CN113130147B - Wire and cable recycling processing device and processing method - Google Patents

Abstract

The invention relates to a wire and cable recycling treatment device and a wire and cable recycling treatment method, which comprise a workbench, a first cutting mechanism, a second cutting mechanism, a first adjusting mechanism, a second adjusting mechanism and a crushing mechanism.

Description

Wire and cable recycling processing device and processing method

Technical Field

The invention relates to the field of wires and cables, in particular to a wire and cable recycling processing device and a wire and cable recycling processing method.

Background

The wire and cable is used for transmitting electric (magnetic) energy, information and wire products for realizing electromagnetic energy conversion, the wire and cable in a broad sense is also called as cable for short, the cable in a narrow sense is insulated cable, and it can be defined as: an aggregate consisting of; one or more insulated wire cores, and a coating layer, a total protective layer and an outer protective layer which may be respectively arranged on the insulated wire cores, the cable also can be added with conductor wires and cables without insulation, the conductor wires and cables have the most of products with the same cross section (cross section) shape (neglecting errors caused by manufacturing) and are in a long strip shape, the service life of the wires and cables is limited due to the characteristics of the wires or coils used in a system or equipment, the wires and cables are recycled by cutting off the outer protective layer,

the existing electric wire and cable may encounter the following problems in the process of recycling and cutting the outer sheath:

1. in the existing process of recycling and cutting the outer sheath of the electric wire and cable, the outer sheath of the electric wire and cable is manually cut, the outer sheath of the electric wire and cable is firstly axially cut and then annularly cut during cutting, the outer sheath of the electric wire and cable cannot be continuously axially cut and annularly cut at the same time, and the outer sheath of the electric wire and cable is cut unevenly manually, so that the working efficiency is slow;

2. when the outer sheath of the wire and cable needs to be cut in different lengths, the outer sheath of the wire and cable is cut manually, so that the hands of workers are easily injured due to misoperation.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a wire and cable recycling processing device and a processing method.

The technical scheme adopted by the invention to solve the technical problem is as follows: the utility model provides an electric wire and cable retrieves processing apparatus of recycling, includes workstation, first cutting mechanism, second cutting mechanism, first adjustment mechanism, second adjustment mechanism and rubbing crusher structure, workstation top be provided with first cutting mechanism, the workstation top is provided with second cutting mechanism, is provided with first adjustment mechanism on the first cutting mechanism, is provided with second adjustment mechanism on the second cutting mechanism, the right-hand rubbing crusher structure that is provided with of second cutting mechanism.

The first cutting mechanism comprises L-shaped plates, rotating rings, connecting rods, arc-shaped plates, cutters, U-shaped plates, supporting plates, a circular barrel, mounting grooves, a placing groove, round rods, mounting blocks, a first motor and rotating plates, the L-shaped plates with opposite openings are symmetrically mounted in front and back of the upper end face of the workbench, the rotating plates are mounted on the opposite faces of the horizontal sections of the two L-shaped plates, the rotating plates are of arc-shaped structures, internal threads are formed in the opposite faces of the rotating plates, the rotating rings are connected in a threaded mode to the opposite faces of the rotating plates, external threads matched with the internal threads are formed in the outer ring faces of the rotating rings, a plurality of connecting rods are arranged and hinged in an equidistant mode on the inner ring faces of the rotating rings, the arc-shaped plates are hinged to one ends of the connecting rods, the cutters are arranged on one sides of the arc-shaped plates, the U-shaped plates are symmetrically mounted in front and back of the upper end face of the workbench, which is close to the right end, the supporting plates are symmetrically mounted in front and back of the upper end face of the workbench, one of them backup pad fixed mounting has round barrel, the one end that the backup pad was kept away from to round barrel is circular cavity structure, round barrel keeps away from the one end bilateral symmetry of backup pad and has seted up the mounting groove, the mounting groove has been seted up to the backup pad up end of keeping away from round barrel, the mounting groove is the U-shaped structure, be provided with the round bar between mounting groove and the round barrel, the one end fixed mounting of round bar has the installation piece, mounting groove and installation piece all are T shape structure, the backup pad that is close to round barrel installs the motor through the frame, the output shaft of motor wears to establish the backup pad and with round barrel fixed connection, put wire and cable book in the U-shaped inslot of U-shaped board, then put the installation piece that the round bar was served in the mounting groove, the other end of round bar is put in the mounting groove of backup pad, run through the swivel and twine on the round bar with wire and cable's one end again, it is to twine wire and cable to drive the cutter on the arc when round barrel and round bar rotated through the motor rotation The outer sheath is axially cut, and the rotating round rod winds the cores of the wires and the cables, so that the cores of the wires and the cables are conveniently subjected to centralized processing.

