KR101151291B1 - Safety apparatus for electronic cable - Google Patents

Abstract

PURPOSE: An electric cable safety apparatus is provided to prevent damage due to external impact by maintaining a stable installation state of a cable buried under the ground while installing the cable inside a house. CONSTITUTION: A cutout groove(120) is formed on the upper or lower sides of an outer wall of a building(100). A distribution hole(110) connects inside and outside of the building. An electric cable is located inside a pipe part(200). A sliding bearing(310) is closely attached on the outer circumference of a first installation pipe(210) and the inner circumference of the distribution hole. A corrugated pipe(320) connects the bottom of the first installation pipe and a third installation pipe(230). A first elastic member(330) elastically supports a second installation pipe(220). A cover unit(400) is fixed and coupled on the outer wall of the building near the cutout groove.

Description

Electrical Cable Safety Device {SAFETY APPARATUS FOR ELECTRONIC CABLE}

The present invention relates to an electrical cable safety device.

In general, the power generated in a power plant is supplied through transmission lines and substations, and then to a final customer or power facility through a water substation installed in close proximity to the customer or power facility.

Specifically, the power generated by the power plant is supplied to the demand side through the ground water substation facility and the underground electric manhole. In the case of supplying power to the building on the demand side of the ground (shared house) through the cable buried in the double ground, the cable buried in the ground is pulled out to the ground near the outer wall of the building on the ground and standing along the outer wall of the building. It enters indoors through the entrance part.

However, due to the installation structure of the electric cable on the building exterior wall according to the prior art, disconnection may occur as the cable is exposed to the outside and shakes due to strong wind, etc. There is a problem that can occur.

An object of the present invention is to maintain a stable installation of the cable when the cable embedded in the underground into the ground building, to prevent the shaking caused by strong winds, to prevent damage by external impact, It is to provide an electric cable safety device that can facilitate the inspection of the cable itself.

In a preferred embodiment, the present invention is an electric cable safety device is installed on the outer wall of the building, the outer wall of the building is formed with a cutting groove having a predetermined length up and down, a distribution hole for distributing the inside and the outside is formed, the electric The cable safety device includes a pipe portion in which an electric cable is located, an impact absorbing portion, and a cover portion.

The pipe section includes a first installation tube located in the distribution hall, a third installation tube installed in the ground at the bottom of the outer wall of the building, and a second installation tube connecting the first installation tube and the third installation tube. and,

The shock absorbing unit is provided with a sliding bearing installed to be in close contact with the inner circumference of the distribution hole and the outer circumference of the first installation pipe, a corrugated pipe connecting the lower end of the first installation pipe and the third installation pipe, and is provided in the cutout groove. It is provided with a plurality of first elastic members for elastically supporting a plurality of positions of the outer circumference of the second installation pipe,

The cover part is fastened to the outer wall of the building near the cutout to cover the pipe part,

The second installation pipe and the cover portion is provided with a transparent window,

The cover part is provided with an electric cable safety device in which the heat insulating material is embedded.

The second mounting tube is elastically supported between the inner tube and the outer tube between the outer tube, the inner tube fitted with the outer tube, and the electrical cable is located between the inner tube and the outer tube. It is provided with a plurality of second elastic members,

The lower end of the second installation tube, it is preferable that a tube of a predetermined length for exposing the space between the inner tube, the inner tube and the outer tube to the outside to discharge the water generated by moisture to the outside. Do.

Insulation foam is formed between the inner tube and the outer tube, a sliding stone having a predetermined length along the longitudinal direction of the second installation tube is formed on the outer circumference of the second installation tube, the sliding projection in the incision groove The sliding groove is formed to guide the slide,

It is preferable that the sliding protrusion is formed of a multistage pipe, and the multistage pipe is elastically supported by a spring.

A plurality of LEDs are installed in the second installation pipe,

The electric cable safety device receives a first checker for detecting an energized state of the electric cable, a second checker for checking a current value in the electric cable, and a detection signal for an energized state from the first checker, When the LED is not energized, the LED is turned on, and when the current value reaches a predetermined reference current value, it is preferable to include a controller for controlling the lighting and turning off the LEDs at predetermined time intervals.

