CN215988247U - Regenerated cable splitting device - Google Patents

Abstract

The utility model discloses a regenerated cable skin breaking device which comprises a machine base (1), a supporting frame (6), a suspension frame (11), a rotary lower skin breaking device, a rotary upper skin breaking device, a driving motor (2) and a tensioning wheel (4). The rotary upper skin breaking device, the rotary lower skin breaking device and the driving motor are matched, so that the skin breaking of a cable protective layer can be completed while the cable is conveyed, namely, the conveying and peeling knife are integrated, the synchronous conveying and skin breaking are realized, the cable is solid and the skin breaking are not influenced by the aging uniformity of the cable protective layer, the stability and the efficiency of the cable conveying and the skin breaking are effectively ensured, and the problems of poor skin breaking stability and low efficiency of the conventional cable skin breaking device are well solved.

Description

Regenerated cable splitting device

Technical Field

The utility model relates to a device for breaking skins, in particular to a device for breaking skins of a regenerated cable.

Background

The economic development mode of recycling the renewable resources by continuously recycling the materials is becoming a global trend, and in our lives, there are many renewable resources, wherein the waste cable is one of the renewable resources. The cable generally comprises a guide core and an insulating sleeve, so that the recovered waste cable needs to peel a protective layer of the cable from the guide core so as to realize respective regeneration treatment of the guide core and the insulation. Need break the skin processing to the cable before peeling off the protective layer with the cable from leading the core to the protective layer is peeled off, and it is mostly artifical and carries out the cable through the broach and break the skin to pass the broken skin of cable, and the efficiency of this kind of artifical broken skin is poor, in order to improve the broken skin efficiency of regeneration cable, has developed the mechanical device that is used for the broken skin of cable in the trade, very big improvement the broken skin efficiency of cable.

At present, the broken device of cable is mostly the transfer gear and fixes the broach component in the transfer gear top, during the use, drives the cable through the transfer gear, makes the cable pass through fixed broach below, and the cable passes through the broach under the drive of transfer gear, and the broach alright rips the cable protection layer, realizes that the cable is broken. However, the protective layer of one waste cable has different aging degrees of partial sections, that is, the hardness of partial sections of the protective layer of one waste cable is different, so that the transmission force generated by the transmission wheel cannot enable the cable to pass through the fixed stripping knife, and the cable is stuck before stopping, therefore, the existing cable skin breaking device has the problems of poor stability and low skin breaking efficiency, and the existing cable skin breaking device cannot meet the requirements of the cable regeneration industry.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the conventional cable skin breaking device and provides a regenerated cable skin breaking device capable of effectively ensuring the cable skin breaking efficiency.

The purpose of the utility model is realized by the following technical scheme: a regenerated cable skin breaking device comprises a machine base, a support frame arranged on the machine base, a suspension bracket arranged in the support frame through a lifting mechanism, a rotary lower skin breaking device movably arranged on the support frame, a rotary upper skin breaking device movably arranged on the suspension bracket, a driving motor arranged on the machine base and used for driving the rotary lower skin breaking device and the rotary upper skin breaking device, and a tensioning wheel arranged on the outer side wall of one end, close to the driving motor, of the support frame; the rotary lower skin breaking device, the rotary upper skin breaking device, the driving wheel of the driving motor and the tensioning wheel are hinged through a belt; the rotary upper skin breaking device is positioned right above the rotary lower skin breaking device.

As a further scheme of the utility model, the rotary type lower skin breaking device comprises a lower roller, a plurality of lower roller tooth grooves uniformly distributed on the lower roller, a lower groove conical cutter arranged in the lower roller tooth grooves, and a first belt pulley arranged on a rotating shaft of the lower roller; one end of a rotating shaft of the lower roller is mounted on the side wall, far away from the driving motor, of the support frame through a sitting bearing, the other end of the rotating shaft of the lower roller is mounted on the side wall, close to the driving motor, of the support frame through the sitting bearing and extends out of the side wall of the support frame from inside to outside, and the first belt pulley is fixedly arranged on the rotating shaft, penetrating through the support frame, of the lower roller and is in rolling connection with the belt.

