KR101550096B1 - Blind with heating function - Google Patents

Abstract

The present invention relates to a solar panel which is installed in a window and receives blinds directly in contact with sunlight to convert sunlight energy into electric energy and to raise the temperature of the indoor space so that resistance heat can be generated by the electric energy converted from solar energy. The present invention relates to a blind having a heat generating function for reducing the amount of fuel and electric power for heating or electric heating by providing a plurality of unit blind pieces below the rail housing, Wherein the opening and closing strap for lifting and lowering is connected through a central through hole formed in each unit blind piece and an angle adjusting strap for adjusting the angle supports both sides of each unit blind piece, Solar energy is converted into electric energy and supplied with electric energy. Is configured as a solar cell module causes the anti-fever.

Description

A blind with heating function {Blind with heating function}

The present invention relates to a blind having a heat generating function, and more particularly, to a blind having a heat generating function, a blind disposed in a window and directly in contact with sunlight, receives sunlight energy and converts it into electric energy, To a blind having a heating function to reduce the amount of fuel and electric power used for heating or heating by allowing the temperature of the indoor space to be raised so as to cause heat generation.

Generally, blinds are installed in windows or windows of a house or office to block shading or blindness. The blinds are classified into a vertical type in which unit horizontal blind pieces are horizontally arranged by horizontally arranging horizontally and vertically unitary blister pieces arranged horizontally, and a thin metal plate is classified as a unit type blade piece. In the case of a vertical type, Ashes are used.

Generally, in the case of a horizontal type blind formed by horizontally stacking unit blind pieces in upper and lower tiers, a plurality of unit blind pieces are provided at the lower portion of the rail housing, and opening / closing rods for lifting and lowering the horizontal unit blind pieces are provided on each unit blind piece And the angle adjusting strap for adjusting the angle is configured to support both sides of each unit blind piece.

On the other hand, the conventional indoor space heating uses a heater or a device such as a boiler or a hot air fan. In winter heating, the energy cost can be saved at a national level as well as a personal cost due to a surge in fuel and electricity usage. There are urgent measures in place.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a blind, which is installed in a window and directly contacts with sunlight, And to provide a blind having a heating function capable of reducing the amount of fuel and electric power used for heating or heating by allowing the temperature of the indoor space to be raised so as to cause resistance heat generation by the converted electric energy.

According to another aspect of the present invention, there is provided a blind having a heat generating function, wherein a plurality of unit blind pieces are provided at a lower portion of the rail housing, and an opening / closing strap for opening / Wherein the horizontal unit blind piece is connected to the central through hole formed in the unit blind piece and the angle adjusting strap for adjusting the angle supports both sides of each unit blind piece, And a solar cell module which is supplied with electric energy and causes resistance heat generation.

In addition, a minimum number of solar cells are mounted on the front surface of the printed circuit board, a coating layer of a light transmitting material is formed on the top of the solar cell, a carbon heating element is formed on the back surface of the printed circuit board, And the outside of the printed circuit board including the carbon heating element is covered with the outer body portion of a light-transmitting material.

In addition, the coating layer may be formed of PET or EVA, and a PET sheet or a fluorine film back sheet may be disposed under the carbon heating element, Is characterized in that it is coated with a silk screen on the back side of the printed circuit board.

The outer body portion corresponds to the total thickness, length and width of the printed circuit board including the coating layer, the solar cell, and the carbon heating element. The outer body portion has a substrate insertion hole penetrating back and forth, And is molded with a plastic extrudate having a transmittance.

As described above, according to the present invention, the unit blind piece of the blind is converted into electric energy by receiving solar energy, and electric energy converted from solar energy is supplied to the carbon heating element on the back surface of the printed circuit board, It is possible to increase the temperature of the indoor space by constructing the solar cell module, thereby reducing the fuel and power consumption due to the use of the heating device or the heating device for raising the temperature inside the indoor space, And can be more suitably used in a greenhouse of a farmhouse, which is particularly difficult to use a heating device or a heating device.

1 is a perspective view showing a blind having a heat generating function according to the present invention;
FIG. 2 is a perspective view showing a structure of a solar cell module applied to the unit blade section of FIG. 1. FIG.
Fig. 3 is a longitudinal sectional view of Fig. 1; Fig.
Fig. 4 is a partially enlarged perspective view showing the unit blind piece of Fig. 1; Fig.

Hereinafter, a solar module according to the present invention will be described in detail with reference to the accompanying drawings.

In general, the horizontal type blind is provided with a plurality of unit blind pieces 10 at a lower portion of the rail housing 100 as shown in Fig. 1, and a plurality of unit blind pieces 10 for opening and closing the horizontal unit blind pieces 10 20 are connected through a central through hole formed in each unit blind piece 10 and an angle adjusting strap 30 for angle adjustment is configured to support both sides of each unit blind piece 10. [

In this blind, the unit blind piece 10 is formed of a flexible PCB (F-PCB) 15 to convert solar energy into electric energy, and solar energy And a cell module (S) so that the temperature of the indoor space can be raised by the heat of the solar cell module (S).

2 and 3 are a perspective view and a cross-sectional view of a solar cell module having a heat generating function according to the present invention. As shown therein, the solar cell module S applied to the present invention has a minimum unit A solar cell 2 of a rectangular shape having a long width and a long length is SMD mounted and the carbon heating element 4 is silk screened on the back surface of the printed circuit board 1. [ An upper portion of the solar cell 2 mounted on the front surface of the printed circuit board 1 is covered with a coating layer 3 made of polyethylene terephthalate (EVA) or polyethylene terephthalate (EVA) A PET sheet or a back sheet 5 in the form of a fluorine film may be provided under the silk-screened carbon heating element 4.

