An automated test console
By automating the design of the drive motor and screw assembly, the problem of limited space on the traditional operating table is solved, enabling stable product positioning and efficient testing, and improving operational convenience and testing accuracy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ADVANTECH CHINA
- Filing Date
- 2025-05-21
- Publication Date
- 2026-06-30
AI Technical Summary
Traditional automated testing workbenches place the product placement area below the cylinders and fixtures, resulting in a narrow operating space, reduced work efficiency, and increased risk of collisions.
The system employs components such as a drive motor, horizontal screw, and vertical screw to achieve automatic movement of the moving platform and lifting of the top plate. Combined with limit, transmission, and elastic mechanisms, it ensures stable product positioning and accurate testing.
It improves the convenience of product placement and retrieval, enhances the accuracy and efficiency of testing, and reduces human intervention and errors.
Smart Images

Figure CN224425510U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of automated testing technology, and in particular to an automated testing console. Background Technology
[0002] In the field of automated testing, automated test benches are widely used for product performance and functional testing. Traditional automated test benches typically place the product placement area below the cylinders and fixtures. This layout has significant design flaws.
[0003] Because cylinders, fixtures, and other actuators occupy a significant amount of space around the product placement area, the operating space for operators during product loading and unloading is extremely narrow and cramped. Operators must accurately place and grasp products within limited space, with restricted hand movement hindering efficient and smooth operation, significantly reducing work efficiency. Furthermore, there is a high risk of collisions between operators' hands and tools and cylinders, fixtures, and other components during operation. Such collisions could not only injure operators but also cause physical damage such as scratches and deformation of the product surface, or loosening and displacement of equipment components, affecting the normal operation and lifespan of the equipment. Therefore, an automated testing platform is urgently needed to solve these problems. Utility Model Content
[0004] The purpose of this invention is to provide an automated testing platform to address the problem mentioned in the background section: traditional automated testing platforms typically place the product placement area below the cylinders and fixtures. This layout has significant design flaws.
[0005] To achieve the above objectives, this utility model provides the following technical solution: an automated testing operating platform, including a fixed platform, a support leg installed at the bottom of the fixed platform, a fixed frame and a support frame fixedly mounted on the upper surface of the fixed platform, a horizontal screw rod mounted on the fixed frame via a drive motor, a fixed frame threadedly mounted on the horizontal screw rod via a limiting mechanism, a movable platform fixedly mounted on the fixed frame, a vertical screw rod rotatably mounted between the fixed frame and the movable platform, the vertical screw rod being connected to the fixed frame via a transmission mechanism, a placement groove provided on the upper surface of the movable platform, a hidden groove provided on the bottom wall of the placement groove, a top plate provided in the hidden groove, the top plate being connected to the vertical screw rod via a lifting mechanism, a cylinder mounted on the support frame, a fixture mounted on the telescopic end of the cylinder via a mounting frame, and a positioning frame slidably penetrating the mounting frame via an elastic mechanism.
[0006] Preferably, the limiting mechanism includes a limiting rod fixedly disposed within the fixed frame, the limiting rod slidingly penetrating the fixed frame.
[0007] Preferably, the transmission mechanism includes a gear fixedly mounted on the end of the vertical screw, and a rack that meshes with the gear is fixedly provided on the bottom wall of the fixed frame.
[0008] Preferably, the lifting mechanism includes a lifting frame threaded onto a vertical screw, the end of which is fixedly connected to the top plate.
[0009] Preferably, the elastic mechanism includes a spring sleeved on the outside of the positioning frame rod, with both ends of the spring connected to the outer wall of the mounting frame and the outer wall of the positioning frame head, respectively.
[0010] Preferably, the support leg is X-shaped, the support frame is L-shaped, the lifting frame is U-shaped, and the positioning frame is I-shaped.
[0011] The beneficial effects of this utility model are:
[0012] 1. Through the coordination of components such as the drive motor, horizontal screw, and vertical screw, the automatic movement of the moving platform and the lifting and lowering of the top plate are achieved. When placing products, the top plate is in a higher position, making it convenient to place the products on it. After placement, the moving platform moves the products while the top plate lowers to allow the products to fully enter the placement slot, avoiding the inconvenience of placing products directly in the confined space under the cylinder and fixture. After testing, the top plate can rise again to push the products out, facilitating retrieval and replacement, greatly improving the operational space and convenience for product placement and retrieval.
