CN110444347B - Stretching transmission equipment for efficient twisting of electric wires - Google Patents

Abstract

The utility model belongs to the technical field of wire processing equipment, and particularly relates to stretching transmission equipment for efficient twisting of wires. According to the utility model, the effect of effectively stretching and transmitting stranded wires is achieved by arranging the limiting plate unit, the clamping sphere unit and the inserting adjusting unit above the wire guide wheel. The wire anti-falling structure is reasonable and effective, the wire is not easy to fall off in the stretching and conveying process, the anti-falling structure is simple and convenient to assemble and disassemble, the anti-falling strength is flexible and adjustable, the conveying use is not affected, and the whole stretching and conveying effect is good.

Description

Stretching transmission equipment for efficient twisting of electric wires

Technical Field

The utility model belongs to the technical field of wire processing equipment, and particularly relates to stretching transmission equipment for efficient twisting of wires.

Background

Stranded wire refers to a plurality of wires and cables twisted in a specific direction by winding a plurality of single wires around a specific twisting axis. At stranded wire manufacturing process rear end, need stretch stranded wire, first increase the transposition intensity between the single line, avoid the transposition relation to loosen easily, secondly compress tightly insulating skin at stranded wire skin, avoid insulating skin to appear the problem of fold, consequently just need use wire stretching transmission equipment. The existing wire stretching and conveying equipment generally only comprises two wire guide wheels and two wire tensioning wheels, wherein the two wire guide wheels and the two wire tensioning wheels are used for ensuring that the inner and outer parts of a stranded wire are tensioned in stretching, but the wire is easy to fall off from the wire guide wheels due to the fact that a wire limiting structure is lacking on the wire guide wheels, and the wire stretching and conveying equipment is used for being large in wire tensioning force between the two wire tensioning wheels and generally free of the wire falling problem, so that the wire guiding wheels are urgently needed to be provided with the wire falling-preventing structure on the market.

The utility model discloses a stranded wire stretching device, which comprises a fixed panel, wherein a first wire wheel and a second wire wheel are respectively arranged on the left side and the right side of the upper end of the fixed panel, and a first wire pulling wheel and a second wire pulling wheel are sequentially arranged below the first wire wheel and the second wire wheel; the second wire guiding wheel is higher than the first wire guiding wheel in horizontal position.

However, the stretching device in the patent of the utility model has a problem that the electric wire is easily detached.

Disclosure of Invention

The utility model aims to provide a stretching transmission device for efficient twisting of electric wires, which can achieve the effect of efficient stretching transmission of twisted electric wires by arranging a limiting plate unit, a clamping sphere unit and a splicing adjusting unit above an electric wire guide wheel. The wire anti-falling structure is reasonable and effective, the wire is not easy to fall off in the stretching and conveying process, the anti-falling structure is simple and convenient to assemble and disassemble, the anti-falling strength is flexible and adjustable, the conveying use is not affected, and the whole stretching and conveying effect is good.

The utility model adopts the technical proposal that: the utility model provides a tensile transmission equipment for high-efficient transposition of electric wire, includes the mounting panel, sets up two electric wire take-up pulleys of mounting panel side upper and lower position department, and set up respectively on the mounting panel side and be located two electric wire leading wheels of electric wire take-up pulley top both sides position department, still including setting up on the mounting panel side and be located electric wire leading wheel upper position department is used for right the limiting plate unit that the spacing anti-drop operation was carried out to the stranded electric wire in the electric wire leading wheel wire casing sets up limiting plate unit keep away from mounting panel one end position department with on the electric wire leading wheel side and be used for right the electric wire leading wheel carries out the spacing fixed block sphere unit of axial, and set up the mounting panel side with the limiting plate unit is different from setting up block sphere unit one end position department and be used for limiting plate unit carries out the grafting adjustment unit of lift adjustment.

The further preferable technical scheme is as follows: and the lower surface of the limiting plate unit is also provided with a roller unit for vertically limiting and circularly guiding the loosened and lifted stranded wires.

The further preferable technical scheme is as follows: the limiting plate unit comprises a lower pressing plate body, a plug hole arranged on the lower pressing plate body and at a position far away from one side of the clamping sphere unit, and a balance block arranged on the lower pressing plate body and at a position far away from one side end of the clamping sphere unit; the plug-in adjusting unit comprises an upper end plate arranged on the side surface of the mounting plate, a connecting column arranged on the lower surface of the upper end plate and plug-in arranged on the plug-in hole, a jack-up spring sleeved on the connecting column and used for jacking up the lower pressure plate body downwards on the upper end plate, and an adjusting nut which is arranged on the connecting column and located below the lower pressure plate body and used for jacking up the lower pressure plate body in a threaded manner.

