KR20120005311A - Windows system including blind having ability of solar generation - Google Patents

Abstract

PURPOSE: A blind-embedded window system having a solar power generation function is provided to generate electricity from solar energy and block the penetration of sunlight. CONSTITUTION: A blind-embedded window system having a solar power generation function comprises a blind unit(120), a driving unit(130), and a control unit(140). The blind unit is installed inside a double window and includes one or more sunlight slats(122) for receiving sunlight and generating electricity. The driving unit controls the up-down motion and the opening/closing angle of the sunlight slats. The control unit controls the operation of the driving unit.

Description

WINDOWS SYSTEM INCLUDING BLIND HAVING ABILITY OF SOLAR GENERATION}

The present invention relates to a blind built-in window system capable of photovoltaic power generation, and more particularly, is installed inside a double window consisting of an outer window and an inner window, and a solar slat capable of receiving sunlight to produce electric power. A blind portion including at least one; A driving unit controlling vertical movement and angle of the solar slats included in the blind unit; It relates to a photovoltaic blind built-in window and door system comprising a control unit for controlling the operation of the drive unit.

Blinds made of a plurality of slats are widely used on the window side of a building to block sunlight coming from the outside or block eyes from the outside. Although blinds have been conventionally attached to the inner part of the window, they have been commonly used as an integrated system having blinds inside the windows.

Blinds are generally composed of a set of narrow and long rectangular slats, and can be used to block outside sunlight by adjusting the angle of the slats according to the user's intention.

On the other hand, in the case of the blind using the above method only performs a blocking function to prevent the external sunlight from entering the interior, and did not use the solar energy generated from the external sunlight.

In addition, general blind control has been performed in which a user directly adjusts an angle of a blind slat or a wireless remote controller. However, the above-described method provides effective blind control in that the user directly controls the blind. There was also the problem of not being made.

The present invention has been made to overcome the problems described above, in the window system with a built-in blind, shielding the sunlight by configuring the slat of the blind itself as a solar cell that can generate power by receiving sunlight It aims to provide a blind window system that can produce power using solar as well as functions.

In addition, the present invention provides a window system with a built-in blind, which enables efficient solar charging by measuring the amount of illumination and altitude information of the sun and automatically controlling the slat angle of the blind to correspond to the measured information. Another object is to provide a blind window system.

In order to achieve the above objects, according to an aspect of the present invention, in the blind built-in window system capable of photovoltaic power generation, is installed inside the double windows consisting of an outer window and an inner window, and receives sunlight A blind portion including at least one solar slat capable of producing a light; A driving unit controlling vertical movement and angle of the solar slats included in the blind unit; It provides a window system for blinds and built-in solar power, including a control unit for controlling the operation of the drive unit.

Here, the solar slats can be configured so that each slat itself is made of only a solar cell.

The apparatus may further include a sensing sensor unit capable of measuring an illuminance amount and an altitude of the sun, wherein the controller receives a signal including illuminance amount information or altitude information of the sun from the sensing sensor unit, and receives the received illuminance amount information. Corresponding to the automatic control of the opening and closing of the blind portion, or may be configured to automatically control the angle of the photovoltaic cell slat in order to maximize the power produced in the photovoltaic cell slat corresponding to the received altitude information of the sun.

Here, it may be configured to further include a power storage unit for receiving and charging power generated in the solar slat included in the blind portion.

According to the present invention, in a window system with a built-in blind, the slat of the blind itself is composed of a photovoltaic cell capable of receiving sunlight to produce electric power to generate power using the sunlight as well as the shielding function of the sunlight. It is possible to provide a blind built-in window system.

In addition, according to the present invention, in a window system with a built-in blind, efficient solar charging is possible by measuring the intensity of illumination and altitude information of the sun and automatically controlling the slat angle of the blind to correspond to the measured information. A blind built-in window system can be provided.

1 is a block diagram schematically showing the overall configuration of a window system built-in blind capable of photovoltaic power generation according to the present invention.
Figure 2 is a view showing an embodiment of a side cross-sectional view of a window system built-in blinds capable of photovoltaic power generation according to the present invention.
Figure 3 is a view showing an embodiment of the appearance of the window system built-in window blinds capable of solar power generation according to the present invention.

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

1 is a block diagram schematically showing the overall configuration of a window system built-in blind capable of photovoltaic power generation according to the present invention.

Referring to FIG. 1, a blind built-in window system 100 capable of generating solar power according to the present invention includes a blind unit 120 including a sensor sensor unit 110 and a solar slat 124, a driving unit 130, The control unit 140 and the power storage unit 150 is included.

The detection sensor unit 110 is a means capable of measuring the amount of illuminance and the altitude of the sun. The detection sensor unit 110 may be installed in a part of the window system as needed, and is preferably installed on the upper part of the window for accurate detection. If the amount of illumination of the sun is known, the amount of sunlight currently provided to the window system can be determined. If the altitude of the sun is known, approximate time information can be obtained. Since the sensor for measuring the amount of illumination and altitude of the sun corresponds to a conventional technology, a detailed description thereof will be omitted.

The blind unit 120 is installed between the double windows consisting of an outer window and an inner window, and is a means including at least one solar slat 122 that can receive sunlight from outside to produce power.

The solar slat 122 is a means capable of producing sunlight by receiving sunlight, and each slat is configured to be made of a solar cell. In the general blind, the slat that performs only the shielding function of sunlight is configured as a solar slat composed of photovoltaic cells to perform the self-generating function using solar as well as performing the shielding function.

In addition, when the solar slat 122 is configured, it is preferable to configure the solar cell itself in the form of a slat, rather than attaching a solar cell to one side of a conventional general blind slat. In this way, by configuring the solar cell itself with each slat, it is possible to reduce the slat production cost and increase the efficiency of solar charging.

