ES1201135U - Window-type device - Google Patents

Abstract

The invention relates to self-contained electrically-heated windows and to window frames having heating devices intended especially for transparent or reflective surfaces (for instance window panes), and specifically to self-contained window-type heating devices. The technical result consists in the self-contained heating of a window and is achieved via a window-type device including a frame with an insulated glass unit, containing an inner pane of the insulated glass unit, which is capable of generating heat from electrical energy fed thereto, wherein an outer pane of the insulated glass unit is capable of generating electrical energy from light incident on same, and is connected to the inner pane of the insulated glass unit which is capable of generating heat from electrical energy fed thereto.

Description

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DESCRIPTION

Multiple glass panel system that can be heated, window mounted Technical field of utility model

The claimed utility model refers to window assemblies that can be heated independently and to window frames equipped with heating element, in which the window heating elements are specially designed for operation with transparent and reflective surfaces (for example , window glass surface), more particularly to independent heating devices that can be mounted on windows.

Prior art

The prior art knows a window mounted glass panel system (
http://www.domstoy.ru/publ/stroitelstvo/okna_i_aksessuary/samye_teplye_okna_s_podogre vom / 27-1-0-693, published on 02/17/2014) comprising a window profile with a multiple glass unit, in the that each glass within the multiple glass unit is coated with a conductive layer obtained by ultra-thin spraying of metal particles to be used to supply electrical energy (within said window profile) to energize heating means that heat the glass. As a result, there is finally an equalization of the temperature inside the multiple glass unit and the temperature in the room so that the windows no longer "cool" the room. The disadvantage of the solution similar to the one referred to previously known from the prior art is that it has to be connected to the community power line that energizes the entire building, which results in a greater consumption of electrical energy and lower reliability of the continuous heating system in case of emergency power outage.

The prior art also knows a window-mounted glass panel system (RU 2 021 457 C1, 10/15/1994) comprising transparent glasses mounted to define a gap between them by means of a separating frame and form a layer of thermal insulation, said glasses being held by an articulated window frame that provides its 180 ° pivoted movement, in which said thermal insulation layer has a flat photovoltaic assembly coupled to one of the glasses, also having said

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thermal insulation layer a low emission coating applied on its surface on the side of a space that remains between said glasses, in which said photovoltaic assembly of the thermal insulated layer is connected to a flat heating resistance. The disadvantage of said similar technical solution known from the prior art is that the structure of the photovoltaic assembly carrying the low emission coating shows a low efficiency, thus not allowing the window to be heated independently independently in an efficient manner.

Disclosure of the utility model

The technical effect of the utility model is to perform an independent heating of the window by means of generating the electric energy provided by sunlight due to the operation of a multiple glass panel system that can be heated, window mounted, of the claimed structure , which comprises a window frame with a multiple glass unit, the system including an external glass of the multiple glass unit, which is arranged so that it can generate electrical energy when illuminated by light that falls on it and is connected to an internal glass of the multiple glass unit, which is arranged so that it can generate heat using electrical power supplied to it, in which the external glass of the multiple glass unit is arranged to house at least one transparent photovoltaic module and an inverter to convert light into electric current, and the transparent photovoltaic module is configured to comprise a b It is made of glass with two layers of film applied on it, one layer of film consisting of amorphous silicon film and another layer of film consisting of microtransparent silicon film.

According to the claimed utility model, the internal glass heat is generated by an entire internal glass surface.

According to the claimed utility model, the window frame is made of wood, or aluminum, or polyvinyl chloride, or plastic reinforced with fiberglass, or steel.

According to the claimed utility model, the window frame further comprises a controller additionally connected to the external glass and the internal glass of the multiple glass unit.

According to the claimed utility model, a rechargeable battery connected to the controller

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It is additionally embedded in the window frame with the multiple glass unit.

According to the claimed utility model, a temperature sensor is additionally connected to the controller.

gr

According to the claimed utility model, the internal glass of the multiple glass unit is comprised of high strength tempered glass with an electrically conductive coating applied thereon.

Brief description of the drawing figures

The basis of the claimed utility model is illustrated in Figure 1 which shows the sectional view from the left of a multiple glass panel system that can be heated, window mounted, according to the preferred embodiment of the claimed utility model.

