Adjustable glass storage rack

By designing adjustable glass storage racks, and utilizing a combination of inclined support frames and horizontal support rods, the problem of existing storage racks being unable to adapt to varying sizes has been solved, thereby improving the utilization rate of storage space and reducing resource consumption.

CN224393301UActive Publication Date: 2026-06-23INNER MONGOLIA CHANDE SOLAR THERMAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
INNER MONGOLIA CHANDE SOLAR THERMAL TECH CO LTD
Filing Date
2025-08-21
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing glass storage racks have a fixed structure and cannot adapt to changing size requirements, resulting in underutilization of storage space and increased resource expenditure for enterprises.

Method used

An adjustable glass storage rack was designed. By combining a diagonal support frame, a horizontal support rod frame, and a locking component, the load-bearing beam can be adjusted to meet the storage needs of glass of different specifications.

Benefits of technology

This allows for the adjustment of storage racks according to glass size, improving the utilization rate of warehouse space and reducing the company's capital and resource consumption.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224393301U_ABST
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Abstract

The utility model relates to the technical field of glass storage, and specifically relates to an adjustable glass storage rack, which includes a base bracket, four bearing beams, an inclined support frame, inclined support rods, a horizontal support rod frame, a first positioning hoop, a first positioning screw, a first positioning bolt, a horizontal adjustment slide rod, a vertical adjustment slide rod and a locking member. During use, the base bracket, the inclined support frame and the horizontal support rod frame are welded to form a "day" - shaped structure, and the inclined support rods and the base bracket and the inclined support frame form a triangular support structure; the "field" - shaped support frame structure composed of the horizontal support rod frame and the inclined support frame plays a supporting role for the glass and its products to be stored; by pushing the movement of the horizontal adjustment slide rod to match the storage purpose of glass and its products of different specifications, and then rotating the first positioning bolt to achieve the locking and fixing of the vertical adjustment slide rod. In this way, it is convenient for the staff to adjust the bearing bracket according to the size of the glass to meet the packaging requirements of glasses of different sizes.
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Description

Technical Field

[0001] This utility model relates to the field of glass storage technology, and in particular to an adjustable glass storage rack. Background Technology

[0002] In all stages of glass processing, transportation and storage, traditional glass storage racks are used as auxiliary tools. Their design generally follows the principle of fixed structure. The core components of these storage racks, such as frame size, spacing, and load-bearing panels, are all fixed specifications. From the moment the production is completed, the applicable range of glass and products is limited.

[0003] The existing structures are relatively fixed in size and cannot adapt to changing size requirements. Furthermore, when storage space is limited or the layout is adjusted, the storage racks cannot be flexibly changed in shape, making it difficult to make full use of the space and increasing the company's capital and resource expenditures. Utility Model Content

[0004] The purpose of this utility model is to provide an adjustable glass storage rack, which aims to solve the problems of existing structures with relatively fixed sizes that cannot adapt to changing size requirements, and storage racks that cannot flexibly change their shape when storage space is limited or layout is adjusted, making it difficult to make full use of space and increasing the company's capital and resource expenditures.

[0005] To achieve the above objectives, this utility model provides an adjustable glass storage rack, including a base support, four load-bearing beams, an inclined support frame, an inclined support rod, a horizontal support rod frame, a first positioning hoop, a first positioning screw, a first positioning bolt, a horizontal adjustment slide rod, a vertical adjustment slide rod, and a locking component. The four load-bearing beams are respectively fixedly connected to the base support and are located above the base support. The inclined support frame is fixedly connected to both the four load-bearing beams and the base support. The inclined support rod is fixedly connected to both the inclined support frame and the base support. The horizontal support rod frame is fixedly connected to both the base support and the inclined support frame. The first positioning hoop... The hoop is fixedly connected to the inclined support frame and located on one side of the inclined support frame. The horizontal adjusting slide rod is slidably connected to the first positioning hoop and located on the inner side wall of the first positioning hoop. The first positioning screw is fixedly connected to the first positioning hoop and located on one side of the first positioning hoop. The first positioning bolt is threadedly connected to the first positioning screw and located on the inner side wall of the first positioning screw, and the first positioning bolt is in contact with the horizontal adjusting slide rod. The vertical adjusting slide rod is fixedly connected to the horizontal adjusting slide rod and located at one end of the horizontal adjusting slide rod. The locking member is connected to the horizontal support rod frame and the horizontal adjusting slide rod respectively.

