CN219476393U - Cage winch wire feeding device - Google Patents

Abstract

The utility model discloses a cage winch feeding device, wherein a pushing component is arranged on a rack, a feeding platform component is arranged above the pushing component, the feeding platform component comprises a lifting plate, a sliding-out plate, first limiting blocks, second limiting blocks and rotating blocks, the lifting plate is connected with the pushing component, the first limiting blocks are arranged on the left side and the right side of the lifting plate, the first limiting blocks are composed of connecting blocks and L-shaped limiting blocks, the connecting blocks are connected with the lifting plate, the L-shaped limiting blocks are vertically connected with the connecting blocks and are downward in opening, the sliding-out plate is positioned on the upper surface of the lifting plate, the two ends of the sliding-out plate are slidably connected in the first limiting blocks, the second limiting blocks matched with the L-shaped limiting blocks are arranged on the upper surfaces, close to the two sides of the connecting blocks, of the sliding-out plate, a rotating hole is formed in the middle of the sliding-out plate, and the rotating blocks are arranged in the rotating hole; the utility model provides a cage winch wire feeding device, which is changed from a top-to-bottom wire feeding mode to a bottom-to-top wire feeding mode through a crane, and the potential safety hazard in the wire feeding process is greatly reduced.

Description

Cage winch wire feeding device

Technical Field

The utility model relates to the technical field of cable production, in particular to a wire feeding device of a cage winch.

Background

The cage winch is mainly used for twisting a plurality of monofilaments or strands (usually 6 strands) together to produce strands, the structure of the cage winch generally comprises a plurality of (usually 6) pay-off reels, a cage winch rotary disc, wire breakage control rings and strand drums, the cage winch rotary disc, the wire breakage control rings and the strand drums are vertically arranged and are arranged at intervals parallel to each other, the wire breakage control rings are located between the cage winch rotary disc and the strand drums, the cage winch rotary disc is located between the pay-off reels and the wire breakage control rings, the pay-off reels are generally distributed along the circumferential direction of the cage winch rotary disc, the axes of the pay-off reels are horizontally arranged and are perpendicular to the axes of the cage winch rotary disc, the pay-off reels are rotatably arranged on the respective axes, and the plurality of monofilaments or strands are respectively wound on the plurality of pay-off reels and are twisted together after sequentially passing through the cage winch rotary disc, the wire breakage control rings and the strand drums.

The biggest advantage of utilizing the cage strander to produce the stranded wire is that the monofilament or the stranded wire on the pay-off reel keeps the translational state when stranding, namely the wire on the pay-off reel does not have additional torsion when stranding, keeps the original state (original monofilament film wrapping pitch and wrapping rate; original pitch of the stranded wire, etc.). This is not achieved by other wire stranding devices. For example, a frame strander or a fork strander is convenient to mount and dismount, the rotary inertia in rotation is small, the rotating speed can exceed 200n/min, but in products produced by the frame strander or the fork strander, the wire of the pay-off reel cannot be untwisted, the wire on the pay-off reel can be increased or reduced by 60-degree rotation once along with each rotation of the disc, and the parameters of the wire are changed. The rotating speed of the tubular strander is higher and can reach 500n/min, but after the wire on the pay-off disc leaves the disc, the tubular strander rotates along with the tubular strander, and most of the wire is not untwisted in production, so that the structure of the wire can be changed.

But utilize the cage winch to carry out the copper wire roller on the pay-off reel of stranded wire in-process need be changed, the change among the prior art adopts the crane to change, and the crane change process has certain potential safety hazard to carry out the fine setting with copper wire roller in the pay-off reel in-process that cooperates, the crane is difficult to realize, need the manual work to lift up and put down the fine setting, and in the in-process of tearing down the copper wire roller that will run out, also need the manual work to carry, increased the security of change, cause the potential safety hazard easily.

Disclosure of Invention

The utility model provides a wire feeding device of a cage winch, which aims to solve the technical problems that in the prior art, the potential safety hazard is large and the cage winch cannot accurately reach the requirement of manual fine adjustment in the process of replacing a pay-off disc.

