KR20130059676A - Gutter lighting setting structure using sunlight - Google Patents

Abstract

PURPOSE: A gutter lighting installation structure which uses sunlight is provided to increase the utility of solar energy by combining a lighting body with a gutter. CONSTITUTION: A gutter(110) is installed in an outer wall of a building in the vertical direction. Multiple solar panels(120) converts solar energy into a DC power. An inverter converts the DC power which is generated in the solar panel into an AC power. A lighting body(130) is installed in the outer surface of the gutter. The lighting body is supplied with the AC power from the inverter.

Description

Gutter lighting setting structure using sunlight

The present invention generates electrical energy from the solar light collected by the solar panel attached to the rainwater drainage gutter, and accumulate and convert it, and install the gutter lighting using the solar light configured to be used as a power source of the illuminator coupled to the gutter It's about structure.

Due to the depletion of fossil fuels and environmental pollution, the demand for new and renewable energy as pollution-free energy is increasing. In particular, in addition to the government's slogan of 'Low Carbon Green Growth', construction of public facilities is required to equip eco-friendly energy facilities, which is increasing demand.

Solar energy, which is already being practically used because it can be installed in a relatively small unit of new and renewable energy, is used in a manner of generating solar power by integrating solar light into semiconductor cells. Solar energy can be used for pollution-free, unlimited, and free, and can be installed anywhere in the sun, and once installed, it has almost no maintenance costs.

Briefly, the concept of photovoltaic power generation that converts sunlight into power is as follows. Photovoltaic power generation consists of solar panels (capacitors), capacitors and inverters, which are collections of solar cells. The light collecting plate is generally composed of a PN junction semiconductor, and an antireflection film or the like is coated on the surface. When light shines on a solar cell on a light collecting plate, electrons and holes are generated inside. The generated charges move to the P and N poles, whereby a potential difference called photovoltaic power is generated between the P and N poles so that a direct current flows. Conventional photovoltaic facilities store electrical energy generated by a light collecting plate in a capacitor, and when supplying electrical energy stored in the capacitor to an electrical product, a direct current is converted into an alternating current through an inverter.

Conventionally, it was limited to farms or factory areas that require large-scale electricity consumption, such as solar energy, agricultural development industry, and manufacturing factory areas.However, it was necessary to use it in residential or neighborhood commercial areas. As the BIPV system is underway, there is a need to find ways to use photovoltaic equipment as a building design element.

The production of energy required for buildings using solar power generation facilities can increase the energy efficiency of buildings and reduce the environmental pollution. Therefore, solar cells are increasingly installed on roofs or roofs of buildings. However, despite the advantages of the above-mentioned photovoltaic power generation, when the light collecting plate is installed in a building, the light collecting plate is often not in harmony with the appearance of the existing building, and the installation method must be installed on the roof or exterior wall of the existing building. Difficulties have also been pointed out in the method.

The present invention is to install the above-described conventional photovoltaic power generation equipment in the trough for rainwater drainage to use the solar energy as a power source for the exterior lighting of the building. In other words, the present invention is not a technology related to the photovoltaic power generation facilities themselves, so that the photovoltaic power generation facilities and troughs, which had a negative effect on the exterior of a building in the past, may be utilized as design elements and lighting / advertising elements having a positive influence on the exterior of a building. It relates to the configured lighting system.

The present invention is to actively use the trough installed for drainage of rainwater as an external design element and lighting facility of the building, by efficiently installing a photovoltaic power generation facility in the trough, by coupling the illuminator to the trough, It is an object of the present invention to provide a "gutter lighting installation structure using sunlight" configured to be the power source of the illuminator generated by the electric energy.

The present invention for solving the above-mentioned problems "gutter installed vertically on the building outer wall for rainwater drainage; A plurality of solar panels installed on an outer surface of the trough to convert solar energy into DC power; An inverter for converting the DC power generated in the solar panel into AC power and supplying the same to the use place; And an illuminator installed on an outer surface of the trough to receive AC power from the inverter. Provides a gutter lighting installation structure using sunlight, characterized in that configured to include.

In addition, the present invention "the solar panel includes a power storage unit for storing the surplus electric energy after the consumption in the illuminator; It further comprises a, gutter lighting installation structure using sunlight, characterized in that the surplus electrical energy can be used for a necessary use later.

In addition, the present invention "the gutter is formed in a rectangular column shape, the rear surface is in contact with the building, the solar panel gutter lighting installation using a solar light, characterized in that coupled to each of the front and both sides of the trough Structure ".

