CN211556697U - Cut cable off tracking device - Google Patents

Abstract

The utility model discloses a cut cable deviation-preventing device, which comprises a deviation-preventing device body, a cutter locking bolt and a triangular clamp; the deviation preventing device body is fixed at the top of the triangular clamp; a cutter groove for mounting a cutter is arranged on the deviation preventing device body in a penetrating manner along the length direction of the cable; the opening of the clamping groove of the triangular clamp is arranged downwards and vertically clamped at the top of a horizontally placed cable; the cutter locking bolt penetrates through a threaded hole in the deviation preventing device body and is matched with the threaded hole penetrating through the deviation preventing device body; the extrusion end of the cutter locking bolt faces the cutter; the utility model discloses, simple structure, low in cost, it is convenient to use.

Description

Cut cable off tracking device

Technical Field

The utility model relates to a cable cuts open and cuts technical field, specifically is cut open and cut cable and prevent off tracking device.

Background

The cable protective layer and the insulating layer are inevitably required to be cut and removed in the process of manufacturing the cable head. However, since the cable is cylindrical in shape, the cutter is easy to slide and deviate in the cutting process, and sometimes the constructor for manufacturing the cable head is injured. Therefore, the deviation-preventing device for the cut cable is arranged on the cutter, and people are prevented from being injured by the deviation of the cutter when the cable is cut.

The comparison document with publication number CN109842051A discloses a cable cutter, which comprises a cutting frame, a cutting mechanism and a cable chuck, wherein the cable chuck is in a circular ring shape with an opening, the cutting mechanism is installed in the chuck, the cable cutter of the comparison document has strong specificity, but is only suitable for cables or cylindrical to-be-cut pieces, can not cut square or plate-shaped articles, and has a narrow application range; and the comparison document uses circuit elements such as air cylinders, switches and the like, so that the cutting and the weaving are easier, but the manufacturing cost is also greatly improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve lies in: the utility model provides a simple structure, low cost's cut cable prevents off tracking device.

In order to solve the technical problem, the utility model provides a following technical scheme: the cut cable deviation-preventing device comprises a deviation-preventing device body, a cutter locking bolt and a triangular clamp; the deviation preventing device body is fixed at the top of the triangular clamp; a cutter groove for mounting a cutter is arranged on the deviation preventing device body in a penetrating manner along the length direction of the cable; the opening of the clamping groove of the triangular clamp is arranged downwards and vertically clamped at the top of a horizontally placed cable; the cutter locking bolt penetrates through a threaded hole in the deviation preventing device body and is matched with the threaded hole penetrating through the deviation preventing device body; the pressing end of the tool locking stud faces the tool.

Preferably, the deviation preventing device body is obliquely fixed at the top of the triangular clamp and integrally formed.

Firstly, a cutter is inserted into a cutter groove formed in a deviation preventing device body, then a cutter locking bolt is rotated to enable the cutter locking bolt to advance towards the cutter in a threaded hole in the deviation preventing device body, after the bottom end of the cutter locking bolt tightly props against a top cutter handle of the cutter, the cutter is taken up to drive a cable deviation preventing device to move, a clamping groove of a triangular clamp is aligned to the cable, the deviation preventing device body is obliquely fixed at the top of the triangular clamp, so that the cutter groove is also obliquely arranged on the triangular clamp, the cutter penetrating through the cutter groove is oblique relative to the triangular clamp, the triangular clamp is vertically erected on the cable, a cutter head of the cutter is obliquely aligned to the cable, the cable is conveniently scratched, the cutter is pulled, the triangular clamp slides on the cable, the cutter head of the cutter slowly approaches to the cable, and an insulating layer and a protective layer of the cable are slowly cut; the triangular card is positioned on the cable, when a protective layer of the cable is cut off, the triangular card is used for clamping the cable, so that the triangular card is always parallel to the central line of the cable when sliding, the position of the cutter and the position of the triangular card are relatively fixed, namely, the cutter moves along the direction parallel to the central line of the cable when cutting, the cutter is difficult to deflect, the cutter does not fall off or deflect, the cut seam after cutting is neat, convenience is brought to subsequent process treatment, and meanwhile, the working efficiency is also improved.