[0006] The locking component includes a second positioning clamp, a second positioning screw, and a second positioning bolt. The second positioning clamp is fixedly connected to the horizontal support rod and is located on one side of the horizontal support rod. The second positioning clamp is slidably engaged with the horizontal adjusting slide rod. The second positioning screw is fixedly connected to the second positioning clamp and is located on one side of the second positioning clamp. The second positioning bolt is threadedly connected to the second fixing screw and is located on the inner side wall of the second fixing screw. The second positioning bolt is in contact with the horizontal adjusting slide rod.

[0007] The adjustable glass storage rack also includes four feet, which are fixedly connected to the base bracket and located below the base bracket.

[0008] The base support is made by welding square tubes end to end.

[0009] The inclined support frame is made by welding the ends of square tubes together.

[0010] This utility model discloses an adjustable glass storage rack. In use, the base support, the inclined support frame, and the horizontal support rod frame are welded to form a U-shaped structure. The inclined support rods are fixed above the base support and to one side of the inclined support frame, forming a triangular support structure. The load-bearing beam maintains a 90° right angle with the inclined support frame. A thick rubber pad is adhered to the upper surface of the load-bearing beam to prevent damage to the glass and its contents during placement. The grid-shaped support frame structure formed by the horizontal support rod frame and the inclined support frame provides support for the stored glass and its contents. The horizontal adjustment lever is pushed... The movement of the vertical adjustment slide bar allows for adjustment of the wing span to accommodate different sizes of glass and its products. Then, the first positioning bolt is rotated and contacts the side wall of the horizontal adjustment slide bar, locking the vertical adjustment slide bar in place. The locking component connects the horizontal support frame to the horizontal adjustment slide bar. This allows workers to easily adjust the support frame according to the glass size, adapting to the packaging needs of different glass sizes. It solves the technical problem that a single type of glass storage rack can only store one type of matching glass and its products, and cannot store other sizes of glass and its products. Attached Figure Description

[0011] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.

[0012] Figure 1 This is a structural schematic diagram of the adjustable glass storage rack of this utility model.

[0013] Figure 2This is a structural schematic diagram of the adjustable glass storage rack of this utility model from another perspective.

[0014] Figure 3 This is the utility model Figure 2 Enlarged view of the local structure at point A.

[0015] 101-Base bracket, 102-Bearing beam, 103-Diagonal support frame, 104-Diagonal support rod, 105-Horizontal support rod frame, 106-First positioning hoop, 107-First positioning screw, 108-First positioning bolt, 109-Horizontal adjusting slide rod, 110-Vertical adjusting slide rod, 111-Foot, 112-Second positioning hoop, 113-Second positioning screw, 114-Second positioning bolt. Detailed Implementation

[0016] Please see Figures 1 to 3 ,in, Figure 1 This is a structural schematic diagram of the adjustable glass storage rack of this utility model. Figure 2 This is a schematic diagram of the adjustable glass storage rack of this utility model from another perspective. Figure 3 This is the utility model Figure 2 Enlarged view of the local structure at point A.

[0017] This utility model provides an adjustable glass storage rack, including a base support 101, four load-bearing beams 102, a diagonal support frame 103, a diagonal support rod 104, a horizontal support rod frame 105, a first positioning hoop 106, a first positioning screw 107, a first positioning bolt 108, a horizontal adjustment slide rod 109, a vertical adjustment slide rod 110, four feet 111, and a locking component. The locking component includes a second positioning hoop 112, a second positioning screw 113, and a second positioning bolt 114.

