KR20120110697A - Vertical blinde driving by pvled(photovoltaic light emitting diode) - Google Patents

Abstract

PURPOSE: A vertical blind with photovoltaic LEDs is provided to allow a solar panel of a blade to efficiently collect sunlight by tracking the irradiation direction of the sunlight. CONSTITUTION: A vertical blind with photovoltaic LEDs comprises multiple blades, a drive unit, an electric load, a power supply unit, and a control unit. The blades are arranged at uniform intervals. A solar panel is formed on one surface of each blade. The drive unit is attached to the top of a window frame and controls the angle of the blades. The electric load comprises multiple LEDs. The power supply unit is formed on one side of the drive unit and is composed of a battery and an inverter. The battery stores DC electric energy converted from the solar panels. The inverter converts the DC electric energy into AC electric energy and transfers the converted energy to the electric load. The control unit controls the drive unit. [Reference numerals] (AA) Power supply unit; (BB) Inverter; (CC) Blade; (DD) Battery; (EE) Solar cell panel; (FF) Sunlight; (GG) Sunlight measurement sensor; (HH) Control unit; (II) Electricity load; (JJ) Angle adjusting motor; (KK) Switch; (LL) Drive unit

Description

Vertical Blinde Driving by PVLED (Photovoltaic Light Emitting Diode)}

The present invention relates to a vertical blind for producing power using a solar cell panel and a control method thereof, and more particularly, each side is arranged in parallel to each other at regular intervals in the form of a rectangular panel, the solar panel on one side A plurality of blades are provided, attached to the upper portion of the window frame, each of the blades is connected to each other by a connecting member and the drive unit for adjusting the angle and position of the blades, provided on one side of the drive unit electricity converted in the solar panel It relates to a vertical blind having a solar cell comprising a battery for storing energy and a control unit for controlling the drive unit.

There has been a continuing interest in solar power generation systems that are one of the most environmentally friendly and renewable energy sources.

Conventional blinds have a simple function of blocking light coming into the room from the outside or blocking the inside from looking outside, there is a problem in that the light energy of the sun cannot be efficiently used. In addition, the solar power storage device is very complicated in structure, very large in size, constrained by the installation place, and mainly installed in the open-air exposure conditions, so frequent cleaning due to pollution of snow, rain, dust, etc. There was an uncomfortable problem.

In order to solve this problem, recently, as a solar power generation system, a blind has been developed that combines a power generation function in a building window to generate electric energy and a function to properly block direct sunlight, and is beautiful in appearance and attached to the blind. Research on increasing the production of electric energy while reducing the installation area of the solar panel is being actively conducted.

However, the vertical blinds are usually positioned facing one direction, which causes the solar panel to be positioned facing one direction along the vertical blinds.

When the sun is located in the direction of the vertical blind, the light receiving efficiency of the solar panel is increased, but when the sun is moved from the east to the west, the number of the solar panels is not located in the direction of the vertical blind. Light efficiency as well as electrical energy generation efficiency is also a problem that is lowered.

The present invention was created to solve the above-mentioned problems, the problem of the present invention is as follows.

First, even if the sun moves over time, the blade of the vertical blind rotates in the forward and reverse directions as the sun moves, so that the solar cell panel of the blade can track the direction of solar irradiation. It is an object of the present invention to provide a vertical blind having a solar cell capable of receiving sunlight with high efficiency.

Secondly, the electrical energy generation efficiency of the solar cell panel can also be greatly improved, and furthermore, an object of the present invention is to provide a vertical blind having a solar cell which can more easily block direct sunlight due to the blind.

Third, the object of the present invention is to provide a vertical blind having a solar cell that performs a power generation function using indoor lighting and a control method thereof.

In order to solve the above problems, the present invention is arranged in parallel with each other at a predetermined interval in the form of a rectangular panel, a plurality of blades provided with a solar panel on one surface, attached to the upper part of the window frame by a connecting member A drive unit to which each of the blades is connected and adjusts the angle of the blade. An electric load including a plurality of LEDs, provided on one side of the driving unit, and converts the electric energy of the direct current generated by the solar panel and the battery for storing the electric energy converted from the solar panel to an alternating current to the electric load Provided is a vertical blind having a solar cell comprising a power supply unit configured to include an inverter to and a control unit for controlling the drive unit.

At least one of the plurality of blades may be configured to include a photovoltaic sensor for measuring the incident angle of sunlight on the front surface provided with a solar panel.

The driving unit may include an angle adjusting motor rotating in the forward and reverse directions to adjust the angle of the blade.

At this time, the angle control motor and the blade is preferably mutually coupled by the connecting member is made to enable the forward and reverse rotation of the blade in accordance with the movement of the angle control motor.

The driving unit may further include a power switch so that when the switch is turned on, the electric load is operated by using power stored in the battery.

In the control method of the present invention, when the power provided to the electric load is insufficient, it is preferable that the control unit recognizes the inverter so that the commercial AC power is supplied to the electric load.

The control method may be configured to adjust the blades such that the solar incident angle is always perpendicular to the solar incident angle information input to the controller through the solar measuring sensor.

