CN119721917A - Equipment installation and maintenance data interaction method, device, storage medium and computer equipment - Google Patents

Abstract

The equipment installation and maintenance data interaction method, device, storage medium and computer equipment provided by the present application, when detecting that a video surveillance platform has initiated an installation and maintenance order, first determine the outbound equipment and its equipment information corresponding to the installation and maintenance order, and pre-bind the equipment information and the installation and maintenance order through the platform, so as to provide a basis for subsequent equipment tracking and management; then, the outbound equipment is audited and configured through the user end to obtain the audit data, and based on the audit data, the national standard code and installation protocol of the outbound equipment are requested from the platform, and then the equipment information, national standard code and installation protocol are bound based on the installation and maintenance order to form the equipment installation and maintenance information, so as to quickly and accurately identify and manage the equipment in the subsequent installation and maintenance process, and improve the overall efficiency and effectiveness of the monitoring business; finally, the outbound equipment is accessed and registered, and the equipment installation and maintenance information is pushed to the user end after the outbound equipment registration is completed, so as to complete the long-distance interaction of the equipment installation and maintenance information and realize the closed-loop management of the entire installation and maintenance process.

Description

Equipment assembly data interaction method and device, storage medium and computer equipment

Technical Field

The application relates to the technical field of equipment assembly dimension data interaction, in particular to an equipment assembly dimension data interaction method, an equipment assembly dimension data interaction device, a storage medium and computer equipment.

Background

Under the background of rapid development of monitoring service, a plurality of monitoring points are spread over a wide area and far away from each other, so that in the construction of a video monitoring platform, a large amount of IPC equipment installation and maintenance and platform debugging work exist, and the task is heavy and complex. In order to ensure the effective operation of the monitoring system, the video monitoring platform manager needs to cooperate with a plurality of assembly and maintenance teams tightly to transmit a series of equipment assembly and maintenance information including an SIP server address, port configuration, an installation protocol of video stream and picture stream, national standard coding of equipment, SN code and the like.

However, at present, the interaction of the equipment maintenance information mainly depends on manual offline operation, and the mode is low in efficiency, and the accuracy of the information is difficult to ensure, so that the whole maintenance process is difficult to realize closed-loop management, and the overall efficiency and effect of the monitoring service are further affected.

Disclosure of Invention

The application aims to at least solve one of the technical defects, in particular to the technical defects that the equipment assembly and maintenance information interaction method in the prior art is low in efficiency and difficult to ensure the accuracy of information, so that the whole assembly and maintenance process is difficult to realize closed-loop management, and the overall efficiency and effect of monitoring business are further influenced.

The application provides a device assembly data interaction method, which comprises the following steps:

when a video monitoring platform is detected to initiate a maintenance order, determining a delivery device corresponding to the maintenance order and device information of the delivery device, and pre-binding the device information and the maintenance order through the video monitoring platform;

The method comprises the steps that auditing configuration is carried out on the ex-warehouse equipment through a user side, auditing data are obtained, and national standard coding and installation protocols of the ex-warehouse equipment are requested to the video monitoring platform based on the auditing data;

binding the equipment information, the national standard code and the installation protocol based on the maintenance order to form equipment maintenance information;

and carrying out access registration on the ex-warehouse equipment based on the national standard code, and pushing the equipment maintenance information to the user side after the registration of the ex-warehouse equipment is completed.

Optionally, the pre-binding the equipment information and the maintenance order through the video monitoring platform includes:

And synchronizing the equipment information into a video monitoring platform through a platform interface so that the video monitoring platform pre-binds the equipment information and the maintenance order.

Optionally, the auditing configuration is performed on the ex-warehouse equipment by the user side to obtain auditing data, including:

Judging whether the ex-warehouse equipment is custom equipment or not, wherein the custom equipment is preconfigured with server address and port information;

If yes, auditing the configuration information of the ex-warehouse equipment directly through the user side to obtain auditing data;

if not, carrying out information configuration on the ex-warehouse equipment through the user terminal, and taking the configuration result as auditing data.

Optionally, the auditing operation is directly performed on the configuration information of the ex-warehouse device by the user side to obtain auditing data, including:

the equipment codes of the ex-warehouse equipment are obtained, the equipment codes are identified through a user side, configuration information of the ex-warehouse equipment is obtained, and auditing work is carried out on the configuration information to obtain auditing data.

Optionally, the configuring the information of the ex-warehouse device through the user side, and taking the configuration result as audit data includes:

Determining the equipment code of the ex-warehouse equipment, and inputting the equipment code into the audit page of the user side for equipment verification;

logging in a configuration page of the ex-warehouse equipment after verification is completed, configuring server address and port information of the ex-warehouse equipment in the configuration page, and taking a configuration result as auditing data.

