KR100986855B1 - The switchboard which has an internal radiation system - Google Patents

Abstract

PURPOSE: A distribution panel is provided to save energy by producing power through a wind power generator and a solar power generator. CONSTITUTION: A light condensing unit(200) condenses external light. A light guide unit(300) transmits the light condensed by the light condensing unit to a distribution panel through a plurality of cables(310). A plurality of light emitting units(600) are arranged on the end of a light guide unit and emits the light transmitted to the light guide unit. A reflection plate(610) reflects the light emitted from the plurality of light emitting units. A diffusion plate(620) diffuses the light reflected by the reflection plate. A wind power generator generates power by using wind. A solar cell generates power by using sunlight.

Description

Switchgear with internal light emitting device {The switchboard which has an internal radiation system}

The present invention relates to a switchgear, and more particularly, to form a waveguide using a plurality of optical cables in order to illuminate the inside of the switchgear using natural light, and to collect the waveguide by condensing external light, such as solar light, street lamps, etc. By installing a lighting device inside the switchgear to radiate light inside the switchgear, it is possible to operate a lighting device installed inside the switchgear without supplying power to the lighting device, and to add a wind power generator and a solar power generator. It can be used as an emergency lighting when there is no light or by supplying the remaining power to the load connected with the switchboard.Therefore, it is possible to save electricity through the generation of electricity using nature. A switchgear equipped with a light emitting device.

In general, a switchboard is provided with a contact switch (or a micro switch) for detecting a door state at a part where the main body, the door, and the upper door of the main body come into contact with each other, and a halogen lamp for lighting is provided at the upper center of the main body. Is installed. Halogen lamps for illumination may be installed at the front side of the main body, and may be additionally installed at appropriate positions at the rear side. The halogen lamp and the contact switch are connected by wire for mutual signal transmission.

Looking at the lighting operation in the switchboard configured as described above, when the door is closed, the contact switch is pressed and the switch on signal is transmitted to the halogen lamp, and the control device in the halogen lamp receiving the switch on signal turns off the halogen lamp.

On the other hand, when the door is opened, the contact switch is separated from the contact so that the switch off signal (electrical low signal) is transmitted to the halogen lamp, and the control device in the halogen lamp which receives the switch off signal immediately turns on the halogen lamp. .

However, the conventional lighting device applied to the switchboard has a disadvantage in that power consumption increases due to the use of halogen lamps, and the inconvenience of having to replace the lamp frequently because of the short life of the lamp.

In addition, since wires are used for signal transmission between the contact switch and the halogen lamp, the complexity of wired installations has arisen.

In addition, when the wire for signal transmission is in contact with the equipment or falls behind, a disconnection occurs frequently and thus fails to play a role of the lighting device, and a fire may occur due to a short circuit.

The present invention has been made in order to solve such a conventional problem, and has a light collecting portion moving along the sun at the upper end of the switchboard, the light collected through the light collecting portion through the waveguide made of a plurality of optical cables of the switchboard It transmits to the inside, reflects and diffuses the light emitted from the optical cable so that it can be used as a lighting device for the entire interior of the switchgear, and at the same time installs additional wind power generators and solar power generators to produce power It is an object of the present invention to provide a switchgear equipped with an internal light emitting device that saves energy by using power of a lighting lamp or supplying surplus power to the switchboard itself or an associated load when there is no light outside.

The present invention for achieving the above object in the switchgear,

A parabolic divergent collecting plate and an upward collecting plate, a secondary reflector for rereflecting direct light and scattered light, a conical condenser provided at the light exit side of the third light collecting plate, and a light collecting part installed at the end of the light collecting part. Condensing unit consisting of a transmitting unit for transmitting, a plurality of condensing lens installed on the upper and lower condenser to collect the external light, and a plurality of optical cables, the light entering through the condenser into the switchboard A light guiding part for transmitting, a light emitting part for emitting light transmitted from the light guiding part, a plurality of light emitting parts installed at an end of the light guiding part to emit light moved from an optical cable, and the plurality of light emitting parts It is characterized in that it comprises a diffusion plate coupled to the portion to diffuse the light emitted through the light emitting portion.

