CN113998532A

CN113998532A - Power cable pressing, pasting and winding device and method

Info

Publication number: CN113998532A
Application number: CN202111395488.9A
Authority: CN
Inventors: 刘筠筠; 张军
Original assignee: Zhengzhou University of Science and Technology
Current assignee: Zhengzhou University of Science and Technology
Priority date: 2021-11-23
Filing date: 2021-11-23
Publication date: 2022-02-01

Abstract

The invention provides a power cable compressing, applying and winding device and a method, which solve the problems that cables are wound on a cable roller disorderly, so that the cables on the cable roller are disorderly and are clamped when being drawn out; the cable roller is arranged between the two disc racks in a rotating mode, the two disc racks are respectively provided with a lifting slide block in an up-and-down sliding mode, a compression reciprocating screw rod and a positioning slide rod are rotated between the two lifting slide blocks, a compression slide block in threaded connection with the compression reciprocating screw rod is slid on the positioning slide rod, the bottom of the compression slide block is provided with a compression adjusting groove, compression rods are respectively rotated on the left side and the right side of the compression adjusting groove, compression wheels are respectively rotated at the bottom ends of the two compression rods, and one side, close to the compression rods, of each compression wheel is connected with a side blocking piece; according to the invention, the cable can be orderly and tightly wound on the cable roller through the two reciprocating compression wheels, and the compression wheels can move upwards along with the number of wound layers of the cable so as to be always compressed on the cable.

Description

Power cable pressing, pasting and winding device and method

Technical Field

The invention relates to the technical field of power cables, in particular to a power cable pressing, pasting and winding device and method.

Background

The cable is made of one or more mutually insulated conductors or an outer insulating protection layer and is used for transmitting power or signals to a wire at another position, the diameter of the cable is large, so that the weight of the cable is far larger than that of a common wire under the same length, great inconvenience exists in the process of storing and using the cable, a tool commonly used at present is a cable roller, the cable is wound by the cable roller for storage, and the subsequent use of the cable is facilitated.

When the cable is wound by using the cable roller, the problem that the cable is wound on the cable roller in a multilayer ordered and tight manner, which is difficult to be carelessly wound on the cable roller, is caused in practical operation, the cable on the cable roller is disordered, and the problem of jamming often occurs when the disordered cable is drawn out, thereby undoubtedly increasing the operation difficulty for work.

Moreover, when the cable roller winds the cable, the cable can be dragged on the ground, dust and impurities are adhered to the outer surface of the cable inevitably, the dust and the impurities adhered to the surface of the cable generate friction with the outer surface of the cable in the winding process, and therefore the outer rubber ring of the cable is worn out, and the service life of the cable is influenced.

Therefore, the present invention provides a power cable pressing, applying and winding device and method to solve the above problems.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the power cable compressing, applying and winding device and the method, which effectively solve the problems that the cable is wound on the cable roller disorderly in the actual operation, the cable on the cable roller is disorderly and is blocked when being drawn out; dust and impurities adhered to the surface of the cable cause the rubber ring of the cable to be worn out, thereby affecting the service life of the cable.

A power cable pressing, pasting and winding device and a method thereof comprise two triangular supports with bilaterally symmetrical positions, and are characterized in that the tops of the two triangular supports are respectively and fixedly connected with a disc rack, a cable roller wound with a cable is rotatably arranged between the two disc racks, the tops of the two disc racks are respectively and fixedly connected with a lifting plate, lifting slide blocks are respectively and vertically slidably arranged on the two lifting plates, a pressing reciprocating screw rod is rotatably arranged between the two lifting slide blocks, a positioning slide rod is fixedly arranged between the two lifting slide blocks, pressing slide blocks in threaded connection with the pressing reciprocating screw rod are respectively and horizontally slidably arranged on the positioning slide rods, a pressing adjusting groove is formed in the bottom of each pressing slide block, pressing rods are respectively and rotatably arranged on the left side and the right side of the pressing adjusting groove, pressing wheels pressed on the cable are respectively and rotatably arranged at the bottom ends of the two pressing rods, and one side of each pressing wheel, which is close to the pressing rod, is integrally connected with a side blocking piece.

