CN220098117U - Movable feeding structure for rewinder - Google Patents

Abstract

The utility model discloses a movable feeding structure for a rewinder, which comprises the following components: the device comprises a concave bracket block and a rewinder, wherein the rewinder is arranged on the concave bracket block, and a movable feeding structure is arranged on the concave bracket block; the utility model relates to the technical field of rewinder, which is characterized in that a movable feeding structure is used for adjusting and regulating a cable, so that the phenomenon that the cable is coiled in the cable collecting process is avoided, the problem that the angle of the cable is changed in the moving process although the coiling can be reduced by movable collection, and the angle of the cable is slowed down by the movable feeding structure, so that the coiling and the twisting force are avoided, and meanwhile, the cable is limited and fixed to a certain extent by the adjusting structure.

Description

Movable feeding structure for rewinder

Technical Field

The utility model relates to the technical field of rewinders, in particular to a movable feeding structure for a rewinder.

Background

A machine for winding finished or semi-finished wire and cable from one package to another for inspection, metering, splitting or repacking. The rewinder is a copper wire, an aluminum wire, an iron wire, a plastic aluminum wire and a plastic copper wire which are rewound on a disk, is an auxiliary machine for wire outgoing of a wire unit (extruder) and twisting of a wire twisting unit, is used for winding a wire of a winding machine by traditional semi-automatic manual feeding, has low production efficiency, can only realize the automatic winding process, and is required to be completed by operators. In view of the fact that the labor cost is higher and higher at present, the scheme is generated in the case of intensive research aiming at the problems.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a movable feeding structure for a rewinder comprises: the device comprises a concave bracket block and a rewinder, wherein the rewinder is arranged on the concave bracket block, and a movable feeding structure is arranged on the concave bracket block;

the movable feeding structure comprises: the device comprises a pair of square limiting blocks, two pairs of angle shafts, two pairs of angle concave wheels, a movable square bracket, two pairs of movable limiting shafts, a horizontal adjusting threaded rod, a horizontal adjusting threaded pipe, a horizontal adjusting gear box, a horizontal adjusting driver, a plurality of lifting bearing blocks, a plurality of lifting limiting shafts, a plurality of lifting sleeve springs and a plurality of lifting extrusion rollers;

the two pairs of movable limiting shafts are inserted in the concave support blocks in pairs, the movable return-shaped support is sleeved on the two pairs of movable limiting shafts, the horizontal adjusting threaded pipe is inserted in the concave support blocks through bearings, the horizontal adjusting threaded rod is inserted in the inner sides of the horizontal adjusting threaded pipe through bearings, the horizontal adjusting threaded rod is inserted in the movable return-shaped support through bearings, a pair of return-shaped limiting blocks are respectively arranged on the movable return-shaped support and the concave support blocks, two pairs of angle shafts are respectively inserted in the inner sides of the pair of return-shaped limiting blocks, two pairs of angle concave wheels are respectively arranged on the two pairs of angle shafts, the horizontal adjusting gear box is sleeved on the horizontal adjusting threaded pipe, the driving end of the horizontal adjusting machine is connected to the horizontal adjusting gear box, a plurality of lifting limiting grooves are formed in the movable return-shaped support, the bearing blocks are respectively movably inserted in the inner sides of the lifting limiting grooves, the lifting shafts are respectively arranged on the lifting limiting shafts, and the lifting limiting shafts are respectively arranged on the lifting limiting grooves.

Preferably, an infrared range finder is arranged on the movable rectangular bracket.

Preferably, the lifting limiting grooves are arranged on the movable rectangular support in a tooth-shaped crossed mode.

Preferably, the lifting extrusion rollers are respectively provided with an adjusting structure;

the adjusting structure comprises: the device comprises a pair of telescopic circular rings, a pair of toothed circular ring blocks, a pair of circular arc circular ring sleeve blocks and a pair of extrusion sleeve springs;

the lifting extrusion roller is provided with a plurality of telescopic holes, a pair of telescopic circular rings are sleeved on the inner shaft of the lifting extrusion roller respectively, a pair of toothed circular ring blocks are mounted on the telescopic circular rings respectively, a pair of circular arc circular ring sleeve blocks are mounted on the toothed circular ring blocks respectively, and a pair of extrusion sleeve springs are sleeved on the inner shaft of the lifting extrusion roller respectively.

Preferably, a tightness sensor is arranged on the inner side of the movable loop-shaped bracket.

Preferably, a horizontal bearing is arranged at the joint of the movable rectangular bracket and the two pairs of movable limiting shafts.

