A roof clip installation and detection system
By integrating vehicle information devices, display devices, and detection devices, the installation of roof clips has been automated and digitized, solving the problems of misjudgment and missed detection caused by manual visual identification, and improving the accuracy and efficiency of installation and detection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- TIANJIN FAW TOYOTA MOTOR CO LTD
- Filing Date
- 2023-09-27
- Publication Date
- 2026-06-26
AI Technical Summary
In the existing technology, the accuracy and efficiency of the installation and inspection of roof clips are low, mainly because the manual visual identification and confirmation work affects the work cycle, resulting in frequent missed inspections.
By employing vehicle model information devices, vehicle model information display devices, tool benches, and testing devices, and utilizing RFID radio frequency identification, industrial vision sensors, and lighting prompt systems, the installation of roof clips is automated and digitized, ensuring installation accuracy and efficiency.
It improved the accuracy and efficiency of roof clip installation and inspection, reduced misjudgments and missed inspections, and optimized the work cycle.
Smart Images

Figure CN117163187B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of vehicle assembly, and more particularly to a roof clip installation and testing system. Background Technology
[0002] At the roof clip installation station on the glue application line in the automotive painting workshop, workers need to install different types and quantities of roof clips according to the vehicle model information.
[0003] In existing technologies, operators manually visually identify vehicle model information and determine the type and quantity of roof clips. This requires operators to have certain work experience, making it difficult for employees to start the work quickly; manual visual judgment cannot avoid misjudgments; and visual judgment takes time, affecting the work cycle. Then, roof clip fixtures are used to install the roof clips, but operators occasionally make mistakes when handling the fixtures and clips. Because it is necessary to observe the roof to confirm the installation of the roof clips, the confirmation work cannot be completed at a regular workstation, so it is usually done at a workstation after the sealant drying oven; however, this workstation has too many tasks for operators, making it difficult to avoid omissions, and the confirmation work affects the work cycle, wastes manpower, and results in low accuracy and efficiency in the installation and inspection of roof clips. Summary of the Invention
[0004] This invention provides a roof clip installation and testing system, which can solve the problems of low accuracy and low efficiency in roof clip installation and testing.
[0005] Accordingly, the system includes: a vehicle information device, a vehicle information display device, and a tool table, wherein:
[0006] The vehicle model information device is communicatively connected to the vehicle model information display device, and the vehicle model information device is communicatively connected to the tool table;
[0007] The vehicle information device is used to acquire pre-configured vehicle information and transmit it to the vehicle information display device;
[0008] The vehicle model information display device is used to acquire the vehicle model information of the target vehicle and transmit it to the display device for display.
[0009] The tool table is used to place at least one type of roof clip and fixture, and to generate area lighting prompts in response to the target vehicle's model information.
[0010] The system also includes:
[0011] The detection device is used to acquire images of the target vehicle and to perform at least one type of installation inspection on the target vehicle with the roof clips installed based on a preset detection method.
[0012] The vehicle information display device is further used for:
[0013] In response to the user's configuration operation, the display interface is configured with a specific type, and vehicle information matching the configuration type is displayed.
[0014] as well as:
[0015] When the vehicle model information of the target vehicle is not obtained, a reading error message is generated and the reading error message is transmitted to the display device for display.
[0016] The vehicle information display device is further used for:
[0017] In response to the roof clip installation location information in the vehicle information, a location prompt map is generated and transmitted to the display device for display.
[0018] Specifically, the vehicle information device is used for:
[0019] Limit switch unit, used to send an activation command to RFID radio frequency identification unit in response to touch operation of target vehicle;
[0020] The RFID radio frequency identification unit is used to obtain the vehicle model information of the target vehicle based on the RFID radio frequency identification tag pre-placed on the target vehicle and send it to the control unit;
[0021] The control unit is used to receive vehicle model information sent by the RFID radio frequency identification unit and transmit it to the vehicle model information display device.
