KR102699773B1 - Hanging cable supporting apparatus for underground power lines - Google Patents

Abstract

The present invention relates to an underground distribution power cable support device for building electricity, comprising: a fixing panel (10) that is fixed to the front surface of a wall through a fixing hole (11) formed in a cross shape on a plate surface; a block body (21) that is connected to the fixing panel (10) so as to be able to slide laterally while preventing separation forward, upward or downward, and has a fixing groove (210) formed on the upper surface in which a power cable (70) is fixed, and a coupling projection (211) formed on one side; a cap (22) that forms a compression groove (220) on the lower surface facing the fixing groove (210) formed in the block body (21) and forms a coupling portion (221) so as to be custom-fitted to the coupling projection (211) from the upper portion of the block body (21), and is fastened and connected by a fastening bolt (23) from the upper portion of the cap (22); A guide means (30) comprising a guide projection (31) that protrudes forward from both ends of the plate surface of the fixed panel (10) by a certain length and a guide groove (32) formed on the rear end surface of the cable fixing block (20) to receive the guide projection (31), thereby preventing the cable fixing block (20) from being separated forward, upward, or downward from the guide projection (31) and allowing it to move only laterally; A movement return means (40) comprising a first tension spring (42) having one end fixed to the inside of a movement blocking block (41) fixedly installed on the fixed panel (10) at the inner end side of the guide projection (31) so as to limit movement inward of the cable fixing block (20), and having a predetermined length of elasticity stretched into the inside of the guide projection (31) while the tip is bent and buried in the guide groove (32) side end face of the cable fixing block (20) connected to the guide projection (31), so that the cable fixing block (20) is elastically supported toward the inner end side of the guide projection (31); It is a configuration formed by combining a guide roller (50) which is provided so as to be able to rotate by the movement of the power cable (70) that is wound while being fixed to the fixed panel (10) and which is wound while being in close contact with the outer surface of the cable fixing block (20) when moving to the outer end of the fixed panel (10) or returning again, and a lifting roller (60) which is provided at a certain height above or below the fixed panel (10) between the guide rollers (50) on both sides that are provided on the same horizontal line so as to be formed so as to be able to move elastically by a second tensile spring (61) that is elastically installed in the fixed panel (10), and which is raised and lowered by the movement of the power cable (70) together with the movement of the cable fixing block (20) so as to absorb the tensile shock of the power cable (70).

Description

Hanging cable supporting apparatus for underground power lines for building electricity

The present invention relates to an underground distribution power cable support device for building electricity, and more specifically, to an underground distribution power cable support device for building electricity, which enables stable cable management by allowing the cable to be pulled out by the length of the pull even when the cable passing through the power cable is pulled to one side by an external force such as an earthquake while being fixed to the entire wall of the power cable.

Power lines are generally laid underground to supply electricity or communications. Power lines are a general term for transmission lines and distribution lines used to transmit electricity, as well as current and communication lines. They are usually installed on the inside of power lines formed underground to avoid structures above ground and ensure stable installation.

In order to install power lines underground, power lines are installed inside power trenches of various shapes, or power lines are laid using various devices that can secure power lines inside power trenches of a tunnel-like shape.

In the underground distribution power cable support device of Patent No. 10-1027373 (March 30, 2011), it was proposed that power lines be laid through a power line support structure installed on the inside of a power tunnel.

Power line support structures can be used to install power lines inside power lines, but if the location of the installed power lines changes or sagging occurs in the power lines, it is difficult to respond quickly and maintain use.

In addition, when the location of power lines laid inside a power trench changes, it is difficult to easily adjust the location of the power lines, so the location of the entire power line must be adjusted, or a separate support device must be additionally installed to support the power lines, in order to adjust the location of the power lines laid inside a power trench.

In particular, in cases where external impact or vibration is transmitted to a power grid, it is difficult to prevent the vibration from being transmitted to the power lines laid inside the power grid and use it, and there was a problem in preventing damage to the power lines laid inside the power grid and maintaining stable use.

In the underground power cable support device of Patent No. 2551466 (June 30, 2023), sagging and damage to the power line are prevented by combining a wall support plate, multiple cable support members, and a pair of cable fixing members.

However, in the conventional technology, the first elastic cord and the second elastic cord are used to connect the wall support plate and the cable fixing fixtures on both sides, but since the wall support plate and the cable fixing fixture are both fixedly installed on the front side of the wall of the power outlet, there is an uneconomical problem in that the configuration connecting them is not necessarily necessary.

