KR102040057B1 - Underground cable pulling apparatus in manhole - Google Patents

Abstract

The present invention relates to an underground cable pulling device. More specifically, the present invention relates to an underground cable pulling device in a manhole which installs a lead-in induction unit in the manhole provided at a lead-in location, installs a curve induction unit in a curve section, and installs a pulling unit on the manhole provided at the lead-in location so as to easily pull an underground cable to an underground power tunnel. Moreover, a streamlined cable head is inserted at a front end of a three-phase underground cable, and a cable holder of a rubber material is covered on the outside of the cable head and is inserted into a pulling grip to be pulled so as to increase a contact area by the cable holder to be compressed, thereby preventing separation when pulling the pulling grip with a wire rope.

Description

Underground cable laying device in manhole {UNDERGROUND CABLE PULLING APPARATUS IN MANHOLE}

The present invention relates to an underground cable installation apparatus, and in particular, an induction guide portion is installed in a manhole provided at an inlet position, a curved induction unit is installed in a curved section, and an underground cable is installed in a manhole provided at an outlet position. Cables are easily pulled into the underground power port, and the wired cable head is pressed into the tip of the three-phase underground cable, a rubber cable holder is put on the outside of the cable head, and the cable is inserted into the pulling grip to be pulled. The present invention relates to an underground cable laying apparatus in a manhole for increasing the contact area by a holder so as to be crimped to prevent it from being pulled out when pulling a pulling grip with a wire rope.

Underground power distribution facilities are superior to processing facilities in terms of social and economic aspects such as stable supply of electricity, improved reliability of supply, and beautification of the urban environment, and underground distribution facilities continue to increase every year.

Underground power ports are underground structures that are connected by vertical spheres to communicate with the ground. In order to install the underground cable inside the underground power hole, it is necessary to enter the underground cable through the vertical hole or the manhole from the ground and move it into the underground power hole. This task is called pulling.

Underground cables are supplied wound to a drum, and the length of a distribution cable usually constructed at one time is about 300 m. It would not be difficult if the drum was moved inside the underground power port and the underground cable was installed inside. However, due to the large size of the drum and the volume of underground cables, it is not possible to carry the distribution cables in the drum state through vertical holes or manholes.

Therefore, the drum was carrying out a pulling operation to pull the underground cable while pulling the underground cable in the ground state, there was a problem that requires a lot of labor and work time in the past because such work was made by pure manpower.

In addition, the work method was to place the underground cable first on the floor of the power outlet, and then lift it up again with a hanger, which is an unavoidable choice for securing a worker's moving space or lifting the power distribution cable with a hanger for several hundred meters. As it has to lift the underground cable to reach, there were many problems of safety accidents.

In particular, in the case of three-phase underground cable, three cables cannot be worked at the same time, so a pulling operation is performed for each cable, and an improvement thereof is required.

In order to solve this problem, the domestic power-opening Patent Publication No. 10-0981710 discloses a three-phase power distribution cable simultaneous pulling device for underground power.

As shown in Figure 1, the three-phase power distribution cable simultaneous pooling device 100 for underground power sphere is connected to the front end of the three distribution cables wound to the horn-shaped induction port 200, the inlet to the manhole inlet shape It has a guide pipe (300) having a corrugated pipe extending into the vertical sphere is formed, the guide roller 500 is installed on the hanger inside the power sphere, and the winch 600 is installed in the underground power sphere (10), The winch 600 and the induction port 200 are connected to the guide wire (W), and the winch 600 is operated to connect the horn-shaped induction port 200 to which the distribution cable C is connected to the induction pipe. While entering the 300, the deceleration means of the pulling device 100 is operated to maintain the moving speed of the distribution cable (C) in a certain range and to transfer the induction port 200 to the bottom of the vertical sphere, the winch ( Guide roll 200 installed in the hanger 21 by continuously operating 600) Passing (500) and thereby conveying the power distribution cables (C) to the top hanger (12).

However, in the conventional underground power sphere three-phase distribution cable simultaneous pooling device, three underground cables are fixed to the induction port, and each cable is press-fitted and fixed, so that the underground cable can be released when the underground cable is pulled out. There is a problem that it is difficult to pass through the guide roller because the volume is relatively large.