The further preferable technical scheme is as follows: the clamping sphere unit comprises a fixed plate arranged on the lower surface of one side of the lower pressure plate body, a transverse mounting hole arranged on the fixed plate, a mounting rod arranged on the transverse mounting hole in a plugging manner, a clamping sphere arranged on the mounting rod and close to one end of the wire guide wheel, and an annular channel arranged on the circular side surface of the wire guide wheel and used for axially limiting the wire guide wheel on the roller shaft in a clamping manner.

The further preferable technical scheme is as follows: the clamping sphere unit further comprises a limiting fixed plate arranged on the side face of the fixed plate, a limiting circular plate arranged on the outer side end of the mounting rod, and an arc notch which is arranged on the upper surface of the limiting fixed plate and used for axially limiting the limiting circular plate with an arc edge.

The further preferable technical scheme is as follows: the roller unit comprises a roller mounting groove which is arranged on the lower surface of the lower pressing plate body and is positioned above the wire guide wheel groove, roller shafts which are respectively arranged on two sides of the roller mounting groove, and a limiting roller which is sleeved on the roller shafts and is used for limiting the lower part of the lifted stranded wire.

The further preferable technical scheme is as follows: the roller unit further comprises fixed magnet rings which are sleeved on the roller shaft and respectively arranged on two side surfaces of the roller mounting groove, and roller magnet rings which are respectively bonded on two annular side surfaces of the limiting roller and are used for distributing a plurality of limiting rollers at intervals in a mutual magnetic repulsion mode.

The further preferable technical scheme is as follows: the roller unit also comprises a jacking groove arranged on the inner ring surface of the limiting roller, a spring column arranged in the jacking groove, jacking plates arranged on the spring column in a sleeved mode, roller mounting plates respectively arranged on two sides of the jacking plates, and roller shafts respectively arranged on the two roller mounting plates and used for rolling shaft rollers on the roller shafts, wherein the two ends of the spring column are provided with holes in a sleeved mode, the jacking plates are arranged on the spring column in a sleeved mode, the springs are used for jacking the jacking plates in the wheel, and the roller mounting plates are respectively arranged at the two sides of the jacking plates.

The further preferable technical scheme is as follows: the number of the jacking grooves is 4-6, and the jacking grooves are arranged on the inner ring surface of the limiting roller at intervals in a uniform circumferential arrangement mode.

The further preferable technical scheme is as follows: the movable end of the spring column opposite to the fixed end is in threaded connection with a head nut for clamping and limiting the sleeved jacking plate.

According to the utility model, the effect of effectively stretching and transmitting stranded wires is achieved by arranging the limiting plate unit, the clamping sphere unit and the inserting adjusting unit above the wire guide wheel. The wire anti-falling structure is reasonable and effective, the wire is not easy to fall off in the stretching and conveying process, the anti-falling structure is simple and convenient to assemble and disassemble, the anti-falling strength is flexible and adjustable, the conveying use is not affected, and the whole stretching and conveying effect is good.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic diagram of a position structure of a limiting plate unit in the present utility model.

Fig. 3 is a schematic view of a position structure of the engaging ball unit in the present utility model.

Fig. 4 is a schematic view of a position structure of a roller unit according to the present utility model.

FIG. 5 is a schematic view of the positions of the fixed magnet ring and the roller magnet ring according to the present utility model.

Fig. 6 is a schematic diagram of the position structure of the shaft roller in the present utility model.

Detailed Description

The following description is of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model.

Examples: as shown in fig. 1, 2, 3, 4, 5 and fig. 6, a stretching and conveying device for efficient twisting of electric wires comprises a mounting plate 11, two electric wire tensioning wheels 12 arranged at the upper and lower positions of the side surface of the mounting plate 11, two electric wire guide wheels 13 respectively arranged on the side surface of the mounting plate 11 and positioned at the positions of two sides above the electric wire tensioning wheels 12, a limiting plate unit 1 arranged on the side surface of the mounting plate 11 and positioned at the position above the electric wire guide wheels 13 and used for limiting and anti-falling operation of twisted electric wires 14 in a wire slot of the electric wire guide wheels 13, a clamping ball unit 2 arranged at the position of one end of the limiting plate unit 1 far away from the mounting plate 11 and on the side surface of the electric wire guide wheels 13 and used for axially limiting and fixing the electric wire guide wheels 13, and a plug-in adjusting unit 3 arranged at the side surface of the mounting plate 11 and the position of one end of the clamping ball unit 2 and used for lifting and adjusting the limiting plate unit 1.

