A stand for tempering glass

By using a servo motor-driven transmission system and a honeycomb structure buffer pad, the problems of space adjustment and corner protection for tempered glass display racks are solved, achieving both flexible adjustment and reliable protection.

CN224410059UActive Publication Date: 2026-06-26HUAIBEI NEW GENERATION TEMPERED GLASS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUAIBEI NEW GENERATION TEMPERED GLASS CO LTD
Filing Date
2025-07-25
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing tempered glass shelves cannot flexibly adjust the placement space according to the glass height, and the edge and corner protection is insufficient, resulting in low space utilization and high safety hazards.

Method used

The transmission system, consisting of servo motors, worm gears, worm wheels, and threaded rods, combined with honeycomb structure buffer pads, enables precise lifting and lowering of the top frame and buffer protection of the glass corners. Automatic control is achieved through photoelectric sensors.

Benefits of technology

It enables flexible adjustment of the shelf space and reliable protection of the glass corners, improving space utilization and safety, and reducing the risk of damage to the glass corners.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of for toughened glass rack, belong to rack technical field, including base, the base bottom is equipped with four shock-absorbing universal wheels, and base left side is provided with push rod, the base upper surface left and right sides are provided with vertical plate, and base upper surface is fixedly installed with underframe, top frame is horizontally provided between vertical plate, and top frame and underframe are fixedly installed with several clamping strips in close proximity to the side of placing toughened glass, and buffer pad is all provided in clamping strip inside, the middle of vertical plate upper portion bottom is all rotatably connected with threaded rod, and top frame is screw-connected in left and right two threaded rods, and top frame constitutes lifting structure. The rack for toughened glass has the advantages of flexible space adjustment and good buffer protection, photoelectric sensor detects top frame movement and controls servo motor, drives relevant component to adjust top frame height, suitable for the production, transportation and storage etc. scene of toughened glass.
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Description

Technical Field

[0001] This utility model relates to the field of display rack technology, specifically a display rack for tempered glass. Background Technology

[0002] Tempered glass, a "hardcore" product in the glass family, is made from ordinary glass through a special heat treatment process. Heated to a specific temperature and then rapidly cooled, it creates a compressive stress layer on the surface and a tensile stress layer inside. This unique structure gives it superior performance, making it several times stronger than ordinary glass. It is impact-resistant and resistant to rapid temperature changes, and is widely used in building doors and windows, car windshields, and electronic product screens. It ensures safety, reduces the risk of breakage, and even if it breaks, it breaks into small, blunt-angled particles, significantly reducing the risk of injury. It also has good light transmission and aesthetics. However, existing tempered glass shelves still have some problems in use:

[0003] For example, a support rack for tempered glass with application number 202020052602.2 has the following technical solution: it includes moving rollers, support base, limiting baffle, support mounting frame, connecting horizontal plate, glass clamping block, partition plate, inner protective plate, mounting slide plate, mounting groove, metal load-bearing block, connecting pivot and perforated sliding column. However, in the production, transportation and storage of tempered glass, the existing technology has significant defects. In the production workshop, tempered glass has many specifications and different heights. Traditional racks are mostly designed with fixed layer height, which cannot flexibly adjust the placement space according to the height of the glass, resulting in low space utilization. A large amount of glass can only be stacked, which not only easily causes scratches and collisions, but also poses safety hazards. During transportation, the edges and corners of the glass are fragile, and the existing protective measures are insufficient for edge and corner buffering protection.

[0004] In view of this, in-depth research was conducted on the above issues, which led to the creation of this case.

[0005] To address the aforementioned issues, an innovative design was implemented based on the existing tempered glass shelf. Utility Model Content

[0006] The purpose of this utility model is to provide a tempered glass storage rack to solve the problems mentioned in the background art, such as the inability to adjust the placement space according to the height of the tempered glass and the insufficient buffer protection for the edges and corners.

