determines the type and quantity of the operated goods in the operation process according to the identified operated goods in the first image and the third image, and the implementation manner of determining the type and quantity of the operated goods in the operation process by the intelligent interactive glasses system in the step S309 is consistent, and is not repeated here.

Optionally, the intelligent interactive glasses system further sends the feature data of the operated goods in the first image with failed identification to the quantity monitoring operation system. The quantity monitoring operation system receives the characteristic data of the operated goods in the first image sent by the intelligent interactive glasses system and stores the characteristic data of the operated goods in the first image. Illustratively, the quantity monitoring operation system correspondingly stores the characteristic data of the operated goods in the first image and the identification information of the operated goods so as to bind the characteristic data of the operated goods in the first image and the identification information of the operated goods.

Optionally, the quantity monitoring and computing system may further obtain the goods inventory data, and verify the first goods information based on the change information of the goods inventory data in the task.

And after the verification result of the first goods information is obtained, the quantity monitoring operation system sends the verification result to the intelligent interactive glasses system.

And S314, the intelligent interactive glasses system sends the first goods information to the warehousing management system according to the verification result of the quantity monitoring operation system on the first goods information if the first goods information is verified to be passed.

After receiving the first item information sent by the intelligent interactive glasses system, the warehousing management system performs the processing of the steps S209 to S210, which is not described herein again.

And step S315, displaying second prompt information according to the verification result of the quantity monitoring operation system on the first goods information, wherein the second prompt information is used for prompting an operator to check the information of the operated goods in the operation process if the verification on the first goods information is not passed.

This step is consistent with the real-time method of step S208, and is not described herein again.

In an optional implementation manner in this embodiment, in the task operation process, the first item information determined by the intelligent interactive glasses system and the fourth item information determined by the item monitoring system of the carrying device may be checked and verified with each other.

Specifically, the intelligent interactive glasses system receives fourth goods information sent by a goods monitoring system of the carrying equipment, wherein the fourth goods information comprises the types and the quantity of the operated goods in a container of the carrying equipment in the operation process; and verifying the first goods information according to the fourth goods information. The specific verification process is the same as the process of verifying the first item information according to the fourth item information by the quantity monitoring and calculating system in step S313, and details are not repeated here.

And further, according to the fourth item information, if the verification of the first item information is not passed, displaying third prompt information, wherein the third prompt information is used for prompting an operator to check the information of the operated item in the operation process. The display mode of the third prompt information is consistent with the display mode of the task information, and is not described here again.

Optionally, the intelligent interactive glasses system may also send the first goods information to a goods monitoring system of the carrying device, so that the goods monitoring system of the carrying device verifies fourth goods information determined by the goods monitoring system according to the first goods information.

In this embodiment, when the verification fails in any link, after the operator manually checks the information of the operated goods in the operation process, correct data after the operator manually checks may be fed back through the voice interaction device or the auxiliary function key of the intelligent interactive glasses system. And after receiving the verified correct data, the intelligent interactive glasses system synchronously updates the verified correct data to the quantity monitoring operation system.

In the embodiment of the disclosure, the intelligent interactive glasses system can automatically monitor the operation action of an operator, acquire the first image of the operated goods and realize the automatic identification of the operated goods according to the first image; furthermore, after the first image identification fails, a third image containing goods identification information can be collected, operated goods can be identified based on the third image, and the accuracy of the automatically monitored first goods information is further improved. In addition, the quantity monitoring operation system can also acquire fourth goods information automatically acquired by a goods monitoring system of the carrying equipment and/or fifth goods information automatically acquired by a weight monitoring system, the first goods information is further verified through the fourth goods information and/or the fifth goods information, the accuracy of the goods information of actual operation is improved, the inertia of personnel operation is guaranteed, and the operation efficiency is improved.

Fig. 5 is a schematic structural diagram of an article monitoring system provided in the embodiment of the present disclosure. As shown in fig. 5, the item monitoring system 15 includes: a second image acquisition device 151 and a second processor 152. Wherein the second image capturing device 151 is used to capture images of items within the carrier container.

The second processor 152 is in communication with the warehouse management system 12, and is configured to receive task information issued by the warehouse management system 12.

The second processor 152 is electrically connected to the second image capturing device 151, and is configured to control the second image capturing device 151 to capture an image of an article in the container according to the task information, and determine a type and a first quantity of the article to be handled in the container according to the image of the article in the container, so as to obtain fourth article information.

In some scenarios, the carrier 14 includes a plurality of containers for holding articles. The item monitoring system 15 may include a plurality of second image capturing devices 151 mounted at various locations on the transfer device 14.

Optionally, at least one second image capturing device 151 is disposed corresponding to each container, and each second image capturing device 151 is configured to capture an image of the goods in the corresponding container. For example, a second image capture device 151 may be mounted adjacent each container, with each second image capture device 151 being aligned with a corresponding container for capturing images of items within the corresponding container.

Optionally, the handling device 14 further comprises a movable device, and the second image capturing device 151 is disposed on the movable device. The second processor 152 is electrically connected to the movable device, and the second processor 152 is further configured to control the movable device to move to the corresponding position of the container, so that the second image capturing device 151 is aligned with the container, and control the second image capturing device 151 on the movable device to capture an image of the product in the container.

For example, the handling apparatus may be a robot, including two containers, namely a fork and a pack basket, and a camera may be mounted on the fork and near the pack basket for capturing images of goods in the fork or the pack basket, respectively; or, can install a camera on the fork, can gather the image of goods in the fork, when the image of goods in the basket carried on the back needs to be gathered, goods monitoring system can send control command to the robot to make robot control fork remove to corresponding position, make the image of goods in the basket carried on the back can be gathered to the camera on the fork.

Optionally, the item monitoring system 15 further includes a light indicator 153, the light indicator 153 for indicating a picking position of an item to be handled. When a certain goods needs to be operated, the light indicating device 153 of the corresponding picking position of the goods is lightened, so that the operator can find the goods quickly, and the operation efficiency can be improved.

Optionally, the quantity monitoring computing system 17 comprises a fourth processor 171, the fourth processor 171 is in communication with the second processor 152 of the item monitoring system 15, and the second processor 152 is configured to transmit the item type (i.e. the fourth item information) and the first quantity of the operated item in the container to the fourth processor 171.

