KR101270507B1 - Power distribution cables to prevent deflection of the shock absorption and easy to support the retention arm structure - Google Patents

Abstract

PURPOSE: A support fixing part which prevents drooping of a power distribution cable and facilitates impact absorption is provided to prevent corrosion of a cable by being installed on the bottom surface of a manhole which is laid underground. CONSTITUTION: A main body part includes a protrusion parts(110) and multiple slide grooves(120). The slide grooves are installed between the protrusion parts. The main body part is combined with the bottom surface of a manhole by a bolt. An elastic member contacts with the lower end side of the slide groove. A fixing member(230) is formed in both sides of an insertion projection in a longitudinal direction.

Description

Power distribution cables to prevent deflection of the shock absorption and easy to support the retention arm structure}

The present invention relates to a support fixture that is easy to prevent sagging and shock absorption of a distribution cable. More particularly, the cable embedded in the basement can be spaced apart from the ground to prevent corrosion of the cable, Due to the elastic member configured inside, the present invention relates to a support stator for preventing sagging and shock absorption of a distribution cable, which can absorb shock and prevent cable sagging.

In general, a power outlet is installed in the basement, and a separate support is installed on the bottom or wall of the power outlet to support a plurality of cables to prevent corrosion of the cable from leakage. However, this configuration can prevent the corrosion of the cable, but it is only to be able to simply support it, so there is a problem that can not prevent the disconnection of the cable when a lot of seismic occurs recently.

First of all,

Registration No. 10-0728313 (Special) A support hanger having a coupling portion fixed to the wall surface in the underground cavity, and a support bar formed with a plurality of through-holes extending horizontally from the coupling portion to the ground and penetrating the upper surface and the lower surface; A hinge bracket fixed to an upper surface of the support bar, a first member rotatably installed on the hinge bracket, and one side of which is slidably coupled to the first member, and a plurality of hinge brackets formed on an upper end of the support bar A fastening unit including a second member having a fixing bracket selectively coupled to the through hole, such that the first member and the second member form a fastening space having an inverted “U” shape; And a seating means provided on a side of the support bar and having a first seating member and a second seating member slidably coupled to each other to support a plurality of cables fastened to the fastening space. One side of the first seating member is formed with a convex arc-shaped groove, and the other side of the first seating member is formed with a first sliding portion having a long hole, one side of the second seating member of the seating means is convex downwards A groove is formed and a second sliding part having a long hole sliding in a horizontal direction on the other side of the second seating member is formed.

Looking at the prior art described above, it is mainly described that the configuration for the purpose of simply supporting the transmission, distribution cable. This is a structure that can not only cause the cable to be disconnected because the shock is applied to the supported cable when the seismic occurrence occurs frequently in recent years. Is holding.

Registration number 10-1209242 (special) a rail portion formed in the ground and installed in a direction crossing the extension direction of the cavity inside the cavity for wiring cables; A plurality of cable mounting units which are installed to be movable independently of each other along the rail unit and accommodate cables; A spacing holding unit provided between the cable mounting units to prevent the cable mounting units from colliding close to each other and to maintain a predetermined distance between the cable mounting units; Is installed in the lower portion of the cable mounting unit and the external force acts on the cable mounting unit to move the cable mounting unit to the position before the external force acts on the cable mounting unit when the cable mounting unit moves along the rail portion And an adjusting unit.

The prior art described above is to support underground power transmission and distribution cables, and is to be installed in the ground rather than being buried underground. This is a structure that can not be buried underground, the same as the prior art described above is not a structure that can absorb vibration has a problem that the cable breakage may occur.

Registration No. 10-0885236 (Special) Cable support member that is installed in the underground power port to put the power cable, the cable support that can be moved by rolling to the installation position because two disks on the left and right are combined; A vertical frame member fixed to the underground power outlet wall, the wall frame portion coupling the cable support to the underground power outlet wall; An intermediate connecting portion that is a plate-shaped connecting member connecting the two cable support portions; Pedestal portion that is a pedestal member for supporting the lower portion of the cable support; .

The prior art described above is configured to be coupled to the wall surface of the electric power buried underground and fixed to support a plurality of cables with a gap between them. However, there is a problem that maintenance is very difficult because the upper and lower portions of the portion where the cable is seated are not opened.

