Multifunctional glass holder

By incorporating casters and limiting components, the design solves the problems of inconvenient glass placement and cumbersome fixing in existing glass placement racks, achieving stable support and convenient placement of the glass.

CN224410188UActive Publication Date: 2026-06-26SHAANXI NORTHWEST XINBO ENERGY-SAVING GLASS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHAANXI NORTHWEST XINBO ENERGY-SAVING GLASS CO LTD
Filing Date
2025-09-01
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing glass placement racks obstruct the placement of subsequent glass panels when placing glass, and the fixing operation is cumbersome.

Method used

The design incorporates casters and limit components. The frame structure consists of limit plates, connecting rods, support rods, and limit rods. Combined with sliders, disc springs, eccentric blocks, and rubber sleeves, it achieves stable support and protection for the glass.

Benefits of technology

It simplifies the glass placement process, avoids the obstruction of subsequent glass placement by already placed glass, and improves the convenience and stability of the fixing operation.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224410188U_ABST
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Abstract

The utility model discloses a multi -functional glass rack, the utility model relates to glass rack technical field. This multi -functional glass rack is including bottom plate, the bottom fixed mounting of bottom plate has universal wheel, the top of bottom plate is provided with and places mechanism: support subassembly, including the connecting shaft of intercalation installation in bottom plate one side, the top swing mounting of connecting shaft has the limit stop, the upper end swing mounting of limit stop has the connecting rod, the left end swing mounting of connecting rod has the support rod, through the position of fixed axle of slider both sides to limit fixed axle, make fixed axle present vertical installation between support rod and limit rod, the eccentric block of fixed axle outside group setting can limit the position of rubber sleeve, and rubber sleeve can play the role of support and protection to glass, and this mode can make glass horizontal arrangement between support rod and limit rod, when placing glass, just need to push inwards, can avoid the glass that has placed and block the placement of subsequent glass.
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Description

Technical Field

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

[0002] Glass plate racks are tools or devices specifically designed for storing, supporting, or displaying glass plates (such as raw glass sheets, glass panels, glass partitions, etc.). Their core functions revolve around safety, orderliness, and functionality, and they are suitable for industrial production, commercial displays, home decoration, and other scenarios.

[0003] A relevant reference is Chinese utility model patent CN210392111U, which discloses a multifunctional new high-strength functional glass placement rack, including a fixing plate. A first insert and a second insert are fixedly installed on one outer surface of the fixing plate, with the second insert located above the first insert. A bottom plate and a top plate are movably installed on the outer surfaces of the first and second inserts, respectively. A first slot and a second slot are respectively formed on one outer surface of the bottom and top plates. The first and second inserts are located inside the first and second slots, respectively. A first bolt and a second bolt are movably installed on the front and rear outer surfaces of the bottom and top plates, respectively. Several first slots are formed on the upper outer surface of the bottom plate, and several adjusting bolts are screwed onto the upper outer surface of the top plate. A locking block is movably installed on the lower outer surface of each adjusting bolt. This utility model facilitates the fixing of the new high-strength functional glass by workers and reduces the space occupied by the placement rack.

[0004] The glass placement rack described above uses the first slot and the second slot to limit the glass plate. In this way, the gap between the glass plate being placed and the glass plate above the placement rack is small, which can obstruct the operator's hand movement and affect the placement operation. Furthermore, the placement rack uses a single bolt to adjust the height of the second slot to clamp the glass plate, making the fixing operation very inconvenient. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a multifunctional glass placement rack, which solves the problems of existing glass plates affecting the placement of subsequent glass plates and the cumbersome fixing operation.

[0006] To achieve the above objectives, this utility model provides the following technical solution: A multifunctional glass storage rack includes a base plate, with casters fixedly mounted on the bottom of the base plate, and a storage mechanism positioned above the base plate.

[0007] The support assembly includes a connecting shaft that is inserted and installed on one side of the base plate. A limiting plate is movably installed above the connecting shaft. A connecting rod is movably installed at the upper end of the limiting plate. A support rod is movably installed at the left end of the connecting rod. A limiting rod is movably installed below the connecting rod. A pin is inserted and installed at the top end of the limiting rod. A connecting bolt is inserted and installed at the bottom of the base plate.

[0008] The limiting component, located inside the support rod and the limiting rod, is used to limit the position of the glass.

[0009] Preferably, the limiting plate is rotatably connected to the base plate via a connecting shaft, the connecting rod is symmetrically installed on the upper end of the limiting plate, and the connecting rod is rotatably connected to the limiting plate. The top of the support rod is provided with a columnar protrusion structure, and the support rod is rotatably connected to the connecting rod via the columnar protrusion at its top.