[0022] The tool table specifically includes: a lighting unit, a placement platform, and a proximity switch;
[0023] The lighting unit is disposed on the side of the placement platform, and the proximity switch is placed inside the placement platform;
[0024] The lighting unit is used to illuminate the lights in the corresponding area based on the tool area information in the vehicle information;
[0025] A placement platform for holding at least one type of roof clip and fixture;
[0026] The proximity switch is used to detect the placement status of the roof clips and fixtures in the current placement platform.
[0027] The tool table is further used for:
[0028] When a change in the placement status of a roof clip or fixture placed on a platform that has not been operated to turn on the lights is detected by a proximity switch, an error message is generated and transmitted to the lighting unit.
[0029] The lighting unit responds to the error message by displaying the lights in the corresponding area in red.
[0030] The detection device includes an industrial vision sensor and a light source sensor, used to acquire images of the target vehicle and transmit the target images to a computer image processing unit.
[0031] The detection device further includes a computer image processing unit, used to perform at least one type of installation inspection on the target vehicle with the roof clips installed based on the target image; wherein the type of installation inspection includes: the number of roof clips installed, the installation direction, and the degree of offset.
[0032] The technical solution of this invention obtains pre-configured vehicle model information through a vehicle model information device and transmits it to a vehicle model information display device; obtains the target vehicle model information through the vehicle model information display device and transmits it to a display device for display; places at least one type of roof clip and fixture on a tool table; and provides light prompts in response to the target vehicle model information generation area. This solves the problem of low accuracy and efficiency in the installation and inspection of roof clips in the prior art. It can assist workers in installing roof clips and inspect the installation status of roof clips after installation, thereby improving the accuracy and efficiency of roof clip installation and inspection.
[0033] It should be understood that the description in this section is not intended to identify key or essential features of the embodiments of the present invention, nor is it intended to limit the scope of the invention. Other features of the invention will become readily apparent from the following description. Attached Figure Description
[0034] To more clearly illustrate the technical solutions in the embodiments of the present invention, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0035] Figure 1 This is a schematic diagram of a roof clip installation and detection system according to Embodiment 1 of the present invention;
[0036] Figure 2a This is a schematic diagram of a roof clip installation and detection system according to Embodiment 2 of the present invention;
[0037] Figure 2b This is a schematic diagram of the display result of vehicle model information obtained by the system according to Embodiment 2 of the present invention. Detailed Implementation
[0038] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the scope of protection of the present invention.
[0039] It should be noted that the terms "first," "second," etc., in the specification, claims, and accompanying drawings of this invention are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It should be understood that such data can be interchanged where appropriate so that the embodiments of the invention described herein can be implemented in orders other than those illustrated or described herein. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover a non-exclusive inclusion; for example, a process, method, system, product, or apparatus that comprises a series of steps or units is not necessarily limited to those steps or units explicitly listed, but may include other steps or units not explicitly listed or inherent to such processes, methods, products, or apparatus.
[0040] At the roof clip installation station on the glue application line in an automotive painting workshop, workers need to install different types and quantities of roof clips based on vehicle model information. In existing technology, workers confirm vehicle model information manually by visual inspection and, combined with work experience, determine the type and quantity of roof clips to be installed, and then use a roof clip fixture to install the roof clips.
[0041] Visual inspection alone cannot prevent misjudgments of vehicle model information, leading to incorrect installation of roof clips and occasional errors in the handling of roof clip fixtures, thus affecting the work cycle. Since it is necessary to observe the roof to confirm the installation of the roof clips, this confirmation cannot be completed at a regular workstation; therefore, it is generally performed at the workstation after the sealant drying oven. However, the operators at this workstation have too many tasks, making it difficult to avoid omissions.
[0042] Currently, there are no automated or digital solutions for the installation instructions of the roof clips, nor are there any verification solutions. The work mainly relies on the operator's visual observation and personal experience.
