CN113962340A - Detection apparatus, system, method, and computer-readable storage medium - Google Patents
Detection apparatus, system, method, and computer-readable storage medium Download PDFInfo
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Abstract
The application provides a detection device, a detection system, a detection method and a computer readable storage medium. The device includes: the card reading module is used for reading information of an operator; the scanning module is used for reading product information; the quality feedback module is used for feeding back product quality information; the control module is in communication connection with the card reading module, the scanning module and the quality feedback module, and is used for receiving the operator information, the product information and the product quality information, and generating product inspection information when the operator information, the product information and the product quality information all exist, wherein the product inspection information comprises the product quality information and storage addresses of the operator information and the product information. The device can collect and store three pieces of information such as operating personnel in real time, and a mapping mechanism is quickly established, so that the product quality information tracking is realized.
Description
Technical Field
The present application relates to the field of industrial production technologies, and in particular, to a detection apparatus, a detection system, a detection method, and a computer-readable storage medium.
Background
At present, during production operation of a production line, information such as the number of defective products is often recorded manually. However, this method cannot effectively count information such as workers who are defective.
Disclosure of Invention
In view of the above, it is desirable to provide a detection device, a detection system, a detection method and a computer-readable storage medium, which are capable of accurately counting the information of product detection and the information of operators.
In a first aspect, the present application provides a detection apparatus comprising:
the card reading module is used for reading information of an operator;
the scanning module is used for reading product information;
the quality feedback module is used for feeding back product quality information;
the control module is in communication connection with the card reading module, the scanning module and the quality feedback module, and is used for receiving the operator information, the product information and the product quality information, and generating product inspection information when the operator information, the product information and the product quality information all exist, wherein the product inspection information comprises the product quality information and storage addresses of the operator information and the product information.
According to some embodiments of the application, the detection device further comprises:
and the communication module is used for receiving networking verification information and reporting the product inspection information.
According to some embodiments of the present application, the control module is further configured to perform a read function self-test;
the reading function self-checking comprises checking whether the card reading module can read the operator information and whether the scanning module can read the product information.
According to some embodiments of the present application, the control module is further configured to perform a communication function self-test;
the communication function self-check comprises checking that the communication module can receive networking verification information and report the product verification information.
According to some embodiments of the present application, the product quality information includes whether the product is good or bad;
and if the product is a defective product, the product quality information also comprises the defect type of the product.
In a second aspect, the present application provides a detection system comprising:
the detection apparatus of the first aspect; and
and the data collection device is in communication connection with the detection device and is used for integrating and counting according to the collected product inspection information and generating a statistical report.
According to some embodiments of the application, the data collection device comprises:
and the communication module is in communication connection with the detection device and is used for acquiring the product inspection information from the detection device and reporting the product inspection information.
According to some embodiments of the present application, the data collection device is further configured to send a data request instruction to the detection device to obtain the product inspection information from the detection device.
In a third aspect, the present application provides a detection method applied to the detection apparatus of the first aspect, including:
judging whether the communication function of the detection device is normal or not;
judging whether the detection function of the detection device is normal or not;
judging whether the detection device receives a data request instruction or not;
and sending product inspection information.
In a fourth aspect, the present application provides a computer-readable storage medium storing program code for execution by a device, the program code comprising instructions for performing the detection method of the third aspect.
The detection device, the system, the method and the computer readable storage medium can receive the operator information, the product information and the product quality information, and generate a piece of product inspection information when all three pieces of information exist so as to accurately count the product detection information.
Drawings
Fig. 1 is a schematic block diagram of a detection apparatus according to an embodiment of the present disclosure.
Fig. 2 is a schematic view of a detection apparatus provided in an embodiment of the present application.
Fig. 3 is an exploded view of the detecting device shown in fig. 2.
FIG. 4 is a schematic view of the detecting device shown in FIG. 2 at another angle.
Fig. 5 is a schematic diagram of a detection system according to an embodiment of the present application.
Fig. 6 is a schematic flowchart of a detection method according to an embodiment of the present application.
Description of the main elements
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments.
In the present embodiment, "at least one" means one or more, and a plurality means two or more. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.
It should be understood that in this application, "/" means "or" means "unless otherwise indicated. For example, A/B may represent A or B. In the present application, "a and/or B" is only one kind of association relation describing an associated object, and means that there may be three relations of only a, only B, and a and B.