Preferably, the top of compressing tightly the pole respectively fixedly connected with switch round pin, it has the switching groove to run through between the left and right sides face to compress tightly the slider, switching rod that switch between the round pin is located to switching inslot horizontal slidable mounting, fixedly connected with inclined plane opposite direction's wedge respectively on the front and back both sides face of switching rod, two compress tightly the pole and compress tightly the extension spring with compressing tightly between the inner wall in adjustment tank.

Preferably, two the left and right sides of lifter plate has run through the lift groove respectively, and two lifting slide block slidable mounting are in two lift inslot respectively, and fixedly connected with lifting spring between the top of every lift spout and the top of lift groove.

Preferably, the left end and the right end of the compression reciprocating screw rod are respectively and coaxially provided with a compression screw rod chain wheel, the two ends of the cable roller are respectively and coaxially provided with a cable roller chain wheel, the two sides of the disc rack are respectively provided with a torsion spring rod in a swinging mode, the other ends of the torsion spring rods are respectively and rotatably provided with a tension wheel, a compression chain is connected among the compression screw rod chain wheel, the cable roller chain wheel and the tension wheel which are positioned on the same side, and the cable roller chain wheel is connected with a driving motor fixed on the triangular support through a driving chain.

It is preferred, two fixed mounting has the line slide of receiving between the front side of disc frame, it has the line spout of receiving to run through between the upper and lower side of receiving the line slide, receive the line spout internal rotation and install the reciprocal lead screw of receiving the line, it has the line slider of receiving with the reciprocal lead screw threaded connection of line to receive the line slidable mounting from left to right in the spout, receive penetrating receipts line box around the bottom fixedly connected with of line slider, receive the line box in unidirectional rotation and install two and arrange from top to bottom and receive the line cleaning wheel, two it all to have to the sunken clean semicircle ring in axle center on the periphery of receiving the line cleaning wheel, the cable is followed two pass between the clean semicircle ring.

Preferably, the two take-up cleaning wheels are respectively and coaxially connected with a ratchet wheel positioned on the left side of the take-up box, and a torsion spring pawl matched with the two ratchet wheels is respectively and rotatably installed on the left side surface of the take-up box.

Preferably, a take-up chain wheel set is connected between the take-up reciprocating screw rod and the cable roller.

According to the invention, the two pressing wheels which reciprocate left and right and can press the cable can tightly wind the cable on the cable roller in order, and the pressing wheels can move upwards along with the number of layers wound by the cable, so that the pressing wheels are always pressed on the cable; the pressing wheel is matched with the side baffle plate, so that the cable can be tightly attached to the cable beside the pressing wheel when being wound; when the cable is drawn out from the cable roller, the cable can drive the two take-up cleaning wheels to rotate, when the cable is wound, the two take-up cleaning wheels do not rotate under the action of the ratchet wheel and the pawl, and the cable can rub between the two take-up cleaning wheels, so that dust and impurities on the cable can be scraped off;

the invention has clear design thought, simple structure, convenient operation and strong practicability, and provides great convenience for winding the power cable.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view illustrating the cooperation of the pinch roller and the cable when the cable is wound from left to right in the present invention.

Fig. 3 is a schematic plan view of the pressing wheel at the front side and the cable in cooperation when the cable is wound from left to right in the present invention.

Fig. 4 is a perspective view of the pinch roller on the rear side engaging the cable as the cable is wound from right to left in accordance with the present invention.

Fig. 5 is a schematic view of the installation of the switching lever, two wedge blocks and the switching pin of the present invention.

Fig. 6 is a perspective view of the cable of the present invention passing through the take-up box.

