CN211521214U - Coaxial type power cable coiling device - Google Patents

Abstract

The utility model discloses a coaxial power cable coiling device, which comprises a square base; the base is provided with a plurality of track grooves pointing to the center of the square base; the corresponding sliding blocks are correspondingly installed in the track grooves, the rotating grooves are further formed in the sliding blocks, long-strip-shaped rotating plates are correspondingly installed in the rotating grooves through rotating shafts, tension springs are further installed at the outer side ends of the track grooves and are correspondingly installed on the sliding blocks, and vertical grooves are further formed in the inner side ends of the track grooves in an extending mode. If fixing devices such as limiting rods are directly arranged on the square base, the whole roll-type material is required to be lifted when the roll-type material is placed, so that great labor is consumed and the device is dangerous.

Description

Coaxial type power cable coiling device

Technical Field

The utility model relates to a cable preparation equipment field, specific coaxial-type power cable coiling material device that says so.

Background

In the prior art, an internal conductor of a coaxial power cable is formed by twisting a plurality of copper wires, the original materials of the copper wire conductors of most of the prior manufacturers are roll-type materials, and when the copper wire conductors are twisted into the conductor, the copper wire conductors need to be placed below a pay-off rack for discharging, and the roll-type materials are mostly directly placed on a fixing plate and fixed by means of gravity, other fixing facilities are not arranged, so that potential safety hazards are possibly caused; in addition, even if the existing device is provided with a fixture and other facilities on the fixed plate for fixing the rolled material, the fixture and the like are not arranged into a hidden structure, so that the rolled material is very troublesome to place on the fixed plate, and needs to be lifted and then placed in the fixture for fixing, thereby wasting time and labor and being not beneficial to operation.

In addition, the copper wires of the rolled materials are wound, the whole materials can be bent, the twisting quality of the coaxial power cable can be affected when the materials are directly sent into twisting equipment for twisting, most of the existing paying-off equipment for the copper wire conductors are directly sent into the twisting equipment through paying-off rollers, and the twisting quality of the copper wires can be correspondingly affected when twisted copper wires cannot be straightened and tensioned.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a coaxial power cable coiling device aiming at the defects of the prior art; the method can be suitable for coaxial power cables to be used when conductors are twisted, and the conductor twisting quality of the coaxial cables is improved.

The technical scheme is as follows: the utility model provides a technical scheme that the problem adopted does: a coaxial power cable coiling device comprises a square base; the base is provided with a plurality of track grooves pointing to the center of the square base; the corresponding slide block is correspondingly arranged in the track groove, the slide block is also provided with a rotating groove, a long-strip-shaped rotating plate is correspondingly arranged in the rotating groove through a rotating shaft, the outer side end of the track groove is also provided with a tension spring and is correspondingly arranged on the slide block, the inner side end of the track groove is also provided with a vertical groove in an extending manner, the vertical groove is vertically arranged with the track groove, the size of the vertical groove corresponds to the size of the rotating plate, and after the slide block moves to the inner side end of the track groove, the rotating plate can be flatly placed in the vertical groove after rotating; vertical plates are further mounted on two sides of the square base, transverse sleeves with uniform intervals are arranged on the vertical plates on the two sides from top to bottom, transverse loop bars are correspondingly mounted in the transverse sleeves, fixed tensioning springs are also mounted in the transverse sleeves, the other ends of the tensioning springs are correspondingly fixed at the inner side ends of the loop bars, tensioning rollers are correspondingly mounted at the outer side ends of the loop bars, and paying-off rollers are correspondingly mounted at the upper end portions of the vertical plates on the two sides; the square base is provided with a coil stock, and a copper wire on the coil stock is wound upwards on a tensioning roller and is finally sent into twisting equipment by a pay-off roller.

Preferably, two sides of the upper end of the square base are respectively provided with an oblique sleeve which is downward obliquely, an oblique loop bar is correspondingly arranged in the oblique sleeve, an oblique spring is also fixedly arranged in the oblique sleeve, the other end of the oblique spring is correspondingly fixed on the oblique loop bar, and the oblique loop bars on the two sides are correspondingly provided with a pay-off roller frame; the paying-off roller is correspondingly arranged on the paying-off roller frame.

