A fixing device for hoisting a ferrous galvanized workpiece

By designing an adjustable fixing device and an anti-slip coating, the problem that existing devices cannot adapt to workpieces of different sizes has been solved, enabling stable lifting and efficient processing of galvanized workpieces.

CN224493515UActive Publication Date: 2026-07-14TIANJIN YUNCHANGXIANG IND & TRADE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TIANJIN YUNCHANGXIANG IND & TRADE CO LTD
Filing Date
2025-06-17
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing lifting and fixing devices cannot be adjusted in size, causing galvanized workpieces to slip and requiring workers to manually move them, wasting time and reducing processing efficiency.

Method used

A fixing device including a movable base, a motor, a hydraulic cylinder, a slide rail, and hooks was designed. The motor drives the lead screw and slide rail to move, the hook spacing is adjusted, and a polyurethane anti-slip coating is used to reduce the workpiece swaying amplitude and ensure the workpiece is fixed.

Benefits of technology

It enables flexible fixing of workpieces of different sizes, preventing slippage, improving processing efficiency and safety, and reducing manual operation time.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to galvanization equipment technical field, and specifically is a kind of iron galvanized workpiece hoist and use fixing device, including mobile base, crosspiece, branch and branch B, mobile base one side is equipped with motor A, the position of mobile base inside one side corresponding motor A is installed reciprocating screw rod A by pivot, the position of mobile base other side corresponding reciprocating screw rod A is fixed slide rail A by bolt, reciprocating screw rod A and slide rail A between being equipped with support plate, support plate top is equipped with hydraulic cylinder, the top drive end welding of hydraulic cylinder has electric rotary disc.Motor B drives slide sleeve B to rotate to drive left hook to move relatively along slide rail B and right hook, to adjust the interval between, to hook up different sizes of iron galvanized workpiece, the anti-skid coating of polyurethane material can reduce the swing amplitude of galvanized workpiece, avoids workpiece to slip.
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Description

Technical Field

[0001] This utility model relates to the field of galvanizing equipment technology, specifically to a fixing device for lifting galvanized iron workpieces. Background Technology

[0002] Steel, the most widely used material in industry, is susceptible to corrosion on its surface due to varying conditions during use. To ensure its proper functioning, steel products are often lifted and then galvanized.

[0003] Existing lifting and fixing devices cannot be adjusted according to their size, causing the workpiece to slip. Furthermore, workers need to move the workpiece to the bottom of the device before lifting it, which wastes too much time. Therefore, a fixing device for lifting galvanized iron workpieces is proposed to facilitate the adjustment of the fixing device while preventing the galvanized iron workpiece from slipping, thereby improving the processing efficiency of workers. Summary of the Invention

[0004] To address the problems in the existing technology, this utility model provides a fixing device for lifting galvanized iron workpieces, which facilitates the adjustment of the fixing device while preventing the galvanized iron workpieces from slipping, thereby improving the processing efficiency of workers.

[0005] The technical solution adopted by this utility model to solve its technical problem is a fixing device for lifting galvanized iron workpieces, including a movable base, a horizontal plate, a support block and a support block B. A motor A is provided on one side of the movable base. A reciprocating screw A is installed on one side of the movable base corresponding to the position of the motor A through a rotating shaft. A slide rail A is fixed on the other side of the movable base corresponding to the position of the reciprocating screw A through bolts. A support plate is provided between the reciprocating screw A and the slide rail A. A hydraulic cylinder is provided on the top of the support plate. An electric rotating disk is welded to the top drive end of the hydraulic cylinder. A horizontal plate is provided on the top of the electric rotating disk.

[0006] Support block A and support block B are respectively provided on both sides of the bottom of the horizontal plate. A reciprocating screw B and a slide rail B are respectively provided between support block A and support block B. A motor B is installed on one side of support block B corresponding to the position of the reciprocating screw B via a rotating shaft. A sliding sleeve B is provided between the reciprocating screw B and the slide rail B. A left hook is fixed to the bottom of the sliding sleeve B by bolts. A right hook is provided on the top of support block A.

