KR-20260063761-A - Heated window powered by solar panels built into double-glazed inner blinds

Abstract

The present invention relates to a heating window driven by power from a solar blind installed inside a double-glazed window, wherein a blind is configured to block sunlight or prevent viewing from the outside, and a slat-shaped solar panel is used as the blind panel, or a slat-shaped solar panel is incorporated into an existing blind to electrically control the blind through power generated from the solar panel, and a surface heating glass is used as the indoor window of the window frame system, or a heat-generating color-changing film is attached to the glass window, and solar radiation and conduction are controlled by supplying power generated from the solar panel to the surface heating glass or the heat-generating color-changing film, thereby providing an energy-saving window for zero-energy housing. The present invention comprises a window frame system (200) configured with a frame to which a glass window is fixed, the glass window consisting of an inner glass (310) composed of surface heating glass and an outer glass (320), which is composed of double glass having a predetermined space of space; The present invention provides a heating window driven by solar blind power provided inside a double glass, characterized by comprising: a slat-shaped solar panel (500) configured to be formed inside the above glass window and including a driving motor (410) to block sunlight or prevent looking in from the outside, and a blind that receives sunlight and converts it into electricity; and a charging and control panel (100) that charges power produced from the above solar panel (500) and supplies power to one or more of the inner glass (310) and outer glass (320) configured with surface heating glass according to the season and time stored in the power and memory for controlling the slat-shaped solar panel (500) that forms the blind, thereby providing an energy-saving window for achieving zero energy in a house.

Inventors

• 노창진

Assignees

• 주식회사 케스코

Dates

Publication Date

20260507

Application Date

20241031

Claims (9)

1. A window frame system (200) configured with a frame to which a glass window is fixed, the glass window being composed of an inner glass (310) and an outer glass (320) composed of a surface heating glass and having a predetermined space between the double glass panels. A slat-shaped solar panel (500) configured to be formed inside the above glass window and including a driving motor (410), and configured to block sunlight or prevent looking in from the outside, and receiving sunlight and converting it into electric current; and A heating window driven by solar blind power provided inside double glass, characterized by comprising: a charging and control panel (100) that charges power produced from the solar panel (500) and controls the slat-shaped solar panel (500) constituting the blind, and supplies power to one or more of the inner glass (310) and outer glass (320) composed of the surface heating glass according to the season and time stored in the power and memory to provide an energy-saving window for zero energy housing.
2. A window frame system (200) comprising a frame to which an inner glass (310) and an outer glass (320) forming a double glass having a predetermined space interval are fixed; A blind (400) configured to include a plurality of slats that serve as a sunshade and a drive motor (410), and positioned between double glass composed of an inner glass (310) and an outer glass (320); A solar panel (500) formed on each of the upper surfaces of a plurality of slats configured in the above blind (400) and receiving sunlight and converting it into electric current; When power is supplied to a coated special film having a certain resistance value, it generates resistance (heat), and a heating film (600) attached to the inner side of the building of the inner glass (310); and A heating window driven by solar blind power provided inside double glass, characterized by comprising: a charging and control panel (100) that charges power produced from the solar panel (500), supplies power to control the blind (400), and supplies power to heat the heating film (600) according to the season and time stored in memory, thereby providing an energy-saving window for zero energy housing.
3. In paragraph 1 or 2, A heating window driven by solar blind power provided inside a double glass, characterized in that the frame configured to fix the inner glass (310) and the outer glass (320) configured in the above window frame system (200) is configured with a ventilation means (700) that allows moisture that may occur in the space between the inner glass (310) and the outer glass (320) to be removed by natural discharge.
4. In paragraph 3, A heating window driven by solar blind power provided inside double glass, characterized in that the above ventilation means (700) is configured as a hole-shaped ventilation opening that is removed by natural discharge or configured as a check valve.
5. In paragraph 1 or 2, A heating window driven by solar blind power provided inside double glass, characterized by further comprising a control button unit (800) comprising a blind operation button (810) that controls the driving motor (410) for controlling the slats of the blind (400) to adjust the angle of the blind (400) or to lift or unfold the blind (4000), and a charging on/off button (820) that controls the charging on/off of the battery configured in the charging and control panel (100).
6. In paragraph 5, The above control button unit (800) is, A heating window driven by solar blind power provided inside a double glass, characterized by being configured on one side surface of the above-mentioned window frame system (200) or on the outer surface of the above-mentioned charging and control panel (100).
7. In paragraph 1 or 2, A heating window driven by solar blind power provided inside double glass, characterized in that the above-mentioned drive motor (410) is configured in the inner space of the frame of the above-mentioned window frame system (200).
8. In paragraph 1 or 2, The heating window driven by solar blind power provided inside the above-mentioned double glass is, A heating window driven by solar blind power provided inside double glass, characterized by further comprising a charging on/off button that controls the driving motor (410) and controls the charging on/off of the battery through the charging and control panel (100), and a remote control (900) that generates a control signal of the on/off button as a wireless signal to the charging and control panel (100).
9. In paragraph 1 or 2, A heating window driven by solar blind power provided inside double glass, characterized in that the charging and control panel (100) is configured on the ceiling wall of a home or office or on the side wall of the window frame system (200).

