KR101652663B1 - Underground cable sheath cutter cutting method using the cutting device for underground cables - Google Patents

Abstract

The present invention relates to a manual sheath remover for an underground cable and an underground cable sheath removing method using the same, to remove sheath surrounding a conductor and a neutral line of an underground cable in order to install the underground cable buried in the ground. More specifically, when sheath is removed from an underground cable, the sheath is sequentially and correctly removed from a front end of the underground cable in a rotary cutting type without damaging an internal neutral line by using a sheath remover, so a worker is prevented from an accident. Moreover, work is quickly advanced, so work efficiency is remarkably improved. In particular, the sheath remover can be held by a worker, so sheath removing is conveniently performed in anywhere. According to the present invention, the sheath remover comprises: a main unit; a mounting unit; a cutter fixing frame; two or more grips; and a cutter.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an underground cable sheathing method,

[0001] The present invention relates to a method of covering a conductor of a ground cable and a jacket surrounding a neutral cable for installing an underground cable embedded in the ground, and more particularly, To an underground cable cushioning method using an underground cable for a submerged cable and a submerged cable cushioning method using the cushioning cushion to improve the efficiency of the cushioning work such as preventing rapid damage work and damaging the insulation layer and enabling precise cushioning.

In general, underground cables are buried underground unlike ordinary processing cables. In order to strengthen the insulation of electric wires (conductors) for underground burial, or to physically and chemically protect the underground cables, multiple layers of protection layers are formed outside the conductors.

On the other hand, such underground cables have been conventionally proposed in underground cables such as Utility Model Registration No. 1988-0000790 and underground power cables such as Patent Application No. 10-0479456.

Such a conventional underground cable is a conductor of a water-tight compound filled circular compression bonded wire strand at the very center, and the surface of the conductor is coated with an inner semiconductive layer of a black semi-conductive thermosetting high-purity compound material. The surface of the insulating layer is coated with an outer semiconductive layer of a black semi-conductive thermosetting high-purity compound, and a surface of the outer semiconductive layer is coated with a neutral sealing water- And a neutral wire, which is a peristaltic wire, is wound around the neutral wire watertight layer, and the periphery of the neutral wire is covered with a jacket made of black PVC.

In order to expose the center conductor of the underground cable, the outer semiconducting layer, the insulating layer and the inner semiconductive layer must be applied to the underground cable in order to expose the central conductor. The sheath was peeled off several times on each layer including the outer shell using a sheath.

However, in the coating method as described above, it is necessary to perform cutting for each layer of the steel. In such a case, a safety accident such as a knife bending is frequently caused by the operator during the work, and the cutting must be performed several times on each layer of the steel. It takes a long time to work and the worker has to perform the cutting by a completely manual operation, which causes damage to other layers such as an insulating layer.
In order to solve the above-mentioned problems, there has been proposed a cushioning device capable of cushioning a cable manually or automatically, as disclosed in Utility Model Registration No. 20-0458548 and Utility Model Publication No. 20-2013-0002518. However, Is difficult to carry due to operational troubles, and is not structurally robust and is not universalized.

Korea Utility Model Registration Application No. 1988-0000790. Korean Patent Application Registration No. 10-0479456. Korea Utility Model Registration No. 20-0458548 Korean Utility Model Publication No. 20-2013-0002518

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, Etc., it is possible to prevent a safety accident of a worker in the course of a work such as a fire, and to perform a quick work, thereby remarkably improving work efficiency. In particular, the work can be carried, The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an underground cable tamping method using the tamping machine.

