CN113850987B - System for detecting product quality - Google Patents

Abstract

Embodiments of the present disclosure disclose a system for detecting product quality. One embodiment of the system comprises: receiver, monitoring devices, validity verification device, log display device and process record device, wherein: the monitoring device is in communication connection with the receiver and is used for sending a validity checking instruction to the validity checking device in response to the fact that the state of the receiver meets the first preset state; the validity checking device is used for carrying out validity checking on the state of the receiver according to the validity checking instruction to generate a first checking result; the validity checking device is respectively connected with the log display device and the process recording device in a communication way and is used for sending a validity checking failure instruction to the log display device and the process recording device in response to the fact that the first checking result does not meet the preset validity checking condition. According to the embodiment, the fault reason positioning efficiency of defective products and the yield of products leaving the factory are improved, and the satisfaction degree of users on the products is improved.

Description

System for detecting product quality

Technical Field

The embodiment of the disclosure relates to the field of production and manufacturing, in particular to the field of production and manufacturing of Bluetooth remote controllers, and particularly relates to a system for detecting product quality.

Background

In recent years, bluetooth remote controllers gradually replace conventional infrared remote controllers. Various forms of bluetooth remote control are also emerging, including: double-ended bluetooth remote control. The double-end Bluetooth remote controller is mainly added with a receiver to reduce the learning cost of a user. For the double-end Bluetooth remote controller, before leaving the factory, not only the remote controller itself is required to be functionally detected, but also a receiver paired with the remote controller is required to be checked, so that the product can be used normally. The related checking mode at present usually checks the validity and effectiveness of the product manually.

However, when the above manner is adopted, there are often the following technical problems:

first, the yields of the products delivered from the factory are not high, and the failure reasons of defective products cannot be rapidly positioned.

Secondly, the product testing process and the product state information are not recorded and displayed in real time, so that the product information of the shipped product cannot be accurately inquired.

Disclosure of Invention

The disclosure is in part intended to introduce concepts in a simplified form that are further described below in the detailed description. The disclosure is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

Some embodiments of the present disclosure propose a system for detecting product quality to address one or more of the technical problems mentioned in the background section above.

Some embodiments of the present disclosure propose a system for detecting product quality, the system comprising: receiver, monitoring devices, validity verification device, log display device and process record device, wherein: the monitoring device is in communication connection with the receiver and is used for sending a validity check instruction to the validity check device in response to determining that the state of the receiver meets a first preset state; the validity checking device is used for carrying out validity checking on the state of the receiver according to the validity checking instruction to generate a first checking result; the validity checking device is respectively connected with the log display device and the process recording device in a communication way and is used for sending a validity checking failure instruction to the log display device and the process recording device in response to the first checking result not meeting the preset validity checking condition.

In some embodiments, the validity checking device is further configured to send a request instruction to the monitoring device in response to the first check result meeting the preset validity checking condition.

In some embodiments, the above system for detecting product quality further comprises a remote control and a validity checking device, wherein: the monitoring device is respectively in communication connection with the validity checking device and the remote controller and is used for receiving the request instruction and sending the validity checking instruction to the validity checking device in response to determining that the states of the receiver and the remote controller meet a second preset state.

In some embodiments, the validity checking device is in communication connection with the remote controller, and is configured to perform validity checking on a state of the remote controller according to the validity checking instruction, to obtain a second checking result.

In some embodiments, the validity checking device is respectively in communication connection with the log display device and the process recording device, and is configured to send a validity check failure instruction to the log display device and the process recording device in response to the second check result not meeting a preset validity check condition.

In some embodiments, the validity checking device is further configured to send a check success instruction to the log display device and the process recording device in response to the second check result satisfying the preset validity check condition.

In some embodiments, the above system further comprises a result prompting device, wherein: the log display device is in communication connection with the result prompting device and is used for receiving the validity check failure instruction and inputting the first check result to the result prompting device.

In some embodiments, the log display device is further configured to receive the validity check failure instruction or the check success instruction, and input the second check result to the result prompting device.

In some embodiments, the above system further comprises a database and a server, wherein: the process recording device is respectively connected with the database and the server in a communication way and is used for receiving the validity check failure instruction, storing the first check result into the database and uploading the first check result to the server.

In some embodiments, the process recording device is further configured to receive the validity check failure instruction or the check success instruction, save the second check result to the database, and upload the second check result to the server.

