A glass detection support device

By designing a glass inspection support device with adjustable support plate spacing and a flipping motor, the problems of limited applicability and inconvenient flipping of traditional devices are solved. This enables stable positioning and multi-faceted inspection of glass of different sizes, improving inspection efficiency and safety.

CN224322981UActive Publication Date: 2026-06-05FUNING YUNXIANG GLASS PRODUCTS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FUNING YUNXIANG GLASS PRODUCTS CO LTD
Filing Date
2025-05-26
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Traditional glass inspection support devices can only be adapted to glass of a specific size range, and cannot be adapted to small or large glass. They also lack convenient flipping functions, resulting in inconvenient operation and the risk of glass damage.

Method used

A glass inspection support device was designed, comprising a base, a transmission lead screw, a positioning rod, a motor bracket, an adjusting motor, and a flipping motor. The spacing between the support plates is adjusted by adjusting the motor, and the glass is flipped by the flipping motor. Combined with the positioning suction cup and the crank handle, it enables stable positioning and multi-face inspection of glass of different sizes.

Benefits of technology

It achieves stable positioning of glass of different sizes, expands the scope of application, improves testing efficiency and comprehensiveness, and reduces operation difficulty and equipment cost.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224322981U_ABST
    Figure CN224322981U_ABST
Patent Text Reader

Abstract

The utility model belongs to glass detection support technical field, concretely is a kind of glass detection support device, the adjusting groove is set in base, the transmission screw rod is rotatably arranged in adjusting groove, the positioning rod is symmetrically arranged in transmission screw rod both sides, base side is provided with motor support, adjusting motor is provided on motor support, adjusting motor output end is fixedly connected in transmission screw rod top end, adjusting block is slidably arranged in adjusting groove, the threaded hole is set in adjusting block, transmission screw rod is rotated and passes the threaded hole set in adjusting block on adjusting block;The design can be according to the size of glass accurate adjustment the distance between first support plate and second support plate, whether small glass or large glass, can ensure its firm placement and detection, greatly expand the application range of device, improve the versatility, reduce the trouble of needing to replace different support device due to glass size difference, improve detection efficiency.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the field of glass testing support technology, specifically a glass testing support device. Background Technology

[0002] Glass is an amorphous inorganic non-metallic material, generally made from a variety of inorganic minerals, such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash, etc., as the main raw materials, with the addition of a small amount of auxiliary raw materials.

[0003] The specific design and structure of glass inspection support devices may vary depending on the manufacturer and application requirements, but generally they include the following key components: support platform, support feet, and positioning clamps. The support platform is usually made of a flat metal or glass plate, possessing a certain strength and stability, and is used to support the glass. The support feet connect the support platform to the ground or workbench, serving to support and stabilize the entire device. The positioning clamps are used to fix the position of the glass and prevent it from moving during inspection. The positioning clamps can be of various forms, such as mechanical clamps, magnetic clamps, or vacuum suction cups, and are selected and designed according to the shape, size, and inspection requirements of the glass.

[0004] Traditional glass inspection support devices can only accommodate glass within a specific size range. They cannot provide effective support and inspection for small or large glass outside this range. During the glass inspection process, multiple sides of the glass need to be inspected. In the production of flat glass, in order to comprehensively inspect the flatness of the glass surface and for defects such as bubbles, scratches, and impurities, it is necessary to inspect the glass on both sides. However, existing glass inspection support devices do not have a convenient flipping function, which is not only inconvenient to operate but also may pose a risk of glass damage. Furthermore, it is difficult to guarantee the accuracy of the angle and position of each flip. Utility Model Content

[0005] In order to overcome the shortcomings of the existing technology and solve the problems mentioned in the background technology, this utility model proposes a glass detection support device.

