CN117878782B - Circumferential stripping mechanism for cable stripping machine - Google Patents

Abstract

The invention relates to a circumferential stripping mechanism for a cable stripping machine, and belongs to the technical field of cable construction. The support assembly comprises two support plates which are correspondingly arranged, and rotatable support gears are arranged between the two support plates; one of the support gears is set as a power wheel; a rotatable gear disc is arranged between the support gears, and part of the gear disc extends into the space between the two support plates, wherein the matching part of the support gears and the gear disc is arranged between the two support plates; the two support plates are correspondingly provided with gear plates which are respectively provided with a positioning component; the inner ring of the gear disc is provided with a cutting unit group, the cutting unit group comprises a cutter seat with adjustable distance, and the cutter seat is provided with a telescopic cutter. The invention provides a circumferential stripping mechanism for a cable stripper, which is integrally designed for positioning and cutting and is suitable for larger cable diameter change.

Description

Circumferential stripping mechanism for cable stripping machine

Technical Field

The invention relates to a circumferential stripping mechanism for a cable stripping machine, and belongs to the technical field of cable construction.

Background

Power cables are cable products for transmitting and distributing high power electrical energy, mainly used in the main lines of power systems. The power cables are generally classified according to voltage levels, including medium and low voltage power cables (35 kv and below), high voltage power cables (110 kv and above), ultra-high voltage power cables (275-800 kv) and ultra-high voltage power cables (1000 kv and above), and the diameters of the cables are mostly within the range of 20-80 mm according to the above-mentioned level classifications.

In the process of connecting the cables, insulating layers and the like outside the conductors are required to be stripped, so that the conductors are connected, the prior art patent with publication number CN105811328B is a circumferential stripping cutter for asynchronous wheel-type cables, the circumferential stripping cutter comprises a cutter head and a wire clamping device, wherein the cutter head is arranged on a cutter rest, blades capable of sequentially cutting cable sheaths along the radial direction and the circumferential direction of the cables are arranged on the cutter head, the wire clamping device is adjusted to move through a locking device so as to clamp the cables to be stripped, and the cutter head is adjusted to move through a cutter feeding device so as to cut the blades into the cable sheaths; the invention also discloses a method for circumferential stripping of the cable by using the cutter, which comprises the steps of firstly clamping the cable to be stripped by adjusting the wire clamping device through the locking device, then cutting into the cable sheath by adjusting the blade through the feeding device, and finally rotating the cutter or the cable along the circumferential direction of the cable to realize circumferential stripping of the cable.

In the process of realizing the technical scheme of the application, the inventor finds that at least the following technical problems exist in the prior art:

After clamping, the cutter position is adjusted for machining, the three wire clamping columns 302 are synchronously moved along the radial direction of the cutter holder 1 by rotating the locking gear 103, the three wire clamping portions 301 clamp the cable, the cutter handle 202 is linearly moved in the distance adjusting through hole 104 by rotating the distance adjusting screw 6, the cutting edge 2011 is further cut into the cable sheath, the depth of feed is observed through the observation groove 702, the depth of cut of the cutting edge 2011 into the cable sheath is slightly smaller than the thickness of the cable sheath, and finally the cutter or the cable is rotated along the circumferential direction of the cable, so that the circumferential stripping of the cable is realized. If the cutter is rotated, the cutter is driven to rotate manually or mechanically, the manual rotation needs large force, the cutter is driven mechanically, a set of mechanism for rotating the cutter is required to be designed independently, and the cable is rotated, so that when the diameter of the cable is too large, large torque is required during rotation, and the realization is difficult.

Disclosure of Invention

The invention aims to solve the technical problems that: the utility model provides a circumferential direction peeling mechanism for cable stripper uses, location cutting integrated design, adaptation great cable diameter changes that overcomes prior art's not enough.

The invention relates to a circumferential stripping mechanism for a cable stripper, which comprises a supporting unit group,

The support unit group comprises a square support frame, support assemblies are correspondingly arranged on four corners of the support frame, each support assembly comprises two support plates which are correspondingly arranged, and rotatable support gears are arranged between the two support plates; one of the support gears is set as a power wheel;

A rotatable gear disc is arranged between the support gears, and part of the gear disc extends into the space between the two support plates, wherein the matching part of the support gears and the gear disc is arranged between the two support plates;

the two support plates are correspondingly provided with gear plates which are respectively provided with a positioning component;

the inner ring of the gear disc is provided with a cutting unit group, the cutting unit group comprises a cutter seat with adjustable distance, and the cutter seat is provided with a telescopic cutter.