[0043] In existing technology, at the roof clip installation station on the sealant application line in an automotive painting workshop, operators need to install different types and quantities of roof clips based on vehicle model information. Currently, operators visually identify the vehicle model information and determine the required number of roof clips. This requires operators to have some experience, hindering quick work; visual judgment cannot avoid misjudgments; and visual judgment takes time, affecting the work cycle. After obtaining the roof clip type, operators use the corresponding clip fixture to install it, occasionally resulting in incorrect fixture selection, further impacting the work cycle. Since observing the roof to confirm the installation is necessary, this confirmation is typically done at a station after the sealant drying oven, as a standard station cannot handle this task. However, this station involves excessive work, making it difficult to avoid omissions, and the confirmation process also affects the work cycle and wastes manpower.
[0044] Example 1
[0045] Figure 1 This is a schematic diagram of a roof clip installation and testing system provided in Embodiment 1 of the present invention. This embodiment is applicable to the installation and testing of roof clips.
[0046] like Figure 1 As shown, the method includes: a vehicle information device 110, a vehicle information display device 120, and a tool table 130.
[0047] The vehicle model information device 110 is communicatively connected to the vehicle model information display device 120, and the vehicle model information device 110 is communicatively connected to the tool table 130.
[0048] In this embodiment, the communication connection method can be a communication connection through a wireless communication device or a wired communication device. This embodiment does not limit the method of completing the communication connection.
[0049] The roof clip can be a roof drainage channel clip, which can be used to fix the drainage channel strip; furthermore, the car body drainage channel drains rainwater from the car body along the drainage channel to the outside of the car, preventing water from entering the interior of the car body and the interior of the body sheet metal structure, providing a comfortable interior riding space and preventing the body sheet metal from rusting prematurely under the action of rainwater.
[0050] In this embodiment, specifically, the vehicle model information device 110 is used to acquire pre-configured vehicle model information and transmit it to the vehicle model information display device.
[0051] The vehicle model information includes: the number of roof clips, the vehicle model code, the sunroof type, the installation location of the roof clips, and tool area information. Furthermore, the number of roof clips refers to the total number of roof clips required for the target vehicle; the vehicle model code is the model code matching the current target vehicle found according to a preset vehicle model code table; the sunroof type can include all sunroof types currently available on the market, such as panoramic sunroofs, small sunroofs, and sunroof-less sunroofs; and the tool area information indicates the specific storage location of the roof clips and fixtures matching the current target vehicle within the tool table.
[0052] Furthermore, the vehicle information device 110 specifically includes:
[0053] The limit switch unit is used to send an activation command to the RFID radio frequency identification unit in response to a touch operation of the target vehicle; the RFID radio frequency identification unit is used to obtain the vehicle model information of the target vehicle based on the RFID radio frequency identification tag pre-placed on the target vehicle and send it to the control unit; the control unit is used to receive the vehicle model information sent by the RFID radio frequency identification unit and transmit it to the vehicle model information display device.
[0054] For example, in this embodiment, the RFID tag can be placed on the bottom or side of the target vehicle, and the vehicle body (cart, skid, etc.) carries the vehicle body with the RFID tag. When the target vehicle or vehicle body touches the limit switch, it sends an activation command to the RFID unit. The RFID unit instructs the RFID reader to read the vehicle model information in the RFID tag and obtain the vehicle model information, and then transmits the information to the control system. The control system processes the information and transmits it to the display device for display.
[0055] In this embodiment, the tool table 130 specifically includes: a lighting unit, a placement platform, and a proximity switch; the lighting unit is disposed on the side of the placement platform, and the proximity switch is placed inside the placement platform; further, the lighting unit is used to illuminate the light in the corresponding location area based on the tool area information in the vehicle model information; the placement platform is used to place at least one type of roof clip and fixture; the proximity switch is used to detect the placement status of the roof clip and fixture in the current placement platform.