[0006] The technical solution adopted by this utility model to solve its technical problem is a glass testing support device, including a base, an adjustment groove on the base, a transmission screw rotatably disposed in the adjustment groove, positioning rods symmetrically disposed on both sides of the transmission screw, a first motor bracket disposed on the side of the base, an adjustment motor disposed on the first motor bracket, the output end of the adjustment motor being fixedly connected to the top of the transmission screw, an adjustment block slidably disposed in the adjustment groove, the adjustment block having a threaded hole, the transmission screw rotating through the threaded hole in the adjustment block, and the two positioning rods passing through the positioning holes pre-drilled in the adjustment block; a first support plate disposed on the adjustment block, and the base side... The surface is provided with a second support plate. Mounting plates are rotatably mounted on both the first and second support plates. A second motor bracket is mounted on the second support plate, and a flip motor is mounted on it. A transmission gear is mounted on the output end of the flip motor. A rotating shaft is mounted on the mounting plate, and a driven gear is mounted on the rotating shaft. The transmission gear and the driven gear are meshed. Two fixing plates are provided on both mounting plates. The two lower fixing plates have positioning grooves. A bidirectional lead screw is rotatably mounted in the positioning groove. A positioning guard plate is slidably mounted at each end of the positioning groove. Both positioning guard plates have threaded holes. The two ends of the bidirectional lead screw rotate through the threaded holes on one of the positioning guard plates.

[0007] Preferably, each of the two bidirectional lead screws is provided with an installation cylinder at its top end, and a crank handle is slidably disposed inside the installation cylinder. The crank handle facilitates manual rotation of the bidirectional lead screw by the operator. Compared with the use of complex electric or pneumatic devices, the operation is simpler and more direct, reducing equipment costs and maintenance difficulty.

[0008] Preferably, the mounting cylinder is provided with two sets of fixing slots, the crank handle is provided with a fixing rod, the fixing rod is locked in the fixing slot, the fixing plate is provided with a fixing frame, and the crank handle is locked in the fixing frame. The crank handle can be locked in the fixing slot of the mounting cylinder by the fixing rod, and can also be locked in the fixing frame on the fixing plate when not in use, which is convenient for storage and avoids damage or loss caused by random placement of the crank handle, and will not affect the normal operation of the device.

[0009] Preferably, a positioning plate is provided between the two fixing plates. A fixing bolt is rotatably mounted on the positioning plate. Threaded holes are opened on the upper fixing plate, and the fixing bolt is rotatably mounted in the threaded holes on the fixing plate. Several fixing suction cups are provided at the bottom of the positioning plate. Rotating the fixing bolts can move the positioning plate downwards. The fixing suction cups at the bottom of the positioning plate contact and adhere to the glass surface, fixing the glass vertically and preventing it from shaking or shifting during the inspection process. This further improves the stability of the glass. The fixing suction cups fix the glass by adsorption, which will not damage the glass surface and is suitable for glass inspection with high surface quality requirements.

[0010] Preferably, a first support frame is provided on the mounting plate near the second support plate. The first support frame is provided with a sliding groove, and the second support frame is slidably disposed in the sliding groove. The top of the second support frame is disposed on the mounting plate at the other end, which can effectively enhance the overall stability of the device. In particular, during the rotation of the mounting plate, the support frame can reduce shaking and deformation, ensuring the reliability of the device.

[0011] Preferably, the regulating motor and the reversing motor are connected to an external controller. The controller is used to control the start and stop of the regulating motor and the reversing motor. The operator can conveniently control the start and stop of the regulating motor and the reversing motor through the controller, realize the automatic adjustment of the device, eliminate the need to manually operate the motor switch, reduce the difficulty of operation, and improve work efficiency.

[0012] The advantages of this invention are as follows: the design allows for precise adjustment of the distance between the first and second support plates according to the glass size, ensuring stable placement and inspection of both small and large glass pieces. This greatly expands the applicability of the device, enhances its versatility, reduces the hassle of replacing different support devices due to glass size differences, and improves inspection efficiency. The flipping motor, through the meshing of the transmission gear and the driven gear, drives the mounting plate to rotate around the rotation axis, thereby flipping the glass placed on the mounting plate. This allows inspectors to easily inspect different surfaces of the glass, improving the comprehensiveness and efficiency of the inspection. Attached Figure Description

[0013] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0014] Figure 1 This is a schematic diagram of the overall structure;

[0015] Figure 2 This is a schematic diagram of the positioning device structure;

[0016] Figure 3 This is a schematic diagram of the regulating device.

