A multi-angle adjustable re-inspection device and detection system
By designing a multi-angle adjustable re-inspection device, the problem of difficult debugging of existing equipment has been solved, enabling flexible adjustment and rapid disassembly and assembly of the testing components, thereby improving production efficiency and reducing maintenance costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU ZHONGZHICHENG IND TECHNOLOGY SERVICE CO LTD
- Filing Date
- 2025-07-04
- Publication Date
- 2026-06-30
AI Technical Summary
The existing re-inspection equipment is difficult to debug and cannot effectively adjust the prism angle, resulting in low production efficiency, difficult maintenance and high cost.
A multi-angle adjustable re-inspection device was designed, including a frame, a first adjustment component, a drive component, a second adjustment component, and a detection component. The detection component can be adjusted in multiple dimensions through detachable connection and shim adjustment, avoiding overall disassembly and assembly.
It enables flexible adjustment and quick assembly/disassembly of the detection components, improving production efficiency, reducing maintenance costs, and enhancing the applicability and controllability of the equipment.
Smart Images

Figure CN224435285U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of re-inspection equipment technology, specifically to a multi-angle adjustable re-inspection equipment and detection system. Background Technology
[0002] In industrial production, the precise fit of shims is crucial for ensuring equipment stability and improving product quality; therefore, post-shim inspection is essential. Currently, the industry typically uses a camera prism to inspect the shim-attached points to ensure compliance with production standards. However, existing inspection equipment has significant structural design flaws. Due to unreasonable design of the fixed electric cylinder and prism components, the prism angle cannot be effectively adjusted during inspection, requiring repeated disassembly and reassembly for trial and error. Operators often spend a significant amount of time on repeated adjustments, resulting in excessively long adjustment times, severely impacting production efficiency and increasing production costs for enterprises.
[0003] Furthermore, during equipment operation, to achieve miniaturization, the gap between the door panel and the electric cylinder is extremely small. The screws securing the electric cylinder are obstructed by the door panel, preventing conventional wrenches and other maintenance tools from reaching the operating space, making disassembly and assembly even more difficult. This situation significantly increases the time required to handle abnormalities, causing prolonged equipment downtime and affecting production progress. It may also lead to damage to other related components due to delayed repairs, further increasing maintenance costs and production risks. Summary of the Invention
[0004] Therefore, the technical problem to be solved by this utility model is to overcome the difficulty in debugging the existing re-inspection equipment and to provide a multi-angle adjustable re-inspection equipment and detection system.
[0005] To solve the above-mentioned technical problems, this utility model provides a multi-angle adjustable re-inspection device, comprising: a frame; a first adjustment component, the first adjustment component including a fixed part and an angle adjustment part connected to each other, the fixed part being detachably connected to the frame; a drive component, the drive component including a body and a slide, the slide being slidably connected to the body in a vertical direction, wherein the body is detachably connected to the angle adjustment part, and at least one shim can be provided between the body and the angle adjustment part to adjust the angle of the drive component; a second adjustment component, the second adjustment component being connected to the slide, comprising an adjustment plate, a connecting plate and a connecting arm, the adjustment plate being connected to the slide, and at least one shim can be provided between the adjustment plate and the slide, the connecting plate being detachably connected to the adjustment plate and rotatable about a rotation center line, the connecting arm being connected to the connecting plate and rotating synchronously with the connecting plate; and a detection component, the detection component being connected to the connecting arm.
[0006] In one embodiment of this utility model, the frame is provided with a plurality of horizontal adjustment holes, and the fixing part is provided with a strip-shaped through hole. The strip-shaped through hole can be connected to different horizontal adjustment holes by screws to adjust the relative position between the frame and the first adjustment component.
[0007] In one embodiment of the present invention, the frame includes a connecting beam and two supporting legs. The connecting beam extends horizontally, and the two supporting legs are respectively disposed at both ends of the connecting beam and supported on the mounting surface. A plurality of horizontal adjustment holes are disposed on the connecting beam.
[0008] In one embodiment of this utility model, the main body is provided with a plurality of first connecting holes, and the angle adjustment part is provided with a plurality of first angle adjustment holes, and screws can be passed through the corresponding connected first angle adjustment holes and first connecting holes.
