A stable clamping device for glass transportation

By designing a stable clamping device for glass transportation, which uses hooks to fix the glass to the forklift and combines a telescopic electric cylinder and an adjustable telescopic rod to firmly clamp the glass, the problem of instability during glass transportation is solved, improving safety and work efficiency.

CN224336637UActive Publication Date: 2026-06-09ANTWELL FORKLIFT ATTACHMENT (ZHANGZHOU) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANTWELL FORKLIFT ATTACHMENT (ZHANGZHOU) CO LTD
Filing Date
2026-03-18
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

During glass transportation, uneven terrain, sharp turns, inertia, or the angle at which the glass is stacked can cause L-shaped supports and glass to swing improperly, or even cause the glass to collapse, reducing transportation safety and work efficiency.

Method used

A stable clamping device was designed, comprising a support back frame, a hook, a locking adjustment assembly, a voltage stabilizing assembly, and a telescopic electric cylinder. The device is fixed to a forklift by the hook and uses the telescopic electric cylinder and the adjusting telescopic rod to firmly clamp the glass.

Benefits of technology

It improves the safety and efficiency of glass transportation, ensures the stability of glass during loading, unloading and transportation, and simplifies clamping, handling and unloading operations.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of stable clamping devices for glass transportation, including support back frame, the lower end both sides of the back surface of support back frame is fixed with lower clamping hook, the upper clamping hook corresponding with lower clamping hook is provided in the upper end both sides of the back surface of support back frame, and locking adjusting assembly for driving upper clamping hook moves up and down, the front surface of support back frame is vertically provided with base frame, the lower part both sides of base frame is provided with bracket stable hook;Under the cooperation of telescopic electric cylinder one, pull hook is pushed to descend, and the end beam of L-shaped support is buckled and firmly clamped, in this way, L-shaped support is firmly fixed on clamping device and fork rod, then under the cooperation of telescopic electric cylinder two and adjusting telescopic rod etc., it will drive pressure plate to be obliquely pressed into, and the glass group obliquely placed on L-shaped support is pressed tightly and firmly;In summary, the stable clamping device is more safe and convenient in loading and unloading and transportation process, greatly facilitates the clamping, handling, unloading operation for loading glass goods.
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Description

Technical Field

[0001] This utility model relates to the field of transportation auxiliary tooling technology, specifically a stable clamping device for glass transportation. Background Technology

[0002] Currently, after glass is processed in the factory, it needs to be bundled and transported to the next process. During bundling, multiple panes of glass are typically placed diagonally on an L-shaped support, and then a forklift is used to move the L-shaped support along with the glass. However, in practice, uneven terrain, sharp turns, inertia, or the angle at which the glass is stacked can cause the L-shaped support and the glass to tilt unnecessarily, or even cause the glass to collapse and fall. This reduces the safety of glass transportation and unloading, and the instability during transportation also reduces work efficiency.

[0003] Therefore, a stable clamping device for glass transportation is provided to solve the above-mentioned problems. Utility Model Content

[0004] The purpose of this section is to outline some aspects of the embodiments of this utility model and to briefly introduce some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of this application, to avoid obscuring the purpose of these documents; however, such simplifications or omissions should not be used to limit the scope of this utility model.

[0005] Therefore, the purpose of this utility model is to provide a stable clamping device for glass transportation, so as to solve the problem mentioned in the background art that the L-shaped bracket and glass may tilt improperly or even fall down due to uneven terrain, sharp turns, inertia or glass stacking angle, thereby reducing the safety of glass transportation and unloading, and the instability of transportation will also reduce work efficiency.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a stabilizing clamping device for glass transportation, comprising a supporting back frame, wherein lower hooks are fixed on both sides of the lower end of the back of the supporting back frame, upper hooks corresponding to the lower hooks are provided on both sides of the upper end of the back of the supporting back frame, and a locking adjustment assembly for driving the upper hooks to move up and down, wherein a base frame is vertically provided on the front of the supporting back frame, and support stabilizing hooks are provided on both sides of the lower part of the base frame;

[0007] The voltage stabilizing assembly includes adjustable telescopic rods that are inclined and fixed to both sides of the top of the base frame. The lower inclined end of the adjustable telescopic rod is connected to a pressure plate. It also includes a telescopic electric cylinder II for driving the pressure plate to reciprocate along the stroke direction of the adjustable telescopic rod.

