KR100680010B1 - Concrete block of high voltage cable for appartment house - Google Patents

Abstract

A supporting body for a high voltage cable of a building is provided to prevent an accident due to electric leakage by discharging underground water through a drainage pipe and a rectangular hole. A supporting body for a high voltage cable is installed inside each concrete block(100), and supports a plurality of high voltage cables. In the supporting body for the high voltage cable, a drainage pipe body(400) passes through a lower side of a block supporting unit(300). The drainage pipe body(400) is elongated lengthwise like the concrete block(100). Both sides of the block supporting unit(300) are coupled to a side supporting unit(200) by a connecting pin(P). The side supporting unit(200) is coupled to the concrete block(100) by a bolt(B). A cable supporting unit(500) is guided on an upper side guide groove(314) of the block supporting unit(300) to ascend and descend. The high voltage cable is inserted and installed on a plurality of cable grooves of the cable supporting unit(500).

Description

Building high voltage cable support structure {CONCRETE BLOCK OF HIGH VOLTAGE CABLE FOR APPARTMENT HOUSE}

1 is a perspective view of a conventional high voltage cable support;

Figure 2 is an exploded perspective view of the high pressure cable support of the present invention.

Figure 3 is a perspective view of the internal state of the high-voltage cable support of the present invention.

4 is a cross-sectional view of the present invention high voltage cable support.

5 is a view showing a state in which water is penetrated by the water inside the concrete block of the present invention is discharged.

<Description of Symbols for Main Parts of Drawings>

100: concrete block 200: side support

300: block support 400: drain pipe

500: cable support 600: high voltage cable

700: high voltage cable support B: bolt

P: connecting pin

The present invention relates to a high-voltage cable support for building complexes, such as general buildings or apartment houses, more specifically, when the concrete block used for protecting the high-voltage cable is extended in the longitudinal direction by the water introduced through the gap is a high-voltage cable The installation of the drain pipe on the lower surface of the block support to prevent the locking, as well as to the high-voltage cable support structure of the building having a structure capable of supporting the high-voltage cable on the upper surface of a separate high-voltage cable support.

When a high voltage cable is drawn out and connected to a power room in a building complex such as a general building or a multi-family house, a high voltage cable is positioned inside the plurality of concrete blocks to transfer high voltage power to the power room.

In the concrete block, a separate intermediate frame is installed inside to install a member supporting the high voltage cable.

1 is a perspective view of a conventional high voltage cable support.

The concrete block 10 has a plurality of rows of high-voltage cable 30 is installed on the inner mounting table 20, the concrete block 10 has a rectangular box portion 11 and its rectangular box through which the inner center penetrates in a rectangular shape. The socket part 12 is formed at one side of the part 11 so that another rectangular box part can be inserted in the socket type.

In the above-described concrete block 10 is installed in the mounting table 20 is installed so as to be spaced apart from the inner bottom surface by a certain distance, which is installed in the high pressure cable 30, which is when the water inside the concrete block 100 This is to prevent the short circuit (SHORT) is generated to prevent electricity from passing through the water.

In addition, although not shown in the drawings, a plurality of concrete blocks extending in the longitudinal direction, a side support made of a pair of two bolts on the inner vertical surface of the rectangular box portion of the concrete block and fastened with bolts, and the inner bottom surface of the concrete block Seated on, but coupled to the side support is fixed and a plurality of cable grooves formed on the top of the cable support is installed to support the high-voltage cable; there is also a structure having a configuration in which the high-voltage cable is supported by.

However, here, the problem will be described based on the general technical matters shown in FIG. 1.

The concrete block 10 is configured to extend in the longitudinal direction of the plurality of bars, groundwater flows through the joints of the concrete block 10 to generate a short circuit to cut off the power in the building complex or transmitted through the groundwater There is a problem that a safety accident occurs in the pedestrian passing by the electric current.

The object of the present invention devised in view of the above-mentioned contents is that, when the concrete block used for high-voltage cable protection is extended in the longitudinal direction when the groundwater is introduced through the gap through the drain pipe installed through the block support groundwater High-pressure building that can be quickly discharged and installed to raise and lower the cable support seated on the upper surface of the block support to the ceiling surface of the concrete block to minimize the occurrence of short circuit A cable support structure is provided.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is demonstrated with reference to an accompanying drawing.