[0009] In one embodiment of this utility model, the slide is provided with a plurality of second connecting holes, and the adjusting plate is provided with a plurality of second angle adjusting holes, and screws can be passed through the corresponding connected second angle adjusting holes and second connecting holes.
[0010] In one embodiment of this utility model, the adjusting plate is provided with a plurality of third connecting holes on the side facing the connecting plate, and the connecting plate is provided with a plurality of arc-shaped through holes, through which screws can pass.
[0011] In one embodiment of the present invention, the driving component further includes a guide rail, which is disposed on the body and extends in a vertical direction, and the carriage is slidably connected to the guide rail.
[0012] In one embodiment of this utility model, the detection component includes a plurality of camera detection prisms, including a shortcut button detection prism, a power button detection prism, a mute button detection prism, a volume up button detection prism, and a volume down button detection prism.
[0013] In one embodiment of the present invention, the multi-angle adjustment re-inspection device further includes a control mechanism, and the driving component and the detection component are respectively connected to the control mechanism.
[0014] This utility model also provides a multi-angle adjustment re-inspection system, which includes the above-mentioned multi-angle adjustment re-inspection equipment.
[0015] The above-mentioned technical solution of this utility model has the following advantages compared with the prior art:
[0016] The multi-angle adjustable re-inspection equipment and detection system described in this utility model achieves flexible adjustment of the relative position between the drive component and the frame through the cooperation of the first adjustment component and the shims. Then, the relative position between the detection component and the drive component is flexibly adjusted through the cooperation of the adjustment plate and the shims in the second adjustment component. Furthermore, the special structural design of the connecting plate further increases the adjustment dimensions of the detection component, thereby ensuring that the detection component can freely adjust its detection angle according to actual usage requirements. In addition, based on the above structural design, during actual debugging or maintenance, there is no need to disassemble the entire equipment or its doors; the entire equipment can be quickly disassembled simply by removing and installing the first and second adjustment components. Compared with current conventional re-inspection technologies, this application has significant advantages such as wide applicability, flexible operation, high degree of freedom, strong controllability, and ease of disassembly and assembly, and has broad application prospects in this industry. Attached Figure Description
[0017] To make the content of this utility model easier to understand, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings.
[0018] Figure 1 This is a three-dimensional structural diagram of the multi-angle adjustable re-inspection device in a preferred embodiment of this utility model;
[0019] Figure 2 yes Figure 1 A three-dimensional structural diagram of the multi-angle adjustable re-inspection equipment from another perspective;
[0020] Figure 3 yes Figure 1 A three-dimensional structural diagram of the drive component, the first adjustment component, the second adjustment component, and the detection component in the multi-angle adjustment re-inspection device shown;
[0021] Figure 4 yes Figure 1 The diagram shows a three-dimensional structure of the drive assembly and adjustment plate in the multi-angle adjustment re-inspection equipment.
[0022] Explanation of reference numerals in the accompanying drawings: 100, frame; 110, support leg; 120, connecting beam; 121, horizontal adjustment hole; 200, first adjustment component; 210, fixing part; 211, strip-shaped through hole; 220, angle adjustment part; 221, first angle adjustment hole; 300, drive component; 310, body; 311, first connecting hole; 320, slide; 321, second connecting hole; 330, guide rail; 400, second adjustment component; 410, adjustment plate; 411, second angle adjustment hole; 412, third connecting hole; 420, connecting plate; 421, arc-shaped through hole; 430, connecting arm; 500, detection component; 1001, rotation center line. Detailed Implementation
[0023] The present invention will be further described below with reference to the accompanying drawings and specific embodiments, so that those skilled in the art can better understand and implement the present invention. However, the embodiments are not intended to limit the present invention.