[0017] Figure 4 This is a schematic diagram of the cross-sectional structure of the positioning device;

[0018] Figure 5 This is a schematic diagram of the crank handle fixing device.

[0019] In the diagram: 1. Base; 2. Motor 1 bracket; 3. Adjusting motor; 4. Adjusting slot; 5. Positioning rod; 6. Transmission screw; 7. Adjusting block; 8. Support plate 1; 9. Mounting plate; 10. Fixing bolt; 11. Positioning plate; 12. Fixing suction cup; 14. Fixing plate; 15. Two-way screw; 16. Mounting cylinder; 17. Crank handle; 18. Fixing frame; 19. Fixing slot; 20. Fixing rod; 23. Support plate 2; 24. Motor 2 bracket; 25. Tilting motor; 26. Driven gear; 27. Transmission gear; 28. Support frame 1; 29. ​​Support frame 2; 30. Positioning guardrail. Detailed Implementation

[0020] 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 scope of protection of the present utility model.

[0021] Please see Figure 1-5 As shown, a glass testing support device includes a base 1, an adjustment groove 4 on the base 1, a transmission screw 6 rotatably mounted in the adjustment groove 4, positioning rods 5 symmetrically arranged on both sides of the transmission screw 6, a first motor bracket 2 on the side of the base 1, an adjustment motor 3 mounted on the first motor bracket 2, the output end of the adjustment motor 3 being fixedly connected to the top of the transmission screw 6, an adjustment block 7 slidably mounted in the adjustment groove 4, a threaded hole on the adjustment block 7, the transmission screw 6 rotating through the threaded hole on the adjustment block 7, and the two positioning rods 5 passing through the positioning holes pre-drilled on the adjustment block 7.

[0022] The adjusting block 7 is provided with a first support plate 8, and the base 1 is provided with a second support plate 23 on its side. Mounting plates 9 are rotatably mounted on both the first support plate 8 and the second support plate 23. A second motor bracket 24 is provided on the second support plate 23, and a flip motor 25 is mounted on it. A transmission gear 27 is provided at the output end of the flip motor 25. A rotating shaft is provided on the mounting plate 9, and a driven gear 26 is provided on the rotating shaft. The transmission gear 27 and the driven gear 26 are meshed. Two fixing plates 14 are provided on both mounting plates 9. The two lower fixing plates 14 are provided with positioning grooves. A bidirectional lead screw 15 is rotatably mounted in the positioning groove. A positioning guard plate 30 is slidably mounted at each end of the positioning groove. Both positioning guard plates 30 are provided with threaded holes. The two ends of the bidirectional lead screw 15 are respectively rotated through the threaded holes on one of the positioning guard plates 30.

[0023] During operation, in order to adjust the device according to the size of the glass and fix the glass, the controller starts the adjusting motor 3 according to the size of the glass to be tested. The output end of the adjusting motor 3 drives the transmission screw 6 to rotate in the adjusting groove 4. Since the threaded hole on the adjusting block 7 cooperates with the transmission screw 6, and the positioning rod 5 guides the adjusting block 7, the adjusting block 7 will move horizontally in the adjusting groove 4, thereby changing the distance between the first support plate 8 and the second support plate 23 until the distance is suitable for placing the glass to be tested. The glass to be tested is placed between the mounting plate 9 on the first support plate 8 and the second support plate 23. The crank handle 17 is turned, and the crank handle 17 drives the bidirectional screw 15 to rotate. The two ends of the rod 15 are threaded in opposite directions and pass through the threaded holes on the two positioning plates 30 respectively. The two positioning plates 30 will slide towards each other in the positioning groove, thereby clamping the two sides of the glass and achieving horizontal positioning of the glass. After positioning is completed, the fixing rod 20 of the crank 17 is taken out from the fixing groove 19 of the mounting cylinder 16 and stored on the fixing bracket 18 on the fixing plate 14. At the same time, the fixing bolt 10 is rotated so that the fixing bolt 10 is screwed into the threaded hole on the upper fixing plate 14. The positioning plate 11 moves downward accordingly. The fixing suction cup 12 at the bottom of the positioning plate 11 contacts and adsorbs the glass surface, further fixing the glass in the vertical direction and preventing it from moving during the inspection process.