2 is an exploded perspective view of the high pressure cable support of the present invention, FIG. 3 is a perspective view of an internal state of the high pressure cable support of the present invention, FIG. 4 is a cross-sectional view of the high pressure cable support of the present invention, and FIG. 5 is a water penetrating inside the concrete block of the present invention. It is a figure which shows the state in which water is discharged.

The high pressure cable support 700 is installed inside each concrete block 100 in which a plurality of concrete blocks 100 are extended to support a plurality of lines of the high pressure cable 600, but the high pressure cable support 700 is a block A drain pipe 400 penetrating the lower surface of the support 300 extends in the longitudinal direction similarly to the concrete block 100, and both sides of the block support 300 are connected to the concrete block 100 by a connecting pin P. It is coupled to the side support 200 fastened with the bolt (B), the cable support 500 is guided and installed in the upper guide groove 314 of the block support 300 to be moved up and down, the cable support 500 The high-voltage cable 600 is inserted into the plurality of cable grooves of the configuration is to be configured to be supported.

The concrete block 100 has a plurality of fastening grooves 112 formed in a rectangular shape perpendicular to the inner surface of the rectangular box part 110, and the socket part 120 is integrally formed at one side in the longitudinal direction of the rectangular box part 110. Is formed.

At this time, when the concrete block 100 is installed in a plurality of longitudinal directions, cement mortar (M) is poured on the outside of the joint to finish the outside of the joint.

Meanwhile, in the concrete block 100, two side support members 200 are fastened at the same height by bolts B so as to face each other on the inner sidewalls of the rectangular box portion 110 penetrated in a rectangular shape, and the side support members 200 are provided. The square plate 210 and the pin connection portion 220 protruding on one side of the square plate 210 is integrally formed.

That is, two in one set on the inner surface of the side wall of the concrete block 100.

At this time, the square plate 210 of the side support 200 is formed by penetrating the bolt holes 212 adjacent to the corners, respectively, and in the pin connecting portion 220 of the side support 200 in the form of a reverse tracer 222 ) Is formed.

The block support 300 is formed so that the drain pipe hole 320 and the square hole 330 is formed at the lower end of the body 310 and the upper end is cut so that the open portion in the form of a recess toward the upper surface, respectively, Guide grooves 314 having a T 'shape are formed, and pin grooves 312 are formed on sidewalls formed in right triangles on both sides of the body 310.

That is, the block support 300 is connected to the cutting groove 222 of the side support 200 is inserted into the connecting pin (P) made in the form of a circular rod in the pin groove 312, the drain pipe hole 320 Two drain pipes 400 are inserted into the cable, and the cable support 500 is inserted into the guide groove 314 and installed.

The drain pipe body 400 is made of a plastic material in the same shape as the hume pipe (HUME PIPE) that the body is conventionally used as a general drain pipe, a plurality of guide plate 410 is formed in a spiral form on the inner peripheral surface of the body.

That is, the drain pipe 400 is formed with a guide plate 410 so that the groundwater flows into the ground quickly outside, for example, when the concrete block 100 is installed to have a certain gradient, the groundwater spirals by the gradient. Through the guide plate 410 is to be discharged quickly.

In this case, the drain pipe 400 is not connected to the whole when a plurality of extension pipes are installed, but the drain pipe 400 is not inserted into the middle of the drain pipe 400 so that the groundwater is filled to the bottom of the concrete block 100 through the drain pipe 400. Discharge treatment.

In particular, when the groundwater enters the concrete block 100 to a stop position higher than the height at which the drain pipe 400 is installed, the groundwater is discharged through a square hole 330 formed at a middle position of the block support 300.

The cable support 500 has a T-shaped guide stand 520 protruding from both sides of the body 510 in a longitudinal direction, and a plurality of cable grooves 512 are formed in a circular shape on an upper surface of the body 510. The upper surface of the body 510, the cable groove 512 is formed is cut to form a plurality of upper protrusions 514 are formed to be inclined both sides.

