KR102070795B1 - Cable insulation removing device - Google Patents

Abstract

An apparatus for removing cable insulation is disclosed. Cable insulator removal apparatus according to an embodiment of the present invention, the body portion; A head part installed on an upper portion of the body part and having an empty accommodation part therein; An insulator removal unit mounted in the receiving unit to remove the cable insulator, wherein the insulator removal unit includes a first cutting body and a second cutting body having an interlocking structure, and the first cutting body and the second cutting body. The bodies each include a straight cutter arranged such that a pair of straight blades are parallel to the longitudinal direction of the cable and spaced apart from each other corresponding to the diameter of the core of the cable; A circular cutter mounted to the rear of the straight cutter and having a semicircular blade along a semicircular concave groove corresponding to the diameter of the core of the cable, wherein a gap exists between the linear cutter and the circular cutter. By doing so, the pinching phenomenon of the cable insulator can be prevented.

Description

Cable insulation removing device

The present invention relates to a cable insulator removal apparatus.

In the course of telecommunication or electrical work, various cables (for communication and / or power) are removed from the end insulation (cover) of the cable at the stage after the installation work is completed, and then connected to various devices (eg, control boxes, etc.). In addition, cable to cable interconnection requires removal of the cable insulation.

Removing and wiring the cable's insulation takes considerable time. In addition, if the insulator is made of a tough and hard material such as XLPE (cross-linked polyethylene) in the process of removing the insulator (cover) protecting the cable conductor, a cutter blade having a sharp end may be used. none. In this case, hand cutting accidents frequently occur during work.

In the case of using a vibration saw, the safety problem is good, but there is a problem in that the vibration width is different depending on the distance from the rotation center of the vibration to each saw blade, so that the cutting is not properly performed.

Korean Laid-open Patent No. 10-2015-0062582 (2015.06.08 published)-Composite cable sheathing stripper

The present invention is to provide a cable insulator removal device that enables the bulk insulation to be removed by dividing the insulator at the end of the cable by using a circular blade and a double straight blade.

SUMMARY OF THE INVENTION The present invention provides a cable insulator removal device that maximizes insulator loading hole space and solves the internal jamming of the removed sheath by using the space (gap) between replaceable circular blades and straight blades to improve cutting quality. .

The present invention prevents the narrowing of the hand through the safety cover to enable safe operation of the insulator cutting portion, and can easily adjust the length of the cable end to be cut through the blade stopper and to ensure the straightness during the cutting operation of the insulator cutting portion through the side guide An object of the present invention is to provide a cable insulator removal device which prevents damage to the piston rod due to the blade push and improves the cutting quality.

Other objects of the present invention will be readily understood through the following description.

According to an aspect of the invention, the body portion; A head part installed on an upper portion of the body part and having an empty accommodation part therein; An insulator removal unit mounted in the receiving unit to remove the cable insulator, wherein the insulator removal unit includes a first cutting body and a second cutting body having an interlocking structure, and the first cutting body and the second cutting body. The bodies each include a straight cutter arranged such that a pair of straight blades are parallel to the longitudinal direction of the cable and spaced apart from each other corresponding to the diameter of the core of the cable; A circular cutter mounted to the rear of the straight cutter and having a semicircular blade along a semicircular concave groove corresponding to the diameter of the core of the cable, wherein a gap exists between the linear cutter and the circular cutter. There is provided a cable insulator removal device for preventing the pinch of the cable insulator.

The circular cutter may have a rear surface as a vertical surface, and the front surface may be formed as a conical inclined surface having a predetermined inclination angle.

A guide plate mounted on the mount that is lifted from the lower part of the accommodating part, and the second cutting body is fixed to the upper part of the accommodating part, and fixed to a side of the mount; It may further include a guide groove which is concave on the side of the head to guide the lifting of the guide plate.

And a safety cover preventing opening of the lower space of the accommodation portion generated or destroyed by the lifting operation of the mount, wherein the safety cover comprises: a bellow cover fixed to the lower portion of the head portion; An upper end may be coupled to the guide plate, and a lower end may be coupled to the bellows cover, and may include a bellows having a folded structure a plurality of times.

