CN216863497U - Stable rope guider of winch - Google Patents

Abstract

The utility model provides a stable rope guider of a winch, which relates to the field of winches and comprises a winch, wherein the winch comprises a driving servo motor, a transmission case, a mounting frame, a steel wire rope reel and a steel wire rope, a transmission component is mounted in the transmission case, an output shaft of the driving servo motor penetrates through the side wall of the transmission case in a rotating mode, the transmission component is connected with the output shaft of the driving servo motor, the rope guider is mounted on the side surface of the mounting frame, a linkage component is mounted between the rope guider and the transmission component, through the mode, the winch provides power when in work, the driving servo motor drives the steel wire rope reel to rotate through the transmission component to release and wind the steel wire rope, meanwhile, under the action of the linkage component, parts on the rope guider rotate synchronously along with the steel wire rope and move leftwards and rightwards synchronously, the driving force is derived from the driving servo motor, compared with the traditional guide wheel, the guide wheel is driven by the position movement when the steel wire rope is wound and released in the moving process, is more stable.

Description

Stable rope guider of winch

Technical Field

The utility model relates to the field of winches, in particular to a stable rope guider of a winch.

Background

A winch, a light and small hoisting device for hoisting or pulling heavy objects by winding a steel wire rope or a chain on a winding drum, which is also called a winch. The hoist can drag the heavy object vertically, horizontally or obliquely. The rope winding device is widely applied due to simple operation, large rope winding amount and convenient displacement. The lifting device is mainly applied to material lifting or flat dragging of buildings, hydraulic engineering, forestry, mines, wharfs and the like. When the original winch receives the wire, the wire rope can be irregularly arranged on the roller, the wire rope extrudes mutually, the service life of the wire rope is shortened, a large amount of labor force can be consumed if the wire rope arranging work of the winch is manually carried out, and the wire rope receiving operation is inconvenient for workers, so that the wire rope arranging device is additionally arranged on the winch to guarantee the regular arrangement of the wire rope.

The existing rope guider for the winch is mostly composed of a guide rod and a guide wheel, the guide wheel slides on the guide rod, steel wire ropes are regularly arranged under the action of the guide rod and the guide wheel, but the guide wheel is driven by the position movement when the steel wire ropes are wound and released in the moving process, the power source of the guide wheel is the movement of the steel wire ropes, and the problem that the guide wheel cannot move stably on the guide rod exists.

Therefore, the stable rope guider of the winch is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stable rope guider of a winch, and solves the problems provided by the background.

In order to solve the technical problems, the utility model provides the following technical scheme:

rope winding jib is stabilized to hoist engine, including the hoist engine, the hoist engine is including the drive servo motor, transmission case, mounting bracket, wire rope reel and the wire rope that are used for providing power, the wire rope reel rotates and installs on the mounting bracket, wire rope sets up on the wire rope reel, install in the transmission case and be used for driving wire rope reel pivoted drive assembly, drive servo motor's output shaft rotates and runs through the transmission case lateral wall, drive assembly and drive servo motor output shaft link to each other, the mounting bracket side-mounting has rope winding jib, install the linkage subassembly between rope winding jib and the drive assembly.

Furthermore, a maintenance opening is formed in the side face of the transmission box, a protective cover is connected to the maintenance opening in a rotating mode, and a handle is fixed to the side face of the protective cover.

Furthermore, the transmission assembly comprises a driving bevel gear, a driven bevel gear and a rotating rod, the driving bevel gear is installed at the end of an output shaft of the driving servo motor, the driven bevel gear is meshed with the driving bevel gear, and the rotating rod is fixed on the side face of the driven bevel gear and is rotatably connected with the center of the side face of the steel wire rope winding drum in a penetrating mode through the installation frame.

Further, the diameter of the driven bevel gear is larger than that of the driving bevel gear.

Still further, rope arranger is including arranging rope rack, last screw rod, auxiliary rod, guide block and rope hole down, rope arranging rack thread tightening is in the mounting bracket side, it rotates to go up the screw rod and is close to the upper portion position at rope arranging rack side, the auxiliary rod is fixed to be close to the lower part position at rope arranging rack side down, it all rotates to run through rope arranging rack and link assembly and links to each other to go up screw rod one end, guide block and last screw rod screw-thread fit, guide block and lower auxiliary rod sliding fit, the rope hole is seted up at the guide block center, wire rope passes the rope hole.

Furthermore, the upper screw rod and the lower auxiliary rod are symmetrically arranged by taking the center of the rope arranging frame as a symmetrical center.

Furthermore, the linkage assembly comprises a connecting rod, a central bevel gear and an upper bevel gear, the connecting rod is fixed in the center of the side face of the driving bevel gear and rotatably penetrates through the transmission box, the central bevel gear is fixed at the end part of the connecting rod, the upper bevel gear is meshed with the central bevel gear, and the upper bevel gear is installed at the end part of the upper screw.

Furthermore, the diameter of the central bevel gear is equal to that of the driving bevel gear, the diameter of the upper bevel gear is larger than that of the driven bevel gear, and the time of one rotation of the upper screw is the same as that of the wire rope reel.

