KR101805831B1 - Apparatus for preventing vibration of power cable - Google Patents

Abstract

The present invention provides an underground power cable vibration preventing device in an apartment complex. The underground power cable vibration preventing device in an apartment complex includes a cable line; a plurality of vacuum layers spaced from each other around the outer periphery of a cable line and forming a plurality of layers; a plurality of elastic members for elastically supporting an inner wall between the plurality of vacuum layers; and a vibration preventing part for forming vacuum on the plurality of vacuum layers, and forming a predetermined degree of vacuum on the plurality of vacuum layers when an external impact is applied. It is possible to prevent the transmission of vibration to the cable line effectively.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for preventing vibration of an underground power cable in a housing complex,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an underground power cable vibration preventing device in a residential housing complex, and more particularly, to an underground power cable vibration preventing device in which a covered portion of an underground power cable itself is made to have a predetermined thickness, The present invention relates to an underground power cable vibration preventing apparatus in a multi-storeyed residential complex that can efficiently prevent vibration due to an external impact from being transmitted to a cable line itself by using a multilayered vacuum layer.

Typically, underground lines in apartment complexes are mainly installed in areas where technically impossible facilities and maintenance facilities are difficult to secure and maintain.

Particularly, there is a place where a multi-line configuration is technically difficult to secure a supply capability as a high-rise building with a high load density in the vicinity of a substation where a processing line is concentrated.

In the conventional cable support structure used for such an underground cable, an angle piercing hole vertically installed on the power hole wall is formed at a predetermined interval in the vertical direction.

In addition, a "T" -shaped latching pin inserted into the pie-shaped slot is formed obliquely on the side surface of the horizontal bar, and a right-angle latching piece is formed at the lower end center of the horizontal bar, When the horizontal bar is lowered horizontally after being inserted into the slot, the hooking pin is caught by the vertical slot and the hook formed on the horizontal bar is caught by the vertical end of the angle.

However, since the conventional cable supporting structure does not have a separate dustproof structure, when the vibration transmitted from the ground due to vehicle passing or the like is transmitted through the cable through the wall, the angle and the horizontal bar, There is a problem that it is easily damaged by friction.

In order to solve this problem, in recent years, the vibration received by the power cable is absorbed by absorbing the vibration generated in the ground by the leaf spring located between the vertical plate and the horizontal bar integrated with the semicircular pipe, There is a problem that another vibration occurs once the elastic member is elastically contacted with the semicircular pipe, and finally, the vibration is transmitted through the semicircular pipe through the cable, so that the fundamental vibration can not be prevented.

The literature related to the present invention is Korean Registration No. 10-1415883.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and a device for constructing a multi-layered vacuum layer in a covered portion of a subway underground power cable, And to effectively prevent the vibration caused by the external impact from being transmitted to the cable line itself.

It is another object of the present invention to provide a method and apparatus for monitoring the degree of vacuum in a multi-layered vacuum layer in real time and controlling the predetermined degree of vacuum to be constant, And a cable vibration preventing device.

In a preferred embodiment, the present invention provides an underground power cable vibration damping device in a residential complex.

The underground power cable vibration preventing device in the apartment complex includes a cable line; A plurality of vacuum layers spaced from each other around the outer periphery of the cable line and forming a plurality of layers; A plurality of elastic members for elastically supporting inner walls between the plurality of vacuum layers; And an anti-vibration unit for forming a vacuum on the plurality of vacuum layers, and forming a predetermined degree of vacuum on the plurality of vacuum layers when an external impact is applied.

Wherein the vibration damping unit comprises: a plurality of vacuum sensors for measuring a degree of vacuum of each of the plurality of vacuum layers; a plurality of vacuum providing units for providing vacuum to each of the plurality of vacuum layers; A plurality of vacuum sensors for detecting the impacts of the plurality of vacuum layers when the external impact is detected by the plurality of vacuum sensors; And a controller for controlling the driving of the machine.

The plurality of vacuum layers include vacuum tubes formed at different diameters so as to be layered with each other.