[0013] 2. A limit mechanism is set up to prevent the fixed frame from rotating with the horizontal screw, ensuring the stability of the moving platform; the transmission mechanism makes the vertical screw rotate synchronously when the moving platform moves, realizing the automatic lifting and lowering of the top plate; the elastic potential energy provided by the spring in the elastic mechanism allows the positioning frame to contact the product first and press down to fix it, ensuring that the product is in a stable state when the fixture is inserted into the product, preventing the product from shaking and affecting the test results, thus improving the accuracy and reliability of the test.
[0014] 3. The application of power components such as drive motors and cylinders has automated a series of operations such as product transfer, positioning, testing and resetting, reducing manual intervention, improving testing efficiency, reducing labor costs, and avoiding errors caused by improper manual operation. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the structure of an automated testing console proposed in this utility model;
[0016] Figure 2 for Figure 1 A schematic diagram of the structure viewed from below;
[0017] Figure 3 for Figure 2 Enlarged schematic diagram of the structure at point A;
[0018] Figure 4 for Figure 1 A schematic diagram of the vertical section structure;
[0019] Figure 5 for Figure 4 Enlarged schematic diagram of the structure at point B;
[0020] Figure 6 This is a vertical sectional view of the components such as the mounting bracket and gears.
[0021] Figure 7 for Figure 6 A magnified schematic diagram of the structure at point C.
[0022] In the diagram: 1. Fixed platform, 2. Support leg, 3. Fixed frame, 4. Moving platform, 5. Placement slot, 6. Drive motor, 7. Support frame, 8. Cylinder, 9. Mounting bracket, 10. Fixture, 11. Positioning bracket, 12. Spring, 13. Fixed bracket, 14. Vertical screw, 15. Gear, 16. Rack, 17. Horizontal screw, 18. Lifting frame, 19. Limiting rod, 20. Hidden slot, 21. Top plate. Detailed Implementation
[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0024] Please see Figure 1-7 An automated testing platform includes a fixed platform 1 with support legs 2 mounted on its bottom. The support legs 2 are X-shaped, which improves support and stability. A fixed frame 3 and a support frame 7 are fixedly mounted on the upper surface of the fixed platform 1. The support frame 7 is L-shaped. A horizontal screw 17 is mounted on the fixed frame 3 via a drive motor 6. A fixed frame 13 is threadedly mounted on the horizontal screw 17 via a limiting mechanism. A movable platform 4 is fixedly mounted on the fixed frame 13. A vertical screw 14 is rotatably mounted between the fixed frame 13 and the movable platform 4. The vertical screw 14 is connected to the fixed frame 3 via a transmission mechanism. A placement groove 5 is provided on the upper surface of the movable platform 4. A hidden groove 20 is provided on the bottom wall of the placement groove 5. A top plate 21 is provided in the hidden groove 20. The top plate 21 is connected to the vertical screw 14 via a lifting mechanism. A cylinder 8 is provided on the support frame 7. A fixture 10 is provided on the telescopic end of the cylinder 8 via a mounting frame 9. A positioning frame 11 is slidably mounted on the mounting frame 9 via an elastic mechanism.
[0025] The limiting mechanism includes a limiting rod 19 fixedly installed within the fixed frame 3, which slides through the fixed frame 13. The limiting rod 19 limits the fixed frame 13, preventing it from rotating along with the horizontal screw 17.
[0026] The transmission mechanism includes a gear 15 fixedly mounted on the end of the vertical screw 14, and a rack 16 that meshes with the gear 15 is fixedly mounted on the bottom wall of the fixed frame 3. The gear 15 and rack 16 together enable the vertical screw 14 to rotate synchronously when the moving platform 4 and other components move.
[0027] The lifting mechanism includes a lifting frame 18 threadedly mounted on a vertical screw 14. The end of the lifting frame 18 is fixedly connected to the top plate 21, and the lifting frame 18 is U-shaped. Its vertical part slides through the bottom wall of the moving platform 4 and extends into the placement groove 5, thus it has its own limit to prevent it from rotating with the vertical screw 14.
[0028] The elastic mechanism includes a spring 12 sleeved on the outside of the rod of the positioning frame 11. The positioning frame 11 is I-shaped, and the two ends of the spring 12 are connected to the outer wall of the mounting frame 9 and the outer wall of the head of the positioning frame 11, respectively. The elastic potential energy provided by the spring 12 enables the positioning frame 11 to be pressed down, so that its initial height is lower than that of the fixture 10, allowing the positioning frame 11 to contact the product in the placement slot 5 first, and ensuring that it is in a stable state before the fixture 10 contacts the product.
