A glass storage stand
By designing a glass storage rack with support blocks and spring structures, the problem of instability in traditional storage methods has been solved, achieving stable storage and convenient operation of glass, and adapting to the needs of glass of different sizes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI JINGLING GLASS MACHINERY
- Filing Date
- 2025-05-21
- Publication Date
- 2026-06-05
AI Technical Summary
Traditional glass storage methods lack effective fixing and protection, making the glass fragile and inconvenient to handle. Furthermore, existing storage racks have poor versatility and cannot meet the needs of glass of different sizes.
Design a glass storage rack that uses a support block and spring structure. Through the cooperation of multiple support walls and springs in the storage chamber, the glass can be limited and stably supported in multiple directions. The support block automatically returns to its initial state after the glass is removed, improving convenience and stability.
It achieves stable storage of glass, reduces the risk of shaking and collision, improves the ease of operation and reuse, and extends the shelf life of the glass.
Smart Images

Figure CN224324302U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of storage rack technology, and in particular to a glass storage rack. Background Technology
[0002] In the numerous stages of glass production, processing, transportation, and use, glass storage has always been a critical and challenging issue. Glass is fragile and easily scratched, and traditional storage methods often fail to meet the needs for proper protection and efficient space utilization. In some small glass processing plants or workshops, glass is often simply leaned against walls or placed on ordinary shelves. This method lacks effective fixation and protection, making the glass susceptible to breakage from accidental impacts. Furthermore, workers must handle the glass with extreme care during handling; even slight mishaps can lead to damage, causing not only economic losses but also potential personal safety hazards.
[0003] In large-scale glass storage or logistics scenarios, although there are some specialized storage racks, most are complex in structure and lack versatility. Some storage racks are designed for specific glass sizes, and when the glass size changes, they cannot be well adapted, requiring readjustment or replacement of the storage racks, which undoubtedly increases costs and operational complexity. Utility Model Content
[0004] In order to solve the technical problems existing in the background art, this utility model proposes a glass storage bracket.
[0005] This utility model proposes a glass storage rack for storing a first glass. The first glass has a first sidewall and a second sidewall arranged in parallel. The rack includes a support and a first support block. The support has a first wall arranged in a horizontal manner. A first groove with an open top is opened on one side of the first wall of the rack. The first support block is installed in the first groove and can rotate in the first groove. The first support block has a first support wall. The support has a second support wall. The first glass, whose first sidewall always abuts against the first support wall, can rotate with the first support block until the end of the first glass near the second sidewall is against the second support wall to store the first glass.
[0006] Preferably, the first support block has a third support wall located between the first glass and the second support wall. When the first side wall abuts against the first support wall, there is always a first end wall on the first glass that fits and abuts against the third support wall.
[0007] Preferably, the bracket has a first storage chamber communicating with the first groove. Multiple first springs are installed in the first storage chamber. The bottom of the first support block has a first protrusion adapted to be installed inside the first storage chamber. The first spring abuts against the first protrusion and the inner wall of the first storage chamber. When the first glass rotates with the first support block until the end of the first glass near the second side wall is against the second support wall, the first spring is compressed. When the first glass is removed, under the action of the multiple first springs, the first support block can rotate to make the first support wall horizontally arranged.
[0008] Preferably, the device is used to store a second glass while storing a first glass. The second glass has a third sidewall and a fourth sidewall arranged in parallel. The first glass has a second endwall opposite to the first endwall. The storage device further includes a second trough and a second support block. The second trough is opened on one side of the first wall of the bracket and its top is open. The second trough is arranged in parallel with the first trough. The second support block is installed in the second trough and can rotate in the second trough. The second support block has a fourth support wall. The second glass, whose third sidewall always abuts against the fourth support wall, can rotate with the second support block until the end of the second glass near the fourth sidewall is against the second endwall to store the second glass.
[0009] Preferably, the bracket has a second storage chamber communicating with the second groove. Multiple second springs are installed in the second storage chamber. The bottom of the second support block has a second protrusion adapted to be installed inside the second storage chamber. The second spring abuts against the second protrusion and the inner wall of the second storage chamber. When the second glass rotates with the second support block until the end of the second glass near the fourth side wall is against the second end wall, the second spring is compressed. When the second glass is removed, under the action of the multiple second springs, the second support block can rotate to make the fourth support wall horizontally arranged.
