CN112952664A - Directional cable clamping assembly and cable peeling device with same - Google Patents

Abstract

An orientation type cable clamping assembly comprises a wire clamping end, a second supporting part and a second driving part; the wire clamping end comprises a first clamping block and a second clamping block; the first clamping block is arranged on the second supporting part in a sliding mode through the first limiting adjusting part, and the second clamping block is arranged on the second supporting part in a sliding mode through the second limiting adjusting part; the sliding directions of the first clamping block and the second clamping block on the second supporting part are collinear, and wire clamping grooves in opposite positions are formed in the first clamping block and the second clamping block; the second driving part is arranged on the second supporting part and is respectively connected with the first limiting adjusting part and the second limiting adjusting part; under the working state of the second driving part, the first clamping block and the second clamping block move reversely and at the same speed. Through the relative motion of first grip block and second grip block, adjustable first grip block and the second grip block between the clearance to make this wire clamping end can be applicable to the cable of different thickness. While also adjusting the position of the clamped cable.

Description

Directional cable clamping assembly and cable peeling device with same

Technical Field

The invention relates to the field of cable stripping equipment, in particular to a directional cable clamping assembly and a cable stripping device with the same.

Background

When power construction is carried out, work items such as live-wire connection, cable connection and the like are often required to be completed, and cable stripping is inevitably required in all the work items. For cable stripping, the cable stripping is mostly realized by a handheld cable stripper and a manual insulating rod type cable stripper at present.

Wherein, hand-held type cable barker needs artifical and insulating arm car cooperation operation to need artifical closely to accomplish live-line operation, this can lead to having the potential safety hazard, in addition, the use of insulating arm car is to using the place requirement in addition, has the limitation.

The use limitation of present manual insulating rod formula cable barker is less, comes as drive power supply with the manual work moreover, and staff intensity of labour is big and efficiency is lower, and has complex operation, the drawback of wasting time and energy.

Disclosure of Invention

In order to overcome the defects that the cable stripping device in the prior art is complex in operation and has potential safety hazards, the invention provides an orientation type cable clamping assembly and a cable stripping device with the same.

One of the purposes of the invention adopts the following technical scheme:

an orientation type cable clamping assembly comprises a wire clamping end, a second supporting part and a second driving part; the wire clamping end comprises a first clamping block and a second clamping block;

the first clamping block is arranged on the second supporting part in a sliding mode through the first limiting adjusting part, and the second clamping block is arranged on the second supporting part in a sliding mode through the second limiting adjusting part; the sliding directions of the first clamping block and the second clamping block on the second supporting part are collinear, and wire clamping grooves in opposite positions are formed in the first clamping block and the second clamping block;

the second driving part is arranged on the second supporting part and is respectively connected with the first limiting adjusting part and the second limiting adjusting part; under the working state of the second driving part, the first clamping block and the second clamping block move reversely and at the same speed.

Preferably, the second supporting part is provided with a fixing plate, the first limiting and adjusting part comprises a first guide rod and a first nut, and the second limiting and adjusting part comprises a second guide rod and a second nut;

the first nut and the second nut are both rotatably arranged on the fixing plate; one end of the first guide rod is in threaded connection with the first nut, and the other end of the first guide rod is fixedly connected with the first clamping block; one end of the second guide rod is in threaded connection with the second nut, and the other end of the second guide rod is fixedly connected with the second clamping block;

the second driving part is used for driving the first nut and the second nut to rotate reversely.

Preferably, the second driving part includes a first gear, a second gear, a driving gear and a second motor; the first gear and the first nut are coaxially arranged and fixedly connected, the second gear and the second nut are coaxially arranged and fixedly connected, and the first gear and the second gear are in meshing transmission; the driving gear is meshed with any one of the first gear and the second gear for transmission; the second motor is connected with the driving gear and drives the driving gear to rotate.

Preferably, the second supporting part comprises a supporting plate and a step block, the fixing plate and the step block are both arranged on the supporting plate, and the first clamping block and the second clamping block are both arranged on the step block in a sliding manner; the step block is provided with a track groove, and the second guide rod is arranged in the track groove.