The second cutting mechanism comprises a supporting block, a hollow disc, rotating shafts, a belt, a rotating disc, a connecting shaft, a rotating rod, a swinging rod, a first blade, an L-shaped plate, a circular ring, a rectangular hole, a first gear, a rotating shaft, a second gear and a second motor, the hollow disc is installed on the upper end face of the workbench through the supporting block, the supporting block is positioned between the L-shaped plate and the supporting plate, the circle center position of the hollow disc corresponds to the circle center position of the rotating ring, the rotating shafts which are staggered with the cutter positions are arranged on the right end face of the hollow disc at equal intervals, two adjacent rotating shafts are connected through belt transmission, the rotating disc is fixedly sleeved on the rotating shafts, the connecting shaft is fixedly installed at the position of the rotating disc close to the outer edge, the rotating rods are hinged on the rotating shafts, the swinging rod is hinged at one end of the rotating rod far away from the connecting shaft, the first blade is installed at one end of the swinging rod far away from the rotating rod, the first blade is of an arc structure, the front and the back of the upper end face of the workbench are symmetrically provided with L plates with opposite openings, the opposite faces of the horizontal sections of the two L plates are jointly provided with a circular ring, the circle center position of the circular ring corresponds to the circle center position of the hollow disc, the outer ring face of the circular ring is provided with a rectangular hole corresponding to the position of the swinging rod, the swinging rod penetrates through the rectangular hole, one rotating shaft is fixedly sleeved with a first gear, the right end face of the hollow disc is provided with a rotating shaft, the rotating shaft is fixedly sleeved with a second gear with more teeth than the first gear, the first gear and the second gear are in meshing transmission, a second motor is fixedly arranged on the rotating shaft, when the cutter axially cuts the core of the electric wire cable which is being wound, the rotating circular rod winds the core of the electric wire cable, the electric wire cable respectively penetrates through the hollow disc and the circular ring, and the second gear and the first gear are in meshing intermittent rotation through the rotation of the second motor, the first gear meshes with the intermittent rotation and simultaneously synchronously drives one of the rotating shafts to perform intermittent rotation, one of the rotating shafts intermittently rotates to drive the other rotating shafts to perform intermittent rotation with the rotating disc through the belt, the rotating disc intermittently rotates to enable the oscillating rod and the first blade to intermittently swing towards the middle, so that the first blade intermittently performs annular slitting on the outer sheath of the wire cable, the equidistant slitting of the outer sheath of the wire cable is realized, and the outer sheath of the wire cable which is axially and annularly slit falls down from the right side of the circular ring.

Wherein, the first adjusting mechanism comprises L-shaped rods, support rings, arc-shaped grooves and arc-shaped rods, the upper end surface of the workbench is provided with the L-shaped rods with opposite openings in a bilateral symmetry manner, the opposite surfaces of the two L-shaped rods are provided with the support rings together, the circle center position of the support rings corresponds to the circle center position of the rotating rings, the support rings are arranged in the rotating rings, the outer ring surfaces of the support rings are provided with the arc-shaped grooves corresponding to the positions of the connecting rods, the connecting rods penetrate through the corresponding arc-shaped grooves, the arc-shaped grooves are symmetrically arranged on the two sides of the arc-shaped plates, each two groups of arc-shaped plates are connected through the arc-shaped rods, the arc-shaped rods are connected with the arc-shaped grooves in a sliding fit manner, when the wire and cable outer sheaths with different sizes need to be cut, the connecting rods push the arc-shaped plates through the matching of the rotating rings and the internal threads of the rotating plates, the arc-shaped grooves on the support rings limit the connecting rods, the connecting rod produces the displacement when avoiding rotating the swivel becket, and the diameter distance between the arc is adjusted to the arc pole slides in the arc recess to make the cutter carry out the axial to not equidimension wire and cable oversheath and cut.

Wherein, the second adjusting mechanism comprises a rolling shaft, a T-shaped groove, a T-shaped block, a bidirectional electric push rod, a connecting block, a second blade, a rectangular groove, a moving rod, a tooth block and an electromagnet, the rolling shaft is arranged between two adjacent rotating shafts, the rolling shaft is in transmission connection with the two adjacent rotating shafts through a belt, the right end face of the hollow disc is provided with the T-shaped groove corresponding to the positions of the rotating shaft, the rolling shaft and the rotating shafts, the T-shaped block which is in rotary connection with the rotating shaft, the rolling shaft and the rotating shafts through bearings is arranged in the T-shaped groove, the bidirectional electric push rod is fixedly arranged at the position of the swinging rod close to the first blade, the connecting block is fixedly arranged at both ends of the bidirectional electric push rod, the connecting block is of a telescopic structure, the second blade is fixedly arranged at the lower end face of the connecting block, the second blade is of an arc structure, and the second blade corresponds to the position of the first blade, the first gear is provided with rectangular grooves which are distributed in a staggered manner with gear teeth, two sides of each rectangular groove are provided with moving grooves, the moving grooves are communicated with the rectangular grooves, moving rods are arranged in the moving grooves, tooth blocks with the same structure as the gear teeth on the first gear are fixedly arranged between the two moving rods, the tooth blocks are positioned in the rectangular grooves, electromagnets are fixedly arranged on the opposite surfaces of the moving rods and the moving grooves, the electromagnets in the moving grooves are close to the outer edge of the first gear, when the wire cable outer sheaths with different sizes are required to be cut, the rolling shafts are moved in the T-shaped grooves and synchronously drive the belt to move, the belt moves to enable the rotating shafts and the second blade to move along with the moving shafts, meanwhile, the bidirectional electric push rods push the second blade to move towards two ends of the first blade, and the connecting blocks stretch to adjust the positions of the second blade and the first blade, and therefore the annular cutting of the wire cable outer sheaths with different sizes by the first blade and the second blade is realized, when the outer sheaths of the electric wires and the cables with different lengths need to be cut, the electromagnet is electrified and is attracted in different stages to drive the movable rod to slide in the certain groove to move towards the outer edge of the first gear, the movable rod synchronously drives the tooth block to move towards the outer edge of the first gear while moving, so that the number of teeth of the first gear is increased, when the second gear and the first gear are in intermittent meshing transmission, the interval between the second gear and the first gear in intermittent meshing transmission is increased due to the fact that the number of teeth of the first gear is increased, the first blade and the second blade can simultaneously cut the outer sheaths of the electric wires and the cables with different lengths, the crushing mechanism can conveniently work, when the electric wires and the cables with different lengths do not need to be cut, the electromagnet is powered off, and the movable rod drives the tooth block to recover the state before the outer sheaths work.