The above embodiments of the present disclosure have the following advantages: the system for detecting the product quality of the calibration products can improve the yield of the manufactured products, and can rapidly locate the failure reasons of defective products. Specifically, the yield to the product of leaving a factory is not high, can not carry out the reason of quick location to the fault reason of defective products, lies in: at present, a factory adopts a manual visual inspection mode, fatigue is easy to generate in the inspection process, defective products flow out of the factory, so that the yield of outgoing products is low, and the failure reasons of the defective products cannot be rapidly positioned. Based on this, in the system for detecting product quality according to some embodiments of the present disclosure, a validity checking device and a validity checking device are not only included in the process of checking a product, and the validity of connection of a receiver of the product and the validity of a key of a remote controller are checked. The system also comprises a monitoring device, a log display device and a process recording device, and monitors, displays and stores the data in the checking process in real time. First, the monitoring device is in communication connection with the receiver, and is configured to send a validity check instruction to the validity check device in response to determining that the state of the receiver meets a first preset state. When the monitoring device monitors that the state of the receiver is the port which is inserted into the electronic equipment, a request validity checking instruction is sent to the validity checking device. Compared with the manual judgment of the state of the receiver, the system is more accurate in judging the state of the receiver. And the validity checking device is in communication connection with the receiver and is used for carrying out validity checking on the state of the receiver according to the validity checking instruction to obtain a first checking result. The first verification result stores the verification result of the validity verification device on the state of the receiver, and the system does not generate fatigue, so that the first verification result generated by the system is more accurate than the result of manual visual inspection. And finally, the validity checking device is respectively connected with the log display device and the process recording device in a communication way and is used for sending a validity checking failure instruction and the first checking result to the log display device and the process recording device in response to the first checking result not meeting the preset validity checking condition. And the first checking result stores records of validity checking failure, and a checking staff rapidly positions the failure reason of the defective product according to the first checking result. Therefore, the yield of products leaving the factory can be improved by means of the system, and the failure reasons of defective products can be rapidly positioned.

Drawings

The above and other features, advantages, and aspects of embodiments of the present disclosure will become more apparent by reference to the following detailed description when taken in conjunction with the accompanying drawings. The same or similar reference numbers will be used throughout the drawings to refer to the same or like elements. It should be understood that the figures are schematic and that elements and components are not necessarily drawn to scale.

FIG. 1 is an exemplary system architecture diagram of a system for detecting product quality in accordance with some embodiments of the present disclosure;

FIG. 2 is a schematic diagram of one embodiment of a system for detecting product quality provided by the present disclosure;

FIG. 3 is a schematic structural view of yet another embodiment of a system for detecting product quality provided by the present disclosure;

fig. 4 is a schematic diagram of a communication connection of a system for detecting product quality provided by an embodiment of the present disclosure.

Detailed Description

The present disclosure is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that, without conflict, the embodiments of the present disclosure and features of the embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in this disclosure are merely used to distinguish between different devices, modules, or units and are not used to define an order or interdependence of functions performed by the devices, modules, or units.

It should be noted that references to "one", "a plurality" and "a plurality" in this disclosure are intended to be illustrative rather than limiting, and those of ordinary skill in the art will appreciate that "one or more" is intended to be understood as "one or more" unless the context clearly indicates otherwise.

The names of messages or information interacted between the various devices in the present disclosure are for illustrative purposes only and are not intended to limit the scope of such messages or information.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1 illustrates an exemplary system architecture 100 of a system for detecting product quality in accordance with an embodiment of the present disclosure.

Referring to fig. 1, a system architecture 100 may include a listening device 101, a validity checking device 102, a validity checking device 103, a process recording device 104, a log display device 105, a result prompting device 106, a database 107, a server 108, a connection program 109, a connection program 110, a connection program 111, a connection program 112, a connection program 113, a connection program 114, and a connection program 115. The connection program 109 is a program for providing communication between the listening device 101 and the validity checking device 102. The connection program 110 is a program for providing communication between the listening device 101 and the validity checking device 103. The connection program 111 is a program for providing communication between the validity checking device 102 and the process recording device 104. The connection program 112 is a program for providing communication between the validity checking device 102 and the log display device 105. The connection program 112 is also a program for providing communication between the validity checking means 103 and the process recording means 104. The connection program 113 is a program for providing communication between the validity checking device 103 and the log display device 105. The connection program 114 is a program for providing communication between the process recording device 104 and the database 107. The connection program 114 is also a program to provide communication between the process recording device 104 and the server 108. The connection program 115 is a program for providing communication between the log display device 105 and the result presentation device 106. The connection program 109, the connection program 110, the connection program 111, the connection program 112, the connection program 113, the connection program 114, and the connection program 115 may include various connection types, such as a wired communication connection, a wireless communication connection, or a program call connection, or the like.

