CN117424143B - Cable outer sheath stripper for power construction - Google Patents

Abstract

The invention discloses a cable outer sheath stripper for power construction, and relates to the technical field of power construction; the cutting device comprises a cylindrical support, wherein a cutting structure, a separating structure and a driving structure are sequentially arranged in the cylindrical support, and a transmission structure is arranged on the driving structure; the driving structure comprises a first-stage slide bar; a plurality of first-stage sliding rods which are parallel to each other are arranged in the cylindrical support, two roller frames are symmetrically arranged on the first-stage sliding rods, a rotating shaft is rotatably arranged on the roller frames, and driving rollers are arranged on the rotating shaft; the transmission structure comprises a connecting plate, two sides of the connecting plate are respectively connected with rotating shafts on two sides through connecting rods, two transmission gears meshed with each other are arranged on the connecting plate, and driven gears meshed with the transmission gears are arranged on the rotating shafts. The device can rapidly complete the cutting and separating work of the cable outer sheath, is simple and rapid to operate, saves labor, and greatly improves the working efficiency of power construction.

Description

Cable outer sheath stripper for power construction

Technical Field

The invention relates to the technical field of power construction, in particular to a cable outer sheath stripper for power construction.

Background

Power construction refers to a series of operations for constructing, installing, maintaining, and overhauling power equipment and facilities. The method comprises a plurality of links of planning, designing, constructing, managing, checking and accepting of the power engineering, and the like, and is an important component for guaranteeing power supply and safe operation. In the power construction process, a large number of wires and cables are required to be installed, and when the cables are connected, the outer sheath of the cables needs to be stripped.

Cables are typically rope-like articles of twisted wires of several or groups of wires, each group being insulated from each other and often twisted around a center, with a highly insulating coating over the entire outer surface. The cable has an inner energized, outer insulated feature. The outer sheath outside the cable is generally composed of plastic, and during processing, the cable is pulled to pass through the extrusion head, the extrusion head continuously extrudes molten plastic, the molten plastic is wrapped on the cable, and the outer sheath can be formed after cooling and forming, so that the cable is protected, and the cable has the functions of waterproof insulation and supporting the shape of the cable.

For the outer sheath made of plastic, there are portable strippers, which can cut long gaps on the surface of the cable, so as to strip the cable. The existing stripper has various different structures, but the common principle is that a protruding and adjustable cutter is arranged on a bracket, a roller is arranged on the other side of the bracket, a cable is pressed on the cutter by the roller, the cable is pulled or the whole stripper is moved, so that the stripper continuously cuts the cable, and then the outer skin is peeled off manually. The peeling can be completed quickly and conveniently, but in the process, the work of pulling the cable or the stripper is mainly and directly completed by manpower, and the strength and the thickness of the cable outer sheath are large, so that the pulling operation is very laborious and difficult to pull, and the working efficiency is affected.

Disclosure of Invention

The invention aims to provide a cable outer sheath stripper for power construction, which solves the problems in the prior art. The stripper can be operated in a labor-saving mode, the relative movement between the cable and the stripper can be completed by using small force, the cable stripping work can be completed rapidly, and the overall construction efficiency is improved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the cable outer sheath stripper for power construction comprises a cylindrical support, wherein a cutting structure, a separating structure and a driving structure are sequentially arranged in the cylindrical support, and a transmission structure is arranged on the driving structure; the driving structure comprises a first-stage slide bar and a driving roller; the cylindrical support is internally provided with a plurality of first-stage sliding rods which are parallel to each other, two roller frames are symmetrically arranged on the first-stage sliding rods, a rotating shaft is rotatably arranged on the roller frames, and a driving roller is arranged on the rotating shaft; the transmission structure comprises a connecting plate, wherein two sides of the connecting plate are respectively connected with rotating shafts on two sides through connecting rods, two transmission gears meshed with each other are arranged on the connecting plate, and driven gears meshed with the transmission gears are arranged on the rotating shafts; the transmission structure comprises a driving shaft which is connected with a transmission gear; the driving structure further comprises a first-stage bidirectional screw rod, the first-stage bidirectional screw rod is rotatably arranged inside the cylindrical support, the first-stage bidirectional screw rod is parallel to the first-stage sliding rod, the roller frame is in threaded engagement with the first-stage bidirectional screw rod, and a first-stage knob is arranged at one end of the first-stage bidirectional screw rod penetrating out of the cylindrical support;

the cutting structure is used for cutting the outer sheath of the cable;