10-2010-0003466 (Special) A power outlet wall 100 which is a wall of an underground power outlet 2000 and has a coupling portion formed by a plurality of horizontal groove portions and a plurality of buried nut portions to which a cable support member is coupled; A cable support part (200) coupled to the power outlet wall (100) having the coupling part, wherein the cable support member is a portion on which the plurality of cables (1000) are placed; A fixing bolt part 300 which is a plurality of bolt members for fastening and coupling the cable support part 200 to the buried nut part of the power outlet wall 100 having the coupling part; .

The above technique is configured to be coupled to the wall of the underground power port so that a plurality of cables can be placed on the support base, but this is also unsuitable as a structure that can absorb vibration because it is fixed in combination with the power port, and a breakage phenomenon may occur. There is a number.

Putting together the above-described conventional techniques, it is basically configured to support the cable installed in the basement or underground, but when the earthquake occurs, there is bound to be economic damage. Therefore, it is buried underground to be firmly fixed to maintain a sense of stability in normal times, when the earthquake occurs, it is necessary to support the cable to absorb the vibration to prevent the cable breakage phenomenon.

Therefore, an object of the present invention is installed on one side of the power outlet buried underground, to configure the mounting portion to support a plurality of cables to be spaced apart from the bottom by a predetermined distance to prevent corrosion of the cable, It is composed of both sides so that the weight load does not sway in one direction due to the weight, so that the weight balance can be balanced, and an elastic member that can absorb vibration in the event of earthquake prevents cable breakage. The focus is on providing a solution to the technical task.

Therefore, in the present invention, in the support fixture for supporting the cable is installed in the underground power outlet buried, the side is formed in a "ㅗ" shape is coupled by the bottom surface and the bolt (b) of the power sphere, the upper portion in the center Protruding portion 110, protruding to the main body portion 100 is composed of a plurality of slide grooves 120 formed between the protrusion 110 and the protrusion 110, and the fitting groove 211 is configured And the fitting protrusion 210 is configured to fit in the slide groove 120 of the body portion 100, the elastic member is fitted in the fitting groove 211 and configured to abut the lower end surface of the slide groove 120 ( 220 and a plurality of fixing members 230 formed in the longitudinal direction on the other both sides of the fitting protrusion 210 and configured at regular intervals on the outer circumference and the outer circumference between the fixing members 230. Sphere with a mounting portion 200 consisting of a plurality of rollers 240 Is and in that the cable (c) is composed of a structure that is configured to seat the roller 240 can be prevented, and absorbs impact when the vibration occurrence of deflection of the mounting portion 200 in a technical characteristics.

According to the support fixture to prevent sagging and shock absorption of the distribution cable according to the present invention, it has a simple structure and is installed on the bottom surface of the power outlet buried underground, so that a plurality of cables can be spaced apart from the bottom surface It is possible to prevent the cable from being eroded to one side and provide stability, and to prevent the corrosion of the cable. Above all, if a sudden earthquake occurs, shock can be absorbed due to the cushioning action of the elastic member configured inside. It prevents the cable from sagging and prevents the cable from being corroded by allowing the cable buried underground to be separated from the ground. Also, when earthquake occurs, it absorbs the shock due to the elastic member inside. It is a useful invention that can prevent sag.

1 is a perspective view showing a preferred embodiment of the present invention
2 is an exploded perspective view showing a preferred embodiment of the present invention
Figure 3 is a perspective view showing a preferred embodiment of the mounting portion of the present invention
4 is a front view showing a preferred embodiment of the present invention
5 is a front exploded view showing a preferred embodiment of the present invention
6 is an operational state diagram showing a preferred embodiment of the present invention
Fig. 7 is a diagram showing the state of use showing the preferred embodiment of the present invention
8 is a use state diagram showing another embodiment of the present invention

In general, a power outlet is installed in the basement, and a separate support is installed on the bottom or wall of the power outlet to support a plurality of cables to prevent corrosion of the cable from leakage. However, this configuration can prevent the corrosion of the cable, but it is only to be able to simply support it, so there is a problem that can not prevent the disconnection of the cable when a lot of seismic occurs recently.

Therefore, the present invention is installed in a power outlet buried underground, so that the cable (c) can be spaced apart from the ground to prevent the corrosion of the cable (c), when the earthquake occurs, the elastic member 220 configured therein 220 This invention relates to a support stator for the sag prevention and shock absorption of distribution cables that can absorb shocks and prevent sagging of cables (c).