The second purpose of the invention adopts the following technical scheme:

a cable peeling device comprises a cable clamping assembly, a peeling assembly and a support;

the peeling assembly is arranged on the support in a sliding mode, the cable clamping assemblies are arranged at two ends of the sliding track of the peeling assembly on the support respectively, and the two cable clamping assemblies are used for clamping cables penetrating through the peeling assembly; the peeling assembly is used for peeling the cable.

Preferably, an electric push rod for driving the peeling assembly to slide is further arranged on the support.

Preferably, the debarking assembly includes: a housing and a cutter; the shell is arranged on the support in a sliding manner; two ends of the shell are provided with threading holes for the cables to pass through, and the threading holes at the two ends are coaxially arranged;

an annular ring which is coaxial with the threading hole is rotatably arranged in the shell, and the annular ring is connected with a first driving part for driving the annular ring to rotate around the central axis of the annular ring; the cutter is arranged on the inner periphery of the annular ring through a connecting part.

Preferably, the first driving part includes: a first motor and a transmission gear; the transmission gear is rotationally arranged on the shell and is internally meshed or externally meshed with the annular ring; the first motor is arranged on the shell and connected with the transmission gear and drives the transmission gear to rotate.

Preferably, the connecting part adopts a telescopic structure, and the telescopic direction of the connecting part is the inner diameter direction of the annular ring; the cutter is arranged at the free end of the telescopic structure.

Preferably, the housing is slidably disposed on the support through a first support portion, and the first support portion extends and retracts in a direction perpendicular to the bearing surface of the support.

The invention has the advantages that:

(1) when the first driving part drives the annular ring to rotate, the cutter rotates around the periphery of the cable inside the shell along with the rotation of the annular ring. At the moment, when the shell and the cable move relatively in the extending direction of the cable, the cutter carries out spiral peeling on the cable along with the rotation of the annular ring. The peeling assembly can be driven by an electric push rod arranged on the support, automatic peeling operation is achieved, and safety and reliability are achieved.

(2) Through the relative motion of first grip block and second grip block, adjustable first grip block and the second grip block between the clearance to make this wire clamping end can be applicable to the cable of different thickness. While also adjusting the position of the clamped cable.

(3) The cable clamping assembly is adjusted through the second driving portion, coaxial arrangement of the clamped cable and the annular ring is guaranteed, labor intensity of workers is greatly reduced, operation is simple, safety and reliability are achieved, and time and labor are saved.

Drawings

FIG. 1 is a structural diagram of an automatic rotary peeling apparatus according to the present invention;

FIG. 2 is a view of a cutter mounting structure;

FIG. 3 is a block diagram of a cable clamp assembly;

the figure is as follows: the device comprises a shell 11, a cutter 12, an annular ring 13, a transmission gear 14 and a first supporting part 15;

the clamping wire end 21, the clamping wire groove 210, the first clamping block 211, the second clamping block 212, the second supporting part 22, the supporting plate 221 and the step block 222, the rail groove 2220, the fixing plate 23, the first guide rod 241, the first nut 242, the second guide rod 251 and the second nut 252, the first gear 261, the second gear 262, the driving gear 263 and the second motor 264;

a support 3; cable a.

Detailed Description

The automatic rotary peeling device provided by the embodiment comprises a peeling assembly, a cable clamping assembly and a support.

The peeling assembly in the embodiment is realized by adopting the following technical scheme.

Example 1

The peeling assembly comprises: a housing 11 and a cutter 12. Both ends of the housing 11 are provided with threading holes for the cable to pass through, and the threading holes at both ends are coaxially arranged so that the cable is inserted into the housing 11 from one threading hole and extends out of the housing 11 from the other threading hole.

The inside rotation of casing 11 is provided with the annular ring 13 of the coaxial setting of through wires hole, annular ring 13 is connected with the first drive division that is used for driving it rotatory around its central axis. The cutters 12 are arranged on the inner periphery of the annular ring 13 via a connecting portion.

As such, when the first driving portion drives the annular ring 13 to rotate, the cutter 12 rotates around the outer periphery of the cable inside the housing 11 with the rotation of the annular ring 13. At this time, when the housing 11 and the cable are relatively moved in the cable extending direction, the cutter 12 performs the spiral stripping of the cable a with the rotation of the annular ring 13.