Optionally, the performing access registration on the ex-warehouse device based on the national standard code includes:

Generating a device registration request based on the national standard code, and judging whether the ex-warehouse device is a customized device or not;

If yes, redirecting to a target gateway of the ex-warehouse equipment, and initiating an equipment registration request to the target gateway so as to access and register the ex-warehouse equipment through the target gateway;

If not, determining a server address corresponding to the ex-warehouse equipment, and initiating an equipment registration request to the server address so as to perform access registration on the ex-warehouse equipment through the server address.

Optionally, the method further comprises:

and after the user terminal receives the equipment maintenance information of the ex-warehouse equipment, carrying out maintenance adjustment on the ex-warehouse equipment in the user terminal according to the equipment maintenance information.

The application also provides a device assembly data interaction device, which comprises:

The information pre-binding module is used for determining the equipment information of the equipment which corresponds to the maintenance order and the equipment information of the equipment which corresponds to the maintenance order when the video monitoring platform is detected to initiate the maintenance order, and pre-binding the equipment information and the maintenance order through the video monitoring platform;

The equipment auditing module is used for carrying out auditing configuration on the ex-warehouse equipment through a user side to obtain auditing data, and requesting national standard coding and installation protocols of the ex-warehouse equipment from the video monitoring platform based on the auditing data;

The information binding module is used for binding the equipment information, the national standard code and the installation protocol based on the maintenance order to form equipment maintenance information;

and the equipment registration module is used for carrying out access registration on the ex-warehouse equipment based on the national standard code, and pushing the equipment maintenance information to the user terminal after the registration of the ex-warehouse equipment is completed.

The present application also provides a storage medium having stored therein computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the apparatus dimension data interaction method as in any of the above embodiments.

The application also provides a computer device comprising one or more processors and a memory;

The memory has stored therein computer readable instructions which, when executed by the one or more processors, perform the steps of the device-assembly-dimension interaction method of any of the above embodiments.

From the above technical solutions, the embodiment of the present application has the following advantages:

The equipment loading and unloading data interaction method, device, storage medium and computer equipment provided by the application can be used for firstly determining the unloading equipment corresponding to the loading and unloading order and the equipment information of the unloading equipment when the video monitoring platform initiates the loading and unloading order, pre-binding the equipment information and the loading and unloading order through the video monitoring platform, ensuring preliminary association between the loading and unloading order and the unloading equipment, providing a basis for subsequent equipment tracking management, reducing errors and confusion, then carrying out audit configuration on the unloading equipment through a user terminal to obtain audit data, requesting national standard coding and installation protocol of the unloading equipment from the video monitoring platform based on the audit data, thereby realizing information transmission in a long-distance scene, improving efficiency, then binding the equipment information, the national standard coding and the installation protocol based on the loading and unloading order, forming equipment loading and unloading information, rapidly and accurately identifying and managing equipment in a subsequent loading and unloading process, improving the overall efficiency and effect of monitoring service, finally carrying out access registration on the unloading equipment based on the national standard coding, completing the loading and unloading equipment registration, completing the loading and unloading information interaction process of the user terminal to realize the complete loading and unloading equipment.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic flow chart of a device assembly data interaction method according to an embodiment of the present application;

fig. 2 is a schematic flow chart of a process for auditing configuration of a delivery device according to an embodiment of the present application;

fig. 3 is a schematic flow chart of an access registration process of a ex-warehouse device according to an embodiment of the present application;

Fig. 4 is a schematic structural diagram of an apparatus assembly dimension data interaction device according to an embodiment of the present application;

Fig. 5 is a schematic diagram of an internal structure of a computer device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

At present, the interaction of equipment maintenance information mainly depends on manual offline operation, and the mode is low in efficiency, and the accuracy of the information is difficult to ensure, so that closed-loop management is difficult to realize in the whole maintenance process, and the overall efficiency and effect of monitoring business are further affected.

Based on the above, the application provides the following technical scheme, and the specific scheme is as follows:

In one embodiment, as shown in fig. 1, fig. 1 is a flow chart of a device assembly data interaction method provided by the embodiment of the application, and the application provides a device assembly data interaction method, which specifically includes the following steps:

and S110, when the video monitoring platform is detected to initiate the maintenance order, determining the equipment information of the equipment corresponding to the maintenance order and the equipment information of the equipment, and pre-binding the equipment information and the maintenance order through the video monitoring platform.

In the step, when the computer equipment detects that the video monitoring platform initiates the maintenance order, the computer equipment can firstly determine the delivery equipment corresponding to the maintenance order and the equipment information of the delivery equipment, then pre-bind the equipment information and the maintenance order through the video monitoring platform, ensure the preliminary association between the maintenance order and the delivery equipment, provide a basis for follow-up equipment tracking management, and reduce errors and confusion.

