CN213505330U - Cable wire storage device for irradiation crosslinking processing - Google Patents

Abstract

The utility model discloses a cable storage device for irradiation crosslinking processing in the field of storage devices, wherein a left upright post and a right upright post are arranged on a ground track through a left roller, and an oil cylinder is arranged between the upper ends of the left upright post and the right upright post; a left support sleeve is arranged on the left upright post through a left guide rail and a left sliding block, and the left support sleeve is arranged on the left bracket; a left rotating shaft is arranged in the left supporting sleeve through a bearing, and a chuck is arranged on the left rotating shaft; a right support sleeve is arranged on the right upright post through a right guide rail and a right sliding block, and the right support sleeve is arranged on a right bracket; a right rotating shaft is arranged in the right supporting sleeve through a bearing; the left rotating shaft and the right rotating shaft are provided with wire reels for winding cables, and the chucks clamp the wire reels from the end parts of the wire reels; the left bracket and the right bracket are respectively arranged on the lifting mechanism; and the left bracket is also provided with a driving motor in transmission connection with the left rotating shaft. The device makes the wire reel loading and unloading convenient, adapts to the wire reel of multiple size and stores up the cable, is applicable to in the cable cross-linking irradiation processing production.

Description

Cable wire storage device for irradiation crosslinking processing

Technical Field

The utility model relates to a wire storage device that uses in the cable irradiation cross-linking processing, concretely relates to carry out device that cable stored up line through rotating cable wire reel.

Background

In the prior art, during cable production, an insulating layer is usually extruded outside a metal core conductor, and an insulating material is heated and melted to be coated outside the core conductor, but the insulating material does not reach the optimal value of the physicochemical state, and usually needs to be subjected to irradiation treatment to form an interconnected network lattice structure inside the insulating material, so as to reach the optimal physicochemical state, including strength, flexibility, oxidation resistance and the like. When the cable is subjected to irradiation processing, the cable needs to be wound on a pay-off reel, then the cable is drawn to penetrate through a high-energy electron beam, a crosslinking reaction occurs inside an insulating material 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. The cable needs to be guided into the electron beam irradiation area while taking up and paying off.

Among the prior art is a magnetic powder tension pay off rack for wire and cable, its publication (announcement) number is: CN201751348U, publication (announcement) date: 20110223, the device comprises a base, lifting brackets fixed at two ends of the base, a cylinder fixed at one end of the lifting brackets, a cylinder thimble arranged on the telescopic shaft of the cylinder, a shifting fork thimble fixed at the corresponding position at the other end of the lifting brackets, a rotating shaft of the shifting fork thimble connected with a synchronous rotating wheel, and the synchronous rotating wheel connected with a magnetic powder motor through a belt. And a brake device is arranged on the shifting fork thimble. The pay-off device solves the problems that an existing pay-off device is high in labor intensity, difficult in tension control and not easy to stop. The disadvantages are that: firstly, the device's cylinder piston rod extension length should not be overlength, because the piston rod of cylinder itself can not bear great radial force, when wire reel itself is heavier, cylinder piston rod can bear great radial force for the device uses the reliability not high. Secondly, because the piston rod of cylinder extension length should not be overlength, lead to the width direction of wire reel to receive certain restriction, can not be suitable for the installation of the wire reel of multiple different specifications. And thirdly: the piston rod of the cylinder can not bear circumferential torsion torque, and when the cable is wound and unwound, the friction force transmitted by the bearing is large, so that the torsion torque is formed, and the normal work of the cylinder is influenced. Fourthly, the method comprises the following steps: whole device can not remove on ground, need take other auxiliary means when clamping wire reel, and the wire reel installation is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cable wire storage device of irradiation cross-linking processing usefulness makes the device satisfy the wire reel installation of multiple different specifications, can guarantee the reliability of using simultaneously.

