CN111863349A

CN111863349A - High tension cable non-woven fabric strip recovery unit

Info

Publication number: CN111863349A
Application number: CN202010813010.2A
Authority: CN
Inventors: 张翅; 周俊; 宋国林
Original assignee: Chongqing Taishan Cable Co Ltd
Current assignee: Chongqing Taishan Cable Co Ltd
Priority date: 2020-08-13
Filing date: 2020-08-13
Publication date: 2020-10-30

Abstract

The invention discloses a high-voltage cable non-woven fabric strip recovery device which comprises a rotary support structure and a strip collecting structure, wherein the rotary support structure comprises a support, a cable channel is arranged in the middle of the support, a rotary disc is arranged on the support around the cable channel, the strip collecting structure is arranged on the rotary disc and comprises a strip collecting shaft, a strip disc is sleeved on the strip collecting shaft, and the strip disc can rotate relative to the strip collecting shaft; according to the invention, through the matching of the rotary support structure, the belt collecting structure, the power output equipment and the guide roller structure, the non-woven fabric belt on the cable can be automatically and efficiently and orderly collected on the belt reel, and the collected non-woven fabric belt is orderly wound on the belt core, so that the non-woven fabric belt is convenient to be used for the second time, the recovery and the reutilization of the non-woven fabric belt are realized, and the production cost of the high-voltage cable is effectively reduced.

Description

High tension cable non-woven fabric strip recovery unit

Technical Field

The invention relates to the field of cable production, in particular to a high-voltage cable non-woven fabric strip recycling device.

Background

In the production process of the high-voltage cable conductor, in order to prevent the surface of the copper conductor from being oxidized, the surface of the conductor needs to be wrapped with a non-woven fabric tape. Before the conductor is produced by extrusion, the non-woven fabric belt needs to be taken off. At present, the non-woven fabric is taken off in a manual mode, namely, the non-woven fabric is cut off manually, so that the non-woven fabric cannot be recycled, and the production cost of the high-voltage cable is increased.

Those skilled in the art have therefore endeavored to develop a woven-fabric-tape recovering device that can reduce the production cost of high-voltage cables.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention provides a woven fabric belt recovery device that can reduce the production cost of high-voltage cables.

In order to achieve the aim, the invention provides a high-voltage cable non-woven fabric strip recovery device which comprises a rotary support structure and a strip collecting structure;

the rotary support structure comprises a support, a cable channel is arranged in the middle of the support, a rotary disc is arranged on the support around the cable channel, and the belt winding structure is arranged on the rotary disc;

the tape collecting structure comprises a tape collecting shaft, a tape reel is sleeved on the tape collecting shaft, and the tape reel can rotate relative to the tape collecting shaft.

Preferably, a rotating sleeve and a large gear seat are arranged on the support, the upper part of the rotating sleeve is fixed with the rotating disc, a large belt wheel is sleeved on the lower part of the rotating sleeve, the large gear seat is arranged below the rotating sleeve and is wrapped outside the large belt wheel and the rotating sleeve, and a large gear is arranged at the top end of the large gear seat;

the lower end of the belt take-up shaft is provided with a pinion which is meshed with the bull gear.

Preferably, the rotating disc is provided with a mounting seat, the bottom of the mounting seat is provided with a through hole, the lower half part of the tape winding shaft penetrates through the through hole, and the middle part of the tape winding shaft is fixed with the upper surface of the rotating disc through the first shaft sleeve.

Preferably, the lower half part of the belt take-up shaft is sleeved with two friction discs, the pinion is positioned between the two friction discs, each friction disc comprises a base and a friction plate, and the upper surface and the lower surface of the pinion are respectively contacted with the friction plates on the two friction discs;

the tail end of the take-up shaft is sleeved with a compression spring, the compression spring is abutted to the lower surface of the friction disc, and the compression spring is locked on the take-up shaft through an adjusting nut.