It will be understood that the video monitoring platform refers to a video management system or platform for managing and monitoring the running state of the equipment, and can track the ex-warehouse and assembly process of the equipment through a real-time video monitoring function, and initiate an assembly maintenance order through an order platform, wherein the assembly maintenance order refers to a task order related to installation and maintenance, and generally includes information about requirements of assembly, installation, debugging, maintenance and the like of the equipment, and is a task guide and record of the assembly maintenance operation. Therefore, through the maintenance order, the computer equipment can allocate and dispatch equipment for maintenance from the warehouse as the equipment for leaving the warehouse, and acquire the equipment information of the equipment for leaving the warehouse, including relevant information such as equipment codes, SN codes and the like.

Specifically, the computer device may determine the requirement information explicitly required in the assembly and maintenance order, and query and match the requirement information from the device management database to obtain the corresponding device for delivery, and obtain the device information of the device for delivery, so as to provide a basis for subsequent device tracking management. After the equipment information of the ex-warehouse equipment is obtained, the computer equipment can also realize the pre-binding operation of the equipment information and the maintenance order through the video monitoring platform, wherein the pre-binding refers to the preliminary association between the task requirement in the maintenance order and the corresponding ex-warehouse equipment in the platform, the association operation can generate a logic relation chain in the video monitoring platform, which equipment is definitely assigned to the specific maintenance order, and a reliable starting point is provided for the follow-up equipment tracking and management, so that the errors caused by equipment information confusion or ex-warehouse operation errors are effectively reduced.

And S120, auditing configuration is carried out on the ex-warehouse equipment through the user side to obtain auditing data, and national standard coding and installation protocols of the ex-warehouse equipment are requested to the video monitoring platform based on the auditing data.

In the step, after determining the ex-warehouse equipment in step S110, the computer equipment may perform audit configuration on the ex-warehouse equipment through the user side to obtain audit data, and request national standard coding and installation protocol of the ex-warehouse equipment to the video monitoring platform based on the audit data, thereby implementing information transmission in a remote scene and improving efficiency.

The auditing data refer to check sum confirmation information generated after auditing or configuring the ex-warehouse equipment, and the check sum confirmation information comprises key configuration information such as server addresses, port information and the like so as to ensure the authenticity, accuracy and compliance of the ex-warehouse equipment, the national standard code refers to a unique identifier of the equipment, is generally generated by a global universal standard code system and is used for accurately identifying and positioning the ex-warehouse equipment, the installation protocol refers to a technical protocol or configuration standard used for equipment installation, technical guidance is provided for standardized deployment of the equipment, and the ex-warehouse equipment can be ensured to be installed and operated correctly according to preset requirements.

It can be understood that after the computer equipment receives the auditing signal sent by the user through the user terminal, the computer equipment can respond to the auditing signal to audit or configure the key configuration information of the ex-warehouse equipment, integrate the audited information into auditing data for reflecting the current state of the ex-warehouse equipment, and based on the generated auditing data, the computer equipment can initiate a request to the video monitoring platform to acquire the national standard code and the installation protocol of the ex-warehouse equipment. In the application, the national code of the ex-warehouse equipment can be a unique identifier generated by a video monitoring platform, such as a video channel number, and is used for identifying the position and state of the ex-warehouse equipment in the video monitoring platform so as to realize accurate remote management of the ex-warehouse equipment in a multi-level and multi-node monitoring scene, and meanwhile, the video monitoring platform also provides an installation protocol of the ex-warehouse equipment, thereby ensuring that the ex-warehouse equipment can be deployed and debugged according to a unified specification and reducing installation failure or operation problems caused by inconsistency.

And S130, binding the equipment information, the national standard code and the installation protocol based on the installation and maintenance order to form the equipment installation and maintenance information.

In this step, after determining the national standard code and the installation protocol of the ex-warehouse device in step S120, the computer device may bind the device information, the national standard code and the installation protocol based on the assembly and maintenance order, so as to form the assembly and maintenance information of the device, so as to quickly and accurately identify and manage the device in the subsequent assembly and maintenance process, and improve the overall efficiency and effect of the monitoring service.

Specifically, the computer device can firstly determine the device information of the pre-binding of the assembly and maintenance order, and then bind the device information with the requested national standard code and the installation protocol, so that the static attribute of the device can be organically combined with the dynamic operation requirement to form a comprehensive and integrated data unit of the ex-warehouse device, and a foundation is laid for efficient execution of subsequent assembly and maintenance work.

It can be understood that the device dimension information is taken as a comprehensive and integrated data unit of the ex-warehouse device, and the computer device can call and apply the data unit in real time in the subsequent data interaction and dimension operation process, so that the data acquisition efficiency among different devices is improved, the operation errors caused by information islands or inconsistent data are reduced, and solid guarantee is provided for the overall operation efficiency and effect of the monitoring service.