In this embodiment, the first driving portion includes: a first motor and a drive gear 14. The transmission gear 14 is rotatably arranged on the housing 11, and the transmission gear 14 is engaged with the annular ring 13 in an inner meshing mode or an outer meshing mode. The first motor is arranged on the shell 11, and the first motor is connected with the transmission gear 14 and drives the transmission gear 14 to rotate. In specific implementation, when the transmission gear 14 is engaged with the annular ring 13 through the annular rack arranged on the inner periphery of the annular ring 13, the transmission gear 14 should deviate from the axis of the annular ring 13 by a certain distance to prevent the transmission gear 14 from influencing the direction of the cable inside the housing 11. In specific implementation, the transmission gear 14 is preferably meshed with the annular ring 13 through an annular rack arranged on the periphery of the annular ring 13.

In this embodiment, the connecting portion adopts a telescopic structure, and the telescopic direction is the inner diameter direction of the annular ring 13; a knife 12 is arranged at the free end of the telescopic structure. So, the length of extending structure is adjusted to a section of thick bamboo, adjustable cutter 12 with the distance of through wires hole axis direction to make this subassembly of skinning can satisfy the requirement of skinning of the cable of different diameters.

In this embodiment, the first supporting portion 15 may be a telescopic structure, the first supporting portion 15 is telescopic in a direction perpendicular to the bearing surface of the support 3, and the housing 11 is disposed at a free end of the first supporting portion 15 to further adjust an up-down position of the housing 11 relative to the support 3.

The cable clamping assembly in the embodiment is realized by adopting the following technical scheme.

Example 2

The cable clamping assembly comprises a cable clamping end 21 and a second support part 22, wherein the cable clamping end 21 is used for clamping a cable, and the cable clamping end 21 comprises a first clamping block 211 and a second clamping block 212.

The first clamping block 211 is slidably disposed on the second supporting portion 22 through a first limit adjusting portion, and the second clamping block 212 is slidably disposed on the second supporting portion 22 through a second limit adjusting portion. The sliding directions of the first clamping block 211 and the second clamping block 212 on the second supporting portion 22 are collinear, and the first clamping block 211 and the second clamping block 212 are provided with clamping slots 210 with opposite positions.

In this way, in the embodiment, the gap between the first clamping block 211 and the second clamping block 212 can be adjusted by the relative movement of the first clamping block 211 and the second clamping block 212, so that the wire clamping end 21 can be suitable for cables with different thicknesses.

Example 3

In addition to embodiment 2, in this embodiment, a second driving portion is further provided on the second supporting portion 22; the second driving part is respectively connected with the first limit adjusting part and the second limit adjusting part; in the second driving part operating state, the first clamping block 211 and the second clamping block 212 move in opposite directions and have the same stroke. In this way, in the present embodiment, when the second driving portion operates, the matching of the wire clamping end 21 and the cables with different diameters can be realized by the movement of the first clamping block 211 and the second clamping block 212; moreover, when the cable clamping end 21 clamps cables with different thicknesses, the axial directions of the clamped cables are always located on the same straight line.

Example 4

In addition to embodiment 3, in this embodiment, the fixing plate 23 is provided on the second supporting portion 22, the first limit adjusting portion includes the first guide rod 241 and the first nut 242, and the second limit adjusting portion includes the second guide rod 251 and the second nut 252.

The first nut 242 and the second nut 252 are both rotatably arranged on the fixing plate 23; one end of the first guide rod 241 is threadedly connected to the first nut 242, and the other end of the first guide rod 241 is fixedly connected to the first clamping block 211. Thus, when the first nut 242 rotates, the first guiding rod 241 drives the first clamping block 211 and the first nut 242 to slide relatively. Similarly, one end of the second guide rod 251 is connected with the second nut 252 by screw threads, and the other end of the second guide rod 251 is fixedly connected with the second clamping block 212. Thus, the linear movement of the first and second clamping blocks 211 and 212 may be achieved by the rotation of the first and second nuts 242 and 252.

The second driving part includes a first gear 261, a second gear 262, a driving gear 263, and a second motor 264. The first gear 261 and the first nut 242 are coaxially arranged and fixedly connected, the second gear 262 and the second nut 252 are coaxially arranged and fixedly connected, and the first gear 261 and the second gear 262 are in meshing transmission; drive gear 263 is in meshing transmission with either of first gear 261 and second gear 262; the second motor 264 is connected to the driving gear 263 and drives it to rotate. In this way, when the second motor 264 rotates the driving gear 263, the first gear 261 rotates synchronously with the second gear 262 in the opposite direction, so as to drive the first nut 242 and the second nut 252 to rotate in the opposite direction, and further drive the first guide rod 241 and the second guide rod 251 to move in the opposite direction, so that the first clamping block 211 and the second clamping block 212 move in a collinear and opposite direction.