Further, at least three cutting unit groups are arranged on the inner ring of the gear plate, and the three cutting unit groups are uniformly distributed on the inner ring of the gear plate.

Further, the positioning assembly comprises a positioning block, the positioning block at least comprises an arc-shaped working surface, an elastic piece for pressing the positioning block is arranged on one side of the positioning block, and a pressing screw is arranged on one side of the elastic piece;

the supporting plate is provided with a positioning hole corresponding to the positioning assembly, and the positioning block, the elastic piece and the compression screw are sequentially arranged in the positioning hole;

the working face of the gear plate end face corresponding to the positioning block is provided with an annular circular groove.

Further, the positioning block may be provided as a sphere or the end of a cylinder may be provided as a spherical surface.

Further, the elastic member may be a compression spring.

Further, the cutting unit group comprises a fixed seat, a rotatable screw rod is arranged in the fixed seat, a servo motor is arranged on one side of the fixed seat, the servo motor is connected with the screw rod through a bevel gear transmission piece, mutually matched sliding blocks are correspondingly arranged on the screw rod, and a tool apron is arranged on one side of the sliding blocks;

the fixing seat is arranged on the inner ring of the gear disc, and the inner ring of the gear disc is correspondingly provided with a protruding part for installing the fixing seat.

Further, still include the power transmission subassembly that is used for driving servo motor, power transmission subassembly is including setting up the annular transmission piece at the gear wheel terminal surface, is equipped with the brush connector to annular transmission piece in the backup pad.

Further, the brush connector can be correspondingly arranged on at least two different support plates.

Further, the supporting frame can be made of square steel pipes.

Further, the supporting plate is provided with an inner notch corresponding to the square steel pipe.

Compared with the prior art, the invention has the beneficial effects that:

According to the invention, the gear disc drives the cutting unit group, so that the cable positioning and cutting integrated design is realized. This design simplifies the cable stripping process, making stripping faster and more efficient. The rotatable screw rod design is adopted, so that the invention can adapt to a large range of cable diameter change. The design makes the peeling mechanism more flexible and universal, and can meet the peeling requirements of cables with different diameters. Through the cooperation of servo motor and power transmission subassembly, make cutting unit group can carry out cutting operation voluntarily, improved the degree of automation that the cable skinned. The design reduces the difficulty and labor intensity of manual operation and improves the working efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of embodiment 1 of the present invention;

Fig. 2 is a front view of embodiment 1 of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a second schematic structural view of embodiment 1 of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at B;

FIG. 6 is a schematic view of a positioning assembly according to embodiment 1 of the present invention;

FIG. 7 is a schematic view showing the structure of a cutting unit group according to embodiment 1 of the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7 at C;

FIG. 9 is a second schematic view of the cutting unit set according to embodiment 1 of the present invention;

FIG. 10 is a partial enlarged view at D in FIG. 9;

FIG. 11 is a third schematic view of the cutting unit set according to embodiment 1 of the present invention;

FIG. 12 is an enlarged view of a portion of FIG. 11 at E;

fig. 13 is a front view of a cutting unit group of embodiment 1 of the present invention;

FIG. 14 is an enlarged view of a portion of FIG. 13 at F;

In the figure:

1. A support unit group; 11. A support frame; 12. A support plate; 121. An inner notch; 13. A support gear;

2. a gear plate; 21. A boss; 22. An annular circular groove; 23. A connecting wire;

3. A cutting unit group; 31. A tool apron; 311. A baffle; 312. A compression spring; 313. Briquetting; 3131. A knife slot; 314. A pinch roller; 315. A cutter; 316. An elastic connecting rod; 317. A chute; 32. A slide block; 33. A screw; 34. Bevel gear driving piece; 35. A fixing seat; 36. A servo motor;

4. A cable;

5. a positioning assembly; 51. A compression screw; 52. An elastic member; 53. A positioning block; 531. A working surface;

6. a power transmission assembly; 61. An annular transmission sheet; 62. A brush connector;

7. A power input wheel.

Detailed Description

Example 1

As shown in fig. 1 to 14, the circumferential stripping mechanism for a cable stripper according to the present invention comprises a supporting unit group 1,

