CN116937449B

CN116937449B - Intelligent wire and cable manufacturing skin stripping equipment

Info

Publication number: CN116937449B
Application number: CN202311205593.0A
Authority: CN
Inventors: 张军
Original assignee: Nantong Dongfeng Special Cable Co ltd
Current assignee: Nantong Dongfeng Special Cable Co ltd
Priority date: 2023-09-19
Filing date: 2023-09-19
Publication date: 2023-12-22
Anticipated expiration: 2043-09-19
Also published as: CN116937449A

Abstract

The invention relates to the field of skin peeling, in particular to intelligent manufacturing wire and cable skin peeling equipment, which comprises a ring frame, wherein three mounting plates are uniformly distributed on an inner ring of the ring frame, worm gears respectively rotate on the three mounting plates, a mandrel is fixed on each worm gear, clamping rollers rotate on the mandrel, a control mechanism for simultaneously controlling the rotation of the three worm gears is connected to the ring frame, the three clamping rollers simultaneously approach to the center of the ring frame for clamping a wire and a cable, and two oppositely arranged cutters are connected to the ring frame for oppositely cutting the skin of the wire and the cable.

Description

Intelligent wire and cable manufacturing skin stripping equipment

Technical Field

The invention relates to the field of skin peeling, in particular to intelligent manufacturing wire and cable skin peeling equipment.

Background

The wire cable is also called cable for short, and is mainly used for strong electric energy transmission in power transmission, distribution, transmission, transformation and supply lines, and also used for transmitting electric energy, information and wire products for realizing electromagnetic energy conversion. After the electric wire and the cable are used for a long time, the electric wire and the cable need to be replaced, the waste cable has a certain recovery value, and the waste cable needs to be peeled off during recovery.

However, after the existing skin stripping equipment limits the wires and cables, when the wires and cables move, the sliding friction force between the wires and cables and the limiting structure needs to be overcome, so that the wires and cables are not beneficial to moving, and the continuous cutting and stripping of the wires and cables are affected.

Disclosure of Invention

The invention aims to provide an intelligent manufacturing wire and cable skin stripping device which is convenient for moving wires and cables and is beneficial to continuously cutting and stripping the wires and cables.

The aim of the invention is achieved by the following technical scheme: the utility model provides an intelligence manufacturing wire cable epidermis stripping off equipment, including the inner circle equipartition is equipped with the ring frame of three mounting panels, and three worm wheel that rotates respectively on three mounting panels, all be fixed with the dabber on the worm wheel, the epaxial clamping roller that rotates of dabber is connected with the control mechanism that is used for controlling three worm wheel pivoted simultaneously on the ring frame, makes three clamping roller be close to simultaneously and presss from both sides the center of electric wire cable clamp at the ring frame, is connected with two cutter that set up in opposite directions on the ring frame, is used for the epidermis opposite directions cutting of electric wire cable; two horizontal square rods are symmetrically arranged in the left-right direction of the ring frame, knife rests are respectively and slidably arranged on the two horizontal square rods, the two knife rests are symmetrically arranged, cutters are respectively arranged at the inner ends of the two knife rests, a bidirectional screw rod is rotated at the upper end of the ring frame, and two ends of the bidirectional screw rod are respectively in threaded connection with the two knife rests; the cutter is a disc cutter, and the center of the cutter rotates on the cutter rest; a support arm plate is fixed on the tool rest in a backward disbursement way, a sliding rod is arranged on the support arm plate in a sliding way, a triangular separation block is fixed at the inner end of the sliding rod, the tip end of the triangular separation block faces forwards and is positioned on the same plane with the cutting edge of the cutter, and a spring is arranged between the triangular separation block and the support arm plate; the rear end of the triangular separation block is fixedly provided with a connecting plate, two worm wheel shafts are symmetrically rotated up and down on the connecting plate, guide plates are respectively fixed on the two worm wheel shafts, an adjusting worm is rotated on the connecting plate, and the adjusting worm is positioned in the middle of the two worm wheel shafts and simultaneously meshed with and drives the two worm wheel shafts; the guide plate is far away from the end of the worm wheel shaft and is provided with an inserting rod in a sliding manner, and a tension spring is arranged between the outer end of the inserting rod and the guide plate; the inner end of the inserted link is provided with a pointed end.

The end, far away from the worm wheel, of the clamping roller is a round head.