In this embodiment, after the stranded wire sequentially passes through the wire guiding wheel 13, the two wire tensioning wheels 12 and the remaining wire guiding wheel 13, the operations of strengthening the stranding and packing the insulating sheath are completed, so that the overall high quality effect of the stranded wire is ensured.

The limiting plate unit 1 is used for forming a relatively closed rope hole with a rope groove of the wire guide wheel 13 to prevent the stranded wire 14 from falling off from the wire guide wheel 13 as soon as the stranded wire 14 is loosened during paying off or winding up, the clamping ball unit 2 is used for axially limiting and fixing the wire guide wheel 13, so that the wire guide wheel 13 cannot shake on a roller shaft, a wheel limiting structure on the roller shaft is omitted, the inserting adjusting unit 3 is used for lifting and adjusting the limiting plate unit 1, and the limiting plate unit 1 has a flexible adjusting effect of being close to, strong in blocking, far away from and small in blocking on blocking limiting action of the stranded wire 14.

The lower surface of the limiting plate unit 1 is also provided with a roller unit 4 for vertically limiting and circularly guiding the loosened and lifted stranded wires 14.

In this embodiment, the roller unit 4 is disposed, so that the problem that the insulating sheath is damaged due to sliding friction on the lower surface of the limiting plate unit 1 by the stranded wire 14 is avoided, and the dual purposes of stranded reinforcement and insulating sheath tightening are achieved by rolling friction.

The limiting plate unit 1 comprises a lower pressing plate body 101, an inserting hole 102 arranged on the lower pressing plate body 101 at a position far away from one side of the clamping sphere unit 2, and a balancing block 103 arranged on the lower pressing plate body 101 at a position far away from one side end of the clamping sphere unit 2; the plugging adjustment unit 3 comprises an upper end plate 301 arranged on the side surface of the mounting plate 11, a connecting column 302 arranged on the lower surface of the upper end plate 301 and plugged into the plugging hole 102, a jacking spring 303 sleeved on the connecting column 302 and used for jacking up the lower pressure plate body 101 downwards on the upper end plate 301, and an adjustment nut 304 screwed on the connecting column 302 and positioned below the lower pressure plate body 101 and used for jacking up the lower pressure plate body 101.

In this embodiment, the jack-up spring 303 is compressed upward by the adjusting nut 304, so as to ensure that the lower pressing plate 101 has a flexible and adjustable vertical height, and one end that will not move downward after adjustment, and a certain rising margin is provided when the stranded wire 14 is lifted up slightly, so as to ensure that the stranded wire 14 is effectively blocked and limited without being completely propped against and fixed.

In addition, the density of the balance weight 103 is greater than that of the lower pressing plate body 101, so that the lower pressing plate body 101 can slide vertically and directly on the connecting column 302, and the inclination phenomenon is avoided.

The clamping sphere unit 2 comprises a fixed plate 201 arranged on the lower surface of one side of the lower pressure plate body 101, which is far away from the mounting plate 11, a transverse mounting hole 202 arranged on the fixed plate 201, a mounting rod 203 arranged on the transverse mounting hole 202 in a plugging manner, a clamping sphere 204 arranged on the mounting rod 203 and close to one end position of the wire guide wheel 13, and an annular groove 205 arranged on the circular side surface of the wire guide wheel 13 and used for axially limiting the wire guide wheel 13 on the roller shaft in a way of clamping and accommodating the clamping sphere 204. The engaging sphere unit 2 further comprises a limit fixing plate 206 arranged on the side surface of the fixing plate 201, a limit circular plate 207 arranged on the outer side end of the mounting rod 203, and an arc notch 208 arranged on the upper surface of the limit fixing plate 206 and used for axially limiting the limit circular plate 207 with an arc edge.

In this embodiment, the engagement ball unit 2 is used to ensure that the wire guiding wheel 13 does not shake on the roller shaft, aligns with the roller unit 4, and omits an end limiting structure on the roller shaft, and the wire guiding wheel 13 does not fall off from the roller shaft.