The purpose of the utility model is realized like this: a cable storage device for irradiation crosslinking processing comprises a ground track, wherein a left upright post is arranged on the ground track through a left roller, a right upright post is arranged on the ground track through a right roller, an oil cylinder with an axis parallel to the direction of the ground track is arranged between the upper ends of the left upright post and the right upright post, a cylinder body of the oil cylinder is fixedly connected with the left upright post, and a piston rod of the oil cylinder is fixedly connected with the right upright post; a left guide rail is longitudinally arranged on the left upright post, a left sliding block is arranged on the left guide rail in a matching manner, the left sliding block is fixed on a left support sleeve, and the left support sleeve is arranged on a left bracket; a left rotating shaft is arranged in the left supporting sleeve through a bearing, and a chuck is arranged on the left rotating shaft; a right guide rail is longitudinally arranged on the right upright post, a right sliding block is arranged on the right guide rail in a matching manner, the right sliding block is fixed on a right support sleeve, and the right support sleeve is arranged on a right bracket; a right rotating shaft is arranged in the right supporting sleeve through a bearing; the left rotating shaft and the right rotating shaft are provided with wire reels for winding cables, and the chucks clamp the wire reels from the end parts of the wire reels; the left bracket and the right bracket are respectively arranged on the lifting mechanism; and the left bracket is also provided with a driving motor in transmission connection with the left rotating shaft.

The device during operation, left pivot and right pivot are descended through elevating system, the piston rod of hydro-cylinder stretches out, make left stand and right stand along the relative separation motion of ground track, the interval increase between left pivot and the right pivot, with empty wire reel propelling movement between left stand and the right stand, the height of adjustment left pivot and right pivot, make the centre bore of wire reel just to the time with left pivot and right pivot, the hydro-cylinder piston rod is retracted, left pivot and right pivot can press from both sides the wire reel tightly, wire reel one end is held to the chuck, at this moment, raise left socle and right branch frame, make the wire reel rise to suitable height, then fix the cable that will receive and store up on the wire reel, rethread driving motor drive wire reel rotates, can receive and store up the cable on the wire reel. After the cable is full, put the wire reel to ground through elevating system, the wire reel can roll and go out, because the stand can move on the ground track, consequently, also can push whole device to the position that needs to unload the wire reel, put it to ground again. Compared with the prior art, the utility model discloses a its beneficial effect lies in: 1. the hydro-cylinder sets up between left stand and right stand, and whole width is greater than the axial length of wire reel, and its stroke is big, consequently, can adapt to the wire reel of multiple different length dimension and store up the cable. 2. The whole body can move to a proper position, and the wire spool is convenient to assemble and disassemble. The device is particularly suitable for the cross-linking irradiation processing production of cables which need to be frequently replaced and wound by wire reels with different lengths and sizes.

The further improvement of the utility model lies in that the lifting mechanism comprises a left lifting mechanism and a right lifting mechanism, the left lifting mechanism comprises a left lifting motor, a left lead screw and a left nut, the left lifting motor is fixed on the left upright post, the left lead screw is in transmission connection with an output shaft of the left lifting motor, the left nut is fixed with the left bracket, and the left nut is meshed and connected with the left lead screw; the right lifting mechanism comprises a right lifting motor, a right screw rod and a right nut, the right lifting motor is fixed on the right upright post, the right screw rod is in transmission connection with an output shaft of the right lifting motor, the right nut is fixed with the right support, and the right nut is connected on the right screw rod in a meshed mode. The lifting is driven by the screw rod and nut mechanism, the lifting is stable, and the height is easy to adjust.

In order to facilitate installation and fixation, the output shaft end of the driving motor is connected with the left rotating shaft through a speed reducer and a coupler. The transmission is convenient.

Furthermore, a locking piece is arranged on the left roller or the right roller. The roller can be locked by a locking member so that the entire device stays at a specific working position.

Furthermore, the left rotating shaft and the right rotating shaft respectively comprise a conical section and an inserting section, and the diameter of the inserting section corresponds to the central hole of the wire spool. The plug-in section can fix a position the wire reel well, and the toper section is for convenient grafting.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1 ground track, 2 left rollers, 3 left lifting motors, 4 left screw rods, 5 left nuts, 6 left supports, 7 driving motors, 8 speed reducers, 9 couplers, 10 left sliders, 11 left guide rails, 12 left stand columns, 13 chucks, 14 oil cylinders, 15 piston rods, 16 right stand columns, 17 right rotating shafts, 18 right support sleeves, 19 right sliders, 20 right guide rails, 21 right supports, 22 right nuts, 23 right screw rods, 24 right lifting motors, 25 right rollers, 26 locking pieces, 27 wire reels, 28 left rotating shafts and 29 left support sleeves.