Preferably, the centerline of the triangular card is offset from the centerline of the tool slot.

After the cutter passes through the cutter groove, the cutter head of the cutter deviates from the central line of the cable clamped by the triangular clamp; the cutting accuracy can be improved, and the protective layer or the insulating layer is cut to prevent the other layers of the rest cables from being damaged due to the fact that the protective layer or the insulating layer is cut into two halves along the central line of the cable.

Firstly, a cutter is inserted into a cutter groove formed in a deviation preventing device body, then a cutter locking bolt is rotated to enable the cutter locking bolt to advance towards the cutter in a threaded hole in the deviation preventing device body, after the bottom end of the cutter locking bolt tightly props against a top cutter handle of the cutter, the cutter is taken up to drive a cable deviation preventing device to move, a clamping groove of a triangular clamp is aligned to the cable, the deviation preventing device body is obliquely fixed at the top of the triangular clamp, so that the cutter groove is also obliquely arranged on the triangular clamp, the cutter penetrating through the cutter groove is oblique relative to the triangular clamp, the triangular clamp is vertically erected on the cable, a cutter head of the cutter is obliquely aligned to the cable, the cable is conveniently scratched, the cutter is pulled, the triangular clamp slides on the cable, the cutter head of the cutter slowly approaches to the cable, and an insulating layer and a protective layer of the cable are slowly cut; the triangular clamp is positioned on the cable, when a protective layer of the cable is cut off, the triangular clamp clamps the cable, so that the triangular clamp is always parallel to the central line of the cable when sliding, the position of the cutter and the position of the triangular clamp are relatively fixed, namely, the cutter moves along the direction parallel to the central line of the cable when cutting, the deviation is difficult, the cutter does not fall off or deviate, the cut seam after cutting is neat, the convenience is brought to the subsequent process treatment, and the working efficiency is improved; in addition, the anti-deviation device for the dissected cable is simpler in overall structure, convenient to obtain materials, easy to manufacture and low in cost by arranging the anti-deviation device body, the cutter locking bolt, the triangular clamp and the cutter groove.

Preferably, a first mounting groove with a downward opening is formed in one side, deviating from a vertical center line, of the bottom of the deviation preventing device body; the sectioning cable deviation-preventing device also comprises a first rotating assembly which drives the triangular clamp to rotate along the length direction of the cable; the first rotating assembly is mounted in the first mounting groove. The triangular clamp is fixed to the rotating end of the first rotating assembly through a connecting block.

Preferably, the first rotating assembly comprises a first drum; a first rotary drum with the axis direction consistent with the width direction of the deviation preventing device body is arranged in the first mounting groove; a rotating shaft fixed through a bolt penetrates through the axis of the first rotating drum; two ends of the rotating shaft respectively penetrate out of the anti-deviation device body; a first adjusting knob is fixedly welded at one end of the rotating shaft, and a first detachable locking nut is matched at the other end of the rotating shaft through threads; the triangular clamp is fixed on the first rotary drum through a connecting block.

Insert the cutter inslot with the cutter, then rotatory cutter locking bolt, support the cutter, prevent that the cutter from droing when the cutting, tear out first lock nut from pivot matched with thread end again, then rotate the pivot, drive first pivot and rotate, and then drive the triangle card of connecting through the connecting block and rotate certain angle, make the facade of triangle card and cutter be certain angle, even the cutting end that gets the cutter is certain inclination with the cable, the person of facilitating the use debugs suitable cutter cutting angle, improve user's feeling, make cutting work more simple and convenient.

Preferably, the bottom of the deviation preventing device body is provided with a second mounting groove with three sides opened; the sectioning cable deviation-preventing device also comprises a transverse moving assembly for driving the triangular clamp to horizontally displace along the vertical direction of the cable axis and a second rotating assembly rotating on the transverse moving assembly along the length direction of the cable; the transverse moving assembly is arranged in the second mounting groove; the second rotating assembly is arranged on the transverse moving assembly; the triangular clamp is fixed to the rotating end of the second rotating assembly through a connecting block.

