KR101573325B1 - light awning device - Google Patents

Abstract

The present invention relates to a light awning device which is installed in a window to block the sunlight and simultaneously generate electricity. The light awning device of the present invention comprises: a frame; and a light awning unit installed in a swing means to be able to swing toward the frame. The light awning unit comprises: a light awning housing with an air inlet hole at the bottom, an air outlet hole at the top, and a channel inside; one or more condensing lens installed in an external panel of the light awning housing to condense the sunlight; and a solar cell installed in an internal panel of the light awning housing to generate electricity from the sunlight condensed by the condensing lens. The cross-sectional area of the air inlet hole is greater than the cross-sectional area of the air outlet hole, and the solar cell is cooled by making the air move from the air inlet hole toward the air outlet hole.

Description

A light awning device

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sun shade device, and more particularly, to a sun shade device installed in a window to shut off sunlight and produce electricity.

Generally, windows are used for indoor purposes, indoor soundproofing, and viewing, as well as for mining and ventilation in residential buildings such as houses, apartments, and buildings.

Such windows have conventionally been used in various forms to date. However, in recent years, the embodiment of the window has not been limited to the intrinsic purpose of the window, that is, mining, ventilation, heat insulation, soundproofing and viewing function, and gradually the improvement of user operation convenience, esthetic element emphasis, And the trend is rapidly advancing.

In recent years, the use of solar panels capable of generating electricity using solar energy has become increasingly popular, and the electric power generated at this time is utilized as an environmentally friendly alternative power source for existing commercial power.

However, as the temperature of a solar cell that generates electricity by receiving solar light is lowered, the power generation efficiency is lowered sharply. Therefore, various studies have been conducted on the cooling method for the solar cell.

Korean Registered Utility Model No. 20-0458057

An object of the present invention which is devised to solve the above-mentioned problems is to provide a sun shade device capable of shutting off sunlight and generating electricity at the same time, and capable of maintaining the power generation efficiency by forcibly cooling the solar cell by air- .

According to an aspect of the present invention, And a swinging portion provided by the swing means so as to swing on the frame, wherein the swinging portion has an air inlet hole formed at a lower portion thereof, an air outlet hole formed at an upper portion thereof, and a channel therein; At least one condenser lens installed on an outer panel of the canopy housing for condensing sunlight; And a solar cell mounted on the inner panel of the sunshade housing and generating electricity from sunlight condensed by the condenser lens, wherein the cross-sectional area of the air inlet hole is larger than the cross-sectional area of the air outlet hole, Wherein the solar cell is cooled by generating air movement toward the air discharge hole.

And the focal distance of the corresponding condensing lens becomes shorter as the distance between the solar cell and the outer panel becomes shorter.

Further, as the distance between the solar cell and the outer panel becomes closer, the diameter of the corresponding condenser lens becomes smaller.

The swing means includes a fixed joint for fixing one end of the sun visor housing to the frame so as to be rotatable, a pushing rod rotatably fixed to push up the other end of the sun visor housing, And a fixing member for fixing the fixing member.

The fixing member includes a slider that moves along a guide portion formed in the frame and is rotatably connected to the pushing rod, and a fixing pin that fixes the slider to the frame.

In addition, a thermal fluid tube is embedded in the inner panel to contact the solar cell.

Further, the thermal fluid tube is surrounded by a heat insulating material.

In addition, the air discharge hole is located on the outer panel.

In addition, a direction induction plate is installed in the inside of the sunshade housing to discharge air through the air discharge hole.

A wind turbine blade is installed around the air discharge hole, and the wind turbine blade is connected to a generator to produce electricity.

According to the present invention, the power generation efficiency can be maintained by forcibly cooling the solar cell. Particularly, it is possible to increase the amount of current generated by condensing while effectively dissipating the heat generated when the sunlight is condensed by the convex lens.

1 is a perspective view of an awning device according to a first embodiment of the present invention.
2 is a side cross-sectional view of the awning device of Fig.
3 is a schematic view of an inner panel of the sun shade apparatus of Fig.
4 is a perspective view of an awning device according to a second embodiment of the present invention.
5 is a side cross-sectional view of the awning device of Fig.
6 is a side sectional view of an awning apparatus according to Embodiment 3 of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

1 and 2, reference numeral 100 designates an awning apparatus according to Embodiment 1 of the present invention.