Wherein, the crushing mechanism comprises vertical plates, round shafts, rollers, return plates, guide plates, rotating gears, three motors and a material receiving box, the vertical plates are symmetrically arranged on the left and right of the upper end surface of the workbench, the round shafts are symmetrically connected with the vertical plates in a front-back manner through bearings in a rotating manner, the rollers are fixedly sleeved on the round shafts, a plurality of protruding blades are arranged on the rollers at equal intervals in the circumferential direction, the two rollers are in meshing transmission, the return plates are sleeved on the round shafts, the two rollers are both arranged in the return plates, the front and back ends of the return plates are both in arc structures, the upper ends and the lower ends of the return plates are both in opening shapes, the guide plates are symmetrically arranged in the front and back of the upper end surface of the return plates, the upper ends of the guide plates are outwards expanded, the rotating gears are fixedly sleeved on the round shafts, the two rotating gears are in meshing transmission, one of the vertical plates is provided with the three motors through the second stand, the output shafts of the three motors penetrate through the vertical plates and are fixedly connected with one of the round shafts, the workstation up end is provided with the material receiving box, the material receiving box is located the below of returning the shaped plate, rotate through No. three motors and drive one of them round axle and rotate, one of them round axle rotates and drives the internal transmission that meshes of rotating gear in step, make two running rollers mesh the rotation inwards, when the wire and cable oversheath that is cut by axial and annular falls down from the right side of toroid, fall into back on two running rollers in the shaped plate through the deflector, thereby two running rollers of internal meshing pivoted smash the wire and cable oversheath that falls down from the right side of toroid, the wire and cable oversheath that is smashed drops into the material receiving box from the lower extreme that returns the shaped plate, the material receiving box is collected kibbling wire and cable oversheath, be convenient for centralized processing.

Springs are arranged between the moving rod and the moving groove, and when the electromagnet is powered off, the moving rod drives the tooth block to reset under the elastic force action of the springs.

Wherein, the equal fixed mounting in one side of connecting rod is kept away from to the arc have a nut, equal spiro union has the screw rod with cutter fixed connection in the nut, when the cutter needs to be changed, the nut is twisted out to the rotatory screw rod that will install the cutter, the nut is twisted in to the screw rod rotation that will install new cutter again to avoid dismantling the cutter repeatedly when the cutter needs to be changed, improved work efficiency.

In addition, the invention also provides a processing method of the wire and cable recycling processing device, which comprises the following steps:

s1, winding and placing the electric wires and cables in the U-shaped groove of the U-shaped plate, then placing the mounting block on one end of the round rod in the mounting groove, and placing the other end of the round rod in the placing groove of the supporting plate;

s2, penetrating one end of the wire and cable through the rotating ring and winding the wire and cable on the round rod, and axially slitting the outer sheath of the wire and cable which is being wound by the cutter on the arc-shaped plate while driving the round barrel and the round rod to rotate through the rotation of the first motor;

s3, the rotating round rod winds the cores of the electric wires and the electric cables, and the cores of the electric wires and the electric cables are conveniently subjected to centralized processing.

Compared with the prior art, the invention has the following advantages:

1. the invention adopts the cutter to axially cut the outer sheath of the wire and cable being wound, the first blade intermittently cuts the outer sheath of the wire and cable in the circumferential direction, the equidistant cutting of the outer sheath of the wire and cable is realized, when the outer sheaths of the electric wires and the cables with different sizes need to be cut, the rotating ring is rotated to enable the connecting rod to push the arc-shaped plates, the arc-shaped groove limits the connecting rod, the connecting rod is prevented from generating displacement when the rotating ring is rotated, the arc-shaped rod slides in the arc-shaped groove to adjust the diameter distance between the arc-shaped plates, thereby leading the cutter to carry out axial slitting on the wire and cable outer sheaths with different sizes, and simultaneously moving the rolling shaft to slide in the T-shaped groove, the moving rolling shaft synchronously drives the belt to move, the belt moves to enable the rotating shaft and the second blade to move along with the belt, therefore, the first blade and the second blade perform annular slitting on the wire and cable outer sheaths with different sizes;

2. the electromagnet is electrified and attracted in the same stage to drive the movable rod and the tooth block to move towards the outer edge of the first gear, so that the number of teeth of the first gear is increased, the interval between the second gear and the first gear in intermittent meshing transmission is shortened, the second blade can cut the outer sheath of the wire cable in different lengths, the work of the crushing mechanism is facilitated, and the hands of workers are not injured by the blades when the outer sheath of the wire cable is cut off.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a front cross-sectional view of the present invention;