[0008] As a preferred embodiment of the stable clamping device for glass transportation described in this utility model, the locking adjustment assembly includes a first slide rail fixed to the upper end of the support back frame, a slider that slides up and down inside the first slide rail and is fixedly connected to the end of the upper hook, a fixing nut fixed to the upper end of the first slide rail, and a lead screw threaded to the inside of the fixing nut and rotatably connected to the slider at its lower end.

[0009] As a preferred embodiment of the stabilizing clamping device for glass transportation described in this utility model, the bracket stabilizing hook includes a second slide rail fixed to one side of the base frame, a traction hook that slides vertically along the second slide rail, a positioning block fixed to one side of the upper end of the second slide rail, and a telescopic electric cylinder mounted on the positioning block for driving the traction hook to move vertically.

[0010] As a preferred embodiment of the stable clamping device for glass transportation described in this utility model, the adjusting telescopic rod includes a fixed cylinder fixed to the top of the base frame and an adjusting rod that extends and retracts inside and at the front end of the fixed cylinder.

[0011] A first fixing rod is connected between the ends of the two fixed cylinders, and a second fixing rod is connected between the outer ends of the two adjusting rods. The cylinder end of the second telescopic electric cylinder is fixed on the first fixing rod, and the piston rod end of the second telescopic electric cylinder is fixedly connected to the second fixing rod.

[0012] The back of the pressure plate is fixed with connecting ears at both ends, and the connecting ears are rotatably installed on the outer end of the adjusting rod via a torsion spring hinge.

[0013] As a preferred embodiment of the stable clamping device for glass transportation described in this utility model, a rubber pad is also provided on the opposite side of the pressure plate located on the adjusting telescopic rod.

[0014] As a preferred embodiment of the stable clamping device for glass transportation described in this utility model, the main body sections of the supporting back frame and the base frame are made of galvanized square tubes, and adjacent galvanized square tubes are welded together. The vertical connecting section of the supporting back frame is made of I-beams.

[0015] Compared with the prior art, the beneficial effects of this utility model are as follows: When the L-shaped bracket carrying glass needs to be moved, the supporting back frame is first directly installed at the front of the forklift using the lower hook, upper hook, and locking adjustment assembly. Then, the forklift moves forward, so that the horizontal section of the forklift bottoms and initially lifts the L-shaped bracket. Then, with the cooperation of the first telescopic electric cylinder, the traction hook is pushed down and locked onto the crossbeam at the end of the L-shaped bracket. In this way, the L-shaped bracket is firmly fixed on the clamping device and the forklift. Subsequently, with the cooperation of the second telescopic electric cylinder and the adjusting telescopic rod, the pressure plate is driven to move diagonally downward and press firmly and stabilize the glass assembly placed diagonally on the L-shaped bracket. In summary, this stable clamping device is safer and more convenient during loading, unloading, and transportation, greatly facilitating the clamping, handling, and unloading of glass goods, and significantly improving transportation efficiency. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the locking and adjusting assembly structure of this utility model;

[0018] Figure 3 This is a schematic diagram of the voltage regulator component structure of this utility model;

[0019] Figure 4 This is a schematic diagram of the support stabilizing hook structure of this utility model.

[0020] In the diagram: 100, Support back frame; 200, Lower hook; 210, Upper hook; 300, Locking adjustment assembly; 310, First slide rail; 320, Slider; 330, Fixing nut; 340, Lead screw; 400, Base frame; 500, Support stabilizing hook; 510, Second slide rail; 520, Traction hook; 530, Positioning block; 540, Telescopic electric cylinder one; 600, Adjusting telescopic rod; 610, Fixing cylinder; 620, Adjusting rod; 700, Pressure plate; 710, Rubber pad; 720, Connecting ear; 730, Torsion spring hinge; 800, Telescopic electric cylinder two; 810, Fixing rod one; 820, Fixing rod two. Detailed Implementation

[0021] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0022] Secondly, this utility model is described in detail with reference to the schematic diagrams. When describing the embodiments of this utility model, for ease of explanation, the cross-sectional views showing the device structure may be partially enlarged, not according to the usual scale. Furthermore, the schematic diagrams are merely examples and should not limit the scope of protection of this utility model. In addition, in actual manufacturing, the three-dimensional spatial dimensions of length, width, and depth should be included.

[0023] To make the objectives, technical solutions, and advantages of this utility model clearer, the embodiments of this utility model will be described in further detail below with reference to the accompanying drawings.