When the device provided by the technical scheme of the utility model is used, the winch drives the servo motor to provide power when working, the steel wire rope winding drum is driven to rotate through the transmission assembly to release and wind the steel wire rope, meanwhile, the guide block on the rope arranger synchronously rotates along with the steel wire rope and synchronously moves left and right with the steel wire rope under the action of the linkage assembly, the driving force of the driving servo motor is from the driving servo motor, compared with the traditional guide wheel, the driving servo motor is driven through the position movement when the steel wire rope is wound and released in the moving process, the stability is higher, in particular, the steel wire rope passes through the rope hole and is connected with the outside, the driving servo motor drives the driving bevel gear to rotate through the output shaft of the driving servo motor, the driving bevel gear is meshed with the driven bevel gear, the steel wire rope winding drum is driven to rotate through the rotating rod to release the steel wire rope, meanwhile, the central bevel gear and the driving bevel gear synchronously rotate with the upper bevel gear, the upper screw rod is driven to rotate under the action of the two banks, the guide block moves left and right along with the steel wire rope by utilizing the threaded fit of the upper screw rod and the guide block under the sliding fit of the lower auxiliary rod and the guide block, and the steel wire rope passes through the rope hole and is connected with the outside.

Drawings

FIG. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a schematic view of the transmission assembly of the present invention;

FIG. 4 is a schematic view of the configuration of the rope guider and the linkage assembly of the utility model.

Labeled as: 1. the driving servo motor 2, the transmission case 3, the mounting frame 4, the steel wire rope reel 5, the steel wire rope 6, the maintenance opening 7, the protective cover 8, the handle 9, the driving bevel gear 10, the driven bevel gear 11, the rotating rod 12, the rope arranging frame 13, the upper screw 14, the lower auxiliary rod 15, the guide block 16, the rope hole 17, the connecting rod 18, the central bevel gear 19 and the upper bevel gear are arranged.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

As shown in fig. 1-4, the hoist stable rope guider comprises a hoist;

examples

As shown in fig. 1 and 2, the winch comprises a driving servo motor 1 for providing power, a transmission case 2, a mounting frame 3, a steel wire rope reel 4 and a steel wire rope 5, wherein an output shaft of the driving servo motor 1 penetrates through the side wall of the transmission case 2 in a rotating manner, a transmission assembly is connected with an output shaft of the driving servo motor 1, the steel wire rope reel 4 is rotatably mounted on the mounting frame 3, the steel wire rope 5 is arranged on the steel wire rope reel 4, a maintenance opening 6 is formed in the side surface of the transmission case 2, the maintenance opening 6 is rotatably connected with a protective cover 7, and a handle 8 is fixed on the side surface of the protective cover 7;

as shown in fig. 3, a transmission assembly for driving the steel wire rope reel 4 to rotate is installed in the transmission case 2, the transmission assembly comprises a driving bevel gear 9, a driven bevel gear 10 and a rotating rod 11, the driving bevel gear 9 is installed at the end of an output shaft of the driving servo motor 1, the driven bevel gear 10 is engaged with the driving bevel gear 9, the diameter of the driven bevel gear 10 is larger than that of the driving bevel gear 9, and the rotating rod 11 is fixed on the side surface of the driven bevel gear 10 and rotatably penetrates through the mounting frame 3 to be fixedly connected with the center of the side surface of the steel wire rope reel 4;

as shown in fig. 4, a rope guider is installed on the side surface of the mounting frame 3, the rope guider comprises a rope guiding frame 12, an upper screw 13, a lower auxiliary rod 14, a guide block 15 and a rope hole 16, the rope guiding frame 12 is fixed on the side surface of the mounting frame 3 in a threaded manner, the upper screw 13 rotates on the side surface of the rope guiding frame 12 near the upper part, the lower auxiliary rod 14 is fixed on the side surface of the rope guiding frame 12 near the lower part, the upper screw 13 and the lower auxiliary rod 14 are symmetrically arranged with the center of the rope guiding frame 12 as a symmetric center, one end of the upper screw 13 is rotatably penetrated through the rope guiding frame 12 and connected with a linkage component, the guide block 15 is in threaded fit with the upper screw 13, the guide block 15 is in sliding fit with the lower auxiliary rod 14, the rope hole 16 is arranged in the center of the guide block 15, a steel wire rope 5 is penetrated through the rope hole 16, a linkage component is installed between the rope guider and the transmission component, the linkage component comprises a connecting rod 17, a central bevel gear 18 and an upper bevel gear 19, the connecting rod 17 is fixed on the center of the side surface of the driving bevel gear 9 and rotatably penetrated through the transmission box 2, the central bevel gear 18 is fixed at the end part of the connecting rod 17, the upper bevel gear 19 is meshed with the central bevel gear 18, the upper bevel gear 19 is installed at the end part of the upper screw 13, the diameter of the central bevel gear 18 is equal to that of the driving bevel gear 9, the diameter of the upper bevel gear 19 is larger than that of the driven bevel gear 10, and the time of one circle of rotation of the upper screw 13 is the same as that of the steel wire rope winding drum 4;