It should be noted that in the embodiments of the present application, the terms "first", "second", and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or order. The features defined as "first", "second" may explicitly or implicitly include one or more of the features described. In the description of the embodiments of the present application, words such as "exemplary" or "for example" are used to indicate examples, illustrations or illustrations. Any embodiment or design described herein as "exemplary" or "e.g.," is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.
It should be noted that, in the embodiments of the present application, the term "height" refers to a projected length in a direction perpendicular to the reference formation. The terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description and simplicity of description only, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be considered limiting of the present application.
Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.
Referring to fig. 1, an embodiment of the present application provides a detection apparatus 100, including: card reading module 110, scanning module 120, quality feedback module 130, and control module 140.
It will be appreciated that the detection device 100 is communicatively coupled to a database of the industrial system, in which production and record information involved in the production process is stored. For example, the information includes an operator, product information, a raw material lot of a product, a production link of the product, an operator and an operation machine in each production link, and the like.
In this embodiment, the card reading module 110 is connected to the control module 140, and is configured to obtain information of an operator. For example, a Radio Frequency Identification module may be disposed in the card reading module 110 to read the worker Identification information in the worker card of the worker through a Radio Frequency Identification (RFID) technology, and then transmit the read worker Identification information to the control module 140. It is understood that the control module 140 is communicatively coupled to a database of the industrial system, and the database stores the operator information and the operator identification information corresponding thereto. The control module 140 may read and write information within the database. The control module 140 reads the database according to the operator identification information to acquire the operator information corresponding to the operator identification information.
The scanning module 120 is connected to the control module 140, and is configured to obtain product information of a product to be detected, and send the product information to the control module 140. The products to be detected can include products with product identification codes, such as computers, communication and consumer electronics products, for example, personal computers, mobile terminals, and the like. The product identification codes of each product are different from each other. The product identification code at least comprises a group of ordered codes and a group of unordered codes. The product information may be set according to the product identification code. Illustratively, the product information is the same as the product identification code. As another example, the product information is other identification information corresponding to the product identification code, such as a barcode or a two-dimensional code. It is to be understood that the control module 140 is communicatively coupled to a database of the industrial system in which the product information and product identification code are stored. The control module 140 reads the database according to the product identification code acquired by the scanning module 120 to acquire product information corresponding to the product identification code.
It is understood that, when the scanning module 120 reads the product information of the product to be detected through the barcode or the two-dimensional code, the scanning module 120 may be a scanning module integrated in the detection device 100 or externally connected to the detection device 100. Illustratively, the scanning module 120 may have a communication serial port. In this manner, the scanning module 120 may transmit the scanned product information to the control module 140 through the communication serial port.
The quality feedback module 130 is connected to the control module 140, and is configured to feed back whether the product under test has a quality defect to the control module 140. For example, the quality feedback module 130 may include feedback buttons, and the operator may feed back the product quality information through different feedback buttons when detecting the product to be tested. The product quality information includes product defect information and a type of the product defect.
The control module 140 is configured to receive operator information, product information, and/or product quality information. The control module 140 is further configured to package the operator information, the product information, and the product quality information into a product inspection information when the operator information, the product information, and the product quality information all exist. Specifically, the product inspection information includes operator information, product information, and product quality information. It can be understood that when the operator information, the product information and the product quality information all exist, the related information when the product to be detected is complete, that is, the product detection result can be tracked according to the three pieces of information.
It can be understood that the control module 140 sends the product inspection information to the database of the industrial system, and the database can update the original data in the database according to the operator information, the product information and the product quality information included in the product inspection information, so as to record the detection information of the product to be detected.
Illustratively, the control module 140 may include a logic Chip (IC Chip). After receiving the operator information, the product information, and/or the product quality information, the control module 140 sets a circuit corresponding to the corresponding information in the logic circuit chip to a high level. The logic circuit chip includes an AND Gate (AND Gate) therein, which is used to generate a high level signal when all three pieces of information exist, AND the control module 140 packages the operator information, the product information AND/or the product quality information into a product inspection information data packet according to the TCP/IP protocol after receiving the high level signal.