And S140, carrying out access registration on the ex-warehouse equipment based on the national standard code, and pushing equipment maintenance information to the user terminal after the registration of the ex-warehouse equipment is completed.

In this step, after the device dimension information of the ex-warehouse device is generated in step S130, the computer device may further perform access registration on the ex-warehouse device based on the national standard code, and push the device dimension information to the user terminal after the registration of the ex-warehouse device is completed, so as to complete remote interaction of the device dimension information, and realize closed-loop management of the whole assembly process.

Specifically, the national standard code is used as a unique video channel number generated by the video monitoring platform, and can identify the access position and the communication channel of the ex-warehouse equipment in the platform, so that the computer equipment can open an access registration request of the video channel number, and the ex-warehouse equipment can pass through network identity verification and complete access operation, thereby realizing bidirectional interaction between the ex-warehouse equipment and the video monitoring platform. After the ex-warehouse equipment is successfully registered and is accessed to the network, the computer equipment can push equipment assembly and maintenance information bound with the assembly and maintenance order in the video monitoring platform to the corresponding user end, so that the user can carry out assembly and maintenance operation on the ex-warehouse equipment by utilizing the equipment assembly and maintenance information in the user end.

It can be understood that the application realizes the full-link closed-loop management of the equipment maintenance information from generation and transmission to application through the video monitoring platform, thereby greatly improving the efficiency and reliability of the maintenance process and ensuring that the ex-warehouse equipment can be rapidly identified and efficiently managed in the whole life cycle. Meanwhile, through the full-link closed-loop management, the computer equipment can also conduct data remote interaction among the equipment, so that the dependence on field operation is reduced, and the efficiency and effect of modern monitoring service are further optimized.

In the embodiment, when the video monitoring platform is detected to initiate the maintenance order, the equipment information of the equipment corresponding to the maintenance order and the equipment information of the equipment can be determined, the equipment information and the maintenance order are pre-bound through the video monitoring platform, preliminary association between the maintenance order and the equipment is ensured, a basis is provided for follow-up equipment tracking management, errors and confusion are reduced, the equipment can be subjected to audit configuration through a user terminal to obtain audit data, national standard coding and installation protocols of the equipment are requested to the video monitoring platform based on the audit data, information transmission in a remote scene is realized, efficiency is improved, equipment information, national standard coding and installation protocols can be bound based on the maintenance order to form equipment maintenance information, the equipment is rapidly and accurately identified and managed in a follow-up maintenance process, the whole efficiency and effect of monitoring service are improved, finally the equipment is accessed to the equipment based on the national standard coding, the equipment maintenance information is pushed to the user terminal after registration of the equipment is completed, and the remote maintenance information of the equipment is interacted with the user terminal is completed, and the whole maintenance process of the equipment is completed.

In one embodiment, the process of pre-binding the device information and the maintenance order through the video monitoring platform in step S110 may include:

and S111, synchronizing the equipment information into the video monitoring platform through a platform interface so that the video monitoring platform pre-binds the equipment information and the maintenance order.

In this embodiment, after the computer device obtains the device information of the ex-warehouse device, the device information may be synchronized to the video monitoring platform through the platform interface, so that the video monitoring platform pre-binds the device information and the maintenance order, and ensures the preliminary association between the maintenance order and the ex-warehouse device.

Specifically, the computer device may perform standardization processing on the obtained device information, and convert the obtained device information into a data format meeting the requirements of a transmission protocol, for example, JSON, XML or other standardized data packets suitable for system interaction, so as to improve compatibility and reduce parsing errors in the data synchronization process. In the process of data synchronization, the computer device can synchronize the standardized device information to the video monitoring platform through the platform interface, wherein the platform interface can adopt communication protocols such as RESTful API, gRPC or WebSocket, and the like, the computer device is not limited herein, and can select a proper transmission mode according to specific service requirements.

Furthermore, the platform interface can ensure the transmission safety and tamper resistance of data through HTTPS encryption, digital signature or two-way identity authentication and other safety mechanisms. In addition, in order to further improve efficiency, in the process of data synchronization and pre-binding, the computer device may use a message queue, such as Kafka, rabbitMQ, to implement asynchronous processing, so as to avoid influencing the response speed of the system due to delay of real-time transmission or excessive burst data flow.

In one embodiment, as shown in fig. 2, fig. 2 is a flow chart of an auditing configuration process of a delivery device according to an embodiment of the present application, and in fig. 2, a process of auditing configuration of a delivery device by a user side in step S120 to obtain auditing data may include:

S121, judging whether the library device is a custom device or not, wherein the custom device is preconfigured with a server address and port information.

S122, if yes, auditing the configuration information of the ex-warehouse equipment directly through the user side to obtain auditing data.

S123, if not, carrying out information configuration on the ex-warehouse equipment through the user side, and taking the configuration result as auditing data.