Realizations of the utility model

Figure 1 shows a multiple glass panel system that can be heated, window mounted, comprising a window frame 1 with a multiple glass unit, the system including an internal glass 2 of the multiple glass unit, said glass being internally arranged so that it can generate heat using electrical energy supplied to it, and an external glass 3 of the multiple glass unit is arranged so that it can generate electrical energy when illuminated by light that falls on it and is connected to the internal glass 2 of the multiple glass unit that is arranged so that it can generate heat using electrical power supplied to it.

According to a particular embodiment of the utility model, a window frame houses a controller 4 that is additionally connected to the external glass 3 of the multiple glass unit or to an inverter contained in the external glass 3 of the multiple glass unit and the internal glass 2 of the multiple glass unit, and in which a rechargeable battery 5 and a temperature sensor 6 are also connected to said controller.

It should also be mentioned that said internal glass 2 of the multiple glass unit can be manufactured using ThermoGlass technology that allows to manufacture high tempered glass

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resistance with an electrically conductive coating applied on it to receive electricity supplied to it by means of cables.

Furthermore, according to a particular preferred embodiment of the claimed utility model, said external glass of the multiple glass unit is arranged to house at least one transparent photovoltaic module that can be manufactured using Bekar technology known from the prior art (such technology is useful in the field of both civil engineering and industrial engineering for the construction of modern structures and buildings, glazing of interior gardens and building facades, for the manufacture of windows, fences, components of parking spaces, advertising panels, sheds and in many other advanced architectural projects) and that it is connected to the inverter to convert light into electrical energy, while the inverter itself can be connected, for example, to the controller of the multiple glass panel system that can be heated, mounted on a window. In addition, said transparent photovoltaic module is configured to be composed of a glass base with two layers of film applied thereon, a layer of film consisting of amorphous silicon film to convert the visible part of the solar spectrum into electrical energy, and being another layer of film composed of microtransparent silicon film to convert solar energy from the invisible infrared spectrum. Therefore, the claimed structure of the system allows to generate much more electricity compared to similar solutions known from the prior art and, consequently, to heat the internal glass of the multiple glass unit more efficiently, and to accumulate more electrical energy in the rechargeable battery, thereby contributing more to the duration of the heating.

In the preferred embodiment, the claimed system works as follows.

Sunlight strikes the external glass 3 of the multiple glass unit, which is converted into electrical energy to allow the controller 4 with the temperature sensor 6 to provide heating of the internal glass 2 of the multiple glass unit up to certain desired temperature, while the excess electrical energy is used to charge the rechargeable battery 5 throughout the entire daylight hours to allow said rechargeable battery to continue to operate subsequently in autonomous mode for a certain time to supply electrical energy for the heating of the internal glass 2 of the multiple glass unit.

Claims (5)

10 fifteen 2. 20 3. Four. 25 5. 30 6. 35 7. Multiple glass panel system that can be heated, window mounted, comprising a window frame with a multiple glass unit, the system including an external glass of the multiple glass unit, which is arranged so that it can generate electrical energy when it is illuminated by light that falls on it and is connected to an internal glass of the multiple glass unit, which is arranged so that it can generate heat using electrical energy supplied to it, characterized in that the external glass of the unit of Multiple glass is arranged to house at least one transparent photovoltaic module and an inverter to convert light into electric current, in which the transparent photovoltaic module is configured to comprise a glass base with two film layers applied thereon, one layer being of film composed of amorphous silicon film and being another layer of film composed of microtransparen silicon film tea. System according to claim 1, characterized in that the internal glass heat is generated by an entire internal glass surface. System according to claim 1, characterized in that the window frame is composed of wood, or aluminum, or polyvinyl chloride, or plastic reinforced with fiberglass, or steel. System according to claim 1, characterized in that the window frame further comprises a controller additionally connected to the external glass and the internal glass of the multiple glass unit. System according to claim 4, characterized in that a rechargeable battery connected to the controller is additionally embedded in the window frame with the multiple glass unit. System according to claim 4, characterized in that a temperature sensor is additionally connected to the controller. System according to claim 1, characterized in that the internal glass of the multiple glass unit is composed of high strength tempered glass with an electrically conductive coating applied thereon.