[0056] The proximity switch is an ideal electronic switching sensor. When a metal detection object such as a roof clip or fixture approaches the switch's sensing area, the switch can quickly issue an electrical command without contact, pressure, or sparks, accurately reflecting the position and stroke of the moving mechanism. Even for general stroke control, its positioning accuracy, operating frequency, service life, ease of installation and adjustment, and adaptability to harsh environments are unmatched by ordinary mechanical limit switches. It is widely used in machine tools, metallurgy, chemical, textile, and printing industries. In automatic control systems, it can be used as a limit switch, counting switch, positioning control switch, and automatic protection device.
[0057] Meanwhile, the tool table 130 is also specifically used to: generate an error message and transmit it to the lighting unit when a change in the placement state of the roof clip or fixture placed on the placement table that has not been illuminated is detected by the proximity switch; the lighting unit, in response to the error message, displays the light in the corresponding area in red.
[0058] For example, based on the above steps, while the control system processes the information and transmits it to the display device, the indicator lights in the tool table area corresponding to the roof clip fixture and the roof clip position are illuminated. The operator then retrieves the corresponding roof clip and fixture according to the indicator lights. When a proximity switch detects that the operator has retrieved a fixture or roof clip that is different from the indicator light, the indicator light in the incorrectly retrieved area is displayed in red to prevent incorrect retrieval.
[0059] Optionally, the roof clip installation and inspection system further includes: an inspection device for acquiring images of the target vehicle and performing at least one type of installation inspection on the target vehicle after the roof clip installation is completed based on a preset inspection method; wherein, the type of installation inspection includes: the number of roof clips installed, the installation direction, and the degree of offset.
[0060] Specifically, the detection system includes: an industrial vision sensor and a light source sensor, used to acquire images of the target vehicle and transmit the target images to a computer image processing unit; and a computer image processing unit, used to perform at least one type of installation inspection on the target vehicle with the roof clips installed based on the target images.
[0061] In this embodiment, the detection system also has an abnormal alarm function. If the number of roof clips, the installation direction, and the degree of offset are found to be correct and within the allowable range during the detection process, the vehicle can pass normally. If any of them do not meet the requirements, the operator will be alerted by an audible and visual alarm.
[0062] The technical solution of this invention obtains pre-configured vehicle model information through a vehicle model information device and transmits it to a vehicle model information display device; obtains the target vehicle model information through the vehicle model information display device and transmits it to a display device for display; places at least one type of roof clip and fixture on a tool table; and provides light prompts in response to the target vehicle model information generation area. This solves the problem of low accuracy and efficiency in the installation and inspection of roof clips in the prior art. It can assist workers in installing roof clips and inspect the installation status of roof clips after installation, thereby improving the accuracy and efficiency of roof clip installation and inspection.
[0063] Example 2
[0064] Figure 2a This is a schematic diagram of a roof clip installation and testing system provided in Embodiment 2 of the present invention. This embodiment is applicable to the installation and testing of roof clips.
[0065] like Figure 2a As shown, the system includes: a vehicle information device 210, a vehicle information display device 220, and a tool table 230.
[0066] The vehicle model information device 210 is communicatively connected to the vehicle model information display device 220, and the vehicle model information device 210 is communicatively connected to the tool table 230.
[0067] The vehicle model information device 210 is used to acquire pre-configured vehicle model information and transmit it to the vehicle model information display device.
[0068] The vehicle model information includes: the number of roof clips, the vehicle model code, the sunroof type, the installation location of the roof clips, and tool area information. Furthermore, the number of roof clips refers to the total number of roof clips required for the target vehicle; the vehicle model code is the model code matching the current target vehicle found according to a preset vehicle model code table; the sunroof type can include all sunroof types currently available on the market, such as panoramic sunroofs, small sunroofs, and sunroof-less sunroofs; and the tool area information indicates the specific storage location of the roof clips and fixtures matching the current target vehicle within the tool table.
[0069] Furthermore, the vehicle information device 210 specifically includes:
[0070] The limit switch unit is used to send an activation command to the RFID radio frequency identification unit in response to a touch operation of the target vehicle; the RFID radio frequency identification unit is used to obtain the vehicle model information of the target vehicle based on the RFID radio frequency identification tag pre-placed on the target vehicle and send it to the control unit; the control unit is used to receive the vehicle model information sent by the RFID radio frequency identification unit and transmit it to the vehicle model information display device.
