CN216376954U

CN216376954U - Guide structure of cable galvanized steel strand winding device

Info

Publication number: CN216376954U
Application number: CN202122880293.5U
Authority: CN
Inventors: 徐磊
Original assignee: Yixing Jinzhi Technology Co ltd
Current assignee: Yixing Jinzhi Technology Co ltd
Priority date: 2021-11-23
Filing date: 2021-11-23
Publication date: 2022-04-26
Anticipated expiration: 2031-11-23

Abstract

The utility model discloses a guide structure of a cable galvanized steel strand winding device, which comprises a strand guide device arranged between a strand input device and a strand winding device, wherein the strand guide device comprises a moving base station, the moving base station horizontally reciprocates under the driving of a driving mechanism, two ends of the moving base station are respectively provided with a group of guide units, and a strand cleaning box is arranged between the two groups of guide units; the guide unit comprises a transverse guide roller and two vertical guide rollers arranged side by side, and the two vertical guide rollers arranged side by side are positioned between the stranded wire cleaning box and the transverse guide roller in the same guide unit; the stranded wire passes through the gap between the two vertical guide rollers which are arranged side by side; the height of the transverse guide roller is higher than the height of the output end of the stranded wire input device and the height of the input end of the stranded wire winding device, so that the stranded wire is attached to the upper end of the transverse guide roller and limited. The wire guide device can guide the stranded wire, so that the stranded wire is uniformly wound on the winding device, and the stranded wire can be cleaned.

Description

Guide structure of cable galvanized steel strand winding device

Technical Field

The utility model relates to the technical field of stranded wires, in particular to a guide structure of a cable galvanized steel stranded wire winding device.

Background

The galvanized steel stranded wire of cable can be rolled up to receiving on the line roller after production, conveniently stores and transports. In order to enable the stranded wires to be uniformly wound on the winding roller, a guide mechanism is required to be arranged, so that the stranded wires are enabled to move transversely in a reciprocating manner along the radial direction of the winding roller, the winding effect of the winding device is improved, and the wound stranded wires are more neat and attractive. The surface of the stranded wire is not smooth and easy to be contaminated by dust, and the stranded wire with the dust is directly wound, so that the pollution of the dust to the stranded wire is aggravated, and the quality of the stranded wire is influenced. Therefore, the traditional guide structure is improved, and the stranded wire before being wound can be cleaned.

Disclosure of Invention

The purpose of the utility model is as follows: in order to overcome the defects in the prior art, the utility model provides the guide structure of the cable galvanized steel strand winding device, which can conduct wires to strands, enable the strands to be uniformly wound on the winding device and clean the strands.

The technical scheme is as follows: in order to achieve the purpose, the guide structure of the cable galvanized steel strand winding device comprises a strand guide device arranged between a strand input device and a strand winding device, wherein the strand guide device comprises a moving base station, the moving base station horizontally reciprocates under the driving of a driving mechanism, one end of the moving base station, which faces the strand input device and the strand winding device, is respectively provided with a group of guide units, and a strand cleaning box is arranged between the two groups of guide units; the guide unit comprises a transverse guide roller and two vertical guide rollers arranged side by side, and the two vertical guide rollers arranged side by side are positioned between the stranded wire cleaning box and the transverse guide roller in the same guide unit; the stranded wire passes through the gap between the two vertical guide rollers which are arranged side by side; the height of the transverse guide roller is higher than that of the output end of the stranded wire input device and that of the input end of the stranded wire winding device, so that the stranded wire is attached to the upper end of the transverse guide roller and is limited.

Furthermore, two ends of the stranded wire cleaning box are respectively provided with a channel opening for accommodating a stranded wire to pass through; two U-shaped cleaning pieces are arranged inside the stranded wire cleaning box; the U-shaped cleaning piece is provided with two brush plates which are parallel to each other, and the opposite surfaces of the two brush plates are provided with flexible bristles; the stranded wire passes through the space between the two brush plates of the U-shaped cleaning piece; the brush plates on the two U-shaped cleaning pieces are vertical to each other.

Further, the openings of the two U-shaped cleaning pieces are respectively inclined downwards; the included angles between the brush plates on the two U-shaped cleaning pieces and the horizontal plane are respectively forty-five degrees.

Furthermore, the two brush plates on the U-shaped cleaning piece are connected through a connecting plate, slots are respectively formed in the inner walls of the two sides of the stranded wire cleaning box, and the connecting plate is slidably inserted into the slots.

Furthermore, a chip collecting disc capable of being pulled is arranged below the interior of the stranded wire cleaning box, and a pulling opening for pulling out the chip collecting disc is formed in one side of the moving base platform.

Furthermore, the cover plate on the stranded wire cleaning box is detachably connected with the box body of the stranded wire cleaning box through a bolt.

Furthermore, a supporting table is arranged below the moving base station, a sliding guide rod which is horizontally matched with the moving base station in a sliding manner is arranged on the supporting table, and a reciprocating cylinder which drives the moving base station to horizontally reciprocate is arranged on one side of the supporting table.