FIG. 5 is a right side elevation view of the present invention;

FIG. 6 is a front cross-sectional view of the present invention;

FIG. 7 is a schematic structural view of a first gear, a rectangular groove, a moving rod, a tooth block and a battery iron according to the present invention;

FIG. 8 is an enlarged view of a portion of the invention at A in FIG. 3;

fig. 9 is a partial enlarged view of the invention at B of fig. 5.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the widths of lines or the sizes of components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 9, an electric wire and cable recycling and reusing processing device comprises a workbench 1, a first cutting mechanism 2, a second cutting mechanism 3, a first adjusting mechanism 4, a second adjusting mechanism 5 and a crushing mechanism 6, wherein the first cutting mechanism 2 is arranged above the workbench 1, the second cutting mechanism 3 is arranged above the workbench 1, the first adjusting mechanism 4 is arranged on the first cutting mechanism 2, the second adjusting mechanism 5 is arranged on the second cutting mechanism 3, and the crushing mechanism 6 is arranged on the right side of the second cutting mechanism 3.

The first cutting mechanism 2 comprises L-shaped plates 20, rotating rings 21, connecting rods 22, arc-shaped plates 23, cutters 24, U-shaped plates 25, supporting plates 26, a round barrel 27, a mounting groove 28, a placing groove 29, round rods 2a, mounting blocks 2b, a first motor 2c and rotating plates 2d, the L-shaped plates 20 with opposite openings are symmetrically mounted in front and back of the upper end face of the workbench 1, the rotating plates 2d are mounted on opposite faces of horizontal sections of the two L-shaped plates 20, the rotating plates 2d are of arc-shaped structures, internal threads are formed in opposite faces of the rotating plates 2d, the rotating rings 21 are screwed on opposite faces of the rotating plates 2d, external threads matched with the internal threads are formed in outer ring faces of the rotating rings 21, the connecting rods 22 are hinged to inner ring faces of the rotating rings 21 in an equidistant manner, the arc-shaped plates 23 are hinged to one ends, far away from the rotating rings 21, the cutters 24 are arranged on one sides, far away from the connecting rods 22, of the arc-shaped plates 23, the upper end surface of the workbench 1 is symmetrically provided with a U-shaped plate 25 in the front-back direction near the left end, the upper end surface of the workbench 1 is symmetrically provided with a supporting plate 26 in the front-back direction near the right end, one of the supporting plates 26 is fixedly provided with a round barrel 27, one end of the round barrel 27 far away from the supporting plate 26 is in a round cavity structure, one end of the round barrel 27 far away from the supporting plate 26 is symmetrically provided with a mounting groove 28 in the left-right direction, the upper end surface of the supporting plate 26 far away from the round barrel 27 is provided with a placing groove 29, the placing groove 29 is in a U-shaped structure, a round rod 2a is arranged between the placing groove 29 and the round barrel 27, one end of the round rod 2a is fixedly provided with a mounting block 2b, the mounting groove 28 and the mounting block 2b are both in a T-shaped structure, the supporting plate 26 near the round barrel 27 is provided with a motor 2c through a motor base, an output shaft of the motor 2c penetrates through the supporting plate 26 and is fixedly connected with the round barrel 27, wires and cables are coiled in the U-shaped groove of the U-shaped plate 25, then put the installation piece 2b of round bar 2a one end in mounting groove 28, the other end of round bar 2a is put in the standing groove 29 of backup pad 26, run through swivel ring 21 and twine on round bar 2a with electric wire and cable's one end again, rotate through a motor 2c and drive round bucket 27 and round bar 2a and carry out pivoted while cutter 24 on the arc 23 is just carrying out the axial to the oversheath of the electric wire and cable who is twining and is cut, pivoted round bar 2a rolls up electric wire and cable's core, the electric wire and cable's of being convenient for core carries out centralized processing.

The equal fixed mounting in one side of connecting rod 22 is kept away from to arc 23 have nut 231, equal spiro union has the screw rod 232 with cutter 24 fixed connection in the nut 231, when needing to change cutter 24, rotatory screw rod 232 that will install cutter 24 screws out nut 231, will install the rotatory nut 231 of twisting of screw rod 232 of new cutter 24 again to cutter 24 has been avoided dismantling repeatedly when needing to change cutter 24, has improved work efficiency.