In this embodiment, when the computer device performs audit configuration on the outbound device, it may determine whether the outbound device is a custom device, so as to use different audit methods according to different device types, where the custom device refers to a device that is pre-configured with server address and port information. When the ex-warehouse equipment is not the custom equipment, the computer equipment can carry out information configuration on the ex-warehouse equipment through the user side and takes the configuration result as the auditing data.

Where the server address refers to the network address of the location server, which provides the device with a destination location for communications for locating the host to which the device needs to be connected, and the port information may be used to distinguish between logical channels of different services or applications, e.g. the default port of the HTTP protocol is 80 and the HTTPs protocol is 443, each port number corresponding to a particular service or function. Therefore, in the present application, the library apparatus interacts with the host apparatus corresponding to the server address through the port number specified in the port information.

Specifically, relevant configuration is customized in advance in the customizing device, the customizing device can directly communicate with the target server without additional initial configuration, so that the computer device can directly read the configuration information of the customizing device through the user side to carry out auditing work, verify whether the built-in server address and port information are complete and effective and are matched with the requirements specified in the maintenance order, if the verification is passed, the auditing work is finished, and the computer device generates auditing data. On the contrary, the non-customized device refers to a device which is not pre-configured, and the server address and the port information of the device are in a blank or undefined state, so that the computer device needs to perform initialization configuration on the non-customized device through the user side, write the allocated server address and port information into the internal storage, and then can verify the configuration result to ensure that the written server address and port information are accurate and correct, and then generate audit data.

It can be understood that the auditing method can be dynamically adjusted according to the equipment type, so that not only can the auditing efficiency be improved, but also the misoperation possibly caused by equipment difference can be reduced. For customized equipment, the existing configuration information is directly read and verified, repeated operation can be avoided, and for non-customized equipment, initial configuration is completed according to the requirement, and the non-customized equipment can meet the platform requirement. The two auditing modes can ensure that the configuration information of the ex-warehouse equipment reaches a standardized state before the maintenance process begins, thereby realizing the intelligent and refined management of auditing configuration and further improving the overall operation efficiency and effect of monitoring service.

In one embodiment, in step S122, the process of directly auditing the configuration information of the ex-warehouse device to obtain the auditing data through the user side may include:

S1221, acquiring a device code of the ex-warehouse device, identifying the device code through a user side to obtain configuration information of the ex-warehouse device, and auditing the configuration information to obtain auditing data.

In this embodiment, when the ex-warehouse device is a custom device, the computer device may obtain the device code of the ex-warehouse device, and then scan the code to identify the device code through the user terminal, so as to obtain the configuration information of the ex-warehouse device, and further perform auditing work on the configuration information, and generate auditing data after the auditing passes.

It can be understood that the customizing device can generate a device code according to the pre-customized configuration information when leaving the factory, and the device code can be a bar code or a two-dimensional code, which is not limited herein. Therefore, through the device code, the user side can directly scan the code to identify the device code, and the configuration information of the customized device is obtained, so that the flexibility of data interaction can be improved, and the problem of data transmission in a long-distance scene is solved.

Specifically, through the code scanning identification of the user side, the device on the computer can extract the configuration information embedded in the device code in real time, so that the integrity and the accuracy of the configuration information can be checked, namely, the device configuration information is compared with the requirements or standard configuration templates in the maintenance order one by one through preset checking logic. For example, it is verified whether the server address meets the network planning requirement, whether the port number is consistent with the target service, whether the communication protocol version meets the compatibility standard, and so on. After the auditing work passes, the computer equipment can generate auditing data according to the auditing result, and the auditing data is used as the basis for subsequent equipment management and tracking.

In one embodiment, the process of configuring information of the ex-warehouse device through the user side and using the configuration result as audit data in step S123 may include:

S1231, determining the equipment codes of the ex-warehouse equipment, and inputting the equipment codes in the audit page of the user side for equipment verification.

S1232, logging in a configuration page of the ex-warehouse equipment after the verification is completed, so as to configure the server address and port information of the ex-warehouse equipment in the configuration page, and taking the configuration result as auditing data.

In this embodiment, when the ex-warehouse device is a non-customized device, the computer device may determine a device code of the ex-warehouse device, then input the device code in an audit page of the user side to perform device verification, and log in a configuration page of the ex-warehouse device after the verification is completed, so that a server address and port information of the ex-warehouse device may be configured in the configuration page, and finally the computer device may perform audit work on a configuration result, and generate audit data according to the audit result.