Preferably, each of the vacuum tubes is detachably connectable to each other through a fitting groove and a fitting member, and the fitting members are formed of an elastic material.

It is preferable that an air layer filled with air is further formed on the outer periphery of the outermost vacuum layer among the plurality of vacuum layers.

The air layer is preferably connected to an air filling machine.

The air filler is preferably driven by the control signal from the controller to fill the air layer with cooling air having a predetermined cooling temperature.

And a pair of external cables disposed on both sides of the cable line and electrically connected to the pair of terminals formed at both ends of the cable line,

The pair of external cables are wound by a pair of winders,

The controller can reduce the tension of the cable line by releasing the pair of external cables using the pair of winders when an external impact is detected from the impact sensors.

In the present invention, a covering portion of an underground power cable itself in a housing complex is made to have a predetermined thickness, and a multilayered vacuum layer is formed inside the covering portion so that vibration in the cable itself is transmitted to the outside It is possible to effectively prevent the vibration due to the impact from being transmitted to the cable line itself.

In addition, the present invention has the effect of monitoring the degree of vacuum in the multilayered vacuum layer in real time and controlling the predetermined degree of vacuum to be constant so as to always prepare for external impact.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing the construction of an underground power cable vibration preventing device in a housing complex of the present invention; FIG.
2 is a cross-sectional view along line AA of Fig.
3 is a view showing the state of a cable line before an impact is generated.
4 is a view showing the state of a cable line after an impact is generated.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention.

The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Hereinafter, the term "an upper (or lower)" or a "top (or lower)" of the substrate means that any structure is disposed or arranged in any manner, as long as any structure is provided or disposed in contact with the upper surface .

Furthermore, the present invention is not limited to a configuration that does not include any other configuration between the substrate and any configuration provided or disposed on (or under) the substrate.

Hereinafter, an underground power cable vibration preventing apparatus in a housing complex of the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view showing the construction of an underground power cable vibration preventing device in a housing complex of the present invention, and FIG. 2 is a sectional view taken along line A-A in FIG.

Referring to FIGS. 1 and 2, an underground power cable vibration preventing device in a multi-housing complex of the present invention includes a cable line 100, a plurality of vacuum layers, which are isolated from each other around the outer periphery of the cable line 100, A plurality of elastic members 300 for elastically supporting inner walls between the plurality of vacuum layers 200 and a plurality of elastic members 300 for forming a vacuum on the plurality of vacuum layers 200, And a vibration preventing part 400 for forming a predetermined degree of vacuum on the plurality of vacuum layers 200.

The vibration preventing part 400 includes a plurality of vacuum sensors 410 for measuring the degree of vacuum of each of the plurality of vacuum layers 200 and a plurality of vacuum (Not shown) installed at intervals on the cable line 100 for sensing an external impact, and a plurality of vacuum sensors (not shown) And a controller 430 for controlling the driving of the plurality of vacuum supply apparatuses 420 so that the degree of vacuum of each of the plurality of vacuum layers 200 measured by the plurality of vacuum supply apparatuses 410 is equal to the predetermined degree of vacuum.

The vacuum sensor 410 may transmit the vacuum degree measured by the controller 430 according to a wireless communication scheme.

Each vacuum sensor has a transmitting module and a controller, and a receiving module is installed so that information can be transmitted through a predetermined frequency band for receiving and transmitting the vacuum degree.

The plurality of vacuum layers 200 include vacuum tubes 210 having different diameters so as to be layered with each other.

Each of the vacuum tubes 210 is detachably connected to each other through fitting grooves 220 and fitting members 230.

The fitting members 230 may be formed of an elastic material. So that an external impact can be easily absorbed.

The gaps formed between the respective vacuum tubes 210 can be isolated from the outside by a corrugated tube (not shown) at both ends of each of the vacuum tubes 210 and inserted into the fitting grooves 220 and the shim members 230. In this case,

Among the plurality of vacuum layers 200, the vacuum tube 210 forming the outermost vacuum layer 200 is inserted into the hollow of the tube 1.

Therefore, an air layer 500 filled with air may be further formed between the outer periphery of the vacuum tube 210 forming the outermost vacuum layer 200 and the inside of the tube 1.