[0024] Example 1:
[0025] See Figure 1 As shown, this embodiment provides a multi-angle adjustable re-inspection device, which includes: a frame 100; a first adjustment component 200, the first adjustment component 200 including a fixing part 210 and an angle adjustment part 220 connected to each other, the fixing part 210 being detachably connected to the frame 100; and a drive component 300, the drive component 300 including a body 310 and a slide 320, the slide 320 being slidably connected to the body 310 in a vertical direction, wherein the body 310 is detachably connected to the angle adjustment part 220, and at least one shim can be provided between the body 310 and the angle adjustment part 220 to adjust the angle adjustment part. The drive assembly 300 has an angle; a second adjustment assembly 400 is connected to the slide 320 and includes an adjustment plate 410, a connecting plate 420, and a connecting arm 430. The adjustment plate 410 is connected to the slide 320, and at least one shim can be provided between the adjustment plate 410 and the slide 320. The connecting plate 420 is detachably connected to the adjustment plate 410 and can rotate about the rotation center line 1001. The connecting arm 430 is connected to the connecting plate 420 and rotates synchronously with the connecting plate 420; and a detection assembly 500 is connected to the connecting arm 430.
[0026] The multi-angle adjustable re-inspection device described in this embodiment achieves flexible adjustment of the relative position between the drive component 300 and the frame 100 through the cooperation of the first adjustment component 200 and the shim. Then, the relative position between the detection component 500 and the drive component 300 is flexibly adjusted through the cooperation of the adjustment plate 410 in the second adjustment component 400 and the shim. Simultaneously, the special structural design of the connecting plate 420 further increases the adjustment dimensions of the detection component 500, thereby ensuring that the detection component 500 can freely adjust its detection angle according to actual usage requirements. Furthermore, based on the above structural design, during actual debugging or maintenance, there is no need to disassemble the entire device or its door panels; the entire device can be quickly disassembled simply by removing and installing the first adjustment component 200 and the second adjustment component 400. Compared with current conventional re-inspection technologies, this application has significant advantages such as wide applicability, flexible operation, high degree of freedom, strong controllability, and ease of disassembly and assembly.
[0027] It should be noted that the multi-angle adjustment re-inspection device described in this embodiment is used to re-inspect mobile phone buttons. The current detection component 500 includes multiple camera prisms that are uniformly leveled after installation. Therefore, during the re-inspection process, all camera prisms need to be adjusted synchronously so that multiple camera prisms can respectively detect the corresponding buttons.
[0028] In this embodiment, the frame 100 serves as the basic support structure for the entire re-inspection equipment, providing an installation carrier for other components. It is directly connected to the external installation environment, bears all loads during equipment operation, and ensures the stability of the overall equipment structure. Specifically, see... Figure 1 and Figure 2 As shown, the frame 100 includes a connecting beam 120 and two support legs 110. The connecting beam 120 extends horizontally, and the two support legs 110 are respectively disposed at both ends of the connecting beam 120 and supported on the mounting surface. Furthermore, in this embodiment, the frame 100 is provided with multiple horizontal adjustment holes 121 to facilitate detachable connection and disassembly with the first adjustment assembly 200, wherein the multiple horizontal adjustment holes 121 are disposed on the connecting beam 120.
[0029] The drive assembly 300 is used to drive the detection assembly 500 in the vertical direction. It should be noted that in conventional re-inspection structures, the frame and drive assembly 300 are fixedly connected, and the detection assembly and drive assembly 300 are also fixedly connected. Therefore, after the re-inspection equipment is assembled, it is difficult to precisely adjust the specific working position of the detection assembly. Based on this, the first adjustment assembly 200 in this application provides a detachable mounting interface for the drive assembly 300 and the frame 100. Specifically, the fixing part 210 is detachably connected to the frame 100 and has a strip-shaped through hole 211. The strip-shaped through hole 211 can be connected to different horizontal adjustment holes 121 by screws to adjust the relative position between the frame 100 and the first adjustment assembly 200.