[0010] Preferably, the width of the support rod and the limiting rod is the same as the width of the groove structure at the bottom of the connecting rod. The surface of the support rod and the limiting rod is provided with openings arranged in a vertical array. The limiting rod is rotatably connected to the connecting rod through a pin. There are four connecting bolts in total, and the installation positions of the connecting bolts correspond to the installation positions of the support rod and the limiting rod. The connecting bolts pass through the bottom plate and connect to the corresponding support rod and the limiting rod.

[0011] Preferably, the limiting component includes a slider movably installed inside the support rod and the limiting rod, a disc spring fixedly installed above the slider, a fixed shaft inserted inside the slider, an eccentric block fixedly installed outside the fixed shaft, a damping bearing inserted outside the eccentric block, and a rubber sleeve fixedly installed outside the damping bearing.

[0012] Preferably, the limiting component is disposed between the support rods and limiting rods on the front and rear sides, the size of the slider matches the surface opening structure of the support rods and limiting rods, and the slider forms a sliding connection with the support rods and limiting rods. The disc spring is installed symmetrically above the slider, and its top is fixedly connected to the corresponding support rod and limiting rod.

[0013] Preferably, the eccentric blocks are arranged in groups of three, with the centers of the two side eccentric blocks located above the fixed shaft and the center eccentric block located below the fixed shaft. The eccentric blocks are installed in groups on the front and rear sides of the fixed shaft and at the center of the fixed shaft. The rubber sleeve is rotatably connected to the eccentric blocks through a damping bearing.

[0014] Beneficial effects

[0015] This utility model provides a multifunctional glass storage rack. Compared with the prior art, it has the following advantages:

[0016] (1) The multifunctional glass placement rack has a fixed shaft with sliders fixedly installed at both ends. The size of the sliders matches the surface opening structure of the support rod and the limiting rod. The sliders and the support rod and the limiting rod form a sliding connection. The position of the fixed shaft is limited by the sliders on both sides of the fixed shaft, so that the fixed shaft is installed vertically between the support rod and the limiting rod. The eccentric blocks set in groups on the outside of the fixed shaft can limit the position of the rubber sleeve. The rubber sleeve can support and protect the glass. This method can make the glass horizontally arranged between the support rod and the limiting rod. When placing the glass, it is only necessary to push it inward, which can avoid the glass already placed blocking the placement of subsequent glass.

[0017] (2) The multifunctional glass placement rack, through the setting of the slider, the disc spring at the top of the slider can limit the position of the slider. The glass is placed between two adjacent fixed shafts, and the glass is supported by the rubber sleeve on the outside of the eccentric block on the surface of the fixed shaft. Since the eccentric blocks are in groups of three, and the center of the two eccentric blocks is located above the fixed shaft, and the center eccentric block is located below the fixed shaft, the eccentric block on the surface of the upper fixed shaft, which is slightly lower than the center, can press the rubber sleeve on its surface onto the glass under the action of the disc spring. The rubber sleeve has a certain deformation capacity, and will produce a certain deformation after being pressed, and increase the relative friction between it and the glass. At the same time, the damping bearing can provide a certain rotational damping when the rubber sleeve rotates, to prevent the glass from rotating due to inertia during the movement, so as to limit the position of the glass. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0019] Figure 2 This is a schematic diagram of the connecting shaft mounting structure of this utility model;

[0020] Figure 3 This is a schematic diagram of the folding structure of the support component of this utility model;

[0021] Figure 4 This is a schematic diagram of the rubber sleeve installation structure of this utility model;

[0022] In the diagram: 1. Base plate; 11. Casters; 2. Placement mechanism; 21. Support assembly; 211. Connecting shaft; 212. Limiting plate; 213. Connecting rod; 214. Support rod; 215. Limiting rod; 216. Pin; 217. Connecting bolt; 22. Limiting assembly; 221. Slider; 222. Disc spring; 223. Fixed shaft; 224. Eccentric block; 225. Damping bearing; 226. Rubber sleeve. 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 1-4 This utility model provides a technical solution: a multifunctional glass storage rack, including a base plate 1, with casters 11 fixedly installed at the bottom of the base plate 1, and a storage mechanism 2 provided above the base plate 1.