The cross section of the arc notch 208 is a major arc bow with a central angle larger than 180 °, the arc notch 208 can vertically rotate on the clamping sphere 204, and the clamping sphere 204 is connected with the limit circular plate 207 to also rotate on the arc notch 208 without harm, so that the arc notch 208 and the clamping sphere 204 are axially clamped, and lubricating oil is added into the arc notch 208.

The roller unit 4 comprises a roller mounting groove 401 arranged on the lower surface of the lower pressing plate body 101 and positioned above the wire groove of the wire guide wheel 13, roller shafts 402 with two ends respectively arranged on two sides of the roller mounting groove 401, and a limit roller 403 sleeved on the roller shafts 402 and used for limiting the lower part of the lifted stranded wire 14. The roller unit 4 further comprises fixed magnet rings 404 sleeved on the roller shaft 402 and respectively arranged on two sides of the roller mounting groove 401, and roller magnet rings 405 respectively adhered and arranged on two annular sides of the limiting roller 403 and used for distributing a plurality of the limiting rollers 403 at intervals in a mutual magnetic repulsion mode. The roller unit 4 further comprises a jacking groove 406 arranged on the inner ring surface of the limiting roller 403, a spring column 407 arranged in the jacking groove 406, jacking plates 408 with holes at two ends and sleeved on the spring column 407, in-wheel springs 409 sleeved on the spring column 407 and used for jacking the jacking plates 408, roller mounting plates 410 respectively arranged at two side positions of the jacking plates 408, and shaft rollers 411 respectively arranged on the two roller mounting plates 410 and used for rolling on the roller shafts 402. The number of the jacking grooves 406 is 4-6, and the jacking grooves are arranged on the inner ring surface of the limit roller 403 at intervals according to a uniform circumferential arrangement mode. The movable end of the spring post 407, which is different from the fixed end, is in threaded connection with a tip nut for clamping and limiting the sleeved jacking plate 408.

In this embodiment, the usage method and advantages of the roller unit 4 are as follows:

first, when the stranded wire 14 passes through the wheel groove of the wire guiding wheel 13, the upward friction is avoided, and even the lower pressing plate body 101 is partially jacked up, at this time, the roller unit 4, that is, the limit roller 403, is arranged, and the friction mode can be changed from sliding friction to rolling friction, so that the abrasion degree of the insulating skin of the stranded wire is greatly reduced, which is just the beneficial effect of the roller unit 4.

Second, the repulsive magnetic force between the roller magnet rings 405 or between the roller magnet rings and the fixed magnet rings 404 can ensure that all the limiting rollers 403 are uniformly distributed at intervals, so that friction and damage can not occur, and the spacing between the twisted wires 14 is thicker than that between the limiting rollers 403, so that the twisted wires 14 are prevented from being blocked.

Thirdly, the limiting roller 403 further has an elastic structure at the in-wheel spring 409 and a second elastic structure at the jack-up spring 303 on the roller shaft 402, so that the limiting roller 403 has the dual advantages of sufficient strength and elastic deformation space for blocking and limiting the stranded wire 14, and the stranded wire 14 is prevented from being broken by a fixed limiting manner by an elastic limiting manner, and of course, when the in-wheel spring 409 and the jack-up spring 303 are compressed for a long time, the height of the stranded wire 14 needs to be adjusted downwards, so that the stranded wire 14 is prevented from being excessively worn by friction.

Fourth, the in-wheel spring 409 jacks up the shaft roller 411 outwards in the jack-up slot 406, and the four shaft rollers 411 ensure that the limit roller 403 has a "soft" installation effect, that is, installation strength, that is, blocking limit strength is enough and deformation allowance is also provided on the roller shaft 402.

Fifth, the shaft roller 411 has an elastic jacking function at the jacking plate 408, and a limiting and anti-falling function at the end nut, so that the shaft roller 411 is guaranteed to be effectively elastically jacked on the annular surface of the roller shaft 402, and further has an elastic limiting function on the stranded wire 14, and finally, stable wire transmission of the stretching and conveying device is guaranteed.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various modifications may be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model. These are all non-inventive modifications which are intended to be protected by the patent laws within the scope of the appended claims.