[0024] Each of the two bidirectional lead screws 15 has an installation cylinder 16 at its top end. A crank handle 17 is slidably disposed inside the installation cylinder 16. Two sets of fixing grooves 19 are provided on the installation cylinder 16. A fixing rod 20 is provided on the crank handle 17. The fixing rod 20 is locked in the fixing groove 19. A fixing frame 18 is provided on the fixing plate 14. The crank handle 17 is locked in the fixing frame 18.

[0025] A positioning plate 11 is provided between the two fixing plates 14. A fixing bolt 10 is rotatably provided on the positioning plate 11. Threaded holes are provided on the upper fixing plate 14. The fixing bolt 10 is rotatably provided in the threaded holes on the fixing plate 14. Several fixing suction cups 12 are provided at the bottom of the positioning plate 11.

[0026] During operation, in order to conduct a comprehensive inspection of the flatness of the glass surface and the presence of defects such as bubbles, scratches, and impurities, the controller starts the flipping motor 25. The transmission gear 27 at the output end of the flipping motor 25 rotates and meshes with the driven gear 26 on the rotating shaft of the mounting plate 9, driving the two mounting plates 9 to rotate synchronously around the rotating shaft, thereby flipping the glass. After flipping to a suitable angle, the flipping motor 25 is stopped, and the corresponding inspection operation is performed.

[0027] A first support frame 28 is provided on the mounting plate 9 near the second support plate 23. The first support frame 28 is provided with a sliding groove, and a second support frame 29 is slidably arranged in the sliding groove. The top of the second support frame 29 is set on the mounting plate 9 at the other end. The adjusting motor 3 and the flipping motor 25 are connected to an external controller, which is used to adjust the start and stop control of the adjusting motor 3 and the flipping motor 25.

[0028] During operation, in order to process the glass after the inspection, first rotate the fixing bolt 10 to raise the positioning plate 11, and separate the fixing suction cup 12 from the glass. Then, turn the rocker handle 17 to make the positioning railing 30 slide back and forth, and loosen the clamp on the glass. Finally, as needed, operate the adjusting motor 3 to adjust the distance between the first support plate 8 and the second support plate 23 to facilitate the removal of the glass. After removing the glass, restore the device to the initial state and prepare for the next inspection.

[0029] Working principle: To adjust the device according to the size of the glass and fix the glass, the controller starts the adjusting motor 3 according to the size of the glass to be tested. The output end of the adjusting motor 3 drives the transmission screw 6 to rotate in the adjusting groove 4. Since the threaded hole on the adjusting block 7 cooperates with the transmission screw 6, and the positioning rod 5 guides the adjusting block 7, the adjusting block 7 will move horizontally in the adjusting groove 4, thereby changing the distance between the first support plate 8 and the second support plate 23 until the distance is suitable for placing the glass to be tested. The glass to be tested is placed between the mounting plate 9 on the first support plate 8 and the second support plate 23. The crank handle 17 is turned, and the crank handle 17 drives the bidirectional screw 15 to rotate. The threads at both ends of the lead screw 15 are turned in opposite directions and pass through the threaded holes on the two positioning plates 30 respectively. The two positioning plates 30 will slide towards each other in the positioning groove, thereby clamping the two sides of the glass and achieving horizontal positioning of the glass. After positioning is completed, the fixing rod 20 of the crank handle 17 is taken out from the fixing groove 19 of the mounting cylinder 16 and stored on the fixing bracket 18 on the fixing plate 14. At the same time, the fixing bolt 10 is rotated so that the fixing bolt 10 is screwed into the threaded hole on the upper fixing plate 14. The positioning plate 11 moves downward accordingly. The fixing suction cup 12 at the bottom of the positioning plate 11 contacts and adsorbs the glass surface, further fixing the glass in the vertical direction and preventing it from moving during the inspection process.

