KR101772629B1 - Cable jacket stripper device - Google Patents

Abstract

A cable sheathing apparatus is disclosed. The cable jacket removing apparatus of the present invention comprises: a separator main body; A first roller provided at a lower portion of a front surface of the unwinding machine body so that both ends thereof are axially coupled and rotated; A second roller disposed at an upper portion of the first roller, the second roller being adjustable in height with respect to the main body in accordance with a user's manipulation so that both ends of the first roller are axially coupled to the main body and the gap between the first roller and the first roller is adjusted; A driving unit provided to provide a rotational force to the first roller; And a power transmitting portion provided to transmit the rotational force of the driving portion to the first roller and the second roller, wherein the first roller and the second roller are arranged such that protrusions and grooves corresponding to each other on the surface are continuously arranged And the cable is inserted between the first roller and the second roller, and the cable and the cover are separated by the pressure acting from the first and second concave and convex portions.

Description

[0001] CABLE JACKET STRIPPER DEVICE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cable sheathing apparatus, and more particularly, to a cable sheathing apparatus capable of quickly and cleanly separating a sheath and a copper wire by putting waste cables of various thicknesses in an unseparated state.

The cable transmits electric power to an industrial site or a home, and has a structure in which an electric wire (a copper wire) which is electrically connected to the inside is enclosed by an insulating bead. In addition, cables are becoming increasingly consumed as the industrial society becomes more complicated and power consumption increases.

The general structure of such a cable is composed of a copper wire formed of a single wire or a double wire and a synthetic resin covering the wire.

Since the cover covering the cable is cured by being exposed to snow, rain or ultraviolet rays, a new cable should be replaced after a certain period of time. In this process, a large amount of waste cable is generated. Therefore, in the waste cable, the wire can be recycled, so the covering covering the wire must be removed.

Since the peeling process for recycling the waste cable is performed mainly by hand, the peeling process proceeds very slowly, so that a large amount of manpower and cost have been required for peeling off a large amount of cloth. In addition, in the peeling process of the cloth, There is a problem that frequent safety accidents such as injuries are caused.

In recent years, a wire breaking machine has been proposed which automatically breaks off the sheath of the waste cable by operation of the blade to compensate for this.

However, such a conventional wire breaking machine has a problem that a large amount of cable can not be quickly removed because the amount of wire breaking per unit time is limited.

In addition, since the conventional wire breaking machine adopts a structure to break the covering of the closed cable according to the operation method of the blade, it is inevitable to frequently replace the blade due to abrasion of the blade, In addition, since the mold of the injection port has to be attached and detached from time to time according to the thickness of the wire, the efficiency of the work is lowered.

Korean Registered Patent No. 10-1197744 (Registration date: October 30, 2012)

Disclosure of Invention Technical Problem [8] The present invention provides a cable jacketing apparatus which can quickly and cleanly separate a cable and a copper wire by putting the cables with various thicknesses in a non-aligned state.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

According to an aspect of the present invention, A first roller provided at a lower portion of a front surface of the unwinding machine body so that both ends thereof are axially coupled and rotated; A second roller disposed at an upper portion of the first roller, the second roller being adjustable in height with respect to the main body in accordance with a user's manipulation so that both ends of the first roller are axially coupled to the main body and the gap between the first roller and the first roller is adjusted; A driving unit provided to provide a rotational force to the first roller; And a power transmitting portion provided to transmit the rotational force of the driving portion to the first roller and the second roller, wherein the first roller and the second roller are arranged such that protrusions and grooves corresponding to each other on the surface are continuously arranged And the cable is inserted between the first roller and the second roller, and the cable and the cover are separated by the pressure acting from the first and second concavo-convex portions, ≪ / RTI >

The elevator controller includes a screw shaft screwed vertically to both ends of the front surface of the main body of the removing machine, And a lift block connected to a lower portion of the screw shaft and coupled to the stripper main body such that both ends of the second roller are coupled to each other, and the height of the lift block is adjusted with respect to the stripper main body by rotation of the screw shaft.

The elevating block has guide grooves formed on both side surfaces thereof and a guide protrusion having a predetermined length in the up-and-down direction is formed to insert the guide groove into a position corresponding to both sides of the elevating block. .

The power transmission unit includes: a first gear formed on the first roller to be exposed to one side of the removing unit body and connected to the driving unit via a chain; A second gear formed on the first roller so as to be disposed inside the first gear; A first idle gear rotatably coupled to the separator body to be connected to the second gear; A second idle gear rotatably coupled to the detacher body to be disposed on the first idle gear and connected to the first idle gear; And a third gear selectively connected to the second idle gear or the second gear and formed on the second roller so as to be exposed to the outside of the lift block.