In addition, the present invention "vertical frame (vertical frame) formed in each corner portion of the trough; A slit formed at a position corresponding to each other between the vertical frames; It is configured to further include, the solar panel is a rectangular or square plate material, both sides of the flat plate (平 片) is coupled, the flat plate is fitted into the slit of the vertical frame, respectively, the solar panel is the Gutter lighting installation structure using solar light, characterized in that it is installed in the trough.

In addition, the present invention "A plurality of female threaded holes orthogonal to the slit in the vertical direction in the outer surface of the vertical frame is formed at equal intervals in a row in the longitudinal direction, the rectangular or square flat plate is coupled to the back of the illuminator Each side of the plate is formed with a through hole, and the fixing bolt is fastened through the female screw hole and the through hole in the state where both sides of the plate are in contact with the outward surface of the vertical frame, so that the illuminator Gutter lighting installation structure using sunlight, characterized in that configured to be installed on the outer surface together.

In another aspect, the present invention provides a "gutter lighting installation structure using solar light, characterized in that the flat plate is coupled to the solar panel is composed of a wiring board is arranged a conductor wire to move the electrical energy generated in the solar cell. .

In addition, the present invention "the flat plate coupled to the illuminator is composed of a wiring board arranged in the conductor wire to move the electrical energy, when the fixing bolt is fastened through the female screw hole and through the, through the fixing bolt Gutter lighting installation structure using solar light, characterized in that the conductors of the flat and flat plate is electrically connected.

In addition, the present invention "the ring-shaped conductors are respectively coupled to the upper surface of the through hole of the flat plate and the bolt head of the fixing bolt, a longitudinal axis lead is inserted into the bolt rod of the fixing bolt on the longitudinal center axis, the vertical axis A horizontal axis lead is inserted to connect the lead wire and the ring lead of the lower face of the bolt head. When the fixing bolt is fastened to the female threaded hole and the through hole, the longitudinal lead is grounded to the flat lead and the ring of the lower bolt head is connected. The conductive wire is grounded with a ring-shaped wire coupled to the upper edge of the through hole of the flat plate, and provides a trough lighting installation structure using solar light, wherein the flat wire and the flat wire are electrically connected to each other through the fixing bolt. do.

In addition, the present invention "the electrical energy supplied to the illumination body is a gutter lighting using solar light, characterized in that configured to mix the electrical energy generated by the solar panel and the electrical energy introduced from an external power source (電源) Installation structure ”.

According to the present invention, the gutter installed for drainage can be actively utilized as an external design element and lighting facility of the building, and the solar cell is efficiently installed in the gutter, and the lighting is coupled to the gutter to The electrical energy generated by this can be used as a power source for the illuminator. Accordingly, it is possible to produce an environment-friendly and beautiful building exterior and increase the utility of solar energy.

1 is a perspective view of the trough lighting installation structure using sunlight according to the present invention.
2 is a cross-sectional view of one embodiment of a trough applied to the present invention.
3 is a perspective view of an embodiment of a solar panel applied to the present invention.
4 is a perspective view of an embodiment of an illuminator applied to the present invention.
5 is a perspective view showing a coupling process of the trough lighting installation structure using sunlight according to the present invention.
6 is an enlarged cross-sectional view of a state where a solar panel and an illuminator are installed in a gutter.
7 is a perspective view of an embodiment of a fixing bolt applied to the present invention.

The present invention relates to a gutter lighting installation structure using solar light including a gutter 110, a solar panel 120, an inverter (not shown) and an illuminator 130 as shown in FIG. .

The trough 110 is installed in the longitudinal direction on the building outer wall (1) for rainwater drainage. The shape and position of the trough 110 is not particularly limited, but considering the convenience of solar panel 120 installation and the yield of solar light, the trough 110 is configured as a square pillar type as shown in FIG. 2. The rear surface of the building is preferably provided in contact with the building exterior wall 1. In this case, in consideration of the movement trajectory of the sun, the surface facing the direction in which the sunlight reaches the least should be the rear surface, and the surface should be in contact with the outer wall 1 of the building. In addition, the solar panel 120 may be coupled to a plurality of continuously or intermittently on the front and both sides, except for the rear surface of the trough (110).