The separation structure is used for stripping the cut outer sheath to the outside; the separation structure comprises a plurality of three-stage sliding rods arranged in the cylindrical support, two opposite supporting frames are connected in series on the three-stage sliding rods, arc stripping sheets are arranged on the inner sides of the supporting frames, and the stripping sheets extend to the central position of the cylindrical support; the spring is connected with the two ends of the third-stage slide bar in series respectively, the two ends of the spring are connected with the inner walls of the supporting frame and the cylindrical support respectively, and the third-stage slide bar is perpendicular to the second-stage slide bar.

As a further scheme of the invention: the cylindrical support surface is opened there is one-level spout, the one end that the drive shaft worn out one-level spout is installed and is operated the rocking handle.

As still further aspects of the invention: the cylindrical support is characterized in that a secondary chute parallel to the primary chute is formed in the central position of the surface of the cylindrical support, a limit column is mounted in the middle of the connecting plate, and the limit column penetrates through the secondary chute.

As still further aspects of the invention: the cutting structure comprises a secondary slide bar which is slidably mounted inside the cylindrical support, two opposite mounting frames are connected in series on the secondary slide bar, and a blade pointing to the middle of the cylindrical structure is mounted on each mounting frame.

As still further aspects of the invention: the cutting structure further comprises a second-level bidirectional screw, the mounting frames are respectively located at two ends of the second-level bidirectional screw and are in threaded engagement with the second-level bidirectional screw, and a second-level knob is mounted at one end of the second-level bidirectional screw penetrating out of the cylindrical support.

As still further aspects of the invention: one side of the cylindrical support is provided with a through groove, and each primary slide bar and each secondary slide bar which are positioned at the inner side of the through groove in the cylindrical support are interrupted at the middle part.

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

By adopting the cable outer sheath stripper for electric power construction, the cutting structure, the separating structure and the driving structure are arranged in the cylindrical support, the two driving rollers of the driving structure clamp the cable from two sides, the two driving rollers synchronously rotate reversely and pull the cable together, so that the cable continuously passes through the cylindrical support to form pulling on the cable, the cable is cut by the passive cutting structure, the follow-up separated outer sheath is separated at two sides, and the cutting and stripping work can be automatically completed along one path of the cable only by operating the rocking handle to rotate the driving shaft, so that the cable stripper is very simple and convenient to use;

Adopt above-mentioned cable oversheath stripper for electric power construction, this device utilizes the cooperation of drive gear and driven gear through rotating the drive shaft, can realize the linkage of two driving rollers, makes two gyro wheels keep linkage relation all the time under the prerequisite that can change the interval to the cutting of adaptation various not unidimensional cable is skinned, and the operation is light laborsaving, and cutting efficiency is higher, and directly accomplishes the work of skinning after the cutting, has shown the work efficiency that has promoted the cable oversheath and has peeled off.

Drawings

Fig. 1 is a schematic structural view of a cable jacket stripper for power construction.

Fig. 2 is a schematic cross-sectional structure of a cable jacket stripper for power construction.

Fig. 3 is a schematic structural view of a driving structure and a transmission structure in the cable jacket stripper for power construction.

Fig. 4 is a schematic structural view of a transmission structure in the cable jacket stripper for electric power construction.

Fig. 5 is a schematic structural view of a separation structure in a cable jacket stripper for power construction.