(Document 1) Patent registration No. 1027373 (2011.03.30.) (Document 2) Patent No. 2551466 (June 30, 2023)

Accordingly, the present invention is intended to solve the above-mentioned problems, and the purpose of the present invention is to provide an underground distribution power cable support device for building electricity, which is fixed to the front surface of a wall of a power utility, while allowing a power cable to move up and down in the center and to move in mutually facing directions on both sides, thereby buffering shock from longitudinal movement due to earthquakes, etc.

According to the present invention for achieving the above-described purpose, the underground distribution power cable support device for building electricity comprises: a fixing panel that is fixed to the front surface of a wall through a fixing hole formed in a cross shape on a plate surface; a block body that is connected to the fixing panel so as to be able to slide laterally while preventing separation forward, upward, or downward, and has a fixing groove formed on the upper surface for fixing a power cable therein, and a coupling projection formed on one side; a cable fixing block that has a compression groove formed on the lower surface facing the fixing groove formed on the block body, and a cap that forms a coupling portion so as to be fitted to the coupling projection from the upper portion of the block body, and is fastened and connected by a fixing bolt from the upper portion of the cap; a guide means that is formed of a guide projection that protrudes forward by a predetermined length from both ends of the plate surface of the fixing panel and a guide groove formed so as to receive the guide projection on the rear end surface of the cable fixing block, and prevents the cable fixing block from being separated forward, upward, or downward from the guide projection while allowing it to move only laterally; A movement return means including a first tensile spring, which has one end fixed to the inside of a movement blocking block fixedly installed on the inner end side of the guide projection to the fixed panel so as to limit movement inward of the cable fixing block, and which is elastically extended to the inside of the guide projection by a certain length while having a tip bent and buried in a guide groove-side cross-section of the cable fixing block connected to the guide projection so that the cable fixing block is elastically supported toward the inner end side of the guide projection; A guide roller which is provided so as to be axially fixed to the fixed panel and to be rotated by the movement of a power cable being wound while being in close contact with the outer surface of the guide roller and being wound when the cable fixing block moves to the outer end of the fixed panel or returns again, and to be rotated by the movement of the power cable being wound; It is formed so that it can move elastically by a second tensile spring that is elastically installed on the fixed panel so that it is installed above or below the fixed panel at a certain height between the guide rollers on both sides that are installed on the same horizontal line, and it is formed by combining an elevating roller that absorbs the tensile shock of the power cable while being raised and lowered by the movement of the power cable together with the movement of the cable fixing block.

The above guide projection is opened with a width and length greater than the diameter of the connecting end of the first tension spring so that the first tension spring, which is bent and embedded in the block body, can move through the end face of the cross section that forms the guide groove of the block body.

The above moving block is fixedly installed on the fixed panel so that the block body of the cable fixing block moving along the guide projection protrudes further forward than the guide projection so that it cannot be separated from one end of the guide projection in the direction in which the guide roller is provided.

In the above-described configuration, when a power cable is pulled outward by an external force such as an earthquake by means of a power cable support device for underground distribution of building electricity according to the present invention, the cable fixing block to which the power cable is fixed moves a certain length, and at the same time, the shock of pulling the power cable is alleviated by the lowering or rising action of the lifting roller, thereby preventing damage or breakage of the power cable and providing stable cable support and use.

Figure 1 is a front view illustrating an underground distribution power cable support device for building electricity according to the present invention.
Figure 2 is a side view of the underground distribution power cable support device for building electricity according to the present invention.
Figure 3 is an exploded perspective view illustrating a state in which a cap is separated from a cable fixing block in an underground distribution power cable support device for building electricity according to the present invention.
Figure 4 is a plan view illustrating the formation configuration of the guide roller and the lifting roller of the underground distribution power cable support device for building electricity according to the present invention.
Figure 5 is a front view illustrating the state of power cable discharge by the underground distribution power cable support device for building electricity according to the present invention.
Figure 6 is an exploded perspective view illustrating a configuration in which a power cable is installed in a block body of a cable fixing block in an underground distribution power cable support device for building electricity according to the present invention.
Figure 7 is an operational diagram illustrating a state in which a cable fixing block moves due to a moving force applied from the outside to one side of a power cable by an underground distribution power cable support device for building electricity according to the present invention.
Figure 8 is an operational status diagram of an underground distribution power cable support device for building electricity according to the present invention.