[0029] Furthermore, when the fixture 10 detaches from the product, it can still press down and fix the product, preventing it from rising with the fixture 10 and detaching from the placement slot 5, thus avoiding a mess.
[0030] Components not specifically described in this utility model are all standard parts and can be purchased from the market. The specific connection methods for each component all employ mature methods from the prior art, and will not be detailed here. Content not described in detail in this specification belongs to prior art known to those skilled in the art.
[0031] In use, the movable platform 4 is initially positioned away from components such as the cylinder 8, and the top plate 21 is at a higher position within the placement groove 5 and detached from the hidden groove 20. At this point, the product is placed within the placement groove 5 and rests on the two top plates 21. Specifically, as follows... Figure 1As shown, the product has an exposed portion for easy gripping and handling. The drive motor 6 is then activated, causing the horizontal screw 17 to rotate. As the horizontal screw 17 rotates, the fixed frame 13 moves the moving platform 4 and the product. During this movement, the gear 15 meshes with the rack 16, causing the vertical screw 14 to rotate. When the vertical screw 14 rotates, the lifting frame 18 lowers the top plate 21, eventually placing it into the hidden slot 20. The product is then completely placed into the placement slot 5. The moving platform 4 and other components move to directly below the fixture 10. At this point, the cylinder 8 is activated to extend it, causing the mounting frame 9 and positioning frame 11 to descend. The positioning frame 11 first contacts the product in the placement slot 5. During the subsequent extension of the cylinder 8, the spring 12 is compressed, and its restoring force provides sufficient downward pressure on the product, ensuring its stability. Finally, the fixture 10 is inserted into the slot on the product for testing.
[0032] After the test is completed, cylinder 8 retracts, and fixture 10 disengages from the product slot. At this time, positioning frame 11 presses down on the product to prevent it from rising with fixture 10. After positioning frame 11 disengages from the product, drive motor 6 starts and reverses, and components such as moving table 4 move and reset. During this process, lifting frame 18 and top plate 21 rise and reset, realizing the product ejection operation, thus creating space to take out and replace a new product to be tested.
[0033] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
Claims
1. An automated test workbench, comprising a fixed platform (1), characterized in that, The fixed platform (1) is equipped with a support leg (2) at its bottom. A fixed frame (3) and a support frame (7) are fixedly mounted on the upper surface of the fixed platform (1). A horizontal screw (17) is mounted on the fixed frame (3) via a drive motor (6). A fixed frame (13) is threadedly mounted on the horizontal screw (17) via a limiting mechanism. A movable platform (4) is fixedly mounted on the fixed frame (13). A vertical screw (14) is rotatably mounted between the fixed frame (13) and the movable platform (4). The vertical screw (14) is driven by a transmission... The moving mechanism is connected to the fixed frame (3). The upper surface of the moving platform (4) is provided with a placement groove (5). The bottom wall of the placement groove (5) is provided with a hidden groove (20). The hidden groove (20) is provided with a top plate (21). The top plate (21) is connected to the vertical screw (14) through a lifting mechanism. The support frame (7) is provided with a cylinder (8). The telescopic end of the cylinder (8) is provided with a fixture (10) through a mounting frame (9). The mounting frame (9) is provided with a positioning frame (11) through an elastic mechanism.
2. The automated test console according to claim 1, characterized in that, The limiting mechanism includes a limiting rod (19) fixedly installed in the fixed frame (3), and the limiting rod (19) slides through the fixed frame (13).
3. The automated test console according to claim 2, characterized in that, The transmission mechanism includes a gear (15) fixedly installed on the end of the vertical screw (14), and a rack (16) that meshes with the gear (15) is fixedly provided on the bottom wall of the inner wall of the fixed frame (3).
4. An automated test console according to claim 3, characterized in that, The lifting mechanism includes a lifting frame (18) threadedly mounted on a vertical screw (14), and the end of the lifting frame (18) is fixedly connected to the top plate (21).
5. An automated test console according to claim 4, characterized in that, The elastic mechanism includes a spring (12) sleeved on the outside of the rod of the positioning frame (11), and the two ends of the spring (12) are respectively connected to the outer wall of the mounting frame (9) and the outer wall of the head of the positioning frame (11).
6. An automated test console according to claim 5, characterized in that, The support leg (2) is X-shaped, the support frame (7) is L-shaped, the lifting frame (18) is U-shaped, and the positioning frame (11) is I-shaped.