Fig. 7 is a schematic view of the installation of two take-up cleaning wheels of the present invention.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 7. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

The embodiment I is a power cable compressing, applying and winding device and a power cable compressing, applying and winding method, the device comprises two triangular supports 1 which are bilaterally symmetrical, the two triangular supports 1 are fixedly connected through a cross beam and can be placed on the ground for use, and the device is characterized in that the tops of the two triangular supports 1 are respectively and fixedly connected with a disc frame 2, a cable roller 3 wound with a cable 03 is rotatably arranged between the two disc frames 2, the cable roller 3 can wind and release the cable 03 when rotating between the two disc frames 2, the tops of the two disc frames 2 are respectively and fixedly connected with a lifting plate 4, lifting slide blocks 5 are respectively and vertically slidably arranged on the two lifting plates 4, the lifting slide blocks 5 can vertically slide on the lifting plates 4, a reciprocating compressing screw rod 6 positioned above the cable roller 3 is rotatably arranged between the two lifting slide blocks 5, the pressing reciprocating screw rod 6 and the two lifting slide blocks 5 can slide up and down simultaneously, a positioning slide rod 7 is fixedly arranged between the two lifting slide blocks 5, the two lifting slide blocks 5 can drive the positioning slide rod 7 to slide synchronously when sliding up and down, the positioning slide rod 7 is provided with a pressing slide block 8 which is in threaded connection with the pressing reciprocating screw rod 6 in a left-right sliding mode, the pressing reciprocating screw rod 6 can drive the pressing slide block 8 to slide left and right on the positioning slide rod 7 when rotating so as to adjust the position of the pressing slide block 8 in the left-right direction above the cable roller 3, the bottom of the pressing slide block 8 is provided with a pressing adjusting groove 9, the left side and the right side of the pressing adjusting groove 9 are respectively rotatably provided with pressing rods 10, the two pressing rods 10 are respectively positioned at the rear end of the left side surface and the front end of the right side surface of the pressing adjusting groove 9, and the other ends of the two pressing rods 10 can swing on the pressing adjusting groove 9, the bottom ends of the two pressing rods 10 are respectively rotatably provided with a pressing wheel 11 pressed on the cable 03, when the cable roller 3 is rotated to wind the cable 03, the pressing wheel 11 is tightly pressed above the cable 03, so that the cable 03 is tightly pasted on the cable roller 3, along with the process that the cable 03 is wound at one end of the cable roller 3 to the other end, the pressing slider 8 and the pressing wheel 11 are driven by the pressing reciprocating screw rod 6 to move towards the other end of the cable roller 3, so that the pressing wheel 11 can press the cable 03 all the time, one side of each pressing wheel 11 close to the pressing rod 10 is integrally connected with a side blocking piece 12, the side blocking piece 12 can prevent the cable 03 from being separated from one side of the pressing wheel 11, and meanwhile, the cable 03 and the cable 03 beside the pressing wheel 11 can be pasted, as shown in figure 2, when the cable 03 is wound on the cable roller 3 from the left end to the right end, the pressing wheel 11 positioned on the front side acts on the cable 03, the side blocking piece 12 is positioned at the right side of the cable 03 and blocks the cable 03; as shown in fig. 4, when the cable 03 is wound on the cable roll 3 from the right end to the left end, the pinch roller 11 located at the rear side acts on the cable 03, and the side stopper 12 located at the left side of the cable 03 blocks the cable 03, so that the cable 03 can be pressed, applied and wound on the cable roll 3 by alternately switching the two pinch rollers 11.

In the second embodiment, on the basis of the first embodiment, the top parts of the two pressing rods 10 are fixedly connected with a switching pin 13 respectively, the pressing rod 10 can drive the switching pin 13 to swing when swinging, and similarly, the switching pin 13 can drive the pressing rod 10 to swing when swinging, a switching groove 14 penetrates through the left side surface and the right side surface of the pressing slide block 8, a switching rod 15 positioned between two switching pins 13 is arranged in the switching groove 14 in a left-right sliding mode, the length of the switching rod 15 is greater than the width of the pressing slider 8, the front side surface and the rear side surface of the switching rod 15 are respectively and fixedly connected with wedge blocks 16 with opposite inclined plane directions, the switching rod 15 can drive the two wedge blocks 16 to move left and right when sliding left and right, a pressing tension spring 17 is connected between the two pressing rods 10 and the inner wall of the pressing adjusting groove 9, and the pressing tension spring 17 can be elongated when the pressing rods 10 swing downwards;