Preferably, the reel is arranged on the upper half part of the take-up shaft through the tray and is fixed on the take-up shaft through a locking nut, the reel comprises an upper reel and a lower reel, and a tape core is arranged between the upper reel and the lower reel.

Preferably, the support is sleeved with a second shaft sleeve, the upper end of the second shaft sleeve is provided with a first bearing, the lower end of the second shaft sleeve is provided with a second bearing, and the first bearing and the second bearing are located between the support and the rotating sleeve.

Preferably, an elastic retainer ring is arranged between the first bearing and the support.

Preferably, the support comprises an upper support and a lower support, the rotating sleeve is arranged on the upper support, and the second shaft sleeve is sleeved on the outer surface of the upper support of the coating part of the rotating sleeve;

the bull gear seat is clamped at the joint of the upper support and the lower support.

Preferably, the power output device is further included, and the power output device provides rotary power for the rotary support structure;

the power output equipment comprises a cycloidal pin gear speed reducer, the power output end of the cycloidal pin gear speed reducer is a small belt wheel, and the small belt wheel and the large belt wheel are connected and driven through a triangular belt.

Preferably, the device comprises a guide roller structure, wherein the guide roller structure is arranged on the rotating disc and is positioned between the belt collecting structure and the cable channel;

the guide roller structure comprises a guide roller shaft, a guide roller wheel is sleeved outside the guide roller shaft, and a third bearing is arranged between the guide roller wheel and the guide roller shaft;

the end of the guide wheel shaft is arranged on the supporting seat, and the supporting seat is arranged on the upper surface of the rotating disk.

According to the invention, through the matching of the rotary support structure, the belt collecting structure, the power output equipment and the guide roller structure, the non-woven fabric belt on the cable can be automatically and efficiently and orderly collected on the belt reel, and the collected non-woven fabric belt is orderly wound on the belt core, so that the non-woven fabric belt is convenient to be used for the second time, the recovery and the reutilization of the non-woven fabric belt are realized, and the production cost of the high-voltage cable is effectively reduced.

Drawings

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

FIG. 2 is a schematic structural view of a rotary support structure according to the present invention;

FIG. 3 is a schematic structural view of a belt retracting structure according to the present invention;

fig. 4 is a schematic structural view of a power output apparatus in the invention;

FIG. 5 is a schematic view showing the construction of the guide roller according to the present invention;

in the figure:

100-rotating support structure; 101-a bull gear; 102-circlip for shaft; 103-a second bushing; 104-big belt wheel; 105-a rotating sleeve; 106-upper support; 107-large gear seat; 108-lower support; 109-a first bearing; 110-a second bearing; 111-rotating disc; 112-cable channel;

200-a belt retracting structure; 201-locking nut; 202-take-up reel; 203-upper reel; 204-belt core; 205-lower reel; 206-a tray; 207-a first sleeve; 208-an end cap; 210-a friction disc; 210 a-a base; 210 b-friction plate 211-pinion; 212-a compression spring; 214-an adjusting nut;

300-a power take-off; 301-cycloidal-pin gear speed reducer; 302-small pulley; 303-motor low frame;

400-guide roller structure; 401-a third bearing; 402-a guide wheel shaft; 403-a pulley guide;

500-V belt; 600-a cable; 700-a support seat;

description of the drawings: the arrows marked I in the figure indicate the direction of travel of the cable.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, wherein the terms "upper", "lower", "left", "right", "inner", "outer", and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and does not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular manner, and thus should not be construed as limiting the present invention. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in fig. 1 to 5, a high voltage cable non-woven fabric strip recycling device comprises a rotary support structure 100 and a strip collecting structure 200; the rotary support structure 100 comprises a support, a cable channel 112 is arranged in the middle of the support and used for a cable 600 to pass through, a rotary disc 111 is arranged on the support around the cable channel 112, and the belt winding structure 200 is arranged on the rotary disc 111; the take-up structure 200 includes a take-up shaft 202, and a tape reel is sleeved on the take-up shaft 202 and can rotate relative to the take-up shaft 202.