In the figure: 1. a cylindrical holder; 11. a through groove; 12. a second-stage chute; 13. a first-stage chute; 2. cutting the structure; 21. a mounting frame; 22. a blade; 23. a second-stage slide bar; 24. a two-stage bi-directional screw; 241. a secondary knob; 3. a separation structure; 31. a spring; 32. a support frame; 33. three-stage slide bars; 34. a release sheet; 4. a driving structure; 41. a first-stage bidirectional screw; 411. a primary knob; 42. a roller frame; 43. a first-stage slide bar; 44. driving the roller; 441. a rotating shaft; 5. a transmission structure; 51. a driven gear; 52. a connecting rod; 53. a transmission gear; 54. a drive shaft; 55. a rocking handle; 56. a connecting plate; 57. and a limit column.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, a cable outer sheath stripper for power construction includes a cylindrical support 1, a cutting structure 2, a separating structure 3 and a driving structure 4 are sequentially installed inside the cylindrical support 1, and a transmission structure 5 is installed on the driving structure 4; the driving structure 4 comprises a first-stage sliding rod 43 and a driving roller 44; the cylindrical support 1 is internally provided with a plurality of first-stage sliding rods 43 which are parallel to each other, two roller frames 42 are symmetrically arranged on the first-stage sliding rods 43, a rotating shaft 441 is rotatably arranged on the roller frames 42, and a driving roller 44 is arranged on the rotating shaft 441; the transmission structure 5 comprises a connecting plate 56, wherein two sides of the connecting plate 56 are respectively connected with rotating shafts 441 at two sides through connecting rods 52, two transmission gears 53 meshed with each other are arranged on the connecting plate 56, and driven gears 51 meshed with the transmission gears 53 are arranged on the rotating shafts 441; the transmission structure 5 comprises a driving shaft 54, and the driving shaft 54 is connected with a transmission gear 53;

the cutting structure 2 is used for cutting the outer sheath of the cable;

The separation structure 3 is used for peeling the cut outer sheath to the outside; the separation structure 3 comprises a plurality of three-stage sliding rods 33 arranged in the cylindrical support 1, two opposite support frames 32 are connected in series on the three-stage sliding rods 33, an arc-shaped stripping sheet 34 is arranged on the inner side of each support frame 32, and the stripping sheet 34 extends to the central position of the cylindrical support 1; the two ends of the third-stage slide rod 33 are respectively connected with a spring 31 in series, the two ends of the spring 31 are respectively connected with the supporting frame 32 and the inner wall of the cylindrical support 1, and the third-stage slide rod 33 and the second-stage slide rod 23 are mutually perpendicular.

The device uses the cylindrical support 1 as a main body for installation and supporting the required structure, the cutting structure 2 arranged in the cylindrical support 1 is used for cutting the cable from two sides, the two sides are simultaneously cut, the cable outer sheath is separated into a plurality of semi-cylinders, and then the cable outer sheath is separated into two semi-cylinders through the separating structure 3, the separating structure 3 is propped against the positions of the two outer sheaths, so that the outer sheath is separated from the inner wire cores, the outer sheath is passively unfolded towards two sides and away from the wire cores, the follow-up manual stripping process of the outer sheath can be saved, and the operation is more convenient. The above process is realized by the relative movement between the device and the cable, and whether the cutter cuts or directly separates the outer sheath, the relative movement between the cylindrical support 1 and the cable can be realized by providing high-strength traction force in the axial direction of the cable.

The device uses two driving rollers 44 to clamp the cable from two sides respectively, and the driving rollers 44 rotate in opposite directions, so that the movement of the cable can be controlled, in practical use, the diameter and the section shape of the cable facing each stripping work are different, so that the distance between the two driving rollers 44 needs to be adjustable, and in this case, a transmission structure 5 is needed to realize the linkage of the two driving rollers 44. Therefore, the device is provided with the transmission structure 5, the connecting plate 56 and the connecting rod 52 are matched with each other, so that the two driven gears 51 and the two transmission gears 53 in the middle can always keep a linkage relationship in a deformable state, one of the transmission gears 53 is driven to rotate by the driving shaft 54, the two driving rollers 44 can be controlled to synchronously and reversely rotate, stable traction of a cable is realized, the driving shaft 54 is driven to rotate by the rocking handle 55, and the device is labor-saving and light, and is far lower in operation difficulty than direct dragging of the cable. In addition to the drive structure 4 arranged at the tail, the device can also be provided with another group of drive rollers 44 at the front section of the cutting structure 2 so as to standardize the position of the cable.

The driving structure 4 further comprises a primary bidirectional screw 41, the primary bidirectional screw 41 is rotatably mounted inside the cylindrical support 1, the primary bidirectional screw 41 is parallel to the primary sliding rod 43, the roller frame 42 is in threaded engagement with the primary bidirectional screw 41, and a primary knob 411 is mounted at one end of the primary bidirectional screw 41 penetrating out of the cylindrical support 1. The primary knob 411 is turned from the outside to drive the primary bidirectional screw 41 to rotate, so that the two roller frames 42 can be synchronously close to or far away from each other, the roller frames 42 are operated to clamp the cable, and the whole adjusting process is ensured not to influence the centering of the cable.