On the other hand, the switchgear is produced from the wind power generation unit to enable the self-power generation using the wind, the solar solar cell to allow the self-generation using the solar, and produced from the wind power generation unit and the solar cell Characterized in that it further comprises a rechargeable battery that can be charged using the electricity.

On the other hand, it is characterized in that it further comprises a light emitting LED connected to the light emitting unit and connected to the rechargeable battery to emit light by battery power, and a switch for turning on / off the light emitting LED.

In addition, the rechargeable battery is connected to the switchgear to be used as power consumption of the switchgear, or to supply power to the load associated with the switchgear, it characterized in that to supply the remaining power to KEPCO.

On the other hand, the light concentrator is to measure the illumination of the sun so as to know the degree of cloudy and clear sunshine in a low state of sunlight, and receives the information according to the position and sunshine condition of the sun from the light and the light sensor A PLC for controlling the operation of tracking and condensing, and a centralized turning means for turning the condenser and the fixed up-concentrating plate and the turning-concentrating plate under the control of the PLC by a predetermined angle according to the orbit of the sun.

On the other hand, the concentrated pipe turning means has a drive gear, and the motor for forward and reverse rotation toward the strong light intensity by the PLC; It characterized in that it comprises a driven gear on the outside to rotate in engagement with the drive gear.

On the other hand, the light guide portion is provided with a waveguide including a plurality of optical cables therein is characterized in that to transmit the light from the light collecting portion to the interior of the switchboard.

In addition, by installing a reflector on the bottom surface and the lower side of the lower end of the inside of the switchgear, it is characterized in that the light emitted from the light emitting unit is more widely distributed within the switchgear.

As described above, according to the present invention, when checking the interior of the existing switchgear or performing internal work, the external light is received through the light collecting part using a moving cable or using an optical cable, unlike a halogen lamp installed inside the switchgear. Since the light collected through the miner is moved through the light guide, it is transmitted to the inside of the switchgear and used as an internal light of the switchgear, which has the advantage of low power consumption due to the installation of the lamp. By using the battery charged by self-power generation through solar power and solar power, the LED installed inside the switchgear can be illuminated to illuminate the switchgear, so that the lighting can be used at any time even with low power. Effective to use There point.

In addition, by using the external natural light to operate the internal lighting of the switchboard, the facility has the advantage of eco-friendly by producing and operating the power by utilizing the nature, such as wind, solar for charging the battery.

In addition, energy generated by utilizing nature, such as wind and solar power, is returned to the power consumption of the switchboard itself, used to supply power to the loads connected to the switchboard, or to use electricity to supply electricity to KEPCO. It can be used effectively, there is an advantage that can be obtained by this energy saving effect.

In addition, there is an effect that the maximum efficiency can be obtained by detecting light by using an illuminance sensor and by condensing the light concentrator according to the detected light intensity.

In addition, it is a very useful invention to obtain the maximum effect by utilizing the minimum amount of light by properly utilizing the reflection plate and the diffusion plate inside the switchgear.

1 is a cross-sectional view showing the internal cross-section of the switchgear equipped with the present invention the internal light emitting device.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing an internal cross-section of a switchgear equipped with an internal light emitting device of the present invention.

According to the present invention, in the switchgear, a light collecting part 200 and a plurality of optical cables 310 for condensing external light, and the light entering through the light collecting part 200 inside the switchgear 100 And a plurality of light emitting parts 600 which are installed at the end of the light guide part 300 to transmit the light to the light guide part 300, which may emit light moved from the plurality of optical cables 310 in the light guide part. It is configured to include a reflecting plate 610 is coupled to the light emitting unit 600 of the reflecting light emitted through the light emitting unit 600 to the lower end, and a diffuser plate 620 to diffuse the reflected light.