Specifically, a rotary sleeve 105 and a large gear wheel base 107 are arranged on the support, the rotary sleeve 105 is fixed with a rotary disk 111 above the rotary sleeve, and a large belt wheel 104 is sleeved below the rotary sleeve 105, so that the power output device 3 can be conveniently matched with the support, in this embodiment, the power output device 3 mainly provides rotary power for the rotary support structure 100. Specifically, the power output device 3 includes a cycloidal pin gear speed reducer 301, the power output end of the cycloidal pin gear speed reducer 301 is a small belt gear 302, the small belt gear 302 is connected with the large belt gear 104 through a triangular belt 500 for transmission, the cycloidal pin gear speed reducer 301 is connected with a motor, and the motor outputs rotation; the power output device 3 supplies power, the small belt wheel 302 is matched with the large belt wheel 104 to drive the rotary sleeve 105 to rotate, and the rotary sleeve 105 drives the rotary disc 111 to rotate, so that the belt winding structure 200 arranged on the rotary support structure 100 rotates; the large gear seat 107 is arranged below the rotating sleeve 105, the large gear seat 107 is wrapped outside the large belt wheel 104 and the rotating sleeve 105, and the top end of the large gear seat 107 is provided with a large gear 101; the lower end of the take-up shaft 202 is provided with a pinion gear 211, and the pinion gear 211 is engaged with the large gear 101. Since the tape collecting structure 200 rotates with the rotating disc, the small gear 211 rotates around the large gear 101, so that the tape reel on the tape collecting shaft 202 rotates to collect the tape.

The rotating disc 111 is provided with an installation seat, the bottom of the installation seat is provided with a through hole, the lower half part of the tape winding shaft 202 penetrates through the through hole, and the middle part of the tape winding shaft 202 is fixed with the upper surface of the rotating disc 111 through the first shaft sleeve 207, so that the connection firmness of the rotating disc and the tape winding structure 200 is improved, and the rotating disc is ensured to rotate to drive the tape winding structure to rotate; two friction discs 210 are sleeved on the lower half part of the belt take-up shaft 202, a pinion 211 is located between the two friction discs 210, each friction disc 210 comprises a base 210a and a friction plate 210b, the base 210 is made of metal materials, the friction plates 210b are made of rubber graphite, the base 210a and the friction plates 210b are bonded into a whole, and the upper surface and the lower surface of the pinion 211 are respectively in contact with the friction plates 210b on the two friction discs; the end of the take-up shaft 202 is sleeved with a compression spring 212, the compression spring 212 abuts against the lower surface of the friction disc 210, and the compression spring 212 is locked on the take-up shaft 202 through an adjusting nut 214. The deformation degree of the compression spring can be adjusted through the adjusting nut, the effect of adjusting the friction force of the friction disc is achieved, the tension of the belt is controlled, the effect of adjusting the tension is achieved, and the improvement of the belt winding amount of each belt reel is facilitated.

The tape reels comprise an upper tape reel 203 and a lower tape reel 205, a tape core 204 is arranged between the upper tape reel 203 and the lower tape reel 205, when the tape reels rotate, the tape is wound around the tape core by one turn, and the amount of each tape core for containing the tape can be increased and the uniformity of tape collection can be improved by matching the upper tape reel and the lower tape reel; in addition, the upper half part of the tape collecting shaft 202 is arranged on the tape reel through the tray 206, the tray is matched with a boss on the tape collecting shaft, supporting force is further provided for the tape reel, the tape reel is fixed on the tape collecting shaft 202 through the locking nut 201, after the tape is collected, an operator can loosen the locking nut 201, the tape reel which is full of the tape is taken down, a new tape reel is replaced, and the use convenience is improved.

The support overcoat is equipped with second sleeve 103, and the upper end of second sleeve 103 is equipped with first bearing 109, and the lower extreme is equipped with second bearing 110, provides the holding power for first bearing 109 and second bearing 110 through second sleeve 103, and first bearing 109 and second bearing 110 are located support and swivel mount, can reduce the wearing and tearing between swivel mount and the support. More preferably, a circlip 102 is provided between the first bearing 109 and the support.