Hereinafter, the preferred configuration and operation with reference to the accompanying drawings will be described with reference to FIGS. 1 to 8.

First, the configuration of the present invention will be described in detail. As shown in FIGS. 1 and 2, in a support fixture for supporting a cable installed at an underground power outlet, the side is formed in a “ㅗ” shape. Is coupled to the bottom surface of the power tool by the bolt (b), the protrusion 110 is projected from the center to the upper portion, and a plurality of slide grooves 120 are formed between the protrusion 110 and the protrusion 110 The main body 100 is configured, the fitting groove 211 is formed in the lower portion and the fitting protrusion 210 is configured to fit in the slide groove 120 of the main body portion 100, the fitting groove 211 is fitted And the elastic member 220 is configured to abut the lower end surface of the slide groove 120, and formed in the longitudinal direction on the other both sides of the fitting protrusion 210 and a plurality of fixing members configured at regular intervals on the outer periphery Between the 230 and the fixing member 230 It is composed of a mounting portion 200 consisting of a plurality of rollers 240 configured on the outer periphery, the cable (c) is mounted on the roller 240 of the mounting portion 200 to prevent sag when seismic occurs It is composed of structure that can absorb shock.

In addition, as shown in FIG. 7, one side or the other side of the support fixture is configured to have the same height as the mounting portion 200 so as to support a plurality of cables (c) which are mounted in the longitudinal direction. The auxiliary fixing unit 300 is configured to include the auxiliary fixing unit 310 is configured to include the same number as the number of c).

The main body portion 100 is configured in a “자” shape and has a plurality of protrusions 110 protruding upwards, and the mounting portion 200 to be inserted between the protrusions 110. A slide groove 120 into which the protrusion 210 is fitted is configured. The slide groove 120 is composed of at least one or more and a plurality of the slide groove 120 is shown in the present invention, the slide groove 120 is interpolated in the bottom direction of the power sphere is configured to be blocked by interpolation at regular intervals. This configuration is to prevent the corrosion of the plurality of cables (c) that are mounted at the time of leakage occurs so that the mounting portion 200 is to be spaced apart from the bottom surface when the mounting portion 200 to be inserted into the slide groove 120. will be. The main body portion 100 configured as described above is configured to be fixedly coupled by a conventional power tool and a bolt (b) to be configured to ensure stability in normal times.

In addition, the slide groove 120 may be varied according to the size of the main body portion 100 as needed, and may be configured to use more than three.

As shown in FIGS. 2 to 3, the mounting part 200 includes a fitting protrusion 210 that is fitted to the slide groove 120, and an insertion groove 211 that is inserted into the lower portion of the fitting protrusion 210. The fitting groove 211 is configured to be inserted by being inserted into the elastic member 220 to be inserted. The other two sides of the fitting protrusion 210 is configured with a plurality of fixing members 230 on the outer periphery in the longitudinal direction, and the roller 240 is configured on the outer periphery between the fixing member 230. In this configuration, as shown in FIG. 3, since the fixing member 230 is configured to be higher than the height of the roller 240, a space part is naturally formed between the fixing members 230 so that the space part is formed in the space part. When the cable (c) is positioned, the cable (c) is seated on the roller (240).

The roller 240 is typically configured to easily act when the cable (c) is buried or recovered to prevent damage to the cable (c) at the time of recovery of the cable (c) for maintenance It is for. In the related art, in general, only the cable (c) can be mounted so that the cable (c) is damaged during recovery, and due to its weight, the roller (240) has been recovered due to a lot of force or mechanical equipment. ) Will allow easy and convenient recovery.

The elastic member 220 is fitted into the fitting groove 211 and is configured to be in contact with the end surface of the slide groove 120, that is, the fitting protrusion 210 and the end of the slide groove 120 is configured to fit It is configured to buffer. Referring to the operation of this configuration, as shown in Figures 5 to 6, the property of the elastic member 220 is always configured to be pushed in the opposite direction is fitted between the end surface of the fitting groove 211 and the slide groove 120. When the plurality of cables (c) is placed in the space in the state is reduced to some extent due to the weight, when the seismic suddenly occurs, the elastic member 220 is buffered to transmit the impact to the cable (c) It will not be absorbed.