In order to achieve the above-mentioned object, there is provided a water-cooled tubular body through which an underground cable can be inserted, a body having a " C "-shaped cutter receiving groove penetrating upward and downward and opening forward,

A cutter coupling part formed to protrude from the cutter receiving groove and extending around the main body, the cutter coupling part having a flat bolt hole formed at the upper part thereof and a cutter fastening hole formed at the tip thereof, and a mounting part having a plurality of knob-

A cutter fixing tool vertically penetrating a slit hole in the form of a horizontal hole in the center, a fixing protrusion protruding from the tip, and being fastened and fixed to the bolt hole of the cutter coupling portion through an adjustment bolt passing through the slit hole;

At least two knobs configured to be screwed into the knob fastening holes of the mounting portion and imparting rotational force to the knob; And

And a cutter fastened to the cutter fastening hole of the cutter coupling portion via a fixing bolt horizontally penetrating in a state of being accommodated in the cutter receiving groove of the main body,

A cutter adjusting step of adjusting the angle of the cutter in accordance with the rotating direction of the blank;

A mounting step of mounting a cutting blade in a state of being wrapped around an underground cable to be squeezed using the back of the main body of the wrapping machine so as to be interviewed on the outer surface of the tip of the underground cable;

A sheath forming step of forming a spiral direction sheath on the sheath of the underground cable by using an incision blade by rotating the body by applying an external force while holding the handle;

The main body is continuously rotated so that the outer shell is spirally cut along the sheath, and the outer shell is peeled off by using the separating blade.

As described above, according to the present invention, a passive grounding device for an underground cable and an underground cable applying method using the same are capable of rotating cutting against an undercoat of an underground cable using a cutter mounted on the main body, Therefore, it is possible to precisely cut such that the spiral cut can be sequentially performed from the tip of the underground cable, and in particular, the cutter blade portion is not exposed to the outside, so that the safety accident of the worker during the work can be prevented.

In addition, since the rotary structure is simple, the operation is very convenient, and the operation efficiency is remarkably improved.

In addition, it is easy to carry, which provides a simple and quick operation anywhere.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a manually-driven device for an underground cable according to the present invention. FIG.
FIG. 2 is a perspective view showing the assembled perspective view of a manually-driven unit for an underground cable according to the present invention. FIG.
3 is a cross-sectional view of a manually-driven device for an underground cable of the present invention.
4 is a rear perspective view of a cutter of a manually-driven machine for an underground cable according to the present invention.
FIG. 5 is a state in which a cutter is adjusted in a manually-driven machine for an underground cable. FIG.
FIG. 6 is an overall process diagram showing an inventive method using a manual firearm for underground cables according to the present invention. FIG.
FIG. 7 is a main part of a process for mounting a blank of an underfloor method using a manual burglar for underground cables according to the present invention. FIG.
FIG. 8 is a schematic view of a process for forming a sheath in an underfilling method using a manual bumper for an underground cable according to the present invention. FIG.
Fig. 9 is a schematic view of a process of a jacketing process of a jacketing method using a manual jacket for an underground cable.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of a manually operated device for an underground cable according to the present invention, FIG. 2 is an assembled perspective view of a manually operated device for an underground cable according to the present invention, and FIG.

1 to 3, a manually-driven device 1 for an underground cable according to the present invention includes a main body 100, a mounting portion 200, a cutter fixing tool 300, a handle 400, a cutter 500).

Here, the main body 100 is configured in the form of a horizontal pipe so that an ordinary underwater cable (not shown in the drawing) can pass through and be connected.

The main body 100 is formed with a cutter receiving groove 110 which is formed in a planar "C"

The mounting portion 200 is formed to extend from the rear end of the cutter receiving groove 110 and protrude around the main body 100.

At this time, an upper open fixing tool engagement groove 211 having a bolt hole 211a is formed in the upper surface of the mounting part 200, and a cutter fastening hole 212 having a screw hole shape is formed on the front end front surface Thereby forming a cutter coupling portion 210.

A plurality of knob fastening holes 220 are formed around the mounting portion 200 in the form of a screw hole.

The cutter fixing tool 300 is configured to impart the angle adjusting force of the cutter 500 described below and is formed in the shape of a plate-like block.

At this time, the cutter fixing tool 300 is vertically penetrated through the slit hole 310 having a horizontal and a long hole shape having a front and a rear length at the upper center, and is inserted into the fixing tool coupling groove 211.

A fixing protrusion 320 protrudes forward from the tip of the cutter fixing tool 300.