The stripping sheet 34 of the separating structure 3 is propped against the surface of the wire core from two sides, the cable is pulled forward, the outer jackets cut at two sides are blocked by the stripping sheet 34, and move backward from the outer side of the stripping sheet 34 to separate from the wire core inside, so that the stripping work is directly completed, the subsequent manual stripping procedure is omitted, the outer jackets which are not thoroughly cut at some positions can be directly separated, and the subsequent manual tearing or re-cutting operation by a repair cutter is omitted. The force borne by the stripping sheet 34 is mainly along the axial direction of the cable, so that a hard adjusting structure is not needed, and the stripping sheet 34 is pressed on the surface of the wire core by the spring 31 for use. The peel flaps 34 are positioned on either side of the line between the blades 22 to facilitate peeling of the outer sheath on either side.

The device can meet the stripping requirements of the outer jackets of various cables with different sizes, is simple and quick to operate, simplifies the manual operation process, can remarkably improve the stripping speed, and improves the working efficiency of power construction.

As another embodiment of the present invention, referring to fig. 1 and 2, the cylindrical support 1 has a primary chute 13 formed on a surface thereof, and an operating crank 55 is mounted at an end of the driving shaft 54 penetrating the primary chute 13. The primary chute 13 is matched with the driving shaft 54, so that the external rocking handle 55 can be stably connected with the driving shaft 54, and the control of the transmission structure 5 and the driving structure 4 can be realized by rotating the rocking handle 55, and the position of the connecting plate 56 can be moved due to the change of the distance between the driving rollers 44, so that a sliding space is required to be reserved for the driving shaft 54 by the primary chute 13.

Referring to fig. 1 and 2, a second chute 12 parallel to the first chute 13 is provided at a central position on the surface of the cylindrical support 1, and a limit post 57 is mounted at a middle position of the connecting plate 56, where the limit post 57 passes through the second chute 12. The second-stage chute 12 is matched with the limit post 57 and is used for limiting the position of the connecting plate 56, so that the connecting plate 56 is prevented from rotating and shifting due to moment change in the operation process, the isosceles trapezoid formed by the transmission gear 53 and the driven gear 51 of the connecting plate 56 is ensured to be stable in structure, and the influence on the consistency of the transmission effect received by the driven gears 51 on two sides is avoided.

Referring to fig. 1 and 2, the cutting structure 2 includes a secondary slide bar 23, the secondary slide bar 23 is slidably mounted inside the cylindrical support 1, two opposite mounting frames 21 are connected in series to the secondary slide bar 23, and a blade 22 pointing to the middle of the cylindrical structure is mounted on the mounting frames 21. The cutting mechanism uses two blades 22 which are symmetrically installed, synchronous cutting is carried out from two sides, the outer sheath of the cable can be divided into two parts, subsequent stripping is facilitated, the blades 22 can slide in parallel when the two-stage sliding rod 23 and the mounting frame 21 are matched, and the cutting position is changed, so that the peeling requirements of cables with different sizes are met.

Referring to fig. 1 and 2, the cutting structure 2 further includes a secondary bidirectional screw 24, the mounting frames 21 are respectively located at two ends of the secondary bidirectional screw 24 and are in threaded engagement with the secondary bidirectional screw 24, and a secondary knob 241 is mounted at one end of the secondary bidirectional screw 24 penetrating out of the cylindrical support 1. The secondary knob 241 controls the rotation of the secondary bidirectional screw 24, and thus can control the movement of the two mounting frames 21, and the secondary bidirectional screw 24 does not belong to a limiting structure, and in addition, electric push rods can be respectively arranged on two sides, or a scissor structure which is symmetrically unfolded towards two sides can be used for realizing the reverse linkage of the two mounting frames 21.

Referring to fig. 1 to 3, a through slot 11 is formed on one side of the cylindrical support 1, and each of the first stage slide bar 43 and the second stage slide bar 23 located inside the through slot 11 in the cylindrical support 1 is interrupted in the middle. The device uses a cylindrical structure, can directly sleeve the cylindrical support 1 at the end position of a cable and pull and cut forwards, and besides, the device is also provided with the through groove 11, so that the cylindrical support 1 can be directly buckled on the cable or directly taken down from the middle part of the cable, the operation is more convenient, the primary slide bar 43 and the secondary slide bar 23 are interrupted without affecting the functions of the device, and a space can be reserved for enabling the cable to go in and out without barriers.

