CN116665429A - Bluetooth remote controller production data management method and system - Google Patents

Abstract

The application relates to the technical field of data management, and provides a method and a system for managing production data of a Bluetooth remote controller, wherein the method comprises the following steps: detecting and collecting the target Bluetooth remote controller through a first collecting unit to obtain target function information; acquiring a second acquisition unit which is in communication connection with the performance detection equipment; the method comprises the steps of constructing a structure module set of a target Bluetooth remote controller, wherein the structure module set comprises a Bluetooth module, a micro-control host module, a middleware module and a disc reporting module; detecting each module through performance detection equipment to obtain target detection information; storing the target function information and the target detection information to a cloud data management platform; and visually managing the data through a cloud data management platform. The method can solve the technical problem of poor production management quality caused by low application data management intelligence of the Bluetooth remote controller, and can improve the intelligence and the materialization of the application data management of the Bluetooth remote controller, thereby improving the production management quality of the Bluetooth remote controller.

Description

Bluetooth remote controller production data management method and system

Technical Field

The application relates to the technical field of data management, in particular to a method and a system for managing production data of a Bluetooth remote controller.

Background

The Bluetooth remote controller is an electronic product for controlling remote equipment by utilizing Bluetooth wireless transmission skills, and has the advantages of strong signal, strong safety, intellectualization and the like. In the production process of the Bluetooth remote controller, the traditional application data management method has the defects of large data volume, low data analysis efficiency and the like, so that the application data management is low in intellectualization, and the difficulty of the production management of the Bluetooth remote controller is increased.

In summary, in the prior art, the technical problem of poor production management quality due to low application data management intelligence of the bluetooth remote controller exists.

Disclosure of Invention

Accordingly, it is desirable to provide a method and a system for managing production data of a bluetooth remote controller.

A bluetooth remote control production data management method, the method being applied to a bluetooth remote control production data management system, the system being communicatively connected to a cloud data management platform and the system comprising a predetermined data acquisition module, the method comprising: detecting and collecting the target Bluetooth remote controller through a first collecting unit in the preset data collecting module to obtain target function information; acquiring a second acquisition unit in the preset data acquisition module, wherein the second acquisition unit is in communication connection with performance detection equipment; the method comprises the steps of constructing a structure module set of the target Bluetooth remote controller, wherein the structure module set comprises a Bluetooth module, a micro-control host module, a middleware module and a disc reporting module; detecting each module in the structure module set through the performance detection equipment to obtain target detection information; storing the target function information and the target detection information to the cloud data management platform; and visually managing the data of the target Bluetooth remote controller through the cloud data management platform.

In one embodiment, the detecting and collecting the target bluetooth remote controller by the first collecting unit in the predetermined data collecting module to obtain target function information further includes: the first acquisition unit detects the target Bluetooth remote controller through an AOI detection device to obtain target appearance data; the first acquisition unit detects the infrared function of the target Bluetooth remote controller through an infrared tester to obtain target infrared data; and the target appearance data and the target infrared data jointly form the target function information.

In one embodiment, the detecting, by the performance detecting device, each module in the structural module set to obtain target detection information further includes: establishing a target Bluetooth connection between the target Bluetooth remote controller and the performance detection device based on the Bluetooth module; a first control instruction is sent out under the target Bluetooth connection, wherein the first control instruction is provided with first control information; transmitting the first control information to a first host in the micro-control host module by a first single-chip microcomputer in the micro-control host module; the first host enables the middleware module to read the first control information to obtain first read data; recording the first read data through the disc reporting module to obtain a first recording result; judging whether the first control command is consistent with the first input result or not, obtaining a judging result, and taking the judging result as the target detection information.

In one embodiment, before the first single-chip microcomputer in the micro-control host module transmits the first control information to the first host in the micro-control host module, the method further includes: the Bluetooth module encodes the first control information to obtain a first ASICC code; the first singlechip transmits the first ASICC code to the first host.