The support comprises an upper support 106 and a lower support 108, the rotating sleeve 105 is arranged on the upper support 106, and the second shaft sleeve 103 is sleeved on the outer surface of the upper support 106 of the coating part of the rotating sleeve 105; the large gear seat 107 is clamped at the joint of the upper support 106 and the lower support 108. Make mutual independence between each part, and dismantle the convenience, be convenient for the maintenance and the change of each part, be favorable to reducing use cost.

More preferably, the embodiment further includes a guide roller structure 400, wherein the guide roller structure 400 is disposed on the rotating disc 111 and is located between the belt retracting structure 200 and the cable channel 112; preferably, the guide roller structure 400 is disposed at the periphery of the cable channel 112, so as to shorten the distance between the guide roller structure 400 and the cable 600; be of value to in time to carry out in order the derivation to the strap on the cable, the strap winding of being convenient for is on the tep reel. Specifically, the guide roller structure 400 includes a guide roller shaft 402, the guide roller shaft 402 is sleeved with a guide roller 403, and the guide roller 403 and the guide roller shaft 402 are provided with a third bearing 401, so that the guide roller 403 can rotate relative to the guide roller shaft 402; the end of the idler shaft 402 is disposed on the supporting seat 700, the supporting seat 700 is disposed on the upper surface of the rotating disc 111, and the idler roller structure 400 can be firmly fixed on the rotating disc by the cooperation between the supporting seat 700 and the end of the idler shaft. More preferably, articulated through the connecting rod between leading wheel axle 402 and the supporting seat 700 to the inclination of adjustment guide wheel structure, be convenient for combine suitable inclination according to the strap width of reality, make its orientation that breaks away from of adaptation strap (the orientation that the strap breaks away from the cable is oblique top), through the rotation of leading wheel, make the play area direction of strap can with tep reel horizontal plane looks adaptation, be favorable to the clamping band between mode strap and the tep reel, improve the efficiency of accomodating the strap.

When the device is used, firstly, an operator leads a cloth belt on a cable 600 to a belt reel through a guide roller structure 400, then the cable 600 is fed in from the arrow direction marked by I in the figure, when the device starts to produce and operate from top to bottom, a control system on the device receives a wire feeding signal, the device starts to operate, a motor starts to operate, a cycloidal pin wheel speed reducer drives a small belt wheel to rotate, the small belt wheel drives a large belt wheel to rotate through a triangular belt, the large belt wheel drives a rotating sleeve to rotate, the rotating sleeve drives a rotating disc, a belt winding structure on the rotating disc also starts to rotate, and then a small gear at the tail end of a belt winding shaft rotates relative to a large gear, so that the belt reel at the; when taking up complete back, operating personnel not hard up lock nut, then take off the non-woven tape and the band core of accomodating together, so both can effectively retrieve the non-woven tape, the non-woven tape after retrieving can carry out the secondary and use, has reduced high tension cable's manufacturing cost, after production line shutdown, the synchronous shutdown of rolling motor.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims

1. The utility model provides a high tension cable non-woven fabric area recovery unit which characterized by: comprises a rotary support structure (100) and a belt retracting structure (200);

the rotary support structure (100) comprises a support, a cable channel (112) is arranged in the middle of the support, and a rotary disc (111) is arranged on the support around the cable channel (112); the belt winding structure (200) is arranged on the rotating disc (111);

the tape collecting structure (200) comprises a tape collecting shaft (202), wherein a tape reel is sleeved on the tape collecting shaft (202), and the tape reel can rotate relative to the tape collecting shaft (202).