[0010] The glass storage rack proposed in this utility model has the following advantages: For the first glass, the first support wall of the first support block, the second support wall of the rack, and the third support wall on the first support block, etc., can limit and support the first glass from multiple directions, so that it can be placed stably during storage and prevent displacement and shaking. For the second glass, the fourth support wall of the second support block and the second end wall corresponding to the first glass are used to achieve stable storage and ensure the overall stability of the storage state. Whether it is the first support block or the second support block, its bottom cooperates with the spring and protrusion structure in the corresponding storage chamber, so that after the glass is removed, the support block can automatically return to the initial state under the action of the spring to facilitate the next storage of glass. The operation is convenient, improves the automation level of the storage device and the convenience of reuse. The stable storage structure effectively reduces the risk of damage to the glass due to shaking, collision, etc. during storage, and helps to extend the good preservation time of the glass. Attached Figure Description
[0011] Figure 1 This is an overall structural diagram of a glass storage rack proposed in this utility model;
[0012] Figure 2 This is a diagram showing the glass storage rack of the present invention without assembled glass.
[0013] Figure 3 This is a structural diagram of the first support block and the first groove of a glass storage rack proposed in this utility model. Detailed Implementation
[0014] refer to Figure 1-3 This utility model proposes a glass storage rack for storing one or more pieces of glass. When storing a single piece of first glass 1, the first glass 1 has a first side wall 11 and a second side wall 12 arranged in parallel. The storage device is mainly composed of a bracket 2 and a first support block 3.
[0015] The support 2 serves as the basic structure of the entire storage device. It has a horizontally arranged first wall 21. A first groove 22 with an open top is provided on one side of the first wall 21 on the support 2. The first support block 3 is installed inside the first groove 22 and can rotate flexibly within the first groove 22. The first support block 3 is provided with a first support wall 31. The support 2 also has a second support wall 23. When storing the first glass 1, the first side wall 11 of the first glass 1 is first installed on the first support wall 31. Then, the first glass 1 is rotated, and the first support block 3 can change its position as the first glass 1 rotates until the end of the first glass 1 near the second side wall 12 can be pressed against the second support wall 23. In this way, the first glass 1 is stably stored.
[0016] Furthermore, a third support wall 32 is designed on the first support block 3, located between the first glass 1 and the second support wall 23. When the first side wall 11 and the first support wall 31 are stably abutting, there will always be a first end wall 13 on the first glass 1 that can fit and abut against the third support wall 32. This structural design can limit and support the first glass 1 from multiple directions, effectively preventing it from shifting or shaking during storage, and greatly improving the safety and stability of storage.
[0017] Inside the bracket 2, there is a first storage chamber 24 that communicates with the first groove 22. Multiple first springs 25 are installed inside the first storage chamber 24. The bottom of the first support block 3 has a first protrusion 33 that is adapted to be installed inside the first storage chamber 24. The first springs 25 are tightly abutted between the first protrusion 33 and the inner wall of the first storage chamber 24. When the first glass 1 rotates with the first support block 3 until the end of the first glass 1 close to the second side wall 12 is against the second support wall 23, the first springs 25 will be gradually compressed. When the first glass 1 is removed, under the elastic action of the multiple first springs 25, the first support block 3 can automatically rotate to restore the first support wall 31 to its initial horizontal arrangement, preparing for the next storage of the first glass 1, which greatly improves the convenience and automation of the storage device.
[0018] This storage device, in addition to storing the first glass 1, can also store the second glass 4. The second glass 4 has a third sidewall 41 and a fourth sidewall 42 arranged in parallel. The first glass 1 has a second endwall 14 opposite to the first endwall 13. To store the second glass 4, the storage device also includes a second groove 26 and a second support block 6. The second groove 26 is also located on one side of the first wall 21 on the bracket 2, and its top is open. The second groove 26 and the first groove 22 are arranged in parallel. The second support block 6 is installed in the second groove 26 and can rotate freely within it. The second support block 6 is provided with a fourth support wall 61. When storing the second glass 4, the third sidewall 41 always abuts against the fourth support wall 61. Subsequently, the position of the second glass 4 can be adjusted as the second support block 6 rotates until the end of the second glass 4 closest to the fourth sidewall 42 can smoothly abut against the second endwall 14, thereby completing the storage operation of the second glass 4.