In one embodiment, the set of structural modules further includes a speaker module, further comprising: after the target Bluetooth connection is established between the target Bluetooth remote controller and the performance detection equipment, the loudspeaker module sends out a first sound signal; confirming a target position of the target Bluetooth remote controller according to the first sound signal; if the target Bluetooth connection is interrupted, the loudspeaker module sends out a second sound signal; and reconnecting the target Bluetooth connection according to the second sound signal.

In one embodiment, the visually managing, by the cloud data management platform, the data of the target bluetooth remote controller further includes: constructing a target working digital line model of the target Bluetooth remote controller based on a digital twin technology, and storing the target working digital line model into the cloud data management platform; the target working digital line model is used for carrying out visual management on the data of the target Bluetooth remote controller.

In one embodiment, the method further comprises: according to the target detection information, if the first control instruction is inconsistent with the first input result, a tracing and positioning instruction is sent; the target working digital line model analyzes and determines a target remote control fault based on the tracing and positioning instruction, wherein the target remote control fault comprises a fault point location and a fault reason; and carrying out emergency treatment on the target remote control fault.

A bluetooth remote control production data management system, the system being communicatively coupled to a cloud data management platform and the system including a predetermined data acquisition module, the system comprising:

the target function information obtaining unit is used for detecting and collecting the target Bluetooth remote controller through a first collecting unit in the preset data collecting module to obtain target function information;

the second acquisition unit is used for acquiring a second acquisition unit in the preset data acquisition module and is in communication connection with the performance detection equipment;

the structure module set building unit is used for building a structure module set of the target Bluetooth remote controller, wherein the structure module set comprises a Bluetooth module, a micro-control host module, a middleware module and a newspaper disc module;

the target detection information obtaining unit is used for detecting each module in the structure module set through the performance detection equipment to obtain target detection information;

the target information storage unit is used for storing the target function information and the target detection information to the cloud data management platform;

and the visual management unit is used for visually managing the data of the target Bluetooth remote controller through the cloud data management platform.

According to the method and the system for managing the production data of the Bluetooth remote controller, the technical problem that the production management quality is poor due to low application data management intellectualization of the Bluetooth remote controller can be solved, and the target Bluetooth remote controller is subjected to function detection through the first acquisition unit in the preset data acquisition module, and the function detection data are acquired to obtain target function information; the method comprises the steps of obtaining a second acquisition unit in a preset data acquisition module, wherein the second acquisition unit is in communication connection with performance detection equipment, and the performance detection equipment is used for performing performance test on a target Bluetooth remote controller; a structural module set of the target Bluetooth remote controller is built, wherein the structural module set comprises a Bluetooth module, a micro-control host module, a middleware module and a disc reporting module; performing performance detection on each module in the structure module set through the performance detection equipment to obtain target detection information; storing the target function information and the target detection information to the cloud data management platform; and visually managing the data of the target Bluetooth remote controller through the cloud data management platform. By the method, the intellectualization and the materialization of the application data management of the Bluetooth remote controller can be improved, so that the production management quality of the Bluetooth remote controller is improved.

The foregoing description is only an overview of the present application, and is intended to be implemented in accordance with the teachings of the present application in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present application more readily apparent.

Drawings

Fig. 1 is a schematic flow chart of a method for managing production data of a bluetooth remote controller;

fig. 2 is a schematic flow chart of obtaining target function information in a bluetooth remote control production data management method according to the present application;

fig. 3 is a schematic flow chart of obtaining target detection information in a bluetooth remote control production data management method according to the present application;

fig. 4 is a schematic structural diagram of a bluetooth remote control production data management system according to the present application.