In addition, the control method is preferably made to adjust the blades so that the solar panel toward the indoor lighting when the incident angle of the sunlight inputted through the photovoltaic sensor is a certain angle or less.

Referring to the effects according to the vertical blade of the present invention.

First, even if the sun moves over time, the blade of the vertical blind rotates in the forward and reverse directions as the sun moves, so that the solar cell panel of the blade can track the direction of solar irradiation. There is an effect that can receive sunlight with high efficiency.

Secondly, the electrical energy generation efficiency of the solar cell panel can also be greatly improved, and furthermore, the blinds can directly block direct sunlight.

Third, by providing a vertical blind with a solar cell that performs the power generation function using the indoor lighting and its control method, there is an effect that the power generation can be made even at night or weather lack of sunlight.

The above summary as well as the detailed description of the preferred embodiments of the present application described below will be better understood when read in connection with the accompanying drawings. Preferred embodiments are shown in the drawings for the purpose of illustrating the mechanism of the present application.
However, it should be understood that the present application is not limited to the precise arrangements and instrumentalities shown.
1 is a partial perspective view schematically showing a vertical blind for driving the LED in the photovoltaic power generation of the present invention;
2 is a view according to another embodiment of a vertical blind for driving the LED in the photovoltaic power generation of the present invention;
Figure 3 is a longitudinal sectional view schematically showing a drive unit of the vertical blind for driving the LED in the photovoltaic power generation of the present invention; And
Figure 2 is a block diagram schematically showing the operation of the vertical blind driving the LED in the photovoltaic power generation 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 describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

Vertical blinds for driving the LED in the photovoltaic power generation of the present invention according to an embodiment, as shown in Figure 1, in the form of a rectangular panel, each side is arranged parallel to each other at a predetermined interval, the solar cell on one side A plurality of blades 100 is provided with a panel 110, is attached to the upper part of the window frame, each of the blades 100 is connected by a connecting member 130 and the driving unit for adjusting the angle of the blade ( 200). An electric load 500 including a plurality of LEDs, provided on one side of the driving unit 200, to a battery 310 and a solar cell panel 110 for storing electrical energy converted by the solar cell panel 110. It includes a power supply unit 300 and a control unit 400 for controlling the drive unit 200 is configured to include an inverter 320 for converting the electrical energy of the direct current generated by the alternating current into an alternating current to the electrical load 500. .

As the material of the solar panel 110, an organic dye? Materials such as silicon amorphous thin film solar cells, CIGS solar cells, wafer solar cells may be applied, but are not necessarily limited thereto.

However, preferably as the solar panel 110, even if a shadow is generated in the solar cell module due to the sun compared to other solar cells, there is an advantage that the effect of the shadow in terms of efficiency and power in comparison with other organic and dye solar cells, etc. It is good to use

The blade 100 may be made of various materials such as a fabric material, but high heat generated in the blade 100 may be radiated smoothly to the outside during the process of irradiating sunlight to the solar panel 110. It is preferable that the blade 100 is made of an aluminum material or the like.

In addition, although each of the blades 100 are disposed at right angles to the driving unit 200 in FIG. 1, according to another embodiment of the present invention, the blades 100 of each of the blades 100 are not limited thereto. As shown in FIG. 2, the driving unit 200 may be disposed to be parallel to the driving unit 200.

At least one of the plurality of blades 100 configured as described above may be configured to include a photovoltaic sensor 120 for measuring the angle of incidence of sunlight on the front surface provided with the solar panel 110.

As the photovoltaic sensor 120, a photodiode (one of semiconductor diodes, which is used to detect light by using a property of generating current when light hits a semiconductor junction) may be used. However, the present invention is not limited thereto.

3, the driving unit 200 may include an angle adjusting motor 210 for rotating the blade 100 in the forward and reverse directions.

The angle adjusting motor 210 is mutually coupled with the upper portion of the blade 100 by the connecting member 130, the blade 100 so that the blade 100 is directed toward the direction in which sunlight is received by receiving power It is possible to rotate the 100 in the forward and reverse directions.

More specifically, as shown in FIG. 3, the driving unit 200 includes an angle control motor 210 in which the driving shaft 220 is horizontally coupled to one side of the driving unit 200, and the angle control motor 210. It is provided in the interior of the drive unit 200 in the state coupled to the drive shaft 220 horizontally and forward and reverse rotation along the drive shaft 220 when the drive shaft 220 is reversely rotated by the control of the controller 400 The rotating shaft, the upper bevel gear 240, which is axially coupled at a predetermined interval perpendicular to the outer periphery of the rotating shaft in the forward and reverse rotation along the rotating shaft, the mesh of the blade 100 in engagement with the upper bevel gear 240 A lower part which is axially coupled to each of the vertical shafts 131 formed at one side thereof horizontally, and is provided at a predetermined interval inside the driving unit 200 and rotates forward and backward along the upper bevel gear 240 to forward and reverse rotation of the blade 100. Bevel Gears (250) It can comprise.

As shown in FIG. 3, when the driving shaft 220 of one angle adjustment motor 210 rotates forward and backward under the control of the controller 400, all of the blades 100 also rotate forward and backward.