Specifically, the device code of the application is a unique identifier allocated to the ex-warehouse device by the maintenance order, so after the device code of the ex-warehouse device is determined, the computer device can input the device code in the audit page of the user side so as to interact with the device management database, and the validity and effectiveness of the device code are verified. The verification process here includes checking whether the device code exists in the platform, is reused, meets the requirements of the maintenance order, and the like. If the device code passes the verification, the computer device can obtain the authority of logging in the configuration page of the ex-warehouse device, thereby being capable of performing the device configuration operation. After entering the configuration page, the computer device may initially configure the device according to parameters provided in the dimension order, including specifying the correct server address and port information for the out-of-stock device. After the configuration is completed, the computer equipment can further perform comprehensive auditing work on the configuration result so as to ensure the accuracy and consistency of the configuration, and further generate auditing data according to the auditing result. The auditing process of the non-customized device is consistent with that of the customized device, and will not be described in detail herein.

In one embodiment, as shown in fig. 3, fig. 3 is a flow chart of an access registration process of a delivery device according to an embodiment of the present application, and in fig. 3, a process of performing access registration on a delivery device based on national standard coding in step S140 may include:

s141, generating a device registration request based on national standard codes, judging whether the library device is a custom device or not, and customizing the custom device in advance to a redirected target gateway.

S142, if yes, redirecting to a target gateway of the ex-warehouse equipment, and initiating an equipment registration request to the target gateway so as to access and register the ex-warehouse equipment through the target gateway.

And S143, if not, determining a server address corresponding to the ex-warehouse equipment, and initiating an equipment registration request to the server address so as to perform access registration on the ex-warehouse equipment through the server address.

In this embodiment, when the computer device performs access registration on the outbound device, the device registration request may be generated according to the national standard code of the outbound device. Since the target gateway with redirection is customized in advance in the customization device. When the ex-warehouse equipment is not the customized gateway, the computer equipment can determine the server address corresponding to the ex-warehouse equipment and initiate an equipment registration request to the server address so as to carry out access registration on the ex-warehouse equipment through the server address.

It can be appreciated that the national standard code, as a unique video channel number generated by the video surveillance platform, may refer to the location and functional attributes of the ex-warehouse device in the network. Based on the video channel number, the computer equipment can generate an equipment registration request under the video channel number, which is used as a starting point of access registration of the ex-warehouse equipment, contains basic information and necessary connection parameters of the ex-warehouse equipment, and lays a foundation for subsequent communication and functional configuration.

Specifically, for the customized device, since the customized device is customized with the redirected target gateway in advance, after the device registration request is generated, the computer device can be directly redirected to the target gateway, and the device registration request is initiated, so that the target gateway can perform identity verification and preliminary configuration verification after receiving the request, ensure that the ex-warehouse device accords with the access standard, and successfully register the ex-warehouse device in the network after verification is passed, so that the ex-warehouse device can normally operate and interact with other devices. For the non-customized equipment, because the non-customized equipment is not pre-configured with the target gateway, at this time, the computer equipment needs to actively determine the server address corresponding to the ex-warehouse equipment after generating the equipment registration request, and initiate the equipment registration request to the server address, so that after receiving the request, the target server corresponding to the server address can verify and access the non-customized equipment according to the rules in the server, and after the verification is passed, the state information and the connection authority of the non-customized equipment are recorded in the management system of the target server, thereby completing the access registration of the equipment.

In one embodiment, the method may further comprise:

And S150, after the user side receives the equipment maintenance information of the ex-warehouse equipment, carrying out maintenance adjustment on the ex-warehouse equipment according to the equipment maintenance information in the user side.

In this embodiment, the device dimension information is core data of dimension adjustment of the ex-warehouse device, and through the device dimension information, the application can efficiently and accurately complete the adjustment work of the ex-warehouse device, thereby ensuring that the device can normally operate in the target network environment. Therefore, after the user can obtain the equipment maintenance information of the ex-warehouse equipment through the user side, the debugging and maintenance work of the ex-warehouse equipment can be started in the user side. Furthermore, in the whole maintenance and adjustment process, the user side can record the adjustment and measurement result and the equipment state information in real time, and package the adjustment and measurement result into a maintenance report after the maintenance and adjustment result, so as to provide a reference basis for long-term operation and maintenance of the ex-warehouse equipment.

The device assembly data interaction device provided by the embodiment of the application is described below, and the device assembly data interaction device described below and the device assembly data interaction method described above can be referred to correspondingly.

In one embodiment, as shown in fig. 4, fig. 4 is a schematic structural diagram of an apparatus assembly data interaction device provided in the embodiment of the present application, and the present application further provides an apparatus assembly data interaction device, including an information pre-binding module 210, an apparatus auditing module 220, an information binding module 230, and an apparatus registration module 240, which specifically includes the following steps:

the information pre-binding module 210 is configured to determine, when detecting that the video monitoring platform initiates the maintenance order, a delivery device corresponding to the maintenance order, and device information of the delivery device, and pre-bind the device information and the maintenance order through the video monitoring platform.