The listening device 101 may interact with the validity checking device 102 through the connection program 109 to send a validity checking instruction. Listening device 101 may be a device that listens for the operational status of devices within the system. The validity checking means 102 may be various means for checking the validity of the connection of the product to the electronic device.

The listening device 101 may also interact with the validity checking device 103 through the connection program 110 to send validity checking instructions. The validity checking means 103 may be various means for checking the validity of key values of keys of the product.

The validity verification means 102 can interact with the process recording means 104 via the connection program 111 to send a validity verification failure instruction and a validity verification result. The process recording device 104 may be a device that records data generated during the calibration of various products.

The validity check means 102 may also interact with the log display means 105 via the connection program 112 to send a validity check failure instruction and a validity check result. The log display device 105 may be various devices for displaying log files generated during the product checking process.

The validity checking means 103 can interact with the process recording means 104 via the connection program 112 to send a validity check failure instruction or a validity check success instruction and a validity check result.

The validity checking means 103 can also interact with the log display means 105 via the connection program 113 to send a validity check failure instruction or a validity check success instruction and a validity check result.

The process recording device 104 may interact with the database 107 via the connectivity program 114 to send validity check results or validity check results. Database 107 may be a collection of large amounts of data stored in a computer that is organized, sharable, uniformly managed, including, but not limited to, relational databases, document databases, non-relational databases, and the like.

The process recording device 104 may interact with the server 108 through the connectivity program 114 to send the validity check results or the validity check results. The servers 108 may include, but are not limited to, file servers, database servers, application servers, and the like.

The log display device 105 may interact with the result presentation device 106 through the connection program 115 to send a validity check result or a validity check result. The results prompting device 106 may be a display device that displays certain electronic files on a screen and then reflects them to the human eye, including but not limited to a display screen, a display frame, etc.

It should be understood that the numbers of listening devices, validity checking devices, process recording devices, log display devices, result prompting devices, databases, servers, and connection programs in fig. 1 are merely illustrative. Any number of monitoring devices, validity checking devices, process recording devices, log display devices, result prompting devices, databases, servers and connection programs can be provided according to the implementation requirements.

With continued reference to fig. 2, a schematic diagram of one embodiment of a system for detecting product quality provided by the present disclosure is shown.

As shown in fig. 2, in this example, the system for detecting product quality includes a receiver 201, a listening device 202, a validity checking device 203, a process recording device 204, and a log display device 205.

The monitoring device 202 may be, for example, a device capable of monitoring the status of each device in the system, and may be a monitor. The receiver 201 may be a device for connecting an electronic apparatus and a remote controller and capable of receiving information of the remote controller, for example: USBDongle (Universal Serial Bus Bluetooth Dongle, bluetooth adapter)). The validity checking means 203 may be a means for checking the receiver 201 to ensure that the receiver 201 is effectively used. The process recording device 204 may be a device that records key data during the calibration process, and may save the key data to a database and upload to a server. The log display device 205 may be a device for displaying the log file in the checking process in real time.

In some embodiments, the listening device 202 is communicatively coupled to the receiver 201 and configured to send a validity check instruction to the validity check device 203 in response to determining that the state of the receiver 201 satisfies a first preset state.

As an example, the first preset state may be a port (e.g., USB (Universal Serial Bus, universal serial bus) port) in which the receiver is plugged into an electronic device. The monitoring device 201 monitors the insertion of the receiver into the USB port of the electronic device, determines that the state of the receiver satisfies the first preset state, and sends a validity check instruction to the validity check device 203. The validity check instruction may be to start validity check.

In some embodiments, the validity checking device 203 is communicatively connected to the receiver 201, and is configured to perform validity checking on the state of the receiver 201 according to the validity checking instruction, to generate a first checking result.

As an example, the validity check may be whether the receiver 201 is stably connected to the electronic device, and whether the receiver 201 can be effectively used. The validity verification device 203 receives an instruction to start validity verification, verifies the connection state between the receiver 201 and the electronic device, and generates a first verification result. The first verification result may be stable connection, and may be effectively used or may not be stable connection, and may not be effectively used.