[0025] The support assembly 21 includes a connecting shaft 211 inserted into one side of the base plate 1. A limiting plate 212 is movably mounted above the connecting shaft 211. A connecting rod 213 is movably mounted on the upper end of the limiting plate 212. A support rod 214 is movably mounted on the left end of the connecting rod 213. A limiting rod 215 is movably mounted below the connecting rod 213. A pin 216 is inserted into the top of the limiting rod 215. A connecting bolt 217 is inserted into the lower part of the base plate 1. The limiting plate 212 is rotatably connected to the base plate 1 via the connecting shaft 211. The connecting rods 213 are symmetrically mounted on the upper end of the limiting plate 212, and are rotatably connected to the limiting plate 212. The top of rod 214 is provided with a columnar protrusion structure. The support rod 214 is rotatably connected to the connecting rod 213 through the columnar protrusion at its top. The width of the support rod 214 and the limiting rod 215 is the same as the width of the groove structure at the bottom of the connecting rod 213. The surfaces of the support rod 214 and the limiting rod 215 are provided with openings arranged in a vertical array. The limiting rod 215 is rotatably connected to the connecting rod 213 through the pin 216. There are four connecting bolts 217, and the installation positions of the connecting bolts 217 correspond to the installation positions of the support rod 214 and the limiting rod 215. The connecting bolts 217 penetrate the bottom plate 1 and are connected to the corresponding support rod 214 and the limiting rod 215.

[0026] The base plate 1 restricts the position of the connecting shaft 211. The position of the base plate 1 is adjusted by the casters 11 at the bottom of the base plate 1. The connecting shaft 211 provides a rotation support point for the limiting plate 212, allowing the limiting plate 212 to rotate around the shaft to adjust its angle. The connecting rod 213 can rotate and adjust its angle through the columnar structure at its right end. When the connecting rod 213 is in a horizontal state, the support rod 214 inside the connecting rod 213 will be in a vertical state under its own weight, with its bottom end in contact with the base plate 1. The relative position between the support rod 214 and the base plate 1 can be restricted by the connecting bolts 217, so that the base plate 1, the limiting plate 212, the connecting rod 213, and the support rod 214 form a frame structure. The limiting rod 215 is connected to the connecting rod 213 by the pin 216, and the relative position between the limiting rod 215 and the base plate 1 is restricted by the connecting bolts 217, so that the limiting assembly 22 can be installed on the right side.

[0027] A limiting component 22, disposed inside the support rod 214 and the limiting rod 215, is used to limit the position of the glass. The limiting component 22 includes a slider 221 movably installed inside the support rod 214 and the limiting rod 215. A disc spring 222 is fixedly installed above the slider 221. A fixed shaft 223 is inserted inside the slider 221. An eccentric block 224 is fixedly installed on the outside of the fixed shaft 223. A damping bearing 225 is inserted on the outside of the eccentric block 224. A rubber sleeve 226 is fixedly installed on the outside of the damping bearing 225. The limiting component 22 is disposed between the support rod 214 and the limiting rod 215 on the front and rear sides. The size of the slider 221 is related to the support rod. 214. The surface opening structure of the limiting rod 215 is matched, and the slider 221 is slidably connected to the support rod 214 and the limiting rod 215. The disc spring 222 is installed symmetrically above the slider 221, and its top is fixedly connected to the corresponding support rod 214 and the limiting rod 215. The eccentric blocks 224 are in groups of three, and the center of the two eccentric blocks 224 is located above the fixed shaft 223, and the center eccentric block 224 is located below the fixed shaft 223. The eccentric blocks 224 are installed in groups on the front and rear sides of the fixed shaft 223 and at the center of the fixed shaft 223. The rubber sleeve 226 is rotatably connected to the eccentric blocks 224 through the damping bearing 225.

[0028] Specifically, the position of the fixed shaft 223 is limited by the sliders 221 on both sides of the fixed shaft 223. The eccentric blocks 224 arranged in groups on the outside of the fixed shaft 223 can limit the position of the rubber sleeve 226. The sliders 221 slide along the openings of the support rod 214 and the limiting rod 215 under the action of the glass gravity, and the compressed disc spring 222 generates a preload. At the same time, the special arrangement of the eccentric blocks 224 on the fixed shaft 223 makes them make three-point contact with the glass surface. Flexible clamping is achieved through the rubber sleeve 226. The damping bearing 225 can provide a certain rotational damping when the rubber sleeve 226 rotates, preventing the glass from shifting due to the inertia of the rubber sleeve 226 during the movement. At the same time, the contents not described in detail in this specification are all prior art known to those skilled in the art.