The support unit group 1 comprises a square support frame 11, support assemblies are correspondingly arranged at four corners of the support frame 11, each support assembly comprises two support plates 12 correspondingly arranged, and a rotatable support gear 13 is arranged between the two support plates 12; one of the supporting gears 13 is set as a power wheel, and one side of the power wheel is connected with a power input wheel 7;

a rotatable gear disc 2 is arranged between the support gears 13, and part of the gear disc 2 extends into the space between the two support plates 12, wherein the matching part of the support gears 13 and the gear disc 2 is arranged between the two support plates 12;

as shown in fig. 5, the gear plates 2 correspondingly arranged on the two support plates 12 are respectively provided with a positioning component 5;

The inner ring of the gear plate 2 is provided with a cutting unit group 3, the cutting unit group 3 comprises a cutter seat 31 with adjustable distance, the cutter seat 31 is provided with a telescopic cutter 315,

The tool apron 31 is correspondingly provided with a baffle 311, the lower end of the corresponding baffle 311 is provided with a chute 317, a pressing block 313 is arranged in the chute 317, the pressing block 313 can move up and down in the chute 317, a compression spring 312 is connected between the pressing block 313 and the baffle 311, the lower end of the pressing block 313 is correspondingly provided with a compression wheel 314, the middle part of the pressing block 313 is provided with a tool slot 3131, and the tool slot 3131 is used for accommodating a tool 315;

Cutter 315 one end articulates to blade holder 31, cutter 315 upper end articulates has elastic connection pole 316, elastic connection pole 316 other end corresponds the hinge to briquetting 313 upper end, when briquetting 313 pushes down, compression spring 312 compression shortens, briquetting 313 pulling elastic connection pole 316 this moment, cutter 315 stretches out outside the pinch roller 314 this moment, can peel cable 4, adopt elastic connection pole 316 can avoid cutter 315 to directly reach the size of wanting, thereby damage inside cable 4 inner conductor after the cutting, drive cutter 315 through toothed disc 2 and rotate a plurality of circles after, the pulling force release of the elastic connection pole 316 that cutter 315 connects, thereby reach the effect of slowly excision, elastic connection pole 316 middle part adopts the extension spring to connect the setting.

The cutting unit groups 3 are at least three groups arranged on the inner ring of the gear plate 2, and the three cutting unit groups 3 are uniformly distributed on the inner ring of the gear plate 2.

As shown in fig. 6, the positioning assembly 5 includes a positioning block 53, where the positioning block 53 includes at least one arc-shaped working surface 531, one side of the positioning block 53 is provided with an elastic member 52 for pressing the positioning block 53, and one side of the elastic member 52 is provided with a pressing screw 51;

the supporting plate 12 is provided with a positioning hole corresponding to the positioning component 5, and the positioning block 53, the elastic piece 52 and the compression screw 51 are sequentially arranged in the positioning hole;

the annular circular groove 22 is arranged on the end face of the gear plate 2 corresponding to the working face 531 of the positioning block 53, and the position of the gear plate 2 is positioned through the working face 531 of the positioning block 53 to the annular circular groove 22, so that friction force between the friction gear plate 2 and the supporting plate 12 is reduced.

The positioning block 53 may be provided as a sphere or a cylindrical end may be provided as a spherical surface.

The elastic member 52 may be a compression spring.

The cutting unit group 3 comprises a fixed seat 35, a rotatable screw 33 is arranged in the fixed seat 35, a servo motor 36 is arranged on one side of the fixed seat 35, the servo motor 36 is connected with the screw 33 through a bevel gear transmission piece 34, a sliding block 32 which is matched with each other is correspondingly arranged on the screw 33, and a tool apron 31 is arranged on one side of the sliding block 32;

the fixing seat 35 is mounted on the inner ring of the gear plate 2, and the inner ring of the gear plate 2 is correspondingly provided with a protruding part 21 for mounting the fixing seat 35.

Still including the power transmission subassembly 6 that is used for driving servo motor 36, the power transmission subassembly is including setting up the annular transmission piece 61 at the gear dish 2 terminal surface, and annular transmission piece 61 adopts the copper sheet of laminating that keeps apart, and gear dish 2 internal connection, gear dish 2 inboard are connected out connecting wire 23, and connecting wire 23 are used for connecting servo motor 36, are equipped with brush connector 62 through annular transmission piece 61 in backup pad 12.

The brush connector 62 can be correspondingly arranged on different support plates 12 at least two, so that the phenomenon of poor contact of one of the brush connectors is avoided, and the stability of power transmission is greatly improved.

The supporting frame 11 can be made of square steel pipes, and the square steel pipes are convenient to manufacture.