Has the advantages that: the utility model discloses a guide structure of a cable galvanized steel strand winding device, which has the following beneficial effects:

1) the moving base station moves under the driving of the reciprocating cylinder to guide the stranded wire;

2) two ends of the moving base station are provided with guide units, and a stranded wire cleaning box is arranged between the two guide units; the guide unit consists of a transverse guide roller and two vertical guide rollers, and can limit the stranded wire and ensure that the stranded wire passes through the stranded wire cleaning box along the horizontal direction so as to be convenient for the stranded wire cleaning box to play a cleaning role;

3) two U-shaped cleaning pieces are arranged in the stranded wire cleaning box, so that the stranded wire cleaning effect is good.

Drawings

FIG. 1 is a schematic working diagram of a stranded wire input device, a stranded wire winding device and a stranded wire guiding device;

FIG. 2 is a schematic structural view of a strand guide device;

FIG. 3 is a schematic view of the chip collecting tray and the drawing port;

FIG. 4 is a schematic view of the internal structure of the strand cleaning box;

fig. 5 is a schematic structural view of a U-shaped cleaning piece.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The guide structure of the galvanized steel stranded wire winding device for the cable as shown in the attached drawings 1 to 5 comprises a stranded wire guide device arranged between a stranded wire input device 1 and a stranded wire winding device 2, wherein a winding roller for winding a stranded wire 7 is arranged on the stranded wire winding device 2 as shown in the attached drawing 1. In the actual production process, the stranded wire input device 1 is a double-wheel stranded wire tensioning device, after a stranded wire machine twists multiple single wires into a stranded wire 7, the double-wheel stranded wire tensioning device conveys the stranded wire 7 to the stranded wire winding device 2.

As shown in fig. 2, the strand guide device includes a moving base 3, the moving base 3 is driven by a driving mechanism to horizontally reciprocate, and the moving direction of the moving base 3 is the radial direction of the winding roller. One end of the moving base station 3, which faces the stranded wire input device 1 and one end of the stranded wire winding device 2, are respectively provided with a group of guide units, and a stranded wire cleaning box 4 is arranged between the two groups of guide units.

The guide unit comprises a transverse guide roller 5 and two vertical guide rollers 6 arranged side by side, and the two vertical guide rollers 6 arranged side by side are positioned between the stranded wire cleaning box 4 and the transverse guide roller 5 in the same guide unit. The stranded wire passes through from the clearance of two vertical deflector rolls 6 side by side, and the both sides of stranded wire 7 paste with the roll surface of two vertical deflector rolls 6 side by side respectively, and two vertical deflector rolls 6 that set up side by side mutually support to carry on spacingly to the horizontal position of stranded wire 7. The height of the transverse guide roller 5 is higher than the height of the output end of the stranded wire input device 1 and the height of the input end of the stranded wire winding device 2, as shown in the attached drawing 1, the existence of the height difference can enable the stranded wire 7 to be attached to the upper end of the transverse guide roller 5, and therefore the vertical position of the stranded wire 7 is limited.

The two guide units are matched with each other, so that in the process of horizontal reciprocating motion of the motion base platform 3, the stranded wire 7 always penetrates through the stranded wire cleaning box 4 along the horizontal direction, and the relative position of the stranded wire 7 and the stranded wire cleaning box 4 is fixed, so that the stranded wire cleaning box 4 can always clean the stranded wire 7.

As shown in fig. 3 and 4, the strand cleaning box 4 is provided with passage openings at both ends thereof for accommodating the strands 7. Two U-shaped cleaning pieces 8 are arranged inside the stranded wire cleaning box 4, two brush plates 9 which are parallel to each other are arranged on the U-shaped cleaning pieces 8, and flexible bristles are arranged on opposite surfaces of the two brush plates 9. The strands 7 pass between the two brush plates 9 of the U-shaped cleaning elements 8. Brush board 9 mutually perpendicular on two U type cleaning member 8, four brush boards 9 on two U type cleaning member 8 can be followed four directions and cleaned stranded conductor 7, and clean effectual.

The openings of the two U-shaped cleaning pieces 8 face downwards obliquely respectively, the included angles between the brush plates 9 on the two U-shaped cleaning pieces 8 and the horizontal plane are forty-five degrees respectively, and the cleaned dust is not easy to stay on the brush plates 9 and can fall into the bottom of the stranded wire cleaning box 4 under the action of gravity.

As shown in fig. 4, the two brush plates 9 on the U-shaped cleaning member 8 are connected through a connecting plate 10, slots 11 are respectively formed in the inner walls of the two sides of the stranded wire cleaning box 4, and the connecting plate 10 is slidably inserted into the slots 11, so that the U-shaped cleaning member 8 can be conveniently assembled and disassembled. The opening direction of the slot 11 faces to the side of the stranded wire input device 1, and the U-shaped cleaning piece 8 is not easy to fall off from the slot 11.