[0030] See Figure 3 and Figure 4As shown, the main body 310 of the drive assembly 300 is preferably an electric cylinder, which serves as the main body of the drive assembly 300, providing an installation base and driving power for the carriage 320. The main body 310 is provided with multiple first connecting holes 311, and the angle adjustment part 220 is provided with multiple first angle adjustment holes 221. Screws can pass through the corresponding connected first angle adjustment holes 221 and first connecting holes 311. The angle adjustment part 220 is connected to the fixing part 210. By setting shims between the main body 310 and the angle adjustment part 220, the angle adjustment of the drive assembly 300 relative to the frame 100 can be achieved. The addition or removal of shims can change the included angle between the two, thereby adjusting the tilt angle of the drive assembly 300. In this embodiment, based on the above structural design, the angle of the drive assembly 300 can be flexibly adjusted, which can adapt to detection objects of different heights and tilt angles. At the same time, the detachable connection method facilitates the quick installation and disassembly of the equipment in different scenarios, and can also overcome the problem of needing to completely disassemble the installation space door panel in conventional structures.
[0031] Furthermore, the carriage 320 is slidably connected to the body 310 in the vertical direction, enabling vertical displacement and driving the connected second adjustment component 400 and detection component 500 to move up and down to adjust the detection height. Specifically, the drive component 300 also includes a guide rail 330, which is disposed on the body 310 and extends in the vertical direction. The carriage 320 is slidably connected to the guide rail 330, thereby ensuring the accuracy of the carriage 320's lifting and lowering movement. In different embodiments, enterprises can further achieve precise guidance by setting other guiding structures such as guide rods or setting other numbers of guide rails. This utility model does not impose specific limitations in this regard.
[0032] See Figure 3 and Figure 4As shown, the second adjustment component 400 is a structure that enables the detection component 500 and the electric drive component 300 to be detachably connected, and can further adjust the working angle of the detection component 500 by cooperating with the shim. The slide 320 is provided with a plurality of second connection holes 321, and the adjustment plate 410 is provided with a plurality of second angle adjustment holes 411. Screws can pass through the corresponding connected second angle adjustment holes 411 and second connection holes 321. Based on the above structural design, the adjusting plate 410 is connected to the slide 320. By setting shims between the adjusting plate 410 and the slide 320, the position of the detection component 500 in the horizontal or vertical direction can be finely adjusted. The connecting plate 420 is detachably connected to the adjusting plate 410 and can rotate around the rotation center line 1001, providing an additional rotational adjustment dimension for the detection component 500. The connecting arm 430 is connected to the connecting plate 420 and drives the detection component 500 to rotate synchronously with the connecting plate 420, transmitting the adjustment action to the detection component 500. The multi-layer adjustment structure significantly increases the adjustment freedom of the detection component 500. At the same time, the shim fine adjustment can achieve the position adjustment of the detection component 500 at the millimeter level, meeting the high-precision detection requirements.
[0033] Furthermore, in this embodiment, the adjusting plate 410 has multiple third connecting holes 412 on the side facing the connecting plate 420, and the connecting plate 420 has multiple arc-shaped through holes 421. Screws can pass through the corresponding connected third connecting holes 412 and arc-shaped through holes 421. This allows for adjustment of another degree of freedom of the detection component 500 by changing the relative positional relationship between the adjusting plate 410 and the connecting plate 420. Specifically, in this embodiment, the connecting plate 420 has four arc-shaped through holes 421 with a centrally symmetrical design. In different embodiments, other positions or numbers of arc-shaped through holes 421 can be provided according to actual usage requirements; this utility model does not impose specific limitations in this regard.
[0034] As the core execution component of the device, the detection component 500 is connected to the connecting arm 430. With the cooperation of various adjustment components, the detection component 500 can quickly adjust to the optimal detection position and angle, achieving accurate detection of objects of different shapes, sizes, and positions. In this embodiment, when re-inspecting products after shim application, the detection component 500 can quickly adapt to changes in product position, efficiently completing the detection of parameters such as shim adhesion and positional accuracy, ensuring product quality. Specifically, the detection component 500 in this embodiment includes multiple camera detection prisms, including a shortcut button detection prism, a power button detection prism, a mute button detection prism, a volume up button detection prism, and a volume down button detection prism, respectively corresponding to the detection of the quality of mobile phone shortcut buttons, power buttons, mute buttons, volume up buttons, and volume down buttons.