In the present embodiment, the angle adjusting motor 210, the rotating shaft, the upper bevel gear 240 and the lower bevel gear 250 and the like as a means for rotating the blade 100, but is not limited to this configuration. Any configuration can be applied as long as the blade 100 can be rotated forward and backward.

 On the other hand, the electric load 500 may be made of a variety of mechanisms, in the present embodiment will be described by taking an example that the electric load 500 is LED lighting.

The driving unit 200 may further include a switch 260 to operate the electric load 500 by using the power stored in the battery 310 when the switch 260 is turned on. desirable.

In addition, although not shown in the drawing, the blade 100 may be provided with a line such as a wire electrically connected to one side of the solar cell panel 110 and the other side to the power supply unit 300. Electrical energy converted by the solar panel 110 through the line such as a wire may be stored in the battery 310.

Referring to the block diagram shown in Figure 4, the control method of the vertical blind with a solar cell of the present invention configured as described above are as follows.

Referring to the control method of the vertical blind with a solar cell of the present invention.

Vertical blind having a solar cell of the present invention, the control unit 400 initializes the operation according to the operation program, the control unit 400 controls the angle adjustment motor 210 when the initialization operation is completed.

Accordingly, the initial position of the blade 100 is aligned.

Then, scan for fine adjustment in the aligned position.

Here, the scan is a process of moving the blade 100 such that the incident angle of sunlight measured by the photovoltaic sensor 120 is as close to the right angle as possible.

After the adjustment of the position, the solar cell panel 110 starts to generate power.

The blade 100 such that the solar incident angle is always close to the vertical in accordance with the solar incident angle information input to the control unit 400 through the photovoltaic sensor 120 even during the generation using the solar panel 110. It is preferred to be made to control.

Therefore, even if the sun moves as time passes, the blade 100 of the vertical blind rotates in the forward and reverse directions according to the movement of the sun so that the solar panel 110 of the blade 100 can track the solar irradiation direction. Since the solar cell panel 110 can receive sunlight with higher efficiency.

In addition, the blade 100 may be adjusted so that the solar panel 110 faces the indoor lighting when the incident angle of sunlight inputted through the photovoltaic sensor 120 is less than a predetermined angle.

It is difficult to use solar power at night or in cloudy weather. In consideration of this, the front surface of the blade 100 provided with the solar panel 110 is directed toward the indoor lighting location.

Since the solar panel 110 attached to the front faces the indoor lighting, the solar panel 110 converts light energy into electrical energy using the indoor lighting.

Electrical energy obtained by the development of room lighting may be utilized to charge the battery 310.

On the other hand, if the power supplied to the electrical load 500 through the battery 310 is insufficient, the control unit 400 recognizes this, it is made to supply the commercial AC power to the electrical load 500 by controlling the inverter 320 desirable

Vertical blinds configured as described above may be applied to a variety of places where LED lamps such as personal lighting, emergency lighting, outdoor signs that do not require regular operation.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments should be regarded as illustrative rather than restrictive, and thus, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

100: blade 110: solar cell panel
120: solar measuring sensor 130: connection member
131: vertical axis 200: drive unit
210: angle adjustment motor 220: drive shaft
230: rotating shaft 240: upper bevel gear
250: lower bevel gear 260: switch
300: power supply unit 310: battery
320: inverter 400: control unit
500: Electric load

Claims (7)

A plurality of blades each side of which is disposed in parallel with each other at a predetermined interval in the form of a rectangular panel, and a solar cell panel is provided on one surface;
A drive unit attached to an upper portion of a window frame and connected to each of the blades by a connecting member and adjusting an angle of the blades;
An electrical load comprising a plurality of LEDs;
A power supply unit provided at one side of the driving unit and configured to include a battery for storing the electric energy converted by the solar cell panel and an inverter for converting the electric energy of direct current generated by the solar cell panel into an alternating current and transferring the electric energy to an electric load; And
A control unit controlling the driving unit;
Vertical blind having a solar cell configured to include a. The method of claim 1,
At least one of the plurality of blades,
Vertical blind having a solar cell comprising a photovoltaic sensor for measuring the incident angle of sunlight on the front surface provided with a solar panel. The method of claim 1,
The driving unit includes:
It is made to include at least one or more angle adjustment motor to rotate in the forward and reverse direction to adjust the angle of the blade,
The connecting member includes:
Vertical blinds having solar cells connected to each of the angle control motor to enable forward and reverse rotation of the blades. The method of claim 1,
The driving unit includes:
A vertical blind having a solar cell configured to further include a switch, the operation of the electrical load by using the power stored in the battery when the switch is turned on. If the power to the electric load is insufficient, the control unit that recognizes the control is made so that the commercial AC power is supplied to the electric load by controlling the inverter. And controlling the blades such that the solar incident angle is always close to the vertical according to the solar incident angle information input to the controller through the solar measuring sensor. The method according to claim 6,
And controlling the blades so that the solar panel faces the interior lighting when the incident angle of sunlight inputted through the photovoltaic sensor is less than a predetermined angle.

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