Specifically, in the present embodiment, the second supporting portion 22 includes a supporting plate 221 and a step block 222, the fixing plate 23 and the step block 222 are both disposed on the supporting plate 221, and the first clamping block 211 and the second clamping block 212 are both slidably disposed on the step block 222; the step block 222 is provided with a rail groove 2220, and the second guide bar 251 is disposed in the rail groove 2220. Thus, the second guide rod 251 realizes invisible arrangement, avoids mutual interference of the first clamping block 211 and the second clamping block 212, and is beneficial to facilitating the clamping of the cable A.

The peeling apparatus according to the present embodiment will be explained below.

In this embodiment, the peeling assembly is disposed on the support 3, specifically, the housing 11 is slidably disposed on the support 3 through the first support portion 15, and the moving direction of the housing 11 is parallel to the line direction of the threading holes at the two ends of the housing. Two cable clamping assemblies are arranged on the support 3, are positioned on two opposite sides of the shell 11 and are positioned in the moving direction of the shell 11. Specifically, the wire clamping end 21 is provided on the holder 3 through the second support portion 22.

Therefore, when the peeling device works, the cable A firstly penetrates through the shell 11 through the threading hole in the shell 11, and then the two ends of the cable A are respectively clamped through the cable clamping components on the two opposite sides of the shell 11. In this way, the housing 11 moves linearly relative to the cable a, so that the cable a can be peeled rotationally by the rotation of the annular ring 13.

In this embodiment, the peeling assembly can realize different functions by combining with the cable clamping assembly in different embodiments. The peeling device provided by the present invention is further explained below with reference to several specific embodiments.

Example 5

The stripping device in this embodiment adopts the cable clamping assembly provided in embodiment 2, in this embodiment, the second supporting part 22 is slidably disposed on the support 3, and the sliding direction of the second supporting part 22 is perpendicular to the moving direction of the housing 11. In this way, the relative positions of the two wire clamping ends 21 and the axis of the housing 11 can be adjusted by sliding the second supporting portion 22, so as to ensure that the axes of the wires clamped by the two wire clamping assemblies and the axis of the annular ring 13 are coplanar in the horizontal direction.

Meanwhile, the first supporting part 15 can be vertically arranged on the support 3 and can stretch and retract in the direction perpendicular to the bearing surface of the support 3, so that the axis of the cable clamped by the two cable clamping assemblies is coplanar with the axis of the annular ring 13 in the vertical direction, and the axis of the cable clamped by the two cable clamping assemblies is collinear with the axis of the annular ring 13.

Example 6

The peeling device in this embodiment adopts the cable clamping assemblies provided in embodiment 3 or embodiment 4, in this embodiment, two cable clamping assemblies are disposed on the support 3 through the corresponding second supporting portions 22, and the axes of the uniform annular rings 13 of the center lines of the cables clamped by the clamping ends 21 of the two cable clamping assemblies are collinear.

Thus, in the embodiment, when the second driving portion works, the center lines of the cables clamped by the cable clamping ends 21 of the two cable clamping assemblies are always located on the same vertical plane; at this time, only the relative heights of the shell 11 and the wire clamping end 21 need to be adjusted, so that the axis of the cable clamped by the two cable clamping assemblies and the axis of the annular ring 13 can be ensured to be collinear, and thus, the operation difficulty of cable stripping is further reduced.

In this embodiment, the first supporting portion 15 can be vertically disposed on the support 3 and can extend and retract in a direction perpendicular to the bearing surface of the support 3, so that the axis of the cable clamped by the two cable clamping assemblies is coplanar with the axis of the annular ring 13 in the vertical direction, and thus the axis of the cable clamped by the two cable clamping assemblies is collinear with the axis of the annular ring 13.