as shown in fig. 5, when the switching lever 15 is slid to the right, the wedge 16 located at the front side of the switching lever 15 can push the switching pin 13 at the front side forward by its inclined surface, so that the lower end of the pressing lever 10 located at the front side is moved downward, so that the pressing wheel 11 at the front side can be pressed against the cable 03; when the switching lever 15 slides to the left, the wedge block 16 located at the rear side of the switching lever 15 can push the switching pin 13 at the rear side backward through its inclined surface, so that the lower end of the pressing lever 10 located at the rear side moves downward, so that the pressing wheel 11 at the rear side can press on the cable 03;

when the pressing slider 8 moves from left to right to the rightmost end, the right end of the switching rod 15 abuts against the right lifting slider 5, so that the switching rod 5 is pushed leftwards, the pressing wheel 11 on the front side is lifted upwards under the elastic force of the pressing tension spring 17, and the pressing wheel 11 on the rear side is lowered downwards and pressed on the cable 03; on the contrary, when the pressing slider 8 moves from right to left to the leftmost end, the left end of the switching rod 15 will abut against the left lifting slider 5, so as to push the switching rod 5 to the right, so that the pressing wheel 11 at the rear side is lifted upwards under the elastic force of the pressing tension spring 17, and the pressing wheel 11 at the front side is pressed on the cable 03 downwards, so that the two pressing wheels 11 can be switched.

In the third embodiment, on the basis of the second embodiment, the two lifting plates 4 are respectively provided with a lifting groove 18 through the left side and the right side thereof, the two lifting sliders 5 are respectively slidably mounted in the two lifting grooves 18, and a lifting spring 19 is fixedly connected between the top of each lifting groove 5 and the top of each lifting groove 18, when the number of layers of the cable 03 wound on the cable roll 3 is increased, the pressing wheel 11 also moves upwards along with the increase of the number of layers of the cable 03, so that the lifting reciprocating screw 6 drives the two lifting sliders 5 to slide upwards, and the two lifting springs 19 are compressed to store force and provide downward pressing force to the pressing wheel 11.

In the fourth embodiment, on the basis of the third embodiment, the left and right ends of the reciprocating compressing screw rod 6 are respectively and coaxially provided with a compressing screw rod sprocket 20, the two ends of the cable roller 3 are respectively and coaxially provided with a cable roller sprocket 21, the side surfaces of the two disc frames 2 are respectively and swingably provided with a torsion spring rod 22, a torsion spring is arranged at a rotating shaft of the torsion spring rod 22, so that the two torsion spring rods 22 can rotate on the two disc frames 2 and can also be reset under the action of the torsion spring, the other ends of the two torsion spring rods 22 are respectively and rotatably provided with a tension pulley 23, a compression chain 24 is connected between the compressing screw rod sprocket 20, the cable roller sprocket 21 and the tension pulley 23 which are positioned on the same side, the cable roller 3 can drive the reciprocating compressing screw rod 6 to rotate through the compression chain 24 when rotating, when the reciprocating compressing screw rod 6 moves upwards, the tension pulley 23 can tension the compression chain 24, the cable roller chain wheel 21 is connected with a driving motor 26 fixed on the triangular support 1 through a driving chain 25, the driving motor 26 is connected with a power supply and a controller, and the driving motor 26 can drive the cable roller 3 to rotate through the driving chain 25.