The second idle gear is coupled to the main body of the removing machine via a support block, and the support block is coupled to be movable in the direction of the lift block so that the second idle gear and the third gear are connected to each other .

The supporting block is characterized in that a pair of guide slots having a predetermined length in the left-right direction are formed on the upper and lower surfaces of the supporting block, and are coupled to the detacher body via a coupling member.

A plurality of moving rollers are provided on a lower surface of the main body so that smooth movement by a user can be achieved during installation.

According to the present invention, there is provided a stripper comprising: a first roller rotatably coupled to a main body of a removing machine and having a first concavo-convex portion formed on a surface thereof, and a second roller rotatably coupled to an upper portion of the first roller and having a second concavo- It is possible to separate a cable inserted in an unaligned state between the first roller and the second roller by the pressure of the first and second concavo-convex portions by the covering and the electric wire, But it is possible to improve the efficiency of the work.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a cable sheathing apparatus according to the present invention; FIG.
Fig. 2 is a view showing a first roller and a second roller of the cable jacket removing apparatus shown in Fig. 1. Fig.
Fig. 3 is a side view of the cable sheathing apparatus shown in Fig. 1. Fig.
Fig. 4 is a view showing a main part of the cable sheathing removing apparatus shown in Fig. 2. Fig.
5 and 6 are views showing the operating state of the cable sheathing apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions will not be described in order to simplify the gist of the present invention.

FIG. 1 is a view showing a cable sheathing apparatus according to the present invention, FIG. 2 is a view showing a first roller and a second roller of the cable sheathing apparatus shown in FIG. 1, FIG. 4 is a view showing the main part of the cable sheathing apparatus shown in FIG. 2, and FIGS. 5 and 6 are views showing the operating state of the cable sheathing apparatus according to the present invention .

1 to 4, the cable jacket removing apparatus according to the present invention includes a removing unit body 10, a first roller 20, a second roller 30, a driving unit 40, And a power transmitting portion (50).

The molten metal body 10 is provided to form a main frame of the cable sheathing apparatus. That is, the removing unit main body 10 has a plurality of profiles to form a frame so that the first roller 20, the second roller 30, the driving unit 40, and the power transmitting unit 50 are coupled, .

In addition, the elevator main body 10 is provided with a height adjuster 12 for adjusting the height of the second roller 30. [ That is, the height adjusting portion 12 is for adjusting the height of the second roller 30 with respect to the removing head body 10 so as to adjust the distance between the first roller 20 and the second roller 30, A shaft 14, and a lift block 16.

The screw shaft 14 is formed to have a predetermined length and is formed with a screw on its surface, and is screwed vertically to both ends of the front surface of the removing unit body 10.

The lift block 16 is provided so as to be raised and lowered with respect to the peeling machine body 10 in accordance with the rotation operation of the screw shaft 14. [ To this end, the elevating block 16 is provided at both ends of the front surface of the removing machine body 10 so as to be connected to the lower portion of the screw shaft 14. [ At this time, the snap ring is coupled to the connection portion between the screw shaft 14 and the lift block 16, so that the lift block 16 is not separated from the screw shaft 14 when the screw shaft 14 rotates.

The lift block 16 is raised and lowered with respect to the peeling machine body 10 when the screw shaft 14 is rotated. This is possible by screwing the screw shaft 14 to the molten metal removing body 10 and lifting the screw shaft 14 together.

The elevating block 16 is provided with guide grooves 17 on both sides thereof and the removing unit main body 10 includes guide projections 11 inserted into the guide grooves 17 at positions corresponding to both sides of the elevating block 16, . Accordingly, the elevating block 16 can be stably lifted and lowered by the guide protrusion 11 guided along the guide groove 17 when the screw shaft 14 is rotated.

Further, a plurality of moving rollers 18 are coupled to the lower surface of the removing machine body 10. That is, the moving roller 18 is provided to enable smooth movement by the user when the removing machine body 10 is installed. At this time, the moving roller 18 may be provided as a caster.

The first roller (20) is rotatably provided at the lower front of the main body (10). That is, the first roller 20 is formed of a circular roller having a predetermined length, and both ends of the roller are axially coupled to the lower part of the front surface of the removing unit body 10 so that the first roller 20 can be rotated by the rotational force provided from the driving unit 40 .

In addition, the first roller 20 has a first concavo-convex portion 22 formed on the surface thereof with the protrusions and grooves continuously arranged along the longitudinal direction. The first concavo-convex part 22 cooperates with the second concavo-convex part 32 provided in the second roller 30 to be described later, and the cable and the sheath of the cable inserted between the first roller 20 and the second roller 30 It is responsible for separating.

That is, the cable inserted between the first roller 20 and the second roller 30 is pushed by the constant pressure acting from the first concave-convex part 22 and the second concave-convex part 32, It will be possible.