Reference numerals illustrate: the system comprises a target function information obtaining unit 1, a second acquisition unit obtaining unit 2, a structural module assembly unit 3, a target detection information obtaining unit 4, a target information storage unit 5 and a visual management unit 6.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

As shown in fig. 1, the present application provides a bluetooth remote control production data management method, which is applied to a bluetooth remote control production data management system, the system is in communication connection with a cloud data management platform, and the system includes a predetermined data acquisition module, the method includes:

step S100: detecting and collecting the target Bluetooth remote controller through a first collecting unit in the preset data collecting module to obtain target function information;

as shown in fig. 2, in one embodiment, the step S100 of the present application further includes:

step S110: the first acquisition unit detects the target Bluetooth remote controller through an AOI detection device to obtain target appearance data;

step S120: the first acquisition unit detects the infrared function of the target Bluetooth remote controller through an infrared tester to obtain target infrared data;

step S130: and the target appearance data and the target infrared data jointly form the target function information.

Specifically, the method provided by the application is used for carrying out intelligent management on the application data of the Bluetooth remote controller, so that the application data transmission accuracy is higher, the intelligent and concrete of the application data management of the Bluetooth remote controller are improved, and the production management quality of the Bluetooth remote controller is improved. The method is concretely implemented in a Bluetooth remote controller production data management system, and the system comprises a preset data acquisition module which is used for acquiring and storing application data during the production of the Bluetooth remote controller. The cloud data management platform is a virtual platform for storing application data and processing tasks, the data storage and the task processing are distributed to a cloud server cluster by utilizing the virtualization and the distributed computing technology of the cloud data management platform, so that the investment of hardware resources and labor cost can be reduced, the efficiency of storing and managing the application data is improved, and the system is in communication connection with a cloud data management platform, namely the system transmits collected Bluetooth remote controller application data to the cloud data management platform in real time, and the cloud data management platform is used for analyzing and managing the application data.

The method comprises the steps that function detection is carried out on a target Bluetooth remote controller through a first acquisition unit in a preset data acquisition module, function detection data are acquired, the target Bluetooth remote controller is a Bluetooth remote controller to be subjected to application data management, firstly, product appearance defect detection is carried out on the target Bluetooth remote controller through AOI detection equipment of the first acquisition unit, the target Bluetooth remote controller is automatically scanned through a high-definition CCD camera of the AOI detection equipment machine, a real-time image acquisition result of the target Bluetooth remote controller is obtained, and then the real-time image acquisition result is subjected to traversal comparison with qualified image acquisition results stored in a database, so that appearance defect data of the target Bluetooth remote controller, namely the target appearance data, are obtained.

And then detecting internal defects of the target Bluetooth remote controller through an infrared testing machine of the first acquisition unit, carrying out infrared scanning on the target Bluetooth remote controller through the infrared testing machine, and determining internal defect data of the target Bluetooth remote controller according to an infrared scanning result, wherein the internal defects comprise states of internal firmware cracks, debonding of welding points and the like, so as to obtain the internal defect data of the target Bluetooth remote controller, namely the target infrared data.

And according to the target appearance data and the target infrared data, forming target function information, and obtaining target function data by performing function detection on the target Bluetooth remote controller from two aspects of appearance defects and internal defects, so that the integrity of obtaining the target function data can be improved.

Step S200: acquiring a second acquisition unit in the preset data acquisition module, wherein the second acquisition unit is in communication connection with performance detection equipment;

specifically, a second acquisition unit in the predetermined data acquisition module is acquired, where the second acquisition unit includes a performance detection device, where the performance detection device is a device for performing bluetooth performance test on a target bluetooth remote controller, for example: bluetooth tester. The communication connection between the second acquisition unit and the performance detection device means that the performance detection device transmits the Bluetooth performance data obtained by detection to the second acquisition unit.

Step S300: the method comprises the steps of constructing a structure module set of the target Bluetooth remote controller, wherein the structure module set comprises a Bluetooth module, a micro-control host module, a middleware module and a disc reporting module;

specifically, a structure module set of the target Bluetooth remote controller is built, wherein the structure module set comprises a Bluetooth module, a micro-control host module, a middleware module and a disc reporting module.