Detailed Description

As shown in fig. 1, the cable storage device for irradiation crosslinking processing comprises a ground track 1, wherein a left upright post 12 is arranged on the ground track 1 through a left roller 2, a right upright post 16 is arranged through a right roller 25, an oil cylinder 14 with an axis parallel to the direction of the ground track 1 is arranged between the upper ends of the left upright post 12 and the right upright post 16, a cylinder body of the oil cylinder 14 is fixedly connected with the left upright post 12, and a piston rod 15 of the oil cylinder 14 is fixedly connected with the right upright post 16; a left guide rail 11 is longitudinally arranged on the left upright post 12, a left slide block 10 is arranged on the left guide rail 11 in a matching way, the left slide block 10 is fixed on a left support sleeve 29, and the left support sleeve 29 is arranged on the left bracket 6; a left rotating shaft 28 is arranged in the left supporting sleeve 29 through a bearing, and a chuck 14 is arranged on the left rotating shaft 28; a right guide rail 20 is longitudinally arranged on the right upright post 16, a right sliding block 19 is arranged on the right guide rail 20 in a matching way, the right sliding block 19 is fixed on a right support sleeve 18, and the right support sleeve 18 is arranged on a right bracket 21; a right rotating shaft 17 is arranged in the right support sleeve 18 through a bearing; the left rotating shaft 28 and the right rotating shaft 17 are provided with wire reels 27 for winding and installing cables, and the chucks 14 clamp the wire reels 27 from the end parts of the wire reels 27; the left bracket 6 and the right bracket 21 are respectively arranged on the lifting mechanism; the left bracket 6 is also provided with a driving motor 7 which is in transmission connection with the left rotating shaft 28.

The lifting mechanism comprises a left lifting mechanism and a right lifting mechanism, the left lifting mechanism comprises a left lifting motor 3, a left screw rod 4 and a left nut 5, the left lifting motor 3 is fixed on the left upright post 12, the left screw rod 4 is in transmission connection with an output shaft of the left lifting motor 3, the left nut 5 is fixed with the left bracket 6, and the left nut 5 is meshed and connected with the left screw rod 4; the right lifting mechanism comprises a right lifting motor 24, a right screw rod 23 and a right nut 22, the right lifting motor 24 is fixed on the right upright post 16, the right screw rod 23 is in transmission connection with an output shaft of the right lifting motor 24, the right nut 22 is fixed with the right bracket 21, and the right nut 22 is meshed and connected with the right screw rod 23. The lifting is driven by the screw rod and nut mechanism, the lifting is stable, and the height is easy to adjust.

For convenience of installation and fixation, the output shaft end of the driving motor 7 is connected with the left rotating shaft 28 through the speed reducer 8 and the coupling 9. The transmission is convenient.

The left wheel 2 or the right wheel 25 is provided with a locking piece 26. The roller can be locked by means of a locking member 26 so that the entire device stays in a specific working position.

The left rotating shaft 28 and the right rotating shaft 17 respectively comprise a conical section and an insertion section, and the diameter of the insertion section corresponds to the central hole of the wire spool 27. The plug section provides good positioning of the spool 27 and the tapered section is for ease of plugging.