The outer surface of the clamping roller is provided with elastic rubber.

The control mechanism comprises three worms which rotate on the ring frame, the three worms are respectively in meshed transmission connection with the three worm gears, transmission ring teeth which rotate on the ring frame are in transmission connection with the three worms, and a control shaft which rotates on the ring frame is in transmission connection with the transmission ring teeth.

Drawings

FIG. 1 is a schematic view of the construction of the invention when the whole works on wires and cables;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of a part of the structure of the present invention;

FIG. 4 is a schematic view of the construction of the pinch roller;

FIG. 5 is a schematic view of the structure of the drive ring gear;

FIG. 6 is a schematic diagram of a portion of a second embodiment of the present invention;

FIG. 7 is a schematic illustration one of an embodiment of the opening being cut;

FIG. 8 is a schematic diagram II of an embodiment of the opening being cut;

FIG. 9 is a schematic diagram of the structure of a triangular separation block;

fig. 10 is a schematic structural view of the guide plate.

In the figure:

a ring frame 101; a mounting plate 102; a horizontal square bar 103;

pinch roller 201; a mandrel 202; a worm wheel 203; a worm 204; drive ring teeth 205; a control shaft 206;

a tool holder 301; a bi-directional screw 302; a cutter 303; an arm plate 304;

a slide bar 401; a triangular separation block 402; a spring 403; a connection plate 404; an adjustment worm 405;

a guide plate 501; a worm gear shaft 502; a plunger 503; tension spring 504.

Detailed Description

As shown in fig. 1-4:

an intelligent manufacturing wire and cable skin stripping device comprises a ring frame 101, a mounting plate 102, a clamping roller 201, a mandrel 202, a worm gear 203 and a cutter 303; the inner ring equipartition of ring frame 101 is equipped with three mounting panel 102, and three worm wheel 203 rotates respectively on three mounting panel 102, and three dabber 202 is fixed respectively on three worm wheel 203, and three pinch rolls 201 rotate respectively on three dabber 202, and control mechanism connects on ring frame 101 for three worm wheel 203 rotation of simultaneous control makes three pinch rolls 201 be close to simultaneously and presss from both sides the centre at ring frame 101 with wire and cable, and two cutters 303 of opposite arrangement are connected on ring frame 101 for with wire and cable's epidermis opposite cutting.

When the electric wire and cable cutting machine is used, an electric wire and cable passes through the inside of the ring frame 101, and then three worm gears 203 are simultaneously driven by a control mechanism to rotate on the mounting plate 102, so that the three worm gears 203 respectively drive three clamping rollers 201 to gather towards the center of the ring frame 101 through three mandrels 202, then the electric wire and cable are clamped at the center of the ring frame 101, and simultaneously two cutters 303 are inserted into the surfaces of the electric wire and cable, and along with the movement of the electric wire and cable along the central axis direction of the ring frame 101, the surfaces on two sides of the electric wire and cable are cut in opposite continuous directions, so that the surfaces are conveniently stripped from the electric wire and cable;

and along with the movement of the wires and cables, the three clamping rollers 201 rotate on the three mandrels 202, so that the three clamping rollers 201 clamp the wires and cables at the center of the ring frame 101, and the cutting of the cutter 303 is ensured, and simultaneously the three clamping rollers can rotate along with the movement of the wires and cables, so that sliding friction force generated between the wires and cables and the clamping rollers 201 is avoided when the wires and cables move, the wires and cables move conveniently, and continuous cutting and peeling of the wires and cables are facilitated;

simultaneously, three clamping rollers 201 are simultaneously driven by a control mechanism to rotate by taking the worm wheel 203 as an axis, so that the electric wires and cables are clamped, and the device can adapt to the electric wires and cables with different diameters.

Further:

the end of the clamping roller 201 far away from the worm gear 203 is a round head.

Through the setting of button head, reduce the middle surplus space when three pinch rolls 201 gather together, the scope that increases three pinch rolls 201 when gathering together promptly, further increase the scope of equipment adaptation different diameters's electric wire and cable.

Further:

an elastic rubber is provided on the outer surface of the pinch roller 201.

Through the setting of elastic rubber, make pinch roller 201 when pressing from both sides tight electric wire and cable, its apparent elastic rubber takes place elastic deformation, forms the flexible clamp support to electric wire and cable, avoids excessive clamping, influences electric wire and cable and removes to and avoid influencing the cutting position of cutter 303.