The condenser 200 includes a parabolic divergent collecting plate 210 and an upward collecting plate 220, a secondary reflector 230 for rereflecting direct light rays and scattered rays, and a cone installed at the light exit side of the third light collecting plate. A condenser 240 having a shape, a transmitter 280 installed at an end of the condenser, and transmitting light to the light guide part, a plurality of condenser lenses 241 and 242 provided above and below the condenser, and the illumination of the sun The light sensor (290), so as to know the degree of cloudy and clear sunshine in a low state of the sun by measuring the light received from the light collecting unit and the light sensor according to the position and the sun condition of the sun light and the operation of the light collecting PLC 260 for controlling the control unit, and a concentrated pipe turning means 250 for turning the condenser and the fixed up-concentrating plate and the forward-concentrating plate under the control of the PLC 260 by a predetermined angle according to the orbit of the sun. .

The central tube turning means 250 has a drive gear 251, the motor 253 to forward and reverse rotation to the place where the roughness is strong by the PLC (260); The driven gear 252 is configured to include a driven gear 252 on the outside to rotate in engagement with the drive gear 251. That is, following the control command of the PLC, the motor 253 rotates, and the drive gear 251 in the motor rotates. At this time, the concentrator rotates when the hollow gear 252 engaged with the drive gear 251 rotates, and the rotational conductivity determines the direction in which the PLC stops after rotation by analyzing the illuminance value measured by the illuminance sensor 290. .

On the other hand, the switchgear is a wind power generation unit 400 to enable self-power generation using wind, solar solar cell 500 to enable self-power generation using solar light, and the wind power generation unit ( 400 may further include a rechargeable battery 700 that can be charged using electricity produced from the solar cell 500.

The wind power generator 400 is installed on the top of the switchgear and composed of a wind blade 410 to rotate by the external wind, and a generator 420 connected to the wind blade 410 to generate electricity while rotating. By the rotation of the wind blade 410 is rotated by the wind generator to return to generate electricity.

The solar cell 500 to generate power by using sunlight other than the light collected from the condenser 200.

The electricity generated by the wind power generator 400 and the solar cell 500 is charged by the rechargeable battery 700, and the rechargeable battery 700 is connected to the LED () additionally installed in the light emitting unit 600. If there is no light to operate the LED (60) installed in the light guide portion so as to emit light. The LED () is connected to a switch (not shown) to allow a user to turn on / off the LED () using a switch.

This allows the power to be used when there is no external light. The power supplied to the switchboard can be used, but it can be used as the power consumption of the switchboard through the rechargeable battery or to supply power to the load associated with the switchboard. In addition, it should be able to supply the remaining power to KEPCO.

The light guiding part 300 transmits the light collected by the light collecting part 200 to the inside, and has a waveguide made of a plurality of optical cables 310 therein, from the light collecting part 200 through the waveguide. The collected light can be delivered to the light emitting unit 600 inside the switchboard.

The waveguide extends in the horizontal direction in the upper part of the switchboard, and includes a plurality of optical cables 310, and the optical cable is connected to the plurality of light emitting units 600 so that the light emitting unit 600 may emit light. Make sure

On the other hand, the light emitting unit 600 is formed at the end of the waveguide is inserted into the switchgear, to emit light transmitted through the waveguide, and install a reflecting plate 610 to surround the top of the light emitting unit 600 This allows you to focus the light scattering around. In addition, the diffusion plate 620 may be further provided to uniformly diffuse the light emitted intensively reflected by the reflector 610 toward the center of the switchboard.

In addition, a plurality of reflectors 800 are further provided on the bottom surface and the lower side of the lower side of the switchboard so that the light emitted from the light emitting unit 600 is reflected once more through the reflector at the lower end of the switchboard, thereby emitting light having a constant brightness. Make the best use of negative light so that the light can reach the entire distribution panel evenly.

Referring to the effect of the present invention made of such a configuration and steps as follows.