Preferably, the traversing assembly comprises a second drum; a second rotary drum moving along the width direction of the deviation preventing device body is arranged in the second mounting groove; the second rotary drum is sleeved on the screw rod in a threaded fit manner; two ends of the screw rod respectively penetrate out of the anti-deviation device body; a second adjusting knob is fixedly welded at one end of the screw rod, and a second locking nut is matched at the other end of the screw rod through threads; the top of the second rotary drum is connected in a limiting sliding groove formed in the top of the second mounting groove in a sliding mode through a limiting sliding block.

Preferably, the second rotating assembly comprises an arc-shaped sliding block and an arc-shaped sliding groove in sliding fit with the arc-shaped sliding block; an arc-shaped sliding chute is formed in the cylinder body of the second rotary cylinder; an arc-shaped sliding block is embedded into the arc-shaped sliding groove; the triangular clamp is fixedly adhered to the arc-shaped sliding block through a connecting block; a plurality of clamping grooves are formed in the inner wall of the arc-shaped sliding groove facing the triangular clamp at equal intervals; the distance between every two adjacent clamping grooves is equal to the thickness of the connecting block; two clamping strips embedded into the clamping grooves are respectively arranged on two sides of the connecting block; the clamping groove is in transition fit with the clamping strip.

After a cutter is inserted into the cutter groove and locked by the cutter locking bolt, a second locking nut is detached from the screw rod, a second adjusting knob is rotated to drive the screw rod to rotate, the second rotary drum can be limited to rotate due to the fact that the limiting slide block is embedded into a limiting slide groove formed in the top of the second mounting groove, the second rotary drum is enabled to translate on the screw rod along the axis direction of the second rotary drum, the triangular clamp connected to the second rotary drum is further driven to move, after the relative position of the triangular clamp and the cutter is determined, the second locking nut is installed at one end of the screw rod, and the screw rod is prevented from rotating during cutting; because the central axis of the cable and the center of the triangular clamp are positioned in the same vertical plane, when the relative position of the triangular clamp and the cutter is adjusted, the position of the triangular clamp can be changed according to the position of the cable to be cut, so that the cutter can cut to the position to be cut, the cutting operation is flexible, the cutting position is adjustable, and the cutting application range is wide; then manually pulling the triangular clamp to enable the triangular clamp to move in the arc-shaped sliding groove through the connecting block and the arc-shaped sliding block connected to the connecting block, wherein the movement track is that the central axis of the second rotary drum makes a surrounding movement, after the triangular clamp is rotated to a proper angle, the clamping strips are inserted into the clamping grooves, the connecting block is limited between the two clamping strips, the connecting block and the triangular clamp are prevented from moving in the arc-shaped sliding groove, and finally the triangular clamp is erected on a cable to cut the cable; according to the demand of different cutting positions, the cutting position of cutter has been adjusted to according to different people's cutting custom, adjust the cutting angle of cutter and cable, should cut open and cut cable off tracking device, it is comfortable to use, and the cutting position is adjustable, and moreover, the structure of adoption is simple mechanical structure, does not have any electronic structure, simple structure, low cost.

Preferably, an observation groove arranged above the cutter groove is further penetrated through the deviation preventing device body; the tool locking bolt passes through the viewing slot.

The state of the cutter locking bolt is conveniently observed, the quality of the anti-deviation device body can be reduced, and the use convenience is improved.

Compared with the prior art, the beneficial effects of the utility model are that:

A. when the cutter is used for cutting, the cutter moves along the direction parallel to the central line of the cable, so that the deviation is difficult to occur, the cutter does not fall off or deviate, a cut seam after cutting is neat, convenience is brought to subsequent process treatment, and meanwhile, the working efficiency is improved; compared with the existing special cutting device with an electrified structure, the cut cable deviation-preventing device is provided with a deviation-preventing device body, a cutter locking bolt, a triangular clamp and a cutter groove which are easy to manufacture, the whole length of the deviation-preventing device body is not more than half of the length of a cutter, the structure is small and exquisite, the through cutter groove is easy to manufacture, the triangular clamp and the deviation-preventing device body are integrally formed, the triangular clamp is in an inverted V shape, the structure is simple, the whole structure adopts a simple shape structure, the cut cable deviation-preventing device can use light plastic parts and waste rectangular materials such as wood and metal, the materials are convenient to obtain, the cut cable deviation-preventing device can be manually manufactured finally, electronic equipment cannot be used, and the cost is low;

B. the included angle between the triangular clamp and the cutter is adjusted, so that the cutting end of the cutter and the cable form a certain inclination, a user can conveniently adjust a proper cutting angle of the cutter, the hand feeling of the user is improved, and the cutting work is simpler and more convenient; according to the demand of different cutting positions, the cutting position of cutter has been adjusted to according to different people's cutting custom, adjust the cutting angle of cutter and cable, the cutting location is accurate, and cutting tool uses comfortablely.