Description

Heated window powered by solar panels built into double-glazed inner blinds The present invention relates to a heating window driven by power from solar slats provided in a solar blind installed inside double-glazed windows. More specifically, the invention relates to a heating window driven by power from a solar blind installed inside double-glazed windows, which can provide an energy-saving window for zero-energy housing by controlling solar radiation and conduction through power generated from a solar panel, wherein a blind is configured inside a window composed of double-glazed windows to block sunlight or prevent viewing from the outside, and a slat-shaped solar panel is used as the blind panel or a slat-shaped solar panel is integrated into an existing blind to electrically control the blind. Additionally, a surface heating glass is used as the interior window of a window frame system, or a heat-generating photochromic film is attached to the glass, and power generated from a solar panel is supplied to the surface heating glass or the heat-generating photochromic film to regulate solar radiation and conduction. Due to the improvement of awareness regarding the built environment and cultural standards, the demand for qualitative improvement in architectural spaces is on the rise day by day. Reflecting this demand, improvements to the structures provided within buildings are being continuously researched and developed. In particular, due to recent advancements in telecommunications and IT, the development of structures that provide not only their inherent functions but also various additional functions is actively underway. In the case of windows among the structures of the aforementioned building, they play a very important role in functions such as the influx of natural light into the interior, indoor temperature regulation, and ventilation through the exchange of outside and indoor air. However, in the case of windows provided in conventional buildings, users experience discomfort after directly feeling the temperature, lighting, and air quality while living indoors, and end up operating them manually. Consequently, users feel discomfort even for a short period of time, and there is also the problem of requiring effort to operate the windows. Furthermore, such conventional windows often have poor thermal insulation, requiring the separate operation of heating and cooling units to maintain the indoor temperature. Additionally, since products with relatively superior insulation are very expensive, there is a problem in that they pose a significant financial burden for users to install and use. Meanwhile, interest in the development of eco-friendly renewable energy sources such as wind, tidal, and solar power has recently been growing rapidly, leading to rapid market expansion driven by technological development, product supply, and demand. In particular, it is becoming increasingly common for individuals to install solar power generation equipment or panels on apartment or building balconies with government subsidies. Furthermore, efforts are being made to replace a portion of a building's energy consumption with eco-friendly renewable energy by installing solar panels on exterior walls or windows during construction. However, the widespread adoption of solar panel installation has been hampered by the fact that existing eco-friendly renewable energy equipment could only be installed by experts, and individuals had to bear separate installation costs of hundreds of thousands of won even with government subsidies. In this regard, numerous ultra-simple products that can be installed directly by an individual without the assistance of a professional have been proposed. Application No. 10-2018-0093351 proposes a solar-powered LED lighting device for a pole, comprising: an external case provided to protect a solar module configured to convert solar energy into electrical energy to cause an LED to emit light, while transmitting the light emitted from the LED; a solar panel unit linked to the solar module; a control unit configured to control the electrical energy converted from the solar module to cause the LED to emit light; and a coupling unit provided at the bottom of the external case to be fixed to the top of the pole. The external case is configured to transmit light emitted from the LED and is equipped with a first stage to which the solar panel is attached, and the LED is configured to emit light downwards. However, in the case of the aforementioned product, its applicability was limited in that its solar energy collection capacity could only replace the power source for small electronic devices. Therefore, a method to solve these problems is required. FIG. 1 is a drawing for explaining an embodiment of a heating window driven by solar blind power provided inside double glass according to the present invention. FIG. 2 is an exploded perspective view showing an embodiment of a heating window driven by