The device auditing module 220 is configured to perform auditing configuration on the ex-warehouse device through the user side, obtain auditing data, and request the national standard coding and installation protocol of the ex-warehouse device from the video monitoring platform based on the auditing data.

The information binding module 230 is configured to bind the device information, the national standard code, and the installation protocol based on the installation order, to form device installation information.

The device registration module 240 is configured to perform access registration on the outbound device based on the national standard code, and push device installation and maintenance information to the user terminal after the outbound device registration is completed.

In the embodiment, when the video monitoring platform is detected to initiate the maintenance order, the equipment information of the equipment corresponding to the maintenance order and the equipment information of the equipment can be determined, the equipment information and the maintenance order are pre-bound through the video monitoring platform, preliminary association between the maintenance order and the equipment is ensured, a basis is provided for follow-up equipment tracking management, errors and confusion are reduced, the equipment can be subjected to audit configuration through a user terminal to obtain audit data, national standard coding and installation protocols of the equipment are requested to the video monitoring platform based on the audit data, information transmission in a remote scene is realized, efficiency is improved, equipment information, national standard coding and installation protocols can be bound based on the maintenance order to form equipment maintenance information, the equipment is rapidly and accurately identified and managed in a follow-up maintenance process, the whole efficiency and effect of monitoring service are improved, finally the equipment is accessed to the equipment based on the national standard coding, the equipment maintenance information is pushed to the user terminal after registration of the equipment is completed, and the remote maintenance information of the equipment is interacted with the user terminal is completed, and the whole maintenance process of the equipment is completed.

In one embodiment, the information pre-binding module 210 may include:

and the information synchronization sub-module is used for synchronizing the equipment information into the video monitoring platform through the platform interface so that the video monitoring platform can pre-bind the equipment information with the maintenance order.

In one embodiment, the device auditing module 220 may include:

The first judging sub-module is used for judging whether the library equipment is custom equipment or not, and the custom equipment is preconfigured with server address and port information.

And the first auditing submodule is used for directly auditing the configuration information of the ex-warehouse equipment through the user side to obtain auditing data when the ex-warehouse equipment is custom equipment.

And the second auditing submodule is used for carrying out information configuration on the ex-warehouse equipment through the user side when the ex-warehouse equipment is not customized equipment, and taking the configuration result as auditing data.

In one embodiment, the first audit sub-module may include:

The information auditing unit is used for acquiring the equipment codes of the ex-warehouse equipment, identifying the equipment codes through the user side to obtain the configuration information of the ex-warehouse equipment, and auditing the configuration information to obtain auditing data.

In one embodiment, the second audit sub-module may include:

the device verification unit is used for determining the device code of the ex-warehouse device and inputting the device code into the audit page of the user side for device verification.

The information configuration unit is used for logging in the configuration page of the ex-warehouse equipment after the verification is completed, so that the server address and port information of the ex-warehouse equipment are configured in the configuration page, and the configuration result is used as auditing data.

In one embodiment, the device registration module 240 may include:

and the second judging sub-module is used for generating a device registration request based on the national standard code and judging whether the library device is a custom device or not, wherein the custom device is customized with a redirected target gateway in advance.

And the first access booklet module is used for redirecting to a target gateway of the ex-warehouse equipment when the ex-warehouse equipment is customized equipment, and initiating an equipment registration request to the target gateway so as to perform access registration on the ex-warehouse equipment through the target gateway.

And the second access booklet module is used for determining a server address corresponding to the ex-warehouse equipment when the ex-warehouse equipment is not customized equipment, and initiating an equipment registration request to the server address so as to access and register the ex-warehouse equipment through the server address.

In one embodiment, the apparatus may further include:

And the installation and maintenance adjustment module is used for carrying out installation and maintenance adjustment on the ex-warehouse equipment according to the equipment installation and maintenance information in the user terminal after the user terminal receives the equipment installation and maintenance information of the ex-warehouse equipment.

In one embodiment, the present application also provides a storage medium having stored therein computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the device dimension data interaction method as described in any of the above embodiments.

In one embodiment, the present application also provides a computer device having stored therein computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the device dimension interaction method as in any of the above embodiments.

Schematically, as shown in fig. 5, fig. 5 is a schematic internal structure of a computer device according to an embodiment of the present application, and the computer device 300 may be provided as a server. Referring to FIG. 5, computer device 300 includes a processing component 302 that further includes one or more processors, and memory resources represented by memory 301, for storing instructions, such as applications, executable by processing component 302. The application program stored in the memory 301 may include one or more modules each corresponding to a set of instructions. Further, the processing component 302 is configured to execute instructions to perform the device package data interaction method of any of the embodiments described above.