[0071] For example, in this embodiment, the RFID tag can be placed on the bottom or side of the target vehicle, and the vehicle body (cart, skid, etc.) carries the vehicle body with the RFID tag. When the target vehicle or vehicle body touches the limit switch, it sends an activation command to the RFID unit. The RFID unit instructs the RFID reader to read the vehicle model information in the RFID tag and obtain the vehicle model information, and then transmits the information to the control system. The control system processes the information and transmits it to the display device for display.
[0072] The tool table 230 specifically includes: a lighting unit, a placement platform, and a proximity switch; the lighting unit is disposed on the side of the placement platform, and the proximity switch is placed inside the placement platform; further, the lighting unit is used to illuminate the light in the corresponding location area based on the tool area information in the vehicle model information; the placement platform is used to place at least one type of roof clip and fixture; the proximity switch is used to detect the placement status of the roof clip and fixture in the current placement platform.
[0073] Meanwhile, the tool table 230 is also specifically used to: when a change in the placement status of a roof clip or fixture placed on a placement table that has not been illuminated is detected by a proximity switch, generate an error message and transmit it to the lighting unit; the lighting unit responds to the error message by displaying the light in the corresponding area in red.
[0074] For example, based on the above steps, while the control system processes the information and transmits it to the display device, the indicator lights in the tool table area corresponding to the roof clip fixture and the roof clip position are illuminated. The operator then retrieves the corresponding roof clip and fixture according to the indicator lights. When a proximity switch detects that the operator has retrieved a fixture or roof clip that is different from the indicator light, the indicator light in the incorrectly retrieved area is displayed in red to prevent incorrect retrieval.
[0075] Optionally, the roof clip installation and inspection system further includes: an inspection device for acquiring images of the target vehicle and performing at least one type of installation inspection on the target vehicle after the roof clip installation is completed based on a preset inspection method; wherein, the type of installation inspection includes: the number of roof clips installed, the installation direction, and the degree of offset.
[0076] Specifically, the detection system includes: an industrial vision sensor and a light source sensor, used to acquire images of the target vehicle and transmit the target images to a computer image processing unit; and a computer image processing unit, used to perform at least one type of installation inspection on the target vehicle with the roof clips installed based on the target images.
[0077] In this embodiment, the detection system also has an abnormal alarm function. If the number of roof clips, the installation direction, and the degree of offset are found to be correct and within the allowable range during the detection process, the vehicle can pass normally. If any of them do not meet the requirements, the operator will be alerted by an audible and visual alarm.
[0078] The vehicle model information display device 220 is used to acquire the vehicle model information of the target vehicle and transmit it to the display device for display, to configure the display interface in response to the user's configuration operation, to display the vehicle model information that matches the configuration type, and to generate a reading error prompt when the vehicle model information of the target vehicle is not acquired, and to transmit the reading error prompt to the display device for display.
[0079] Based on the above-mentioned device, the vehicle information display device is further used for:
[0080] In response to the roof clip installation location information in the vehicle information, a location prompt map is generated and transmitted to the display device for display.
[0081] For example, such as Figure 2b The diagram shown illustrates the display result of the vehicle model information. It should be noted that the diagram only shows the display result when the configuration type of the display interface includes the vehicle model code, sunroof type, number of roof clips, and installation position of the roof clips. In actual use, the device described in this embodiment can also display other types of vehicle model information through manual configuration; however, no specific examples are provided in this embodiment.
[0082] Based on the above settings, such as Figure 2b As shown, the display device shows the number of roof clips, corresponding to... Figure 2b The "card" line; vehicle model code, corresponding to Figure 2b The "vehicle model" line; sunroof type, corresponding to Figure 2b The "sunroof" row; and a pre-set row for quickly adding other configuration types of vehicle information later.