[0007] To achieve the above objectives, this utility model provides the following technical solution:

[0008] A tempered glass placement rack includes a base with four shock-absorbing casters installed at the bottom and a push rod on the left side. Vertical plates are provided on both sides of the upper surface of the base, and a base frame is fixedly installed on the upper surface of the base. A top frame is horizontally arranged between the vertical plates. Several locking strips are fixedly installed on the side of the top frame and the base frame near the tempered glass, and each locking strip has a buffer pad inside. Threaded rods are rotatably connected to the bottom center of the upper part of each vertical plate, and the top frame is threadedly connected to the two threaded rods on the left and right sides. The top frame is configured as a lifting structure.

[0009] Preferably, the buffer pad contains tempered glass, and the buffer pad has a honeycomb structure.

[0010] Using the above technical solution, the buffer pad has a honeycomb structure inside and is used to place tempered glass. The honeycomb structure of the buffer pad can effectively disperse the pressure on the tempered glass, provide good cushioning protection for the edges and corners of the tempered glass, and reduce the risk of edge and corner damage caused by collision during placement.

[0011] Preferably, a servo motor is fixedly installed on the right side of the base, and a worm gear is connected to the output end of the servo motor on the left side, with the left end of the worm gear rotatably connected to the left side inside the base.

[0012] Using the above technical solution, the servo motor on the right side of the base and its connected worm gear provide power for the rotation of the worm gear, enabling the subsequent transmission structure to operate, thereby realizing the lifting and lowering of the top frame and providing a power source for adjusting the space of the placement frame.

[0013] Preferably, worm wheels are connected and installed on the rear sides of both the left and right sides of the worm, and the bottom of each worm wheel is rotatably connected to the inside of the base.

[0014] By adopting the above technical solution, the worm gear connected to the worm gear cooperates with the worm gear to convert the rotation of the worm gear into the rotation of the worm gear, while playing the role of deceleration and increasing torque, making the rotation of the threaded rod more stable, thereby ensuring the stability of the lifting process of the top frame.

[0015] Preferably, a threaded rod is connected and installed above each worm gear, and the threaded rod passes through the top surface of the base. Threaded holes are opened in the middle of the left and right sides of the top frame, and the threaded rod is threadedly connected to the threaded hole.

[0016] Using the above technical solution, the threaded rod connected by the worm gear and the threaded rod cooperating with the threaded hole of the top frame, the rotation of the threaded rod drives the top frame to rise and fall. Through precise thread transmission, the position of the top frame can be accurately adjusted according to the height of the tempered glass to meet the placement requirements of tempered glass of different specifications.

[0017] Preferably, the top frame has round holes on both the left and right sides, front and back, and a sliding rod is fixedly installed on the bottom of the upper part of the vertical plate, with the sliding rod passing through the round hole.

[0018] By adopting the above technical solution, the circular hole on the top frame and the sliding rod on the vertical plate, with the sliding rod passing through the circular hole, provide guidance for the lifting and lowering of the top frame, ensuring that the top frame will not deviate or sway during the lifting and lowering process, and further improving the stability and accuracy of the lifting and lowering of the top frame.

[0019] Preferably, photoelectric sensors are fixedly installed on both the left and right sides of the upper surface of the base frame, and the photoelectric sensors are electrically connected to the servo motor.

[0020] Using the above technical solution, the photoelectric sensor on the base frame is electrically connected to the servo motor. The photoelectric sensor can detect the distance between the top frame and the base frame and transmit the signal to the servo motor to realize automatic control of the lifting and lowering of the top frame, thereby improving the convenience and intelligence of operation.

[0021] Compared with the prior art, the beneficial effects of this utility model are: this tempered glass storage rack...

[0022] 1. Flexible space adjustment: The transmission system, composed of servo motors, worm gears, worm wheels, threaded rods and other components, can precisely adjust the position of the top frame according to the height of the tempered glass, effectively improving the space utilization of the placement rack and avoiding safety hazards and scratches caused by glass stacking.

