CN112573288B

CN112573288B - Multi-cable winding displacement device

Info

Publication number: CN112573288B
Application number: CN202011325801.7A
Authority: CN
Inventors: 齐继阳; 钟飞; 张家豪; 刘杰; 齐悦
Original assignee: Jiangsu University of Science and Technology
Current assignee: Jiangsu Huaya Cable Co ltd
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2022-04-26
Anticipated expiration: 2040-11-24
Also published as: CN112573288A

Abstract

The invention discloses a multi-cable winding displacement device, which comprises a winding component and a winding displacement component, wherein the winding component is used for synchronously winding a plurality of cables on corresponding winding drums, the winding displacement component is used for enabling the cables to do reciprocating motion in the horizontal direction so as to evenly and evenly arrange the cables, the winding component can be provided with a plurality of winding drums and enables the winding drums to synchronously rotate, and the winding displacement component can simultaneously complete the horizontal reciprocating motion of the plurality of cables so as to evenly wind the cables on the winding drums.

Description

Multi-cable winding displacement device

Technical Field

The invention relates to a cable winding displacement device, in particular to a multi-cable winding displacement device.

Background

Most of the existing cable winding displacement devices can only carry out the winding displacement work of a single cable, but in the working occasions of most cable equipment, the cable winding displacement device which can only carry out the winding displacement work of one cable often cannot achieve the expected winding displacement effect, and when the second winding displacement work is carried out, a winding barrel needs to be detached manually and a new winding barrel is installed. Locking and clamping are easy to occur when part of the wire arranging devices work in severe environments such as more dust, the wire arranging efficiency is greatly reduced, and the efficiency and the wire arranging quality of industrial production are influenced.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to provide a multi-cable arranging device which realizes the function of simultaneously winding a plurality of cables on a winding shaft.

The technical scheme is as follows: the multi-cable arranging device comprises a winding component for synchronously winding a plurality of cables on corresponding winding drums, a arranging component for enabling the cables to do reciprocating motion in the horizontal direction so as to enable the cables to be evenly and flatly arranged, and a bottom plate for mounting the winding component and the arranging component.

The winding part comprises a winding motor for providing power, a winding speed reducer, a supporting plate, a winding chain wheel and a chain, wherein the winding speed reducer is connected with an output shaft of the winding motor and used for adjusting the rotating speed; the supporting plate is in a step shape, and the winding reel is sequentially arranged on the step surface through the fastening piece.

The number of steps of the supporting plate and the number of the winding drums are determined according to the number of cables needing to be wound.

The wire arranging component comprises a wire arranging execution component for driving the cable to reciprocate left and right, a wire arranging driving component for providing power to drive the wire arranging execution component to operate, and a base for mounting the wire arranging driving component and the wire arranging execution component.

The flat cable driving component comprises a flat cable motor for providing power and a flat cable speed reducer for controlling the rotating speed, an output shaft of the flat cable motor is connected with an input shaft of the flat cable speed reducer through a coupling, a first upright post and a second upright post are mounted on the base, a first chain wheel shaft and a second chain wheel shaft are mounted on the first upright post and the second upright post respectively, a first flat cable chain wheel is mounted at one end of the first chain wheel shaft, a second flat cable chain wheel and a third flat cable chain wheel are mounted at two ends of the second chain wheel shaft respectively, the first flat cable chain wheel and the second flat cable chain wheel are connected through a first flat cable chain, an output shaft of the flat cable speed reducer is connected with a fourth flat cable chain wheel, the fourth flat cable chain wheel drives the third flat cable chain wheel to rotate through a second flat cable chain wheel, the third flat cable chain wheel drives the second chain wheel and a second flat cable chain wheel at the other end of the second flat cable chain wheel to rotate through the first flat cable chain wheel, the first wire arranging chain comprises a chain link with two long pin columns at two ends, and the chain link is fixedly connected with the driving seat through the two long pin columns at two ends.

The winding displacement executive component comprises a winding displacement rod and a first supporting column and a second supporting column, wherein the first supporting column and the second supporting column are provided with guide grooves, sliders are installed in the guide grooves, telescopic springs are installed at the two ends of the sliders along the direction of the guide grooves respectively, through holes are formed in the sliders, the two ends of each optical lever penetrate through the through holes of the sliders respectively, the sliders are driven to move along the guide grooves under the driving of the sliders, a first through hole used for penetrating the optical lever, a third through hole used for penetrating a second through hole of a cable and used for connecting a driving seat are formed in the winding displacement rod, the winding displacement rod is driven by the driving seat to move along the optical lever in a reciprocating mode, and a wire clamping wheel used for clamping the cable is installed in the second through hole.

The number of the second through holes is determined according to the number of cables needing to be wired.