Below, with reference to the attached drawings, an embodiment of the present invention is described in detail so that a person having ordinary skill in the art to which the present invention pertains can easily practice it.

The scope of the present invention should not be construed as being limited by the embodiments described in the text.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the description of the embodiments, the same reference numerals are given to the same components, and in some cases, the description of the same reference numerals is omitted.

Fig. 1 is a front view illustrating an underground distribution power cable support device for building electricity according to the present invention, and Fig. 2 is a side view illustrating an isolated underground distribution power cable support device for building electricity according to the present invention.

As exemplified, the underground distribution power cable support device of the building electric power of the present invention is largely composed of a combination of a fixed panel (10), a cable fixing block (20), a guide means (30), a moving return means (40), a guide roller (50), and an elevating roller (60).

In the present invention, the fixed panel (10) is a plate-shaped structure fixed to the front wall of a power plant, and in order to fix the fixed panel (10), cross-shaped fastening holes (11) are formed at multiple locations on the plate surface of the fixed panel (10) so that the installation location can be freely adjusted.

This fixed panel (10) is installed so that the cable fixing block (20) can move in a straight line.

Cable fixing blocks (20) are installed on both sides of the fixed panel (10) at a certain height and at a certain distance laterally on the same horizontal line, so that the power cable is fixed and supported.

The cable fixing block (20) is formed by combining a block body (21) that is connected to the fixing panel (10) to enable lateral sliding movement by a guide means (30) while preventing separation in the forward, upward or downward direction, and a cap (22) that covers the upper portion of a power cable fixing groove (210) formed in the block body (21).

A block body (21) of a cable fixing block (20) is provided with a joining projection (211) formed on one side, a compression groove (220) is formed on the bottom surface of a cap (22) facing the fixing groove (210) of the block body (21) so as to be recessed upward, and a joining recess (221) is formed on the rear end surface of the cap (22) corresponding to the joining projection (211) formed on the block body (21) so as to be aligned downward from the top to the joining projection (211).

Accordingly, the cap (22) is connected by a custom fit of the connecting projection (211) and the connecting groove (221) from the upper part of the block body (21), and the front end corresponding to the formed surface of the connecting projection (211) and the connecting groove (221) is mutually fixedly connected to the block body (21) from the upper part of the cap (22) by one or more fastening bolts (23).

In particular, it is more preferable that a semicircular cable compression packing (212)(222) made of rubber is attached to the inner surface of the mounting groove (210) of the block body (21) and the compression groove (220) of the cap (22) with a certain thickness, and that a gasket (24) is attached to the upper surface of the front and rear sides where the mounting groove (210) of the block body (21) is formed or to the lower surface of the cap (22) facing it.

Meanwhile, the block body (21) and the cap (22) may have the joining projections and joining grooves formed in opposite directions.

However, the block body (21) of the fixed panel (10) and the cable fixing block (20) is connected by a guide means (30), and as shown, a guide projection (31) is protruded from the fixed block (10) over a certain length, and a guide projection (31) is inserted at both ends of the cable fixing block (20) to prevent forward departure along the guide projection (31) while forming a guide groove (320) that enables sliding movement, and a partition (33) is integrally formed in the middle of the length of the guide projection (31), and a coil spring (21) is inserted between the movable projections (32) on both sides of the partition (33).

These guide means (30) are configured to include a guide projection (31) that is formed horizontally to a certain length while protruding forward from the plate surface of the fixed panel (10) and a guide groove (32) that is formed to accommodate the guide projection (31) on the rear end surface of the cable fixing block (20). At this time, the guide projection (31) and the guide groove (32) are formed to have a height that extends forward so that the cable fixing block (20) can only move sideways in the fixed panel (10) and is prevented from moving forward, upward, or downward and from being separated.

However, the configuration of the guide means (30) is not limited to this.

A moving return means (40) is provided so that the cable fixing block (20) has elasticity to return to the inner end when moving to the outer end of the fixed panel (10) across the inner end of the fixed panel (10) and the inside of the guide protrusion (31) of the guide means (30).