The Bluetooth module has the function of receiving instructions, can receive data and send data through Bluetooth, is connected with the micro-control host module through UART, and is connected with the power amplifier through an audio line. The micro-control host module is a main control component of a target Bluetooth remote controller, is connected with the Bluetooth module through a UART serial port, realizes data output and reading in through Bluetooth connection, and can carry out switch control on the power amplifier, and comprises MCU single chip microcomputer and other components.

The middleware module is used for reading the burning data and the test data and is adapted to the win whole system of the server. After the middleware module reads the data, the read data needs to be checked, and after the data check is passed, the read data is immediately written into the server, and when the data check is not passed, for example: the condition that the information such as the voice test data, the SN\CTEI and the like is inconsistent with the test file and the like under the MAC address occurs, and the next operation can be performed after the screen locking processing is performed and the unlocking is performed. When the data verification passes, reading burning data and test data, wherein the test data comprises an Excel file under a test software directory and a scv file under an automatic tester specified directory; the burning data comprises db files under the appointed path of the burning software. The middleware module also has the functions of accessing equipment needing to read data, reading voice test data and the like through the IP address field.

The newspaper disc module comprises a line body, an SN check bit, an SN/CTEI fool-proof bit, an MAC address fool-proof and other components, and the configuration of the components can be selected; the disc reporting module has the functions of order input, authority modification, MAC address range verification, SN/CTEI information verification and the like. By constructing the structural module of the target Bluetooth remote controller and constructing the structural module to obtain a structural module set, the fineness of application data acquisition can be improved, and support is provided for detecting a plurality of modules in the next step and obtaining accurate target detection data.

Step S400: detecting each module in the structure module set through the performance detection equipment to obtain target detection information;

as shown in fig. 3, in one embodiment, the step S400 of the present application further includes:

step S410: establishing a target Bluetooth connection between the target Bluetooth remote controller and the performance detection device based on the Bluetooth module;

step S420: a first control instruction is sent out under the target Bluetooth connection, wherein the first control instruction is provided with first control information;

specifically, performance detection is performed on each module in the structure module set through the performance detection equipment, firstly, a target Bluetooth remote controller and the performance detection equipment are connected through the Bluetooth module, the target Bluetooth connection step is to start the target Bluetooth remote controller, execute a performance detection equipment pairing operation command, and complete target Bluetooth connection when pairing operation is successful; when the pairing operation is unsuccessful, the Bluetooth is automatically restarted and the pairing operation command is executed again until the pairing is successful.

When the target Bluetooth is successfully connected, a first control instruction is sent out through the target Bluetooth remote controller, wherein the first control instruction is provided with first control information, and the first control information refers to external control information acquired by the target Bluetooth remote controller, for example: key values sent by the Bluetooth operation keyboard. And by acquiring the first control information, support is provided for performance detection of the target Bluetooth remote controller.

Step S430: transmitting the first control information to a first host in the micro-control host module by a first single-chip microcomputer in the micro-control host module;

in one embodiment, step S430 of the present application further includes:

step S431: the Bluetooth module encodes the first control information to obtain a first ASICC code;

step S432: the first singlechip transmits the first ASICC code to the first host.

Specifically, the first control information is encoded through a bluetooth module, data in the first control information is encoded into an ASICC code through the bluetooth module, the ASICC code refers to an encoding format of the first control information, wherein the ASICC code comprises a standard ASICC code with 128 characters and an additional extended ASICC code with 128 characters, and a first ASICC code is obtained, and the first ASICC code refers to the ASICC code of the first control information. And then the first ASICC code is transmitted to a first host in the micro-control host module through a first single-chip microcomputer in the micro-control host module, wherein the first single-chip microcomputer is an MCU single-chip microcomputer, and the first host comprises a middleware module.

In one embodiment, step S430 of the present application further includes:

step S433: after the target Bluetooth connection is established between the target Bluetooth remote controller and the performance detection equipment, the loudspeaker module sends out a first sound signal;

step S434: confirming a target position of the target Bluetooth remote controller according to the first sound signal;

step S435: if the target Bluetooth connection is interrupted, the loudspeaker module sends out a second sound signal;

step S436: and reconnecting the target Bluetooth connection according to the second sound signal.