when the winch is used, the servo motor 1 is driven to provide power when the winch works, the steel wire rope winding drum 4 is driven to rotate through the transmission assembly to release and wind the steel wire rope 5, meanwhile, the guide block 15 on the rope guider synchronously rotates along with the steel wire rope under the action of the linkage assembly and synchronously moves left and right with the steel wire rope, the driving force of the servo motor is from the driving servo motor, compared with the traditional guide wheel which is driven by the position movement when the steel wire rope 5 is wound and released in the moving process, the steel wire rope is more stable, specifically, the steel wire rope 5 passes through the rope hole 16 and is connected with the outside, the driving servo motor 1 drives the driving bevel gear 9 to rotate through the output shaft of the servo motor, the driving bevel gear 9 is meshed with the driven bevel gear 10, the steel wire rope winding drum 4 is driven to rotate through the rotating rod 11 to release the steel wire rope 5, and meanwhile, the central bevel gear 18 and the driving bevel gear 9 synchronously rotate, the upper bevel gear 19 rotates to drive the upper screw 13 to rotate under the action of the two banks 17, the guide block 15 moves left and right along with the steel wire rope 5 under the sliding fit of the lower auxiliary rod 14 and the guide block 15 by utilizing the threaded fit of the upper screw 13 and the guide block 15, and the steel wire rope 5 passes through the rope hole 16 and is connected with the outside.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and those skilled in the art can make many variations and modifications of the technical solution of the present invention by using the method disclosed in the above disclosure without departing from the technical solution of the present invention, and the present invention is also intended to be protected by the following claims.

Claims (8)

1. Rope ware is arranged to hoist engine stability, including the hoist engine, its characterized in that: the winch comprises a driving servo motor (1) used for providing power, a transmission case (2), a mounting frame (3), a steel wire rope reel (4) and a steel wire rope (5), wherein the steel wire rope reel (4) is rotatably mounted on the mounting frame (3), the steel wire rope (5) is arranged on the steel wire rope reel (4), a transmission assembly used for driving the steel wire rope reel (4) to rotate is mounted in the transmission case (2), an output shaft of the driving servo motor (1) rotates to penetrate through the side wall of the transmission case (2), the transmission assembly is connected with an output shaft of the driving servo motor (1), a rope guider is mounted on the side face of the mounting frame (3), and a linkage assembly is mounted between the rope guider and the transmission assembly.

2. The hoist stable rope arranger of claim 1, wherein: maintenance mouth (6) have been seted up to transmission case (2) side, maintenance mouth (6) rotate and are connected with visor (7), visor (7) side is fixed with handle (8).

3. The hoist stable rope arranger of claim 2, wherein: the transmission assembly comprises a driving bevel gear (9), a driven bevel gear (10) and a rotating rod (11), the driving bevel gear (9) is installed at the end part of an output shaft of the driving servo motor (1), the driven bevel gear (10) is meshed with the driving bevel gear (9), and the rotating rod (11) is fixed on the side surface of the driven bevel gear (10) and rotates to penetrate through the center of the side surface of the mounting frame (3) and the center of the side surface of the steel wire rope winding drum (4) to be fixedly connected.

4. The hoist stable rope arranger of claim 3, wherein: the diameter of the driven bevel gear (10) is larger than that of the driving bevel gear (9).

5. The hoist stable rope arranger of claim 4, wherein: rope arranger is including arranging rope frame (12), last screw rod (13), auxiliary rod (14), guide block (15) and rope hole (16) down, arrange rope frame (12) screw thread fastening in mounting bracket (3) side, it rotates to be close to the upper portion position at rope frame (12) side to go up screw rod (13), auxiliary rod (14) are fixed and are close to the lower part position at rope frame (12) side down, it all rotates to run through rope frame (12) and link to each other with the linkage subassembly to go up screw rod (13) one end, guide block (15) and last screw rod (13) screw-thread fit, guide block (15) and lower auxiliary rod (14) sliding fit, rope hole (16) are seted up at guide block (15) center, rope hole (16) are passed in wire rope (5).

6. The hoist stable rope arranger of claim 5, wherein: the upper screw (13) and the lower auxiliary rod (14) are symmetrically arranged by taking the center of the rope arranging frame (12) as a symmetrical center.

7. The hoist stable rope arranger of claim 6, wherein: the linkage assembly comprises a connecting rod (17), a central bevel gear (18) and an upper bevel gear (19), the connecting rod (17) is fixed at the center of the side face of the driving bevel gear (9) and rotatably penetrates through the transmission case (2), the central bevel gear (18) is fixed at the end part of the connecting rod (17), the upper bevel gear (19) is meshed with the central bevel gear (18), and the upper bevel gear (19) is installed at the end part of the upper screw (13).

8. The hoist stable rope arranger of claim 7, wherein: the diameter of the central bevel gear (18) is equal to that of the driving bevel gear (9), the diameter of the upper bevel gear (19) is larger than that of the driven bevel gear (10), and the time of one circle of rotation of the upper screw (13) is the same as that of the steel wire rope reel (4).

Images