Claims (5)

1. The utility model provides a tensile transmission equipment for high-efficient transposition of electric wire, includes mounting panel (11), sets up two electric wire take-up pulleys (12) of mounting panel (11) side upper and lower position department to and set up respectively on mounting panel (11) side and be located two electric wire leading wheels (13) of electric wire take-up pulley (12) top both sides position department, its characterized in that: the wire guiding device also comprises a limiting plate unit (1) which is arranged on the side surface of the mounting plate (11) and is positioned above the wire guiding wheel (13) and used for limiting and preventing a stranded wire (14) in a wire slot of the wire guiding wheel (13), a clamping sphere unit (2) which is arranged on the side surface of the wire guiding wheel (13) and is used for axially limiting and fixing the wire guiding wheel (13) and a plug-in adjusting unit (3) which is arranged on the side surface of the mounting plate (11) and is different from the position of one end of the clamping sphere unit (2) and is used for lifting and adjusting the limiting plate unit (1),

the lower surface of the limiting plate unit (1) is also provided with a roller unit (4) for vertically limiting and circularly guiding the loosened and lifted stranded wire (14),

the limiting plate unit (1) comprises a lower pressing plate body (101), a plug hole (102) arranged on the lower pressing plate body (101) at a position far away from one side of the clamping sphere unit (2), and a balance block (103) arranged on the lower pressing plate body (101) at a position far away from one end of the clamping sphere unit (2); the plug-in adjusting unit (3) comprises an upper end plate (301) arranged on the side surface of the mounting plate (11), a connecting column (302) arranged on the lower surface of the upper end plate (301) in a plug-in manner and arranged on the plug-in hole (102) in a plug-in manner, a jack-up spring (303) which is sleeved on the connecting column (302) and used for jacking up the lower pressure plate body (101) downwards on the upper end plate (301), and an adjusting nut (304) which is arranged on the connecting column (302) in a position below the lower pressure plate body (101) in a screwed manner and used for jacking up the lower pressure plate body (101),

the clamping sphere unit (2) comprises a fixed plate (201) arranged on the lower surface of one side of the lower pressure plate body (101) away from the mounting plate (11), a transverse mounting hole (202) arranged on the fixed plate (201), a mounting rod (203) inserted and arranged on the transverse mounting hole (202), a clamping sphere (204) arranged on the mounting rod (203) and close to one end position of the wire guide wheel (13), and an annular channel (205) arranged on the circular side surface of the wire guide wheel (13) and used for axially limiting the wire guide wheel (13) on the roller shaft in a way of clamping and accommodating the clamping sphere (204),

the clamping sphere unit (2) also comprises a limit fixing plate (206) arranged on the side surface of the fixing plate (201), a limit circular plate (207) arranged on the outer side end of the mounting rod (203), and an arc notch (208) which is arranged on the upper surface of the limit fixing plate (206) and is used for axially limiting the limit circular plate (207) with an arc edge,

the roller unit (4) comprises a roller mounting groove (401) which is arranged on the lower surface of the lower pressing plate body (101) and is positioned above the wire groove of the wire guide wheel (13), roller shafts (402) which are respectively arranged on two sides of the roller mounting groove (401) at two ends, and a limit roller (403) which is sleeved on the roller shafts (402) and is used for limiting the lower part of the lifted stranded wire (14).

2. A tension transmission apparatus for efficient twisting of electric wires according to claim 1, wherein: the roller unit (4) further comprises fixed magnet rings (404) which are sleeved on the roller shaft (402) and are respectively arranged on two side surfaces of the roller mounting groove (401), and roller magnet rings (405) which are respectively adhered and arranged on two annular side surfaces of the limiting roller (403) and are used for distributing a plurality of limiting rollers (403) at intervals in a mutual magnetic repulsion mode.

3. A tension transmission apparatus for efficient twisting of electric wires according to claim 1, wherein: the roller unit (4) further comprises a jacking groove (406) arranged on the inner annular surface of the limiting roller (403), a spring column (407) arranged in the jacking groove (406), jacking plates (408) which are provided with holes at two ends and sleeved on the spring column (407), in-wheel springs (409) which are sleeved on the spring column (407) and used for jacking the jacking plates (408), roller mounting plates (410) which are respectively arranged at two side positions of the jacking plates (408), and roller shafts which are respectively arranged on the two roller mounting plates (410) and used for rolling shaft body rollers (411) on the roller shafts (402).

4. A tension transmission apparatus for efficient twisting of electric wires according to claim 3, wherein: the number of the jacking grooves (406) is 4-6, and the jacking grooves are arranged on the inner ring surface of the limiting roller (403) at intervals in a uniform circumferential arrangement mode.

5. A tension transmission apparatus for efficient twisting of electric wires according to claim 3, wherein: the movable end of the spring column (407) which is different from the fixed end is in threaded connection with a head nut used for clamping and limiting the sleeved jacking plate (408).