In addition, the fourth processor 171 is in communication connection with the first processor 111 of the intelligent interactive glasses system 11 (other parts of the intelligent interactive glasses system are not shown in fig. 5, and other parts are shown in fig. 1), and the first processor 111 is configured to transmit the first item information to the fourth processor 171. The fourth processor 171 is further configured to verify the first item information according to the category and the first quantity (i.e., the fourth item information) of the operated item in the container, and transmit the verification result to the first processor 111.

Optionally, the second processor 152 of the item monitoring system 15 is in communication connection with the first processor 111 of the intelligent interactive glasses system 11, and the second processor 152 and the first processor 111 may perform data communication to perform mutual authentication between the fourth item information and the first item information.

Fig. 6 is a flow chart of a method of item picking provided by another embodiment of the present disclosure. On the basis of any of the above-described method embodiments, in the present embodiment, a method flow of item picking performed by an item monitoring system is exemplarily described based on the item monitoring system shown in fig. 5. As shown in fig. 6, the method comprises the following specific steps:

and S401, the warehouse management system sends task information to a goods monitoring system of the carrying equipment.

In this embodiment, when a task of the goods picking operation needs to be performed, the warehousing management system sends task information to the goods monitoring system of the handling equipment according to the task need.

The task information comprises the operation type of the operator when the task is executed and second goods information. The second goods information comprises the storage position, the goods type and the quantity of the goods to be operated.

Step S402, the goods monitoring system receives task information.

And S403, acquiring fourth goods information of the goods operated in the container of the carrying equipment in the operation process in the process that the operator operates according to the task information.

The second image acquisition device of the goods monitoring system can monitor the operation action of the operation personnel on the goods in the container of the carrying equipment in real time, and monitor and acquire the information of the operated goods in the container of the carrying equipment in real time in the process that the operation personnel operates according to the task information. And the processor of the goods monitoring system automatically identifies and determines the fourth goods information of the operated goods in the container of the carrying equipment in the operation process according to the collected information of the operated goods in the operation process.

Wherein the fourth item information may include the category and the number of the operated item.

And S404, sending fourth goods information to the quantity monitoring and calculating system, wherein the fourth goods information is used for verifying the first goods information of the operated goods collected by the intelligent interactive glasses system in the process of operating by the operating personnel according to the task information.

After the fourth goods information is determined, the goods monitoring system sends the fourth goods information to the quantity monitoring operation system, so that the quantity monitoring operation system verifies the first goods information of the operated goods collected by the intelligent interactive glasses system in the process that the operating personnel operates according to the task information according to the fourth goods information.

And S405, receiving fourth goods information by the quantity monitoring operation system.

And S406, the quantity monitoring operation system verifies the first goods information according to the fourth goods information.

The implementation manner of this step has been described in detail in step S313, and refer to step S313 specifically, which is not described herein again.

In the embodiment of the disclosure, in the task operation process, manual operation of operators is not needed, the goods monitoring system can automatically collect the fourth goods information of the operated goods in the container of the carrying equipment in the operation process according to the task information, and send the fourth goods information to the quantity monitoring operation system, and the quantity monitoring operation system can verify the first goods information automatically collected by the intelligent interaction glasses system in the same operation process based on the fourth goods information and feed back the verification result. And after the intelligent interactive glasses system determines that the first goods information passes the verification, the intelligent interactive glasses system sends the first goods information to the storage management system, and the storage management system confirms whether the task is completed according to the first goods information and updates the inventory information. The automatic intelligent sorting system can realize the automatic intelligent sorting process, and in the whole sorting operation process, an operator does not need to manually operate electronic equipment such as a computer or an electronic tag system, so that the flow of goods in real objects and the information system can be synchronized, the accuracy of the goods information of actual operation is ensured, the continuous inertia of personnel operation is ensured, and the operation efficiency is greatly improved.

Fig. 7 is a flow chart of a method of item picking provided by another embodiment of the present disclosure. On the basis of the method embodiment corresponding to fig. 6, in this embodiment, a detailed description is given of a method flow of item picking performed by the item monitoring system of the carrier. As shown in fig. 7, the method comprises the following specific steps:

step S501, receiving task information.

In this embodiment, in the process that the operator carries out the operation according to the task information, gather the first goods information of the goods operated in the operation process, include:

collecting a fourth image of the operated goods in the container in the process that the operator operates according to the task information; and determining fourth article information of the operated article in the container during the operation according to the fourth image of the operated article in the container.

Specifically, through the subsequent steps S502-S503, during the process of the worker performing the job according to the task information, the fourth image of the operated goods in the container is collected.

Through the subsequent steps S504-S505, fourth item information of the operated item in the container during the job is determined based on the fourth image of the operated item in the container.

In an alternative embodiment, the second image capturing device is mounted on the pallet fork if the container is a container other than a pallet fork. After receiving the task information, the goods monitoring system adjusts the position of the pallet fork so that the second image acquisition device can acquire the image of the goods in the container.

For example, the container of the currently monitored carrying equipment may be a pack basket of a robot, the second image acquisition device may be a camera arranged on a fork of the robot, and after receiving the task information, the goods monitoring system adjusts the position of the fork so that the camera is aligned to the pack basket, and can acquire images of goods in the pack basket, thereby monitoring the operation of the workers on the goods in the pack basket.

And step S502, monitoring the operation action of goods in the container according to the task information.

The operation action corresponding to the task information comprises the following steps: an operation of putting an article into the container, or an operation of taking out an article from the container.

According to the task information, monitoring the operation action of goods in the container, comprising the following steps:

acquiring a fifth image of the operator within the shooting range; and performing image recognition on the fifth image according to the operation type in the task information, and recognizing an operation action corresponding to the operation type in the fifth image.

Illustratively, the fifth image can be subjected to image recognition according to the operation type in the task information through a neural network model, and the operation action corresponding to the operation type in the fifth image is recognized.

The specific implementation manner of this step is similar to that of step S302 described above, and is not described here again.

And S503, when the operator performs operation action corresponding to the task information on the goods, acquiring a fourth image of the operated goods in the container.