A memory may also be provided in control module 140 for storing instructions and data. In some embodiments, the memory in the control module 140 is a cache memory. The memory may hold instructions or data that the control module 140 has just used or cycled through. If the control module 140 needs to reuse the instructions or data, it can be called directly from the memory. Avoiding repeated accesses reduces the latency of the control module 140, thereby increasing the efficiency of the system.
It is understood that the control module 140 is further configured to establish a one-to-one mapping between the product information and the operator information of the product to be tested after the product information and the operator information of the product to be tested are received through the card reading module 110 and the scanning module 120. Specifically, the control module 140 may add the storage address information of the corresponding operator information when storing the product information, so that the control module 140 may query the operator information of the product to be tested in each production link when calling the product information. For example, the control module 140 may also add storage address information of corresponding product information when storing the operator information, so that the control module 140 may query the product information related to the operator in the production operation process when calling the operator information. Then, the control module 140 continues to receive the product quality information from the quality feedback module 130, and determines whether the product information, the operator information, and the product quality information exist at the same time, if the three pieces of information exist at the same time, it indicates that the control module 140 has completely recorded the operator information, the product information, and the product quality information, and packages the operator information, the product information, and the product quality information into an effective information data packet. It can be understood that, after the control module 140 encapsulates the product inspection information data packet, the encapsulated data packet can be directly sent to the database of the industrial system, so that the database can perform data update; alternatively, the control module 140 may send the data packet to a local relay device, repackage and encapsulate a plurality of data packets in the local relay device, and send the repackaged data packets to the database of the industrial system.
In some embodiments, the inspection device 100 can be used for appearance inspection of a product to be inspected. First, the card reading module 110 reads information in the employee identification card to obtain information of an operator, and maps related data generated by subsequent operations of the operator (for example, data generated when the operator performs product quality detection on a product to be detected) with the information of the operator. Then, the operator takes the product to be tested in the assembly line, uses the scanning module 120 to obtain the product information of the product to be tested, and performs appearance inspection on the product to be tested. After the operator completes the appearance inspection, the quality information of the product to be inspected may be fed back by using different keys of the quality feedback module 130, for example, the product to be inspected is a good product or a bad product. Specifically, when the product to be measured is a defective product, the type of the defect is further determined, for example, a Computer Numerical Control (CNC) defect (cutting defect, such as burr), impact damage, polishing defect, raw material defect (material has impurities), anode defect (anode groove defect, for example, there is potential unevenness in the surface coating of the product), and the like. And after finishing the quality information feedback of the product to be detected, the operator puts the product to be detected back to the assembly line so as to finish the appearance detection process of the product to be detected.
The control module 140 receives and records the quality information of the product to be tested, and maps the quality information of the product to be tested with the operator information and the product information. Specifically, the quality information, the operator information, and the product information of the product to be tested are usually stored in different addresses according to the type of the information, and when the control module 140 stores the quality information, the operator information, and the product information, addresses of other related information are added to each piece of information to perform data tracking. Illustratively, each piece of quality information includes a good product or a bad product, if the product is a bad product, the product further includes a bad type, and meanwhile, the information also includes a storage address of related operator information and a storage address of product information. Therefore, when the product information of the product to be detected is read, the operator information and the quality information of the product to be detected can be synchronously read.
It can be understood that the detection device 100 provided by the embodiment of the present application can realize fast tracking between product quality information, operator information and product information, and the rest of information related to a product can be fast tracked by querying one piece of product quality information, operator information or product information.
In some embodiments, after the operator uses the detection apparatus 100 to complete the detection process of the product to be detected, a re-judgment process is further included. Namely, the quality detection result of the product to be detected is subjected to re-judgment by the re-judgment operator so as to improve the accuracy of the detection result. It can be understood that, since the product information, the operator information, and the product quality information are already mapped when the detection device 100 detects the product to be detected, when the re-judgment operator performs the re-judgment, after the product information of the product to be detected is acquired, the operator information and the product quality information are synchronously displayed to effectively count information such as operators who are defective products. It is understood that the detection result after the re-judgment will be the final detection result. Illustratively, if the detection result before the re-judgment is a defective product and the detection result before the re-judgment is a good product, the information of the product is updated to be a good product, and the detection record before the re-judgment is reserved, so as to realize the information tracking in the production cycle of the product.