The second cutting mechanism 3 comprises a supporting block 30, a hollow disc 31, rotating shafts 32, belts 33, rotating discs 34, a connecting shaft 35, a rotating rod 36, a swinging rod 37, a first blade 38, an L-shaped plate 39, a circular ring 3a, a rectangular hole 3b, a first gear 3c, a rotating shaft 3d, a second gear 3e and a second motor 3f, the hollow disc 31 is installed on the upper end face of the workbench 1 through the supporting block 30, the supporting block 30 is located between the L-shaped plate 20 and the supporting plate 26, the circle center position of the hollow disc 31 corresponds to the circle center position of the rotating ring 21, the rotating shafts 32 which are staggered with the cutter 24 are arranged on the right end face of the hollow disc 31 at equal intervals, the two adjacent rotating shafts 32 are in transmission connection through the belts 33, the rotating discs 34 are fixedly sleeved on the rotating shafts 32, 35 are fixedly installed on the positions of the rotating discs 34 close to the outer edges, and the rotating shafts 35 are hinged with 36, the end of the rotating rod 36 far from the connecting shaft 35 is hinged with a swinging rod 37, one end of the swinging rod 37 far from the rotating rod 36 is provided with a first blade 38, the first blade 38 is of an arc structure, L plates 39 with opposite openings are symmetrically arranged in front and back of the upper end surface of the workbench 1, opposite surfaces of horizontal sections of the two L plates 39 are jointly provided with circular rings 3a, the circle center position of each circular ring 3a corresponds to the circle center position of the hollow disc 31, the outer ring surface of each circular ring 3a is provided with a rectangular hole 3b corresponding to the position of the swinging rod 37, the swinging rods 37 penetrate through the rectangular holes 3b, one rotating shaft 32 is fixedly sleeved with a first gear 3c, the right end surface of the hollow disc 31 is provided with a rotating shaft 3d, the rotating shaft 3d is fixedly sleeved with a second gear 3e with more teeth than the first gear 3c, the first gear 3c and the second gear 3e are in meshing transmission, the rotating shaft 3d is fixedly provided with a second motor 3f, when the outer sheath of the wire and cable being wound is axially cut by the cutter 24 and the core of the wire and cable is wound by the rotating round rod 2a, the wire and cable respectively passes through the hollow disc 31 and the circular ring 3a, the second motor 3f rotates to bring the second gear 3e to engage with the first gear 3c for intermittent rotation, the first gear 3c engages with the intermittent rotation and synchronously drives one of the rotating shafts 32 to perform intermittent rotation, one of the rotating shafts 32 intermittently rotates, and the other rotating shafts 32 and the rotating disc 34 are driven by the belt 33 to intermittently rotate, the rotating disc 34 intermittently rotates to intermittently swing the swinging rod 37 and the first blade 38 towards the middle, therefore, the first blade 38 intermittently performs annular slitting on the outer sheath of the wire and cable, so that the outer sheath of the wire and cable is slit equidistantly, and the axially and annularly slit outer sheath of the wire and cable falls down from the right side of the circular ring 3 a.

The first adjusting mechanism 4 comprises L-shaped rods 40, support rings 41, arc-shaped grooves 42, arc-shaped grooves 43 and arc-shaped rods 44, the L-shaped rods 40 with opposite openings are symmetrically arranged on the left and right of the upper end surface of the workbench 1, the support rings 41 are jointly arranged on the opposite surfaces of the two L-shaped rods 40, the circle center positions of the support rings 41 correspond to the circle center position of the rotating ring 21, the support rings 41 are arranged in the rotating ring 21, the arc-shaped grooves 42 corresponding to the positions of the connecting rods 22 are formed in the outer ring surface of the support rings 41, the connecting rods 22 penetrate through the corresponding arc-shaped grooves 42, the arc-shaped grooves 43 are symmetrically formed in the two sides of the arc-shaped plates 23, each two groups of arc-shaped plates 23 are connected through the arc-shaped rods 44, the arc-shaped rods 44 are connected with the arc-shaped grooves 43 in a sliding fit manner, when the outer sheaths of wires and cables with different sizes need to be cut, the rotating ring 21 is matched with the internal threads of the rotating plates 2d, make connecting rod 22 push arc plate 23, arc 42 on the support ring 41 carries on spacingly to connecting rod 22, and connecting rod 22 produces the displacement when avoiding rotating swivel 21, and arc 44 slides in arc recess 43 and adjusts the diameter distance between arc 23 to make cutter 24 carry out the axial to the wire and cable oversheath of equidimension not and cut.