As a further scheme of the utility model, a strip-shaped opening is formed in the side wall, close to the driving motor, of the support frame.

As a further scheme of the utility model, the rotary type upper skin breaking device comprises an upper roller, a plurality of upper roller tooth grooves uniformly distributed on the upper roller, an upper groove conical cutter arranged in the upper roller tooth grooves, and a second belt pulley arranged on a rotating shaft of the upper roller; one end of the rotating shaft of the upper roller is mounted on the side wall of the suspension bracket far away from the driving motor through a sitting bearing, the other end of the rotating shaft of the upper roller is mounted on the side wall of the suspension bracket near the driving motor through a sitting bearing and extends out of the strip-shaped opening of the support frame, and the second belt pulley is fixedly arranged on the rotating shaft of the strip-shaped opening of the lower roller and is in rolling connection with the belt; the lower wheel tooth groove and the upper wheel tooth groove are symmetrical and form a cable sheath breaking cavity together.

As a further aspect of the present invention, the lifting mechanism includes a screw and a slide arm; the screw rod penetrates through the transverse plate of the support frame from top to bottom and is in threaded connection with the transverse plate of the support frame, and the lower end of the screw rod is movably connected with the suspension frame; the number of the sliding arms is two, the two sliding arms are symmetrically arranged on the transverse plate of the supporting frame and can slide up and down, the sliding arms penetrate through the transverse plate of the supporting frame and are fixedly connected with the suspension frame, and the screw rod is positioned between the two sliding arms.

In order to rotate the screw rod, a handle is arranged at the top end of the screw rod, and meanwhile, in order to enable the suspension frame to have better stability after lifting, a positioning nut is arranged at one end of the screw rod, which is located below the transverse plate of the support frame. And a positioning block is arranged at one end of the sliding arm below the transverse plate of the support frame.

In order to prevent the broken cable from being curled on the base and affecting the normal work of the broken device, a guide chute is arranged on the supporting frame and is positioned at the discharge side of the lower roller and the upper roller.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

(1) the rotary upper skin breaking device, the rotary lower skin breaking device and the driving motor are matched, so that the skin breaking of a cable protective layer can be completed while the cable is conveyed, namely, the conveying and peeling knife are integrated, the synchronous conveying and skin breaking are realized, the cable is solid and the skin breaking are not influenced by the aging uniformity of the cable protective layer, the stability and the efficiency of the cable conveying and the skin breaking are effectively ensured, and the problems of poor skin breaking stability and low efficiency of the conventional cable skin breaking device are well solved.

(2) The lifting mechanism and the tensioning wheel are matched, so that the height and the clamping degree of the rotary type upper skin breaking device can be adjusted, the cable transmission and skin breaking effects are ensured, and the application range of the cable skin breaking device is effectively enlarged.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic illustration of the installation of the inventive belt.

Fig. 3 is a schematic structural view of the material guide chute of the present invention.

In the drawings, the names of the parts corresponding to the reference numerals are as follows: 1-machine base, 2-driving motor, 3-first belt pulley, 4-tensioning wheel, 5-second belt pulley, 6-support frame, 7-locating block, 8-slide arm, 9-locating nut, 10-screw, 11-suspension bracket, 12-upper roller, 1201-upper wheel tooth socket, 1202-upper groove conical cutter, 13-guide groove, 14-lower roller, 1401-lower wheel tooth socket, 1402-lower groove conical cutter, 15-transmission wheel, 16-cutter belt and 17-strip-shaped opening.