In some embodiments, the validity checking device 203 is respectively connected to the log display device 205 and the process recording device 204 in a communication manner, and is configured to send a validity check failure instruction to the log display device 205 and the process recording device 204 in response to the first check result not meeting a preset validity check condition.

As an example, the preset validity check condition may be that the receiver 201 and the electronic device are stably connected, and can transmit a signal. The validity check means 203 determines the first check result. For example: unstable connection and can not be used effectively. And if the validity check condition is not satisfied, sending a validity check failure instruction to the log display device and the process recording device. For example: and (5) failing to check, and failing to pass the product.

Optionally, the validity checking device 203 is further configured to send a request instruction to the monitoring device 201 in response to the first check result meeting the preset validity checking condition.

As an example, the request instruction may be an instruction requesting validity check by passing validity check. The validity check means 203 determines the first check result. For example: stable connection and effective use. The preset validity check condition is satisfied, and a request instruction is sent to the monitoring device 201.

The system for detecting the product quality in the embodiment has the following beneficial effects: through the system for detecting the product quality of some embodiments of the present disclosure, the yield of the product is improved, and the failure cause of the defective product can be rapidly positioned. Specifically, the yield of the factory products is not high, and the reason that the failure reason of the defective products cannot be rapidly positioned is as follows: at present, a factory adopts a manual visual inspection mode, fatigue is easy to generate in the inspection process, defective products flow out of the factory, so that the yield of outgoing products is low, and the failure reasons of the defective products cannot be rapidly positioned. Based on this, in the system for detecting product quality according to some embodiments of the present disclosure, a validity checking device and a validity checking device are not only included in the process of checking a product, and the validity of connection of a receiver of the product and the validity of a key of a remote controller are checked. The system also comprises a monitoring device, a log display device and a process recording device, and monitors, displays and stores the data in the checking process in real time. First, the monitoring device is in communication connection with the receiver, and is configured to send a validity check instruction to the validity check device in response to determining that the state of the receiver meets a first preset state. When the monitoring device monitors that the state of the receiver is the port which is inserted into the electronic equipment, a request validity checking instruction is sent to the validity checking device. Compared with the manual judgment of the state of the receiver, the system is more accurate in judging the state of the receiver. And the validity checking device is in communication connection with the receiver and is used for carrying out validity checking on the state of the receiver according to the validity checking instruction to obtain a first checking result. The first verification result stores the verification result of the validity verification device on the state of the receiver, and the system does not generate fatigue, so that the first verification result generated by the system is more accurate than the result of manual visual inspection. And finally, the validity checking device is respectively connected with the log display device and the process recording device in a communication way and is used for sending a validity checking failure instruction and the first checking result to the log display device and the process recording device in response to the first checking result not meeting the preset validity checking condition. And the first checking result stores records of validity checking failure, and a checking staff rapidly positions the failure reason of the defective product according to the first checking result. Optionally, the validity checking device is further configured to send a request instruction to the monitoring device in response to the first check result meeting the preset validity checking condition. Therefore, the yield of products leaving the factory can be improved by means of the system, and the failure reasons of defective products can be rapidly positioned.

With continued reference to fig. 3, a schematic diagram of a further embodiment of the system for detecting product quality provided by the present disclosure is shown. As with the system for detecting product quality in the embodiment of fig. 2, the system for detecting product quality in the present embodiment may also include a receiver 201, a listening device 202, a validity checking device 203, a process recording device 204, and a log display device 205. The specific structural relationship may be referred to in the embodiment of fig. 2, and will not be described herein.

As shown in fig. 3, in this embodiment, the system further includes a remote controller 301 and a validity checking device 302, where: the monitoring device 202 is respectively connected to the validity checking device 302 and the remote controller 301 in a communication manner, and is configured to receive the request command, and send a validity checking command to the validity checking device 302 in response to determining that the states of the receiver 201 and the remote controller 301 satisfy the second preset state.

As an example, the remote controller 301 may be a device for remotely controlling an electronic apparatus or a machine, and may be a bluetooth remote controller. The validity checking means 302 may be a means for checking whether a key on the remote control 301 is valid. The second preset state may be that the receiver 201 performs bluetooth pairing with the remote controller 301, and the receiver 201 reads device information of the remote controller 301. The listening device 202 receives the request command. For example: and passing the validity check, and requesting to perform validity check. The states of the receiver 201 and the remote controller 301 are determined so as to satisfy the second preset state, and a validity check command is sent to the validity check device 302. The validity check instruction may be to start validity check.