In the fifth embodiment, on the basis of the first embodiment, a take-up sliding plate 27 is fixedly installed between the front sides of the two disc racks 2, a take-up sliding groove 28 penetrates through the upper side surface and the lower side surface of the take-up sliding plate 27, a take-up reciprocating screw 29 is rotatably installed in the take-up sliding groove 28, a take-up sliding block 30 in threaded connection with the take-up reciprocating screw 29 is installed in the take-up sliding groove 28 in a left-right sliding manner, the take-up reciprocating screw 29 can drive the take-up sliding block 30 to slide in the take-up sliding groove 28 in a left-right reciprocating manner when rotating, a take-up box 31 which is through in the front and the rear is fixedly connected to the bottom of the take-up sliding block 30, the take-up box 31 can slide synchronously along with the take-up sliding block 30, two take-up cleaning wheels 32 which are arranged up in an up unidirectional manner are installed in the take-up box 31, the two take-up cleaning wheels 32 can only rotate in a unidirectional manner, and semi-circular cleaning rings 33 which are recessed toward the axis are respectively arranged on the circumferential surfaces of the two take-up cleaning wheels 32, the inner side surfaces of the cleaning semicircular rings 33 are connected with rubber or sponge, as shown in fig. 7, when the two take-up cleaning wheels 32 are installed, the outline surfaces of the two take-up cleaning wheels 32 are contacted together, so that a gap between the two cleaning semicircular rings 33 forms a circle, the cable 03 penetrates through the gap between the two cleaning semicircular rings 33, so that the rubber or sponge connected to the inner side surfaces of the two cleaning semicircular rings 33 is tightly extruded on the outer surface of the cable 03, when the cable 03 is released outwards, the forward movement of the cable 03 can drive the two take-up cleaning wheels 32 to rotate, when the cable roller 3 winds the cable 03, the backward movement of the cable 03 cannot drive the two take-up cleaning wheels 32 to rotate, at the moment, the cable 03 can slide between the two take-up cleaning wheels 32, so as to generate friction with the rubber or sponge on the inner side surfaces of the two cleaning semicircular rings 33, and accordingly scrape off dust and impurities on the outer surface of the cable 03, the cable 03 is cleaned on its exterior.

Sixth embodiment, on the basis of fifth embodiment, two receive line cleaning wheels 32 are respectively and coaxially connected with a ratchet wheel 34 located on the left side of the receive line box 31, the ratchet wheel 34 can rotate synchronously with the receive line cleaning wheels 32, a torsion spring pawl 35 matched with the two ratchet wheels 34 is respectively rotatably installed on the left side surface of the receive line box 31, as shown in fig. 7, the receive line cleaning wheel 32 located above can rotate counterclockwise but cannot rotate clockwise, and the receive line cleaning wheel 32 located below can rotate clockwise but cannot rotate counterclockwise, so that cleaning of the cable 03 in fifth embodiment is realized.

Seventh embodiment, on the basis of the fifth embodiment, a wire rewinding chain wheel set 36 is connected between the wire rewinding reciprocating screw 29 and the wire rewinding roller 3, and when the cable roller 3 rotates to wind the cable 03, the wire rewinding reciprocating screw 29 can be driven to rotate by the wire rewinding chain wheel set 36, so that the position of the wire rewinding box 31 can move synchronously with the position of the cable 03 wound on the cable roller 3.

According to the invention, the cable can be orderly and tightly wound on the cable roller through the two pressing wheels which move left and right in a reciprocating manner and can press the cable, and the pressing wheels can move upwards along with the winding thickness of the cable, so that the pressing wheels are always pressed on the cable; the pressing wheel is matched with the side baffle plate, so that the cable can be tightly attached to the cable beside the pressing wheel when being wound; when the cable is drawn out from the cable roller, the cable can drive the two take-up cleaning wheels to rotate, when the cable is wound, the two take-up cleaning wheels do not rotate under the action of the ratchet wheel and the pawl, and the cable can rub between the two take-up cleaning wheels, so that dust and impurities on the cable can be scraped off;