When the device works, the left rotating shaft 28 and the right rotating shaft 17 are lowered through the lifting mechanism, the piston rod 15 of the oil cylinder 14 extends out, so that the left upright post 12 and the right upright post 16 move along the ground track 1 in a relatively separated way, the distance between the left rotating shaft 28 and the right rotating shaft 17 is increased, the empty wire spool 27 is pushed between the left upright post 12 and the right upright post 16, the heights of the left rotating shaft 28 and the right rotating shaft 17 are adjusted, the central hole of the wire spool 27 is aligned with the left rotating shaft 28 and the right rotating shaft 17, the piston rod 15 of the oil cylinder 14 retracts, the left rotating shaft 28 and the right rotating shaft 17 can clamp the wire spool 27, the chuck 14 clamps one end of the wire spool 27, for transmitting torque, at which time, the left bracket 6 and the right bracket 21 are raised, the wire spool 27 is raised to an appropriate height, then the cable to be stored is fixed on the wire spool 27, and the driving motor 7 drives the wire spool 27 to rotate, so that the cable can be stored on the wire spool 27. After the cable is fully wound, the wire spool 27 is placed on the ground through the lifting mechanism, the wire spool 27 can roll out, and the upright post can move on the ground track 1, so that the whole device can be pushed to the position where the wire spool 27 needs to be discharged, and then the wire spool 27 is placed on the ground. Because the oil cylinder 14 is arranged between the left upright post 12 and the right upright post 16, the whole width is larger than the axial length of the wire spool 27, and the stroke is large, therefore, the wire spool 27 can be suitable for storing cables of various lengths and sizes. The whole body can move to a proper position, and the wire spool 27 is convenient to assemble and disassemble. The device is particularly suitable for cable cross-linking irradiation processing production in which the wire reels 27 with different lengths and sizes need to be replaced frequently for winding, and is used for storing the cables after cross-linking irradiation treatment.

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 (5)

1. The utility model provides a cable wire storage device of irradiation cross-linking processing usefulness which characterized in that: the hydraulic lifting device comprises a ground track, wherein a left upright post is arranged on the ground track through a left roller, a right upright post is arranged through a right roller, an oil cylinder with an axis parallel to the direction of the ground track is arranged between the upper ends of the left upright post and the right upright post, a cylinder body of the oil cylinder is fixedly connected with the left upright post, and a piston rod of the oil cylinder is fixedly connected with the right upright post; a left guide rail is longitudinally arranged on the left upright post, a left sliding block is arranged on the left guide rail in a matching manner, the left sliding block is fixed on a left support sleeve, and the left support sleeve is arranged on a left bracket; a left rotating shaft is arranged in the left supporting sleeve through a bearing, and a chuck is arranged on the left rotating shaft; a right guide rail is longitudinally arranged on the right upright post, a right sliding block is arranged on the right guide rail in a matching manner, the right sliding block is fixed on a right support sleeve, and the right support sleeve is arranged on a right bracket; a right rotating shaft is arranged in the right supporting sleeve through a bearing; the left rotating shaft and the right rotating shaft are provided with wire reels for winding cables, and the chucks clamp the wire reels from the end parts of the wire reels; the left bracket and the right bracket are respectively arranged on the lifting mechanism; and the left bracket is also provided with a driving motor in transmission connection with the left rotating shaft.

2. The cable storage device for radiation crosslinking processing according to claim 1, wherein: the lifting mechanism comprises a left lifting mechanism and a right lifting mechanism, the left lifting mechanism comprises a left lifting motor, a left screw rod and a left nut, the left lifting motor is fixed on the left upright post, the left screw rod is in transmission connection with an output shaft of the left lifting motor, the left nut is fixed with the left bracket, and the left nut is in meshing connection with the left screw rod; the right lifting mechanism comprises a right lifting motor, a right screw rod and a right nut, the right lifting motor is fixed on the right upright post, the right screw rod is in transmission connection with an output shaft of the right lifting motor, the right nut is fixed with the right support, and the right nut is connected on the right screw rod in a meshed mode.

3. The cable storage device for irradiation crosslinking processing according to claim 1 or 2, wherein: and the output shaft end of the driving motor is connected with the left rotating shaft through a speed reducer and a coupler.

4. The cable storage device for irradiation crosslinking processing according to claim 1 or 2, wherein: and a locking piece is arranged on the left idler wheel or the right idler wheel.

5. The cable storage device for irradiation crosslinking processing according to claim 1 or 2, wherein: the left rotating shaft and the right rotating shaft respectively comprise a conical section and an inserting section, and the diameter of the inserting section corresponds to the central hole of the wire spool.

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