The present invention is characterized in that the solar cell is effectively cooled by air cooling and water cooling, and the power generation efficiency of the solar cell is not lowered by condensing. The shading device 100 according to an embodiment of the present invention includes a frame 102 and a shovel for swinging on the frame 100.

The frame 102 may be attached to a window frame installed on a window, or may be formed on the window frame itself.

The beveled portion includes a cylindrical beveled housing 118 having an open bottom and an open top and at least one condenser lens 126 installed on the outer panel 120 of the beveled housing 118 for condensing sunlight, And a solar cell 128 installed in the inner panel 122 of the sunshade housing 118 to generate electricity from sunlight condensed by the condenser lens 126.

The canopy housing 118 is conventionally formed with an inner channel 124 by an outer panel 120 and an inner panel 122 and side walls connecting the outer panel 120 and the inner panel 122 . Here, the outer side means the far side from the building, and the inner side means the side near the building.

The outer panel 120 may be made of a transparent or semi-transparent material so as to transmit light. Of course, the outer panel 120 may be formed of an opaque material or may be attached with an opaque film.

The inner panel 122 is preferably made of translucent or opaque material for awnings. Of course, it is also possible to attach a translucent film or an opaque film to the transparent material.

Sectional area of the lower portion of the beveled housing 118 is formed larger than the sectional area of the upper portion of the shielding housing 118 so as to generate air movement from the lower portion of the beveled housing 118 toward the upper portion. There is always a movement of air around the building, that is, the wind. In addition, the wind is constituted by a static pressure which is a constant pressure and a dynamic pressure which changes with time, and it is possible to induce the continuous and variable air movement due to the change of the sectional shape of the blocking housing 118, It is possible to cool the solar cell 128 continuously.

In addition, the mutually facing surfaces of the inner panel 122 and the outer panel 120 may have curved surfaces so that the cross-section of the sunshade housing 118 may have the shape of a venturi tube as a whole.

At least one condenser lens 126 for condensing sunlight is installed on the outer panel 120 of the sunshade housing 118. When a plurality of condenser lenses 126 are provided, the diameter, thickness, focal length, and the like of the condenser lens 126 may be variously selected. A solar cell 128 corresponding to the condenser lens 126 is installed on the inner panel 122. As the distance between the solar cell 128 and the outer panel 120 becomes closer, the distance between the inner panel 122 and the outer panel 120 becomes narrower from the lower part toward the upper part for air movement. It is preferable that the focal length of the condenser lens 126 is shortened considering the power generation efficiency.

The thermal fluid tube 130 may be embedded in the inner panel 122 to contact the solar cell 128 for cooling and regenerating the solar cell 128. The thermal fluid pipe 130 is preferably bent and arranged to contact all the solar cells 128 installed in the inner panel 122 as shown in FIG. The thermal fluid pipe 130 is connected to an unillustrated thermal fluid tank and can continuously supply heated thermal fluid in a circulating manner. Water is used as the heat fluid, and circulation of the heat fluid can be performed by using a separate pump or by a specific gravity difference due to heating of the heat fluid itself.

In order to prevent loss of heat absorbed by the thermal fluid pipe 130, it is preferable that the thermal insulator 132 surrounds the thermal fluid pipe 130. The heat insulating material 132 uses a known heat insulating material, and a detailed description thereof will be omitted.

The swing means according to the first embodiment of the present invention includes a fixed joint 116 for fixing one end of the sun visor housing 118 to the frame 102 so as to be rotatable, A pushing rod 110 rotatably fixed to push up the other end of the sunshade housing 118 and a fixing member for fixing the pushing rod 110 to the frame 102. The pushing rod 110 and the canopy housing 118 are fixed to be rotatable by the second pushing rod joint 114.

The swing bracket 117 is integrally connected to the bezel housing 118 so that the air discharged through the air discharge hole 134 of the bezel housing 118 is prevented from being blocked by the frame 102 To protrude outwardly.

The fixing member includes a slider 106 that moves along the guide portion 104 formed on the frame 102 and is rotatably connected to the pushing rod 110 by the first pushing rod joint 112, And a fixing pin (108) for fixing the slider (106) to the frame (102).