[0024] Figures 1-4 The diagram shown is a complete structural schematic of a stabilizing clamping device for glass transportation according to this utility model. Please refer to [link / reference]. Figures 1-4 This embodiment of a stabilizing clamping device for glass transportation includes a support back frame 100, with lower hooks 200 fixed on both sides of the lower back of the support back frame 100, upper hooks 210 corresponding to the lower hooks 200 on both sides of the upper back of the support back frame 100, and a locking adjustment assembly 300 for driving the upper hooks 210 to move up and down. A base frame 400 is vertically arranged on the front of the support back frame 100, and support stabilizing hooks 500 are arranged on both sides of the lower part of the base frame 400. The pressure stabilizing assembly includes an adjusting telescopic rod 600 that is inclinedly fixed to both sides of the top of the base frame 400, with a pressure plate 700 connected to the lower inclined end of the adjusting telescopic rod 600, and a telescopic electric cylinder 800 for driving the pressure plate 700 to reciprocate along the stroke direction of the adjusting telescopic rod 600.

[0025] The locking adjustment assembly 300 includes a first slide rail 310 fixed to the upper end of the support back frame 100, a slider 320 that slides up and down inside the first slide rail 310 and is fixedly connected to the end of the upper hook 210, a fixing nut 330 fixed to the upper end of the first slide rail 310, and a screw rod 340 threaded to the inside of the fixing nut 330 and rotatably connected to the slider 320 at its lower end. In use, the lower hook 200 is fastened from bottom to top onto the lower crossbar of the forklift's fork shaft. Then, the screw rod 340 is tightened to cause the upper hook 210 to descend and engage with the upper crossbar of the fork shaft. This securely fixes the support back frame 100 to the front of the forklift via the lower hook 200 and the upper hook 210. At this time, the horizontal section of the forklift's fork shaft is located in the lower and front area of ​​the support back frame 100. Disassembly is simple and safe; the upper hook 210 can be loosened easily. The operation is simple, safe, and reliable, and it can be quickly installed on the forklift when needed. The support stabilizing hook 500 includes a second slide rail 510 fixed to one side of the base frame 400, a traction hook 520 whose straight section slides up and down along the second slide rail 510, a positioning block 530 fixed to one side of the upper end of the second slide rail 510, and a telescopic electric cylinder 540 mounted on the positioning block 530 for driving the traction hook 520 to move up and down. The adjusting telescopic rod 600 includes a fixed cylinder 610 fixed to the top of the base frame 400, and an adjusting rod 620 that telescopically extends and retracts inside and at the front end of the fixed cylinder 610; a first fixing rod 810 is connected between the ends of the two fixed cylinders 610, and a second fixing rod 820 is connected between the outer ends of the two adjusting rods 620; the cylinder end of the second telescopic electric cylinder 800 is fixed to the first fixing rod 810, and the piston rod end of the second telescopic electric cylinder 800 is fixedly connected to the second fixing rod 820; connecting ears 720 are fixed at both ends of the back of the pressure plate 700, and the connecting ears 720 are rotatably mounted to the outer end of the adjusting rod 620 via a torsion spring hinge 730. A rubber pad 710 is also provided on the opposite side of the pressure plate 700 and the adjusting telescopic rod 600. It can be understood that, with the cooperation of the connecting ear 720 and the torsion spring hinge 730, the pressure plate 700 can adjust the pressing angle itself when it abuts against the glass panel. The rubber pad 710 serves as a buffer and the elastic abutment can prevent the glass from sliding or shaking.Specifically, in this embodiment, when it is necessary to move the L-shaped bracket carrying glass, the support back frame 100 is first directly installed at the front of the forklift using the lower hook 200, upper hook 210, and locking adjustment assembly 300. Then, the forklift moves forward, causing the horizontal section of the forks to bottom out and initially lift the L-shaped bracket. Then, with the cooperation of the telescopic electric cylinder 540, the traction hook 520 is pushed down and locked onto the crossbeam at the end of the L-shaped bracket. In this way, the L-shaped bracket is firmly fixed on the clamping device and the forks. Subsequently, with the cooperation of the telescopic electric cylinder 800 and the adjusting telescopic rod 600, the pressure plate 700 is driven to move diagonally downward and press against the glass assembly placed diagonally on the L-shaped bracket. In summary, this stable clamping device is safer and more convenient during loading, unloading, and transportation, greatly facilitating the clamping, handling, and unloading of glass goods, and significantly improving transportation efficiency.

[0026] Furthermore, the main body sections of the supporting back frame 100 and base frame 400 are made of galvanized square tubing, and adjacent galvanized square tubing are welded together. The vertical connecting sections of the supporting back frame 100 are made of I-beams. By using commercially available steel and processing it through shearing and welding, the manufacturing cost is reduced.