In addition, the conventional underground power ball three-phase distribution cable simultaneous pooling device must be provided with a large number of guide rollers, there is a problem that can not be installed when there is an underground cable installed in the hanger, it can not be used in the curve section.

Domestic Patent Publication No. 10-0981710

The present invention is to solve the above problems, install the induction guide in the manhole provided in the inlet position, install the curve induction in the curved section, install the installation section in the manhole provided in the drawout position easy underground cable It is an object of the present invention to provide a underground cable laying device in the manhole to be pulled to the underground power outlet.

In addition, the present invention presses the streamlined cable head to the front end of the three-phase underground cable, the rubber cable holder is covered on the outside of the cable head, and then inserted into the pulling grip to pull the contact area by the cable holder Another object is to provide an underground cable laying apparatus in a manhole that is enlarged and compressed to prevent it from being pulled out when pulling the pulling grip with a wire rope.

Features of the present invention for achieving the above object,

An induction guide part installed in a manhole provided at an inlet position of the underground cable in the underground power section to draw the underground cable in a diagonal line; A curve induction part installed in a curve section of the underground power sphere to guide the underground cable; And it is installed in the manhole provided in the extraction position of the underground cable in the underground power section, characterized in that it comprises a laying portion for discharging the underground cable in a diagonal line.

Here, the underground cable installation apparatus in the manhole further includes a cable cap coupled to the front end of the plurality of underground cables.

Here, the cable cap is a synthetic resin material, the front end is formed in a streamlined, the cable head is formed with a cable indentation groove on the back; When pulling the pulling grip to wrap around the underground cable with a wire rope to increase the contact area with the underground cable is formed in a conical shape of a rubber material to prevent the separation is formed to receive and wrap the cable head inside, One end is partially cut in the longitudinal direction and consists of a cable holder in which a plurality of feet are formed.

Here, the induction guide portion is formed in the form of a lattice to be installed in the manhole, the fixed support for the inlet is provided with a pair of first fastening ring on the upper surface; A corrugated pipe inserted into the fixed fixing support for retraction; An induction pipe formed in a funnel shape and inserted into and coupled to an upper surface of the corrugated pipe; And an induction pipe clamp coupled to the outside of the corrugated pipe and coupled to the first fastening ring of the fixed support for the retraction.

Here, the curve guide portion is installed perpendicular to the curved portion of the underground power sphere, and a vertical support having a plurality of fixing rings on the outside; It consists of a curved roller member installed horizontally on the vertical support.

Here, the vertical support is provided with a hydraulic jack at the bottom to enable height adjustment.

Here, the curved roller member is hollow and curved in a curved shape, one side is cut in the longitudinal direction so that the diameter is enlarged, and a plurality of through-holes are formed in the inner and outer sides of the curve; It is installed so as to be rotatable outside the through hole of the main body, and consists of a guide roller which is in contact with the underground cable passing through the inside of the main body.

Here, the main body is provided with an elastic ring of "C" shape on the outer surface to have elasticity.

Here, the main body is provided with auxiliary rollers at both ends of the cutout portion to limit the expansion and to guide the underground cable.

Here, the installation portion is formed in a lattice form so as to be installed in the manhole, and a fixing support for installation provided with a pair of second fastening ring on the bottom; A bracket is installed on the fixing support for drawing the underground cable, a drive roller rotated by a motor on the bracket, and an upper roller on which a plurality of guide rollers are installed in the same line behind the drive roller. Absence; A lower roller installed at a lower portion of the manhole which is a lower portion of the upper roller member to guide the underground cable; And an insertion hole roller installed in the same direction as the lower roller in the underground power port to guide the underground cable.

In addition, the motor of the upper roller member is attached to the sensor for detecting the number of revolutions and tension to measure the pull-out speed and tension of the underground cable, thereby controlling the motor.

According to the present invention manhole underground cable installation apparatus configured as described above, the installation guide portion in the manhole provided in the inlet position, install the curved guide portion in the curved section, install the installation portion in the manhole provided in the extraction position The cable can be easily pulled into the underground power port, and the work time can be shortened by guiding the underground cable through the curved guide, especially in the curved section.

In addition, the present invention presses the streamlined cable head to the front end of the three-phase underground cable, the rubber cable holder is covered on the outside of the cable head, and then inserted into the pulling grip to pull the contact area by the cable holder It can be increased and compressed to prevent it from being pulled out when pulling the pulling grip with the wire rope.

