CN213042718U - Self-adaptive guide device for cable irradiation cross-linking - Google Patents

Abstract

The utility model discloses a cable irradiation for cross-linking self-adaptation guider in the cable guider field is equipped with two lower plates that are parallel to each other on its connecting seat, and it has two punch holders that are parallel to each other to articulate through first round pin axle on the lower plate, be equipped with the arc compression roller that a plurality of axes are parallel to each other between the lower plate and between the punch holder, the arc compression roller includes compression roller and lower compression roller, but leaves the arc passageway that can hold the cable and pass between compression roller and the lower compression roller, be equipped with waist-shaped groove on the lower plate, waist-shaped groove with first round pin axle sets up with one heart, and the punch holder is equipped with the second round pin axle that passes waist-shaped groove, the tip that the waist-shaped groove was stretched out to the second round pin axle is. During operation, go up compression roller and snub pulley and can control the cable and smoothly guide into, loosen first lock nut, can adjust the inlet wire angle of cable, the cable of adaptation different positions is received and releases the line, and the difficult damage in cable surface has the self-adaptability to the cable of different diameters.

Description

Self-adaptive guide device for cable irradiation cross-linking

Technical Field

The utility model relates to a receive and release line device, in particular to cable guider who uses in cable irradiation cross-linking processing.

Background

In the prior art, during cable production, an insulating layer is usually extruded outside a metal wire, so that an insulating material is heated and melted to be coated outside a core wire conductor, but the insulating material does not reach the optimal value of the physicochemical state, and usually needs to be subjected to irradiation treatment, so that an interconnected network lattice structure is formed inside the insulating material, and the physicochemical optimal state including strength, flexibility, oxidation resistance and the like is achieved. When the cable is subjected to irradiation processing, the cable needs to be wound on a pay-off reel, then the cable penetrates through a high-energy electron beam, a crosslinking reaction occurs inside the cable when the cable is irradiated by the high-energy electron beam, and the other end of the cable is taken up through a take-up reel. When the cable is taken up and paid off, the cable needs to be guided into an electron beam irradiation area, so that the cable guiding device is adopted and comprises a support, a group of corresponding rollers are arranged on the support, gaps are reserved among the rollers, the cable penetrates through the gaps, and the rollers have reversing and restraining effects on the cable. The disadvantages are that: because among the prior art, the line footpath of cable, specification are various, and its inlet wire also changes with the direction that appears, and current guider can not satisfy the leading-in of the cable of multiple different specifications and direction, leads to the cable business turn over line not smooth and easy, fish tail cable surface easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cable irradiation is self-adaptation guider for handing-over makes the inlet wire angularly adjustable of cable, satisfies from the ascending business turn over line of equidirectional not, guarantees that the cable surface is not by the fish tail.

The purpose of the utility model is realized like this: the utility model provides a cable irradiation is self-adaptation guider for cross-linking, includes the connecting seat, is equipped with two lower splint that are parallel to each other on the connecting seat, has two punch holders that are parallel to each other through first round pin axle articulated on the lower splint, be equipped with the arc compression roller that a plurality of axes are parallel to each other between the lower splint and between the punch holder, the arc compression roller includes compression roller and lower compression roller, goes up and leaves the arc passageway that can hold the cable and pass between compression roller and the lower compression roller, be equipped with waist type groove on the lower splint, waist type groove with first round pin axle sets up with one heart, and the punch holder is equipped with the second round pin axle that passes waist type groove, the tip that the second round pin axle stretches out waist type groove.

The utility model discloses the during operation, cable one end is taken out from the drawing drum, and pass the arc passageway, the other end is walked around after radiation device's cylinder and is got back to the take-up reel again, it is smoothly leading-in that go up compression roller and snub pulley can control the cable, make the cable smoothly guided into, loosen first lock nut, waist type groove shift position can be followed to the second round pin axle, make the angle between lower plate and the punch holder change, thereby can adjust the inlet wire angle of cable, can adapt to the cable pay-off and take-up line in different position, during the pay-off and take-up line, the difficult damage in cable surface, to the cable of different diameters, the homoenergetic leads to smoothly, has the self. The utility model discloses it uses in being particularly suitable for cable irradiation cross-linking processing.