The solar panel 120 is installed on the outer surface of the trough 110 to convert the solar energy into a direct current power source. In order to install the solar panel 120 on the outer surface of the trough 110, a vertical frame 111 is formed at each corner of the trough 110 as shown in FIG. Slits 112 may be formed at positions corresponding to mutual faces between the vertical frames 111. In addition, the solar panel 120 is composed of a rectangular or square plate, as shown in FIG. 3, and both sides thereof may be coupled to a flat plate (平 片, 121). By configuring the gutter 110 and the solar panel 120 as described above, the flat plate 121 is inserted into the slit 112 of the vertical frame 111, respectively, so that the solar panel 120 is connected to the gutter 110. Can be combined. At this time, the width of the solar panel 120 is configured to be the same as the interval between the vertical frame 111 of the trough so that the separation space between the solar panel 120 and the vertical frame 111 does not occur, The thickness of the panel 120 may be configured to correspond to the thickness of the vertical frame 111 of the trough so that the exposed surface of the solar panel 120 and the vertical frame 111 may be the same plane as a whole. The flat plate 121 coupled to the solar panel 120 is composed of a wiring board in which conductors through which the electrical energy generated in the solar cell moves are arranged, so that the electrical energy formed in the solar panel installed up and down continuously is up and down. It may be to be transmitted up and down through the flat plate 121 to be connected, and also to transmit electrical energy to the illuminator 130 to be described later.

The DC power generated in the solar panel 120 is converted into AC power by an inverter (not shown) and supplied to the user. In addition, the solar panel 120 further includes a power storage unit (not shown) for storing surplus electric energy after being consumed by the illuminator 130, so that the surplus electric energy can be used for a later necessary use. can do. The process of the solar panel 120 converting solar energy to DC power and the process of converting DC power to AC power in the inverter are as mentioned in the section [Background of the Invention], which is a conventional technique. It can be applied as it is to the present invention. The storage of the surplus electrical energy in the power storage unit can be applied to the conventional techniques as it is.

The illuminator 130 is installed on the outer surface of the trough 110 to receive AC power from the inverter. The illuminator 130 may be applied to any one as long as it emits light by electricity such as LED, fluorescent lamp, incandescent lamp, and the like. In order to easily install the illuminator 130 on the outer surface of the trough 110 by forming a female screw hole 113 in the vertical frame 111, the illuminator 130 and the vertical through the female screw hole 113 The frame 111 may be fastened with a bolt. At this time, as shown in FIG. 2, a plurality of female screw holes 113 orthogonal to and in communication with the slit 112 are formed at equal intervals on the outward surface of the vertical frame 111 in a vertical direction. In addition, both sides of the flat plate 131 are coupled to the rear surface of the illuminator 130 by coupling a rectangular or square flat plate 131 having holes 132 formed on both sides thereof, as shown in FIG. 4. The fixing bolt 140 is fastened through the female screw hole 113 and the through hole 132 in a state in which the outer surface of the vertical frame 111 is in contact with the outer surface of the trough 110. It can be configured to be installed. The solar panel 120 is sequentially inserted between the vertical frames 111 of the trough 110, and the process of coupling the illuminator 130 to the outside of the trough 110 is illustrated in FIG. 5. As shown. The illuminator 130 may be detached and attached as necessary, and may be coupled to any of a plurality of arbitrary portions to be attached as necessary.

In order to cause the illuminator 130 to emit light by using the electric energy generated by the solar panel 120, the conductive wire 133 moves the electric energy through the flat plate 131 coupled to the illuminator 130. When the fixing bolt 140 is fastened through the female screw hole 113 and the through hole 132 by arranging the wiring board arranged in the above, the flat plate 121 and the flat plate 131 through the fixing bolt 140. ) Is preferably configured to be electrically connected. 6 is a solar panel 120 is sandwiched between the vertical frame 111 of the trough 110, the fixing bolt 140 is padded on the outer surface of the solar panel 120 is padded (140) The cross section of the fixed state is shown. The electrical energy generated by the solar panel 120 through this coupling state passes through the flat plate 121, which is a wiring board coupled to the solar panel, passes through the fixing bolt 140, and then is a wiring board coupled to the illuminator 130. The illuminator 130 can emit light via the flat plate 131.

Accordingly, the fixing bolt 140 is coupled to the ring-shaped wire 143 on the lower surface of the bolt head 141, as shown in Figure 7, the bolt rod 142 of the fixing bolt 140 is vertical Inserting the longitudinal axis lead 144 on the central axis, the horizontal flat lead 121 by inserting the transverse axis lead 145 to connect the longitudinal lead 144 and the ring-shaped lead 143 of the lower surface of the bolt head 141, the flat plate 121 It is possible to faithfully perform the role of electrical bridge between the plate and the plate (131), and the fixing bolt 140 is filled by coupling the ring-shaped wire 134 to the upper edge of the through hole 132 of the plate (131) At this time, the ring-shaped wire 143 of the lower surface of the bolt head 141 and the ring-shaped wire 134 of the upper edge of the through hole 132 of the plate 131 are brought into close contact with each other to facilitate the flow of electrical energy.