1 is a view showing the configuration of a conventional three-phase power distribution cable simultaneous pulling device for underground power sphere.
2 is a plan view schematically showing a state in which the underground cable laying apparatus in the manhole according to the present invention is installed.
3 is a perspective view schematically showing a state in which the underground cable laying apparatus in the manhole according to the present invention is installed.
Figure 4 is a perspective view showing the configuration of the induction guide portion of the underground cable laying apparatus in the manhole according to the present invention.
5 is a perspective view showing the configuration of the curved guide portion of the underground cable laying apparatus in the manhole according to the present invention.
Figure 6 is a perspective view showing the configuration of the installation portion of the underground cable installation apparatus in the manhole according to the present invention.
Figure 7 is an exploded perspective view showing the configuration of the cable cap of the underground cable laying apparatus in the manhole according to the present invention.
8 is a perspective view showing a state in which the pull grip is wrapped in the ground cable is coupled to the cable cap of the underground cable laying apparatus in the manhole according to the present invention.

Hereinafter, the configuration of the underground cable laying apparatus in the manhole according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

Figure 2 is a plan view schematically showing the installation of the underground cable installation apparatus in the manhole according to the present invention, Figure 3 is a perspective view schematically showing the installation of the underground cable installation apparatus in the manhole according to the present invention, Figure 4 Figure 5 is a perspective view showing the configuration of the induction guide portion of the underground cable installation apparatus in the manhole according to the invention, Figure 5 is a perspective view showing the configuration of the curved guide portion of the underground cable installation apparatus in the manhole according to the present invention, Figure 6 is a manhole according to the present invention Figure 7 is a perspective view showing the configuration of the installation portion of the underground cable installation apparatus, Figure 7 is an exploded perspective view showing the configuration of the cable cap of the underground cable installation apparatus in the manhole according to the present invention, Figure 8 is an underground cable installation in the manhole according to the present invention This is a perspective view showing the pulling grip wrapped while the underground cable is coupled to the cable cap of the device.

2 to 8, the underground cable laying apparatus 200 in the manhole according to the present invention includes an induction guide portion 210, a curved guide portion 220, a laying portion 230, and a cable cap 240. do.

First, the induction guide unit 210 is installed in the manhole M1 provided at the inlet position of the underground cable C in the underground power port U, as shown in FIG. It consists of a fixed support 211 for pulling in, the corrugated pipe 213, the guide pipe 215, and the guide pipe clamp 217.

The retractable fixing support 211 is formed in a lattice form of a metal material such as steel so as to be installed in the manhole M1, and a pair of first fastening rings 212 are provided on an upper surface thereof.

Corrugated pipe 213 is inserted into the fixed support for pulling 211 is installed diagonally.

Induction pipe 215 is formed in the shape of a funnel is inserted and coupled to the upper surface of the corrugated pipe (213).

The induction pipe clamp 217 is coupled to the outside of the corrugated pipe 213 and is coupled to the first fastening ring 212 of the fixed support for inlet 211 to fix the induction pipe 215 to the fixed support for inlet 211. Let's do it.

And, the curved guide portion 220 is installed in the curved section of the underground power sphere (U) as shown in Figure 5 is composed of a vertical support 221 and the curved roller member 223 to guide the underground cable (C) do.

The vertical support 221 is installed vertically through the manhole M2 installed in the curved portion of the underground power port (U), and fixed to the support of the underground power port (U) by using a rope or the like, curved roller member 223 ) Is provided with a plurality of fixing rings 222 on the outside. At this time, the vertical support 221 is preferably provided with a hydraulic jack (J) at the bottom to enable height adjustment.

The curved roller member 223 is formed in a hollow shape in a curved shape, the inner side is cut in the longitudinal direction so that the diameter is enlarged, a plurality of through holes 225 are formed in the inner and outer sides of the curve, respectively, in the vertical support 221 The main body 224 is installed horizontally using the fixing ring 222, the underground cable (C) is installed to be rotatable outside the through hole 225 of the main body 224, and passes through the inside of the main body 224 and Guide roller 226 for contacting and guiding. At this time, the main body 225 has an elastic ring 227 of the "C" shape is installed on the outer surface to have elasticity, and the auxiliary roller 228 at both ends of the cut portion to guide the underground cable (C) while limiting the expansion Is installed.