The second adjusting mechanism 5 comprises a rolling shaft 50, a T-shaped groove 51, a T-shaped block 52, a two-way electric push rod 58, a connecting block 59, a second blade 5a, a rectangular groove 53, a moving groove 54, a moving rod 55, a tooth block 56 and an electromagnet 57, the rolling shaft 50 is arranged between two adjacent rotating shafts 32, the rolling shaft 50 is in transmission connection with the two adjacent rotating shafts 32 through a belt 33, the right end face of the hollow disc 31 is provided with the T-shaped groove 51 corresponding to the rotating shaft 3d, the rolling shaft 50 and the rotating shaft 32, the T-shaped block 52 which is in rotation connection with the rotating shaft 3d, the rolling shaft 50 and the rotating shaft 32 through bearings is arranged in the T-shaped groove 51, the two-way electric push rod 58 is fixedly arranged at the position of the swinging rod 37 close to the first blade 38, the connecting blocks 59 are fixedly arranged at the two ends of the two-way electric push rod 58, the connecting blocks 59 are of a telescopic structure, the second blade 5a is fixedly arranged at the lower end face of the connecting block 59, the second blade 5a is an arc structure, the second blade 5a corresponds to the first blade 38, the first gear 3c is provided with rectangular grooves 53 arranged in a staggered manner with the teeth of the first gear, both sides of the rectangular grooves 53 are provided with moving grooves 54, the moving grooves 54 are communicated with the rectangular grooves 53, moving rods 55 are arranged in the moving grooves 54, a tooth block 56 with the same structure as the teeth of the first gear 3c is fixedly arranged between the two moving rods 55, the tooth block 56 is positioned in the rectangular grooves 53, the opposite surfaces of the moving rods 55 and the moving grooves 54 are fixedly provided with electromagnets 57, the electromagnets 57 in the moving grooves 54 are close to the outer edge of the first gear 3c, when the wire and cable sheaths with different sizes need to be cut, the belt 33 is synchronously driven to move while the moving rolling shaft 50 slides in the T-shaped grooves 51, the belt 33 moves to enable the rotating shaft 32 and the second blade 5a to move along with the moving shaft, meanwhile, the two-way electric push rod 58 pushes the second blade 5a to move towards two ends of the first blade 38, the connecting block 59 stretches and retracts to adjust the position of the second blade 5a to correspond to the position of the first blade 38, so that the first blade 38 and the second blade 5a perform annular cutting on the wire and cable sheaths with different sizes, when the wire and cable sheaths with different lengths need to be cut, the electromagnet 57 is electrified and attracts in different stages to drive the moving rod 55 to slide in a certain groove to the outer edge of the first gear 3c, the moving rod 55 synchronously drives the tooth block 56 to move towards the outer edge of the first gear 3c while moving, so that the number of teeth of the first gear 3c is increased, when the second gear 3e is in intermittent meshing transmission with the first gear 3c, the number of teeth of the first gear 3c is increased, so that the interval between the second gear 3e and the first gear 3c in intermittent meshing transmission is increased, therefore, the first blade 38 and the second blade 5a can simultaneously cut the outer sheaths of the wires and cables in different lengths, the crushing mechanism 6 can conveniently work, when the outer sheaths of the wires and cables in different lengths are not required to be cut, the electromagnet 57 is powered off, and the movable rod 55 drives the tooth block 56 to recover the state before working.

A spring 551 is installed between the moving rod 55 and the moving groove 54, and when the electromagnet is powered off, the moving rod 55 drives the tooth block 56 to reset under the elastic force of the spring 551.

The crushing mechanism 6 comprises vertical plates 60, round shafts 61, rollers 62, a clip-shaped plate 63, guide plates 64, rotating gears 65, a third motor 66 and a material receiving box 67, the vertical plates 60 are symmetrically arranged on the left and right of the upper end face of the workbench 1, the round shafts 61 are symmetrically connected between the vertical plates 60 in a front-back mode through bearings in a rotating mode, the rollers 62 are fixedly sleeved on the round shafts 61, the rollers 62 are provided with a plurality of protruding blades which are distributed equidistantly along the circumferential direction, the two rollers 62 are in meshing transmission, the round shafts 61 are sleeved with the clip-shaped plate 63, the two rollers 62 are arranged in the clip-shaped plate 63, the front end and the rear end of the clip-shaped plate 63 are both in arc-shaped structures, the upper end and the lower end of the clip-shaped plate 63 are both in open shapes, the guide plates 64 are symmetrically arranged in the front and at the rear of the upper end face of the clip-shaped plate 63, the upper ends of the guide plates 64 are outwardly expanded, the rotating gears 65 are fixedly sleeved on the round shafts 61, the two rotating gears 65 are in meshing transmission, one of the vertical plate 60 is provided with the third motor 66 through a second machine base, an output shaft of a third motor 66 penetrates through the vertical plate 60 and is fixedly connected with one round shaft 61, a material receiving box 67 is arranged on the upper end face of the workbench 1, the material receiving box 67 is positioned below the return plate 63, one round shaft 61 is driven to rotate through the rotation of the third motor 66, one round shaft 61 synchronously drives the rotating gear 65 to carry out meshing transmission inwards, so that the two rollers 62 carry out meshing rotation inwards, when the wire and cable outer sheaths which are axially and annularly cut fall down from the right side of the round ring 3a, the wire and cable outer sheaths fall into the two rollers 62 in the return plate 63 through the guide plate 64, the two rollers 62 which are meshed to rotate inwards smash the wire and cable outer sheaths falling down from the right side of the round ring 3a, the smashed wire and cable outer sheaths fall into the material receiving box 67 from the lower end of the return plate 63, and the smashed wire and cable outer sheaths are collected by the material receiving box 67, is convenient for centralized processing.

In addition, the invention also provides a processing method of the wire and cable recycling processing device, which comprises the following steps:

s1, the electric wire and cable are rolled in the U-shaped groove of the U-shaped plate 25, and then the mounting block 2b on one end of the round bar 2a is placed in the mounting groove 28, and the other end of the round bar 2a is placed in the placing groove 29 of the supporting plate 26;

s2, penetrating one end of the wire and cable through the rotating ring 21 and winding the wire and cable on the round rod 2a, rotating the round barrel 27 and the round rod 2a through the first motor 2c, and axially cutting the outer sheath of the wire and cable which is being wound by the cutter 24 on the arc-shaped plate 23;