Detailed Description

The present invention will be described in further detail with reference to examples, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 to 3, the regenerative cable peeling device of the present embodiment includes a base 1, a supporting frame 6, a suspension frame 11, a rotary lower peeling device, a rotary upper peeling device, a driving motor 2, and a tension wheel 4. In particular, the frame 1 acts as a support and carrier for the entire device. The support frame 6 is arranged on the base 1 and fixed through screws, and a strip-shaped opening 17 is formed in the side wall, close to the driving motor 2, of the support frame 6. The suspension 11 is disposed within the support frame 6 by a lifting mechanism, the suspension 11 being movable up and down by the lifting mechanism in use. The rotary type lower skin breaking device is movably arranged on the support frame 6, and during installation, the rotary type lower skin breaking device is arranged on the support frame 6 through a sitting bearing, so that the whole rotary type lower skin breaking device can realize 360-degree rotation. The rotary upper skin breaking device is movably arranged on the suspension bracket 11, and during installation, the rotary upper skin breaking device is installed on the suspension bracket 11 through a sitting bearing, so that the rotary upper skin breaking device can realize 360-degree rotation.

The rotary upper skin breaking device is positioned right above the rotary lower skin breaking device, and all parts of the rotary upper skin breaking device positioned on the rotary lower skin breaking device are mutually symmetrical. The driving motor 2 is arranged on the base 1 and fixed through screws, and the driving motor 2 is used for driving the rotary lower skin breaking device and the rotary upper skin breaking device to rotate. The tensioning wheel 4 is disposed on an outer side wall of one end of the supporting frame 6 close to the driving motor 2, and the tensioning wheel 4 is a conventional belt tightness adjuster in the prior art, and therefore, detailed description of a specific structure of the tensioning wheel 4 is not provided in this embodiment. In a specific use, the rotary type lower skin breaking device, the rotary type upper skin breaking device, the driving wheel 15 of the driving motor 2 and the tension pulley 4 are hinged through a belt 16, and the specific hinge mode of the rotary type lower skin breaking device, the rotary type upper skin breaking device, the driving wheel 15 of the driving motor 2 and the tension pulley 4 and the belt 16 is shown in fig. 2. When the tension pulley 4 is in an open state, the tension pulley of the tension pulley 4 is in close contact with the belt 16, at the moment, the belt 16 is in a tight state, and the rotary upper skin breaking device is in a fixed state. When the tension wheel of the tension wheel 4 is pulled away from the belt 16, the belt 16 is in a loose state, and the rotary type upper skin breaking device can move up and down under the action of the lifting mechanism.

As shown in FIG. 1, the rotary type lower skin breaking device comprises a lower roller 14, a lower gear groove 1401, a lower groove conical cutter 1402 and a first belt pulley 3. Specifically, the lower rollers 14 are preferably made of steel rollers with rotating shafts in the present embodiment. One end of the rotating shaft of the lower roller 14 is mounted on the side wall of the support frame 6 far away from the driving motor 2 through a sitting bearing, and the other end of the rotating shaft is mounted on the side wall of the support frame 6 near the driving motor 2 through a sitting bearing and extends out of the side wall of the support frame 6 from inside to outside. The number of the lower gear teeth 1401 is plural, and the plural lower gear teeth 1401 are evenly distributed on the lower roller 14, and the lower gear teeth 1401 are circumferential grooves around the lower roller 14. In this embodiment, the number of the lower gear slots 1401 is preferably set to three, and the number of the lower gear slots 1401 may be adjusted according to the actual production and use requirements. The lower groove-cone cutter 1402 is disposed in the lower wheel tooth slot 1401, and the lower groove-cone cutter 1402 is surrounded in the lower wheel tooth slot 1401 and is fixed to the lower roller 14. When the lower groove-cone cutter 1402 is specifically mounted, the lower groove-cone cutter 1402 can be split into two half-ring cutters, and when the lower groove-cone cutter 1402 is mounted and fixed, the lower groove-cone cutter can be fixed in the lower wheel tooth socket 1401 by welding or screws, and the lower groove-cone cutter 1402 is fixed in the middle of the lower wheel tooth socket 1401. The first belt pulley 3 is arranged on the rotating shaft of the lower roller 14, and when the belt pulley is installed, the first belt pulley 3 is fixedly arranged on the rotating shaft of the lower roller 14, which penetrates through the supporting frame 6, and is in rolling connection with the belt 16.