Illustratively, when it is determined that the worker performs the operation action corresponding to the task information on the goods, the second image acquisition device is started to acquire a fourth image of the operated goods in the container.

And step S504, image processing is carried out on the fourth image, and the operated goods in the fourth image are identified.

And after the fourth image is subjected to image processing and the operated goods in the fourth image are identified, the goods monitoring system acquires and stores characteristic data corresponding to the identification information of all the goods.

Further, the step can be specifically realized by adopting the following mode:

performing image processing on the fourth image, and extracting the goods characteristic data in the fourth image; matching the characteristic data of the goods with the characteristic data corresponding to the identification information of all the goods, and determining the identification information of the operated goods in the fourth image.

The specific implementation manner of this step is similar to that of step S304, and is not described here again.

And step S505, determining the type and the quantity of the operated goods in the container in the operation process according to the identification information of the operated goods in the identified fourth image.

The specific implementation manner of this step is similar to that of step S305 described above, and is not described here again.

Step S506, if the operated goods in the fourth image of one operated goods can not be identified, displaying fourth prompt information, wherein the fourth prompt information is used for prompting an operator to align the identification information of the operated goods to the second image acquisition device.

In the step S504, if the operated item in the fourth image of the operated item cannot be identified, the item monitoring system displays the fourth prompt information to prompt the operator to align the identification information of the operated item with the second image capturing device, and the second image capturing device may capture a sixth image containing the identification information of the operated item.

The fourth prompt message in this step may be displayed through a display device or a voice interaction device of the article monitoring system, or may be displayed in other manners such as by lighting a corresponding prompt lamp, which is not repeated here.

Step S507, collecting a sixth image containing the identification information of the operated goods, and identifying the identification information of the operated goods in the sixth image.

The specific implementation manner of this step is similar to that of step S307, and is not described here again.

And step S508, extracting and saving the characteristic data of the operated goods in the fourth image.

In this embodiment, after the identification information of the operated goods in the sixth image is identified, the goods monitoring system extracts and stores the feature data of the operated goods in the sixth image.

In the step S504, if the operated item in the fourth image of the operated item cannot be identified, it is described that the stored feature data does not include the feature data of the operated item, or the feature data of the operated item is changed, for example, a case of replacing the package. After the sixth image containing the identification information of the operated goods is collected and the identification information of the operated goods in the sixth image is identified, the goods monitoring system extracts the characteristic data of the operated goods in the fourth image and updates the characteristic data bound with the identification information of the goods, so that the independent learning of the goods characteristics is realized. The next time the item is manipulated, the item monitoring system may identify the item by acquiring a fourth image of the item.

Optionally, the goods monitoring system may also perform synchronous update of the feature data bound with the identification information of all the goods with the quantity monitoring computing system in real time or at intervals.

In an alternative embodiment, the item monitoring system sends the fourth image to the quantity monitoring computing system. The quantity monitoring operation system receives a fourth image of the operated goods in the task operation process sent by the goods monitoring system; and verifying the fourth goods information according to the fourth image of the operated goods.

Further, the goods monitoring system sends the sixth image and the characteristic data of the operated goods in the sixth image to the quantity monitoring operation system. The quantity monitoring operation system receives a sixth image of the operated goods in the task operation process sent by the goods monitoring system and characteristic data of the operated goods in the sixth image, wherein the sixth image comprises identification information of the operated goods; verifying the fourth goods information according to the sixth image and the fourth image; the characteristic data of the operated item in the sixth image is stored.

In an optional implementation manner of this embodiment, in the task operation process, the first item information determined by the intelligent interactive glasses system may be checked and verified with the fourth item information determined by the item monitoring system of the carrying device.

Specifically, the goods monitoring system receives first goods information sent by the intelligent interactive glasses system, wherein the first goods information comprises the types and the quantity of the operated goods in the operation process; and verifying the fourth goods information according to the first goods information. The specific verification process is the same as the process of verifying the first item information according to the fourth item information by the quantity monitoring and calculating system in step S313, and details are not repeated here.

And further, according to the first goods information, if the fourth goods information is not verified, displaying fifth prompt information, wherein the fifth prompt information is used for prompting an operator to check the information of the operated goods in the operation process. The display mode of the fifth prompt message is consistent with that of the fourth prompt message, and is not repeated here.

Optionally, the goods monitoring system may also send fourth goods information to the intelligent interactive glasses system, so that the intelligent interactive glasses system verifies the first goods information determined by the intelligent interactive glasses system according to the fourth goods information.

In the embodiment, the goods monitoring system can automatically monitor the operation action of the operator, acquire the fourth image of the operated goods in the container of the carrying equipment and realize the automatic identification of the operated goods in the container of the carrying equipment according to the fourth image; furthermore, after the fourth image is failed to be identified, a sixth image containing goods identification information can be collected, the operated goods can be identified based on the sixth image, and the accuracy of the automatically monitored fourth goods information is further improved. The quantity monitoring operation system further verifies the first goods information automatically acquired by the intelligent interactive glasses system in the same operation process according to the fourth goods information automatically acquired by the goods monitoring system, so that the accuracy of the goods information of actual operation is improved, the connection inertia of personnel operation is ensured, and the operation efficiency is improved.

Fig. 8 is a schematic structural diagram of a weight monitoring system according to an embodiment of the present disclosure. As shown in fig. 8, the weight monitoring system 16 includes: a third processor 161 and a weight detecting device 162 provided on each container of the conveying apparatus. Wherein the weight detecting device 162 is used for collecting the weight of the goods in the container.

The third processor 161 is in communication connection with the warehouse management system 12, and is configured to receive task information issued by the warehouse management system.

The third processor 161 is electrically connected to the weight detecting device 162, and is configured to control the weight detecting device 162 to collect a first weight of the goods in the container at the beginning of the task and collect a second weight of the goods in the container at the end of the task according to the task information; the third processor 161 is further configured to calculate a second amount of the handled item in the container according to the single weight of the handled item in the task information, and the first weight and the second weight, and obtain fifth item information.

Specifically, the third processor 161 is further configured to calculate a difference between the first weight and the second weight, and obtain the total weight of the operated goods in the container during the operation; and calculating the second quantity of the operated goods in the container in the operation process according to the single weight of the operated goods in the task information and the total weight of the operated goods in the container to obtain fifth goods information.