s3, the rotating round rod 2a winds the cores of the electric wires and cables, and the cores of the electric wires and cables are conveniently processed in a centralized mode.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a wire and cable retrieves processing apparatus of recycling, includes workstation (1), first cutting mechanism (2), second cutting mechanism (3), first adjustment mechanism (4), second adjustment mechanism (5) and rubbing crusher constructs (6), its characterized in that: a first cutting mechanism (2) is arranged above the workbench (1), a second cutting mechanism (3) is arranged above the workbench (1), a first adjusting mechanism (4) is arranged on the first cutting mechanism (2), a second adjusting mechanism (5) is arranged on the second cutting mechanism (3), and a crushing mechanism (6) is arranged on the right side of the second cutting mechanism (3);

the first cutting mechanism (2) comprises L-shaped plates (20), rotating rings (21), connecting rods (22), arc-shaped plates (23), cutters (24), U-shaped plates (25), supporting plates (26), a round barrel (27), mounting grooves (28), a placing groove (29), round rods (2a), mounting blocks (2b), a motor (2c) and rotating plates (2d), wherein the L-shaped plates (20) with opposite openings are symmetrically mounted on the front and back of the upper end face of the workbench (1), the rotating plates (2d) are mounted on opposite faces of horizontal sections of the two L-shaped plates (20), the rotating plates (2d) are of arc-shaped structures, internal threads are formed on opposite faces of the rotating plates (2d), the rotating rings (21) are connected with the opposite faces in a threaded manner, external threads matched with the internal threads are formed on the outer ring faces of the rotating rings (21), and the inner ring faces of the rotating rings (21) are equidistantly arranged and hinged with the connecting rods (22), an arc plate (23) is hinged to one end, far away from the rotating ring (21), of the connecting rod (22), a cutter (24) is arranged on one side, far away from the connecting rod (22), of the arc plate (23), U-shaped plates (25) are symmetrically arranged on the front and back of the upper end face of the workbench (1), close to the left end, of the upper end face of the workbench (1), supporting plates (26) are symmetrically arranged on the front and back of the upper end face of the workbench (1), close to the right end, of one of the supporting plates (26), a circular barrel (27) is fixedly installed on one of the supporting plates (27), one end, far away from the supporting plates (26), of the circular barrel (27), is of a circular cavity structure, mounting grooves (28) are symmetrically arranged on the left and right of the end, far away from the circular barrel (27), of the supporting plates (26) is provided with a placing groove (29), the placing groove (29) is of a U-shaped structure, a circular rod (2a) is arranged between the placing groove (29) and the circular barrel (27), one end of the circular rod (2a) is fixedly installed with a mounting block (2b), the mounting groove (28) and the mounting block (2b) are both of T-shaped structures, a first motor (2c) is mounted on a support plate (26) close to the round barrel (27) through a first machine base, and an output shaft of the first motor (2c) penetrates through the support plate (26) and is fixedly connected with the round barrel (27);

the second cutting mechanism (3) comprises a supporting block (30), a hollow disc (31), rotating shafts (32), a belt (33), a rotating disc (34), a connecting shaft (35), a rotating rod (36), a swinging rod (37), a first blade (38), an L-shaped plate (39), a circular ring (3a), a rectangular hole (3b), a first gear (3c), a rotating shaft (3d), a second gear (3e) and a second motor (3f), the upper end face of the workbench (1) is provided with the hollow disc (31) through the supporting block (30), the supporting block (30) is positioned between the L-shaped plate (20) and the supporting plate (26), the circle center position of the hollow disc (31) corresponds to the circle center position of the rotating ring (21), the rotating shafts (32) which are staggered with the cutter (24) are arranged on the right end face of the hollow disc (31) at equal intervals, and the two adjacent rotating shafts (32) are in transmission connection through the belt (33), the rotating shaft (32) is fixedly sleeved with a rotating disc (34), connecting shafts (35) are fixedly installed at positions, close to the outer edge, of the rotating disc (34), rotating rods (36) are hinged to the connecting shafts (35), swinging rods (37) are hinged to ends, far away from the connecting shafts (35), of the rotating rods (37), one end, far away from the rotating rods (36), of each swinging rod (37) is provided with a first blade (38), the first blade (38) is of an arc-shaped structure, L plates (39) with opposite openings are symmetrically installed in front of and behind the upper end face of the workbench (1), circular rings (3a) are installed on opposite faces of horizontal sections of the two L plates (39) together, the circle center positions of the circular rings (3a) correspond to the circle center position of the hollow disc (31), rectangular holes (3b) corresponding to the positions of the swinging rods (37) are formed in the outer ring face of the circular rings (3a), and the swinging rods (37) penetrate through the rectangular holes (3b), one of them pivot (32) is fixed to be equipped with one number gear (3c), and the right-hand member face of hollow disc (31) is provided with axis of rotation (3d), and the fixed cover is equipped with No. two gears (3e) that are more than one number gear (3c) number of teeth on axis of rotation (3d), and No. one gear (3c) and No. two gears (3e) are the meshing transmission, and fixed mounting has No. two motor (3f) on axis of rotation (3 d).