The computer device 300 may also include a power supply component 303 configured to perform power management of the computer device 300, a wired or wireless network interface 304 configured to connect the computer device 300 to a network, and an input output (I/O) interface 305. The computer device 300 may operate based on an operating system stored in the memory 301, such as Windows Server TM, mac OS XTM, unix, linux, free BSDTM, or the like.

It will be appreciated by those skilled in the art that the structure shown in FIG. 5 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements may be applied, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

In the present specification, each embodiment is described in a progressive manner, and each embodiment focuses on the difference from other embodiments, and may be combined according to needs, and the same similar parts may be referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A method of device assembly dimension data interaction, the method comprising:

when a video monitoring platform is detected to initiate a maintenance order, determining a delivery device corresponding to the maintenance order and device information of the delivery device, and pre-binding the device information and the maintenance order through the video monitoring platform;

The method comprises the steps that auditing configuration is carried out on the ex-warehouse equipment through a user side, auditing data are obtained, and national standard coding and installation protocols of the ex-warehouse equipment are requested to the video monitoring platform based on the auditing data;

binding the equipment information, the national standard code and the installation protocol based on the maintenance order to form equipment maintenance information;

and carrying out access registration on the ex-warehouse equipment based on the national standard code, and pushing the equipment maintenance information to the user side after the registration of the ex-warehouse equipment is completed.

2. The method for interacting equipment dimension according to claim 1, wherein the pre-binding the equipment information and the dimension order through the video monitoring platform comprises:

And synchronizing the equipment information into a video monitoring platform through a platform interface so that the video monitoring platform pre-binds the equipment information and the maintenance order.

3. The method for device assembly data interaction according to claim 1, wherein the auditing configuration is performed on the ex-warehouse device by the user side to obtain auditing data, comprising:

Judging whether the ex-warehouse equipment is custom equipment or not, wherein the custom equipment is preconfigured with server address and port information;

If yes, auditing the configuration information of the ex-warehouse equipment directly through the user side to obtain auditing data;

if not, carrying out information configuration on the ex-warehouse equipment through the user terminal, and taking the configuration result as auditing data.

4. The method for interacting equipment assembly data according to claim 3, wherein the auditing operation is directly performed on the configuration information of the ex-warehouse equipment by the user side to obtain auditing data, comprising:

the equipment codes of the ex-warehouse equipment are obtained, the equipment codes are identified through a user side, configuration information of the ex-warehouse equipment is obtained, and auditing work is carried out on the configuration information to obtain auditing data.

5. The method for device assembly data interaction according to claim 3, wherein said configuring information of the ex-warehouse device by the user terminal and using the configuration result as audit data comprises:

Determining the equipment code of the ex-warehouse equipment, and inputting the equipment code into the audit page of the user side for equipment verification;

logging in a configuration page of the ex-warehouse equipment after verification is completed, configuring server address and port information of the ex-warehouse equipment in the configuration page, and taking a configuration result as auditing data.

6. The device loading data interaction method according to claim 1, wherein the performing access registration on the ex-warehouse device based on the national standard code comprises:

Generating a device registration request based on the national standard code, and judging whether the ex-warehouse device is a customized device or not;

If yes, redirecting to a target gateway of the ex-warehouse equipment, and initiating an equipment registration request to the target gateway so as to access and register the ex-warehouse equipment through the target gateway;

If not, determining a server address corresponding to the ex-warehouse equipment, and initiating an equipment registration request to the server address so as to perform access registration on the ex-warehouse equipment through the server address.

7. The device assembly data interaction method of claim 1, wherein the method further comprises:

and after the user terminal receives the equipment maintenance information of the ex-warehouse equipment, carrying out maintenance adjustment on the ex-warehouse equipment in the user terminal according to the equipment maintenance information.

8. A device dimension data interaction apparatus, comprising:

The information pre-binding module is used for determining the equipment information of the equipment which corresponds to the maintenance order and the equipment information of the equipment which corresponds to the maintenance order when the video monitoring platform is detected to initiate the maintenance order, and pre-binding the equipment information and the maintenance order through the video monitoring platform;

The equipment auditing module is used for carrying out auditing configuration on the ex-warehouse equipment through a user side to obtain auditing data, and requesting national standard coding and installation protocols of the ex-warehouse equipment from the video monitoring platform based on the auditing data;

The information binding module is used for binding the equipment information, the national standard code and the installation protocol based on the maintenance order to form equipment maintenance information;

and the equipment registration module is used for carrying out access registration on the ex-warehouse equipment based on the national standard code, and pushing the equipment maintenance information to the user terminal after the registration of the ex-warehouse equipment is completed.

9. A storage medium having stored therein computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the apparatus dimension data interaction method of any of claims 1 to 7.

10. A computer device includes one or more processors and a memory;

Stored in the memory are computer readable instructions which, when executed by the one or more processors, perform the steps of the device assembly data interaction method of any of claims 1 to 7.