Specifically, the set of structural modules includes speaker modules that emit sound through speakers and can confirm the location of the target bluetooth remote controller according to the sound. After the target bluetooth connection is completed between the target bluetooth remote controller and the performance detection device, a first sound signal is sent out through the speaker module, and then a target position of the target bluetooth remote controller is confirmed according to the first sound signal, wherein a plurality of methods for determining the target bluetooth remote controller position through the sound signal are available, and a person skilled in the art can select based on practical situations, for example: determining the position of a target Bluetooth remote controller according to a signal strength indication method, firstly collecting a plurality of Bluetooth signals through a sensor, and determining the position of the target Bluetooth remote controller through calculating the Bluetooth signal strength; determining the position of a target Bluetooth remote controller according to a time difference method, firstly collecting Bluetooth signals through a plurality of sensors, and then determining the position of the target Bluetooth remote controller by measuring the time difference of the Bluetooth signals reaching different sensors; and obtaining the target position of the target Bluetooth remote controller.

When the target bluetooth connection is interrupted, for example: when the compatibility of the target Bluetooth remote controller and the performance detection equipment is poor or the target Bluetooth remote controller is interfered by other signals to interrupt, the Bluetooth module is controlled by the first singlechip to restart automatically, and then a second sound signal is sent out by the loudspeaker module, wherein the second sound signal is different from the first sound signal. And reconnecting the target Bluetooth between the target Bluetooth remote controller and the performance detection equipment according to the second sound signal. Because the Bluetooth remote controller can restart and reconnect under the condition that Bluetooth signals are interrupted, normal communication is maintained by carrying out Bluetooth signal correction, and therefore the stability of signal transmission of the Bluetooth remote controller can be improved.

Step S440: the first host enables the middleware module to read the first control information to obtain first read data;

step S450: recording the first read data through the disc reporting module to obtain a first recording result;

step S460: judging whether the first control command is consistent with the first input result or not, obtaining a judging result, and taking the judging result as the target detection information.

Specifically, the first host starts the middleware module to read the first control information, the middleware module performs data verification on the first control information, and after the data verification is passed, the middleware module performs data reading on the first control information and stores the data in a server to obtain first read data. And then, carrying out data entry on the first read data through the newspaper disc module to obtain a first entry result. And performing traversal comparison on the first control command and the first input result, taking the ratio of the overlapping part of the first input result and the first control command to the first input result as a judgment result, wherein the larger the ratio is, the better the quality of Bluetooth signal transmission of the target Bluetooth remote controller is represented, and taking the judgment result as target detection information.

Step S500: storing the target function information and the target detection information to the cloud data management platform;

specifically, the target function information and the target detection information are transmitted to the cloud data management platform through the Bluetooth remote controller production data management system, the target function information and the target detection information are stored and analyzed through a server cluster in the cloud data management platform, and the target function information and the target detection information are stored to the cloud data management platform, so that investment of hardware resources and labor cost can be reduced, and data analysis efficiency is improved.

Step S600: and visually managing the data of the target Bluetooth remote controller through the cloud data management platform.

In one embodiment, step S600 of the present application further includes:

step S610: constructing a target working digital line model of the target Bluetooth remote controller based on a digital twin technology, and storing the target working digital line model into the cloud data management platform;

step S620: the target working digital line model is used for carrying out visual management on the data of the target Bluetooth remote controller.

Specifically, the cloud data management platform is used for carrying out visual management on the data of the target Bluetooth remote controller, first, basic information of the target Bluetooth remote controller is obtained, wherein the basic information comprises the type, the size, the specification and the operation parameters of the target Bluetooth remote controller, the basic information of the target Bluetooth remote controller is input into 3D simulation software to carry out three-dimensional simulation modeling based on a digital twin technology, a target working digital line model of the target Bluetooth remote controller is obtained, the digital twin technology is used for carrying out high-simulation virtual modeling on the target Bluetooth remote controller in a digital mode, and the real operation scene of the target Bluetooth remote controller is simulated through the virtual simulation model. The target working digital line model is a digital twin model of the target Bluetooth remote controller, and by constructing the target working digital line model based on a digital twin technology, the application data of the target Bluetooth remote controller can be subjected to simulation management, and problems in data management can be found in time, so that the intelligence and accuracy of the application data management are improved.