The present invention can maintain a stable installation of the cable when the cable embedded in the ground into the building indoors, to prevent the shaking caused by strong winds, to prevent damage by external impact, It has the effect of facilitating inspection.

1 is a cross-sectional view showing the electric cable safety device of the present invention.
Figure 2 is a cross-sectional view showing an electric cable safety device is formed a sliding projection according to the present invention.
3 is a cross-sectional view showing an electrical cable safety device according to another embodiment of the present invention.
4 is a partial cross-sectional view showing the electric cable safety device provided with the tube of the present invention.

Hereinafter, with reference to the accompanying drawings, it describes the electric cable safety device of the present invention.

1 is a cross-sectional view showing the electric cable safety device of the present invention. Figure 2 is a cross-sectional view showing an electric cable safety device is formed a sliding projection according to the present invention. 3 is a cross-sectional view showing an electrical cable safety device according to another embodiment of the present invention.

Referring to Figure 1, the electric cable safety device of the present invention is installed on the building outer wall 100, such as a common house.

The outer wall 100 of the building is formed with a cutting groove 120 having a predetermined length up and down.

In addition, the building outer wall 100 has a distribution hole 110 for distributing the inside and the outside.

The electric cable safety device of the present invention includes a pipe part 200 in which an electric cable C (see FIG. 4) is located, a shock absorbing part 300, and a cover part 400.

The pipe part 200 may include a first installation pipe 210 located in the distribution hole 110, a third installation pipe 230 installed in the ground of the building outer wall 100, and the first installation pipe. It consists of a second installation pipe 220 connecting the pipe 210 and the third installation pipe 230.

The pipe portion 200 is preferably a stainless steel pipe.

The shock absorbing unit 300, the sliding bearing 310 is installed to be in close contact with the inner circumference of the distribution hole 110 and the outer circumference of the first installation pipe 210 and the lower end of the first installation pipe 210 And a plurality of first elastic members installed in the corrugated pipe 320 connecting the third installation pipe 230 and the cut groove 120 to elastically support a plurality of positions of the outer circumference of the second installation pipe 220. 330).

The second installation pipe 220 may be elastically supported in a state in which the second installation pipe 220 is not in close contact with the outer wall cut groove 120 by the first elastic member 330.

In this case, the first installation pipe 210 may flow left and right through the sliding bearing 310, the third installation pipe 230 may flow left and right through the corrugated pipe 320.

The cover part 400 is fastened to the building outer wall 100 near the cutting groove 120 so as to cover the pipe part 200.

In addition, the second installation pipe 220 and the cover 400 is provided with a transparent window (W). It is possible to visually check the state of the electric cable located in the second installation pipe through the window.

Although not shown in the drawing, the window W is detachable from the cover part 400 or the second installation pipe 220. It can also be opened and closed by rotation.

A heat insulator (not shown) is embedded in the cover part 400. The heat insulator has an effect of maintaining the inner tube portion 200 of the incision groove 120 at a predetermined temperature.

Referring to FIG. 3, the second installation tube 220 includes an outer tube 222, an inner tube 221 fitted to the outer tube 222, and the electrical cable C is located, and Between the inner tube 221 and the outer tube 222, a plurality of second elastic members 280 elastically supporting the inner tube 221 and the outer tube 222 are provided.

Substantially the electric cable (C) is accommodated inside the inner tube (221), in this case, the electric cable (C) is concentrated in the inner tube (221), the inner tube (221) is the second elastic member ( By elastically retaining in the outer tube 222 through the 280, it is possible to prevent accidents such as the electric cable (C) is broken by the external impact.

Referring to FIG. 4, a space between the inner tube 221 and the inner tube 221 and the outer tube 222 is exposed to the outside at a lower end of the second installation tube 220 to be exposed to moisture. The tube 260 of a predetermined length for discharging the water generated due to the outside is installed.

Here, a guide member is installed in the space between the inner tube 221 and the outer tube 222.