Referring to fig. 2 and fig. 3 together, fig. 2 is an external schematic view of a detection apparatus 100 according to an embodiment of the present disclosure. Fig. 3 is an exploded view of the detecting device 100. As shown in fig. 2 and 3, the detection device 100 includes a housing 180. The card reading module 110 may be disposed at one side of the housing 180. The card reading module 110 may implement information Identification of an operator through Near Field Communication (NFC) or Radio Frequency Identification (RFID), and the specific Identification manner please refer to the description of the card reading module 110 in fig. 1, which is not repeated herein.
For example, the scanning module 120 is used to obtain product information of a product to be tested, and please refer to the description of the scanning module 120 in fig. 1 for a specific obtaining manner, which is not described herein again.
For example, the quality feedback module 130 may be a key with different functions, and has a function of feeding back product quality information, for example, feeding back whether the product to be tested is good or bad, and when the product to be tested is bad, further feeding back bad categories of the product to be tested, such as CNC bad, bruise, polishing bad, raw material bad, anode bad, cancellation, and the like, through the key. It is understood that the quality feedback module 130 shown in fig. 2 or 3 is a physical key. Of course, in other embodiments, the quality feedback module 130 may also be a virtual key, such as a key integrated on a touch screen.
For example, when the quality feedback module 130 is a physical key, a key indicator may be provided to indicate the key currently operated by the operator. In some embodiments, the physical keys may be mechanical keys to improve the service life of the quality feedback module 130. It can be understood that when the purple shaft mechanical key is used, the service life of the key can reach 5000 ten thousand times.
Illustratively, the control module 140 is disposed in the housing 180 and connected to the card reading module 110, the scanning module 120, and the quality feedback module 130, for receiving the worker information, the product information, and/or the product quality information and generating the product inspection information.
It is understood that, referring to fig. 2 and fig. 3 again, the detecting device 100 further includes an antenna 150, a display 160 and a fill-in light 170 (see fig. 2 and fig. 3).
The antenna 150 is disposed on one side of the detection device 100. The antenna 150 is connected to the control module 140 for transmitting and receiving electromagnetic wave signals to implement wireless communication function. For example, the detection device 100 may implement a wireless communication function based on one or more of a wireless local area network Wi-Fi communication protocol, an ultra-wideband UWB communication protocol, a bluetooth communication protocol, a Zigbee communication protocol, or a near field communication NFC protocol.
Illustratively, when the detection device 100 performs wireless communication using the Zigbee communication protocol, the antenna 150 may be a 2.4GHz glue stick antenna, so as to improve the omnidirectional gain of the detection device 100 during wireless communication and reduce signal attenuation. It can be understood that the glue stick antenna has high anti-interference performance and low amplitude of frequency swing of the frequency modulation wave, which can improve the quality of the received and transmitted signals, and further improve the signal stability of the detection device 100 during data transmission.
It can be understood that the display 160 is disposed on the housing 180, connected to the control module 140, and configured to display card swiping information of the operator, and product information and product quality information of the product to be tested, so that the operator can perform self-check on whether the input product quality information is correct.
For example, the display 160 may employ a Liquid Crystal Display (LCD), an Organic Light Emitting Diode (OLED), an active matrix organic light emitting diode (active matrix organic light emitting diode, AMOLED), a Flexible Light Emitting Diode (FLED), a Mini Led, a Micro Led, a quantum dot light emitting diode (QLED), and the like.
It can be understood that the fill-in light 170 is used for fill-in light in a scene with low visible light brightness, so as to improve the scene brightness and further improve the recognition rate of the scanning module 120 during scanning.
For example, the fill-in light 170 may be a 64-color RGB LED light, and has an adjusting wheel to adjust the color and brightness of the fill-in light 170, so as to improve the recognition rate of the scanning module 120 during code scanning.
Fig. 4 is a schematic diagram of the detection system 10 according to an embodiment of the present application. As shown in fig. 4, the detection system 10 includes a detection device 100 and a data collection device 200. The detection device 100 may be the detection device 100, and specifically refer to fig. 1 to 3 and the related description thereof, which are not repeated herein.
The data collection device 200 includes a communication module 210. The data collection device 200 acquires the valid data from the detection device 100 through the communication module 210 to analyze the valid data. It will be appreciated that since the control module 140 within the detection apparatus 100 will only generate valid data if quality information, operator information and product information are present. Therefore, after the data collection device 200 receives the valid data, it is not necessary to check whether the quality information, the operator information, and the product information in the valid data are complete, and the detection result of the product can be analyzed according to the valid data.