[0007] By adopting the above technical solution, motor A drives electric reciprocating screw A to rotate, thereby driving the sliding sleeve, support plate, hydraulic cylinder and cross plate to move along slide rail A to the workpiece stacking area;

[0008] Motor B drives sliding sleeve B to rotate, thereby causing the left hook to move relative to the right hook along slide rail B, so as to adjust the distance between them.

[0009] The hydraulic cylinder drives the horizontal plate, as well as the left and right hooks, to move downwards, so that workers can hook galvanized iron workpieces onto it.

[0010] The polyurethane anti-slip coating reduces the swaying amplitude of galvanized workpieces hanging on the left and right hooks, preventing them from slipping off.

[0011] Then, the horizontal plate is rotated to the required direction by an electric rotary table, and the galvanized workpiece is unloaded for the next step of processing.

[0012] Specifically, the drive end of motor A is connected to reciprocating lead screw A via a rotating shaft.

[0013] Specifically, a sliding sleeve is fitted around the reciprocating lead screw A, and a support plate is welded to one side of the sliding sleeve. The support plate is slidably connected to the slide rail A through a slider on one side.

[0014] By adopting the above technical solution, the electric reciprocating screw A is driven by motor A to rotate, thereby driving the sliding sleeve, support plate, hydraulic cylinder and cross plate to move along the slide rail A, so as to clamp and move the galvanized workpiece.

[0015] Specifically, the drive end of the motor B is connected to the reciprocating lead screw B via a rotating shaft.

[0016] Specifically, a sliding sleeve B is provided around the reciprocating lead screw B, and the sliding sleeve B is slidably connected to the slide rail B through a top slider.

[0017] By adopting the above technical solution, the sliding sleeve B is driven by motor B to rotate, thereby causing the left hook to move relative to the right hook along the slide rail B, so as to adjust the distance between them and thus hook the galvanized workpiece.

[0018] Specifically, the left and right hooks are positioned opposite each other and both have an anti-slip coating inside, which is made of polyurethane.

[0019] By adopting the above technical solution, the anti-slip coating of polyurethane material can reduce the swaying amplitude of galvanized workpieces hanging on the left and right hooks, thus preventing them from slipping off.

[0020] The beneficial effects of this utility model are:

[0021] The present invention discloses a fixing device for lifting galvanized iron workpieces. The motor B drives the sliding sleeve B to rotate, thereby causing the left hook to move relative to the right hook along the slide rail B, so as to adjust the distance between them, thereby hooking galvanized iron workpieces of different sizes. The anti-slip coating of polyurethane material can reduce the swaying amplitude of the galvanized workpiece and prevent the workpiece from slipping.

[0022] The present invention discloses a fixing device for lifting galvanized iron workpieces. Motor A drives electric reciprocating screw A to rotate, thereby driving hydraulic cylinder and cross plate to move to the workpiece stacking area. The hydraulic cylinder drives the cross plate to lift and lower, so that workers can hook the galvanized workpiece. Then, the electric rotary table drives the cross plate to rotate to the required direction, and the galvanized workpiece can be unloaded before proceeding to the next processing step. Attached Figure Description

[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.

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

[0025] Figure 2 This is a schematic diagram of the reciprocating lead screw A of this utility model;

[0026] Figure 3 This is a schematic diagram of the horizontal plate of this utility model;

[0027] In the diagram: 1. Movable base; 2. Motor A; 3. Reciprocating screw A; 4. Sliding sleeve; 5. Support plate; 6. Slide rail A; 7. Hydraulic cylinder; 8. Electric rotary disc; 9. Horizontal plate; 10. Support block A; 11. Support block B; 12. Reciprocating screw B; 13. Slide rail B; 14. Motor B; 15. Sliding sleeve B; 16. Left hook; 17. Right hook; 18. Anti-slip coating. Detailed Implementation