Further, the rotary type upper skin breaking device comprises a lower roller 12, an upper roller tooth groove 1201, an upper groove conical cutter 1202 and a second belt pulley 5. Specifically, the upper roller 12 is preferably a steel roller with a rotating shaft in the present embodiment. One end of the rotating shaft of the upper roller 12 is mounted on the side wall of the suspension bracket 11 far away from the driving motor 2 through a sitting bearing, and the other end of the rotating shaft is mounted on the side wall of the suspension bracket 11 near the driving motor 2 through a sitting bearing and extends out of the strip-shaped opening 17 of the support frame 6. The number of the upper wheel tooth spaces 1201 is plural, and the plural upper wheel tooth spaces 1201 are uniformly distributed on the upper roller 12, and the upper wheel tooth spaces 1201 are circumferential grooves around the upper roller 12. In this embodiment, the number of the upper gear tooth grooves 1201 is preferably set to three, and the number of the upper gear tooth grooves 1201 can be adjusted according to the requirements of actual production and use. The upper groove-cone cutter 1202 is disposed in the upper gear tooth groove 1201, and the upper groove-cone cutter 1202 is specifically surrounded in the upper gear tooth groove 1201 and is fixed to the upper roller 12. When the upper groove-cone cutter 1202 is specifically installed, the upper groove-cone cutter 1202 can be split into two half-ring cutters, and when the upper groove-cone cutter 1202 is fixedly installed, the upper groove-cone cutter 1202 can be fixed in the upper wheel tooth slot 1201 through welding or screws, and the upper groove-cone cutter 1202 is fixed in the middle of the upper wheel tooth slot 1201. The second belt pulley 5 is arranged on the rotating shaft of the upper roller 12, and when the belt is installed, the second belt pulley 5 is fixedly arranged on the rotating shaft of the upper roller 12, which penetrates through the strip-shaped opening 17 of the support frame 6, and is in rolling connection with the belt 16.

Still further, as shown in fig. 1, the lifting mechanism includes a screw 10 and a slider 8. Specifically, the screw rod 10 penetrates through the transverse plate of the support frame 6 from top to bottom and is in threaded connection with the transverse plate of the support frame 6, and the lower end of the screw rod 10 is movably connected with the suspension frame 11. During specific installation, the lower end of the screw rod 10 is preferentially connected with the suspension frame 11 through a movable connecting sleeve, a threaded hole matched with the screw rod 10 is preset in the middle of a transverse plate of the support frame 6, and the screw rod 10 is installed in the preset threaded hole of the transverse plate of the support frame 6. In order to facilitate the rotation of the screw 10, a handle 101 is provided at the tip of the screw 10, and the handle 101 is fitted over the screw 10 and fixed by a screw. Meanwhile, in order to position the screw 10 and the hanger 11, a positioning nut 9 is provided on one end of the screw 10 below the cross plate of the support frame 6. The number of the sliding arms 8 is two, the two sliding arms 8 are symmetrically arranged on the transverse plate of the support frame 6 and can slide up and down, and the sliding arms 8 penetrate through the transverse plate of the support frame 6 and then are fixedly connected with the suspension bracket 11. During specific installation, a transverse plate of the support frame 6 is preset with an installation hole with the diameter slightly larger than that of the sliding arm 8, and the sliding arm 8 is installed in the installation hole preset on the transverse plate of the support frame 6. The screw 10 is located between the two slide arms 8. In order to ensure the stability of the suspension bracket 11, a positioning block 7 is arranged at one end of the sliding arm 8 below the transverse plate of the support frame 6, a locking screw is preset on the positioning block 7, and the positioning block 7 can vertically move on the sliding arm 8. After the height of the suspension bracket 11 is adjusted, the positioning blocks 7 on the two sliding arms 8 are moved to be in close contact with the bottom of the transverse plate of the support frame 6, and then the positioning blocks 7 are locked, so that the suspension bracket 11 is stably suspended on the support frame 6, namely the upper roller 12 is stably suspended on the suspension bracket 11.