Drawings

Fig. 1 is a schematic working diagram of a cut cable deviation preventing device in an embodiment of the present invention;

fig. 2 is a schematic axial view of a cut cable deviation preventing device in the first embodiment of the present invention;

fig. 3 is a schematic diagram of a first axial side of a cut cable deviation prevention device in the second embodiment of the present invention;

fig. 4 is a schematic second shaft side view of the cut cable deviation preventing device in the second embodiment of the present invention;

fig. 5 is a schematic diagram of a first shaft side of a cut cable deviation prevention device in the third embodiment of the present invention;

fig. 6 is a schematic diagram of a second shaft side of the third middle cutting cable deviation preventing device in the embodiment of the present invention.

Detailed Description

In order to facilitate the understanding of the technical solutions of the present invention by those skilled in the art, the technical solutions of the present invention will now be further described with reference to the drawings attached to the specification.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Example one

Referring to fig. 1 and 2, the embodiment discloses a deviation preventing device for a cut cable, which comprises a deviation preventing device body 1, a cutter locking bolt 2 and a triangular clamp 3. The deviation-preventing device body 1 is obliquely fixed at the top of the triangular clamp 3 and is integrally formed with the triangular clamp. And a through cutter groove 11 is formed in the deviation preventing device body 1 along the length direction of the cable 7. The opening of the clamping groove of the triangular clamp 3 is arranged downwards and vertically clamped at the top of the horizontally placed cable 7. The cutter 6 is inserted into the through cutter groove 11, and the cut end abuts on the top surface of the cable 7. The cutter locking bolt 2 penetrates through a threaded hole in the deviation preventing device body 1 and penetrates into the cutter groove 11, and the bottom end of the cutter locking bolt abuts against the top cutter handle of the cutter 6.

Firstly, a cutter 6 is inserted into a cutter groove 11 arranged on an anti-deviation device body 1, then a cutter locking bolt 2 is rotated, so that the cutter locking bolt 2 moves forward towards the cutter 6 in a threaded hole on the anti-deviation device body 1, after the bottom end of the cutter locking bolt 2 tightly props against a top cutter handle of the cutter 6, the cutter 6 is taken up to drive a cut cable anti-deviation device to move, a clamping groove of a triangular clamp 3 is aligned to a cable 7, the anti-deviation device body 1 is obliquely fixed at the top of the triangular clamp 3, so the cutter groove 11 is also obliquely arranged on the triangular clamp 3, the cutter 6 penetrating through the cutter groove 11 is oblique relative to the triangular clamp 3, the triangular clamp 3 is vertically erected on the cable 7, so that the cutter head of the cutter 6 is obliquely aligned to the cable 7, the cable 7 is conveniently scratched, the cutter 6 is pulled, the triangular clamp 3 slides on the cable 7, the cutter head of the cutter 6 slowly approaches to the cable 7, the insulating layer and the protective layer of the cable 7 are slowly cut; the triangular clamp 3 is positioned on the cable 7, when a protective layer of the cable 7 is cut, the triangular clamp 3 clamps the cable 7, so that the triangular clamp 3 is always parallel to the central line of the cable 7 when sliding, and the cutter 6 and the triangular clamp 3 are relatively fixed in position, namely, the cutter 6 moves in the direction parallel to the central line of the cable 7 when cutting, so that the deviation is difficult, the cutter does not fall off, the deviation is not generated, the cut seam after cutting is neat, the convenience is brought to the subsequent process treatment, and the working efficiency is improved; compared with the existing special cutting device with an electrified structure, the deviation-preventing device for the cut cable is small in structure, the through cutter groove 11 is easy to manufacture, the triangular clamp 3 and the deviation-preventing device body 1 are integrally formed, the triangular clamp 3 is inverted V-shaped, the structure is simple, the overall structure is simple in structure, the light plastic piece can be used for the deviation-preventing device for the cut cable, waste rectangular materials such as wood and metal can be used, materials are convenient to obtain, the deviation-preventing device for the cut cable can be manufactured manually, electronic equipment cannot be used, and the cost is low.