For example, the communication module 210 may implement a wireless communication function based on one or more of a wireless local area network Wi-Fi communication protocol, an ultra-wideband UWB communication protocol, a bluetooth communication protocol, a Zigbee communication protocol, or a near field communication NFC protocol to obtain valid data from the detection apparatus 100.
Illustratively, the data collection device 200 may further include a raspberry development board (not shown) to integrate and count the worker information, the product information, and the product quality information collected by the communication module 210, and generate a statistical report.
It is understood that the data collection device 200 can obtain valid data from a plurality of inspection devices 100, analyze the product yield according to the collected data, and perform data statistics according to the fraction defective of different anomalies. For example, please refer to table 1 together, where table 1 is a data statistics table before and after the re-judgment of the detection result of the product to be detected. The data collection device 200 can analyze the yield of the product and the fraction defective of different types of anomalies according to the collected data, and generate table 1. For example, the data collection device 200 can send table 1 to the server for the process designer to perform targeted improvement and improvement on the production process, thereby increasing yield and reducing cost.
TABLE 1 statistical data table before and after re-judgment of detection results of products to be detected
For another example, table 2 is a data statistics table before and after different operator reevaluations. The data collection device 200 can analyze the yield of the products detected by different operators and the fraction defective of different types of abnormalities according to the collected data, and generate table 2.
In addition, the data collection device 200 may send the table 2 to a foreground server for determining the skill familiarity, accuracy, work efficiency, etc. of different operators for product inspection. For example, the foreground server can design a professional training plan aiming at a detection project with lower detection accuracy of operators, so that the detection efficiency and accuracy of the operators are improved, and the production cost is reduced.
It is understood that the data collection device 200 can also analyze the workload and the work completion quality of the worker, and perform the assessment and training of the worker according to the related data. For example, the accuracy of detecting the CNC fault by the operator 2 is low, and the data collection device 200 may push a tutorial for detecting the CNC fault for the operator 2, so as to improve the accuracy of detecting the CNC fault by the operator 2. For example, the operator 1 has high inspection accuracy, but the number of inspection steps is long during inspection, and therefore the data collection device 200 can push a tutorial for the operator 1 to improve the inspection speed while ensuring the inspection quality. So as to realize examination and training aiming at different operators.
TABLE 2 statistics table for data before and after re-judgment of different operators
Fig. 5 is a schematic flowchart of a detection apparatus 100 according to an embodiment of the present application. As shown in fig. 5, the work flow of the detection apparatus 100 at least includes the following steps:
s100: and judging whether the communication function is normal or not.
It will be appreciated that the test device 100 first performs a self test of the communication function. For example, the detection device 100 may first send a heartbeat packet to the data collection device 200, where the heartbeat packet includes the networking registration information of the detection device 100. The detection device 100 receives the registration success information from the data collection device 200 after transmitting the heartbeat packet. After receiving the registration success information, the detection apparatus 100 detects that the communication function of the detection apparatus 100 is normal, and performs step S200. If the detection device 100 cannot receive the registration success information from the data collection device 200 within a predetermined time, step S100 is repeated, i.e. the heartbeat data packet is re-sent to the data collection device 200.
S200: and judging whether the detection function is normal or not.
It is understood that the detection apparatus 100 continues to determine whether the detection function of the detection apparatus 100 itself is normal after the communication function self-check passes. Specifically, the detection device 100 may verify whether the card reading module 110 and the scanning module 120 are working properly, for example, if the detection device 100 can receive the operator information and the product information, it indicates that the detection function of the detection device 100 is normal. If the detection function of the detection apparatus 100 itself is normal, step S300 is executed, and if the detection function of the detection apparatus 100 itself is abnormal, step S200 is repeated, that is, the detection function of the detection apparatus 100 itself is rechecked.
S300: and judging whether a data request instruction is received or not.
It is understood that the detection device 100 listens to the data packet from the data collection device 200 and determines whether the data request instruction from the data collection device 200 can be received. If the detection device 100 can receive the data request command from the data collection device 200, step S400 is executed, and if the detection device 100 cannot receive the data request command from the data collection device 200, the detection device continues to listen for the data request command from the data collection device 200.
S400: and sending product inspection information.