Accordingly, the pushing rod 110 is pushed up to make the sunshade housing 118 a good position to receive sunlight. By locking the fixing pin 108, the sunshade 100 can be sunshade, The preparation for the power generation by the power source is completed.

In addition, by engaging the slider 106 by a feed screw (not shown) connected to a motor (not shown), the pushing rod 110 can be operated and fixed at the same time.

Next, the awning device 101 according to the second embodiment of the present invention will be described with reference to Figs. Unlike the shading device 100 of the first embodiment, the shading device 101 has a feature that the swing bracket 117 is omitted so that the shade housing 140 does not protrude from the frame 102.

To this end, the air discharge hole 133 in the awning device 101 is located on the upper part of the outer panel 120. As a result, the air discharged to the air discharge hole 133 is not disturbed by the frame 102, so that free wind movement is possible. Since the position of the air vent hole 133 is perpendicular to the longitudinal direction of the sun visor housing 140, the air vent hole 133 is formed in the inside of the sun visor housing 140, It is preferable that the direction guide plate 138 is installed to discharge air through the guide plate 138. The direction induction plate 138 is formed of a plate having a curved surface as shown in FIG. 5 so that the flow line of the air changes toward the air discharge hole 133.

Next, the awning device 142 according to the fourth embodiment of the present invention will be described with reference to Figs. Unlike the awning device 100 of the first embodiment, the windshield device 142 is provided with a wind force blade 144 in the air discharge hole 134. Thereby, additional electrical production is possible by connecting the wind turbine blade 144 to a generator (not shown). Other components are the same as those of the shading device 100 of the first embodiment, and thus description thereof is omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill 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 by the appended claims. It can be understood that

100, 101, 142: a shade device 102: frame
104: guide portion 106: slider
108: fixing pin 110: pushing rod
112: first pushing rod joint 114: second pushing rod joint
116, 118: swing joint 117: swing bracket
118, 140: canopy housing 120: outer panel
122: inner panel 124: channel
126: condenser lens 128: solar cell
130: Heat exchange tube 132: Insulation
133, 134: air vent hole 136: air inlet hole
138: Directional guide plate 144: Wind turbine blade

Claims (10)

frame; And
And a swinging portion provided by the swing means so as to swing in the frame,
The canopy has an air intake hole formed at a lower portion thereof, an air discharge hole formed at an upper portion thereof, and a channel therein;
At least one condenser lens installed on an outer panel of the canopy housing for condensing sunlight; And
And a solar cell mounted on an inner panel of the sunshade housing and generating electricity from sunlight condensed by the condenser lens,
Wherein the cross-sectional area of the air inlet hole is larger than the cross-sectional area of the air outlet hole to generate air movement from the air inlet hole toward the air outlet hole to cool the solar cell.
The apparatus according to claim 1, wherein a focal distance of the corresponding condensing lens becomes shorter as the distance between the solar cell and the outer panel becomes closer.
3. The blind apparatus according to claim 2, wherein the diameter of the corresponding condensing lens decreases as the distance between the solar cell and the outer panel decreases.
[2] The hood according to claim 1, wherein the swing means comprises: a fixed joint for fixing one end of the sunshade housing to the frame so as to be rotatable; a pushing rod rotatably fixed to push up the other end of the sunshade housing; And a fixing member for fixing the frame to the frame.
[5] The apparatus according to claim 4, wherein the fixing member comprises: a slider which moves along the guide portion formed on the frame and is rotatably connected to the pushing rod; and a fixing pin for fixing the slider to the frame. .
The blind apparatus according to claim 1, wherein a thermal fluid tube is embedded in the inner panel to contact the solar cell.
7. The shade apparatus according to claim 6, wherein the thermal fluid tube is surrounded by a heat insulating material.
The shade apparatus according to claim 1, wherein the air discharge hole is located on the outer panel.
9. The shade apparatus as claimed in claim 8, wherein a direction induction plate is installed in the sunshade housing to discharge air through the air discharge hole.
2. The sun shade device according to claim 1, wherein a wind turbine blade is installed around the air discharge hole, and the wind turbine blade is connected to the generator to produce electricity.

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