Alternatively, the weight detecting device 162 provided on each container of the carrier apparatus may include a plurality of weight sensors each for detecting the weight of the goods in the container.

The third processor 161 is electrically connected to each of the weight sensors, and is configured to receive the detection values of the plurality of weight sensors, and to use the weight value that appears the most frequently among the detection values of the plurality of weight sensors as the weight of the goods in the container.

Alternatively, the weight sensor may be installed inside the carrier container, and may be capable of detecting the amount of change in the weight of the goods in the container during the operation. The plurality of weight sensors can be mutually verified to improve the accuracy of the detection of the weight of goods in the container.

Alternatively, the weight sensor may be a strain gauge mass detection sensor.

Wherein, the accuracy of weight sensor can set up according to the quality that the goods was deposited to the container, and the quality that the goods was deposited to the container is different, can use the weight sensor of different accuracies.

Optionally, the fourth processor 171 of the quantity monitoring computing system 17 is communicatively coupled to the third processor 161 of the weight monitoring system 16, and the third processor 161 is configured to transmit the second quantity of the handled item (i.e., the fifth item information) in the container to the fourth processor 171.

The fourth processor 171 is in communication connection with the first processor 111 of the intelligent interactive glasses system 11 (other parts of the intelligent interactive glasses system are not shown in fig. 8, and other parts are shown in fig. 1), and the first processor 111 is configured to transmit the first item information to the fourth processor 171. The fourth processor 171 is further configured to verify the first item information according to the second quantity of the operated items in the container (i.e., the fifth item information), and transmit the verification result to the first processor 111.

Optionally, the fourth processor 171 is further configured to verify the first item information according to the second quantity (i.e., the fifth item information) of the operated item in the container, verify the first item information according to the type and the first quantity (i.e., the fourth item information) of the operated item in the container, and transmit the verification result to the first processor 111.

Fig. 9 is a flow chart of a method of item picking provided by another embodiment of the present disclosure. On the basis of any one of the above-described method embodiments, in the present embodiment, a method flow of item picking performed by the weight monitoring system is exemplarily described based on the weight monitoring system shown in fig. 8. As shown in fig. 9, the method comprises the following specific steps:

step S601, the warehousing management system sends task information to a weight monitoring system of the handling equipment.

In this embodiment, when a task of the goods picking operation needs to be performed, the warehousing management system sends task information to the weight monitoring system of the handling equipment according to the task need.

The task information comprises the operation type of the operator when the task is executed and second goods information. The second goods information comprises the storage position, the goods type and the quantity of the goods to be operated.

Alternatively, the warehouse management system may send the task information to the handling equipment, and the handling equipment issues the task information to the goods monitoring system and the weight monitoring system.

Step S602, the weight monitoring system receives task information.

Step S603, in the process of the operator performing the operation according to the task information, acquiring fifth item information of the operated item in the container of the carrying device in the operation process.

In this embodiment, the step may be specifically implemented as follows:

collecting the total weight of the handled goods in the container of the handling equipment in the operation process; the number of handled articles in the container of the carrier during the operation is calculated based on the individual weight of the handled articles in the task information and the total weight.

Illustratively, collecting the total weight of handled items in a container of a handling apparatus during a process includes: collecting a first weight of goods in the container at the beginning of the operation process and a second weight of goods in the container at the end of the operation process; and calculating the difference value between the first weight information and the second weight information to obtain the total weight of the operated goods in the container of the carrying equipment during the operation.

For example, the weight detecting device measures a first measured value when the worker starts the work during the entire work of the job, measures a second measured value when the worker ends the work (or the next work starts the job), and calculates a difference between the first measured value and the second measured value, whereby the total quality of the article handled during the work can be obtained.

Illustratively, when the task information is received, the weight of the item in the container is collected, resulting in a first weight. And when receiving next task information or receiving a task ending instruction corresponding to the task information, acquiring the weight of goods in the container to obtain a second weight.

Alternatively, the weight detecting means may include a plurality of weight sensors.

Receiving weight values of a plurality of weight sensors when the weight of the goods in the container is collected, wherein the plurality of weight sensors are used for collecting the weight of the goods in the container; the weight value that appears the most frequently among the detection values of the plurality of weight sensors is taken as the weight of the goods in the container.

Illustratively, each time the weight is detected, the values of all the weight sensors are obtained and processed into weight values of the same set precision, and the weight value with the largest occurrence number is taken as the currently measured weight, so as to ensure the accuracy of the weight of the goods.

After the total weight of the operated goods in the container of the carrying equipment in the operation process is collected, the third processor of the weight monitoring system calculates the number of the operated goods in the container of the carrying equipment in the operation process through multiple operation according to the single weight and the total weight of the operated goods in the task information, namely obtains fifth goods information.

And S604, sending fifth goods information to the quantity monitoring and calculating system, wherein the fifth goods information is used for verifying the first goods information of the operated goods collected by the intelligent interactive glasses system in the process of operating by the operating personnel according to the task information.

After the fifth item information is determined, the weight monitoring system sends the fifth item information to the quantity monitoring and operating system, so that the quantity monitoring and operating system verifies the first item information of the operated item, collected by the intelligent interactive glasses system in the process of the operation of the operating personnel according to the task information, according to the fifth item information.

And step S605, the quantity monitoring operation system receives the fifth goods information.

And S606, verifying the first goods information by the quantity monitoring operation system according to the fifth goods information.

The implementation manner of this step has been described in detail in step S313, and refer to step S313 specifically, which is not described herein again.

In the embodiment of the disclosure, in the task operation process, manual operation of an operator is not needed, the weight monitoring system can automatically collect the total weight of operated goods in a container of a carrying device in the operation process according to task information, calculate and determine the number of the operated goods, obtain fifth goods information, send the fifth goods information to the number monitoring and operating system, and the number monitoring and operating system can verify the first goods information automatically collected by the intelligent interactive glasses system in the same operation process based on the fifth goods information and feed back a verification result. And after the intelligent interactive glasses system determines that the first goods information passes the verification, the intelligent interactive glasses system sends the first goods information to the storage management system, and the storage management system confirms whether the task is completed according to the first goods information and updates the inventory information. The automatic intelligent sorting system can realize the automatic intelligent sorting process, and in the whole sorting operation process, an operator does not need to manually operate electronic equipment such as a computer or an electronic tag system, so that the flow of goods in real objects and the information system can be synchronized, the accuracy of the goods information of actual operation is ensured, the continuous inertia of personnel operation is ensured, and the operation efficiency is greatly improved.