And then storing the target working digital line model to a cloud data management platform, wherein the target working digital line model is used for carrying out visual management on application data of the target Bluetooth remote controller. By performing visual management on the application data of the target Bluetooth remote controller, the transparency and the visualization of the data management can be improved, so that the transparency of the production management is improved.

In one embodiment, step S600 of the present application further includes:

step S630: according to the target detection information, if the first control instruction is inconsistent with the first input result, a tracing and positioning instruction is sent;

step S640: the target working digital line model analyzes and determines a target remote control fault based on the tracing and positioning instruction, wherein the target remote control fault comprises a fault point location and a fault reason;

step S650: and carrying out emergency treatment on the target remote control fault.

Specifically, when the first control command is inconsistent with the first input result, a preset data input index is obtained, where the preset data input index may be set in a user-defined manner based on an actual situation, for example: setting a data input index as 98%, wherein 98% refers to the ratio of the overlapping part of the first input result and the first control command to the first input result.

Judging the target detection information according to the preset data entry index, when the target detection information is larger than the preset data entry index, sending a tracing positioning instruction, sending the tracing positioning instruction to the target working digital line model, analyzing the remote control fault of the target Bluetooth remote controller through the target working digital line model, and determining a target remote control fault, wherein the target remote control fault comprises a fault point location and a fault reason, and the fault point location is a fault module of the remote control fault. And finally, carrying out emergency treatment on the target Bluetooth remote controller according to the target remote control fault.

The method solves the technical problem of poor production management quality caused by low application data management intellectualization of the Bluetooth remote controller, and can improve the intellectualization and materialization of the application data management of the Bluetooth remote controller, thereby improving the production management quality of the Bluetooth remote controller.

In one embodiment, as shown in fig. 4, there is provided a bluetooth remote control production data management system, the system being communicatively connected to a cloud data management platform, and the system comprising a predetermined data acquisition module comprising: the system comprises a target function information obtaining unit 1, a second acquisition unit obtaining unit 2, a structural module assembly unit 3, a target detection information obtaining unit 4, a target information storage unit 5 and a visual management unit 6, wherein:

the target function information obtaining unit 1 is used for detecting and collecting a target Bluetooth remote controller through a first collecting unit in the preset data collecting module to obtain target function information;

the second acquisition unit 2 is used for acquiring a second acquisition unit in the preset data acquisition module, and the second acquisition unit is in communication connection with the performance detection equipment;

the structure module set building unit 3, the structure module set building unit 3 is used for building a structure module set of the target Bluetooth remote controller, wherein the structure module set comprises a Bluetooth module, a micro control host module, a middleware module and a newspaper disc module;

the target detection information obtaining unit 4 is used for detecting each module in the structure module set through the performance detection equipment to obtain target detection information;

a target information storage unit 5, where the target information storage unit 5 is configured to store the target function information and the target detection information to the cloud data management platform;

and the visual management unit 6 is used for visually managing the data of the target Bluetooth remote controller through the cloud data management platform.

In one embodiment, the system further comprises:

the target appearance data obtaining unit is used for detecting the target Bluetooth remote controller through the AOI detection equipment by the first acquisition unit to obtain target appearance data;

the target infrared data obtaining unit is used for detecting the infrared function of the target Bluetooth remote controller through the infrared testing machine by the first acquisition unit to obtain target infrared data;

the target function information obtaining unit is used for obtaining the target function information by combining the target appearance data and the target infrared data.