Advantageous effects

The utility model provides a movable feeding structure for a rewinder. The beneficial effects are as follows: this movable feeding structure for rewinder adjusts the cable through movable feeding structure, has avoided the cable to curl at the cable in-process of collecting, and although remove to collect and can reduce to curl, but the cable returns at the removal in-process and appears the angle problem, slows down the angle of cable through movable feeding structure to avoided the emergence of curling and distortion power, carry out certain spacing fixedly through adjusting structure simultaneously.

Drawings

Fig. 1 is a schematic front view in cross section of a movable feeding structure for a rewinder according to the present utility model.

Fig. 2 is a schematic side view and a schematic cross-sectional view of a movable feeding structure for a rewinder according to the present utility model.

In the figure: 1. a concave bracket block; 2. a rewinder; 3. a loop-shaped limiting block; 4. an angle axis; 5. an angle concave wheel; 6. moving the loop-shaped support; 7. moving the limiting shaft; 8. a threaded rod is horizontally adjusted; 9. horizontally adjusting the threaded pipe; 10. a horizontal adjustment gearbox; 11. a horizontal adjustment driving machine; 12. lifting the bearing block; 13. a lifting limiting shaft; 14. lifting and sleeving a spring; 15. lifting and extruding the roller; 16. a telescopic ring; 17. toothed annular blocks; 18. circular arc ring sleeve blocks; 19. and extruding the sleeved spring.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

As shown in fig. 1-2, the rewinder 2 is mounted on the concave bracket block 1, and a movable feeding structure is mounted on the concave bracket block 1;

specifically, the portable material loading structure includes: the device comprises a pair of square limiting blocks 3, two pairs of angle shafts 4, two pairs of angle concave wheels 5, a movable square bracket 6, two pairs of movable limiting shafts 7, a horizontal adjusting threaded rod 8, a horizontal adjusting threaded pipe 9, a horizontal adjusting gear box 10, a horizontal adjusting driver 11, a plurality of lifting bearing blocks 12, a plurality of lifting limiting shafts 13, a plurality of lifting sleeve springs 14 and a plurality of lifting extrusion rollers 15;

specifically, two pairs of remove spacing axle 7 two pairs of parallel cartridge in on the concave support piece 1, remove back shape support 6 suit in two pairs on the removal spacing axle 7, horizontal adjustment screw thread pipe 9 pass through the bearing cartridge in on the concave support piece 1, horizontal adjustment threaded rod 8 pass through the bearing cartridge in the inboard of horizontal adjustment screw thread pipe 9, just horizontal adjustment threaded rod 8 pass through the bearing cartridge in remove back shape support 6, a pair of back shape stopper 3 install respectively in remove back shape support 6 and on the concave support piece 1, two pairs of angle shaft 4 cartridge respectively in a pair of back shape stopper 3's inboard, two pairs of angle concave wheel 5 install respectively in two pairs on the angle shaft 4, horizontal adjustment gear box 10 suit in on the horizontal adjustment screw thread pipe 9, horizontal adjustment driving machine 11 connect in on the horizontal adjustment screw thread pipe 9, just horizontal adjustment threaded rod 8 pass through the bearing cartridge in remove back shape support 6 go up and down the shape stopper piece 12 a plurality of lift groove respectively in a plurality of lift limiting block 13 is gone up and down in a plurality of lift sleeve 13 in a plurality of movable limiting block 13, a plurality of lift sleeve 13 are gone up and down in a plurality of movable limiting block respectively in a plurality of lift sleeve 13.

It should be noted that, in the above description, through the operation of the horizontal adjustment driving machine 11, the operation of the horizontal adjustment gearbox 10 is driven, the horizontal adjustment threaded pipe 9 is driven to rotate, the horizontal adjustment threaded rod 8 stretches horizontally along the inner side of the horizontal adjustment threaded pipe 9, the movable rectangular bracket 6 is driven by the horizontal adjustment threaded rod 8, the movable rectangular bracket 6 stretches horizontally along the two pairs of movable limiting shafts 7, the angle shaft 4 on the rectangular limiting block 3 on the concave bracket and the angle concave wheel 5 are matched with each other through the rectangular limiting block 3 on the movable rectangular bracket 6, thereby realizing the angle adjustment buffering of the cable according to different limits, and simultaneously, the limiting extrusion on the vertical direction is carried out on the lifting bearing blocks 12 along the lifting limiting shafts 13 through the lifting sleeve springs 14 respectively, so that the lifting bearing blocks 12 are lifted in a scissor type, the cable is stretched in a lifting manner through the lifting extrusion roller 15, and the cable is stably stretched, so that the cable is conveniently collected by the rewinding machine 2.