That is, the movement return means (40) is composed of a movement blocking block (41) fixedly installed on the fixed panel (10) on the inner end side of the guide projection (31) so as to limit the movement inward of the cable fixing block (20) as shown in FIG. 4, and a first tension spring (42) that has one end fixed to the inside of the movement blocking block (41) while being elastically extended to a certain length into the inside of the guide projection (31), and the other end of the first tension spring (42) is bent and embedded in the cross section on the side of the guide groove (32) formed in the cable fixing block (20), so that when the cable fixing block (20) moves along the guide projection (31), the movement blocking block (41) is elastically supported toward the inner end side of the guide projection (31) where it is formed.

In this way, the moving blocking block (41) is fixedly installed on the fixed panel (10) so that the block body (21) of the cable fixing block (20) moving along the guide protrusion (31) protrudes further forward than the guide protrusion (31) so that it cannot be separated from one end of the guide protrusion (31).

Between the cable fixing blocks (20) on both sides provided on the same horizontal line, a guide roller (50) is provided so that the power cable extending from each cable fixing block (20) can be wound.

In other words, the guide roller (50) is fixed to the fixed panel (10) while being able to rotate by the movement of the power cable being wound.

Accordingly, the power cable is rotated by the movement of the power cable being wound while the cable fixing block (20) is moved to the outer end of the fixing panel (10) or returned to the guide roller (50) so as to be wound in close contact with it.

Between the guide rollers (50) on both sides, the fixed panel (10) is formed to be elastically movable by the second tension spring (61) by being provided at a certain height above or below, and a lifting roller (60) is provided to absorb the tensile shock of the power cable while being raised and lowered by the movement of the power cable together with the movement of the cable fixing block (20).

Meanwhile, the guide projection (31) is opened to a width greater than the diameter of the connecting end of the first tension spring (42) and a moving length greater than the length of the first tension spring (42) so that the end of the first tension spring (42) that is bent and embedded in the block body (21) can move through the cross-section facing the cross-section forming the guide groove (32) of the block body (21).

The unexplained symbol 25 in the drawing is a snap ring.

The operation and effect of the underground distribution power cable support device for building electricity according to the present invention having the above-mentioned configuration will be described in more detail as follows.

The present invention is to fix a power cable introduced from the outside into a fixed panel (10) fixed to a wall of a power utility, and to fix the power cable into a pair of cable fixing blocks (20) provided on the same horizontal line on both sides of the fixed panel (10), and as shown in FIG. 5, the power cable (70) between the cable fixing blocks (20) is wound around the respective guide rollers (50) on both sides, and is wound around the upper circumference of an elevation roller (60) provided at a certain height between these guide rollers (50).

Inside a power tunnel installed at regular intervals underground, a power cable (70) is wound around a lifting roller (60) and then around guide rollers (50) on both sides, and then fixed to cable fixing blocks (20) on both sides. At this time, the height of the lifting roller (60) and the moving length of the cable fixing block (20) are set according to the installation environment. The configuration consisting of the cable fixing blocks (20) on both sides, a pair of guide rollers (50), and the lifting roller (60) may be formed in multiple layers in the fixing block (20).

At this time, in the cable fixing block (20), as shown in Fig. 6, the power cable (70) is installed in the installation groove (210) at the top of the block body (21), and then the cap (22) is assembled downward from the top of the block body (21) so that the joint part (221) is aligned with the joint projection (211) of the block body (21).

When the cap (22) is attached, the fastening bolt (23) is fastened from the upper surface of the front end of the cap (22) so that it penetrates the cap (22) and is attached to the block body (21), so that the fixing force of the power cable (70) is increased by the fixing force of the cap (22), so that the power cable (70) can be firmly fixed to the cable fixing block (20).

However, as shown in Fig. 7, the cable fixing block (20) is already connected by sliding the guide projection (31) of the fixing panel (10) of the guide means (30) to the guide groove (32) of the block body (21), and the tip of the first tension spring (42) that is elastically inserted into the inside of the guide projection (31) is fixedly connected to the cross section of the guide groove (32) side of the block body (21).

In this state, when the power cable (70) is pulled from the outside due to an external force such as an earthquake or cable construction, the cable fixing block (20) on one side that fixes the power cable (70) moves along the guide projection (31) as shown in FIG. 8, and the cable fixing block (20) on the other side corresponding to the cable fixing block (20) on one side is prevented from moving by the movement block (41), so that the power cable (70) fixed to the cable fixing block (20) on the other side is not affected at all.