In one embodiment, the system further comprises:

the target Bluetooth connection unit is used for establishing target Bluetooth connection between the target Bluetooth remote controller and the performance detection equipment based on the Bluetooth module;

the first control instruction sending unit is used for sending a first control instruction under the target Bluetooth connection, wherein the first control instruction is provided with first control information;

the first control information transmission unit is used for transmitting the first control information to a first host in the micro-control host module by a first single chip microcomputer in the micro-control host module;

the first read data obtaining unit is used for enabling the middleware module to read the first control information by the first host to obtain first read data;

the first recording result obtaining unit is used for recording the first read data through the disc reporting module to obtain a first recording result;

the target detection information obtaining unit is used for judging whether the first control instruction is consistent with the first input result or not, obtaining a judging result and taking the judging result as the target detection information.

In one embodiment, the system further comprises:

the first control information coding unit is used for coding the first control information by the Bluetooth module to obtain a first ASICC code;

the first ASICC code transmission unit is used for transmitting the first ASICC code to the first host through the first singlechip.

In one embodiment, the system further comprises:

the first sound signal emitting unit is used for emitting a first sound signal after the target Bluetooth connection is established between the target Bluetooth remote controller and the performance detection equipment;

a target position confirmation unit, configured to confirm a target position of the target bluetooth remote controller according to the first sound signal;

the second sound signal sending unit is used for sending a second sound signal if the target Bluetooth connection is interrupted, and the loudspeaker module is used for sending the second sound signal;

and the reconnection unit is used for reconnecting the target Bluetooth connection according to the second sound signal.

In one embodiment, the system further comprises:

the target working digital line model building unit is used for building a target working digital line model of the target Bluetooth remote controller based on a digital twin technology and storing the target working digital line model into the cloud data management platform;

and the visual management unit is used for visually managing the data of the target Bluetooth remote controller by the target working digital line model.

In one embodiment, the system further comprises:

the tracing positioning instruction sending unit is used for sending a tracing positioning instruction according to the target detection information if the first control instruction is inconsistent with the first input result;

the target remote control fault determining unit is used for analyzing and determining a target remote control fault based on the traceable positioning instruction by the target working digital line model, wherein the target remote control fault comprises a fault point location and a fault reason;

and the emergency processing unit is used for carrying out emergency processing on the target remote control fault.

In summary, the application provides a method and a system for managing production data of a bluetooth remote controller, which have the following technical effects:

1. the technical problem that the production management quality is poor due to the fact that the application data management of the Bluetooth remote controller is low in intellectualization is solved, the intellectualization and the materialization of the application data management of the Bluetooth remote controller can be improved, and therefore the production management quality of the Bluetooth remote controller is improved.

2. Under the condition of Bluetooth signal interruption, normal communication can be maintained by carrying out Bluetooth signal correction, so that the stability of Bluetooth remote controller signal transmission is improved.

3. The target working digital line model is built based on the digital twin technology, the application data of the target Bluetooth remote controller can be subjected to visual management, problems in application data management can be found in time, and the transparency and the visualization of the data management can be improved, so that the transparency of production management is improved.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (7)

1. A bluetooth remote control production data management method, wherein the method is applied to a bluetooth remote control production data management system, the system is in communication connection with a cloud data management platform, and the system comprises a predetermined data acquisition module, the method comprises:

detecting and collecting the target Bluetooth remote controller through a first collecting unit in the preset data collecting module to obtain target function information;

acquiring a second acquisition unit in the preset data acquisition module, wherein the second acquisition unit is in communication connection with performance detection equipment;

the method comprises the steps of constructing a structure module set of the target Bluetooth remote controller, wherein the structure module set comprises a Bluetooth module, a micro-control host module, a middleware module and a disc reporting module;

detecting each module in the structure module set through the performance detection equipment to obtain target detection information;

storing the target function information and the target detection information to the cloud data management platform;

the cloud data management platform is used for carrying out visual management on the data of the target Bluetooth remote controller;

the detecting and collecting the target Bluetooth remote controller through the first collecting unit in the preset data collecting module to obtain target function information, including:

the first acquisition unit detects the target Bluetooth remote controller through an AOI detection device to obtain target appearance data;

the first acquisition unit detects the infrared function of the target Bluetooth remote controller through an infrared tester to obtain target infrared data;

the target appearance data and the target infrared data together form the target function information, wherein the target function information is target function data obtained by performing function detection on the target Bluetooth remote controller from appearance defects and internal defects respectively.

