A wire rope production wire stranding device
By designing components such as the limiting circular plate, connecting rod, and rotating tube, the extension and retraction of the winch are realized, solving the problem that the contact wheel in the existing technology cannot adapt to the limiting of wire ropes of different specifications, and improving the winding and tensioning efficiency of wire ropes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU FUERTE METAL PROD CO LTD
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-05
AI Technical Summary
Existing wire rope production winch devices cannot effectively drive the winch to extend and retract, causing the contact wheel and wire rope to be unable to adapt to different specifications of limit positions, which can easily cause the wire rope to deviate and reduce winding and tensioning efficiency.
A winch device was designed, comprising components such as a limiting circular plate, a connecting rod, a rotating tube, a limiting rod, and a limiting groove. Through the cooperation of an electric push rod and an electric telescopic rod, the winch can be extended and retracted, causing the contact wheel to move away from or closer to the wire rope. By adjusting the U-shaped plate and the tensioning wheel, it can adapt to the limiting and tensioning of wire ropes of different specifications.
It improves the limiting and tensioning efficiency during the wire rope winding process, reduces wire rope deviation, and enhances winding and tensioning efficiency.
Smart Images

Figure CN224325617U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of wire rope production technology, and in particular to a wire winch device for wire rope production. Background Technology
[0002] Steel wire rope is made by twisting multiple strands of fine steel wires together, and after being shaped and rolled, it is coiled onto a winding drum. For example, a wire winch device for steel wire rope production disclosed in application number 202411314344.X uses a tension slider and a drive induction roller to compress the fine steel wires, generating continuous tension at the twisted position, thus maintaining tension even during active winding and passive release.
[0003] However, the above structure cannot effectively extend and retract the winch during use, thus preventing it from moving the contact wheel away from or close to the wire rope. Consequently, it cannot adapt to the limits of different specifications of wire rope, making it prone to wire rope deviation during winding, reducing its winding efficiency. Furthermore, it cannot effectively adjust the position of the tension wheel, thus failing to provide effective tension, reducing its tensioning efficiency and overall efficiency. Therefore, we propose a wire winch device for wire rope production. Utility Model Content
[0004] The purpose of this utility model is to at least solve one of the technical problems existing in the prior art, and to provide a wire winch device for steel wire rope production, which can drive the winch to effectively extend and retract, thereby enabling it to move the contact wheel away from or closer to the steel wire rope, thus allowing it to adapt to the limit of steel wire ropes of different specifications, making it less likely for the steel wire rope to deviate during the winding process, improving its winding efficiency, and enabling effective adjustment of the position of the tension wheel, thereby enabling effective tensioning, improving its tensioning efficiency and usage efficiency.
[0005] To achieve the above objectives, a wire rope production winch device is provided, comprising: a base plate and a winch body. The winch body is hollow, and limiting circular plates are respectively provided on the front and rear sides of the winch body. A connecting rod is bolted to the side of the limiting circular plate away from the winch body. A rotating tube is sleeved on the connecting rod. A side plate is movably connected to the side of the rotating tube away from the connecting rod via a bearing. The bottom of the two side plates is bolted to the top of the base plate. A drive motor is bolted to the front wall of the front side plate near the top. The front end of the rotating tube on the front side passes through the inner ring of the bearing and is connected to the output shaft of the drive motor.
[0006] According to the wire rope production wire winch device, a circular groove is provided on the side of the limiting circular plate opposite to the winch body. Several evenly distributed contact wheels are movably connected in the circular groove through a rotating shaft and bearings. A double-headed electric cylinder is bolted to the winch body. The push rods on the front and rear sides of the double-headed electric cylinder are respectively connected to two limiting circular plates.
[0007] According to the wire rope production wire winch device, a vertical plate is bolted to the top of the base plate near the left side, and baffles are bolted to the right side of the vertical plate near the front and rear sides, respectively. The bottoms of the two baffles are bolted to the top of the base plate.
[0008] According to the wire rope production wire winch device, the outer wall of the connecting rod is connected with several evenly distributed limiting rods by bolts, and the inner wall of the rotating tube is provided with several evenly distributed limiting grooves that match the limiting rods.
[0009] According to the wire rope production winch device, a horizontal bar is bolted to the right side of the vertical plate, and a tube is bolted to the right end of the horizontal bar. A lifting rod is sleeved inside the tube, and a U-shaped block is bolted to the top of the lifting rod. A U-shaped plate is movably connected inside the U-shaped block through a rotating shaft and a bearing, and a tensioning wheel is movably connected inside the U-shaped plate through a rotating shaft and a bearing.
[0010] According to the wire rope production winch device, a triangular plate is slidably connected to the bottom of the U-shaped plate, a sliding wheel is movably connected to the bottom of the lifting rod through a rotating shaft and a bearing, and a sliding groove matching the sliding wheel is opened at the top of the triangular plate. An electric push rod is connected through the side wall of the vertical plate near the bottom, and the right end of the electric push rod is bolted to the left side wall of the triangular plate.