[0023] 2. Excellent cushioning protection: The honeycomb structure cushioning pad inside the snap-fit ​​strip provides reliable cushioning protection for the edges and corners of the tempered glass, reducing damage to the glass edges and corners during placement and handling, and ensuring the integrity of the tempered glass. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the front structure of this utility model;

[0025] Figure 2 This utility model Figure 1 Enlarged structural diagram at point A in the middle;

[0026] Figure 3 This is a schematic diagram of the top frame structure of this utility model;

[0027] Figure 4 This is a schematic diagram of the vertical plate structure of this utility model;

[0028] Figure 5 This is a schematic diagram of the worm gear connection structure of this utility model.

[0029] In the diagram: 1. Base; 2. Push rod; 3. Vertical plate; 4. Base frame; 5. Photoelectric sensor; 6. Connecting strip; 7. Buffer pad; 8. Servo motor; 9. Worm gear; 10. Worm wheel; 11. Threaded rod; 12. Top frame; 13. Threaded hole; 14. Round hole; 15. Slide rod. Detailed Implementation

[0030] 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.

[0031] Please see Figure 1-5 This utility model provides a technical solution:

[0032] A tempered glass placement rack includes a base 1, four shock-absorbing casters mounted on the bottom of the base 1, a push rod 2 on the left side of the base 1, vertical plates 3 on the left and right sides of the upper surface of the base 1, a base frame 4 fixedly mounted on the upper surface of the base 1, a top frame 12 horizontally arranged between the vertical plates 3, and several locking strips 6 fixedly mounted on the side of the top frame 12 and the base frame 4 near the tempered glass placement, with buffer pads 7 inside each locking strip 6, threaded rods 11 rotatably connected to the bottom center of the upper part of the vertical plates 3, and the top frame 12 threadedly connected to the left and right threaded rods 11, and the top frame 12 constitutes a lifting structure.

[0033] The buffer pad 7 contains tempered glass, and the buffer pad 7 has a honeycomb structure. The special structure of the buffer pad 7 has good cushioning performance, which can effectively reduce the impact of external impact on the edges and corners of the tempered glass, greatly reducing the probability of edge and corner damage during placement and ensuring the integrity of the tempered glass.

[0034] A servo motor 8 is fixedly installed on the right side of the base 1, and a worm gear 9 is connected to the output end of the left side of the servo motor 8. The left end of the worm gear 9 is rotatably connected to the left side inside the base 1. Worm wheels 10 are connected to the rear sides of both sides of the worm gear 9, and the bottom of each worm wheel 10 is rotatably connected to the inside of the base 1. Threaded rods 11 are connected to the top of each worm wheel 10, and the threaded rods 11 penetrate the top surface of the base 1. Threaded holes 13 are opened in the middle of both sides of the top frame 12, and the threaded rods 11 are threaded into the threaded holes 13. Circular holes 14 are opened at the front and rear of both sides of the top frame 12, and slide rods 15 are fixedly installed at the front and rear of the bottom of the top of the vertical plate 3, and the slide rods 15 penetrate into the circular holes 14. The servo motor 8 on the right side of the base 1 and the connected worm gear 9 provide stable power to drive the worm gear 9 to rotate, providing a controllable power source for the entire lifting and adjusting system of the top frame 12. The placement rack can flexibly adjust its height according to needs. The worm wheel 10 connected to the worm 9, together with the worm 9, forms a transmission structure that not only changes the direction of force transmission but also reduces speed and increases torque, making the threaded rod 11 rotate more smoothly and powerfully. This ensures the stability and reliability of the top frame 12 during lifting. The threaded rod 11 connected to the worm wheel 10 and the threaded hole 13 of the top frame 12, through precise thread transmission, can accurately adjust the height of the top frame 12 according to actual needs to adapt to the placement requirements of tempered glass of different specifications, significantly improving the applicability of the placement rack. The round hole 14 of the top frame 12 and the slide rod 15 of the vertical plate 3, with the slide rod 15 cooperating with the round hole 14, play a precise guiding role when the top frame 12 is lifted, effectively preventing the top frame 12 from deviating or shaking during movement, further improving the stability and accuracy of the lifting operation of the top frame 12.