The center line of the triangular card 3 is staggered with the center line of the cutter groove 11.

After the cutter 6 passes through the cutter groove 11, the cutter head of the cutter 6 deviates from the central line of the cable 7 clamped by the triangular clamp 3; not only can the cutting accuracy be improved, but also the protective layer or the insulating layer is prevented from being cut into two parts along the central line of the cable 7 to damage other layers of the rest of the cable 7.

An observation groove 12 arranged above the cutter groove 11 is also penetrated through the deviation preventing device body 1. The tool locking bolt 2 passes through the viewing slot 12.

Not only is the state of the cutter locking bolt 2 convenient to observe, but also the quality of the anti-deviation device body 1 can be reduced, and the use convenience is improved.

The working principle of the embodiment is as follows: firstly, a cutter 6 is inserted into a cutter groove 11 arranged on an anti-deviation device body 1, then a cutter locking bolt 2 is rotated, so that the cutter locking bolt 2 moves forward towards the cutter 6 in a threaded hole on the anti-deviation device body 1, after the bottom end of the cutter locking bolt 2 tightly props against a top cutter handle of the cutter 6, the cutter 6 is taken up to drive a cut cable anti-deviation device to move, a clamping groove of a triangular clamp 3 is aligned to a cable 7, the anti-deviation device body 1 is obliquely fixed at the top of the triangular clamp 3, so the cutter groove 11 is also obliquely arranged on the triangular clamp 3, the cutter 6 penetrating through the cutter groove 11 is oblique relative to the triangular clamp 3, the triangular clamp 3 is vertically erected on the cable 7, so that the cutter head of the cutter 6 is obliquely aligned to the cable 7, the cable 7 is conveniently scratched, the cutter 6 is pulled, the triangular clamp 3 slides on the cable 7, the cutter head of the cutter 6 slowly approaches to the cable 7, the insulating layer and the protective layer of the cable 7 are slowly cut; the triangular clamp 3 is positioned on the cable 7, when a protective layer of the cable 7 is cut, the triangular clamp 3 clamps the cable 7, so that the triangular clamp 3 is always parallel to the central line of the cable 7 when sliding, and the cutter 6 and the triangular clamp 3 are relatively fixed in position, namely, the cutter 6 moves in the direction parallel to the central line of the cable 7 when cutting, so that the deviation is difficult, the cutter does not fall off, the deviation is not generated, the cut seam after cutting is neat, the convenience is brought to the subsequent process treatment, and the working efficiency is improved; in addition, the sectioning cable deviation-preventing device is simpler in overall structure, convenient to obtain materials, easy to manufacture and low in cost by arranging the deviation-preventing device body 1, the cutter locking bolt 2, the triangular clamp 3 and the cutter groove 11.

Example two

Referring to fig. 3 and 4, a second embodiment is different from the first embodiment in that a first mounting groove 13 with a downward opening is formed on one side of the bottom of the deviation preventing device body 1 deviating from the vertical center line. A first rotating drum 41 with the axis direction consistent with the width direction of the deviation preventing device body 1 is arranged in the first mounting groove 13. A rotating shaft 43 fixed by a bolt is inserted through the axis of the first drum 41. Two ends of the rotating shaft 43 respectively penetrate out of the deviation preventing device body 1. And a first adjusting knob 42 is fixedly welded to one end of the rotating shaft 43, and a detachable first locking nut 44 is fitted to the other end of the rotating shaft through threads. The triangular card 3 is fixed on the first drum 41 through a connecting block 31.