[0018] The four load-bearing beams 102 are fixedly connected to the base bracket 101 and are respectively located above the base bracket 101. The inclined support frame 103 is fixedly connected to the four load-bearing beams 102 and the base bracket 101. The inclined support rod 104 is fixedly connected to the inclined support frame 103 and the base bracket 101. The horizontal support rod frame 105 is fixedly connected to the base bracket 101 and the inclined support frame 103. The first positioning hoop 106 is fixedly connected to the inclined support frame 103 and is located on one side of the inclined support frame 103. The horizontal adjusting slide rod 109 slides with the first positioning hoop 106. The first positioning screw 107 is fixedly connected to the first positioning clamp 106 and located on one side of the first positioning clamp 106. The first positioning bolt 108 is threadedly connected to the first positioning screw 107 and located on the inner side of the first positioning screw 107. The first positioning bolt 108 is in contact with the horizontal adjusting slide rod 109. The vertical adjusting slide rod 110 is fixedly connected to the horizontal adjusting slide rod 109 and located at one end of the horizontal adjusting slide rod 109. The locking member is connected to the horizontal support rod frame 105 and the horizontal adjusting slide rod 109 respectively.

[0019] In this embodiment, during use, the base bracket 101, the inclined support frame 103, and the horizontal support rod frame 105 are welded to form a H-shaped structure, while the inclined support rods 104 are fixed above the base bracket 101 and to one side of the inclined support frame 103, forming a triangular support structure; the load-bearing beam 102 maintains a 90° right angle with the inclined support frame 103, and a thick rubber pad is adhered to the surface directly above the load-bearing beam 102 to prevent damage to the glass and its products during placement; the grid-shaped support frame structure formed by the horizontal support rod frame 105 and the inclined support frame 103 provides support for the stored glass and its products; pushing the horizontal adjustment... The movement of the sliding rod 109 adjusts the size of the side wings to accommodate different sizes of glass and its products. Then, the first positioning bolt 108 is rotated and contacts the side wall of the horizontal adjusting rod 109, locking the vertical adjusting rod 110 in place. The locking component connects the horizontal support frame 105 to the horizontal adjusting rod 109. This allows workers to easily adjust the support frame according to the glass size, adapting to the packaging needs of different glass sizes. It solves the technical problem that a single type of glass storage rack can only store one type of matching glass and its products, and cannot store other sizes of glass and its products.

[0020] Further, the second positioning hoop 112 is fixedly connected to the horizontal support bracket 105, located on one side of the horizontal support bracket 105, and the second positioning hoop 112 is slidably engaged with the lateral adjustment slide bar 109. The second positioning screw 113 is fixedly connected to the second positioning hoop 112, located on one side of the second positioning hoop 112. The second positioning bolt 114 is threadedly connected to the second positioning screw 113, located on the inner side wall of the second positioning screw 113, and the second positioning bolt 114 contacts the lateral adjustment slide bar 109.

[0021] In this embodiment, rotate the second positioning bolt 114 to make it rotate within the second positioning screw 113 and contact the outer side wall of the lateral adjustment slide bar 109, achieving the locking of the lateral adjustment slide bar 109.

[0022] Further, the four floor feet 111 are respectively fixedly connected to the base bracket 101 and are respectively located below the base bracket 101.

[0023] In this embodiment, the floor feet 111 are used to support the base bracket 101.

[0024] Further, the base bracket 101 is formed by welding square tubes end to end in sequence.

[0025] In this embodiment, the base bracket 101 is made of iron square tubes with a specification of 100mm×50mm. The four tubes are welded to each other at the head and tail and are welded to the horizontal support bracket 105 to form a structure in the shape of a Chinese character 'Ri'.

[0026] Further, the inclined support frame 103 is formed by welding the ends of square tubes together.

[0027] In this embodiment, the inclined support frame 103 is made of iron square tubes with a specification of 100mm×50mm. A rubber pad with a thickness of 10mm is adhered to the front surface to prevent damage to the glass and its products when placed. The 'Tian' - shaped support frame formed by the inclined support frame 103 and the horizontal support bracket 105 has its front surface in the same plane as the front surface of the vertical adjustment slide bar 110, and this plane plays a supporting role for the stored glass and its products.

[0028] The usage method of this structure:

[0029] 1. First, confirm the storage warehouse or workplace for the glass and its products. Then place the glass storage rack in the storage location, ensuring that the ground of the site is hard and level. The floor feet 111 around the glass storage rack are in full contact with the ground to ensure that the glass storage rack does not shake or sway.