The straight cutter includes: a core loading groove disposed between the pair of linear blades and configured to load the core portion of the cable which is cut up and down by the pair of linear blades and is left; A pair of cutting loading grooves are formed on the outside of the pair of straight blades, each of which is insulated cut portions of the cable cut in the vertical direction by the pair of straight blades, respectively. The inner surface may form a vertical surface, and the outer surface may form an inclined surface.

An insertion body inserted into the core loading groove by a predetermined depth; It may further include a blade stopper is installed on the front of the insertion body including a locking body that is caught on the front of the first cutting body.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

According to the embodiment of the present invention, the insulator at the end of the cable is divided into four by using a circular blade and a double straight blade, so that the bulk insulator can be removed.

In addition, the cutting quality is improved by maximizing the insulator loading hole space and solving the internal jamming of the removed sheath by using the space (gap) between the replaceable circular blade and the linear blade.

In addition, the safety cover prevents hand stenosis for safe operation of the insulator cutout, the length of the cable end to be cut through the blade stopper can be easily adjusted, and the side guide ensures straightness when cutting the insulator cutout. This prevents damage to the piston rod due to the blade push and improves the cutting quality.

1 to 3 are respectively a front view, a back view and a side view of the cable insulator removal device according to an embodiment of the present invention,
4 is a view showing a cable insulator removal state using the insulator removal unit,
5 is a perspective view of a straight cutter,
6 is a front view of a pair of straight cutters,
7 is a front view and a side view of a circular cutter,
8 is a view showing a state in which the insulator removal unit is mounted to the head portion,
9 and 10 show additional components and assembly views mounted to the head portion with the insulator removal portion mounted;
11 is a view showing a cable stopper and a mounting state.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

In this specification, terms such as "comprise" or "have" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

In the following description of the present invention, when it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 to 3 are views showing the front, back and side views of the cable insulator removal apparatus according to an embodiment of the present invention, respectively, Figure 4 is a view showing the cable insulator removal using the insulator removal unit, Figure 5 is a perspective view of a straight cutter, FIG. 6 is a front view of a pair of straight cutters, FIG. 7 is a front view and a side view of a circular cutter, FIG. 8 is a view showing a state in which the insulator removing unit is mounted to the head portion, 9 and 10 are additional components and an assembled view mounted on the head portion equipped with the insulator removal portion, Figure 11 is a view showing the blade stopper and mounting state.

Cable insulator removal device according to an embodiment of the present invention is characterized by being able to collectively remove the insulators of the cable end in four by a crimping method using a circular blade (or semi-circular blade) and a double straight blade.

1 to 11, the cable insulator removal apparatus 1, the head portion 10, the body portion 20, the insulator removal portion 30, the cable 91, the cable insulator 93, the cable core portion 92, Cutting portion 94, the first cutting body (110a), the second cutting body (110b), the first straight cutter (120a), the first circular cutter (130a), the straight blades (121a, 122a), core loading groove (123a) ), Cutting loading grooves 124a and 124b, mounting grooves 126a, fitting grooves 127a, vertical surface 135a, conical inclined surface 136a, cutting inclined surfaces 137a and 137b, receiving portion 12, check status The grooves 14a and 14b, the guide grooves 16, the guide plate 60, the safety cover 70, the bellows 72, the bellows cover 74, the fixing pin 80 and the blade stopper 40 are shown. have.

1 to 3, the cable insulator removal apparatus 1 according to the present embodiment includes a head part 10, a body part 20, and an insulator removal part 30.

The insulator removal part 30 is provided in the accommodating part 12 of the head part 10. The insulator removal portion 30 moves (up and down in the drawing) in the receiving portion 12 by the force supplied from the body portion 20 to divide and remove the insulator at the cable end in a crimped manner.

The body portion 20 is a part for holding a worker. A force providing unit (not shown) for supplying a force (elevation force) for the operation of the insulator removing unit 30 may be provided inside the body unit 20.

The force providing unit may be formed in a cylinder type, and the piston rod driving method of the cylinder may be an electric power supply method or a hydraulic method using hydraulic pressure. In the case of a power method, a battery method for increasing portability or a wired power method for stable power supply may be applied. In the case of the hydraulic system, a hydraulic line for providing hydraulic pressure may be separately connected.