On the other hand, the solar slat 122 included in the blind portion 120 corresponds to a configuration specialized in the function of the slat constituting the conventional general blind, and the number of the solar slat 122 of the entire slat is appropriate in some cases It can be said that also can be adjusted to be obvious to those skilled in the art.

The driving unit 130 is a means for adjusting the vertical movement and opening and closing angle of the solar cell slat included in the blind unit 120. The driver 130 adjusts the vertical movement and angle of the solar cell slat 122 by using a driving device such as a motor according to a signal of the controller 140 to be described later. When the driving unit 130 adjusts the angle of the solar slat 122, it is preferable to configure not only to control the angle of the entire slat integrally, but also to control each slat individually.

The control unit 140 is a means for receiving a signal including the illumination information or the altitude information of the sun from the sensor 110, and controls the operation of the drive unit 130 in accordance with the received signal.

When the controller 140 uses the illuminance information received from the sensor 110, for example, when the illuminance is measured to be higher than an appropriate value set by the user, the control unit 140 automatically adjusts the angle of the solar slat 122 to the interior. It can be set to effectively shield the sunlight entering into.

On the other hand, when the control unit 140 uses the altitude information of the sun received from the detection sensor unit 110, for example, since the altitude of the sun changes with time, the control unit corresponds to the changing altitude of the sun, that is, the altitude of the sun. The angle of the solar slat 122 can be automatically adjusted so that the difference between the tilt angle of the slat and the slat is perpendicular.

On the other hand, the controller 140 controls the angle of the solar slat 122 to correspond to the amount of illuminance to maintain a suitable light in the room when there is a person inside, the most efficient photovoltaic power generation when there is no person inside It can be set to control the angle of the solar slit 122 to correspond to the altitude of the sun to perform.

The power storage unit 150 is a means for charging the power generated by the solar slat 122 included in the blind unit 120. The blind built-in window system according to the present invention includes a plurality of photovoltaic slats 122, the photovoltaic slat 122 itself is made of a photovoltaic cell, so the power generation using sunlight in each slat is performed.

The power storage unit 150 performs the main function of receiving and charging the power generated from each of the solar slats 122, the power generated in the power storage unit 150 is driven to drive the own blind unit 120 It can be used for various purposes, such as to provide power to a product that is used for power supply or other power-needed products.

On the other hand, while the above described only the essential components required for the blind built-in window system capable of photovoltaic power generation according to the present invention, it is obvious to those skilled in the art that various components necessary for the general window system can be added Since this is a detailed description thereof will be omitted.

Figure 2 is a view showing an embodiment of a side cross-sectional view of a blind embedded window system capable of solar power generation according to the present invention, Figure 3 is a view of the blind embedded window system capable of solar power generation according to the present invention from the outside side. Figure 1 shows an embodiment of the.

2 and 3, a blind unit 120 is included in an inner side of a double window including an outer window and an inner window, and a sensing sensor unit 110 capable of measuring an illuminance and an altitude of the sun. Is configured in the upper part of the window system to increase the accuracy of the detection.

As described above in FIG. 1, the detection sensor unit 110 is installed to be exposed to the outside of the system to measure the sun's illuminance and the sun's altitude, and the information measured by the detection sensor unit 110 is controlled by the controller 140. Is sent). The controller 140 operates the driver 130 to control the angle of the solar slat 124 included in the blind unit 120 using the received sun-related information.

Shielding and charging functions are enabled by the solar slat 124, and the power generated through the plurality of solar slats 124 may be stored in the power storage unit 150.

On the other hand, the configuration and location of the sensor 110, the blind 120, the drive unit 130, the control unit 140 and the power storage unit 150 disclosed in Figs. 2 and 3 is only one embodiment, It should be noted that various changes may be made based on design intention and technical problems of those skilled in the art.

For example, in FIG. 2, the power storage unit 150 is represented as being configured at a lower side of the blind unit 120, but this is only one embodiment, and in some cases, may be configured at an upper side of the blind unit 120. Of course.

For example, in the case of the detection sensor unit 110, as shown in FIGS. 2 and 3, the sensor unit 110 may be configured at a position such as a lower portion or a side portion, rather than an upper portion of the blind portion 120.

Although the present invention has been described above with reference to the illustrated drawings, the present invention is not limited to the embodiments and drawings described herein, and is applied by those skilled in the art through various combinations within the scope of the technical idea of the present invention. This is possible.

100: blind window system
110: detection sensor
120: blind part
124: solar slat
130: drive unit
140: control unit
150: power storage

Claims (4)

In the blind built-in window system capable of solar power generation,
A blind unit installed inside the double window consisting of an outer window and an inner window, the blind unit including at least one solar slat capable of receiving sunlight to produce electric power;
A driving unit controlling vertical movement and angle of the solar slats included in the blind unit;
Control unit for controlling the operation of the drive unit
Photovoltaic blinds built-in windows and doors system comprising a.
The method of claim 1,
The photovoltaic blinds and built-in window system, characterized in that the solar slats each slat itself consists of only a solar cell.
The method of claim 1,
Further comprising a detection sensor unit for measuring the amount of illumination and the sun's altitude,
The control unit receives a signal including the illumination intensity information or the sun altitude information from the detection sensor unit, and automatically controls the opening and closing of the blind portion in accordance with the received illumination amount information, or to the received altitude information of the sun Correspondingly, a window system with a built-in blind for solar power generation, characterized in that the angle of the solar cell slat is automatically controlled to maximize the power produced by the solar cell slat.
The method of claim 1,
And a power storage unit configured to receive and charge power generated by the solar slat included in the blind unit.

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