That is, the cable support 500 is made of urethane or high-strength plastic, a plurality of cable grooves 512 are formed on the upper surface of the body 510, and each of the cable grooves 512 are connected to the cable grooves 512. The upper protrusion 514 is formed therebetween.

In detail, the upper protrusion 514 of the cable support 500 has the top surface formed horizontally and both sides of the horizontal surface formed to be inclined outward so that the insertion of the high pressure cable 600 into the cable groove 512 is performed. It will work smoothly.

As described above, when groundwater flows into the concrete block 100 in FIG. 5, the high-pressure cable 600 loaded on the cable support 500 positioned at the top of the block support 300 is moved by water. Groundwater is discharged in the direction of the arrow through the drain pipe 400 which is passed through the block support 300 so as to prevent a short circuit occurring.

In addition, when the groundwater enters the middle block into the concrete block 100, the groundwater continues to flow through the square hole 330.

In addition, when the water is filled to the upper end, the cable support 500 is elevated to the ceiling surface of the concrete block 100.

In addition, the cable support 500 may be formed in a plurality of forms in which the cable groove 512 of the body 510 has a mutual difference to support a plurality of lines of the high voltage cable 600 according to the diameter difference of the high voltage cable 600. It is formed to be.

That is, the body 510 of the cable support 500 is formed so that the mutual diameter of the cable groove 512 has a difference, and accordingly, the size of the cut surface of the cable groove 512 is also formed to have a difference in diameter The high-voltage cable 600 having a difference can be inserted into a plurality of lines.

The effect by the structure of this invention mentioned above is demonstrated below.

According to the present invention, when the concrete high-pressure cable support is extended in the longitudinal direction, the cement mortar is poured into the close fitting portion to finish the leak, but there is no possibility of leakage, but even if the leakage occurs due to occasional construction The support is guided to move up and down to the ceiling surface of the concrete block along the guide groove of the block support.If the groundwater enters the bottom or suspended position of the concrete block, the groundwater is discharged through the drain pipe at the bottom and the square hole in the case of the interruption. Through the groundwater is discharged has the effect of preventing the accident in advance due to leakage.

Claims (2)

A concrete block having a central box penetrated in a rectangular shape and a plurality of sockets formed on one side of the rectangular box part extending in a longitudinal direction and buried in the inner wall; A side support made of two in one set on the vertical surface inside the rectangular box portion of the concrete block fastened with bolts; In the high pressure cable support structure of a building comprising: a cable support seated on the inner bottom surface of the concrete block, coupled to the side support is fixed and a plurality of cable grooves are formed on the top to support the high voltage cable; The side support 200 is formed on the one side of the square plate 210, the pin connecting portion 220 is formed integrally with the cutting groove 222 in the reverse tracer shape is formed on both sides of the block support 300 by the connecting pin (P) Fixed, Block support 300 is a drain pipe hole 320 and the square hole 330 is formed at the lower end of the body 310 and the upper end is formed so that the open portion in the form of a recess toward the upper surface, is opened in the form of a recess Guide grooves 314 are formed on both sides, and pin grooves 312 are formed on both side walls of the body 310, respectively. The drain pipe 400 inserted into the drain pipe hole 320 of the block support 300 has a plurality of guide plates 410 formed in a spiral shape on the inner circumferential surface of the body to discharge groundwater introduced into the bottom of the concrete block 100. Become, The cable support 500 is inserted into the guide groove 314 of the block support 300 by protruding the guide stand 520 on both sides of the body 510 in the longitudinal direction, and a plurality of cable grooves ( 512 is formed in a circular shape, the upper high-pressure cable support structure, characterized in that the upper protrusion 514 is formed between each of the cable groove 512 of the body 510. The method of claim 1, The cable support 500 may be formed in a plurality of forms in which the cable grooves 512 of the body 510 have a mutual difference to support a plurality of lines of the high voltage cable 600 according to the diameter difference of the high voltage cable 600. Building high pressure cable support structure, characterized in that formed.

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