Preferably, the four track grooves are arranged on the square base, the four track grooves are correspondingly arranged in a cross shape along the diagonal line of the square base, and the vertical grooves extending from the inner side ends of the track grooves are all vertically arranged towards the same side.

Preferably, the tensioning rollers arranged on two sides of the vertical plate are arranged in a bilateral symmetry mode, or the tensioning rollers on two sides are arranged in a vertically staggered mode, and the copper wires are arranged on the tensioning rollers on two sides in a snake-shaped winding mode.

Has the advantages that: compared with the prior art, the utility model, have following advantage:

(1) the device is characterized in that a square base is provided with a corresponding component for fixing the rolled material, a track groove is formed in the base, a sliding block is arranged in the groove, the sliding block is installed in an embedded mode and can move back and forth, meanwhile, a tensioning spring is installed in the track groove and can correspondingly tension the sliding block outwards, a rotatable rotating plate is installed on the sliding block through a rotating groove and a rotating shaft, and the rotating plate can be used for fixing and limiting the rolled material in a normal vertical state; the inner side end of the track groove is provided with a corresponding vertical groove, and the roll-type material is placed on the square base in the process, because the rolled materials are all copper wires and have larger volume, the rolled materials are very heavy, the whole materials are placed on the base and can only be pushed forwards, when in use, the slide block is pulled forwards to the innermost side, then the rotating plate is rotated inwards and placed in the vertical groove, the sliding block and the rotating plate are hidden integrally, the coiled material is placed on the base, and only the coiled material is pushed forwards to the central position, so that the position of the inner coiled hole of the coiled material corresponds to the position of the vertical groove, the vertical groove is integrally exposed in the inner coiled hole of the coiled material, then the rotating plate is rotated to an upright state, at the moment, the tensioning spring is not limited and can be tensioned backwards, the rotating plate is correspondingly clamped on the inner wall of the winding hole for winding materials, and the position of the winding materials is fixed by matching of a plurality of rotating plates; if the fixing device such as the limiting rod is directly arranged on the square base, the whole roll-type material needs to be lifted when the roll-type material is placed, so that great labor is consumed, and the device is dangerous;

(2) according to the device, a copper wire on a lower roll type material can be upwards and sequentially and snakelike wound on a tensioning roller, the tensioning roller is installed through a combined structure of a transverse loop bar, a tensioning spring and a transverse sleeve, after the copper wire is wound on the tensioning roller, when the copper wire is integrally sent to twisting equipment for twisting, the copper wire can be correspondingly and continuously pulled, the copper wire can pull each roller inwards, the tensioning roller is tensioned outside a box under the action of the tensioning spring, so that the copper wire wound on the tensioning roller has a self-tensioning effect, the copper wire can be correspondingly straightened and tensioned and then sent to the twisting equipment, and the twisting effect is better; in addition, the pay-off roller and the pay-off roller frame at the upper position in the device are installed through the sleeve rod and the sleeve which are obliquely arranged, and the copper wire lead can be correspondingly tensioned through the stretching of the stretching spring, so that the device has the function of tensioning and straightening the copper wire conductor.

Drawings

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

fig. 2 is a top view of the square base of the present invention.

Detailed Description

The present invention will be further clarified by the following embodiments with reference to the attached drawings, which are implemented on the premise of the technical solution of the present invention, and it should be understood that these embodiments are only used for illustrating the present invention and are not used for limiting the scope of the present invention.