As shown in fig. 1-2, a plurality of lifting extrusion rollers 15 are respectively provided with an adjusting structure;

specifically, the adjusting structure comprises: a pair of telescopic circular rings 16, a pair of toothed circular ring blocks 17, a pair of circular arc circular ring sleeve blocks 18 and a pair of extrusion sleeve springs 19;

specifically, the lifting extrusion roller 15 is provided with a plurality of telescopic holes, a pair of telescopic rings 16 are respectively sleeved on the inner shaft of the lifting extrusion roller 15, a pair of toothed ring blocks 17 are respectively mounted on the pair of telescopic rings 16, a pair of circular arc ring sleeve blocks 18 are respectively mounted on the pair of toothed ring blocks 17, and a pair of extrusion sleeve springs 19 are respectively sleeved on the inner shaft of the lifting extrusion roller 15.

In the above description, the telescopic rings 16 are respectively pushed by the plurality of extrusion sleeving springs 19, so that a pair of telescopic rings 16 are relatively telescopic, the toothed ring blocks 17 are respectively driven, the circular arc ring sleeve blocks 18 are respectively driven by the pair of toothed ring blocks 17, and the pair of circular arc ring sleeve blocks 18 are relatively telescopic, so that horizontal extrusion fixing is performed according to diameters of different cables, and the fine adjustment effect is achieved.

Preferably, further, an infrared distance meter is arranged on the moving loop-shaped bracket 6.

Preferably, the lifting limiting grooves are arranged on the movable back-shaped support 6 in a tooth-shaped and crossed mode.

As a preferable scheme, further, the inner side of the movable loop-shaped bracket 6 is provided with a tightness sensor.

As a preferable scheme, a horizontal bearing is arranged at the joint of the movable rectangular bracket 6 and the two pairs of movable limiting shafts 7.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A movable feeding structure for a rewinder comprises: the device comprises a concave support block and a rewinder, and is characterized in that the rewinder is arranged on the concave support block, and a movable feeding structure is arranged on the concave support block;

the movable feeding structure comprises: the device comprises a pair of square limiting blocks, two pairs of angle shafts, two pairs of angle concave wheels, a movable square bracket, two pairs of movable limiting shafts, a horizontal adjusting threaded rod, a horizontal adjusting threaded pipe, a horizontal adjusting gear box, a horizontal adjusting driver, a plurality of lifting bearing blocks, a plurality of lifting limiting shafts, a plurality of lifting sleeve springs and a plurality of lifting extrusion rollers;

the two pairs of movable limiting shafts are inserted in the concave support blocks in pairs, the movable return-shaped support is sleeved on the two pairs of movable limiting shafts, the horizontal adjusting threaded pipe is inserted in the concave support blocks through bearings, the horizontal adjusting threaded rod is inserted in the inner sides of the horizontal adjusting threaded pipe through bearings, the horizontal adjusting threaded rod is inserted in the movable return-shaped support through bearings, a pair of return-shaped limiting blocks are respectively arranged on the movable return-shaped support and the concave support blocks, two pairs of angle shafts are respectively inserted in the inner sides of the pair of return-shaped limiting blocks, two pairs of angle concave wheels are respectively arranged on the two pairs of angle shafts, the horizontal adjusting gear box is sleeved on the horizontal adjusting threaded pipe, the driving end of the horizontal adjusting machine is connected to the horizontal adjusting gear box, a plurality of lifting limiting grooves are formed in the movable return-shaped support, the bearing blocks are respectively movably inserted in the inner sides of the lifting limiting grooves, the lifting shafts are respectively arranged on the lifting limiting shafts, and the lifting limiting shafts are respectively arranged on the lifting limiting grooves.

2. The movable feeding structure for the rewinder according to claim 1, wherein the movable loop-shaped bracket is provided with an infrared range finder.

3. The movable feeding structure for the rewinder according to claim 2, wherein the lifting limiting grooves are arranged on the movable back-shaped support in a tooth-shaped cross manner.

4. A movable feeding structure for a rewinder according to claim 3, wherein a plurality of the lifting and pressing rollers are respectively provided with an adjusting structure;

the adjusting structure comprises: the device comprises a pair of telescopic circular rings, a pair of toothed circular ring blocks, a pair of circular arc circular ring sleeve blocks and a pair of extrusion sleeve springs;

the lifting extrusion roller is provided with a plurality of telescopic holes, a pair of telescopic circular rings are sleeved on the inner shaft of the lifting extrusion roller respectively, a pair of toothed circular ring blocks are mounted on the telescopic circular rings respectively, a pair of circular arc circular ring sleeve blocks are mounted on the toothed circular ring blocks respectively, and a pair of extrusion sleeve springs are sleeved on the inner shaft of the lifting extrusion roller respectively.

5. The movable feeding structure for a rewinder according to claim 4, wherein a tightness sensor is arranged on the inner side of the movable rectangular bracket.

6. The movable feeding structure for the rewinder according to claim 5, wherein a horizontal bearing is arranged at the joint of the movable rectangular bracket and the two pairs of movable limiting shafts.