The technical scheme of the utility model is as follows: a cage winch wire feeding device comprises a frame, a pushing and lifting assembly and a wire feeding platform assembly

The lifting device comprises a frame, and is characterized in that a lifting component is arranged on the frame, an upper line platform component is arranged above the lifting component and comprises a lifting plate, a sliding-out plate, a first limiting block, a second limiting block and a rotating block, the lifting plate is connected with the lifting component, the left side and the right side of the lifting plate are provided with the first limiting blocks, the first limiting blocks are composed of connecting blocks and L-shaped limiting blocks, the connecting blocks are connected with the lifting plate, the L-shaped limiting blocks are vertically connected with the connecting blocks and are downward in opening, the sliding-out plate is located on the upper surface of the lifting plate and is connected with the first limiting blocks in a sliding mode at two ends, the second limiting blocks matched with the L-shaped limiting blocks are arranged on the upper surface of the sliding-out plate, rotating holes are formed in the middle of the sliding-out plate, and the rotating blocks are rotatably arranged in the rotating holes.

Preferably, symmetrical stabilizer bars are arranged on the rotating block.

Preferably, a slope block is arranged on one end of the rising plate, which is close to the connecting block.

Preferably, the lifting assembly comprises a first lifting rod, a second lifting rod, rollers, roller channels, lifting slide plates and lifting pieces, wherein the central positions of the first lifting rod and the second lifting rod are hinged to each other to form an X shape, the number of the first lifting rods and the number of the second lifting rods are 2 and are located on two sides of the lifting plates, two ends of the first lifting rod are hinged to a frame and sliding blocks respectively, the sliding blocks are slidably connected in sliding grooves at the lower ends of the lifting plates, two ends of the second lifting rod are hinged to the lifting plates and the rollers respectively, the roller channels are formed in the frame, the rollers roll in the roller channels, the lifting slide plates are slidably connected in the roller channels and located between the rollers and the frame, and the lifting pieces are arranged on the frame and are connected with the lifting slide plates.

Preferably, the pushing member is a screw lifter.

Preferably, reinforcing ribs are arranged between the 2 first lifting rods and the 2 second lifting rods.

Preferably, the frame is provided with an auxiliary carrying member.

Compared with the prior art, the utility model has the following beneficial effects:

1. compared with the prior art, the method changes the mode of loading from top to bottom to top through the crane, and greatly reduces the potential safety hazard in the loading process.

2. Be equipped with roll-off board and rotatory piece on the upper wire platform, be favorable to making the copper wire roller carry out fore-and-aft adjustment and rotation regulation in the change in-process for the copper wire roller can be more simple and convenient with the assembly of putting the line roller, need not the manual work and lifts up and finely tune, has reduced production workman's work load and the potential safety hazard in the assembly process.

3. The copper wire roller dismounting device can be applied to copper wire rollers and can also be used for dismounting the copper wire rollers, so that the labor intensity and the potential safety hazard of production workers during copper wire roller dismounting are reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall three-dimensional (partial explosion) structure of the present utility model;

FIG. 2 is a schematic bottom perspective view of the present utility model;

fig. 3 is a schematic diagram of the structure of the present utility model in a plan view in section (section at the frame).

1. A frame; 11. auxiliary carrying pieces; 2. a push-up assembly; 21. a first lift lever; 22. a second lift lever; 23. a roller; 24. a roller channel; 25. pushing up the slide plate; 26. a screw elevator; 27. reinforcing ribs; 28. a sliding block; 29. a chute; 3. an online platform assembly; 31. a rising plate; 32. a slide-out plate; 33. a first limiting block; 331. a connecting block; 332. an L-shaped limiting block; 34. a second limiting block; 35. a rotating block; 351. a stabilizer bar; 36. slope block

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that, in terms of "front", "rear", "left", "right", "upper", "lower", etc., the directions or positional relationships indicated are based on the directions or positional relationships shown in the drawings, which are merely for convenience in describing the present utility model and simplifying the description, but are not meant to indicate or imply that the devices or elements to be referred to must have specific directions, be configured and operated in specific directions, and thus should not be construed as limiting the present utility model, the technical solutions of the embodiments of the present utility model may be combined, and the technical features of the embodiments may also be combined to form a new technical solution.