Referring to Fig. 8, there is shown a piston rod (elevating portion 52) which is lifted by a force providing portion, and a mount 50 provided on an upper portion of the piston rod.

The head portion 10 is installed above the body portion 20. The head part 10 may be provided with a receiving part 12 in which the insulator removing part 30 is mounted. Receiving portion 12 has an internal shape that is elongated in the longitudinal direction of the body portion 20 so that the insulator removal portion 30 has a sufficient space to allow the entry and exit of the cable for the insulator removal in the released state. Can have.

The insulator removal unit 30 includes a first cutting body 110a and a second cutting body 110b.

The first cutting body 110a is installed to be movable upward and downward from the lower portion of the receiving portion 12. And the second cutting body (110b) is fixedly installed on the upper portion of the receiving portion (12). The first cutting body 110a and the second cutting body 110b are disposed to face each other so that the blade portions may be engaged with each other.

The first cutting body 110a is supplied with power from the body portion 20 and is coupled to the lifting portion 52 that is moved up and down from the lower portion of the head portion 10 (lower portion of the accommodation portion 12). The lifting unit 52 may be a piston rod of a cylinder whose body is installed inside the body 20. The piston rod may reciprocate in the longitudinal direction, that is, the up and down direction of the body portion 20 depending on whether the power supply or the hydraulic supply, thereby allowing the first cutting body (110a) to perform the lifting operation.

Here, a mount 50 for mounting the first cutting body 110a may be installed at an upper portion of the lifting unit 52. Mount 50 has a concave mounting groove is formed on the upper surface, the mounting groove may have a shape corresponding to the outer surface of the first cutting body (110a).

When the lifting unit 52 is raised and lowered so that the first cutting body 110a mounted on the mount 50 rises to the maximum, the end insulator of the cable 91 interposed between the second cutting body 110b and the interposed portion is divided into four. Can be cut with When the lifting unit 52 is lowered and the first cutting body 110a mounted on the mount 50 is lowered to the minimum, it is sufficiently spaced apart from the second cutting body 110b so that the cable end for removing the insulator enters or the insulator is removed. Allow the removed cable cores and cuts to advance.

Hereinafter, the structure and function of the insulator removal unit 30 will be described in detail with reference to the accompanying drawings.

4 to 7, the insulator removing unit 30 includes a first cutting body 110a and a second cutting body 110b having structures that face each other.

The first cutting body 110a and the second cutting body 110b are positioned between the ends of the cable 91 therebetween, and apply pressure in the vertical direction to divide the cable insulator 93 into the cable in the longitudinal direction of the cable. The cutout 94 is removed from the cable 91 by separating it from the cable core 92 perpendicular to the lengthwise direction of the cutout 94.

Since the first cutting body 110a and the second cutting body 110b have the same structure, the first cutting body 110a will be described below with reference to the first cutting body 110a.

In the present specification, the + Y-axis direction shown in the drawings, the -Y-axis direction in the front, the ㅁ X-axis direction in the left and right, the ㅁ Z-axis direction will be described on the assumption.

The first cutting body 110a includes a first straight cutter 120a and a first circular cutter 130a.

The first straight cutter 120a places the end of the cable 91 between the second straight cutter 120b and applies pressure in the vertical direction (Z-axis direction) so that the cable insulator 93 and the cable core portion 92 are positioned. Cut in the horizontal direction (cable length).

The first straight cutter 120a is formed to have a length equal to or greater than the length of the insulator to be removed. When the length of the first straight cutter 120a is long (that is, when the length of the insulator to be removed is small), the length may be adjusted using the blade stopper 40 to be described later.

Three grooves 123a, 124a, and 125a, which are separated from each other by a pair of straight edges 121a and 122a, on the inner surface (boundary surface) of the first straight cutter 120a that meets the second straight cutter 120b during the pressing process. ) Is formed.

The second straight cutter 120b also has the same structure as the first straight cutter 120a, and three grooves divided by a pair of straight edges are formed on the inner side (boundary surface) thereof.

The three grooves 123a, 124a, and 125a formed in the first straight cutter 120a and the three grooves formed in the second straight cutter 120b meet each other in the crimping process, and the cable core portion in which the left and right insulators are cut and the left insulator is cut. To form an accommodating space for accommodating the insulated right insulator, respectively.