The invention is not to be considered as limited to the specific embodiments shown and described, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An orientation type cable clamping assembly, characterized by comprising a clamping end (21), a second support part (22) and a second driving part; the wire clamping end (21) comprises a first clamping block (211) and a second clamping block (212);

the first clamping block (211) is arranged on the second supporting part (22) in a sliding mode through the first limiting adjusting part, and the second clamping block (212) is arranged on the second supporting part (22) in a sliding mode through the second limiting adjusting part; the sliding directions of the first clamping block (211) and the second clamping block (212) on the second supporting part (22) are collinear, and the first clamping block (211) and the second clamping block (212) are provided with wire clamping grooves (210) with opposite positions;

the second driving part is arranged on the second supporting part (22) and is respectively connected with the first limit adjusting part and the second limit adjusting part; under the working state of the second driving part, the first clamping block (211) and the second clamping block (212) move reversely and at the same speed.

2. The directional cable clamping assembly according to claim 1, wherein the second support portion (22) is provided with a fixing plate (23), the first limit adjustment portion comprises a first guide rod (241) and a first nut (242), and the second limit adjustment portion comprises a second guide rod (251) and a second nut (252);

the first nut (242) and the second nut (252) are both rotatably arranged on the fixing plate (23); one end of the first guide rod (241) is in threaded connection with the first nut (242), and the other end of the first guide rod (241) is fixedly connected with the first clamping block (211); one end of the second guide rod (251) is in threaded connection with the second nut (252), and the other end of the second guide rod (251) is fixedly connected with the second clamping block (212);

the second driving part is used for driving the first nut (242) and the second nut (252) to rotate reversely.

3. The directional cable clamp assembly according to claim 1, wherein the second drive portion comprises a first gear (261), a second gear (262), a drive gear (263), and a second motor (264); the first gear (261) and the first nut (242) are coaxially arranged and fixedly connected, the second gear (262) and the second nut (252) are coaxially arranged and fixedly connected, and the first gear (261) and the second gear (262) are in meshing transmission; the driving gear (263) is meshed with any one of the first gear (261) and the second gear (262) to realize transmission; the second motor (264) is connected with the driving gear (263) and drives the driving gear to rotate.

4. The directional cable clamping assembly according to claim 1, wherein the second support portion (22) comprises a support plate (221) and a step block (222), the fixing plate (23) and the step block (222) are both disposed on the support plate (221), and the first clamping block (211) and the second clamping block (212) are both slidably disposed on the step block (222); the step block (222) is provided with a track groove (2220), and the second guide rod (251) is arranged in the track groove (2220).

5. A cable stripping device, comprising a cable gripping assembly according to any one of claims 1-4, further comprising a stripping assembly and a support (3);

the peeling assembly is arranged on the support (3) in a sliding mode, the cable clamping assemblies are arranged at two ends, located on the sliding track of the peeling assembly, of the support (3) respectively, and the two cable clamping assemblies are used for clamping cables penetrating through the peeling assembly; the peeling assembly is used for peeling the cable.

6. The cable stripping device according to claim 5, characterized in that an electric push rod for driving the stripping assembly to slide is further arranged on the support (3).

7. The cable stripping apparatus of claim 5 wherein the stripping assembly comprises: a housing (11) and a cutter (12); the shell (11) is arranged on the support (3) in a sliding manner; two ends of the shell (11) are provided with threading holes for cables to pass through, and the threading holes at the two ends are coaxially arranged;

an annular ring (13) which is coaxial with the threading hole is rotatably arranged in the shell (11), and the annular ring (13) is connected with a first driving part which is used for driving the annular ring to rotate around the central axis of the annular ring; the cutter (12) is arranged on the inner periphery of the annular ring (13) through a connecting part.

8. The cable stripping device as claimed in claim 5, characterized in that the first drive section comprises: a first motor and transmission gear (14); the transmission gear (14) is rotationally arranged on the shell (11), and the transmission gear (14) is internally meshed or externally meshed with the annular ring (13); the first motor is arranged on the shell (11), and the first motor is connected with the transmission gear (14) and drives the transmission gear (14) to rotate.

9. The cable stripping device according to claim 5, characterized in that the connecting part is of a telescopic structure, and the telescopic direction is the inner diameter direction of the annular ring (13); a cutter (12) is arranged at the free end of the telescopic structure.

10. Cable stripping device according to claim 5, characterized in that the housing (11) is slidably arranged on the support (3) by means of a first support (15), the first support (15) being telescopic in a direction perpendicular to the bearing surface of the support (3).

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