The upper surface of the printed circuit board 1 on which the solar cell 2 constituting the coating layer 3 with PET or EVA is mounted on the front side and the carbon heating element 4 is silk screened on the back side And the outer body portion 6 is provided on the outer side of the printed circuit board 1 including the coating layer 3, the solar cell 2, and the carbon heating element 4, Corresponds to thickness, length and width, and is formed of a plastic extrudate having a substrate insertion hole (6a) penetrating back and forth, light in weight and having a light transmittance of 90%. The backsheet 5 has a sandwich structure in which a PET film 52 is provided between the fluorine films 51.

The solar cell module S according to the present invention configured as described above is constructed so that the solar energy transmitted through the outer body portion 6 formed of transparent plastic is provided on the front surface of the printed circuit board 1 and the upper portion thereof is made of polyethylene terephthalate Is received by the solar cell 2 constituting the coating layer 3 by EVA (EVA), converted into electric energy, and can be charged in the battery or transmitted through a power line. The converted electric energy is supplied to the carbon heating element 4 which is silk screened on the back surface of the printed circuit board 1 to cause the resistance heating of the carbon heating element 4 and the heat of the carbon heating element 4 The temperature can be raised.

Here, the reference numerals 11 and 12 in FIG. 2 denote a power supply terminal for a solar cell module (+) and a power supply terminal for a solar cell module (-), and reference numerals 13 and 14 denote a carbon heating element (+ ) Power terminal and a carbon heating element (-) power terminal. Reference numerals 21 and 22 denote the solar cell front booth bar and the solar cell rear side section bar, reference numeral 23 denotes a ribbon, reference numeral 24 denotes an SMD circuit of the printed circuit board 1, (2) are connected.

The solar cell module power supply terminal 11 and the solar cell module power supply terminal 12 are connected to the printed circuit board 1 so that power can be supplied when the solar cell module S is horizontally and horizontally connected. (+) Power supply terminal 13 and the carbon heating element (-) power supply terminal 14 are connected to the pair of the solar cell module (+) power supply terminal 11 and the pair of solar cell module (+) Power supply terminal 11 and a solar cell module (-) power supply terminal 12 and an electric circuit (not shown) provided on the printed circuit board 1 between the cell module (-) power supply terminal 12 and the solar cell module It is connected as an enemy.

The solar cell front side bus bar 23 and the solar cell rear side portion 24 are the positive electrode plate and the negative electrode plate of the solar cell 2 and the solar cell rear side portion 24 is connected to the printed circuit board 1 And the front side bar bar 23 of the solar cell is fixed to the coating layer 3 by means of the ribbon 23. The both ends of the ribbon 23 are fixed by the SMD circuit 24 to the printed circuit Each of the solar cell module power supply terminal 11 and the solar cell module negative power supply terminal 12 formed on the substrate 1 and the power supply terminals 12 and 13 of the carbon heating element positive power supply terminal 13 and the carbon heating element Is electrically connected to the terminal (14).

As shown in FIG. 4, the plurality of solar cell modules S arranged at vertical intervals in the vertical direction are powered by a flexible PCB (F-PCB) 15.

As described above, according to the present invention, the unit blind piece of the blind is converted into electric energy by receiving sunlight energy, and the solar cell module, which is supplied with the electric energy converted from the solar light energy to the carbon heating element on the back surface of the printed circuit board, Thereby increasing the temperature of the indoor space. As a result, it is possible to further reduce the fuel consumption and power consumption due to the use of the heating device or the heating device for raising the temperature inside the indoor space, It can be more suitably used in a greenhouse of a farmhouse, which is difficult to use a heating device or a heating device.

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 to be limited to the disclosed exemplary embodiments, Are determined and limited. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

1: printed circuit board
11: Solar cell module (+) Power terminal 12: Solar cell module (-) Power terminal
13: Carbon heating element (+) Power terminal 14: Carbon heating element (-) Power terminal
15: F-PCB
2: Solar cell
21: Solar cell front booth bar 22: Solar cell rear part
23: Ribbon 24: Circuit for SMD
3: Coating layer 4: Carbon heating element
5: back sheet 6: outer body part
6a: substrate insertion hole 7: frame
8: Sealing material S: Solar cell module
10: unit blister piece 20: opening / closing strap
30: Angle adjusting strap 100: Rail housing

Claims (7)

delete delete delete A plurality of unit blind pieces 10 are provided below the rail housing 100 and the opening and closing rods 20 for lifting and lowering the horizontal unit blind pieces 10 are provided at the center of the unit blind pieces 10, And an angle adjusting strap 30 for adjusting the angle is configured to support both sides of each unit blind piece 10, and the horizontal unit blind piece 10 is configured to transmit solar energy to electric energy The solar cell module S includes a solar cell module 2 having a minimum number of solar cells 2 mounted on the front surface of the printed circuit board 1, And a carbon heating element 4 is formed on the rear surface of the printed circuit board 1. The solar cell 2 and the coating layer 3 are formed on the upper surface of the solar cell 2, ), And a carbon heating element (4), the outer surface of the printed circuit board (1) is made of a light- And the coating layer 3 is formed of PET or EVA and the bottom of the carbon heating element 4 is formed of a PET film or a fluorine film In a blind having a heat generating function provided with a back sheet (5)
Characterized in that the carbon heating element (4) is coated with a silk screen on the back surface of the printed circuit board (1).
5. The method of claim 4,
The outer body portion 6 corresponds to the total thickness, length and width of the printed circuit board 1 including the coating layer 3, the solar cell 2, and the carbon heating element 4, Characterized in that it has a substrate insertion hole (6a) and is light in weight and molded into a plastic extrudate having a light transmittance of 90%.




delete delete

Images