The guide member 260 penetrates the electric cable C, and forms an inclination connecting the inlet of the tube 260 on the outer circumferential side of the electric cable C.

The incline serves to guide water to the inlet of the tube 260.

Although not shown in the drawings, a thermal insulation foam is formed between the inner tube 221 and the outer tube 222.

Referring to FIG. 3, a sliding protrusion 250 having a predetermined length is formed on the outer circumference of the second installation tube 220 along a length direction of the second installation tube 220, and the cutting groove 120 includes the A sliding groove 121 for guiding the slide of the sliding protrusion 250 is formed.

The sliding protrusion 250 is formed of multiple stages of pipes 251 and 252, and the multiple stages of pipes 251 and 252 are elastically supported by a spring (not shown).

Accordingly, by sliding the sliding protrusion 250 into the sliding groove 121, the pipe part 200 can be stably fixed to the cut groove 120 side, and can easily cope with external shocks through the multi-stage pipes 251 and 252. .

Meanwhile, referring to FIG. 1, a plurality of LEDs 500 are installed in the second installation pipe 220.

The electric cable safety device includes a first checker 510 for detecting an energized state of the electric cable C, a second checker 520 for checking a current value in the electric cable C, and the first checker. When the detection signal for the energization state is transmitted from the checker 510, the LEDs 500 are turned on when they are not energized, and the LEDs 500 are fixed when the current value is greater than or equal to a predetermined reference current value. The controller 530 is configured to control lighting and turning off at time intervals.

Therefore, the present invention can check the safety state of the electric cable in real time by controlling the lighting state of the LEDs using the first and second check sizes.

100: outer wall
200: tube
300: shock absorbing part
400: cover part

Claims (3)

In the electric cable safety device installed on the outer wall of the building,
The outer wall of the building is formed with a cutting groove forming a predetermined length up and down, a distribution hole for distributing the inside and the outside is formed,
The electric cable safety device includes a pipe portion, an shock absorbing portion, and a cover portion in which the electric cable is located,
The pipe section includes a first installation tube located in the distribution hall, a third installation tube installed in the ground at the bottom of the outer wall of the building, and a second installation tube connecting the first installation tube and the third installation tube. and,
The shock absorbing unit is provided with a sliding bearing installed to be in close contact with the inner circumference of the distribution hole and the outer circumference of the first installation pipe, a corrugated pipe connecting the lower end of the first installation pipe and the third installation pipe, and is provided in the cutout groove. It is provided with a plurality of first elastic members for elastically supporting a plurality of positions of the outer circumference of the second installation pipe,
The cover part is fastened to the outer wall of the building near the cutout to cover the pipe part,
The second installation pipe and the cover portion is provided with a transparent window,
Electrical cover safety device, characterized in that the heat insulating material is embedded in the cover portion.
The method of claim 1,
The second installation pipe,
A plurality of second elastic members fitted to the outer tube, the outer tube, the inner tube on which the electric cable is positioned, and the inner tube and the outer tube elastically supporting each other between the inner tube and the outer tube. And
At the lower end of the second installation tube, a tube of a predetermined length is installed to expose the space between the inner tube, the inner tube and the outer tube to the outside, and discharge water generated by moisture to the outside. Electrical cable safety devices.
The method of claim 2,
An insulation foam is formed between the inner tube and the outer tube,
The outer circumference of the second installation pipe is formed with a sliding stone having a predetermined length along the longitudinal direction of the second installation pipe,
The sliding groove is formed with a sliding groove is inserted into the sliding projection to guide the slide,
The sliding protrusion is formed of a multistage pipe,
The multistage pipe is elastically supported by a spring,
A plurality of LEDs are installed in the second installation pipe,
The electric cable safety device receives a first checker for detecting an energized state of the electric cable, a second checker for checking a current value in the electric cable, and a detection signal for an energized state from the first checker, And a controller configured to control the LEDs to be turned on and off at predetermined time intervals when the LEDs are turned on when the current is not energized, and the current value is greater than or equal to a predetermined reference current value.

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