As a further improvement of the utility model, the number of the upper compression rollers is three, and the number of the lower compression rollers is five, wherein, the rotating shafts of the first upper compression roller and the first lower compression roller are arranged at the lower part of the lower clamping plate and are positioned at the upper side of the connecting seat; the rotating shafts of the second upper pressing roller, the second lower pressing roller and the third lower pressing roller are distributed in a triangular shape, the rotating shaft of the second lower pressing roller is arranged on the lower clamping plate, and the rotating shafts of the second upper pressing roller and the third lower pressing roller are arranged on the upper clamping plate; the rotating shafts of the third upper pressing roller, the fourth lower pressing roller and the fifth lower pressing roller are distributed in a triangular shape and are arranged on the upper clamping plate. When being triangular distribution between the pivot that corresponds, can follow upper and lower two directions and retrain the cable well, guarantee its smooth and easy direction to the cable homoenergetic of different line footpaths.

The further improvement is that the second pin shaft is a rotating shaft of the second upper pressing roller. When the second pin shaft and the rotating shaft of the second upper pressing roller are the same shaft, the structure is simple and the adjustment is convenient.

The utility model discloses a further improvement lies in, be equipped with the bar groove on the punch holder, the pivot of compression roller is passed on the third the bar groove sets up, and the end that stretches out of the pivot of compression roller is equipped with second lock nut on the third. Further, the axis of the strip-shaped groove is perpendicular to the plane where the rotating shafts of the fourth lower pressing roller and the fifth lower pressing roller are located. Loosening the second lock nut can change the position of the rotating shaft of the third upper pressing roller in the strip-shaped groove, so that the gap between the third upper pressing roller and the fourth lower pressing roller and the gap between the third upper pressing roller and the fifth lower pressing roller can be changed, and the adjustment can be made according to the wire diameter of the cable, so that the cable with different wire diameters can be better limited.

In order to facilitate adjustment and avoid interference, the first pin shaft is positioned between the rotating shaft of the second lower pressing roller and the rotating shaft of the third lower pressing roller.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the present invention.

Fig. 2 is a partial assembly view of the upper clamping plate and the corresponding arc-shaped press roller.

Fig. 3 is a front view of the present invention.

The pressing device comprises a connecting seat 1, a first upper pressing roller 2, a lower clamping plate 3, a first pin shaft 4, a second pin shaft 5, a first locking nut 6, a waist-shaped groove 7, a second upper pressing roller 8, an upper clamping plate 9, a third upper pressing roller 10, a second locking nut 11, a third upper pressing roller 12, a strip-shaped groove 13, a cable 14, a 15 lower pressing roller, a first lower pressing roller 15a, a second lower pressing roller 15b, a third lower pressing roller 15c, a fourth lower pressing roller 15d, a fifth lower pressing roller 15e and a pressing roller.

Detailed Description

As shown in fig. 1-3, for cable irradiation is self-adaptation guider for cross-linking, including connecting seat 1, be equipped with two lower plate 3 that are parallel to each other on the connecting seat 1, articulated through first round pin axle 4 have two punch holder 9 that are parallel to each other on the lower plate 3, be equipped with the arc compression roller that a plurality of axes are parallel to each other between lower plate 3 and the punch holder 9, the arc compression roller includes upper compression roller and lower compression roller 15, leaves the arc passageway that can hold cable 14 to pass between upper compression roller and the lower compression roller 15, is equipped with waist type groove 7 on the lower plate 3, and waist type groove 7 sets up with first round pin axle 4 is concentric, and upper compression plate 9 is equipped with the second round pin axle 5 that passes waist type groove 7, and the tip that second round pin axle 5 stretches out waist type groove 7 is equipped with first.

The number of the upper press rolls is three, namely a first upper press roll 2, a second upper press roll 8 and a third upper press roll 12; five lower press rolls 15 are provided, namely a first lower press roll 15a, a second lower press roll 15b, a third lower press roll 15c, a fourth lower press roll 15d and a fifth lower press roll 15 e; wherein, the rotating shafts of the first upper press roll 2 and the first lower press roll 15a are arranged at the lower part of the lower clamping plate 3 and are positioned at the upper side of the connecting seat 1; the rotating shafts of the second upper pressing roller 8, the second lower pressing roller 15b and the third lower pressing roller 15c are distributed in a triangular shape, the rotating shaft of the second lower pressing roller 15b is arranged on the lower clamping plate 3, and the rotating shafts of the second upper pressing roller 8 and the third lower pressing roller 15c are arranged on the upper clamping plate 9; the rotating shafts of the third upper pressing roller 12, the fourth lower pressing roller 15d and the fifth lower pressing roller 15e are distributed in a triangular shape and are arranged on the upper clamping plate 9. The second pin shaft 5 is a rotating shaft of the second upper pressing roller 8, and the two shafts are the same shaft.