The inside below of stranded conductor cleaning box 4 is provided with pull collection bits dish 12, the one side of motion base station 3 is provided with the pull mouth 13 of taking out collection bits dish 12, and collection bits dish 12 collects the dust bits, and pull mouth 13 can take out collection bits dish 12 and clear up. As shown in fig. 3, the drawing opening 13 is provided with an oval-shaped rotating piece 18, and the rotating piece 18 can block the chip collecting disk 12 to prevent the chip collecting disk 12 from falling off from the drawing opening 13 when the moving base 3 moves.

The cover plate 14 on the stranded wire cleaning box 4 is detachably connected with the box body of the stranded wire cleaning box 4 through a bolt, and the cover plate 14 can be disassembled to maintain and repair the inside of the stranded wire cleaning box 4, so that the U-shaped cleaning piece is convenient to replace.

A support table 15 is arranged below the moving base table 3, a sliding guide rod 16 horizontally matched with the moving base table 3 in a sliding mode is arranged on the support table 15, and a sliding guide hole matched with the sliding guide rod 16 is formed in the moving base table 3. And a reciprocating cylinder 17 for driving the moving base station 3 to horizontally reciprocate is arranged on one side of the supporting table 15 so as to guide the stranded wire 7, so that the stranded wire 7 can be uniformly wound on a winding roller of the stranded wire winding device 2.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the utility model and these are intended to be within the scope of the utility model.

Claims

1. The utility model provides a guide structure of cable galvanized steel strand winding device which characterized in that: the wire twisting and winding device comprises a wire twisting guide device arranged between a wire twisting and inputting device (1) and a wire twisting and winding device (2), wherein the wire twisting guide device comprises a moving base platform (3), the moving base platform (3) horizontally reciprocates under the driving of a driving mechanism, one end of the moving base platform (3) facing the wire twisting and inputting device (1) and one end of the wire twisting and winding device (2) are respectively provided with a group of guide units, and a wire twisting and cleaning box (4) is arranged between the two groups of guide units;

the guide unit comprises a transverse guide roller (5) and two vertical guide rollers (6) arranged side by side, and the two vertical guide rollers (6) arranged side by side are positioned between the stranded wire cleaning box (4) and the transverse guide roller (5) in the same guide unit;

the stranded wire passes through the gap between two vertical guide rollers (6) which are arranged side by side; the height of the transverse guide roller (5) is higher than the height of the output end of the stranded wire input device (1) and the height of the input end of the stranded wire winding device (2), so that the stranded wire (7) is attached to the upper end of the transverse guide roller (5) and is limited.

2. The guide structure of the winding device for the galvanized steel strand of the cable according to claim 1, wherein the guide structure comprises: two ends of the stranded wire cleaning box (4) are respectively provided with a channel opening for accommodating a stranded wire (7) to pass through; two U-shaped cleaning pieces (8) are arranged inside the stranded wire cleaning box (4); two brush plates (9) which are parallel to each other are arranged on the U-shaped cleaning piece (8), and flexible bristles are arranged on the opposite surfaces of the two brush plates (9); the stranded wire (7) passes through between two brush plates (9) of the U-shaped cleaning piece (8); the brush plates (9) on the two U-shaped cleaning pieces (8) are vertical to each other.

3. The guide structure of the winding device for the galvanized steel strand of the cable according to claim 2, wherein the guide structure comprises: the openings of the two U-shaped cleaning pieces (8) are respectively downward and obliquely; the included angles between the brush plates (9) on the two U-shaped cleaning pieces (8) and the horizontal plane are respectively forty-five degrees.

4. The guide structure of the winding device for the galvanized steel strand of the cable according to claim 2, wherein the guide structure comprises: two brush plates (9) on the U-shaped cleaning piece (8) are connected through a connecting plate (10), slots (11) are respectively arranged on the inner walls of the two sides of the stranded wire cleaning box (4), and the connecting plate (10) is slidably inserted into the slots (11).

5. The guide structure of the winding device for the galvanized steel strand of the cable according to claim 4, wherein the guide structure comprises: a drawable chip collecting disc (12) is arranged below the inner part of the stranded wire cleaning box (4), and a drawing opening (13) for drawing out the chip collecting disc (12) is arranged on one side of the moving base table (3).

6. The guide structure of the winding device for the galvanized steel strand of the cable according to claim 5, wherein the guide structure comprises: the cover plate (14) on the stranded wire cleaning box (4) is detachably connected with the box body of the stranded wire cleaning box (4) through a bolt.

7. The guide structure of the winding device for the galvanized steel strand of the cable according to claim 1, wherein the guide structure comprises: a support table (15) is arranged below the moving base table (3), a sliding guide rod (16) which is in horizontal sliding fit with the moving base table (3) is arranged on the support table (15), and a reciprocating cylinder (17) which drives the moving base table (3) to horizontally reciprocate is arranged on one side of the support table (15).