In addition, in the present invention, although the elastic member 220 is shown to be fitted in the fitting groove 211, the elastic member 220 between the lower end of the fitting protrusion 210 and the lower end of the slide groove 120 is configured in various ways It is also possible to use the present invention is not limited to the drawings shown in the present invention.

Typically, the weight of the cable (c) is heavy, so if the weight is biased in one direction, there is a problem that the supported portion can be bent or broken, even if combined with the power bulb there is a problem that can not be maintained for a long time. In the present invention, the mounting portion 200 is inclined to one side due to the same weight load by configuring the same length and shape on both sides in the state of being fitted in the slide groove 120 so as to completely compensate for such a conventional problem. It will prevent damage.

When combining the main body 100 and the mounting portion 200 as described above, a plurality of cables (c) is seated on the roller 240, it is possible to be seated on both sides around the main body 100 weight Being able to grasp the center gives a sense of stability, the roller 240 can be conveniently recovered at the time of recovery and spaced apart from a certain distance from the bottom surface to prevent corrosion of the cable (c), as well as above all Due to the elastic member 220 is configured to be able to absorb the shock when a sudden earthquake occurs it is possible to prevent the breakage of the cable (c).

Although the support fixture is installed, the support fixture may be maintained at a predetermined interval so as to increase economic efficiency without constituting a plurality of power holes in the longitudinal direction, but a separate auxiliary fixture 300 may be configured therebetween. As shown in FIG. 7, the auxiliary fixing stand 300 is configured to have the same height as the mounting part 200 so as to support a plurality of cables c mounted in one longitudinal direction on one side or the other side of the supporting fixing stand. However, the auxiliary mounting portion 310 is configured in the upper portion in the same number as the number of the cable (c). The auxiliary mounting portion 310 is configured to be fitted in the upper portion is configured according to the number of cables (c) that are mounted to the support fixture as described above.

Due to the configuration of the auxiliary support 300, the cost can be made more affordable, and after installing the support fixture and the auxiliary support 300, and then install the support fixture again, if you continue to install at regular intervals The cost can be reduced.

According to the support fixture to prevent sagging and shock absorption of the distribution cable according to the present invention, it has a simple structure and is installed on the bottom surface of the power outlet buried underground, so that a plurality of cables can be spaced apart from the bottom surface It is possible to provide a sense of stability as the flat load does not lean to one side, and to prevent corrosion of the cable (c). Above all, when a sudden earthquake occurs, the shock absorbing action of the elastic member 220 configured therein Due to this, it is possible to absorb shock and prevent sagging of the cable (c), and to prevent the cable (c) from being eroded by allowing the cable (c) buried underground to be separated from the ground. It is a useful invention that can absorb the shock due to the elastic member 220 configured therein and prevent sagging of the cable.

100: main body 110: protrusion 120: slide groove
200: mounting portion 210: fitting protrusion 211: fitting groove
220: elastic member 230: fixing member 240: roller
300: auxiliary station 310: auxiliary station
b: bolt c: cable

Claims (2)

In the support fixture for supporting the cable is installed in the power outlet buried underground, the side is formed in the shape of "ㅗ" and coupled by the bolt (b) and the bottom surface of the power sphere, protruding portion projecting from the center to the top A main body portion 100 configured with a plurality of slide grooves 120 formed between the protrusions 110 and the protrusions 110 and 110;
A fitting groove 211 is formed at a lower portion, and a fitting protrusion 210 formed at the slide groove 120 of the main body part 100 and the fitting groove 210 are fitted to the lower portion of the slide groove 120. An elastic member 220 configured to abut on the end surface, a plurality of fixing members 230 formed in the longitudinal direction on the other side of the fitting protrusion 210 and configured at regular intervals on the outer periphery, and the fixing member 230 Mounting unit 200 consisting of a plurality of rollers 240 is configured on the outer periphery between); The cable (c) is configured to be seated on the roller 240 of the mounting portion 200 to prevent sag when the earthquake occurs and to prevent sagging of the distribution cable, characterized in that the structure is configured to absorb shock Supporting base for easy shock absorption
The method of claim 1,
One side or the other side of the support fixture is configured to have the same height as the mounting portion 200 to support a plurality of cables (c) are mounted in the longitudinal direction, the upper portion in the same number as the number of the cables (c) Auxiliary fixing stand 300 is configured to include an auxiliary mounting portion 310 is characterized in that it is configured to support sagging prevention and shock absorption of the distribution cable, characterized in that it is configured to include

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