It is understood that the detection apparatus 100 transmits the product verification information to the data collection apparatus 200 after receiving the data request instruction.
Fig. 6 is a schematic workflow diagram of a data collection apparatus 200 according to an embodiment of the present application. As shown in fig. 6, the workflow of the data collection device 200 includes at least the following steps:
s500: and sending a data request instruction.
It is understood that the data collection device 200 sends a data request instruction to the detection device 100. Illustratively, the data collection device 200 and the detection device 100 transmit data request instructions based on a preset communication protocol, such as a ZigBee communication protocol.
It is understood that the data collection device 200 may be communicatively connected to a plurality of detection devices 100, and sequentially transmit data request instructions to the detection devices 100 in a preset order.
S600: and judging whether the product inspection information is received.
It is understood that the data collection device 200 determines whether the product inspection information is received from the detection devices 100, and if the product inspection information is received, step S700 is executed, and if the valid data is not received, step S500 is returned, and a data request instruction is sent to the next group of detection devices 100.
S700: and uploading product inspection information.
It is understood that the data collection device 200 is communicatively coupled to a database in the industrial system and uploads product inspection information to the database after it is collected. It is understood that the data collection device 200 may send a set of product verification information directly to the database after receiving the set of product verification information, or may send a plurality of sets of product verification information to the database after receiving the plurality of sets of product verification information.
An embodiment of the present application provides a computer-readable storage medium, which stores program code for device execution, where the program code includes steps S100 and S400 for executing the detection method shown in fig. 5 or steps S500-S700 of the detection method shown in fig. 6.
It can be understood that the detection system 10 and the detection apparatus 100 provided in the embodiment of the present application can receive the operator information, the product information, and the product quality information, and generate a piece of product inspection information when all three pieces of information exist, so as to accurately count the product information, the operator, and the inspection result of the product during product inspection.
It is understood that the inspection system 10 further includes a data collection device 200 for collecting product inspection information from at least one inspection device 100, analyzing the operator information and corresponding inspection results according to the product inspection information, and performing operator assessment and training according to related data, so as to improve the inspection efficiency and accuracy of the operator and further reduce the production cost.
It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. Therefore, appropriate changes and modifications to the above embodiments are intended to be included within the scope of the present invention as claimed, and within the spirit and scope of the present invention.
Claims (10)
1. A detection device, comprising:
the card reading module is used for reading information of an operator;
the scanning module is used for reading product information;
the quality feedback module is used for feeding back product quality information;
the control module is in communication connection with the card reading module, the scanning module and the quality feedback module, and is used for receiving the operator information, the product information and the product quality information, and generating product inspection information when the operator information, the product information and the product quality information all exist, wherein the product inspection information comprises the product quality information and storage addresses of the operator information and the product information.
2. The sensing device of claim 1, further comprising: and the communication module is used for receiving networking verification information and reporting the product inspection information.
3. The detection apparatus of claim 2, wherein the control module is further configured to perform a read function self-test;
the reading function self-checking comprises checking whether the card reading module can read the operator information and whether the scanning module can read the product information.
4. The detection apparatus of claim 2, wherein the control module is further configured to perform a communication function self-test;
the communication function self-check comprises checking that the communication module can receive networking verification information and report the product verification information.
5. The inspection apparatus of claim 1, wherein the product quality information includes whether the product is good or bad;
and if the product is a defective product, the product quality information also comprises the defect type of the product.
6. A detection system, comprising:
at least one detection device according to any one of claims 1 to 5; and
and the data collection device is in communication connection with the detection device and is used for integrating and counting according to the collected product inspection information and generating a statistical report.
7. The detection system of claim 6, wherein the data collection device comprises:
and the communication module is in communication connection with the detection device and is used for acquiring the product inspection information from the detection device and reporting the product inspection information.
8. The inspection system of claim 7, wherein the data collection device is further configured to send data request instructions to the inspection device to obtain the product inspection information from the inspection device.
9. A detection method applied to the detection device according to any one of claims 1 to 5, comprising:
judging whether the communication function of the detection device is normal or not;
judging whether the detection function of the detection device is normal or not;
judging whether the detection device receives a data request instruction or not;
and sending product inspection information.
10. A computer-readable storage medium, characterized in that the computer-readable medium stores a program code for device execution, the program code comprising instructions for performing the detection method of claim 9.
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