Be equipped with strip groove 13 on the punch holder 9, the pivot 10 of compression roller passes on the third strip groove 13 sets up, and the end that stretches out of the pivot 10 of compression roller is equipped with second lock nut 11 on the third.

The axis of the strip-shaped groove 13 is perpendicular to the plane of the rotating shafts of the fourth lower pressing roller 15d and the fifth lower pressing roller 15 e.

The first pin is located between the rotating shaft of the second lower press roller 15b and the rotating shaft of the third lower press roller 15 c.

During operation, 14 one end of cable is taken out from the drawing drum, and pass the arc passageway, the other end is walked around and is got back to the drawing drum after irradiation device's cylinder, it is smooth leading-in that upper compression roller and snub pulley can control cable 14, make cable 14 smoothly guided into, loosen first lock nut 6, waist type groove 7 shift position can be followed to second round pin axle 5, make the angle between lower plate 3 and the upper plate 9 change, thereby can adjust the inlet wire angle of cable 14, can adapt to the cable 14 receipts and payoff in different position, when receiving and payoff, 14 difficult damages on the surface of cable, to the cable 14 of different diameters, the homoenergetic smoothly leads, has the self-adaptability. The position of the rotating shaft of the third upper pressing roller 12 in the strip-shaped groove 13 can be changed by loosening the second locking nut 11, so that the gap between the third upper pressing roller 12 and the fourth lower pressing roller 15d and the gap between the fifth lower pressing roller 15e can be changed, and the adjustment can be made according to the wire diameter of the cable 14, so that the cable 14 with different wire diameters can be better limited.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (6)

1. The utility model provides a cable irradiation is self-adaptation guider for cross-linking which characterized in that: including the connecting seat, be equipped with two lower splint that are parallel to each other on the connecting seat, articulated through first round pin axle have two punch holders that are parallel to each other on the lower splint, be equipped with the arc compression roller that a plurality of axes are parallel to each other between the lower splint and between the punch holder, the arc compression roller includes compression roller and lower compression roller, leaves the arc passageway that can hold the cable and pass between upper compression roller and the lower compression roller, be equipped with waist type groove on the lower splint, waist type groove with first round pin axle sets up with one heart, and the punch holder is equipped with the second round pin axle that passes waist type groove, the tip that the second round pin axle stretches out waist type groove is equipped with first lock nut.

2. The adaptive guide device for cable irradiation crosslinking of claim 1, wherein: the number of the upper press rollers is three, the number of the lower press rollers is five, and rotating shafts of the first upper press roller and the first lower press roller are arranged at the lower part of the lower clamping plate and are positioned at the upper side of the connecting seat; the rotating shafts of the second upper pressing roller, the second lower pressing roller and the third lower pressing roller are distributed in a triangular shape, the rotating shaft of the second lower pressing roller is arranged on the lower clamping plate, and the rotating shafts of the second upper pressing roller and the third lower pressing roller are arranged on the upper clamping plate; the rotating shafts of the third upper pressing roller, the fourth lower pressing roller and the fifth lower pressing roller are distributed in a triangular shape and are arranged on the upper clamping plate.

3. The adaptive steering device for cable irradiation crosslinking of claim 2, wherein: and the second pin shaft is a rotating shaft of the second upper pressing roller.

4. The adaptive guide device for cable irradiation crosslinking according to claim 2 or 3, wherein: the upper clamp plate is provided with a strip-shaped groove, a rotating shaft of the third upper press roller penetrates through the strip-shaped groove, and a second locking nut is arranged at the extending end of the rotating shaft of the third upper press roller.

5. The adaptive guide device for cable irradiation crosslinking of claim 4, wherein: and the axis of the strip-shaped groove is vertical to the plane of the rotating shafts of the fourth lower pressing roller and the fifth lower pressing roller.

6. The adaptive guide device for cable irradiation crosslinking according to any one of claims 2 or 3, wherein: and the first pin shaft is positioned between the rotating shaft of the second lower pressing roller and the rotating shaft of the third lower pressing roller.

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