2. The method according to claim 1, wherein the detecting, by the performance detecting device, each module in the set of structural modules to obtain target detection information includes:

establishing a target Bluetooth connection between the target Bluetooth remote controller and the performance detection device based on the Bluetooth module;

a first control instruction is sent out under the target Bluetooth connection, wherein the first control instruction is provided with first control information;

transmitting the first control information to a first host in the micro-control host module by a first single-chip microcomputer in the micro-control host module;

the first host enables the middleware module to read the first control information to obtain first read data;

recording the first read data through the disc reporting module to obtain a first recording result;

judging whether the first control command is consistent with the first input result or not, obtaining a judging result, and taking the judging result as the target detection information.

3. The method of claim 2, further comprising, prior to said transmitting, by a first single-chip in said micro-control host module, said first control information to a first host in said micro-control host module:

the Bluetooth module encodes the first control information to obtain a first ASICC code;

the first singlechip transmits the first ASICC code to the first host.

4. The method of claim 3, wherein the set of structural modules further comprises speaker modules, the method further comprising:

after the target Bluetooth connection is established between the target Bluetooth remote controller and the performance detection equipment, the loudspeaker module sends out a first sound signal;

confirming a target position of the target Bluetooth remote controller according to the first sound signal;

if the target Bluetooth connection is interrupted, the loudspeaker module sends out a second sound signal;

and reconnecting the target Bluetooth connection according to the second sound signal.

5. The method of claim 4, wherein the visually managing, by the cloud data management platform, the data of the target bluetooth remote control comprises:

constructing a target working digital line model of the target Bluetooth remote controller based on a digital twin technology, and storing the target working digital line model into the cloud data management platform;

the target working digital line model is used for carrying out visual management on the data of the target Bluetooth remote controller.

6. The method of claim 5, wherein the method further comprises:

according to the target detection information, if the first control instruction is inconsistent with the first input result, a tracing and positioning instruction is sent;

the target working digital line model analyzes and determines a target remote control fault based on the tracing and positioning instruction, wherein the target remote control fault comprises a fault point location and a fault reason;

and carrying out emergency treatment on the target remote control fault.

7. A bluetooth remote control production data management system for performing the steps of any one of the bluetooth remote control production data management methods of claims 1-6, said system being communicatively coupled to a cloud data management platform and said system comprising a predetermined data acquisition module, said system comprising:

the target function information obtaining unit is used for detecting and collecting the target Bluetooth remote controller through a first collecting unit in the preset data collecting module to obtain target function information;

the second acquisition unit is used for acquiring a second acquisition unit in the preset data acquisition module and is in communication connection with the performance detection equipment;

the structure module set building unit is used for building a structure module set of the target Bluetooth remote controller, wherein the structure module set comprises a Bluetooth module, a micro-control host module, a middleware module and a newspaper disc module;

the target detection information obtaining unit is used for detecting each module in the structure module set through the performance detection equipment to obtain target detection information;

the target information storage unit is used for storing the target function information and the target detection information to the cloud data management platform;

the visual management unit is used for carrying out visual management on the data of the target Bluetooth remote controller through the cloud data management platform;

the detecting and collecting the target Bluetooth remote controller through the first collecting unit in the preset data collecting module to obtain target function information, including:

the first acquisition unit detects the target Bluetooth remote controller through an AOI detection device to obtain target appearance data;

the first acquisition unit detects the infrared function of the target Bluetooth remote controller through an infrared tester to obtain target infrared data;

the target appearance data and the target infrared data together form the target function information, wherein the target function information is target function data obtained by performing function detection on the target Bluetooth remote controller from appearance defects and internal defects respectively.