In this embodiment, the validity checking device 302 is communicatively connected to the remote controller 301, and is configured to perform validity checking on the state of the remote controller 301 according to the validity checking instruction, so as to obtain a second checking result.

As an example, the validity check may be a key value check for a key on the remote control 301. The key value verification may be verification of key sensitivity on the remote controller 301. The validity checking device 302 performs a key sensitivity check on the remote controller 301 according to a signal fed back by a key on the remote controller 301, so as to obtain a second check result. The second checking result can be that the key is sensitive, the validity check is qualified or the key is insensitive, and the validity check is unqualified.

In this embodiment, the validity checking device 302 is respectively connected to the log display device 205 and the process recording device 204 in a communication manner, and is configured to send a validity check failure instruction to the log display device 205 and the process recording device 204 in response to the second check result not meeting a preset validity check condition.

As an example, the preset validity check condition may be that sensitivity check is performed on the key on the remote controller 301, and validity check is qualified. The validity checking means 302 is responsive to the second check result. For example: the keys are insensitive, and the validity check is unqualified. The preset validity check condition is not satisfied, and a validity check failure instruction is transmitted to the log display device 205 and the process recording device 205. The validity check failure instruction may be that the key sensitivity check is not qualified, and the validity check fails.

In this embodiment, the validity checking means 302 is further configured to send a check success instruction to the log display means 205 and the process recording means 204 in response to the second check result satisfying the preset validity checking condition.

As an example, the verification success instruction may be that the validity check sum validity check is completely passed, and the product is qualified. The validity checking means 302 is responsive to the second check result. For example: the keys are sensitive, and the validity check is qualified. And transmitting an instruction that the validity check sum passes through the validity check and the product is qualified to the log display device 205 and the process recording device 204 when the preset validity check condition is satisfied.

In this embodiment, the above system further includes a result prompting device 305, where: the log display device 205 is communicatively connected to the result presentation device 305, and is configured to receive the validity check failure instruction and the first check result, and input the first check result to the result presentation device 305. The result presentation device 305 may be a device that displays the result of the verification of the product to the production tester. The information displayed by the result presentation device 305 may be that the product is not acceptable and the product passes the acceptance.

As an example, the result prompting device 305 may be a display screen of an electronic device, or a prompting window of the electronic device. The log display 205 may receive the validity check failure instruction (for example, check failure, product failure). And transmits the validity check failure instruction to the result presentation device 305. The result prompting device 305 may prompt "product is not qualified" on the display screen of the electronic device according to the validity check failure instruction.

In this embodiment, the log display device 205 is further configured to receive the validity check failure instruction or the check success instruction and the second check result, and input the second check result to the result presentation device 305.

By way of example, the log display 205 may receive the verification success instruction (e.g., a validity verification pass, a product pass). The verification success instruction is sent to the result prompting device 305, and the result prompting device 305 may prompt "product acceptance pass" on the display screen of the electronic device according to the verification success instruction.

By way of example, the log display 205 may receive the validity check failure instruction (e.g., key sensitivity check failure, validity check failure). The validity check failure instruction is sent to the result prompting device 305, and the result prompting device 305 may prompt "product is failed" on the display screen of the electronic device according to the validity check failure instruction.

In this embodiment, the above system further includes a database 303 and a server 304, where: the process recording device 204 is communicatively connected to the database 303 and the server 304, respectively, and is configured to receive the validity check failure instruction, save the first check result to the database 303, and upload the first check result to the server 304. The database 303 may be an electronic filing cabinet capable of storing data. A database is understood here to mean a computer software system which can have other functions (e.g. managing data) in addition to the function of storing data. The server 304 may be a device that provides computing or application services to electronic devices, and has functions of assuming response to a service request, assuming services, and securing services.

By way of example, the database 303 may be a non-relational database (e.g., noSQL (Not Only SQL) database). The server 304 may be a web server (e.g., WEB (World Wide Web) server). The process recording device 204 receives the validity check failure instruction (e.g., check failure, product failure). The first verification result (e.g., unconnected) may be used. Save to the database 303 and upload the first verification result to the server 304. The data stored in the database 303 may be that the connection between the receiver numbered 01 and the electronic device is unstable, and the validity check fails. The data stored in the server 304 may be that the receiver numbered 01 is a failed product.