Has the advantages that: compared with the prior art, the invention has the following remarkable advantages: simple structure, easy to assemble and dismantlement can adjust the spiral radical according to actual requirement, and the winding displacement is even, and the high quality can not appear twining each other in the cable, has guaranteed the quality and the efficiency of work.

Drawings

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

FIG. 2 is a schematic view of the structure of the wire winding member of the present invention;

FIG. 3 is a schematic view of a flat cable assembly according to the present invention;

FIG. 4 is a schematic view of a flat cable driving assembly according to the present invention;

FIG. 5 is an enlarged view of the flat cable driving assembly of the present invention at the driving seat;

FIG. 6 is a schematic diagram of a flat cable actuator according to the present invention;

FIG. 7 is a schematic view of a mast installation of the present invention;

FIG. 8 is a front view of a cable actuator assembly according to the present invention;

FIG. 9 is an enlarged view of a portion of the winding bar of the present invention; .

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

As shown in fig. 1, the multi-cable winding displacement device of the present embodiment includes a base plate 1, a winding member 2, and a winding displacement member 3, and the winding member 2 and the winding displacement member 3 are mounted on the base plate 1. The wire arranging component 3 realizes the left-right reciprocating movement of the cable, and the winding component 2 realizes the winding of the cable on a winding reel.

As shown in fig. 2, the winding member 2 of the present embodiment includes a winding motor 21, a winding speed reducer 22, a sprocket 23, a chain 24, a support plate 25, and a winding reel 26. The coiling motor 21 and the coiling speed reducer 22 are installed on the base 1 through screws, an output shaft of the coiling motor 21 is connected with an input shaft of the coiling speed reducer 22 through a coupler, chain wheels 23 are installed on the output shaft of the coiling speed reducer 22 and the end portion of a coiling drum 26, and adjacent chain wheels are connected through a chain 24 to achieve a transmission effect. The support plate is in a step shape, the winding reel 26 is sequentially mounted on the step surface through the fasteners, the chain wheel is mounted at the end part of the winding reel 26, in the embodiment, the support plate is provided with three step surfaces, and in practical situations, the support plate with a plurality of step surfaces can be replaced according to the quantity of cables needing to be wound and arranged for mounting more winding reels 26.

As shown in fig. 3, the traverse section 3 includes a traverse driving unit 31 and a traverse actuator 32. The flat cable driving assembly 31 and the flat cable executing assembly 32 are both mounted on the base 1.

As shown in fig. 4 and 5, the flat cable driving assembly 31 includes a flat cable motor 311 for providing power and a flat cable reducer 312 for controlling the operating speed of a cable, an output shaft of the flat cable motor 311 is connected to an input shaft of the flat cable reducer 312 through a coupling, the base 1 is provided with a first upright post 313 and a second upright post 317, top surfaces of the first upright post 313 and the second upright post 317 are respectively provided with a first sprocket shaft 314 and a second sprocket shaft 332, one end of the first sprocket shaft 314 is provided with a first flat cable sprocket 330, two ends of the second sprocket shaft 332 are respectively provided with a second flat cable sprocket 316 and a third flat cable sprocket 331, the first flat cable sprocket 330 and the second flat cable sprocket 316 are connected through the first flat cable chain 315, an output shaft of the flat cable reducer 312 is connected to a fourth flat cable sprocket 333, the fourth flat cable sprocket 333 drives the third flat cable sprocket 331 to rotate through the second flat cable chain 310, the third flat cable sprocket 331 drives the second sprocket 332 and the second flat cable sprocket 316 at the other end to rotate, the second winding displacement sprocket 316 drives the first winding displacement sprocket 330 to rotate through the first winding displacement chain 315, and the first winding displacement chain 315 comprises a chain link with a long pin 318, and the chain link is fixedly connected with the driving seat 319 through the long pins 318 at both ends. When the winding displacement motor 311 rotates, the output shaft of the winding displacement reducer 312 is driven to rotate, the output shaft of the winding displacement reducer 312 rotates to drive the second chain wheel shaft 332 installed on the top surface of the second upright post 317 to rotate through the chain transmission, and the rotation of the second chain wheel shaft 332 drives the first winding displacement chain 315 to rotate through the chain transmission, so that the driving seat 319 is driven to horizontally move.