The inner circumference of the tube 1 is embossed to increase the contact area with the filled air and increase the strength due to its own shape.

The tube (1) is flexible and can be formed of an insulating material.

The air layer 500 may be connected to the air filler 510.

The air filler 510 can be filled with the cooling air, which is driven by the control signal from the controller 430 and is set to a predetermined cooling temperature, by the air layer 500.

As a result, the external impact is prevented from being transmitted to the cable line itself, and the heat generated in the cable line itself can be efficiently cooled through cooling.

3 is a conceptual diagram showing a configuration in which a cable line according to the present invention is connected to a winder to adjust the tension.

That is, FIG. 3 is a view showing a state of a cable line before an impact occurs, and FIG. 4 is a view showing a state of a cable line after an impact is generated.

Referring to FIG. 3, a pair of terminals (not shown) disposed on both sides of a cable line 100 according to the present invention and electrically connected to the pair of terminals 101 formed at both ends of the cable line 100 A cable 102 is provided.

Then, the pair of external cables 102 are wound by a pair of winders 700.

Here, when an external impact is detected from the impact sensors, the controller 430 releases the pair of external cables 102 using the pair of winders 700, The tension of the cable line 100 can be reduced.

That is, when an impact is applied to the cable line 100 by an external force such as an earthquake, the cable 102 can be loosened by loosening the external cable 102 using a pair of winders 700. That is, by loosening the cable line 100, it may not be sensitive to impact.

Thus, by making the cable line 100 non-tight, it is possible to prevent each terminal 101 at both ends of the cable line 100 from being disconnected from the external cable 102 due to shock or vibration due to an earthquake .

According to the above-described structure and operation, in the embodiment of the present invention, the covering portion of the underground power cable itself is made to have a certain thickness, and a multilayered vacuum layer is formed inside the covering portion, It is possible to effectively prevent the vibration due to the external impact from being transmitted to the cable line itself.

In addition, the embodiment of the present invention has the effect of always monitoring the degree of vacuum in the multilayered vacuum layer in real time and controlling the predetermined degree of vacuum to be constant so as to always prepare for external impact.

As described above, the concrete embodiments of the underground power cable vibration preventing device in the housing complex of the present invention have been described, but it is apparent that various modifications can be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100: Cable line
200: vacuum layer
210:
300: elastic member
400:
500: air layer
700: Winder

Claims (4)

A cable line having terminals formed at both ends thereof;
A plurality of vacuum layers spaced from each other around the outer periphery of the cable line and forming a plurality of layers;
A plurality of elastic members for elastically supporting inner walls between the plurality of vacuum layers; And
And a vibration preventing part for forming a vacuum on the plurality of vacuum layers and forming a predetermined degree of vacuum on the plurality of vacuum layers when an external impact is applied,
Wherein the vibration damping unit comprises: a plurality of vacuum sensors for measuring a degree of vacuum of each of the plurality of vacuum layers; a plurality of vacuum providing units for providing vacuum to each of the plurality of vacuum layers; A plurality of vacuum sensors for detecting the impacts of the plurality of vacuum layers when the external impact is detected by the plurality of vacuum sensors; And a controller for controlling driving of the machine,
Wherein the plurality of vacuum layers include vacuum tubes formed at different diameters so as to be layered with each other,
Wherein each of the vacuum tubes is detachably connectable to each other through a fitting groove and a fitting member, the fitting members are formed of an elastic material,
An air layer filled with air is further formed on an outermost periphery of the vacuum layer among the plurality of vacuum layers,
The air layer is connected to the air filling machine,
Wherein the air filler is driven by a control signal from the controller to fill the air layer with cooling air having a predetermined cooling temperature.
delete delete The method according to claim 1,
And a pair of external cables disposed on both sides of the cable line and electrically connected to the pair of terminals formed at both ends of the cable line,
The pair of external cables are wound by a pair of winders,
Wherein the controller is configured to release the pair of external cables by using the pair of winders when an external impact is detected from the impact sensors to reduce the tension of the cable line Power cable vibration prevention device.

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