As shown in fig. 5:

the control mechanism comprises a worm 204, a driving gear 205 and a control shaft 206; the three worms 204 are all rotated on the ring frame 101, the three worms 204 are respectively meshed with the three worm gears 203 for transmission connection, the transmission ring gear 205 is rotated on the ring frame 101, the transmission ring gear 205 is in transmission connection with the three worms 204, the control shaft 206 is rotated on the ring frame 101, and the control shaft 206 is in transmission connection with the transmission ring gear 205.

When the electric wires and cables need to be clamped, the control shaft 206 is rotated, the control shaft 206 drives the driving gear 205 to rotate, then three worms 204 are driven by the driving gear 205, the three worms 204 simultaneously drive three worm gears 203 to rotate, and then the three clamping rollers 201 are gathered or unfolded simultaneously, so that the purpose of clamping or loosening is achieved.

As shown in fig. 6:

two horizontal square rods 103 are symmetrically arranged on the left side and the right side of the ring frame 101, two knife rests 301 respectively slide on the two horizontal square rods 103, two knife rests 301 are symmetrically arranged, the inner ends of the two knife rests 301 are respectively provided with a cutter 303, a bidirectional screw 302 rotates at the upper end of the ring frame 101, and the two knife rests 301 are respectively connected to the two ends of the bidirectional screw 302.

By rotating the bidirectional screw 302, two ends of the bidirectional screw 302 simultaneously drive the two tool holders 301 in a threaded manner, so that the two tool holders 301 are simultaneously close to or far away from each other, and then the two cutters 303 are driven to be close to or far away from each other, so that the equipment is suitable for the purposes of wires and cables with different diameters, and can be suitable for cutting skins with different thicknesses;

through the arrangement of the two transverse square rods 103, limiting on the two knife holders 301 is formed, so that the two cutters 303 can be aligned with the center of the ring frame 101 and positioned behind the three clamping rollers 201, and the two cutters 303 can conveniently cut open the surface skin on two sides of the electric wire and the electric cable.

Further:

the cutter 303 is a disc cutter, and the center of the cutter 303 rotates on the cutter holder 301.

Through the cutter 303 for the disc shape and rotate the setting on knife rest 301, when cutting wire and cable, along with the removal of wire and cable, cutter 303 rotates on knife rest 301 to when accomplishing the cutting, avoid influencing the backward movement of wire and cable, thereby be convenient for cut wire and cable's continuous epidermis.

As in fig. 7-10:

the support arm plate 304 is fixed to the tool holder 301 in a rearward disbursement manner, the slide bar 401 is slid on the support arm plate 304, the triangular separation block 402 is fixed to an inner end of the slide bar 401, a tip of the triangular separation block 402 is directed forward and is in the same plane as a blade of the cutter 303, and the spring 403 is provided between the triangular separation block 402 and the support arm plate 304.

After the wire and cable moves backward, the opening on the surface of the wire and cable is cut by the cutter 303, the opening on the surface moves backward along with the wire and cable, the triangular separation block 402 is propped against the wire and cable moving backward by the elasticity of the spring 403, and the tip of the triangular separation block 402 corresponds to the opening, so that the tip of the triangular separation block 402 is inserted into the opening, the surface at the opening moves backward along with the wire and cable moving backward, so that the opening is propped by the triangular separation block 402, and the cut surface is further convenient to peel.

Further:

the connecting plate 404 is fixed at the rear end of the triangular separating block 402, the two worm wheel shafts 502 vertically symmetrically rotate on the connecting plate 404, the front ends of the two guide plates 501 are respectively fixed on the two worm wheel shafts 502, the adjusting worm 405 rotates on the connecting plate 404, and the adjusting worm 405 is positioned in the middle of the two worm wheel shafts 502 and simultaneously meshed with and drives the two worm wheel shafts 502.

After the epidermis of the electric wire and the cable is propped up by the triangular separation block 402, the propped epidermis moves to the two guide plates 501 along with the backward movement of the electric wire and the cable, is guided by the guide plates 501, and continuously props up the epidermis at two sides of the opening, and further props up the opening again, thereby further facilitating the peeling of the cut epidermis;

through rotating the adjusting worm 405, two worm wheel shafts 502 are simultaneously driven to rotate, and then two guide plates 501 are driven to rotate, so that the opening angle of the two guide plates 501 is changed, and the equipment can adapt to the peeling of the surfaces of wires and cables with different diameters.