[0027] In summary, this embodiment of a stable clamping device for glass transportation, when it is necessary to move an L-shaped bracket carrying glass, firstly, the lower hook 200, upper hook 210, and locking adjustment assembly 300 are used to directly install the support back frame 100 at the front end of the forklift. Then, the forklift moves forward, so that the horizontal section of the fork lifts and initially lifts the bottom of the L-shaped bracket. Then, with the cooperation of the telescopic electric cylinder 540, the traction hook 520 is pushed down and locked onto the crossbeam at the end of the L-shaped bracket. In this way, the L-shaped bracket is firmly fixed on the clamping device and the fork. Subsequently, with the cooperation of the telescopic electric cylinder 800 and the adjusting telescopic rod 600, the pressure plate 700 is driven to move diagonally downward and press against the glass group placed diagonally on the L-shaped bracket, which greatly facilitates the clamping, moving, and unloading operations of loaded glass goods.

[0028] Although the present invention has been described above with reference to embodiments, various modifications can be made and components can be replaced with equivalents without departing from the scope of the present invention. In particular, as long as there is no structural conflict, the features in the embodiments disclosed in this invention can be combined with each other in any way. The lack of an exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, the present invention is not limited to the specific embodiments disclosed herein, but includes all technical solutions falling within the scope of the claims.

Claims

1. A stabilizing clamping device for glass transportation, characterized in that, The support back frame (100) includes a lower hook (200) fixed on both sides of the lower back of the support back frame (100), an upper hook (210) corresponding to the lower hook (200) is provided on both sides of the upper back of the support back frame (100), and a locking adjustment assembly (300) for driving the upper hook (210) to move up and down. A base frame (400) is vertically provided on the front of the support back frame (100), and a support stabilizing hook (500) is provided on both sides of the lower part of the base frame (400). The voltage stabilizing assembly includes an adjustable telescopic rod (600) that is inclined and fixed to both sides of the top of the base frame (400). The lower inclined end of the adjustable telescopic rod (600) is connected to a pressure plate (700). It also includes a telescopic electric cylinder (800) for driving the pressure plate (700) to reciprocate along the stroke direction of the adjustable telescopic rod (600).

2. The stabilizing clamping device for glass transportation according to claim 1, characterized in that: The locking adjustment assembly (300) includes a first slide rail (310) fixed to the upper end of the support back frame (100), a slider (320) that slides up and down inside the first slide rail (310) and is fixedly connected to the end of the upper hook (210), a fixing nut (330) fixed to the upper end of the first slide rail (310), and a lead screw (340) that is threaded to the inside of the fixing nut (330) and whose lower end is rotatably connected to the slider (320).

3. The stabilizing clamping device for glass transportation according to claim 1, characterized in that: The bracket stabilizing hook (500) includes a second slide rail (510) fixed to one side of the base frame (400), a traction hook (520) whose straight section slides up and down on the second slide rail (510), a positioning block (530) fixed to one side of the upper end of the second slide rail (510), and a telescopic electric cylinder (540) installed on the positioning block (530) and used to drive the traction hook (520) to move up and down.

4. The stabilizing clamping device for glass transportation according to claim 1, characterized in that: The adjustable telescopic rod (600) includes a fixed cylinder (610) fixed to the top of the base frame (400) and an adjusting rod (620) that extends and retracts inside and at the front end of the fixed cylinder (610); A first fixing rod (810) is connected between the ends of the two fixing cylinders (610), and a second fixing rod (820) is connected between the outer ends of the two adjusting rods (620). The cylinder end of the second telescopic electric cylinder (800) is fixed on the first fixing rod (810), and the piston rod end of the second telescopic electric cylinder (800) is fixedly connected to the second fixing rod (820). The pressure plate (700) has connecting ears (720) fixed at both ends on the back side. The connecting ears (720) are rotatably mounted on the outer end of the adjusting rod (620) via a torsion spring hinge (730).

5. A stabilizing clamping device for glass transportation according to claim 1, characterized in that: The pressure plate (700) is located on the opposite side of the adjusting telescopic rod (600) and is also provided with a rubber pad (710).

6. A stabilizing clamping device for glass transportation according to claim 1, characterized in that: The main body sections of the supporting back frame (100) and the base frame (400) are made of galvanized square tubes, and adjacent galvanized square tubes are welded together. The vertical connecting sections of the supporting back frame (100) are made of I-beams.