[0028] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0029] To facilitate adjustment of the fixing device while preventing galvanized iron workpieces from slipping, thereby improving worker processing efficiency, such as... Figure 1-3 As shown, the present invention provides a fixing device for lifting galvanized iron workpieces, comprising a movable base 1, a horizontal plate 9, a support block 10, and a support block B11. A motor A2 is provided on one side of the movable base 1. A reciprocating screw A3 is installed on one side of the movable base 1 corresponding to the position of the motor A2 via a rotating shaft. A slide rail A6 is fixed on the other side of the movable base 1 corresponding to the position of the reciprocating screw A3 via bolts. A support plate 5 is provided between the reciprocating screw A3 and the slide rail A6. A hydraulic cylinder 7 is provided on the top of the support plate 5. An electric rotating disk 8 is welded to the top drive end of the hydraulic cylinder 7. A horizontal plate 9 is provided on the top of the electric rotating disk 8.

[0030] Support blocks A10 and B11 are respectively provided on both sides of the bottom of the horizontal plate 9. A reciprocating screw B12 and a slide rail B13 are respectively provided between support blocks A10 and B11. A motor B14 is installed on one side of support block B11 corresponding to the position of reciprocating screw B12 via a rotating shaft. A sliding sleeve B15 is provided between reciprocating screw B12 and slide rail B13. The bottom of the sliding sleeve B15 is fixed with a left hook 16 by bolts. A right hook 17 is provided on the top of support block A10.

[0031] In use, motor A2 drives electric reciprocating screw A3 to rotate, thereby moving sliding sleeve 4, support plate 5, hydraulic cylinder 7 and cross plate 9 along slide rail A6 to the workpiece stacking area;

[0032] Motor B14 drives sliding sleeve B15 to rotate, thereby causing left hook 16 to move relative to right hook 17 along slide rail B13, so as to adjust the distance between them.

[0033] Hydraulic cylinder 7 drives horizontal plate 9, left hook 16 and right hook 17 to move downward so that workers can hook galvanized iron workpieces onto it;

[0034] The polyurethane anti-slip coating 18 can reduce the swaying amplitude of the galvanized workpieces hanging on the left hook 16 and right hook 17, thus preventing the workpieces from slipping off.

[0035] Then, the horizontal plate 9 is rotated to the required direction by the electric rotary table 8, and the galvanized workpiece is unloaded for the next step of processing.

[0036] To improve processing efficiency, for example, such as Figure 1 , Figure 2 , Figure 3 As shown, the present invention also includes a motor A2 drive end connected to a reciprocating lead screw A3 via a rotating shaft.

[0037] For example, such as Figure 1 , Figure 2 , Figure 3 As shown, the present invention also includes a sliding sleeve 4 sleeved around the reciprocating lead screw A3, a support plate 5 welded to one side of the sliding sleeve 4, and the support plate 5 being slidably connected to the slide rail A6 via a slider on one side.

[0038] In use, motor A2 drives electric reciprocating screw A3 to rotate, thereby moving sliding sleeve 4, support plate 5, hydraulic cylinder 7 and cross plate 9 along slide rail A6 to facilitate the clamping and moving of galvanized workpieces.

[0039] For example, such as Figure 1 , Figure 2 , Figure 3 As shown, the present invention also includes a motor B14 drive end connected to a reciprocating lead screw B12 via a rotating shaft.

[0040] For example, such as Figure 1 , Figure 2 , Figure 3 As shown, the present invention also includes a sliding sleeve B15 sleeved around the reciprocating lead screw B12, and the sliding sleeve B15 is slidably connected to the slide rail B13 through a top slider.

[0041] In use, the motor B14 drives the sliding sleeve B15 to rotate, thereby causing the left hook 16 to move relative to the right hook 17 along the slide rail B13, so as to adjust the distance between them and hook the galvanized workpiece.