[0083] Specifically, taking vehicle model 888, panoramic sunroof, two roof clips, and normal information reading as an example, the read information is illuminated to alert the operator, while other information is either off or not displayed. Based on the site conditions, there are four roof clips, symmetrically arranged on the left and right sides (two on each side). The four indicator lights on the roof correspond to the four installation positions of the roof clips. If there are zero roof clips, all four indicator lights are off, and the tool position indicators for the roof clips are also off. If there are two roof clips, the two indicator lights at the corresponding positions are symmetrically illuminated according to the read information, and the corresponding tool position indicator area is illuminated, for example, area 1. If there are four roof clips, all four indicator lights are illuminated, and the corresponding tool position indicator areas are illuminated. A position prompt diagram is generated and displayed based on the above. The preparatory row is not used and defaults to displaying 00. It should be noted that this display device is not limited to using LED screens, LCD screens, LCD TVs, or other electronic devices with display functions.
[0084] When the vehicle model information of the target vehicle is not obtained, a read error message is generated. Figure 2b The "Read Error" line displayed in the text is highlighted, and all other content is cleared to only show the read error message.
[0085] Meanwhile, for the roof clip fixtures and the tool table 220 where the roof clips are placed, after obtaining the vehicle model information, the indicator lights in the corresponding tool table area will illuminate to prompt the operator to retrieve the corresponding roof clips and fixtures. The area formed by the roof clip fixtures and / or roof clips is considered as one area. Depending on the type of fixtures and fixtures for the vehicle model, an area can be formed by the roof clip fixtures or by the roof clips alone. Indicator lights surround the area formed. Specifically, the indicator lights for each area are not limited to using single-color or multi-color lights, and the light color is not limited to white, yellow, green, etc. When using multiple colors, different colors can be used to represent the front and rear fixture areas on the roof, or different colors can be used to represent fixtures for different vehicle models; the indicator lights are not limited to LED light strips, light strips composed of arrays of bulbs, etc., and the layout on both sides of the vehicle body is symmetrical with consistent content. It also has a roof clip fixture retrieval detection function. When a fixture different from the indicated one is retrieved, the indicator light of the incorrectly retrieved area will be displayed in a special color, such as red. The reset button needs to be pressed to restore the normal state and avoid retrieval errors.
[0086] The technical solution of this invention obtains pre-configured vehicle model information through a vehicle model information device and transmits it to a vehicle model information display device; obtains the target vehicle model information through the vehicle model information display device and transmits it to a display device for display; places at least one type of roof clip and fixture on a tool table; and provides light prompts in response to the target vehicle model information generation area. This solves the problem of low accuracy and efficiency in the installation and inspection of roof clips in the prior art. It can assist workers in installing roof clips and inspect the installation status of roof clips after installation, thereby improving the accuracy and efficiency of roof clip installation and inspection.
[0087] Specific implementation scenarios
[0088] To more clearly illustrate the technical solutions in the embodiments of the present invention, specific implementation scenarios used in the description of the embodiments will be illustrated below. Obviously, the specific implementation scenarios described below are only some embodiments of the present invention. For those skilled in the art, other embodiments can be obtained based on these embodiments without creative effort.
[0089] 1) After the target vehicle or vehicle body touches the limit switch, it sends an activation command to the RFID radio frequency identification unit. The RFID radio frequency identification unit instructs the RFID reader to read the vehicle model information in the RFID identification tag and obtain the vehicle model information. Then, the information is transmitted to the control system. The control system processes the information and transmits it to the display device for display.
[0090] 2) The indicator lights for the corresponding roof clip fixtures and roof clip tool table areas will illuminate. The operator should retrieve the corresponding roof clips and fixtures according to the indicator lights. If a fixture that is not indicated by the light is retrieved, the indicator light for the incorrectly retrieved area will turn red. The reset button must be pressed to restore the normal state and avoid retrieval errors.
[0091] 3) The operator installs the corresponding number of roof clips for the corresponding vehicle model according to the information displayed on the display device. When the vehicle model information system fails to obtain information effectively, the display device will prompt "reading error" and clear other content so that the operator can deal with the abnormal situation in a timely manner and avoid misreading incorrect information.