[0030] In order to conduct a comprehensive inspection of the flatness, presence of bubbles, scratches, impurities and other defects on the glass surface, the controller starts the flipping motor 25. The transmission gear 27 at the output end of the flipping motor 25 rotates and meshes with the driven gear 26 on the rotating shaft on the mounting plate 9, driving the two mounting plates 9 to rotate synchronously around the rotating shaft, thereby flipping the glass. After flipping to a suitable angle, the flipping motor 25 is stopped and the corresponding inspection operation is performed.

[0031] To process the glass after testing, first rotate the fixing bolt 10 to raise the positioning plate 11, separating the fixing suction cup 12 from the glass. Then, turn the rocker handle 17 to slide the positioning plates 30 in opposite directions, loosening the clamping on the glass. Finally, as needed, operate the adjusting motor 3 to adjust the distance between the first support plate 8 and the second support plate 23 to facilitate the removal of the glass. After removing the glass, restore the device to its initial state to prepare for the next test.

[0032] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0033] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. A glass testing support device, characterized in that: Includes a base (1), on which an adjustment groove (4) is provided, and a transmission screw (6) is rotatably arranged in the adjustment groove (4). Positioning rods (5) are symmetrically arranged on both sides of the transmission screw (6). A first motor bracket (2) is provided on the side of the base (1). An adjustment motor (3) is provided on the first motor bracket (2). The output end of the adjustment motor (3) is fixedly connected to the top of the transmission screw (6). An adjustment block (7) is slidably arranged in the adjustment groove (4). A threaded hole is provided on the adjustment block (7). The transmission screw (6) rotates through the threaded hole on the adjustment block (7). The two positioning rods (5) pass through the positioning holes pre-opened on the adjustment block (7). The adjusting block (7) is provided with a first support plate (8), and the base (1) is provided with a second support plate (23) on its side. Mounting plates (9) are rotatably mounted on both the first support plate (8) and the second support plate (23). A second motor bracket (24) is provided on the second support plate (23), and a rotating motor (25) is mounted on it. A transmission gear (27) is provided at the output end of the rotating motor (25). A rotating shaft is provided on the mounting plate (9), and a driven gear is provided on the rotating shaft. 26), the transmission gear (27) meshes with the driven gear (26), and two fixing plates (14) are provided on each of the two mounting plates (9). The two fixing plates (14) located below are provided with positioning grooves. A bidirectional lead screw (15) is rotatably provided in the positioning groove. A positioning guard plate (30) is slidably provided at each end of the positioning groove. Both positioning guard plates (30) are provided with threaded holes. The two ends of the bidirectional lead screw (15) are respectively rotated through the threaded holes on a positioning guard plate (30).

2. The glass testing support device according to claim 1, characterized in that: Both bidirectional lead screws (15) are provided with mounting cylinders (16) at their top ends, and a crank handle (17) is slidably disposed inside the mounting cylinders (16).

3. The glass testing support device according to claim 2, characterized in that: The mounting cylinder (16) is provided with two sets of fixing slots (19), the crank handle (17) is provided with a fixing rod (20), the fixing rod (20) is locked in the fixing slot (19), the fixing plate (14) is provided with a fixing frame (18), and the crank handle (17) is locked in the fixing frame (18).

4. The glass testing support device according to claim 3, characterized in that: A positioning plate (11) is provided between the two fixing plates (14). A fixing bolt (10) is rotatably provided on the positioning plate (11). Threaded holes are provided on the upper fixing plate (14). The fixing bolt (10) is rotatably provided in the threaded hole on the fixing plate (14). Several fixing suction cups (12) are provided at the bottom of the positioning plate (11).

5. A glass testing support device according to claim 4, characterized in that: A first support frame (28) is provided on the mounting plate (9) near the second support plate (23). The first support frame (28) is provided with a sliding groove, and a second support frame (29) is slidably arranged in the sliding groove. The top of the second support frame (29) is set on the mounting plate (9) at the other end.

6. A glass testing support device according to claim 3, characterized in that: The regulating motor (3) and the reversing motor (25) are connected to an external controller, which is used to control the start and stop of the regulating motor (3) and the reversing motor (25).