The second roller 30 is rotatably provided on the upper surface of the main body 10 so as to be disposed on the upper side of the first roller 20. That is, the second roller 30 is formed of a circular roller having a predetermined length so as to correspond to the first roller 20, and both ends of the second roller 30 are axially coupled to the elevating block 16 provided in the elevator control unit of the elevator main body 10 . Accordingly, the second roller 30 has a structure in which it is raised and lowered with respect to the removing unit body 10 so that the interval between the second roller 30 and the first roller 20 is adjusted by the height adjusting portion 12.

The reason why the second roller 30 is elevated and lowered to be spaced apart from the first roller 20 is that a cable of various thicknesses is inserted between the first roller 20 and the second roller 30 to separate the cover and the wire It is for this reason.

The second roller 30 is formed with a second concavo-convex portion 32 on its surface so as to correspond to the first concavo-convex portion 22 provided on the first roller 20 and the grooves and grooves are continuously arranged along the longitudinal direction. The second concavo-convex portion 32 cooperates with the first concavo-convex portion 22 provided on the first roller 20 to cover the cable and the cable which are fed into the first roller 20 and the second roller 30 It is responsible for separating.

The driving unit 40 is coupled to the detacher body 10 to provide a rotational force to the first roller 20. The driving unit 40 may be a general driving motor.

The power transmitting portion 50 is provided to transmit the rotational force of the driving portion 40 to the first roller 20 and the second roller 30 and includes the first gear 52, the second gear 53, An idle gear 54, a second idle gear 55, and a third gear 58. The first idle gear 54, the second idle gear 55,

The first gear 52 is formed on the first roller 20 so as to be exposed to one side of the peeler main body 10. The first gear 52 is connected to the driving unit 40 via a chain 51.

The second gear 53 is formed on the first roller 20 so as to be disposed inside the first gear 52.

The first idle gear 54 is rotatably coupled to the main body 10 so as to be connected to the second gear 53.

A second idle gear 55 is rotatably coupled to the main body 10 so as to be disposed on the upper portion of the first idle gear 54. The second idle gear 55 is connected to the first idle gear 54.

Here, the second idle gear 55 is coupled to the machine body 10 via the support block 56. The support block 56 has a structure in which the second idle gear 55 and the third gear 58 are moved in the direction of the lift block 16 so as to be selectively connected.

To this end, the support block 56 is formed with a pair of guide elongated holes 56A having a predetermined length in the left-right direction on the upper and lower surfaces thereof, and is coupled to the detacher body 10 via the engaging member 56B. At this time, the engaging member 56B may be formed of a screw.

The support block 56 is fixed to the detachment body 10 when the engaging member 56B is tightened and has a structure that is moved in the direction of the lifting block 16 by the guide elongated hole 56A when the engaging member 56B is released . Accordingly, the support block 56 can be moved in the direction of the lifting block 16 so that the second idle gear 55 and the third gear 58 are selectively connected by the user.

The third gear 58 is formed on the second roller 30 so as to be exposed to the outside of the lift block 16. [ The third gear 58 has a structure that is selectively connected to the second gear 53 or the second idle gear 55 by the user.

That is, when the second roller 30 is lowered so that the distance between the first roller 20 and the second roller 30 is reduced according to the operation of the height adjusting portion 12, (53). At this time, a cable having a relatively small thickness may be inserted between the first roller 20 and the second roller 30 to separate the cover and the wire.

When the second roller 30 is lifted so that the interval between the first roller 20 and the second roller 30 is increased in accordance with the operation of the height adjusting portion 12, And is engaged with the idle gear (55). The second gear 53 and the third gear 58 are spaced apart from each other by the second roller 30 so that the second idle gear 55 and the third gear 58 are connected to each other, To the second roller 30, as shown in FIG. At this time, a relatively thick cable is inserted between the first roller 20 and the second roller 30 to separate the cover and the wire.

The power transmitting portion 50 transmits the rotational force of the driving portion 40 to the third gear 58 through the second gear 53 or the second idle gear 55 when the second roller 30 is moved up and down. To the third gear (58).

Hereinafter, the operation of the cable sheathing apparatus according to the present invention will be described with reference to FIGS. 5 and 6. FIG.

5, when the lift block 16 is lowered with respect to the escaping machine body 10 in accordance with the rotation of the screw shaft 14 provided in the height adjuster 12, The second gear 53 and the third gear 58 are engaged with each other so that the rotational force of the driving unit 40 is transmitted to the third gear 58 through the second gear 53.

When the second roller 30 is lowered, the gap L1 between the second roller 30 and the first roller 20 is narrowed so that a relatively thin cable is inserted between the first roller 20 and the second roller 30, And the wire can be separated.