The support plate 12 is provided with an inner notch 121 corresponding to the square steel pipe, and is more stable after being mounted on the square steel pipe.

Working process or working principle:

When the cutting of corresponding different diameters is performed, the accurate control is realized through the action of the servo motor 36, the pressing wheel 314 mainly plays a role in positioning, when the position is reached, the screw 33 is used for self-locking, the diameters of different cables 4 need to be controlled for different numbers of rotation of the servo motor, the feeding amount of the screw 33 corresponds to, when the diameters of the cables 4 are larger, the corresponding clamping force is large, so that the elasticity released by the elastic connecting rod 316 of the cutter 315 is more, and the purpose of the automatic feeding device is that the thickness of insulation layers corresponding to the cables 4 with different diameters is different.

The description of the directions and the relative positional relationships of the structures, such as the description of the front, back, left, right, up and down, in the present invention does not limit the present invention, but is merely for convenience of description.

Claims (9)

1. A circumferential stripping mechanism for a cable stripper is characterized by comprising a supporting unit group (1),

The support unit group (1) comprises a square support frame (11), support assemblies are correspondingly arranged on four corners of the support frame (11), each support assembly comprises two support plates (12) correspondingly arranged, and rotatable support gears (13) are arranged between the two support plates (12); one of the support gears (13) is set as a power wheel;

A rotatable gear disc (2) is arranged between the support gears (13), and part of the gear disc (2) extends into the space between the two support plates (12), wherein the matching part of the support gears (13) and the gear disc (2) is arranged between the two support plates (12);

the two support plates (12) are correspondingly provided with gear plates (2) and are respectively provided with a positioning component (5);

A cutting unit group (3) is arranged on the inner ring of the gear disc (2), the cutting unit group (3) comprises a cutter holder (31) with adjustable distance, and a telescopic cutter (315) is arranged on the cutter holder (31);

The positioning assembly (5) comprises a positioning block (53), the positioning block (53) at least comprises an arc-shaped working surface (531), one side of the positioning block (53) is provided with an elastic piece (52) for pressing the positioning block (53), and one side of the elastic piece (52) is provided with a pressing screw (51);

Positioning holes are formed in the support plate (12) corresponding to the positioning assemblies (5), and the positioning blocks (53), the elastic pieces (52) and the compression screws (51) are sequentially arranged in the positioning holes;

An annular circular groove (22) is arranged on the end face of the gear disc (2) corresponding to the working face (531) of the positioning block (53).

2. Circumferential stripping mechanism for use in a cable stripping machine according to claim 1, wherein the cutting unit groups (3) are mounted in at least three groups on the inner ring of the gear wheel (2), the three groups of cutting unit groups (3) being evenly distributed on the inner ring of the gear wheel (2).

3. Circumferential stripping mechanism for use with a cable stripping machine according to claim 1, wherein the positioning block (53) may be provided as a sphere or the cylinder end as a spherical surface.

4. Circumferential stripping mechanism for use with a cable stripping machine according to claim 1, wherein the resilient member (52) is optionally a compression spring.

5. The circumferential stripping mechanism for a cable stripping machine according to claim 1, wherein the cutting unit group (3) comprises a fixed seat (35), a rotatable screw (33) is arranged in the fixed seat (35), a servo motor (36) is arranged on one side of the fixed seat (35), the servo motor (36) is connected with the screw (33) through a bevel gear transmission piece (34), mutually matched sliding blocks (32) are correspondingly arranged on the screw (33), and a tool apron (31) is arranged on one side of the sliding blocks (32);

The fixing seat (35) is arranged on the inner ring of the gear disc (2), and the inner ring of the gear disc (2) is correspondingly provided with a protruding part (21) for installing the fixing seat (35).

6. Circumferential stripping mechanism for cable stripping machine according to claim 5, further comprising a power transmission assembly (6) for driving the servo motor (36), the power transmission assembly comprising an annular transmission piece (61) arranged on the end face of the gear disc (2), and the support plate (12) being provided with brush connectors (62) for the annular transmission piece (61).

7. Circumferential stripping mechanism for use with a cable stripping machine according to claim 6, wherein the brush attachment (62) is provided in at least two corresponding pairs on different support plates (12).

8. Circumferential stripping means for use with a cable stripping machine according to claim 1, wherein the support frame (11) is made of square steel tube.

9. Circumferential stripping mechanism for use with a cable stripping machine according to claim 8, wherein the support plate (12) is provided with an internal notch (121) in the square tube.