In this embodiment, the process recording device 204 is further configured to receive the validity check failure instruction or the check success instruction, save the second check result to the database 303, and upload the second check result to the server 304.

By way of example, the process logging device 204 receives the verification success instruction (e.g., pass of the validity check, pass of the product). The second verification result described above (e.g., product verification pass) may be used. Save to the database 303 and upload the second check result to the server 304. The data stored in the database 303 may be that the receiver with the number 02 is stably connected with the electronic device, the validity check is successful, the key sensitivity check of the remote controller with the number 02 is qualified, the validity check is successful, and the product check is qualified. The data stored in the server 304 may be the products that pass the acceptance of the receiver with the number 02 and the remote controller with the number 02.

By way of example, the process recording device 204 receives the validity check failure instruction (e.g., key sensitivity check failed). The second test result (e.g., product reject) may be described above. Save to the database 303 and upload the second check result to the server 304. The data stored in the database 303 may be that the receiver with the number 03 is stably connected with the electronic device, the validity check is successful, the key sensitivity check of the remote controller with the number 03 is failed, the validity check is failed, and the product check is failed. The data stored in the server 304 may be products that the receiver with the number 03 and the remote controller with the number 03 fail to check.

The device is used as an invention point of the embodiment of the disclosure, and solves the second technical problem mentioned in the background art that the product information of the outgoing product cannot be accurately inquired because the product testing process and the product state information are not recorded and displayed in real time. Factors causing the above technical problems are often as follows: in the production test link of the product, the product test process and the product state information are not recorded and displayed in real time, so that the information inquired when the product delivered from the factory is inquired is inaccurate, and even the required information is not inquired. If the factors are solved, the state of the product in the production test link is recorded and displayed in real time, and related data are stored, so that the product information of the outgoing product can be accurately inquired. To achieve this, the system incorporates means associated with product checking: the system comprises a log display device, a process recording device, a result prompting device, a database and a server. Because the log display device is used for displaying the log in the checking process in real time, a tester can conveniently and rapidly locate the problem point and analyze the problem reason when the tester has a problem, the efficiency of locating the failure reason of the factory is improved, the time for searching the failure reason is shortened, and the production cost is reduced. In addition, due to the existence of the process recording device, the process and the state of the product production test can be recorded and saved in a database and uploaded to a server. All outgoing products can be inquired, so that the follow-up tracking, management and control of the products by testers are facilitated, and the accurate inquiry of product information of the outgoing products is facilitated. Finally, due to the existence of the database and the server, a large amount of checking key data in the production test process is saved. The testers can very conveniently and accurately inquire the product information of the outgoing products according to the key data so as to carry out later maintenance. Therefore, the technical problems are solved, the product testing process and the product state information are recorded and displayed in real time, and the product information of the manufactured product is accurately inquired.

The system for detecting the product quality in the embodiment has the following beneficial effects: through the system for detecting the product quality of some embodiments of the present disclosure, the yield of the product is improved, and the failure cause of the defective product can be rapidly positioned. Specifically, the yield of the factory products is not high, and the reason that the failure reason of the defective products cannot be rapidly positioned is as follows: at present, a factory adopts a manual visual inspection mode, fatigue is easy to generate in the inspection process, defective products flow out of the factory, so that the yield of outgoing products is low, and the failure reasons of the defective products cannot be rapidly positioned. Based on this, in the system for detecting product quality according to some embodiments of the present disclosure, a validity checking device and a validity checking device are not only included in the process of checking a product, and the validity of connection of a receiver of the product and the validity of a key of a remote controller are checked. The system also comprises a monitoring device, a log display device and a process recording device, and monitors, displays and stores the data in the checking process in real time. First, the monitoring device is in communication connection with the receiver, and is configured to send a validity check instruction to the validity check device in response to determining that the state of the receiver meets a first preset state. When the monitoring device monitors that the state of the receiver is the port which is inserted into the electronic equipment, a request validity checking instruction is sent to the validity checking device. Compared with the manual judgment of the state of the receiver, the system is more accurate in judging the state of the receiver. And the validity checking device is in communication connection with the receiver and is used for carrying out validity checking on the state of the receiver according to the validity checking instruction to obtain a first checking result. The first verification result stores the verification result of the validity verification device on the state of the receiver, and the system does not generate fatigue, so that the first verification result generated by the system is more accurate than the result of manual visual inspection. And finally, the validity checking device is respectively connected with the log display device and the process recording device in a communication way and is used for sending a validity checking failure instruction and the first checking result to the log display device and the process recording device in response to the first checking result not meeting the preset validity checking condition. And the first checking result stores records of validity checking failure, and a checking staff rapidly positions the failure reason of the defective product according to the first checking result. Optionally, the validity checking device is further configured to send a request instruction to the monitoring device in response to the first check result meeting the preset validity checking condition. Therefore, the yield of products leaving the factory can be improved by means of the system, and the failure reasons of defective products can be rapidly positioned.