First, the apparatus of the present invention collects external light (light, sunlight, street lamps, etc.) through the light collecting unit 200 so as to illuminate the interior of the switchboard, and transmits the light through the light guide unit 300. In order to brighten the interior of the switchgear through the light emitting unit, the main technical component.

That is, instead of using a lighting device that uses electric power independently in the switchboard 100, the lighting device uses the optical fiber to transmit the external light to the switchboard, thereby reducing the power consumption.

In addition, by using a wind power generator and a solar cell to charge the rechargeable battery for supplying power to be able to charge the power supplied through the usual nature to save the cost of maintenance of the lighting device will be.

In addition, by connecting the electricity stored in the rechargeable battery generated by the wind power generation unit and the solar cell with the switchgear, it can be used as the power consumption of the switchgear, or to supply power to the load connected to the switchgear, By supplying the power supply to the energy savings and profits can be obtained by using the switchgear has many advantages.

In addition, when the external light is used on a weak day, it is possible to use the lighting device by emitting an LED using the power of the rechargeable battery can be used easily in an emergency.

In addition, the light emitted from the light emitting unit is efficiently distributed by using a reflecting plate and a diffuser plate so that the light is uniformly uniformly distributed inside the switchgear, and a reflector is attached to the lower end of the switchgear to reflect the light emitted downward again. The advantage is that the internal lighting can be used efficiently.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

100: switchboard 200: condenser
210: retrospective collecting plate 220: up-condensing plate
230: secondary reflector 240: condenser
241, 242: concentrated light 250: centralized turning means
251: drive gear 252: driven gear
253: motor 260: PLC
270: frame 280: transmission unit
290: light sensor 300: light guide
310: optical cable 400: wind power generation unit
410: wind blade 420: generator
500: solar cell 600: light emitting unit
610: reflector 620: diffuser
700: rechargeable battery 800: reflective
900: LED

Claims (8)

In the switchgear,
A parabolic divergent collecting plate and an up-condensing plate, a secondary reflector for rereflecting the direct-condensing plate and the scattering ray, a conical condenser installed on the light exit side of the parabolic diverging plate and the up-condensing plate, and at the end of the condenser It is installed to transmit the light to the light guide portion, and a plurality of condenser lens installed on the light collector, the upper and lower so as to focus the external light. Illumination sensor for measuring the illuminance of the sun to know the degree of cloudy and clear sunshine, PLC for controlling the operation of solar tracking and condensing by receiving information according to the position and sunshine of the sun from the illuminance sensor, control of the PLC A motor which has a driving gear to rotate the condenser and the fixed upward condenser and the forward condenser by a predetermined angle in accordance with the orbit of the sun, and are rotated forward and reverse toward a place of strong illumination by a PLC; A condenser including a driven gear including an driven gear on the outside so as to rotate in engagement with the drive gear, and a plurality of interiors to transmit light coming through the concentrator into the switchgear; A light guide unit having a waveguide including an optical cable to transmit light from the light collecting unit to the interior of the switchboard, a light emitting unit to emit light transmitted from the light guide unit, and an end of the light guide unit. A plurality of light emitting parts installed to emit light moved from the optical cable, a diffusion plate coupled to the plurality of light emitting parts to diffuse the light emitted through the light emitting parts, and a bottom surface and a bottom side of the inner bottom of the switchboard. Install more reflector on the light so that the light emitted from the light emitting part can be spread more widely inside the switchboard. Switchgear equipped with an internal light emitting device, characterized in that.

delete The method according to claim 1,
The switchgear includes a wind power generation unit capable of self-power generation using wind power, a solar cell allowing self power generation using solar power, and electricity produced from the wind power generation unit and solar cell. Further comprising a rechargeable battery that can be charged using, the light emitting unit is connected to the charging battery and is installed between the light collecting unit and the light guide unit to emit light, the switch to turn on / off the light emitting LED Switchgear equipped with an internal light emitting device, characterized in that it further comprises.
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