[0035] Photoelectric sensors 5 are fixedly installed on both the left and right sides of the upper surface of the base frame 4, and the photoelectric sensors 5 are electrically connected to the servo motor 8. The photoelectric sensors 5 on the base frame 4 are electrically connected to the servo motor 8. The photoelectric sensors 5 can detect the distance between the top frame 12 and the base frame 4 and transmit the signal to the servo motor 8 to realize automatic control of the lifting and lowering of the top frame 12 and prevent collision with the upper edge of the tempered glass.

[0036] Working principle:

[0037] In use, the tempered glass is placed inside the snap-fit ​​strip 6 on the base frame 4. The servo motor 8 is started, driving the worm gear 9 to rotate. The worm gear 9 drives the worm wheels 10 on both sides to rotate. When the worm wheels 10 rotate, they drive the threaded rod 11 connected above to rotate. Since the threaded rod 11 is threadedly connected to the threaded hole 13 on the top frame 12, the top frame 12 will rise and fall with the rotation of the threaded rod 11. During the rising and falling of the top frame 12, the slide rod 15 slides in the round hole 14 to guide the top frame 12. The photoelectric sensor 5 on the base frame 4 detects the distance between the top frame 12 and the base frame 4 and transmits the signal to the servo motor 8 to stop the rising and falling movement.

[0038] The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0039] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A tempered glass storage rack, comprising a base (1), wherein four shock-absorbing casters are installed at the bottom of the base (1), and a push rod (2) is provided on the left side of the base (1); vertical plates (3) are provided on the left and right sides of the upper surface of the base (1), and a base frame (4) is fixedly installed on the upper surface of the base (1), characterized in that: A top frame (12) is horizontally arranged between the vertical plates (3), and several snap-fit ​​strips (6) are fixedly installed on the side of the top frame (12) and the bottom frame (4) near the tempered glass. A buffer pad (7) is provided inside the snap-fit ​​strips (6). A threaded rod (11) is rotatably connected to the middle of the bottom of the top of the vertical plate (3), and the top frame (12) is threaded to the two threaded rods (11) on the left and right. The top frame (12) constitutes a lifting structure.

2. A tempered glass storage rack according to claim 1, characterized in that: The buffer pad (7) contains tempered glass and has a honeycomb structure.

3. A tempered glass storage rack according to claim 1, characterized in that: A servo motor (8) is fixedly installed on the right side of the base (1), and a worm gear (9) is connected to the output end of the servo motor (8) on the left side. The left end of the worm gear (9) is rotatably connected to the left side inside the base (1).

4. A tempered glass storage rack according to claim 3, characterized in that: Worm gears (10) are connected and installed on the rear sides of both the left and right sides of the worm (9), and the bottom of each worm gear (10) is rotatably connected to the inside of the base (1).

5. A tempered glass storage rack according to claim 4, characterized in that: Each of the worm gears (10) is connected to a threaded rod (11), and the threaded rod (11) passes through the top surface of the base (1). The top frame (12) has threaded holes (13) in the middle of both sides, and the threaded rod (11) is threaded into the threaded hole (13).

6. A tempered glass storage rack according to claim 5, characterized in that: The top frame (12) has round holes (14) on both the left and right sides and front and back, and slide rods (15) are fixedly installed on the bottom of the top of the vertical plate (3) at both the front and back, and the slide rods (15) pass through the round holes (14).

7. A tempered glass storage rack according to claim 3, characterized in that: Photoelectric sensors (5) are fixedly installed on both the left and right sides of the upper surface of the base frame (4), and the photoelectric sensors (5) are electrically connected to the servo motor (8).