Fig. 10 is a general flow chart of an intelligent picking system according to another embodiment of the disclosure. On the basis of any of the above method embodiments, the overall flow of the intelligent picking system is exemplarily described in the present embodiment. As shown in FIG. 10, the general flow of the intelligent picking system is as follows:

(1) the warehousing management system WMS issues task information to the intelligent interactive glasses system; (2) the intelligent interactive glasses system displays task information; (3) the operator operates according to the displayed task information and operates goods on the carrying equipment; executing (4) (5) (6) during the operation: (4) the intelligent interactive glasses system identifies the operation action of an operator, collects the image of the operated goods and the first goods information, and sends the image of the operated goods and the first goods information to the quantity monitoring operation system; (5) recording the weight change of the operated goods in the container by a weight monitoring system of the carrying equipment, and calculating fifth goods information; (6) the goods monitoring system of the carrying equipment identifies the operation action of an operator, collects the image of the operated goods and the fourth goods information, and sends the image of the operated goods and the fourth goods information to the quantity monitoring operation system; (7) the quantity monitoring operation system verifies the first goods information according to the image of the operated goods, the fourth goods information and the fifth goods information and feeds back a verification result to the intelligent interactive glasses system; (8) the intelligent interactive glasses system sends the first goods information to the warehousing management system, and the warehousing management system confirms the tasks and updates the inventory information; (9) the intelligent interactive glasses system interacts with the carrying equipment and other systems, and displays interactive information and task execution results.

In this embodiment, an overall flow of the intelligent picking system is exemplarily described based on an optional implementation, in other implementations, the flow of the intelligent picking system may be changed accordingly, and this embodiment is not specifically limited herein.

Fig. 11 is a schematic structural view of an article picking apparatus provided in an embodiment of the present disclosure. The device that goods was selected that this disclosed embodiment provided is applied to intelligent mutual glasses system. As shown in fig. 11, the article picking apparatus 70 includes: a task information processing module 701 and a goods information management module 702.

Specifically, the task information processing module 701 is configured to receive and display task information.

The goods information management module 702 is configured to collect first goods information of a operated goods during an operation process when an operator performs an operation according to the task information.

The goods information management module 702 is further configured to send the first goods information to the quantity monitoring computing system.

The goods information management module 702 is further configured to send the first goods information to the warehousing management system according to a verification result of the quantity monitoring operation system on the first goods information if the verification on the first goods information is passed.

In an optional embodiment, the goods information management module is further configured to: collecting a first image of an operated goods during the operation process of an operator according to task information; and determining first article information of the operated article in the operation process according to the first image of the operated article.

In an optional implementation manner, the task information processing module is further configured to: displaying the task information through a display device; and/or playing the task information through the voice interaction device.

In an alternative embodiment, the task information includes an operation type and second item information, and the second item information includes a storage location, a type and a quantity of an item to be operated.

In an optional implementation manner, the task information processing module is further configured to: displaying the characteristic information of the goods to be operated according to the second goods information; the characteristic information of the goods to be operated comprises at least one of an image, identification information and appearance information of the goods to be operated.

In an optional embodiment, the goods information management module is further configured to: monitoring the operation action of an operator according to the task information; when an operator performs an operation action corresponding to the task information on the goods, a first image of the operated goods is collected.

In an optional embodiment, the goods information management module is further configured to: performing image processing on a first image of an operated article, and identifying the operated article in the first image; and determining the type and the quantity of the operated goods in the operation process according to the identification information of the operated goods in the recognized first image.

In an optional embodiment, the goods information management module is further configured to: carrying out image processing on a first image of an operated goods, and extracting goods characteristic data in the first image; matching the characteristic data of the goods with the characteristic data corresponding to the identification information of all the goods, and determining the identification information of the operated goods in the first image.

In an optional embodiment, the goods information management module is further configured to: and matching the characteristic data of the goods with the characteristic data corresponding to the identification information of all the goods, and acquiring and storing the characteristic data corresponding to the identification information of all the goods before determining the identification information of the operated goods in the first image.

In an optional embodiment, the goods information management module is further configured to: collecting a second image of the operator; and according to the operation type in the task information, carrying out image recognition on the second image, and recognizing the operation action corresponding to the operation type in the second image.

In an optional embodiment, the goods information management module is further configured to: and through the neural network model, performing image recognition on the second image according to the operation type in the task information, and recognizing the operation action corresponding to the operation type in the second image.

In an optional embodiment, the goods information management module is further configured to: when the operation action corresponding to the task information of the operator on the goods is determined, the first image acquisition device is started to acquire the first image of the operated goods.

In an optional embodiment, the goods information management module is further configured to: the method comprises the steps of carrying out image processing on a first image of an operated goods, and displaying first prompt information if the operated goods in the first image of a certain operated goods cannot be identified after the operated goods in the first image are identified, wherein the first prompt information is used for prompting an operator to align identification information of the operated goods to a first image acquisition device.

In an optional embodiment, the goods information management module is further configured to: collecting a third image containing identification information of the operated goods; and identifying the identification information of the operated goods in the third image.

In an optional embodiment, the goods information management module is further configured to: after the identification information of the operated goods in the third image is identified, the characteristic data of the operated goods in the first image is extracted and stored.

In an optional embodiment, the goods information management module is further configured to: and after extracting and storing the characteristic data of the operated goods in the first image, sending the third image and the characteristic data of the operated goods in the first image to a quantity monitoring operation system.

In an optional embodiment, the goods information management module is further configured to: in the process that an operator works according to task information, after first goods information of goods to be operated in the working process is collected, a first image is sent to a quantity monitoring operation system.