The pair of straight blades 121a and 122a may have an inner surface of the pair of straight edges and an outer surface of the pair of straight edges 121a and 122a. The pair of end edges of the pair of straight edges 121a and 122a is placed on the interface where the first straight cutter 120a and the second straight cutter 120b meet so that the pair is provided in the second straight cutter 120b during the pressing process. Will meet the end of the straight line.

The separation distance of the pair of straight edges 121a and 122a is substantially equal to the diameter of the cable core 92. Therefore, as the pair of straight edges 121a and 122a are compressed in the vertical direction, the left and right boundary points where the cable insulator 93 and the cable core portion 92 meet are cut in the vertical direction.

The core portion 92 in which the left and right insulators are partially removed by the pair of linear blades 121a and 122a may be partially loaded into the core loading grooves 123a disposed between the pair of linear blades 121a and 122a. The core loading groove 123a may have a polygonal column shape in which inner surfaces of the pair of straight blades 121a and 122a constitute side surfaces. In the drawings, the rectangular pillar is basically illustrated as having a chamfered shape, but this is only an example.

Cutting loading grooves 124a and 125a are formed in the outer sides of the pair of straight blades 121a and 122a, respectively. Some of the insulator cutouts left and right cut out of the cable 91 may be loaded into the cutting loading grooves 124a and 125a. The cut stacking grooves 124a and 125a may have a columnar shape in which outer surfaces of the pair of straight blades 121a and 122a form a side surface.

The size of the cut stacking grooves 124a and 125a needs to be sufficient to accommodate at least 1/2 of the cut portions of the left and right cut insulators. This is because when the cut stacking grooves 124a and 125a have a small size, the insulator cut portions left and right cut after cutting are protruded to the outside due to lack of space in the process of being accommodated in the stacking groove, thereby making it impossible to completely crimp the cutting quality. Since the head portion 10 may be damaged, this is to solve this problem.

In the center of the outer surface of the first straight cutter 120a, a mounting groove 126a is formed to allow the first straight cutter 120a to be attached to and detached from the receiving portion 12 of the head 10, particularly the mount 50. Can be.

Although the first linear cutter 120a and the second linear cutter 120b form a cylindrical shape in a state in which the first linear cutter 120b is engaged by the pressing, this is only an embodiment, and it is a polygonal pillar shape such as a square pillar. Of course, it can be achieved.

The first circular cutter 130a is mounted to the rear end of the first straight cutter 120a. The first circular cutter 130a and the first straight cutter 120a may be fastened by bolts. Hereinafter, assuming that the end side of the cable 91 to the front, the front of the first circular cutter (130a) is fastened to the rear of the first straight cutter (120a) when viewed from the center of the first straight cutter (120a) Let's explain.

The first circular cutter 130a and the second circular cutter 130b are placed between the end of the cable 91 at the start point of the insulator removal between them, and then pressurized in the up and down direction to surround the cable insulator 92. ) Is cut perpendicular to the central axis of the cable (91).

The first circular cutter 130a is provided with a semicircle blade 131a along a concave groove having a predetermined diameter. The diameter of the semicircle blade 131a is substantially the same as the diameter of the cable core 92.

When the first circular cutter 130a and the second circular cutter 130b are engaged with each other in the pressing process, the two semicircle blades 131a and 131b function as one circular blade. At this time, a circular hole 132 corresponding to the cable core 92 is formed, so that only the cable insulator 93 may be cut and no damage may be applied to the cable core 92.

The semi-circular blade 131a may be formed of a conical inclined surface 136a having a rear surface thereof as a vertical surface 135a and a front surface having a predetermined inclination angle. Since the conical inclined surface 136a has a predetermined inclination angle, entry is easy when the cable insulator 93 is cut in the vertical direction.

In this case, the two semicircle blades 131a and 131b where the two semicircle blades 131a and 131b meet each other, that is, both ends of the semicircle blades 131a and 131b have a predetermined thickness. This is to apply a high cutting load to the semi-circular blades (131a, 131b) in the process of cutting the cable insulator 93, it is necessary to have a structure that becomes thicker toward the outside from the end edge.