[0030] 2. Understand the specifications, dimensions, and quantity of the glass and its products to be stored in advance, and conduct accurate measurements and quantity checks;

[0031] 3. Adjust the adjustable side wings of the glass storage rack according to the required specifications and dimensions of the glass and its products. Adjustment method:

[0032] ① Loosen the first positioning bolt 108 and the second positioning bolt 114 to ensure that the top end is disengaged from and does not contact the horizontal adjusting slide bar 109, so that the horizontal adjusting slide bar 109 can slide under the action of external force on the first positioning clamp 106 and the second positioning clamp 112; ② Adjust the position of the horizontal adjusting slide bar 109 to ensure that the position of the inclined support frame 103 matches and is consistent with the specifications and dimensions of the glass and its products to be stored, so as not to damage the glass; ③ After the position of the horizontal adjusting slide bar 109 is adjusted, tighten the first positioning bolt 108 and the second positioning bolt 114 with the help of tools to prevent the horizontal adjusting slide bar 109 from sliding accidentally. During this process, it is also necessary to ensure that the horizontal adjusting slide bar 109 is in a horizontal state; ④ Check that the plane of the vertical adjusting slide bar 110 is aligned with the plane formed by the inclined support frame 103, the horizontal support rod frame 105 and the base bracket 101.

[0033] 4. After the glass storage rack is adjusted, place the glass and its products to be stored one by one on the glass storage rack. The bottom of the glass and its products should be in full contact with the supporting beams 102 of the four glass storage racks. The front of the first piece of glass and its products placed should be in full contact with the grid-shaped support frame and the vertical adjustment slide bar 110 to avoid uneven force on the glass and cause damage.

[0034] 5. After the glass and its products are placed, use straps to secure the glass and its products to the glass storage rack to ensure the glass is secure and to prevent breakage and safety accidents.

[0035] The above-disclosed embodiments are merely preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art will understand that all or part of the processes for implementing the above embodiments, and equivalent variations made in accordance with the claims of this application, still fall within the scope of this application.

Claims

1. An adjustable glass storage rack, characterized in that, The system includes a base bracket, four load-bearing beams, an inclined support frame, inclined support rods, a horizontal support rod frame, a first positioning hoop, a first positioning screw, a first positioning bolt, a horizontal adjusting slide rod, a vertical adjusting slide rod, and a locking component. The four load-bearing beams are respectively fixedly connected to the base bracket and located above it. The inclined support frame is fixedly connected to both the four load-bearing beams and the base bracket. The inclined support rods are fixedly connected to both the inclined support frame and the base bracket. The horizontal support rod frame is fixedly connected to both the base bracket and the inclined support frame. The first positioning hoop is fixedly connected to the inclined support frame. Located on one side of the inclined support frame, the horizontal adjusting slide rod is slidably connected to the first positioning hoop and located on the inner side wall of the first positioning hoop. The first positioning screw is fixedly connected to the first positioning hoop and located on one side of the first positioning hoop. The first positioning bolt is threadedly connected to the first positioning screw and located on the inner side wall of the first positioning screw, and the first positioning bolt is in contact with the horizontal adjusting slide rod. The vertical adjusting slide rod is fixedly connected to the horizontal adjusting slide rod and located at one end of the horizontal adjusting slide rod. The locking member is connected to the horizontal support frame and the horizontal adjusting slide rod respectively.

2. The adjustable glass storage rack as described in claim 1, characterized in that, The locking component includes a second positioning clamp, a second positioning screw, and a second positioning bolt. The second positioning clamp is fixedly connected to the horizontal support rod frame and is located on one side of the horizontal support rod frame. The second positioning clamp is slidably engaged with the horizontal adjusting slide rod. The second positioning screw is fixedly connected to the second positioning clamp and is located on one side of the second positioning clamp. The second positioning bolt is threadedly connected to the second positioning screw and is located on the inner side wall of the second positioning screw. The second positioning bolt is in contact with the horizontal adjusting slide rod.

3. The adjustable glass storage rack as described in claim 1, characterized in that, The adjustable glass storage rack also includes four feet, which are fixedly connected to the base bracket and located below the base bracket.

4. The adjustable glass storage rack as described in claim 1, characterized in that, The base support is made by welding square tubes end to end.

5. The adjustable glass storage rack as described in claim 1, characterized in that, The inclined support frame is made by welding the ends of square tubes together.