That is, in the above configuration, although the electric energy is not transmitted to the lighting body 130 before the fixing bolt 140 is fastened, the fixing bolt 140 is the female screw hole 113 and the through hole 132. When coupled to, the longitudinal conductor 144 is grounded to the conductive wire of the flat plate 121, the ring-shaped wire 143 of the lower surface of the bolt head 141 is coupled to the upper edge of the through hole 132 of the flat plate 131 The ring-shaped conductor 134 is grounded, and the conductors of the flat plate 121 and the flat plate 131 are electrically connected to each other through the fixing bolt 140.

On the other hand, the electrical energy supplied to the illuminator 130 may be configured to mix the electrical energy generated by the solar panel 120 and the electrical energy introduced from an external power source. Even in this case, the electric energy of the external power source may be introduced into the illuminator 130 through the coupling structure of the tactic plate flat plate 121, the fixing bolt 140, and the plate 131.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

1: building exterior wall
110: gutter 111: vertical frame
112: slit 113: female thread hole
120: solar panel 121: flat
130: illuminator 131: flat plate
132: through hole 133: wire
134: ring-shaped wire
140: fixing bolt 141: bolt head
142: bolt rod 143: ring-shaped wire
144: vertical axis line 145: horizontal axis line

Claims (9)

A gutter installed longitudinally on the outer wall of the building for drainage of rainwater;
A plurality of solar panels installed on an outer surface of the trough to convert solar energy into DC power;
An inverter for converting the DC power generated in the solar panel into AC power and supplying the same to the use place; And
An illuminator installed on an outer surface of the trough to receive AC power from the inverter; Downlight lighting installation structure using solar light, characterized in that configured to include.
In claim 1,
The solar panel includes a power storage unit for storing the surplus electrical energy after the consumption in the illuminator; Further comprising, the gutter lighting installation structure using solar light, characterized in that the surplus electrical energy can be used for a necessary use later.
3. The method of claim 2,
The trough is composed of a square column shape, the back thereof is in contact with the building,
The solar cell trough lighting installation structure using a plurality of solar panels, characterized in that coupled to each of the front and both sides of the trough.
4. The method of claim 3,
A vertical frame formed at each corner of the trough;
A slit formed at a position corresponding to each other between the vertical frames; It is configured to include more
The solar panel is a rectangular or square plate material, a flat piece is coupled to both sides thereof, and the flat pieces are fitted into the slits of the vertical frame, respectively, so that the solar panel is installed in the trough. Downlight lighting installation structure using sunlight.
5. The method of claim 4,
On the outward surface of the vertical frame, a plurality of female screw holes orthogonal to and in communication with the slit are formed at equal intervals in a row in a vertical direction.
The rear surface of the illuminator is combined with a rectangular or square flat plate,
Through holes are formed on both sides of the plate,
Fixing bolt is installed through the female screw hole and the through hole in the state that both sides of the plate in contact with the outward surface of the vertical frame is installed so that the illuminator is installed on the outer surface of the trough rescue.
The method of claim 5,
The flat plate coupled to the solar panel is a gutter lighting installation structure using solar light, characterized in that consisting of a wiring board arranged in the conductor to move the electrical energy generated in the solar cell.
The method of claim 6,
The flat plate coupled to the illuminator consists of a wiring board on which conductors for moving electrical energy are arranged.
When the fixing bolt is fastened through the female screw hole and the through-hole, the gutter lighting installation structure using solar light, characterized in that the conductor of the flat and flat plate is electrically connected through the fixing bolt.
In claim 7,
Ring-shaped conductors are respectively coupled to the upper surface of the through hole of the plate and the lower surface of the bolt head of the fixing bolt.
A longitudinal axis lead is inserted into the bolt rod of the fixing bolt on a longitudinal center axis thereof, and a horizontal axis lead is inserted to connect the vertical axis lead to the ring-shaped conductor of the lower surface of the bolt head.
When the fixing bolt is fastened to the female threaded hole and the through hole, the longitudinal axis lead is grounded to the flat lead, and the ring lead on the bottom of the bolt head is grounded to the ring lead coupled to the upper edge of the through hole of the plate. The trough lighting installation structure using solar light, characterized in that the conductors of the flat and the flat plate is electrically connected through a bolt.
9. The method according to any one of claims 1 to 8,
The electrical energy supplied to the illuminator is a gutter lighting installation structure using solar light, characterized in that configured to mix the electrical energy generated by the solar panel and the electrical energy introduced from an external power source.

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