Insert cutter 6 in cutter groove 11, then rotatory cutter locking bolt 2, support cutter 6, prevent that cutter 6 from droing when the cutting, tear out first lock nut 44 from pivot 43 matched with thread end again, then rotate pivot 43, drive first cylinder 41 and rotate, and then drive the triangle card 3 of connecting through connecting block 31 and rotate certain angle, make the facade of triangle card 3 be certain angle with cutter 6, even it is certain inclination to make the cutting end of cutter 6 be with cable 7, the person of facilitating the use debugs suitable cutter 6 cutting angle, improve user's feeling, make cutting work more simple and convenient.

EXAMPLE III

Referring to fig. 5 and 6, unlike the first and second embodiments, a second mounting groove 14 with three open sides is formed at the bottom of the deviation preventing device body 1. A second rotating drum 51 moving along the width direction of the deviation preventing device body 1 is installed in the second installation groove 14. The second drum 51 is sleeved on the screw rod 52 through threaded fit. Two ends of the screw rod 52 respectively penetrate out of the deviation preventing device body 1. And a second adjusting knob 55 is fixedly welded at one end of the screw rod 52, and a second locking nut 53 is matched at the other end of the screw rod through threads. The top of the second rotating drum 51 is slidably connected in a limiting sliding groove (not shown) formed in the top of the second mounting groove 14 through a limiting sliding block 54.

An arc-shaped sliding chute 81 is arranged on the body of the second rotating drum 51. An arc-shaped sliding block (not shown) is embedded in the arc-shaped sliding groove 81. The triangular clamp 3 is fixedly adhered to the arc-shaped sliding block through a connecting block 31. A plurality of clamping grooves 83 are formed in the inner wall, facing the triangular clamp 3, of the arc-shaped sliding groove 81 at equal intervals. And the distance between every two adjacent clamping grooves 83 is equal to the thickness of the connecting block 31. Two clamping strips 82 embedded into the clamping grooves 83 are respectively arranged on two sides of the connecting block 31. The locking groove 83 is in transition fit with the locking strip 82.

After the cutter 6 is inserted into the cutter groove 11 and locked by the cutter locking bolt 2, the second locking nut 53 is detached from the screw rod 52, the second adjusting knob 55 is rotated to drive the screw rod 52 to rotate, and the limiting slide block 54 is embedded into the limiting slide groove formed in the top of the second mounting groove 14, so that the second rotary drum 51 can be limited from rotating, the second rotary drum 51 can be enabled to translate on the screw rod 52 along the axis direction of the second rotary drum, the triangular clamp 3 connected to the second rotary drum 51 is further driven to move, after the relative position of the triangular clamp 3 and the cutter 6 is determined, the second locking nut 53 is installed at one end of the screw rod 52, and the screw rod 52 is prevented from rotating during cutting; because the central axis of the cable 7 and the center of the triangular clamp 3 are positioned in the same vertical plane, when the relative position of the triangular clamp 3 and the cutter 6 is adjusted, the position of the triangular clamp 3 can be changed according to the position of the cable 7 to be cut, so that the cutter 6 can cut to the position to be cut, the cutting operation is flexible, the cutting position is adjustable, and the cutting application range is wide; then manually pulling the triangular clamp 3 to enable the triangular clamp 3 to move in the arc-shaped sliding groove 81 through the connecting block 31 and the arc-shaped sliding block connected to the connecting block 31, wherein the movement track is that the central axis of the second rotary drum 51 makes a surrounding movement, after the triangular clamp 3 is rotated to a proper angle, the clamping strips 82 are inserted into the clamping grooves 83, the connecting block 31 is limited between the two clamping strips 82, the connecting block 31 and the triangular clamp 3 are prevented from moving in the arc-shaped sliding groove 81, and finally the triangular clamp 3 is erected on the cable 7 to cut the cable 7; according to the demand of different cutting positions, the cutting position of cutter 6 has been adjusted to according to different people's cutting custom, adjust the cutting angle of cutter 6 and cable 7, should cut open the cable and prevent off tracking device, it is comfortable to use, and the cutting position is adjustable, and moreover, the structure of adoption is simple mechanical structure, does not have any electronic structure, simple structure, low cost.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

The above embodiments only show the embodiments of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and for those skilled in the art, a plurality of modifications and improvements can be made without departing from the concept of the present invention, and these modifications and improvements all belong to the protection scope of the present invention.