In an optional embodiment, the goods information management module is further configured to: and displaying second prompt information if the first goods information is not verified according to the verification result of the quantity monitoring operation system on the first goods information, wherein the second prompt information is used for prompting an operator to check the information of the operated goods in the operation process.

In an optional embodiment, the goods information management module is further configured to: after first goods information of the operated goods in the operation process is collected, fourth goods information sent by a goods monitoring system of the carrying equipment is received, wherein the fourth goods information comprises the types and the quantity of the operated goods in a container of the carrying equipment in the operation process; and verifying the first goods information according to the fourth goods information.

In an optional embodiment, the goods information management module is further configured to: and according to the fourth goods information, if the verification of the first goods information is not passed, displaying third prompt information, wherein the third prompt information is used for prompting an operator to check the information of the operated goods in the operation process.

In an optional embodiment, the goods information management module is further configured to: after first goods information of the operated goods in the operation process is collected, the first goods information is sent to a goods monitoring system of the carrying equipment.

The apparatus provided in the embodiments of the present disclosure may be specifically configured to execute the method flow executed by the intelligent interactive glasses system in any one of the above method embodiments, and specific functions and technical effects are referred to in the above embodiments and are not described herein again.

Fig. 12 is a schematic structural view of an article picking apparatus provided in an embodiment of the present disclosure. The goods sorting device provided by the embodiment of the disclosure is applied to a quantity monitoring operation system. As shown in fig. 12, the article picking apparatus 80 includes: an item information acquisition module 801 and an item information verification module 802.

Specifically, the item information obtaining module 801 is configured to receive first item information sent by the intelligent interactive glasses system, where the first item information is information of an operated item in an operation process of a task.

The goods information obtaining module 801 is further configured to obtain third goods information sent by the monitoring system of the transporting apparatus, where the third goods information is information of a handled goods in a container of the transporting apparatus during an operation process of the same task.

The goods information verifying module 802 is configured to verify the first goods information according to the third goods information, and send a verification result to the intelligent interactive glasses system.

In an alternative embodiment, the third item information includes: the fourth goods information is sent by the goods monitoring system of the carrying equipment, and the fourth goods information comprises the types and the quantity of the operated goods in the container of the carrying equipment in the operation process; and/or fifth goods information sent by the weight monitoring system of the carrying equipment, wherein the fifth goods information comprises the number of the operated goods in the container of the carrying equipment in the operation process.

In an alternative embodiment, the goods information verification module is further configured to: judging whether the first goods information is consistent with the fourth goods information; if the first goods information is consistent with the fourth goods information, the first goods information is verified to be passed; and if the first goods information is inconsistent with the fourth goods information, the first goods information is not verified.

In an alternative embodiment, the goods information verification module is further configured to: judging whether the quantity of the operated goods in the fifth goods information is consistent with that in the first goods information or not; if the number of the operated goods in the fifth goods information is consistent with that in the first goods information, the first goods information is verified to be passed; and if the fifth goods information is inconsistent with the operated goods quantity in the first goods information, the first goods information is not verified.

In an alternative embodiment, the goods information verification module is further configured to: receiving a first image and a third image of an operated goods in the task process sent by the intelligent interactive glasses system, wherein the third image comprises identification information of the operated goods; and verifying the first goods information according to the first image and the third image of the operated goods.

In an alternative embodiment, the goods information verification module is further configured to: receiving characteristic data of operated goods in a first image sent by an intelligent interactive glasses system; the characteristic data of the operated item in the first image is stored.

In an alternative embodiment, the goods information verification module is further configured to: receiving a fourth image and a sixth image of an operated goods in the task process sent by a goods monitoring system, wherein the sixth image comprises identification information of the operated goods; and verifying the fourth goods information according to the fourth image and the sixth image of the operated goods.

In an alternative embodiment, the goods information verification module is further configured to: receiving characteristic data of the operated goods in the fourth image sent by the goods monitoring system; the feature data of the operated item in the fourth image is stored.

The apparatus provided in the embodiments of the present disclosure may be specifically configured to execute the method flow executed by the quantity monitoring computing system in any one of the above method embodiments, and specific functions and technical effects are referred to the above embodiments and are not described herein again.

Fig. 13 is a schematic structural view of an article picking apparatus provided in an embodiment of the present disclosure. The device that goods was selected that this disclosed embodiment provided is applied to haulage equipment's goods monitoring system, and haulage equipment is including the container that is used for holding the goods, and goods monitoring system still includes the second image acquisition device that is used for gathering the goods image in the container. As shown in fig. 13, the article picking apparatus 90 includes: a task receiving module 901 and an item information management module 902.

Specifically, the task receiving module 901 is configured to receive task information.

The goods information management module 902 is configured to collect fourth goods information of goods operated in a container of the transport apparatus during the operation process when the operator performs the operation according to the task information.

The goods information management module 902 is further configured to send fourth goods information to the quantity monitoring operation system, where the fourth goods information is used to verify the first goods information of the operated goods collected by the intelligent interactive glasses system in the process of the operation performed by the operator according to the task information.

In an optional embodiment, the goods information management module is further configured to: collecting a fourth image of the operated goods in the container in the process that the operator operates according to the task information; and determining fourth article information of the operated article in the container during the operation according to the fourth image of the operated article in the container.

In an optional embodiment, the goods information management module is further configured to: monitoring the operation action of goods in the container according to the task information; when an operator performs operation actions corresponding to the task information on the goods, acquiring a fourth image of the operated goods in the container; the operation action corresponding to the task information comprises the following steps: an operation of putting an article into the container, or an operation of taking out an article from the container.

In an optional embodiment, the goods information management module is further configured to: performing image processing on the fourth image, and identifying the operated goods in the fourth image; and determining the type and the quantity of the operated goods in the container in the operation process according to the identification information of the operated goods in the identified fourth image.

In an optional embodiment, the goods information management module is further configured to: performing image processing on the fourth image, and extracting the goods characteristic data in the fourth image; matching the characteristic data of the goods with the characteristic data corresponding to the identification information of all the goods, and determining the identification information of the operated goods in the fourth image.

In an optional embodiment, the goods information management module is further configured to: and matching the characteristic data of the goods with the characteristic data corresponding to the identification information of all the goods, and acquiring and storing the characteristic data corresponding to the identification information of all the goods before determining the identification information of the operated goods in the fourth image.