[0092] 3) When the vehicle body moves to the roof clip detection system, based on machine vision technology, four sets of industrial vision sensors and light sources complete image acquisition. Then, the computer image processing analyzes the installation status of the roof clips, realizing the analysis of the number, direction and degree of offset of the roof clips. If the number and installation direction are correct and the degree of offset is within the allowable range, the vehicle can pass normally. If any of the requirements are not met, the operator will be alerted through an audible and visual alarm.
[0093] It should be understood that the various forms of processes shown above can be used, with steps reordered, added, or deleted. For example, the steps described in this invention can be executed in parallel, sequentially, or in different orders, as long as the desired result of the technical solution of this invention can be achieved, and no limitation is imposed herein.
Claims
1. A roof clip installation and testing system, characterized in that, This includes a vehicle information device, a vehicle information display device, and a tool table, among which: The vehicle model information device is communicatively connected to the vehicle model information display device, and the vehicle model information device is communicatively connected to the tool table; The vehicle information device is used to acquire pre-configured vehicle information and transmit it to the vehicle information display device; The vehicle model information display device is used to acquire the vehicle model information of the target vehicle and transmit it to the display device for display. The tool table is used to place at least one type of roof clip and fixture, and to generate area lighting prompts in response to the target vehicle's model information.
2. The system according to claim 1, characterized in that, The system also includes: The detection device is used to acquire images of the target vehicle and to perform at least one type of installation inspection on the target vehicle with the roof clips installed based on a preset detection method.
3. The system according to claim 1, characterized in that, The vehicle model information includes: the number of roof clips, the vehicle model code, the sunroof type, the installation location of the roof clips, and the tool area information.
4. The system according to claim 1, characterized in that, The vehicle information display device is also used for: In response to the user's configuration operation, the display interface is configured with a specific type, and vehicle information matching the configuration type is displayed. as well as: When the vehicle model information of the target vehicle is not obtained, a reading error message is generated and the reading error message is transmitted to the display device for display.
5. The system according to claim 1, characterized in that, The vehicle information display device is also used for: In response to the roof clip installation location information in the vehicle information, a location prompt map is generated and transmitted to the display device for display.
6. The system according to claim 1, characterized in that, The vehicle information device specifically includes: Limit switch unit, used to send an activation command to RFID radio frequency identification unit in response to touch operation of target vehicle; The RFID radio frequency identification unit is used to obtain the vehicle model information of the target vehicle based on the RFID radio frequency identification tag pre-placed on the target vehicle and send it to the control unit; The control unit is used to receive vehicle model information sent by the RFID radio frequency identification unit and transmit it to the vehicle model information display device.
7. The system according to claim 1, characterized in that, The tool table specifically includes: a lighting unit, a placement platform, and a proximity switch; The lighting unit is disposed on the side of the placement platform, and the proximity switch is placed inside the placement platform; The lighting unit is used to illuminate the lights in the corresponding area based on the tool area information in the vehicle information; A placement platform for holding at least one type of roof clip and fixture; The proximity switch is used to detect the placement status of the roof clips and fixtures in the current placement platform.
8. The system according to claim 7, characterized in that, The tool table is also specifically used for: When a change in the placement status of a roof clip or fixture placed on a platform that has not been operated to turn on the lights is detected by a proximity switch, an error message is generated and transmitted to the lighting unit. The lighting unit responds to the error message by displaying the lights in the corresponding area in red.
9. The system according to claim 2, characterized in that, The detection device includes an industrial vision sensor and a light source sensor, used to acquire images of the target vehicle and transmit the target images to a computer image processing unit.
10. The system according to claim 2, characterized in that, The detection device further includes a computer image processing unit, used to perform at least one type of installation inspection on the target vehicle with the roof clips installed based on the target image; wherein the type of installation inspection includes: the number of roof clips installed, the installation direction, and the degree of offset.