In order to prevent the broken cable from being curled on the base and affecting the normal operation of the skin breaking device, the supporting frame 6 is provided with a material guiding groove 13, when in specific installation, the material guiding groove 13 is fixed on two side walls of the supporting frame 6 through fixing screws, the material guiding groove 13 is located on the discharging side of the lower roller 14 and the upper roller 12, and the structure of the material guiding groove 13 is shown in fig. 3.

In the initial state of the utility model, the tension wheel of the tension wheel 4 is already pulled away from the belt 16, the belt 16 is in a loose state, and the suspension bracket 11 is in an adjustable state. When the cable sheath breaking device is used, a cable needing sheath breaking is placed in the lower gear tooth groove 1401 of the lower roller 14, the screw 10 is rotated to enable the upper roller 12 to be in contact with the upper surface of a cable protection layer, then the screw 10 is continuously rotated to enable the lower groove conical cutter 1402 in the lower gear tooth groove 1401 and the upper groove conical cutter 1202 in the upper gear tooth groove 1201 to be respectively inserted into the cable protection layer, and when the knife edges of the lower groove conical cutter 1402 and the upper groove conical cutter 1202 respectively touch the cable guide core, the screw 10 is rotated in a reverse direction for half circle, so that the knife edges of the lower groove conical cutter 1402 and the upper groove conical cutter 1202 are prevented from being in contact with the cable guide core in the sheath breaking. At this time, after the positioning nut 9 is screwed to be tightly contacted with the bottom of the transverse plate of the support frame 6, the positioning blocks 7 on the two slide arms 8 are moved to be tightly contacted with the bottom of the transverse plate of the support frame 6, and then the positioning blocks 7 are locked. At this time, the tension wheel of the tension wheel 4 is popped up, the tension wheel of the tension wheel 4 is in contact with the belt 16 (as shown in fig. 2), the driving motor 2 can be started, the driving motor 2 drives the upper roller 12 and the lower roller 14 to rotate clockwise, the lower groove-cone cutter 1402 and the upper groove-cone cutter 1202 rotate in the same direction with the upper roller 12 and the lower roller 14, the cable moves in the direction of rotating the upper roller 12 and the lower roller 14 under the meshing of the lower gear tooth groove 1401 and the upper gear tooth groove 1201, and the lower groove-cone cutter 1402 and the upper groove-cone cutter 1202 complete the up-and-down cutting of the cable protection layer while the cable moves.

When the lower groove conical cutter 1402 and the upper groove conical cutter 1202 are inserted into the protective layer, the lower gear tooth groove 1401 and the upper gear tooth groove 1201 extrude the protective layer to a certain extent, and when the lower groove conical cutter 1402 and the upper groove conical cutter 1202 rotate, an incision force towards the inner side of the protective layer is generated, and the protective layer can be cut well by reversely rotating the screw by 10 half turns, the lower groove conical cutter 1402 and the upper groove conical cutter 1202.

According to the utility model, because the lower groove conical cutter 1402 and the upper groove conical cutter 1202 cut the protective layer during rotation, the cutting is not affected by the aging degree of the cable protective layer, so that the stability and efficiency of cable transmission and skin breaking are effectively ensured, and the problems of poor skin breaking stability and low efficiency of the existing cable skin breaking device are well solved.

As described above, the present invention can be preferably realized.