In an optional embodiment, the goods information management module is further configured to: acquiring a fifth image of the operator within the shooting range; and performing image recognition on the fifth image according to the operation type in the task information, and recognizing an operation action corresponding to the operation type in the fifth image.

In an optional embodiment, the goods information management module is further configured to: and through the neural network model, according to the operation type in the task information, carrying out image recognition on the fifth image, and recognizing the operation action corresponding to the operation type in the fifth image.

In an optional embodiment, the goods information management module is further configured to: and when the operation action corresponding to the task information of the operator on the goods is determined, starting a second image acquisition device to acquire a fourth image of the operated goods in the container.

In an optional embodiment, the goods information management module is further configured to: and performing image processing on the fourth image, and displaying fourth prompt information if the operated goods in the fourth image of a certain operated goods cannot be identified after the operated goods in the fourth image are identified, wherein the fourth prompt information is used for prompting an operator to align the identification information of the operated goods to the second image acquisition device.

In an optional embodiment, the goods information management module is further configured to: collecting a sixth image containing identification information of the operated goods; and identifying the identification information of the operated goods in the sixth image.

In an optional embodiment, the goods information management module is further configured to: after the identification information of the operated goods in the sixth image is identified, the characteristic data of the operated goods in the fourth image is extracted and stored.

In an optional embodiment, the goods information management module is further configured to: and after extracting and storing the characteristic data of the operated goods in the sixth image, sending the sixth image and the characteristic data of the operated goods in the fourth image to the quantity monitoring operation system.

In an optional embodiment, the goods information management module is further configured to: and in the process that an operator operates according to the task information, after fourth goods information of the operated goods in the container of the carrying equipment in the operation process is collected, a fourth image is sent to the quantity monitoring operation system.

In an alternative embodiment, if the container is a container other than a fork, the second image capturing device is mounted on the fork, and the article information management module is further configured to: after receiving the task information, adjusting the position of the fork so that the second image acquisition device can acquire the image of the goods in the container.

In an optional embodiment, the goods information management module is further configured to: in the process that an operator works according to task information, after fourth goods information of the operated goods in a container of the carrying equipment in the working process is collected, first goods information sent by the intelligent interactive glasses system is received, wherein the first goods information comprises the types and the quantity of the operated goods in the working process; and verifying the fourth goods information according to the first goods information.

In an optional embodiment, the goods information management module is further configured to: and displaying fifth prompt information if the fourth goods information is not verified according to the first goods information, wherein the fifth prompt information is used for prompting an operator to check the information of the operated goods in the operation process.

In an optional embodiment, the goods information management module is further configured to: and in the process that the operating personnel operate according to the task information, after fourth goods information of the operated goods in the container of the carrying equipment in the operation process is collected, the fourth goods information is sent to the intelligent interactive glasses system.

The device provided in the embodiments of the present disclosure may be specifically configured to execute the method process executed by the article monitoring system of the carrying device in any one of the above method embodiments, and specific functions and technical effects are referred to in the above embodiments and are not described herein again.

Fig. 14 is a schematic structural view of an article picking apparatus provided in an embodiment of the present disclosure. The device that goods was selected that this disclosed embodiment provided is applied to haulage equipment's weight monitoring system, and haulage equipment includes the container that is used for holding the goods, and weight monitoring system includes the weight detection device that is arranged in detecting the goods weight in the container. As shown in fig. 14, the apparatus 100 for picking up an article includes: a task receiving module 1001 and an item information managing module 1002.

Specifically, the task receiving module 1001 is configured to receive task information.

The goods information management module 1002 is configured to collect fifth goods information of goods operated in a container of the transport apparatus during an operation process when an operator performs an operation according to the task information.

The goods information management module 1002 is further configured to send fifth goods information to the quantity monitoring operation system, where the fifth goods information is used to verify the first goods information of the operated goods collected by the intelligent interactive glasses system in the process of performing the operation by the operator according to the task information.

In an optional embodiment, the goods information management module is further configured to: collecting the total weight of the handled goods in the container of the handling equipment in the operation process; the number of handled articles in the container of the carrier during the operation is calculated based on the individual weight of the handled articles in the task information and the total weight.

In an optional embodiment, the goods information management module is further configured to: collecting a first weight of goods in the container at the beginning of the operation process and a second weight of goods in the container at the end of the operation process; and calculating the difference value between the first weight information and the second weight information to obtain the total weight of the operated goods in the container of the carrying equipment during the operation.

In an optional embodiment, the goods information management module is further configured to: when receiving the task information, acquiring the weight of goods in the container to obtain a first weight; and when receiving next task information or receiving a task ending instruction corresponding to the task information, acquiring the weight of goods in the container to obtain a second weight.

In an optional embodiment, the goods information management module is further configured to: receiving weight values of a plurality of weight sensors, each of the plurality of weight sensors being for collecting a weight of a good in the container; the weight value that appears the most frequently among the detection values of the plurality of weight sensors is taken as the weight of the goods in the container.

The apparatus provided in the embodiments of the present disclosure may be specifically configured to execute the method process executed by the weight monitoring system of the carrying device in any one of the above method embodiments, and specific functions and technical effects are referred to in the above embodiments and are not described herein again.

Fig. 15 is a schematic structural view of an article picking apparatus provided in an embodiment of the present disclosure. The goods sorting device provided by the embodiment of the disclosure is applied to a warehousing management system. As shown in fig. 15, the article picking apparatus 130 includes: a task issuing module 1301, an item information receiving module 1302 and a task confirming module 1303.

Specifically, the task issuing module 1301 is configured to send task information, where the task information includes an operation type and second item information.

The goods information receiving module 1302 is configured to receive first goods information, where the first goods information is the first goods information of the operated goods during the operation process acquired by the intelligent interactive glasses system during the operation of the operator according to the task information.

The task confirming module 1303 is configured to confirm whether the task is completed according to the first item information and the second item information, and update the item inventory information.

In an optional implementation manner, the task issuing module 1301 is further configured to send task information to the intelligent interactive glasses system, the goods monitoring system of the carrying device, and the weight monitoring system.