Therefore, in this embodiment, the cutting inclined surface 137a having a predetermined inclination angle (for example, 25 degrees) with the rear surface (that is, the XZ plane) may be formed at both ends of the front surface of the semicircle blade 131a. The cutting inclined surface 137a also has a predetermined inclination with the conical inclined surface 136a.

Due to the presence of the cutting inclined surface 137a, the semicircular blade 131a is easily entered during the cutting operation of the cable insulator 93 in the process of being pressed in the vertical direction, thereby ensuring a high cutting quality even with a small pressing force.

When the first circular cutter 130a and the second circular cutter 130b meet each other, the angle between two adjacent cutting inclined surfaces 137a and 137b may be, for example, 130 degrees. This ensures the best cutting quality with the smallest pressing force as the best entry angle when cutting the insulator according to the material and thickness of the insulator.

The first circular cutter 130a is fitted to the first fitting groove 127a formed at the rear end of the first straight cutter 120a so that the conical inclined surface 136a faces forward, and the second circular cutter 130b is conical. The inclined surface is fitted into the second fitting groove 127a formed at the rear end of the second straight cutter 120b. In this case, a gap exists between the first circular cutter 130a and the first linear cutter 120a, the second circular cutter 130b, and the second linear cutter 120b. Through this gap, it is possible to prevent an uneven burr phenomenon of the cut surface and to prevent the cable insulation from being caught inside the straight cutter. In other words, by removing a portion of the insulator in the uncut state through the gap, the insulator pinching does not occur, and a clean cut surface is secured and the cut surface quality is excellent.

In addition, in order to prevent breakage of the blade due to the cutting load, the thickness should be thicker from the edge of the blade toward the outside. This condition can be satisfied through the cutting slopes 137a and 137b. Durability can be increased.

In addition, the durability of the blade can be maximized while accommodating the volume of the insulator that is cut and pushed through the angle between the cutting inclined surfaces 137a and 137b.

The insulator removing unit 30 includes a cable placed between the first cutting body 110a and the second cutting body 110b on the head portion 10 and engaged with each other by a pressing force in the vertical direction by lifting means. At the end of 91, the cable insulator 93 surrounding the cable core 92 is divided into four incisions and removed.

In this case, the removal quality of the insulator is good due to the simultaneous pressing and cutting of the straight cutter and the circular cutter.

In addition, in the present embodiment, since the circular cutter is detachably provided, it is possible to extend the product life through replacement when the semi-circular blade having relatively weak durability is broken.

Referring to FIG. 8, the accommodating part 12 may be elongated vertically to guide the vertical movement of the first cutting body 110a. The first cutting body 110a may be lifted up and down by the lifting unit 52 and the mount 50.

A guide groove 16 for vertically raising and lowering the first cutting body 110a is formed at the front and / or rear surface of the accommodation part 12, and the guide plate 60 is guided up and down by the guide groove 16. Can be installed.

The guide plate 60 is fixedly installed on the front and / or rear of the mount 50 on which the first cutting body 110a is mounted so as not to twist when the first cutting body 110a is raised or lowered. In addition, damage to the lifting means (eg, damage to the piston) may occur due to the sliding of the first cutting body 110a in the pressing process, by securing the straightness through the guide groove 16 and the guide plate 60. Damage can be prevented.

A safety cover 70 may be installed on the front and / or rear surface of the accommodating part 12 to prevent hand narrowing when the first cutting body 110a is returned (falled) after the compression.

The safety cover 70 for this includes a bellows 72 and a bellows cover 74. The bellows 72 has a structure folded several times. For example, the bellows 72 may have a two-stage or three-stage folding structure.

The upper end of the bellows 72 is fixed to the surface of the guide plate 60, the lower end is fixed to the bellows cover 74 is fixed to the lower end of the head portion (10).

When the guide plate 60 is raised for compression, the upper end of the bellows 72 is also raised while being expanded to prevent the lower space of the accommodation portion 12 from being opened. Therefore, it is possible to prevent the operator's hand from entering the lower space of the receiving portion 12 and then being caught when the first cutting body 110a is lowered after the pressing.

In addition, when the guide plate 60 is lowered, the upper end of the bellows 72 is also lowered while being folded to be placed outside the bellows cover 74.