Claims (8)

1. The regenerated cable skin breaking device is characterized by comprising a machine base (1), a support frame (6) arranged on the machine base (1), a suspension bracket (11) arranged in the support frame (6) through a lifting mechanism, a rotary lower skin breaking device movably arranged on the support frame (6), a rotary upper skin breaking device movably arranged on the suspension bracket (11), a driving motor (2) arranged on the machine base (1) and used for driving the rotary lower skin breaking device and the rotary upper skin breaking device, and a tension pulley (4) arranged on the outer side wall of one end, close to the driving motor (2), of the support frame (6); the rotary lower skin breaking device, the rotary upper skin breaking device, a driving wheel (15) of the driving motor (2) and the tensioning wheel (4) are hinged through a belt (16); the rotary upper skin breaking device is positioned right above the rotary lower skin breaking device.

2. The regenerated cable stripping device of claim 1, wherein: the rotary type lower skin breaking device comprises a lower roller (14), a plurality of lower roller tooth spaces (1401) uniformly distributed on the lower roller (14), lower groove conical cutters (1402) arranged in the lower roller tooth spaces (1401), and a first belt pulley (3) arranged on a rotating shaft of the lower roller (14); one end of a rotating shaft of the lower roller (14) is mounted on the side wall, far away from the driving motor (2), of the support frame (6) through a sitting bearing, the other end of the rotating shaft is mounted on the side wall, close to the driving motor (2), of the support frame (6) through the sitting bearing and extends out of the side wall of the support frame (6) from inside to outside, and the first belt pulley (3) is fixedly arranged on the rotating shaft, penetrating through the support frame (6), of the lower roller (14) and is in rolling connection with the belt (16).

3. The regenerated cable stripping device of claim 2, wherein: the side wall of the support frame (6) close to the driving motor (2) is provided with a strip-shaped opening (17).

4. The regenerated cable stripping device according to claim 3, characterized in that: the rotary type upper skin breaking device comprises an upper roller (12), a plurality of upper roller tooth grooves (1201) uniformly distributed on the upper roller (12), an upper groove conical cutter (1202) arranged in the upper roller tooth grooves (1201), and a second belt pulley (5) arranged on a rotating shaft of the upper roller (12); one end of a rotating shaft of the upper roller (12) is mounted on the side wall, far away from the driving motor (2), of the suspension frame (11) through a sitting bearing, the other end of the rotating shaft is mounted on the side wall, close to the driving motor (2), of the suspension frame (11) through the sitting bearing and extends out of the strip-shaped opening (17) of the support frame (6), and the second belt pulley (5) is fixedly arranged on the rotating shaft of the strip-shaped opening (17) of the lower roller (14) and is in rolling connection with the belt (16); the lower wheel tooth socket (1401) and the upper wheel tooth socket (1201) are symmetrical and form a cable sheath breaking cavity together.

5. The regenerated cable stripping device according to claim 4, characterized in that: the lifting mechanism comprises a screw rod (10) and a slide arm (8); the screw rod (10) penetrates through the transverse plate of the support frame (6) from top to bottom and is in threaded connection with the transverse plate of the support frame (6), and the lower end of the screw rod (10) is movably connected with the suspension frame (11); the number of the sliding arms (8) is two, the two sliding arms (8) are symmetrically arranged on the transverse plate of the support frame (6) and can slide up and down, the sliding arms (8) penetrate through the transverse plate of the support frame (6) and then are fixedly connected with the suspension frame (11), and the screw rod (10) is positioned between the two sliding arms (8).

6. The regenerated cable stripping device of claim 5, wherein: the top end of the screw rod (10) is provided with a handle (101), and one end of the screw rod (10) below the transverse plate of the support frame (6) is provided with a positioning nut (9).

7. The regenerated cable stripping device of claim 6, wherein: and a positioning block (7) is arranged at one end of the sliding arm (8) below the transverse plate of the support frame (6).

8. The regenerated cable stripping device of claim 7, wherein: the supporting frame (6) is provided with a guide chute (13), and the guide chute (13) is positioned on the discharging side of the lower roller (14) and the upper roller (12).

Images