In addition, the installation unit 230 is installed in the manhole (M3) provided in the withdrawal position of the underground cable (C) of the underground power sphere (U) to discharge the underground cable (C) in a diagonal line as shown in FIG. It is comprised by the fixing support 231 for installation, the upper roller member 233, the lower roller 235, and the insertion hole roller 237.

The fixing support 231 for laying is formed in a lattice shape with a metal material to be installed in the manhole M3, and a pair of second fastening rings 232 are provided on a bottom surface thereof.

The upper roller member 233 is provided with a bracket 234 on the fixing support 231 for laying out the underground cable C, and the driving roller R1 rotated by the motor M on the bracket 234. A plurality of guide rollers R2 are provided on the bracket 234 in the same line behind the driving roller R1. At this time, the motor (M) is attached to the sensor (not shown) for detecting the number of revolutions and tension to measure the pull-out speed and tension of the underground cable (C), it is preferable to control the motor (M) accordingly.

The lower roller 235 is installed in the lower part of the manhole M3 which is the lower part of the upper roller member 233 to guide the underground cable C.

Insertion roller 237 is installed in the same line as the lower roller 235 in the underground power port (U) to guide the underground cable (C).

On the other hand, the cable cap 240 is composed of a cable head 241 and a cable holder 243 to be coupled to the tip of the underground cable (C) as shown in Figs.

The cable head 241 is formed of a synthetic resin, the front end of which is formed in a streamlined shape, and a cable pressing groove 242 is formed on the rear surface.

The cable holder 243 has a conical shape of rubber to prevent it from being detached by increasing the contact area with the underground cable C when pulling the pulling grip G that wraps and fixes the underground cable C with the wire rope W. Is formed to enclose the cable head 241 is accommodated therein, one end is partially cut in the longitudinal direction is formed a plurality of feet (244).

Hereinafter, the installation process using the underground cable laying apparatus in the manhole according to the present invention will be described in detail with reference to the accompanying drawings.

First, remove the lid of the manhole (M1) provided at the inlet position of the underground cable (C) of the underground power port (U) and then install the fixed support for inlet 211, the corrugated pipe ( 213 is fixed using the guide tube clamp 217, and the guide tube 215 is inserted and fixed to the top of the corrugated pipe 213.

Then, after removing the lid of the manhole (M2) installed in the curved section of the underground power sphere (U), the vertical support 221 is introduced into the manhole (M2) and then into the manhole (M2) or underground power outlet (U) Install vertically. In this case, the vertical support 221 may be fixed to the support of the manhole M2 or the underground power port U by using a rope or the like, and may be fixed by adjusting the height by using the hydraulic jack J.

When the fixing of the vertical support 221 is completed, the curved roller member 223 is horizontally fixed to the vertical support 221. In this case, an auxiliary support (not shown) having a cross shape may be installed in the manhole M2, and the curved roller member 223 may be additionally fixed using the support and the rope.

Subsequently, after removing the lid of the manhole M3 provided at the withdrawal position of the underground cable C in the underground power port U, the lower roller 235 and the insertion hole roller 237 are put therein, 231 is installed and the upper roller member 233 is fixed to the fixed support 231 for installation.

Then, the lower roller 235 is fixed to the bottom of the manhole M3 using the U-shackle, and the upper part is fixed to the fixing support 231 for laying using a rope.

In addition, the insertion hole roller 237 is fixed to the bottom of the underground cable C using the U-shackle to complete the installation.

When the installation is completed, the cable holders 243 are attached to the cable heads 241 while the end portions of the three underground cables C wound around the drums are pressed into the cable press grooves 242 of the cable heads 241. Wrap it around and fix it.

Then, the cable holder 243 is wrapped with a pulling grip (G), the rotating bracket is connected to the pulling grip (G), and then one end of the wire rope (W) is connected.

Then, the other end of the wire rope (W) is introduced into the induction guide unit 210 and discharged to the installation unit 230 through the curved guide unit 220, and then the end is wound on a winding roller (not shown) provided in the heavy equipment.

In this state, when the winding roller provided in the heavy equipment and the upper roller member 233 of the installation portion 230 are rotated, the wire rope W is pulled and the underground cable C wrapped by the pulling grip G is pulled. .