And a cutter adjusting bolt 330. The cutter adjusting bolt 330 penetrates the slit hole 310 through the adjusting bolt 330 and is fastened and fixed to the bolt hole 211a of the mounting part 200. [

That is, the cutter fixing tool 300 is fastened to the bolt holes 211a of the mounting portion 200 through the adjustment bolts 330, And is configured to slide forward and backward in the guide and fixing tool engagement groove 211.

The handle 400 is formed in a bar shape to be fastened to the handle fastening hole 220 of the mounting portion 200. The handle 400 has at least two or more structures so that an operator can grip and rotate the main body 100.

The cutter 500 is installed in the cutter receiving groove 110 of the main body 100 and cuts off the sheath of the underground cable. The cutter 500 is inserted into the cutter fastening hole 210 of the cutter coupling part 210 through the fastening bolt 501, (Not shown).

4, the blades 510 and 510 'are protruded from both sides of the lower end of the cutter 500, and a coupling hole 520 is formed at the center of the cutter 500, The fixing bolt 501 is fastened to the cutter fastening hole 212 of the insertion and cutter coupling portion 210. [

In the cutter 500, at least two fixing holes 530 and 530 'are formed in the arc-shaped direction with the coupling hole 520 as an axis. In the embodiment of the present invention, (530) 530 '.

At this time, the fixing holes 530 and 530 'may be formed by fixing the protrusions 320 of the cutter fixing tool 300 in any one of the positions in the process of attaching the cutter 500 to the cutter coupling part 210, So that the angle of the cutter 500 can be adjusted.

The planar V grooves 513 are formed at the rear of each of the blade portions 510 and 510 'so that the lower ends of the blade portions 510 and 510' And a front separating blade 512 having a lower end in the form of a "surface ".

On the rear surface of the incision blade 511, an inclined surface 511a is formed which extends from the outside to the inside.

That is, the blades 510 and 510 'form a cutter rear perspective view at the front end of the original underground cable through the incising blade 511 behind the main body 100 when the main body 100 is rotated, And the inclined surface 511a, and is configured to be able to cut off the sheath that is cut through the front separating blade 512. [

Hereinafter, an underground cable tethering method using the manual tether for a ground cable according to the present invention will be described.

FIG. 6 is a whole process diagram showing an underground cable bending method using a manual bending machine for an underground cable according to the present invention.

As shown in FIG. 6, the submarine cable tethering method using a manual tether for a submarine cable according to the present invention includes a cutter adjusting step (S100), a step of mounting a green sheet (S200), and a rear view of a cutter. The forming step S300, and the covering step S400.

First, in the cutter adjusting step S100,

For adjusting the angle of the cutter 500 according to the rotating direction of the main body 100, and is determined according to the working method of the operator.

5, when the operator desires to set the rotating direction (the hauling direction) of the main body 100 to the left-handed direction, the blade part 510 formed on the left side of the cutter 500 enters the cutter receiving groove 110 In the state where the fixing protrusion 320 of the cutter fixing tool 300 is inserted into the fixing hole 530 located at the left of the fixing holes 530 and 530 'formed at the rear of the cutter 500, (501).

Thereafter, in the step S200 of loading the substrate,

As described above, when the cutter 1 is mounted on the underground cable 10 in a state where the position of the cutter 500 is adjusted,

The ground cable 10 is inserted from the rear of the main body 100 by using the main body 100 of the driven device 1 as shown in FIG.

That is, when the main body 100 is wrapped around the underground cable 10 as described above, the cutter blade 511 of the cutter 500 is positioned at the end of the outer skin 11 of the underground cable 10.

Hereinafter, a rear view of the cutter is shown. In the forming step S300,

In order to perform the cuffing of the outer skin 11 in the state where the subject 1 is mounted as described above, a cutter 20, that is, an entryway for cutting is set at the tip of the outer skin 11,

The sheath 20 is formed at the end of the sheath 11 of the underground cable 10 by using the incision blade 511 by rotating the body 100 by applying a predetermined external force while holding the handle 400. [

8, the incision blade 511 enters the sheath 11, and at the same time, the V-groove 513 of the blade portion 510 and the rear inclined surface of the incision blade 511 511a, in the helical direction.