[0019] Similarly, the bracket 2 also has a second storage chamber that communicates with the second groove 26. Multiple second springs are installed in the second storage chamber. The bottom of the second support block 6 has a second protrusion that is adapted to be installed inside the second storage chamber. The second springs abut against the second protrusion and the inner wall of the second storage chamber. When the second glass 4 rotates with the second support block 6 until the end of the second glass 4 close to the fourth side wall 42 is against the second end wall 14, the second springs are compressed. When the second glass 4 is removed, under the action of the multiple second springs, the second support block 6 can rotate to make the fourth support wall 61 horizontally arranged, which ensures the stability and reliability of the storage device during multiple uses, enabling it to efficiently complete the storage tasks of the first glass 1 and the second glass 4. Moreover, the operation is convenient and the structure is stable during the retrieval and placement process, effectively reducing the risk of damage to the glass during storage.
[0020] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A glass storage rack for storing a first glass (1), the first glass (1) having a first sidewall (11) and a second sidewall (12) arranged in parallel, characterized in that, Includes a bracket (2) and a first support block (3). The bracket (2) has a horizontally arranged first wall (21). A first groove (22) with an open top is provided on one side of the first wall (21) of the bracket (2). The first support block (3) is installed in the first groove (22) and can rotate in the first groove (22). The first support block (3) has a first support wall (31). The bracket (2) has a second support wall (23). The first glass (1) that is always against the first support wall (31) can rotate with the first support block (3) until the end of the first glass (1) close to the second side wall (12) is attached to the second support wall (23) to store the first glass (1).
2. The glass storage rack according to claim 1, characterized in that, The first support block (3) has a third support wall (32) located between the first glass (1) and the second support wall (23). When the first side wall (11) abuts against the first support wall (31), there is always a first end wall (13) on the first glass (1) that fits and abuts against the third support wall (32).
3. The glass storage rack according to claim 2, characterized in that, The bracket (2) has a first storage chamber (24) that communicates with the first groove (22). Multiple first springs (25) are installed in the first storage chamber (24). The bottom of the first support block (3) has a first protrusion (33) that is adapted to be installed inside the first storage chamber (24). The first spring (25) abuts against the first protrusion (33) and the inner wall of the first storage chamber (24). When the first glass (1) rotates with the first support block (3) until the end of the first glass (1) close to the second side wall (12) and abuts against the second support wall (23), the first spring (25) is compressed. When the first glass (1) is removed, under the action of multiple first springs (25), the first support block (3) can rotate to make the first support wall (31) horizontally arranged.
4. The glass storage rack according to claim 2, characterized in that, The storage device is used to store a second glass (4) while storing a first glass (1). The second glass (4) has a third sidewall (41) and a fourth sidewall (42) arranged in parallel. The first glass (1) has a second endwall (14) opposite to the first endwall (13). The storage device also includes a second trough (26) and a second support block (6). The second trough (26) is opened on the first wall (21) side of the bracket (2) and the top is open. The second trough (26) is arranged in parallel with the first trough (22). The second support block (6) is installed in the second trough (26) and can rotate in the second trough (26). The second support block (6) has a fourth support wall (61). The second glass (4) whose third sidewall (41) always abuts against the fourth support wall (61) can rotate with the second support block (6) until the end of the second glass (4) close to the fourth sidewall (42) is attached to the second endwall (14) to store the second glass (4).
5. The glass storage rack according to claim 4, characterized in that, The bracket (2) has a second storage chamber that communicates with the second groove (26). Multiple second springs are installed in the second storage chamber. The bottom of the second support block (6) has a second protrusion that is adapted to be installed inside the second storage chamber. The second spring abuts against the second protrusion and the inner wall of the second storage chamber. When the second glass (4) rotates with the second support block (6) until the end of the second glass (4) close to the fourth side wall (42) and abuts against the second end wall (14), the second spring is compressed. When the second glass (4) is removed, under the action of multiple second springs, the second support block (6) can rotate to make the fourth support wall (61) horizontally arranged.