[0029] During operation, sliders 221 are fixedly installed at both ends of the fixed shaft 223. The size of the sliders 221 matches the surface opening structure of the support rod 214 and the limiting rod 215, and the sliders 221, support rod 214, and limiting rod 215 form a sliding connection. The position of the fixed shaft 223 is limited by the sliders 221 on both sides of the fixed shaft 223, so that the fixed shaft 223 is installed vertically between the support rod 214 and the limiting rod 215. The eccentric blocks 224 arranged in groups on the outside of the fixed shaft 223 can limit the position of the rubber sleeve 226. The rubber sleeve 226 can support and protect the glass. This method allows the glass to be arranged horizontally between the support rod 214 and the limiting rod 215. When placing the glass, it only needs to be pushed inward, which can prevent the already placed glass from blocking the placement of subsequent glass. The disc spring 222 at the top of the slider 221 can limit the movement of the glass. The position of slider 221 is such that the glass is placed between two adjacent fixed shafts 223. The glass is supported by the rubber sleeve 226 on the outer side of the eccentric block 224 on the surface of the fixed shaft 223. Since the eccentric blocks 224 are in groups of three, and the center of the two eccentric blocks 224 is located above the fixed shaft 223, while the center eccentric block 224 is located below the fixed shaft 223, the eccentric block 224 on the upper fixed shaft 223, which is slightly lower than the center of the surface of the upper fixed shaft 223, can press the rubber sleeve 226 on its surface onto the glass under the action of the disc spring 222. The rubber sleeve 226 has a certain deformation capacity and will deform under pressure, increasing the relative friction between it and the glass. At the same time, the damping bearing 225 can provide a certain rotational damping when the rubber sleeve 226 rotates, preventing the glass from rotating due to inertia during the movement, so as to limit the position of the glass.

[0030] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0031] 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 multifunctional glass rack, comprising a bottom plate (1), the bottom of the bottom plate (1) is fixedly provided with universal wheels (11), characterized in that: A placement mechanism (2) is provided above the base plate (1): The support assembly (21) includes a connecting shaft (211) inserted and installed on one side of the base plate (1), a limiting plate (212) movably installed above the connecting shaft (211), a connecting rod (213) movably installed at the upper end of the limiting plate (212), a support rod (214) movably installed at the left end of the connecting rod (213), a limiting rod (215) movably installed below the connecting rod (213), a pin (216) inserted and installed at the top end of the limiting rod (215), and a connecting bolt (217) inserted and installed below the base plate (1). A limiting component (22) is disposed inside the support rod (214) and the limiting rod (215) to limit the position of the glass.

2. The multifunctional glass shelf according to claim 1, characterized in that: The limiting plate (212) is rotatably connected to the base plate (1) via the connecting shaft (211). The connecting rod (213) is symmetrically installed on the upper end of the limiting plate (212). The connecting rod (213) is rotatably connected to the limiting plate (212). The top end of the support rod (214) is provided with a columnar protrusion structure. The support rod (214) is rotatably connected to the connecting rod (213) via the columnar protrusion at its top end.

3. The multifunctional glass shelf according to claim 1, characterized in that: The width of the support rod (214) and the limiting rod (215) is the same as the width of the groove structure at the bottom of the connecting rod (213). The surfaces of the support rod (214) and the limiting rod (215) are provided with openings arranged in a vertical array. The limiting rod (215) is rotatably connected to the connecting rod (213) through a pin (216). There are four connecting bolts (217), and the installation positions of the connecting bolts (217) correspond to the installation positions of the support rod (214) and the limiting rod (215). The connecting bolts (217) penetrate the bottom plate (1) and are connected to the corresponding support rod (214) and the limiting rod (215).

4. A multifunctional glass shelf according to claim 1, characterized in that: The limiting component (22) includes a slider (221) movably installed inside the support rod (214) and the limiting rod (215). A disc spring (222) is fixedly installed above the slider (221). A fixed shaft (223) is inserted inside the slider (221). An eccentric block (224) is fixedly installed on the outside of the fixed shaft (223). A damping bearing (225) is inserted on the outside of the eccentric block (224). A rubber sleeve (226) is fixedly installed on the outside of the damping bearing (225).

5. A multifunctional glass shelf according to claim 4, characterized in that: The limiting component (22) is disposed between the support rod (214) and the limiting rod (215) on the front and rear sides. The size of the slider (221) matches the surface opening structure of the support rod (214) and the limiting rod (215), and the slider (221) forms a sliding connection with the support rod (214) and the limiting rod (215). The disc spring (222) is installed symmetrically above the slider (221) in a mirror image, and its top is fixedly connected to the corresponding support rod (214) and the limiting rod (215).

6. A multifunctional glass shelf according to claim 4, characterized in that: The eccentric blocks (224) are arranged in groups of three, with the center of the two side eccentric blocks (224) located above the fixed shaft (223) and the center eccentric block (224) located below the fixed shaft (223). The eccentric blocks (224) are installed in groups on the front and rear sides of the fixed shaft (223) and at the center of the fixed shaft (223). The rubber sleeve (226) is rotatably connected to the eccentric blocks (224) through the damping bearing (225).