As shown in fig. 1 and 2, a coaxial power cable coiling device comprises a square base 1; the base 1 is provided with a plurality of track grooves 2 pointing to the center of the square base 1; the corresponding sliding block 3 is correspondingly installed in the track groove 2, the sliding block 3 is also provided with a rotating groove 4, a long-strip-shaped rotating plate 6 is correspondingly installed in the rotating groove 4 through a rotating shaft 5, a tension spring 7 is also installed at the outer side end of the track groove 2 and is correspondingly installed on the sliding block 3, a vertical groove 8 is further formed in the inner side end of the track groove 2 in an extending mode, the vertical groove 8 is perpendicular to the track groove 2, the size of the vertical groove 8 corresponds to the size of the rotating plate 6, and after the sliding block 3 moves to the inner side end of the track groove 2, the rotating plate 6 can be horizontally placed in the vertical groove 8 after rotating; vertical plates 9 are further mounted on two sides of the square base 1, transverse sleeves 10 with uniform intervals are arranged on the vertical plates 9 on the two sides from top to bottom, transverse loop bars 11 are correspondingly mounted in the transverse sleeves 10, fixed tensioning springs 7 are also mounted in the transverse sleeves 10, the other ends of the tensioning springs 7 are correspondingly fixed at the inner side ends of the loop bars 11, tensioning rollers 12 are correspondingly mounted at the outer side ends of the loop bars 11, and paying-off rollers 13 are correspondingly mounted at the upper end portions of the vertical plates 9 on the two sides; a coil stock is placed on the square base 1, a copper wire 14 on the coil stock is wound upwards on the tensioning roller 12 and is finally sent into twisting equipment through the pay-off roller 13.

Oblique downward oblique sleeves 15 are respectively arranged on two sides of the upper end of the square base 1, oblique loop bars 16 are correspondingly arranged in the oblique sleeves 15, oblique springs 17 are also fixedly arranged in the oblique sleeves 15, the other ends of the oblique springs 17 are correspondingly fixed on the oblique loop bars 16, and paying-off roller frames 18 are correspondingly arranged on the oblique loop bars 16 on the two sides; the pay-off roller 13 is correspondingly arranged on the pay-off roller frame 18; the four track grooves 2 on the square base 1 are arranged, the four track grooves 2 are correspondingly arranged in a cross shape along the diagonal line of the square base 1, and the vertical grooves 8 extending from the inner side ends of the track grooves 2 are vertically arranged towards the same side.

The tensioning rollers 12 arranged on the two sides of the vertical plate 9 are arranged in a bilateral symmetry mode, or the tensioning rollers 12 on the two sides are arranged in a vertically staggered mode, and the copper wires 14 are arranged on the tensioning rollers 12 on the two sides in a snake-shaped winding mode.

The device is characterized in that a square base is provided with a corresponding component for fixing the rolled material, a track groove is formed in the base, a sliding block is arranged in the groove, the sliding block is installed in an embedded mode and can move back and forth, meanwhile, a tensioning spring is installed in the track groove and can correspondingly tension the sliding block outwards, a rotatable rotating plate is installed on the sliding block through a rotating groove and a rotating shaft, and the rotating plate can be used for fixing and limiting the rolled material in a normal vertical state; the inner side end of the track groove is provided with a corresponding vertical groove, and the roll-type material is placed on the square base in the process, because the rolled materials are all copper wires and have larger volume, the rolled materials are very heavy, the whole materials are placed on the base and can only be pushed forwards, when in use, the slide block is pulled forwards to the innermost side, then the rotating plate is rotated inwards and placed in the vertical groove, the sliding block and the rotating plate are hidden integrally, the coiled material is placed on the base, and only the coiled material is pushed forwards to the central position, so that the position of the inner coiled hole of the coiled material corresponds to the position of the vertical groove, the vertical groove is integrally exposed in the inner coiled hole of the coiled material, then the rotating plate is rotated to an upright state, at the moment, the tensioning spring is not limited and can be tensioned backwards, the rotating plate is correspondingly clamped on the inner wall of the winding hole for winding materials, and the position of the winding materials is fixed by matching of a plurality of rotating plates; if fixing devices such as limiting rods are directly arranged on the square base, the whole roll-type material is required to be lifted when the roll-type material is placed, so that great labor is consumed and the device is dangerous.