Then, the underground cable (C) is introduced into the underground power port (U) through the induction pipe 215 and the corrugated pipe 213 of the induction guide portion (210).

In addition, the underground cable C is guided by the curved roller member 223 of the curved guide portion 220 at the curved portion.

The underground cable C passing through the curved roller member 223 is discharged while sequentially passing through the insertion hole roller 237, the lower roller 235, and the upper roller member 233 of the installation portion 230.

As those skilled in the art would realize, the described embodiments may be modified in various ways, all without departing from the spirit or scope of the present invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. Should be.

210: induction guide 211: fixed support for intake
213: corrugated pipe 215: induction pipe
217: guide pipe clamp 220: curve guide
221: vertical support 223: curved roller member
230: laying portion 231: fixing support for laying
233: upper roller member 235: lower roller
237: insertion hole roller 240: cable cap
241 cable head 243 cable holder

Claims (11)

An induction guide part installed in a manhole provided at an inlet position of the underground cable in the underground power section to draw the underground cable in a diagonal line;
A curve induction part installed in a curve section of the underground power sphere to guide the underground cable; And
It is installed in the manhole provided in the withdrawal position of the underground cable in the underground power section, and includes a laying portion for discharging the underground cable in a diagonal line
The underground cable laying apparatus in the manhole, characterized in that it further comprises a cable cap coupled to the front end of the plurality of underground cables. delete The method of claim 1,
The cable cap,
A cable head having a front end formed of a synthetic resin in a streamlined shape, and having a cable press groove formed on a rear surface thereof;
When pulling the pulling grip to wrap around the underground cable with a wire rope to increase the contact area with the underground cable is formed in a conical shape of a rubber material to prevent the separation is formed to receive and wrap the cable head inside, An underground cable laying apparatus in a manhole, characterized in that the cable holder is partially cut in the longitudinal direction to form a plurality of feet. The method of claim 1,
The induction guide portion,
An inlet fixing support formed in a lattice form to be installed in the manhole and having a pair of first fastening rings on an upper surface thereof;
A corrugated pipe inserted into the fixed fixing support for retraction;
An induction pipe formed in a funnel shape and inserted into and coupled to an upper surface of the corrugated pipe; And
The underground cable installation apparatus in the manhole, which is coupled to the outside of the corrugated pipe, made of a guide pipe clamp coupled to the first fastening ring of the fixed support for the retraction. The method of claim 1,
The curve induction part,
A vertical supporter installed perpendicular to the curved portion of the underground power tool, and having a plurality of fixing rings on the outside thereof;
Underground cable laying apparatus, characterized in that consisting of a curved roller member installed horizontally in the vertical support. The method of claim 5,
The vertical support,
Underground cable installation apparatus in the manhole, characterized in that the hydraulic jack is provided in the lower portion to enable height adjustment. The method of claim 1,
The curved roller member,
A main body formed in a hollow shape in a curved shape, one side of which is cut in the longitudinal direction so that the diameter thereof is enlarged, and a plurality of through holes are formed in the inner and outer sides of the curve;
And a guide roller which is installed to be rotatable outside the through-hole of the main body and guides to contact and guide the underground cable passing through the main body. The method of claim 7, wherein
The main body,
Underground cable laying device, characterized in that the elastic ring of the "C" shape is installed on the outer surface to have elasticity. The method of claim 7, wherein
The main body,
The underground cable installation apparatus in the manhole, characterized in that the auxiliary roller is provided at both ends of the cut portion to limit the expansion, to guide the underground cable. The method of claim 1,
The installation portion,
It is formed in the form of a grid to be installed in the manhole, the fixing support for installation having a pair of second fastening ring on the bottom;
A bracket is installed on the fixing support for drawing the underground cable, a drive roller rotated by a motor on the bracket, and an upper roller on which a plurality of guide rollers are installed in the same line behind the drive roller. Absence;
A lower roller installed at a lower portion of the manhole which is a lower portion of the upper roller member to guide the underground cable; And
The underground cable laying apparatus of the manhole, characterized in that consisting of an insertion hole roller is installed in the same line as the lower roller in the underground power port to guide the underground cable. The method of claim 10,
In the motor of the upper roller member,
Attaching a sensor for detecting the number of revolutions and tension to measure the extraction speed and tension of the underground cable, thereby controlling the motor underground underground cable installation apparatus.

Images