At this time, the thin cable inserted between the first roller 20 and the second roller 30 is pushed by the pressure of the first and second concave and convex portions 22 and 32 formed by the protrusions and the grooves, will be.

6, when the lift block 16 is raised with respect to the escaping machine body 10 in accordance with the rotation of the screw shaft 14 provided in the height adjuster 12, The second gear 53 and the third gear 58 are spaced apart from each other as the second roller 30 is lifted.

When the second gear 53 and the third gear 58 are spaced apart from each other by a predetermined distance, the support block 56 is moved by the user in the direction of the lift block 16 to rotate the second idle gear 55 and the third gear 58 The rotational force of the driving unit 40 is transmitted to the third gear 58 via the second gear 53, the first idle gear 54 and the second idle gear 55 in sequence, .

In addition, when the second roller 30 is lifted, the gap L2 with respect to the first roller 20 is opened so that a relatively thick cable of a different thickness from the case of FIG. 5 is applied to the first roller 20 and the second roller 30 to separate the sheath and the wire.

That is, the thick cable inserted between the first roller 20 and the second roller 30 is pushed by the pressure of the first and second convex and concave portions 22 and 32 formed by the protrusions and the grooves, will be.

The first roller 20 and the second roller 30 are formed to have a predetermined length and are rotatably coupled to the removing unit body 10 so that the waste cables of various thicknesses are put in an unseparated state, It can be quickly and cleanly separated.

As described above, the cable sheathing apparatus according to the present invention includes the first roller 20 and the first roller 20, which are rotatably coupled to the unwinding machine body 10 and have a first concave- The second roller 30 rotatably coupled to the upper portion of the first roller 20 and the second rugged portion 32 formed on the surface of the first roller 20 and the second roller 30, The cable can be separated by the cover and the electric wire by the pressure of the first and second concave and convex portions 22 and 32.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, such modifications or variations should not be individually understood from the technical spirit and viewpoint of the present invention, and modified embodiments should be included in the claims of the present invention.

10: removing machine body 12: height adjusting portion
14: screw shaft 16: lift block
20: first roller 22: first concave /
30: second roller 32: second concave /
40: driving part 50: power transmission part
52: first gear 53: second gear
54: first idle gear 55: second idle gear
56: support block 58: third gear

Claims (7)

A removing device body;
A first roller provided at a lower portion of a front surface of the unwinding machine body so that both ends thereof are axially coupled and rotated;
A second roller disposed at an upper portion of the first roller, the second roller being adjustable in height with respect to the main body in accordance with a user's manipulation so that both ends of the first roller are axially coupled to the main body and the gap between the first roller and the first roller is adjusted;
A driving unit provided to provide a rotational force to the first roller; And
And a power transmitting portion provided to transmit the rotational force of the driving portion to the first roller and the second roller,
Wherein the first roller and the second roller are formed with first and second concavo-convex portions, each having protrusions and grooves corresponding to each other on the surface and continuously arranged along the longitudinal direction, the cable being inserted between the first roller and the second roller, The electric wire and the cover are separated by the pressure acting from the first and second concave and convex portions,
The removing unit body further includes a height adjusting portion provided to adjust the height of the second roller,
Preferably,
A screw shaft screwed vertically to both ends of a front surface of the removing unit body; And
And a lifting block coupled to a lower portion of the screw shaft and coupled to the peeling machine main body such that both ends of the second roller are coupled to each other and the height of the lift block is adjusted with respect to the peeling machine body by rotation of the screw shaft,
The power transmission unit includes:
A first gear formed on the first roller so as to be exposed to one side of the removing unit main body and connected to the driving portion via a chain;
A second gear formed on the first roller so as to be disposed inside the first gear;
A first idle gear rotatably coupled to the separator body to be connected to the second gear;
A second idle gear rotatably coupled to the detacher body to be disposed on the first idle gear and connected to the first idle gear; And
And a third gear which is selectively connected to the second idle gear or the second gear and is formed on the second roller so as to be exposed to the outside of the lift block. delete The method according to claim 1,
The elevating block has guide grooves formed on both side surfaces thereof,
And a guide protrusion having a predetermined length in the up-and-down direction is formed to insert the guide groove at a position corresponding to both sides of the lift block. delete The method according to claim 1,
And the second idle gear
Wherein the support block is coupled to the remover main body through a support block so that the support block is movable in the direction of the lift block to connect the second idle gear and the third gear. 6. The method of claim 5,
The support block includes:
Wherein a pair of guide slots having a predetermined length in the left-right direction are formed on the upper and lower surfaces of the cover strip, and are coupled to the stripping machine body via a coupling member. The method according to claim 1,
The separator body includes:
Wherein a plurality of moving rollers are provided on the lower surface of the base so as to enable smooth movement by a user during installation.

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