Status check grooves 14a and 14b may be formed at the side of the head part 10. It is possible to check the cable cutting state by the straight cutter through the first state check groove (14a) formed in front of the side of the head portion 10. In addition, the cable cutting state by the circular cutter can be confirmed through the second state check groove 14b formed at the rear side of the head portion 10.

In addition, a cover (not shown) for guiding the cutting direction may be attached or printed on the side of the head part 10. By guiding the cutting direction through the marker, it is possible to prevent the operator from confusing the front and rear in the process of cutting the cable end.

The fixing pin 80 may be installed on the guide plate 60. The fixing pin 80 is a pin for fixing the first cutting body 110a to the mount 50 and may have a ball guide structure.

Referring to FIG. 11, a blade stopper 40 is shown. The blade stopper 40 includes an insertion body 42 and a locking body 44.

The insertion body 42 may have a cylindrical shape corresponding to the cable core and may have a predetermined length L2 smaller than the length L1 of the first cutting body 110a.

A locking body 44 is installed on the front surface of the insertion body 42, and the insertion body 42 and the locking body 44 may be integrally manufactured. The locking body 44 is locked to the front surface of the first cutting body 110a to prevent the insertion body 42 from being inserted into the deep loading groove 123a of the first cutting body 110a by a predetermined depth or more.

The end of the cable 91 to remove the insulator by the blade stopper 40 is able to adjust the removal length. In addition, the blade stopper 40 allows the operator to precisely match the removal length.

In the case of the blade stopper 40, by varying the length of the insertion body 42, the removal length of the cable end can be variously adjusted.

Although the above has been described with reference to embodiments of the present invention, those skilled in the art may variously modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. And can be changed.

1: Cable insulation removal device 10: Head part
20: body portion 30: insulator removal portion
40: Stopper Me 50: Mount
60: guide plate 70: safety cover
80: fixing pin 110a: first cutting body
120a: first straight cutter 130a: first circular cutter
121a, 122a: Straight blade 123a: Core loading groove
124a, 125a: Cutting loading groove 126a: Mounting groove
127a: fitting groove 131a: semicircle blade
132: circular hole 135a: straight surface
136a: cone slope 137a: cut slope

Claims (6)

Body portion;
A head part installed at an upper portion of the body part and having an empty accommodation part therein;
Insulator removal portion mounted in the receiving portion for removing the cable insulator,
The insulator removing portion includes a first cutting body and a second cutting body having an interlocking structure,
The first cutting body and the second cutting body, respectively,
A straight cutter arranged such that the pair of straight blades are parallel to the longitudinal direction of the cable and spaced apart from each other corresponding to the diameter of the core of the cable; A circular cutter mounted on a rear side of the straight cutter and provided with a semicircular blade along a semicircular concave groove corresponding to the diameter of the core of the cable,
The circular cutter has a rear surface is composed of a vertical plane, the front surface is made of a conical inclined surface having a predetermined inclination angle, there is a gap (gap) between the straight cutter and the circular cutter to prevent the pinch of the cable insulator, Insulator removal device. delete The method of claim 1,
The first cutting body is mounted on the mount to move up and down in the lower portion of the receiving portion, the second cutting body is fixedly installed on the upper portion of the receiving portion,
A guide plate fixed to the side of the mount; And a guide groove recessed in a side of the head to guide the lifting and lowering of the guide plate. The method of claim 3,
Further comprising a safety cover to prevent the opening of the lower space of the receiving portion generated or destroyed by the lifting operation of the mount,
The safety cover,
A bellow cover fixed to a lower portion of the head;
And an upper end coupled to the guide plate and a lower end coupled to the bellows cover, the bellows having a folded structure a plurality of times. The method of claim 1,
In the straight cutter,
A core loading groove disposed between the pair of linear blades, the core loading groove configured to cut the core portion of the cable by cutting it up and down by the pair of linear blades;
A pair of cutting loading grooves are formed on the outside of the pair of straight blades, each of which is insulated cut portions of the cable which are cut left and right in the vertical direction by the pair of straight blades, respectively.
The pair of straight blades are perpendicular to the inner surface, and the outer surface is inclined surface, the cable insulator removal device. The method of claim 5,
An insertion body inserted into the core loading groove by a predetermined depth; And a blade stopper installed on the front surface of the insertion body and including a catching body caught on the front surface of the first cutting body.

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