2. The electric wire and cable recycling device as claimed in claim 1, wherein: the first adjusting mechanism (4) comprises an L-shaped rod (40), a support ring (41), an arc-shaped groove (42), an arc-shaped groove (43) and an arc-shaped rod (44), l-shaped rods (40) with opposite openings are symmetrically arranged on the left and right of the upper end surface of the workbench (1), support rings (41) are jointly arranged on the opposite surfaces of the two L-shaped rods (40), the circle center position of each support ring (41) corresponds to the circle center position of the rotating ring (21), the support ring (41) is arranged in the rotating ring (21), the outer ring surface of the support ring (41) is provided with an arc-shaped groove (42) corresponding to the position of the connecting rod (22), and the connecting rods (22) all penetrate through the corresponding arc-shaped grooves (42), arc-shaped grooves (43) are formed in the two sides of the arc-shaped plates (23) symmetrically, each two groups of arc-shaped plates (23) are connected through arc-shaped rods (44), and the arc-shaped rods (44) are connected with the arc-shaped grooves (43) in a sliding fit mode.

3. The electric wire and cable recycling device as claimed in claim 1, wherein: the second adjusting mechanism (5) comprises rolling shafts (50), T-shaped grooves (51), T-shaped blocks (52), two-way electric push rods (58), connecting blocks (59), a second blade (5a), a rectangular groove (53), a moving groove (54), a moving rod (55), a tooth block (56) and an electromagnet (57), the rolling shafts (50) are arranged between two adjacent rotating shafts (32), the rolling shafts (50) are in transmission connection with the two adjacent rotating shafts (32) through belts (33), the T-shaped grooves (51) corresponding to the rotating shafts (3d), the rolling shafts (50) and the rotating shafts (32) are arranged on the right end face of the hollow disc (31), the T-shaped blocks (52) in rotary connection with the rotating shafts (3d), the rolling shafts (50) and the rotating shafts (32) through bearings are arranged in the T-shaped grooves (51), the two-way electric push rods (58) are fixedly arranged at positions of the swinging rods (37) close to the first blade (38), the two ends of the bidirectional electric push rod (58) are fixedly provided with connecting blocks (59), the connecting blocks (59) are of telescopic structures, the lower end face of each connecting block (59) is fixedly provided with a second blade (5a), the second blade (5a) is of an arc-shaped structure, the second blade (5a) corresponds to the first blade (38), a first gear (3c) is provided with a rectangular groove (53) which is staggered with gear teeth, two sides of the rectangular groove (53) are provided with moving grooves (54), the moving grooves (54) are communicated with the rectangular groove (53), moving rods (55) are arranged in the moving grooves (54), tooth blocks (56) which are identical to the gear teeth on the first gear (3c) in structure are fixedly arranged between the two moving rods (55), the tooth blocks (56) are positioned in the rectangular groove (53), electromagnets (57) are fixedly arranged on opposite surfaces of the moving rods (55) and the moving grooves (54), the electromagnet (57) in the moving groove (54) is close to the outer edge of the first gear (3 c).

4. The electric wire and cable recycling device as claimed in claim 1, wherein: the crushing mechanism (6) comprises vertical plates (60), circular shafts (61), rollers (62), a paper clip plate (63), guide plates (64), a rotating gear (65), a third motor (66) and a material receiving box (67), the vertical plates (60) are symmetrically installed on the left and right of the upper end face of the workbench (1), the circular shafts (61) are rotationally connected between the vertical plates (60) through bearings in a front-back symmetrical mode, the rollers (62) are fixedly sleeved on the circular shafts (61), a plurality of protruding blades are arranged on the rollers (62) in a circumferential direction at equal intervals, the two rollers (62) are in meshing transmission, the paper clip plate (63) is sleeved on the circular shafts (61), the two rollers (62) are both arranged in the paper clip plate (63), the front end and the back end of the paper clip plate (63) are both in arc structures and both open at the upper end and the lower end, the guide plates (64) are symmetrically installed on the front and back of the upper end faces of the paper clip plate (63), the upper end of deflector (64) all outwards expands, all fixed cover is equipped with rotating gear (65) on circle axle (61), two rotating gear (65) are the meshing transmission, No. three motor (66) are installed through No. two frames in one of them vertical board (60), the output shaft of No. three motor (66) is worn to establish vertical board (60) and with one of them circle axle (61) fixed connection, workstation (1) up end is provided with and connects workbin (67), it is located the below of returning shape board (63) to connect workbin (67).

5. The electric wire and cable recycling device as claimed in claim 3, wherein: springs (551) are arranged between the moving rod (55) and the moving groove (54).

6. The electric wire and cable recycling device as claimed in claim 1, wherein: the arc-shaped plate (23) is fixedly provided with a nut (231) at one side far away from the connecting rod (22), and the nut (231) is internally screwed with a screw (232) fixedly connected with the cutter (24).

7. The electric wire and cable recycling apparatus as set forth in any one of claims 1 to 6, wherein: the processing method of the wire and cable recycling processing device comprises the following steps:

s1, winding and placing the wires and cables in the U-shaped groove of the U-shaped plate (25), then placing the mounting block (2b) on one end of the round rod (2a) in the mounting groove (28), and placing the other end of the round rod (2a) in the placing groove (29) of the supporting plate (26);

s2, penetrating one end of the wire and cable through the rotating ring (21) and winding the wire and cable on the round rod (2a), and rotating the round barrel (27) and the round rod (2a) through the first motor (2c) and simultaneously axially cutting the outer sheath of the wound wire and cable by the cutter (24) on the arc-shaped plate (23);

s3, the rotating round rod (2a) winds the cores of the wires and cables, and the cores of the wires and cables are conveniently and intensively processed.

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