With continued reference to fig. 4, a schematic diagram of a communication connection of the system for detecting product quality provided by the present disclosure is shown. As shown in fig. 4, it should be noted that how to implement the communication connection between the receiver, the remote controller, the monitoring device, the validity checking device, the log display device, the process recording device, the result prompting device, the database and the server is well known to those skilled in the art, and will not be described here again. It should be noted that, in fig. 4, not all connection relationships between the respective components in the system for detecting product quality are illustrated, but only communication connection relationships between the respective components having communication connections in the system for detecting product quality are selectively illustrated.

The foregoing description is only of the preferred embodiments of the present disclosure and description of the principles of the technology being employed. It will be appreciated by those skilled in the art that the scope of the invention referred to in this disclosure is not limited to the specific combination of features described above, but encompasses other embodiments in which features described above or their equivalents may be combined in any way without departing from the spirit of the invention. Such as those described above, are mutually substituted with the technical features having similar functions disclosed in the present disclosure (but not limited thereto).

Claims (8)

1. A system for detecting product quality, comprising: receiver, monitoring devices, validity verification device, log display device and process record device, wherein:

the monitoring device is in communication connection with the receiver and is used for sending a validity checking instruction to the validity checking device in response to the fact that the state of the receiver meets a first preset state, wherein the receiver is used for connecting electronic equipment and a remote controller and receiving information of the remote controller, and the first preset state is a port for inserting the receiver into the electronic equipment;

the validity checking device is in communication connection with the receiver and is used for carrying out validity checking on the state of the receiver according to the validity checking instruction to obtain a first checking result;

the validity checking device is respectively in communication connection with the log display device and the process recording device and is used for sending a validity checking failure instruction and the first checking result to the log display device and the process recording device in response to the first checking result not meeting a preset validity checking condition;

the validity checking device is further used for responding to the first checking result to meet the preset validity checking condition and sending a request instruction to the monitoring device;

wherein, the system still includes remote controller and validity check device, wherein: the monitoring device is respectively in communication connection with the validity checking device and the remote controller and is used for receiving the request instruction, and sending the validity checking instruction to the validity checking device in response to the fact that the states of the receiver and the remote controller meet a second preset state, wherein the second preset state is that the receiver and the remote controller are subjected to Bluetooth pairing, and meanwhile the receiver reads equipment information of the remote controller.

2. The system according to claim 1, wherein the validity checking means is communicatively connected to the remote control, and is configured to perform validity checking on the state of the remote control according to the validity checking instruction, to obtain a second checking result.

3. The system of claim 2, wherein the validity checking means is communicatively coupled to the log display means and the process recording means, respectively, for sending a validity check failure instruction and the second check result to the log display means and the process recording means in response to the second check result not meeting a preset validity check condition.

4. The system of claim 3, wherein the validity checking means is further configured to send a check success instruction and the second check result to the log display means and the process recording means in response to the second check result satisfying the preset validity check condition.

5. The system of claim 4, further comprising a result prompting device, wherein:

the log display device is in communication connection with the result prompting device and is used for receiving the validity check failure instruction and the first check result and inputting the first check result to the result prompting device.

6. The system according to claim 5, wherein the log display device is further configured to receive the validity check failure instruction or the check success instruction and the second check result, and input the second check result to the result prompting device.

7. The system of claim 6, further comprising a database and a server, wherein:

the process recording device is respectively in communication connection with the database and the server and is used for receiving the validity check failure instruction and the first check result, storing the first check result into the database and uploading the first check result to the server.

8. The system of claim 7, wherein the process logging device is further configured to receive the validity check failure instruction or the check success instruction and the second check result, and save the second check result to the database and upload the second check result to the server.

Images