2. The non-woven fabric tape recycling device for high-voltage cables as claimed in claim 1, wherein: a rotating sleeve (105) and a large gear seat (107) are arranged on the support, the upper part of the rotating sleeve (105) is fixed with the rotating disc (111), and a large belt wheel (104) is sleeved on the lower part of the rotating sleeve; the large gear seat (107) is arranged below the rotary sleeve (105), the large gear seat (107) is wrapped outside the large belt wheel (104) and the rotary sleeve (105), and the top end of the large gear seat (107) is provided with a large gear (101);

the lower end of the belt winding shaft (202) is provided with a small gear (211), and the small gear (211) is meshed with the large gear (101).

3. The non-woven fabric tape recycling device for high-voltage cables as claimed in claim 2, wherein: the belt winding device is characterized in that a mounting seat is arranged on the rotating disc (111), a through hole is formed in the bottom of the mounting seat, the lower half part of the belt winding shaft (202) penetrates through the through hole, and the middle part of the belt winding shaft (202) is fixed to the upper surface of the rotating disc (111) through a first shaft sleeve (207).

4. The non-woven fabric tape recycling device for high-voltage cables as claimed in claim 2, wherein: the lower half part of the belt take-up shaft (202) is sleeved with two friction discs (210); the pinion (211) is located between two friction discs (210);

the friction disc (210) comprises a base plate (210a) and a friction plate (210 b); the upper surface and the lower surface of the pinion (211) are respectively contacted with friction plates (210b) on the two friction plates;

a compression spring (212) is sleeved at the tail end of the take-up shaft (202), and the compression spring (212) is abutted against the lower surface of the friction disc (210); the compression spring (212) is locked on the take-up shaft (202) by an adjusting nut (214).

5. The non-woven fabric tape recycling device for high-voltage cables as claimed in claim 2, wherein: the tape reel is arranged on the upper half part of the take-up shaft (202) through a tray (206) and is fixed on the take-up shaft (202) through a lock nut (201), the tape reel comprises an upper tape reel (203) and a lower tape reel (205), and a tape core (204) is arranged between the upper tape reel (203) and the lower tape reel (205).

6. The non-woven fabric tape recycling device for high-voltage cables as claimed in claim 2, wherein: the support overcoat is equipped with second shaft sleeve (103), the upper end of second shaft sleeve (103) is equipped with first bearing (109), and the lower extreme is equipped with second bearing (110), just first bearing (109) and second bearing (110) are located between support and the swivel mount.

7. The non-woven fabric tape recycling device for high-voltage cables as claimed in claim 6, wherein: and a circlip (102) is arranged between the first bearing (109) and the support.

8. The non-woven fabric tape recycling device for high-voltage cables as claimed in claim 6, wherein: the support comprises an upper support (106) and a lower support (108), the rotating sleeve (105) is arranged on the upper support (106), and the second shaft sleeve (103) is sleeved on the outer surface of the upper support (106) of the coating part of the rotating sleeve (105);

the large gear seat (107) is clamped at the joint of the upper support (106) and the lower support (108).

9. A device for recycling a non-woven fabric tape for high voltage cables according to any one of claims 2 to 4 or 6 to 8, wherein: the power output device (3) is further included, and the power output device (3) provides rotary power for the rotary support structure (100);

the power output equipment (3) comprises a cycloidal pin gear speed reducer (301), the power output end of the cycloidal pin gear speed reducer (301) is a small belt wheel (302), and the small belt wheel (302) and the large belt wheel (104) are connected and driven through a triangular belt (500).

10. The non-woven fabric tape recycling device for high-voltage cables as claimed in any one of claims 1 to 8, wherein: the device comprises a guide roller structure (400), wherein the guide roller structure (400) is arranged on the rotating disc (111) and is positioned between the belt collecting structure (200) and the cable channel (112);

the guide roller structure (400) comprises a guide roller shaft (402), and a guide roller wheel (403) is sleeved outside the guide roller shaft (402); the guide pulley (403) and the guide pulley shaft (402) are provided with a third bearing (401);

the end part of the guide wheel shaft (402) is arranged on the supporting seat (700); the supporting seat (700) is arranged on the upper surface of the rotating disc (111).