The apparatus provided in the embodiments of the present disclosure may be specifically configured to execute the method flow executed by the warehousing management system in any one of the method embodiments, and specific functions and technical effects are referred to the above embodiments, which are not described herein again.

Fig. 16 is a schematic structural view of an article picking apparatus provided by an embodiment of the present disclosure. As shown in fig. 16, the apparatus 120 for goods picking includes: a processor 1201, a memory 1202, and computer programs stored on the memory 1202 and executable on the processor 1201.

When the processor 1201 runs the computer program, the method flow executed by any one of the intelligent interactive glasses system, the quantity monitoring and calculating system, the goods monitoring system, the weight monitoring system, and the warehouse management system in any one of the method embodiments is implemented, and specific functions and technical effects are referred to the above embodiments and will not be described herein again.

In addition, an embodiment of the present disclosure further provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, and when the computer program is executed by a processor, the computer program implements a method flow executed by any one of the intelligent interactive glasses system, the quantity monitoring and calculating system, the goods monitoring system, the weight monitoring system, and the warehousing management system in any of the method embodiments.

An embodiment of the present disclosure further provides a computer program product, where the program product includes: and a computer program stored in a readable storage medium, from which the computer program can be read by at least one processor of the electronic device, wherein the computer program is executed by the at least one processor, so that the electronic device executes the method processes executed by any one of the intelligent interactive glasses system, the quantity monitoring computing system, the goods monitoring system, the weight monitoring system and the warehouse management system in any one of the above method embodiments.

It is obvious to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above described functions. For the specific working process of the device described above, reference may be made to the corresponding process in the foregoing method embodiment, which is not described herein again.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (14)

1. An item picking system, comprising: the system comprises an intelligent interactive glasses system, a warehousing management system, a sorting table and carrying equipment;

the warehouse management system is in communication connection with the carrying equipment and is used for controlling the carrying equipment to carry goods to be picked to the picking platform, and the picking platform is used for carrying out goods picking operation;

the intelligent interactive glasses system comprises intelligent interactive glasses and a first processor, wherein the intelligent interactive glasses comprise a glasses body, and a first image acquisition device and an information display device are arranged on the glasses body;

the warehousing management system is in communication connection with the first processor and used for issuing task information to the first processor;

the first processor is electrically connected with the information display device and used for controlling the information display device to display the task information, and the task information is used for indicating an operator wearing the intelligent interactive glasses to carry out goods picking operation on the picking platform;

the first processor is electrically connected with the first image acquisition device and used for controlling the first image acquisition device to acquire the image of the operated goods on the sorting platform according to the task information and determining the first goods information of the operated goods according to the image of the operated goods;

the first processor is further configured to transmit the first item information to the warehouse management system.

2. The system of claim 1, wherein the information presentation device comprises: a display device and/or a voice interaction device.

3. The system of claim 1, further comprising: the carrying equipment is provided with a container for containing goods, a goods monitoring system and/or a weight monitoring system,

the goods monitoring system comprises a second image acquisition device and a second processor,

the second processor is in communication connection with the warehousing management system and is used for receiving task information issued by the warehousing management system;

the second processor is electrically connected with the second image acquisition device and used for controlling the second image acquisition device to be used for acquiring the images of the goods in the container according to the task information, and determining the types and the first quantity of the operated goods in the container according to the images of the goods in the container.

4. The system of claim 3, wherein the weight monitoring system comprises: a third processor, and a weight detection device disposed on each of the containers;

the third processor is in communication connection with the warehousing management system and is used for receiving task information issued by the warehousing management system;

and the third processor is electrically connected with the weight detection device and used for controlling the weight detection device to collect the first weight of the goods in the container at the beginning of the task according to the task information, collect the second weight of the goods in the container at the end of the task, and calculate the second quantity of the goods operated in the container according to the single weight of the goods operated in the task information, the first weight and the second weight.

5. The system of claim 3, wherein the transfer device includes a plurality of containers for holding articles.

6. The system according to claim 5, wherein each container is correspondingly provided with at least one second image acquisition device, and each second image acquisition device is used for acquiring an image of goods in the corresponding container.

7. The system of claim 5, wherein the handling apparatus further comprises a movable device, the second image capturing device is disposed on the movable device, the second processor is electrically connected to the movable device, and the second processor is further configured to control the movable device to move to a position corresponding to the container and control the second image capturing device on the movable device to capture an image of the goods in the container.

8. The system of claim 4, wherein the weight detecting means provided on each of the containers includes a plurality of weight sensors, each of the weight sensors being configured to detect a weight of the goods in the container;

the third processor is electrically connected with each weight sensor and is used for receiving the detection values of the plurality of weight sensors and taking the weight value with the largest occurrence number in the detection values of the plurality of weight sensors as the weight of the goods in the container.

9. The system of claim 8, wherein the weight sensor is a strain gauge mass detection sensor.

10. The system of claim 3, wherein the item monitoring system further comprises a light indicating device for indicating a picking position of an item to be handled.

11. The system of claim 4, further comprising a quantity monitoring computing system, the quantity monitoring computing system comprising a fourth processor;

the fourth processor is in communication connection with the second processor, and the second processor is used for transmitting the category and the first quantity of the operated goods in the container to the fourth processor;

the fourth processor is in communication connection with the third processor, and the third processor is used for transmitting a second quantity of the operated goods in the container to the fourth processor;

the fourth processor is in communication connection with the first processor, and the first processor is used for transmitting the first goods information to the fourth processor;

the fourth processor is used for verifying the first goods information according to the category and the first quantity of the operated goods in the container and/or verifying the first goods information according to the second quantity of the operated goods in the container; transmitting a verification result to the first processor.

12. The system of any one of claims 1 to 11, wherein the handling apparatus comprises one or more of:

the robot, the conveying equipment, the self-driven movable goods shelf and the movable goods shelf which can be combined with the moving device and driven to move.

13. The system according to any one of claims 1 to 11, wherein a power source is further provided on the eyeglass body;

the power supply is used for supplying power for the first image acquisition device and the information display device.

14. The system according to any one of claims 1 to 11,

the warehouse management system is also used for confirming whether the task is completed or not according to the first goods information and the task information and updating goods inventory information.

Images