Referring to fig. 1, 2 and 3, the present utility model provides the following technical solutions: a cage winch wire feeding device comprises a frame 1, a pushing and lifting assembly 2 and a wire feeding platform assembly 3

The lifting device comprises a frame 1, wherein a lifting component 2 is arranged on the frame 1, a wire lifting platform component 3 is arranged above the lifting component 2, the wire lifting platform component 3 comprises a lifting plate 31, a sliding plate 32, a first limiting block 33, a second limiting block 34 and rotating blocks 35, the lifting plate 31 is connected with the lifting component 2, the first limiting blocks 33 are arranged on the left side and the right side of the lifting plate 31, each first limiting block 33 is composed of a connecting block 331 and an L-shaped limiting block 332, the connecting block 331 is connected with the lifting plate 31, the L-shaped limiting blocks 332 are vertically connected with the connecting blocks 331 and are downward in opening, the sliding plate 32 is positioned on the upper surface of the lifting plate 31, two ends of the sliding plate 32 are slidably connected in the first limiting blocks 33, the upper surfaces of the sliding plate 32, which are close to the two sides of the connecting blocks 331, are provided with second limiting blocks 34 matched with the L-shaped limiting blocks 332, rotating holes 321 are arranged in the middle of the sliding plate 32, and the rotating blocks 35 are rotatably arranged in the rotating holes 321.

In one embodiment of the utility model, symmetrical stabilizer bars 351 are arranged on the rotating block 35 to limit the copper wire roller, and the copper wire roller rolls in the process of placing and lifting.

In one embodiment of the present utility model, a ramp block 36 is provided on the end of the rising plate 31 near the connection block 331 to facilitate the rolling out and in of the copper wire roll.

In one embodiment of the present utility model, the lifting assembly 2 includes a first lifting rod 21, a second lifting rod 22, rollers 23, a roller channel 24, a lifting slide 25 and a spiral lifter 26, the central position of the first lifting rod 21 and the central position of the second lifting rod 22 are hinged to each other to form an X shape, the number of the first lifting rod 21 and the second lifting rod 22 is 2 and located at two sides of the lifting plate 31, two ends of the first lifting rod 21 are hinged to the frame 1 and a sliding block 28 respectively, the sliding block 28 is connected in a sliding groove 29 at the lower end of the lifting plate 31 in a sliding manner, two ends of the second lifting rod 22 are hinged to the lifting plate 31 and the roller 23 respectively, the roller channel 24 is arranged on the frame 1, the roller 23 is arranged in the roller channel 24 in a rolling manner, the lifting slide 25 is connected in the roller channel 24 in a sliding manner and located between the roller 23 and the frame 1, and the spiral lifter 26 is arranged on the frame 1 and connected to the lifting slide 25.

In one embodiment of the present utility model, the reinforcing ribs 27 are disposed between the 2 first lifting rods 21 and the 2 second lifting rods 22, which is beneficial to increasing the stability of the lifting and lowering overall.

In one embodiment of the present utility model, the frame 1 is provided with an auxiliary carrying member 11, which is beneficial to carrying and moving the whole body.

The working principle of the utility model is as follows: the staff carries the whole to the two sides of the cage winch through the auxiliary carrying piece 11 on the frame 1, so as to prepare for replacing the copper wire roller;

the disassembly process comprises the following steps: the worker stops the cage winch when the copper wire roller to be replaced reaches one side of the cage winch provided with the device of the utility model by observing the copper wire roller on the cage winch, opens the spiral elevator 26 to rotate positively, pushes the roller 23 to move forward by pushing the push slide plate 25 in the roller channel 24, simultaneously the sliding block 28 on the first push rod 21 moves inwards in the sliding groove 29, so that the first push rod 21 and the second push rod 22 push the lifting plate 31 to rise to a certain height, after the lifting to a certain height, closes the spiral elevator 26, slides out the sliding plate 32 below the copper wire roller to be replaced, if the height is too small or too large, pushes the lifting sliding to finely adjust the height by pushing the threaded rod of the spiral elevator 26, the worker only needs to loosen the fixed structure between the wire releasing disc on the cage winch and the copper wire roller at the moment, the worker safely places the copper wire roller on the rotating block 35 by a buffer force of a slight point, opens the spiral elevator 26 again, and can force the roller 23 to push the lifting plate 24 to the inner side of the lifting plate 31 to the micro-drop down position of the copper wire roller to the micro-strip roller, and finally, and the lifting plate 32 is dismounted by pushing the sliding plate 32 to the position of the lifting plate to the inner side of the lifting plate 24 to the micro-strip roller to the position when the copper wire roller to the inner side of the lifting plate to the copper wire roller to be replaced is completely removed;