According to the device, a copper wire on a lower roll type material can be upwards and sequentially and snakelike wound on a tensioning roller, the tensioning roller is installed through a combined structure of a transverse loop bar, a tensioning spring and a transverse sleeve, after the copper wire is wound on the tensioning roller, when the copper wire is integrally sent to twisting equipment for twisting, the copper wire can be correspondingly and continuously pulled, the copper wire can pull each roller inwards, the tensioning roller is tensioned outside a box under the action of the tensioning spring, so that the copper wire wound on the tensioning roller has a self-tensioning effect, the copper wire can be correspondingly straightened and tensioned and then sent to the twisting equipment, and the twisting effect is better; in addition, the pay-off roller and the pay-off roller frame at the upper position in the device are installed through the sleeve rod and the sleeve which are obliquely arranged, and the copper wire lead can be correspondingly tensioned through the stretching of the stretching spring, so that the device has the function of tensioning and straightening the copper wire conductor.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the invention and the appended claims, and all equivalent changes and modifications made according to the claims should be included in the scope of the present invention.

Claims (4)

1. The utility model provides a coaxial-type power cable coiling material device which characterized in that: comprises a square base (1); the base (1) is provided with a plurality of track grooves (2) pointing to the center of the square base (1); a corresponding sliding block (3) is correspondingly installed in the track groove (2), a rotating groove (4) is further formed in the sliding block (3), a long-strip-shaped rotating plate (6) is correspondingly installed in the rotating groove (4) through a rotating shaft (5), a tension spring (7) is further installed at the outer side end of the track groove (2) and is correspondingly installed on the sliding block (3), a vertical groove (8) is further formed in the inner side end of the track groove (2) in an extending mode, the vertical groove (8) is perpendicular to the track groove (2) and corresponds to the rotating plate (6) in size, and when the sliding block (3) moves to the inner side end of the track groove (2), the rotating plate (6) can be horizontally placed in the vertical groove (8) after rotating; vertical plates (9) are further mounted on two sides of the square base (1), transverse sleeves (10) with uniform intervals are arranged on the vertical plates (9) on the two sides from top to bottom, transverse loop bars (11) are correspondingly mounted in the transverse sleeves (10), fixed tensioning springs (7) are also mounted in the transverse sleeves (10), the other ends of the tensioning springs (7) are correspondingly fixed at the inner side ends of the loop bars (11), tensioning rollers (12) are correspondingly mounted at the outer side ends of the loop bars (11), and paying-off rollers (13) are correspondingly mounted at the upper end parts of the vertical plates (9) on the two sides; the square base (1) is provided with a coil stock, and a copper wire (14) on the coil stock is wound upwards on a tensioning roller (12) and is finally sent into twisting equipment by a pay-off roller (13).

2. The coaxial power cable reeling device according to claim 1, wherein: oblique downward oblique sleeves (15) are respectively arranged on two sides of the upper end of the square base (1), oblique loop bars (16) are correspondingly arranged in the oblique sleeves (15), oblique springs (17) are also fixedly arranged in the oblique sleeves (15), the other ends of the oblique springs (17) are correspondingly fixed on the oblique loop bars (16), and paying-off roller frames (18) are correspondingly arranged on the oblique loop bars (16) on the two sides; the paying-off roller (13) is correspondingly arranged on the paying-off roller frame (18).

3. The coaxial power cable reeling device according to claim 1, wherein: the four-rail-type track bed is characterized in that four track grooves (2) are formed in the square base (1), the four track grooves (2) are correspondingly arranged in a cross shape along the diagonal line of the square base (1), and vertical grooves (8) formed by extending the inner side ends of the track grooves (2) are vertically arranged towards the same side.

4. The coaxial power cable reeling device according to claim 1, wherein: the tension rollers (12) arranged on two sides of the vertical plate (9) are arranged in a bilateral symmetry mode, or the tension rollers (12) on two sides are arranged in a vertically staggered mode, and the copper wires (14) are arranged on the tension rollers (12) on two sides in a snake-shaped winding mode.

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