Thereafter, in the cuffing step S400,

As described above, when the skin 20 is folded at the tip of the skin 11,

9, when the main body 100 is rotated by applying an external force in a state of holding the handle 400, the incising blade 511 advances in the scattering direction along the direction of the sheath and the sheath 11 as a neutral line (Not shown).

The separating blade 512 of the blade part 510 then peels the outer shell 11 cut through the incision blade 511 from the contact part with the neutral line as described above, Thus, the ground cable 10 is exposed to the neutral cable.

That is, the cover 11 can be manually peeled off from the underground cable 10 using the cover 1 of the present invention through the above-described thermal process, It is possible to carry it easily in the field, and the efficiency is improved.

In addition, even when performing the filling, it is possible to easily carry out the rotary filling, so that it can be easily used by anyone in use, and the use efficiency is remarkably improved.

100: main body 110: cutter receiving groove
200: mounting portion 210: cutter coupling portion
211: Fixing tool coupling groove 211a: Bolt hole
212: Cutter fastening ball 220: Handle fastening ball
300: Cutter fixing tool 310: Slit ball
320: Fixing projection 330: Adjusting bolt
400: Handle
500: Cutter 501: Fixing bolt
510,510 ': Nail section 511: Incision blade
512: separating blade 513: V groove
520: engaging ball 530, 530 ': fixed ball

Claims (3)

A main body 100 formed with a "C" -shaped cutter receiving groove 110, which is vertically and downwardly opened to the front, and which is open to the front;
And a cutter fastening hole 212 is formed at the tip of the fastening tool fitting groove 211. The cutter fastening hole 212 is formed at the upper end of the cutter fastening hole 211, (200) having a plurality of knob fastening holes (220) formed in the shape of a screw hole;
A slit hole 310 is vertically penetrated at the center of the slit hole 310 and a fixing protrusion 320 is protruded at the tip of the slit hole 310. The cutter coupling portion 210 is inserted through the adjustment bolt 330 passing through the slit hole 310, A cutter fixing tool 300 fastened and fixed to the bolt hole 211a;
At least two knobs 400 configured to be screwed into the knob fastening holes 220 of the mounting portion 200 and imparting rotational force to the main body 100; And
And a cutter 500 fastened and fixed to the cutter fastening hole 212 of the cutter coupling part 210 through a fixing bolt 501 horizontally penetrating in a state of being accommodated in the cutter receiving groove 110 of the main body 100 Wherein said at least one grounding cable is connected to said at least one grounding cable.
The method according to claim 1,
The cutter (500)
The blades 520 are formed at the center of the blades 510 and 510 'so that the blades 510 are inserted and fastened to the cutter fastening holes 212, At least two fixing holes 530 and 530 'in which the fixing protrusions 320 of the cutter fixing tool 300 are selectively inserted in the circular arc direction with the hole 520 as an axis,
The blade portions 510 and 510 '
And a V-groove 513 is formed at the rear of each of the V-shaped grooves 511 and 511. The cutting blade 511 has a rear cutting edge 511 and a planar split blade 512,
And a slope surface (511a) extending from the outer side to the inner side is further formed on the rear surface of the incision blade (511).
Use of the muffler of claims 1 or 2,
A cutter adjusting step (S100) for adjusting the angle of the cutter (500) according to the rotating direction of the driven object (1);
A step S200 of mounting a cutter blade 511 in a state where the cutter blade 511 is placed on the outer surface of the tip end of the underground cable in a state of wrapping the underground cable to be squeezed by using the rear of the main body 100 of the cutter 1;
A sheath forming step (S300) of rotating the main body (100) by applying an external force while holding the handle (400) to form a spiral direction sheath on the sheath of the underground cable using the incision blade (511);
(S400) is performed in which the main body (100) is continuously rotated so as to cut the outer shell in a spiral manner along the sheath, and peeling off the outer shells cut out using the dividing blade (512) Underground Cable Infiltration Method Using a Chamber.

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