The working principle of the invention is as follows:

The device has set up cutting structure 2, separation structure 3 and drive structure 4 inside tubular support 1, and cutting structure 2 is used for cutting the oversheath respectively from the cable both sides, and separation structure 3 is used for separating by the oversheath of incision and inside sinle silk in the in-process that the cable advances. The driving structure 4 is used for pulling the cable to move in the operation process, the two driving rollers 44 of the driving structure 4 synchronously rotate reversely, simultaneously clamp the cable and drive the cable to move, the driven gears 51 are arranged on the rotating shafts 441 of the driving rollers 44, the two transmission gears 53 are arranged between the driven gears 51, the connecting plates 56 for arranging the transmission gears 53 are respectively connected with the two rotating shafts 441 through the connecting rods 52, the effective linkage of the two driving rollers 44 is maintained on the premise that the distance between the driving rollers 44 is variable, the operation is simple and labor-saving, the operation difficulty of stripping the cable outer sheath is greatly reduced, and the working efficiency of electric power construction is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The cable outer sheath stripper for power construction comprises a cylindrical support and is characterized in that a cutting structure, a separating structure and a driving structure are sequentially arranged in the cylindrical support, and a transmission structure is arranged on the driving structure; the driving structure comprises a first-stage slide bar and a driving roller; the cylindrical support is internally provided with a plurality of first-stage sliding rods which are parallel to each other, two roller frames are symmetrically arranged on the first-stage sliding rods, a rotating shaft is rotatably arranged on the roller frames, and a driving roller is arranged on the rotating shaft; the transmission structure comprises a connecting plate, wherein two sides of the connecting plate are respectively connected with rotating shafts on two sides through connecting rods, two transmission gears meshed with each other are arranged on the connecting plate, and driven gears meshed with the transmission gears are arranged on the rotating shafts; the transmission structure comprises a driving shaft which is connected with a transmission gear; the driving structure further comprises a first-stage bidirectional screw rod, the first-stage bidirectional screw rod is rotatably arranged inside the cylindrical support, the first-stage bidirectional screw rod is parallel to the first-stage sliding rod, the roller frame is in threaded engagement with the first-stage bidirectional screw rod, and a first-stage knob is arranged at one end of the first-stage bidirectional screw rod penetrating out of the cylindrical support;

the cutting structure is used for cutting the outer sheath of the cable;

The separation structure is used for stripping the cut outer sheath to the outside; the separation structure comprises a plurality of three-stage sliding rods arranged in the cylindrical support, two opposite supporting frames are connected in series on the three-stage sliding rods, arc stripping sheets are arranged on the inner sides of the supporting frames, and the stripping sheets extend to the central position of the cylindrical support; the spring is connected with the two ends of the third-stage slide bar in series respectively, the two ends of the spring are connected with the inner walls of the supporting frame and the cylindrical support respectively, and the third-stage slide bar is perpendicular to the second-stage slide bar.

2. The apparatus according to claim 1, wherein the cylindrical bracket has a primary chute formed on a surface thereof, and an operating crank is mounted at an end of the drive shaft which passes through the primary chute.

3. The cable jacket stripper for power construction according to claim 2, wherein a secondary chute parallel to the primary chute is provided at a central position of the surface of the cylindrical bracket, and a limit post is installed at a central position of the connecting plate, and passes through the secondary chute.

4. The cable jacket stripper for power construction according to claim 1, wherein the cutting structure comprises a secondary slide bar slidably mounted inside the cylindrical support, and two opposite mounting frames are connected in series to the secondary slide bar, and a blade pointing to the middle of the cylindrical structure is mounted on the mounting frames.

5. The cable jacket stripper for power construction according to claim 4, wherein the cutting structure further comprises a secondary bidirectional screw, the mounting frames are respectively located at two ends of the secondary bidirectional screw and are in threaded engagement with the secondary bidirectional screw, and a secondary knob is mounted at one end of the secondary bidirectional screw penetrating out of the cylindrical support.

6. The apparatus according to claim 4, wherein a through groove is formed in one side of the cylindrical bracket, and each of the primary slide bar and the secondary slide bar located inside the through groove in the cylindrical bracket is interrupted at the middle.