As shown in fig. 6 to 9, the traverse actuator 31 includes a first support column 321, a retractable spring 322, a slider 323, a lever 324, a traverse rod 325, and a second support column 326. Second support column 326 and first support column 321 pass through the mounting screw on bottom plate 1 respectively, and second support column 326 and first support column 321 upper segment processing have a guide slot, and expanding spring 322, slider 323 and expanding spring 322 are installed respectively to the guide slot top-down of second support column 326 and first support column 321, slider 323 opens has the through-hole, and the through-hole of two sliders 323 is passed respectively at the feed bar 324 both ends, and slider 323 can move in the guide slot of second support column 326 and first support column 321 to drive feed bar 324 and reciprocate, arrange line pole 325 top processing and have first through-hole, feed bar 324 passes first through-hole, makes arrange line pole 325 can slide along the feed bar, arrange line pole 325 bottom processing have combined type connect through-hole namely third through-hole 325.2, third through-hole 325.2 cooperatees with protruding axle 319.1 on the drive seat 319 of winding displacement drive assembly 31. The processing has 3 rectangular second through-holes in this embodiment winding displacement pole 325, and the quantity of the cable quantity increase or decrease second through-hole of winding displacement can be carried out as required in practical application, installs 1 pair wire clamping wheel 325.1 in every through-hole, and the cable passes the clearance between 1 pair wire clamping wheel 325.1 of winding displacement pole 325. When the driving seat 319 of the wire arranging driving assembly 31 rotates, the wire arranging rod 325 is driven to move left and right along the light bar 324, so that the wire arranging rod 325 is driven to reciprocate left and right, and a cable arranged between the wire clamping wheels 325.1 of the wire arranging rod 325 reciprocates left and right to realize the wire arranging function.

Claims

1. A multi-cable arranging device is characterized by comprising a winding component (2) for synchronously winding a plurality of cables on corresponding winding drums, a wire arranging component (3) for enabling the cables to do reciprocating motion in the horizontal direction so as to enable the cables to be arranged evenly and smoothly, and a bottom plate (1) for mounting the winding component and the wire arranging component; the flat cable component (3) comprises a flat cable execution component (32) for driving a cable to reciprocate left and right and a flat cable driving component (31) for providing power to drive the flat cable execution component to operate; the flat cable driving component (31) comprises a flat cable motor (311) for providing power and a flat cable speed reducer (312) for controlling the running speed of a cable, an output shaft of the flat cable motor (311) is connected with an input shaft of the flat cable speed reducer (312) through a coupler, a first upright post (313) and a second upright post (317) are installed on the bottom plate (1), a first chain wheel shaft (314) and a second chain wheel shaft (332) are respectively installed on the first upright post (313) and the second upright post (317), a first flat cable chain wheel (330) is installed at one end of the first chain wheel shaft (314), a second flat cable chain wheel (316) and a third flat cable chain wheel (331) are respectively installed at two ends of the second chain wheel shaft (332), the first flat cable chain wheel (330) and the second flat cable chain wheel (316) are connected through a first flat cable chain (315), an output shaft of the flat cable speed reducer (312) is connected with a fourth flat cable chain wheel (333), the fourth flat cable chain wheel (333) drives the third flat cable chain wheel (331) to rotate through the second flat cable chain (310), the third flat cable chain wheel (331) drives the second chain wheel shaft (332) and the second flat cable chain wheel (316) at the other end of the second flat cable chain wheel to rotate, the second flat cable chain wheel (316) drives the first flat cable chain wheel (330) to rotate through the first flat cable chain (315), the first flat cable chain (315) comprises a chain link with a long pin column (318), and the chain link is fixedly connected with the driving seat (319) through the long pin columns (318) at two ends; the winding displacement executive component (32) comprises a winding displacement rod (325), a feed bar (324), a first support column (321) and a second support column (326) which are provided with guide grooves, a sliding block (323) is installed in each guide groove, telescopic springs (322) are installed at two ends of each sliding block (323) along the direction of each guide groove, through holes are formed in each sliding block (323), through holes in each sliding block (323) are respectively penetrated through two ends of each feed bar (324), the feed bars are driven by the sliding blocks (323) to move along the guide grooves, first through holes used for penetrating the feed bars (324), second through holes used for penetrating cables and third through holes (325.2) used for connecting driving seats are formed in the winding displacement rod (325), the winding displacement rod (325) is driven by the driving seats (319) to reciprocate along the feed bars (324), and wire clamping wheels (325.1) used for clamping the cables are installed in the second through holes.

2. The multiple cable winding displacement device as claimed in claim 1, wherein the winding member comprises a winding motor (21) for providing power, a winding speed reducer (22) connected to an output shaft of the winding motor (21) for adjusting the winding speed, a winding reel (26), a support plate (25) for mounting the winding reel (26), a sprocket (23) for driving the winding reel (26) to rotate, and a chain (24) for connecting the sprocket (23) and the winding speed reducer (22) or adjacent sprockets (23) and driving the sprocket (23) to rotate; the supporting plate (25) is in a step shape, and the winding reel (26) is sequentially installed on the step surface through fasteners.

3. The multiple cable winding displacement device as claimed in claim 2, wherein the number of steps of the support plate (25) and the number of winding drums (26) are determined according to the number of cables to be wound.

4. The multiple cable winding displacement device as claimed in claim 1, wherein the number of the second through holes is determined according to the number of cables to be wound.