[0011] According to the wire rope production winch device, a horizontal plate is bolted to the left side of the lifting rod near the top, and an electric telescopic rod is hinged to the top of the horizontal plate near the left side, with the top of the electric telescopic rod hinged to the left side wall of the U-shaped plate.
[0012] The above solution has at least one of the following beneficial effects:
[0013] 1. This technical solution utilizes the cooperation between components such as the limiting circular plate, connecting rod, rotating tube, limiting rod, and limiting groove to enable the winch to effectively extend and retract, thereby enabling the contact wheel to move away from or closer to the wire rope. This allows it to adapt to the limiting of wire ropes of different specifications, making it less likely for the wire rope to deviate during the winding process and improving its winding efficiency.
[0014] 2. This technical solution utilizes the cooperation between components such as the electric telescopic rod, U-shaped plate, tensioning wheel, lifting rod, and triangular plate to effectively adjust the position of the tensioning wheel, thereby enabling effective tensioning and improving its tensioning and usage efficiency.
[0015] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description
[0016] The present invention will be further described below with reference to the accompanying drawings and embodiments;
[0017] Figure 1 This is a front perspective view of the present invention;
[0018] Figure 2 for Figure 1 Partial 3D view of components such as the central tube and lifting rod;
[0019] Figure 3 for Figure 1 Partial 3D view of components such as the central limiting circular plate and contact wheel;
[0020] Figure 4 for Figure 1 Partial 3D view of components such as the middle limit rod and limit groove;
[0021] Figure 5 for Figure 1 A side-view stereoscopic view.
[0022] Legend:
[0023] 1. Base plate; 2. Vertical plate; 3. Electric push rod; 4. Horizontal bar; 5. Electric push rod; 6. Electric telescopic rod; 7. Tensioning wheel; 8. U-shaped plate; 9. U-shaped block; 10. Lifting rod; 11. Baffle; 12. Limiting circular plate; 13. Side plate; 14. Contact wheel; 15. Circular groove; 16. Connecting rod; 17. Rotating tube; 18. Drive motor; 19. Sliding wheel; 20. Sliding groove; 21. Triangular plate; 22. Tube body; 23. Winch body; 24. Double-headed electric cylinder; 25. Limiting rod; 26. Limiting groove. Detailed Implementation
[0024] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.
[0025] Reference Figures 1 to 5This utility model discloses a wire rope production winch device, which includes a base plate 1 and a winch body 23. The winch body 23 is hollow. Limiting circular plates 12 are respectively provided on the front and rear sides of the winch body 23. A connecting rod 16 is bolted to the side of the limiting circular plate 12 that is away from the winch body 23. A rotating tube 17 is sleeved on the connecting rod 16. A side plate 13 is movably connected to the side of the rotating tube 17 that is away from the connecting rod 16 through a bearing. The bottom of the two side plates 13 is bolted to the top of the base plate 1. A drive motor 18 is bolted to the front wall of the front side plate 13 near the top. The front end of the rotating tube 17 on the front side passes through the inner ring of the bearing and is connected to the output shaft of the drive motor 18.
[0026] A circular groove 15 is provided on the side of the limiting circular plate 12 opposite to the winch body 23. Several evenly distributed contact wheels 14 are movably connected in the circular groove 15 through a rotating shaft and bearing. A double-headed electric cylinder 24 is bolted to the winch body 23. The push rods on the front and rear sides of the double-headed electric cylinder 24 are respectively connected to the two limiting circular plates 12. A vertical plate 2 is bolted to the top of the base plate 1 near the left side. Baffles 11 are bolted to the right side of the vertical plate 2 near the front and rear sides. The bottom of the two baffles 11 is bolted to the top of the base plate 1. A vertical plate 2 is bolted to the top of the base plate 1 near the left side. Baffles 11 are bolted to the right side of the vertical plate 2 near the front and rear sides. The bottom of the two baffles 11 is bolted to the top of the base plate 1. This structure enables the winch 23 to effectively extend and retract, thereby allowing the contact wheel 14 to move away from or closer to the wire rope. This allows it to adapt to the limits of different specifications of wire rope, making it less likely for the wire rope to deviate during the winding process and improving its winding efficiency.
[0027] A horizontal bar 4 is bolted to the right side of the vertical plate 2. A tube 22 is bolted to the right end of the horizontal bar 4. A lifting rod 10 is fitted inside the tube 22. A U-shaped block 9 is bolted to the top of the lifting rod 10. A U-shaped plate 8 is movably connected inside the U-shaped block 9 via a rotating shaft and bearing. A tensioning wheel 7 is movably connected inside the U-shaped plate 8 via a rotating shaft and bearing. A triangular plate 21 is slidably connected to the bottom of the U-shaped plate 8. A sliding wheel 19 is movably connected to the bottom of the lifting rod 10 via a rotating shaft and bearing. A sliding groove 20 matching the sliding wheel 19 is opened at the top of the triangular plate 21. An electric push rod 3 is threaded through the side wall of the vertical plate 2 near the bottom. The right end of the electric push rod 3 is bolted to the left side wall of the triangular plate 21. A horizontal plate 5 is bolted to the left side of the lifting rod 10 near the top. An electric telescopic rod 6 is hinged to the top of the horizontal plate 5 near the left side. The top of the electric telescopic rod 6 is hinged to the left side wall of the U-shaped plate 8. This structure allows for effective adjustment of the position of the tensioning wheel 7, thereby enabling effective tensioning and improving its tensioning and usage efficiency.