the assembly process comprises the following steps: the copper wire roller is pushed onto the rotating block 35 of the sliding plate 32 through the slope block 36 connected with an external unloading plate, the copper wire roller is limited by the stabilizing rod 351, rolling is prevented, the spiral lifter 26 is opened to rotate positively, the copper wire roller on the sliding plate 32 is moved forward in the roller channel 24 through pushing the lifting slide plate 25, the roller 23 is pushed to move, meanwhile, the sliding block 28 on the first lifting rod 21 moves inwards in the sliding groove 29, the first lifting rod 21 and the second lifting rod 22 push the lifting plate 31 to rise to a certain height, after the lifting plate rises to a certain height, the spiral lifter 26 is closed, the sliding plate 32 is slid to the position below the paying-off reel after the disassembling is completed, the sliding plate 32 cannot be separated due to the existence of the first limiting block 33 and the second limiting block 34, the spiral lifter 26 is opened to rotate positively again, the copper wire roller on the sliding plate 32 reaches the position matched with the copper wire roller, fine adjustment can be performed through controlling the spiral lifter 26 for a plurality of times during the period, manual conveying is not needed, finally the copper wire roller is combined with the paying-off reel through the fixed structure on the paying-off reel, and finally, the hidden danger of the winding wire can be changed from the upper side of the winding machine to the lower side of the winding machine through the wire hoist, and the hidden danger of the winding wire can be reduced from the upper side to lower side of the working mode.

Although embodiments of the present utility model 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 therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a cage winch device of acting as go-between which characterized in that: comprises a frame (1), a pushing component (2) and an upper line platform component (3)

Be equipped with on frame (1) and push away lift subassembly (2), it is equipped with line platform subassembly (3) to push away lift subassembly (2) top, line platform subassembly (3) are including rising board (31), roll-off board (32), first stopper (33), second stopper (34) and rotatory piece (35), it links to each other with pushing away lift subassembly (2) to rise board (31), it is equipped with first stopper (33) to rise board (31) left and right sides, first stopper (33) comprise connecting block (331) and L shape stopper (332), connecting block (331) link to each other with rising board (31), L shape stopper (332) link to each other perpendicularly with connecting block (331) to the opening is downward, roll-off board (32) are located rising board (31) upper surface and both ends sliding connection in first stopper (33), be equipped with on the upper surface that roll-off board (32) are close to both sides with L shape stopper (332) assorted second stopper (34), be equipped with rotatory piece (35) in the centre of being equipped with.

2. The wire feeding device of a cage winch according to claim 1, wherein: symmetrical stabilizer bars (351) are arranged on the rotating blocks (35).

3. The wire feeding device of a cage winch according to claim 1, wherein: one end of the rising plate (31) close to the connecting block (331) is provided with a slope block (36).

4. The wire feeding device of a cage winch according to claim 1, wherein: the utility model provides a push away lift subassembly (2) including first push rod (21), second push rod (22), gyro wheel (23), gyro wheel passageway (24), push away lift slide (25) and pushing away the lift piece, the central point of first push rod (21) is articulated X shape with the central point of second push rod (22) each other, the quantity of first push rod (21) and second push rod (22) is 2 to be located lift plate (31) both sides, first push rod (21) both ends respectively with frame (1), slider (28) are articulated, slider (28) sliding connection is in spout (29) of lift plate (31) lower extreme, second push rod (22) both ends are articulated with lift plate (31), gyro wheel (23) respectively, gyro wheel passageway (24) are located in frame (1), gyro wheel (23) roll locate in gyro wheel passageway (24), push away lift (25) sliding connection in frame (24) and be located between slider (25) and lift slide (1).

5. The device for feeding wire to a cage winch according to claim 4, wherein: the pushing and lifting piece is a spiral lifter (26).

6. The device for feeding wire to a cage winch according to claim 4, wherein: reinforcing ribs (27) are arranged between the 2 first lifting rods (21) and the 2 second lifting rods (22).

7. The wire feeding device of a cage winch according to claim 1, wherein: an auxiliary carrying piece (11) is arranged on the frame (1).