[0042] For example, such as Figure 1 , Figure 2 , Figure 3 As shown, the present invention also includes that the left hook 16 and the right hook 17 are positioned opposite each other and both are provided with an anti-slip coating 18, which is made of polyurethane.

[0043] When in use, the polyurethane anti-slip coating 18 can reduce the swaying amplitude of the galvanized workpieces hanging on the left hook 16 and right hook 17, preventing them from slipping off.

[0044] When this utility model is in use, the motor A2 drives the electric reciprocating screw A3 to rotate, thereby driving the sliding sleeve 4, support plate 5, hydraulic cylinder 7 and cross plate 9 to move along the slide rail A6 to the workpiece stacking area.

[0045] Motor B14 drives sliding sleeve B15 to rotate, thereby causing left hook 16 to move relative to right hook 17 along slide rail B13, so as to adjust the distance between them.

[0046] Hydraulic cylinder 7 drives horizontal plate 9, left hook 16 and right hook 17 to move downward so that workers can hook galvanized iron workpieces onto it;

[0047] The polyurethane anti-slip coating 18 can reduce the swaying amplitude of the galvanized workpieces hanging on the left hook 16 and right hook 17, thus preventing the workpieces from slipping off.

[0048] Then, the horizontal plate 9 is rotated to the required direction by the electric rotary table 8, and the galvanized workpiece is unloaded for the next step of processing.

[0049] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The descriptions of the above embodiments and specifications are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A fixing device for lifting galvanized iron workpieces, characterized in that, The system includes a movable base (1), a horizontal plate (9), a support block (10), and a support block B (11). A motor A (2) is provided on one side of the movable base (1). A reciprocating screw A (3) is installed on one side of the movable base (1) corresponding to the position of the motor A (2) via a rotating shaft. A slide rail A (6) is fixed on the other side of the movable base (1) corresponding to the position of the reciprocating screw A (3) via bolts. A support plate (5) is provided between the reciprocating screw A (3) and the slide rail A (6). A hydraulic cylinder (7) is provided on the top of the support plate (5). An electric rotating disk (8) is welded to the top drive end of the hydraulic cylinder (7). A horizontal plate (9) is provided on the top of the electric rotating disk (8). The bottom sides of the horizontal plate (9) are respectively provided with support block A (10) and support block B (11). A reciprocating screw B (12) and a slide rail B (13) are respectively provided between support block A (10) and support block B (11). A motor B (14) is installed on one side of support block B (11) corresponding to the position of reciprocating screw B (12) via a rotating shaft. A sliding sleeve B (15) is provided between reciprocating screw B (12) and slide rail B (13). The bottom of the sliding sleeve B (15) is fixed with a left hook (16) by bolts. A right hook (17) is provided on the top of support block A (10).

2. The fixing device for lifting galvanized iron workpieces according to claim 1, characterized in that, The drive end of the motor A (2) is connected to the reciprocating lead screw A (3) via a rotating shaft.

3. The fixing device for lifting galvanized iron workpieces according to claim 1, characterized in that, The reciprocating screw A (3) is fitted with a sliding sleeve (4), and a support plate (5) is welded to one side of the sliding sleeve (4). The support plate (5) is slidably connected to the slide rail A (6) by a slider on one side.

4. The fixing device for lifting galvanized iron workpieces according to claim 1, characterized in that, The drive end of the motor B (14) is connected to the reciprocating lead screw B (12) via a rotating shaft.

5. The fixing device for lifting galvanized iron workpieces according to claim 1, characterized in that, The reciprocating screw B (12) is surrounded by a sliding sleeve B (15), which is slidably connected to the slide rail B (13) via a top slider.

6. The fixing device for lifting galvanized iron workpieces according to claim 1, characterized in that, The left hook (16) and the right hook (17) are positioned opposite each other and both have an anti-slip coating (18) inside, which is made of polyurethane.