[0028] Working Principle: In operation, one end of the wire rope is first connected to the winch body 23, with the bottom of the rope resting against the tension wheel 7. The push rods on both sides of the double-headed electric cylinder 24 retract, causing the limiting plate 12 to move to one side of the winch body 23. This causes the limiting plate 12 to bring the contact wheel 14 into contact with the wire rope, effectively extending and retracting the winch 23. This allows the contact wheel 14 to move closer to or further away from the wire rope, adapting to different wire rope specifications and preventing wire strand damage during winding. The rope deflection improves its winding efficiency. The extension and retraction of the electric push rod 3 causes the triangular plate 21 to slide to the right or left. The triangular plate 21 drives the lifting rod 10 to slide up or down inside the tube 22 through the sliding groove 20 and the sliding wheel 19. The lifting rod 10 drives the tensioning wheel 7 to move up or to the left through the U-shaped block 9 and the U-shaped plate 8. The extension and retraction of the electric telescopic rod 6 drives the tensioning wheel 7 to swing to the right or left through the U-shaped plate 8, so that it can effectively adjust the position of the tensioning wheel 7, thereby enabling it to effectively tension and improving its tensioning efficiency and usage efficiency.
[0029] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.
Claims
1. A wire winch device for steel wire rope production, characterized in that, include: The base plate (1) and the winch body (23) are hollow. The front and rear sides of the winch body (23) are respectively provided with limiting circular plates (12). The side of the limiting circular plate (12) away from the winch body (23) is connected to the docking rod (16) by bolts. The docking rod (16) is covered with a rotating tube (17). The side of the rotating tube (17) away from the docking rod (16) is movably connected to the side plate (13) by bearings. The bottom of the two side plates (13) is connected to the top of the base plate (1) by bolts. The front wall of the side plate (13) located on the front side is connected to the drive motor (18) near the top by bolts. The front end of the rotating tube (17) located on the front side passes through the inner ring of the bearing and is connected to the output shaft of the drive motor (18).
2. The wire winch device for steel wire rope production according to claim 1, characterized in that, A circular groove (15) is provided on the side of the limiting circular plate (12) opposite to the winch body (23). Several evenly distributed contact wheels (14) are movably connected in the circular groove (15) through a rotating shaft and bearing. A double-headed electric cylinder (24) is connected in the winch body (23) through bolts. The push rods on the front and rear sides of the double-headed electric cylinder (24) are respectively connected to the two limiting circular plates (12).
3. The wire winch device for steel wire rope production according to claim 1, characterized in that, The top of the base plate (1) is connected to a vertical plate (2) by bolts near the left side, and the right side of the vertical plate (2) is connected to baffles (11) by bolts near the front and rear sides respectively. The bottom of the two baffles (11) is connected to the top of the base plate (1) by bolts.
4. The wire winch device for steel wire rope production according to claim 1, characterized in that, The outer wall of the connecting rod (16) is connected by bolts to several evenly distributed limiting rods (25), and the inner wall of the rotating tube (17) is provided with several evenly distributed limiting grooves (26) that match the limiting rods (25).
5. The wire winch device for steel wire rope production according to claim 1, characterized in that, A horizontal bar (4) is bolted to the right side of the vertical plate (2). A tube (22) is bolted to the right end of the horizontal bar (4). A lifting rod (10) is fitted inside the tube (22). A U-shaped block (9) is bolted to the top of the lifting rod (10). A U-shaped plate (8) is movably connected inside the U-shaped block (9) via a rotating shaft and bearing. A tensioning wheel (7) is movably connected inside the U-shaped plate (8) via a rotating shaft and bearing.
6. The wire winch device for steel wire rope production according to claim 1, characterized in that, The bottom of the U-shaped plate (8) is slidably connected to a triangular plate (21). The bottom of the lifting rod (10) is movably connected to a sliding wheel (19) through a rotating shaft and bearing. The top of the triangular plate (21) is provided with a sliding groove (20) that matches the sliding wheel (19). The side wall of the vertical plate (2) is connected through an electric push rod (3) near the bottom. The right end of the electric push rod (3) is connected to the left side wall of the triangular plate (21) by bolts.
7. The wire winch device for steel wire rope production according to claim 1, characterized in that, A horizontal plate (5) is bolted to the left side of the lifting rod (10) near the top. An electric telescopic rod (6) is hinged to the top of the horizontal plate (5) near the left side. The top of the electric telescopic rod (6) is hinged to the left side wall of the U-shaped plate (8).