Claims

1. A power cable pressing, sticking, applying and winding device comprises two bilaterally symmetrical triangular supports (1) and is characterized in that the tops of the two triangular supports (1) are respectively and fixedly connected with a disc rack (2), a cable roller (3) wound with a cable (03) is rotatably arranged between the two disc racks (2), the tops of the two disc racks (2) are respectively and fixedly connected with lifting plates (4), lifting slide blocks (5) are respectively and vertically slidably arranged on the two lifting plates (4), a pressing reciprocating screw rod (6) is rotatably arranged between the two lifting slide blocks (5), a positioning slide rod (7) is fixedly arranged between the two lifting slide blocks (5), the positioning slide rod (7) is provided with a pressing slide block (8) which is in threaded connection with the pressing reciprocating screw rod (6) in a leftward and rightward sliding mode, the bottom of the pressing slide block (8) is provided with a pressing adjusting groove (9), the left and right sides that compress tightly adjustment tank (9) rotate respectively and install compressing tightly pole (10), two the bottom of compressing tightly pole (10) rotates respectively and installs pinch roller (11) of pressing on cable (03), every one side body coupling that pinch roller (11) are close to compressing tightly pole (10) has side separation blade (12).

2. The device and the method for tightly pressing, applying and winding the power cable according to claim 1, wherein switching pins (13) are fixedly connected to the tops of the two pressing rods (10), a switching groove (14) penetrates through the left side surface and the right side surface of the pressing slider (8), a switching rod (15) positioned between the two switching pins (13) is slidably mounted in the switching groove (14) from left to right, wedge blocks (16) with opposite inclined surfaces are fixedly connected to the front side surface and the rear side surface of the switching rod (15), and a pressing tension spring (17) is connected between the two pressing rods (10) and the inner wall of the pressing adjusting groove (9).

3. The device and the method for tightly pressing, applying and winding the power cable according to claim 2, wherein the two lifting plates (4) are respectively provided with a lifting groove (18) at the left side and the right side, the two lifting sliders (5) are respectively slidably mounted in the two lifting grooves (18), and a lifting spring (19) is fixedly connected between the top of each lifting groove (5) and the top of each lifting groove (18).

4. The device and the method for tightly applying and winding the power cable according to claim 3, wherein the left end and the right end of the reciprocating compression screw (6) are coaxially provided with compression screw chain wheels (20), the two ends of the cable roll (3) are coaxially provided with cable roll chain wheels (21), the side surfaces of the two disc frames (2) are respectively provided with a torsion spring rod (22) in a swinging manner, the other ends of the two torsion spring rods (22) are respectively provided with a tension wheel (23) in a rotating manner, a compression chain (24) is connected among the compression screw chain wheel (20), the cable roll chain wheel (21) and the tension wheel (23) which are positioned on the same side, and the cable roll chain wheel (21) is connected with a driving motor (26) fixed on the triangular bracket (1) through a driving chain (25).

5. The device and the method for pressing, applying and winding the power cable according to claim 1, wherein a take-up sliding plate (27) is fixedly installed between the front sides of the two disc racks (2), a wire take-up chute (28) penetrates between the upper side surface and the lower side surface of the wire take-up sliding plate (27), a take-up reciprocating screw rod (29) is rotatably arranged in the take-up chute (28), a take-up sliding block (30) in threaded connection with the take-up reciprocating screw rod (29) is arranged in the take-up chute (28) in a left-right sliding manner, the bottom of the take-up sliding block (30) is fixedly connected with a take-up box (31) which is through front and back, two winding-up cleaning wheels (32) which are arranged up and down are arranged in the winding-up box (31) in a unidirectional rotation manner, cleaning semicircular rings (33) which are sunken towards the axis are respectively arranged on the circumferential surfaces of the two winding-up cleaning wheels (32), the cable (03) passes between the two cleaning half-rings (33).

6. The device and the method for tightly pressing, applying and winding the power cable as claimed in claim 5, wherein the two take-up cleaning wheels (32) are respectively and coaxially connected with a ratchet wheel (34) positioned at the left side of the take-up box (31), and the left side surface of the take-up box (31) is respectively and rotatably provided with a torsion spring pawl (35) matched with the two ratchet wheels (34).

7. The device and the method for pressing, applying and winding the power cable as claimed in claim 5, wherein a wire-taking-up chain wheel set (36) is connected between the wire-taking-up reciprocating screw rod (29) and the cable roller (3).