Accordingly, since only the power cable (70) on one side is pulled by the power cable (70) wound around the cable fixing block (20) on the other side and the guide roller (50) on the other side as a fixed axis, the cable fixing block (20) on one side moves along the guide projection (31) the length of the power cable (70) being pulled, and at the same time, the power cable (70) moves, and by winding the guide roller (50) adjacent to the cable fixing block (20) on one side, a moving force is applied to the lifting roller (60), thereby lowering or raising the lifting roller (60) by the moving length of the power cable (70).

By allowing the lifting roller (60) to move horizontally and up and down together with the cable fixing block (20) in the direction in which the power cable (70) is pulled, the force pulling the power cable (70) from the outside can be buffered, so that it is possible to appropriately respond to the shock of the power cable (70) moving due to external force such as an earthquake.

By supporting the power cable (70) installed in the conduit so that it can actively respond to external forces generated from the outside, it provides safer maintenance and operation of the power cable (70), thereby enabling safer and easier management.

As such, the present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, such modifications or variations should fall within the scope of the claims of the present invention.

10 : Fixed panel
11: Fastening hole
20: Cable fixing block
21 : Block body
210: Anchi Home 211: Combination Stone
212 : Cable crimping packing
22 : Cap
220: Compression groove 221: Joint
222 : Cable crimping packing
23: Fastening bolt 24: Gasket
30 : Guide means
31: Guide protrusion 32: Guide groove
40: Moving return means
41: Moving block block 42: First tension spring
50 : Guide roller
60 : Lifting roller
61: Second tension spring
70 : Power Cable

Claims (3)

A fixed panel (10) that is fixed to the front of the wall through a cross-shaped fastening hole (11) formed on the board surface;
A block body (21) that is connected to the above-mentioned fixed panel (10) so as to be able to slide laterally while preventing separation in the forward, upward or downward direction, and has a mounting groove (210) formed on the upper surface in which a power cable (70) is mounted, and a coupling projection (211) formed on one side, and a cap (22) that forms a compression groove (220) on the lower surface facing the mounting groove (210) formed on the block body (21), and forms a coupling portion (221) so as to be fitted to the coupling projection (211) from the upper portion of the block body (21), and is fastened and connected by a fastening bolt (23) from the upper portion of the cap (22);
A guide means (30) comprising a guide projection (31) that protrudes forward from both ends of the plate surface of the fixed panel (10) by a certain length and a guide groove (32) formed on the rear end surface of the cable fixing block (20) to receive the guide projection (31), thereby preventing the cable fixing block (20) from being separated forward, upward, or downward from the guide projection (31) and allowing it to move only laterally;
A movement return means (40) comprising a first tension spring (42) having one end fixed to the inside of a movement blocking block (41) fixedly installed on the fixed panel (10) at the inner end side of the guide projection (31) so as to limit movement inward of the cable fixing block (20), and having a predetermined length of elasticity stretched into the inside of the guide projection (31) while the tip is bent and buried in the guide groove (32) side end face of the cable fixing block (20) connected to the guide projection (31), so that the cable fixing block (20) is elastically supported toward the inner end side of the guide projection (31);
A guide roller (50) that is provided so as to be able to rotate by the movement of a power cable (70) that is wound while being fixed to the above-mentioned fixed panel (10), and that allows the cable fixing block (20) to move to the outer end of the above-mentioned fixed panel (10) or to be wound while being in close contact with the outer surface when returning, and to rotate by the movement of the power cable (70) that is wound;
A lifting roller (60) which is formed to be elastically movable by a second tensile spring (61) that is elastically installed on the fixed panel (10) and is installed at a certain height above or below the fixed panel (10) between the guide rollers (50) on both sides that are installed on the same horizontal line, and which absorbs the tensile shock of the power cable (70) by being raised and lowered along with the movement of the cable fixing block (20) and the power cable (70);
It is made up of,
The above guide projection (31) is
The end of the first tension spring (42) that is folded and embedded in the block body (21) is opened to a width greater than the diameter of the connecting end of the first tension spring (42) and a moving length greater than the cross-section that forms the guide groove (32) of the block body (21) so that the end can move through,
The above movement blocking block (41) is
An underground distribution power cable support device for construction electricity, in which the block body (21) of the cable fixing block (20) that moves along the guide protrusion (31) by protruding further forward than the guide protrusion (31) is fixedly installed on the fixing panel (10) so that it cannot be separated from one end of the guide roller (50) of the guide protrusion (31) in the direction in which it is provided. delete delete