[0035] The multi-angle adjustment and re-inspection equipment in this embodiment also includes a control mechanism, and the drive component 300 and the detection component 500 are respectively connected to the control mechanism. In actual production and processing, operators can use the control mechanism to adjust the above structure in real time, thereby improving the flexibility of the equipment. Parameters can also be preset through the control mechanism, thereby improving the automation level of the equipment.
[0036] Example 2:
[0037] This embodiment provides a multi-angle adjustment re-inspection system, which includes the multi-angle adjustment re-inspection equipment described above.
[0038] In summary, the various mechanisms of this multi-angle adjustable re-inspection equipment perform their respective functions while working closely together. This not only enables multi-dimensional and flexible adjustment of the inspection angle to meet diverse inspection needs, but also greatly improves the ease of installation and maintenance efficiency through its detachable and fine-tunable structural design. It effectively solves the problems of difficult adjustment, poor applicability, and complex maintenance of traditional re-inspection equipment.
[0039] Obviously, the above embodiments are merely illustrative examples for clear explanation and are not intended to limit the implementation. Those skilled in the art will recognize that other variations or modifications can be made based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations here. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.
Claims
1. A multi-angle adjustment review device, characterized by: include: Frame; A first adjustment assembly includes a fixing part and an angle adjustment part that are connected to each other, wherein the fixing part is detachably connected to the frame. A drive assembly includes a body and a carriage, the carriage being slidably connected to the body in a vertical direction, wherein the body is detachably connected to the angle adjustment part, and at least one shim can be provided between the body and the angle adjustment part to adjust the angle of the drive assembly; The second adjustment assembly is connected to the slide and includes an adjustment plate, a connecting plate, and a connecting arm. The adjustment plate is connected to the slide, and at least one shim can be provided between the adjustment plate and the slide. The connecting plate is detachably connected to the adjustment plate and can rotate about the rotation center line. The connecting arm is connected to the connecting plate and rotates synchronously with the connecting plate. A detection component, which is connected to the connecting arm.
2. The multi-angle adjusting review apparatus according to claim 1, characterized in that: The frame is provided with multiple horizontal adjustment holes, and the fixing part is provided with a strip-shaped through hole. The strip-shaped through hole can be connected to different horizontal adjustment holes by screws to adjust the relative position between the frame and the first adjustment component.
3. The multi-angle adjusting review apparatus according to claim 2, characterized in that: The frame includes a connecting beam and two supporting legs. The connecting beam extends horizontally, and the two supporting legs are respectively located at both ends of the connecting beam and supported on the mounting surface. Multiple horizontal adjustment holes are provided on the connecting beam.
4. The multi-angle adjusting review apparatus according to claim 1, wherein: The main body is provided with a plurality of first connecting holes, and the angle adjustment part is provided with a plurality of first angle adjustment holes. Screws can be passed through the corresponding connected first angle adjustment holes and first connecting holes.
5. The multi-angle adjusting review apparatus according to claim 1, wherein: The carriage is provided with a plurality of second connecting holes, and the adjusting plate is provided with a plurality of second angle adjusting holes. Screws can be passed through the corresponding connected second angle adjusting holes and second connecting holes.
6. The multi-angle adjusting review apparatus according to claim 1, wherein: The adjusting plate has multiple third connecting holes on the side facing the connecting plate, and the connecting plate has multiple arc-shaped through holes. Screws can pass through the corresponding connected third connecting holes and arc-shaped through holes.
7. The multi-angle adjusting review apparatus according to claim 1, wherein: The drive assembly also includes a guide rail, which is disposed on the body and extends vertically, and the carriage is slidably connected to the guide rail.
8. The multi-angle adjusting review apparatus according to claim 1, wherein: The detection component includes multiple camera detection prisms, including a shortcut button detection prism, a power button detection prism, a mute button detection prism, a volume up button detection prism, and a volume down button detection prism.
9. The multi-angle adjusting review apparatus according to claim 1, wherein: The multi-angle adjustment re-inspection equipment also includes a control mechanism, and the drive component and the detection component are respectively connected to the control mechanism.
10. A multi-angle adjustment re-inspection system, characterized in that: The multi-angle adjustment re-inspection device includes any one of claims 1 to 9.