Claims (9)

1. Cut open cable and prevent off tracking device, its characterized in that: comprises an anti-deviation device body, a cutter locking bolt and a triangular clamp; the deviation preventing device body is fixed at the top of the triangular clamp; a cutter groove for mounting a cutter is arranged on the deviation preventing device body in a penetrating manner along the length direction of the cable; the opening of the clamping groove of the triangular clamp is arranged downwards and vertically clamped at the top of a horizontally placed cable; the cutter locking bolt penetrates through a threaded hole in the deviation preventing device body and is matched with the threaded hole penetrating through the deviation preventing device body; the pressing end of the tool locking stud faces the tool.

2. The cut cable deviation preventing device as claimed in claim 1, wherein: the deviation-preventing device body is obliquely fixed at the top of the triangular clamp and integrally formed.

3. The cut cable deviation preventing device as claimed in claim 2, wherein: the center line of the triangular clamp is staggered with the center line of the cutter groove.

4. The cut cable deviation preventing device as claimed in claim 1, wherein: a first mounting groove with a downward opening is formed in one side, deviating from a vertical central line, of the bottom of the deviation preventing device body; the sectioning cable deviation-preventing device also comprises a first rotating assembly which drives the triangular clamp to rotate along the length direction of the cable; the first rotating assembly is arranged in the first mounting groove; the triangular clamp is fixed to the rotating end of the first rotating assembly through a connecting block.

5. The cut cable deviation preventing device as claimed in claim 4, wherein: the first rotating assembly comprises a first drum; a first rotary drum with the axis direction consistent with the width direction of the deviation preventing device body is arranged in the first mounting groove; a rotating shaft fixed through a bolt penetrates through the axis of the first rotating drum; two ends of the rotating shaft respectively penetrate out of the anti-deviation device body; a first adjusting knob is fixedly welded at one end of the rotating shaft, and a first detachable locking nut is matched at the other end of the rotating shaft through threads; the triangular clamp is fixed on the first rotary drum through a connecting block.

6. The cut cable deviation preventing device as claimed in claim 1, wherein: a second mounting groove with three open sides is formed at the bottom of the deviation preventing device body; the sectioning cable deviation-preventing device also comprises a transverse moving assembly for driving the triangular clamp to horizontally displace along the vertical direction of the cable axis and a second rotating assembly rotating on the transverse moving assembly along the length direction of the cable; the transverse moving assembly is arranged in the second mounting groove; the second rotating assembly is arranged on the transverse moving assembly; the triangular clamp is fixed to the rotating end of the second rotating assembly through a connecting block.

7. The cut cable deviation preventing device as claimed in claim 6, wherein: the traverse assembly comprises a second drum; a second rotary drum moving along the width direction of the deviation preventing device body is arranged in the second mounting groove; the second rotary drum is sleeved on the screw rod in a threaded fit manner; two ends of the screw rod respectively penetrate out of the anti-deviation device body; a second adjusting knob is fixedly welded at one end of the screw rod, and a second locking nut is matched at the other end of the screw rod through threads; the top of the second rotary drum is connected in a limiting sliding groove formed in the top of the second mounting groove in a sliding mode through a limiting sliding block.

8. The cut cable deviation preventing device as claimed in claim 7, wherein: the second rotating assembly comprises an arc-shaped sliding block and an arc-shaped sliding groove in sliding fit with the arc-shaped sliding block; an arc-shaped sliding chute is formed in the cylinder body of the second rotary cylinder; an arc-shaped sliding block is embedded into the arc-shaped sliding groove; the triangular clamp is fixedly adhered to the arc-shaped sliding block through a connecting block; a plurality of clamping grooves are formed in the inner wall of the arc-shaped sliding groove facing the triangular clamp at equal intervals; the distance between every two adjacent clamping grooves is equal to the thickness of the connecting block; two clamping strips embedded into the clamping grooves are respectively arranged on two sides of the connecting block; the clamping groove is in transition fit with the clamping strip.

9. The cut cable deviation preventing device as claimed in any one of claims 1 to 8, wherein: an observation groove arranged above the cutter groove is also communicated with the anti-deviation device body; the tool locking bolt passes through the viewing slot.

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