Further:

the insert rod 503 slides on the end of the guide plate 501 away from the worm wheel shaft 502, and the tension spring 504 is disposed between the outer end of the insert rod 503 and the guide plate 501.

The inserted link 503 slides inwards on the guide plate 501, namely in the direction of the electric wires and cables, by the tension of the tension spring 504, so that when the guide plate 501 supports the epidermis at the opening, the inner end of the inserted link 503 is inserted into the inner side of the epidermis, thereby avoiding the epidermis from sliding on the guide plate 501 and further ensuring the enlargement of the opening of the epidermis;

further, the insert rod 503 can be inserted inward by the tension of the tension spring 504, further separating the surface of the wire and cable located above from the core.

Further:

the inner end of the inserted link 503 is provided with a pointed end.

By the arrangement of the tip, the inserting rod 503 is further facilitated to be inserted into the space between the surface skin and the core of the wire and cable located above, so that the surface skin and the core of the wire and cable located above are separated.

Claims

1. An intelligent manufacturing wire and cable skin stripping device is characterized in that: the electric wire and cable cutting machine comprises a ring frame (101) with three mounting plates (102) uniformly distributed on the inner ring, and three worm wheels (203) respectively rotating on the three mounting plates (102), wherein a mandrel (202) is fixed on each worm wheel (203), a clamping roller (201) rotates on each mandrel (202), a control mechanism for simultaneously controlling the rotation of the three worm wheels (203) is connected to the ring frame (101), the three clamping rollers (201) are simultaneously close to the center of the ring frame (101) for clamping the electric wire and cable, and two oppositely arranged cutters (303) are connected to the ring frame (101) for oppositely cutting the surface of the electric wire and cable;

two horizontal square rods (103) are symmetrically arranged in the left-right direction of the ring frame (101), knife holders (301) are respectively and slidably arranged on the two horizontal square rods (103), the two knife holders (301) are symmetrically arranged, the inner ends of the two knife holders are respectively provided with a cutter (303), the upper end of the ring frame (101) is rotated with a bidirectional screw rod (302), and two ends of the bidirectional screw rod (302) are respectively in threaded connection with the two knife holders (301);

the cutter (303) is a disc cutter, and the center of the cutter (303) rotates on the cutter rest (301);

a support arm plate (304) is fixed on the tool rest (301) in a backward disbursement mode, a sliding rod (401) is arranged on the support arm plate (304) in a sliding mode, a triangular separation block (402) is fixed at the inner end of the sliding rod (401), the tip end of the triangular separation block (402) faces forwards and is positioned on the same plane with the cutting edge of the cutter (303), and a spring (403) is arranged between the triangular separation block (402) and the support arm plate (304);

the rear end of the triangular separation block (402) is fixedly provided with a connecting plate (404), the connecting plate (404) is vertically symmetrically rotated to form two worm wheel shafts (502), guide plates (501) are fixedly arranged on the two worm wheel shafts (502), the connecting plate (404) is rotated to form an adjusting worm (405), and the adjusting worm (405) is positioned in the middle of the two worm wheel shafts (502) and simultaneously meshed with and drives the two worm wheel shafts (502);

an inserting rod (503) is arranged at the end, far away from the worm wheel shaft (502), of the guide plate (501) in a sliding mode, and a tension spring (504) is arranged between the outer end of the inserting rod (503) and the guide plate (501);

the inner end of the inserted link (503) is provided with a pointed end.

2. The intelligently-manufactured wire and cable skin stripping device as set forth in claim 1, wherein: the end, far away from the worm wheel (203), of the clamping roller (201) is a round head.

3. The intelligently-manufactured wire and cable skin stripping device as set forth in claim 2, wherein: the outer surface of the clamping roller (201) is provided with elastic rubber.

4. The intelligently-manufactured wire and cable skin stripping device as set forth in claim 1, wherein: the control mechanism comprises three worms (204) rotating on the ring frame (101), the three worms (204) are respectively in meshed transmission connection with three worm gears (203), transmission ring teeth (205) rotating on the ring frame (101), the transmission ring teeth (205) are in transmission connection with the three worms (204), and a control shaft (206) rotating on the ring frame (101), and the control shaft (206) is in transmission connection with the transmission ring teeth (205).