RU154157U1 - WINDOW TYPE DEVICE - Google Patents

Abstract

1. The device is a window type, including a frame with a double-glazed window, containing the outer glass of the double-glazed window, made with the possibility of generating electric energy from light falling on it, connected to the inner glass of the double-glazed window, made with the possibility of generating heat from the incoming electric energy, characterized in that the external glass of a double-glazed window is made in the form of at least one transparent photoelectric module and an inverter for converting light into electric current, wherein the transparent photoelectric The module is made of a glass base, on top of which two layers of films are deposited: one film is made of amorphous silicon, and the second is a micro-transparent silicon film. 2. The device according to claim 1, characterized in that the heat generation by the inner glass is made over its entire surface. The device according to claim 1, characterized in that the frame is made of wood, or aluminum, or polyvinyl chloride, or fiberglass, or steel. 4. The device according to claim 1, characterized in that the frame further comprises a controller, additionally connected to the outer glass of the glass packet and the inner glass of the glass packet. The device according to claim 4, characterized in that an additional battery connected to the controller is integrated in the frame with a double-glazed window. The device according to claim 4, characterized in that the temperature sensor is additionally connected to the controller. The device according to claim 1, characterized in that the inner glass of the double-glazed window is made of high-strength tempered glass, on top of which a conductive coating is applied.

Description

Window type device

The technical field to which the utility model relates.

The utility model relates to self-contained windows with electric heating and window frames with heating devices specially designed for transparent or reflective surfaces (for example, window panes), namely, to autonomous window-type heating devices.

State of the art

A window type device is known (http: //www.domstoy.ru/publ/stroitelstvo/okna_i_aksessuary/samye_teplye_okna_s_podogrevom/27-1-0-693, publ. 02.17.2014), containing a profile with a double-glazed window, each glass inside a double-glazed window It is covered with the finest dusting of metal particles, to which power is supplied (inside the profile), heating the glass. As a result, the temperature inside the double-glazed window and the temperature in the room are equalized: and the windows cease to “chill” the room. The disadvantage of this analogue is the need to connect to the general electrical network of the house, which affects the increased power consumption and low reliability of uninterrupted heating in the event of an emergency blackout.

A device of the window type is known (RU 2021457 C1, 10.15.1994) containing transparent glasses installed with a gap relative to each other by means of a spacer frame with the formation of a heat-insulating layer and fixed to the sash, allowing them to rotate 180 °, and it is equipped with mounted on one of the glasses a flat photovoltaic unit with an inter-glass 2 applied to its surface

the space with a low-emission coating, and the photovoltaic unit itself is connected to a flat heating resistance. The disadvantage of this analogue is the low efficiency of the design of the photovoltaic unit with a low emission coating, which does not allow to efficiently autonomously heat the window.

Utility Model Disclosure

The technical result consists in the autonomous heating of the window, due to the production of electric energy from sunlight by the claimed design of a window-type device comprising a frame with a double-glazed window, comprising an outer glass of a double-glazed window made with the possibility of generating electric energy from light incident on it, connected to the inner glass of a double-glazed window, made with the possibility of generating heat from incoming electrical energy, while the outer glass of the glass is made in the form of at least one a transparent photoelectric module and an inverter for converting light to electric current, and a transparent photoelectric module is made of a glass base on top of which two layers of films are deposited, one film made of amorphous silicon and the other a micro-transparent silicon film.

According to a utility model, heat generation by the inner glass is performed over its entire surface.

According to a utility model, the frame is made of wood, or aluminum, or polyvinyl chloride, or fiberglass, or steel.

According to a utility model, the frame further comprises a controller additionally connected to the outer glass of the glass packet and the inner glass of the glass packet.

According to a utility model, an additional battery is connected to the controller in a frame with a double-glazed window.

3

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

According to a utility model, the inner glass of a double-glazed window is made of high-strength tempered glass, on top of which a conductive coating is applied.

Brief Description of the Drawings

The essence of the utility model is illustrated in FIG. 1, which shows a window type device in a sectional view of the left in a preferred embodiment of the claimed utility model.

Utility Model Implementation

In FIG. 1 shows a window-type device that includes a frame 1 with a double-glazed window, containing an inner glass 2 of a double-glazed window, configured to generate heat from incoming electrical energy, and an outer glass 3 of a double-glazed window, configured to generate electric energy from light incident on it, and connected to the inner glass 2 double-glazed windows, made with the possibility of generating heat from incoming electrical energy.

In a particular embodiment, the frame further comprises a controller 4 connected to the external glass 3 of the double-glazed window or to the inverter of the external glass 3 of the double-glazed window and the internal glass 2 of the double-glazed window, to which the battery 5 and the temperature sensor 6 are connected.

It should be noted that the inner glass 2 of the double-glazed window can be made according to the ThermoGlass technology, from high-strength tempered glass, on top of which a conductive coating is applied, on which electricity is supplied through wires.

In addition, in a preferred particular embodiment of the claimed utility model, the outer glass of the double-glazed window is made in the form of 4

at least one transparent photovoltaic module, which can be made using the well-known Bekar technology (which is used in civil and industrial construction of modern buildings and structures for glazing winter gardens, building facades, in the manufacture of windows, railings, parking lots, billboards, awnings and many other architectural projects) connected to the inverter to convert light into electric current, and the inverter itself, for example, can be connected to the controller of a window-type device. Moreover, the transparent photovoltaic module is made of a glass base on top of which two layers of films are deposited, one amorphous silicon film that converts the visible part of the solar spectrum into electrical energy, and the second micro-transparent silicon film converts the sun energy of the invisible infrared spectrum, thus, the claimed design generates significantly more electricity, unlike analogs, and therefore it will be even more efficient to heat the inner glass of the double-glazed window and significant but accumulate more electric energy in the battery, which will affect the duration of heating.

The device operates in the preferred embodiment as follows.

Sunlight enters the outer glass 3 of the double-glazed window, which is converted into electrical energy, with the help of which the controller 4 with a temperature sensor 6 heats the inner glass 2 of the double-glazed window to a certain set temperature, while the excess electric energy recharges the battery 5 throughout the daylight hours, and after the battery for some time continues with its own resources to heat the inner glass 2 of the double-glazed window.

Claims (7)

1. The device is a window type, including a frame with a double-glazed window, containing the outer glass of the double-glazed window, made with the possibility of generating electric energy from light falling on it, connected to the inner glass of the double-glazed window, made with the possibility of generating heat from the incoming electric energy, characterized in that the external glass of a double-glazed window is made in the form of at least one transparent photoelectric module and an inverter for converting light into electric current, wherein the transparent photoelectric The module is made of a glass base, on top of which two layers of films are deposited: one film is made of amorphous silicon, and the second is a micro-transparent silicon film. 2. The device according to claim 1, characterized in that the heat generation by the inner glass is made over its entire surface. 3. The device according to claim 1, characterized in that the frame is made of wood, or aluminum, or polyvinyl chloride, or fiberglass, or steel. 4. The device according to p. 1, characterized in that the frame additionally connected to the outer glass of the double-glazed window and the inner glass of the double-glazed window controller. 5. The device according to claim 4, characterized in that an additional battery connected to the controller is built-in to the frame with a double-glazed window. 6. The device according to claim 4, characterized in that the temperature sensor is additionally connected to the controller. 7. The device according to claim 1, characterized in that the inner glass of the double-glazed window is made of high-strength tempered glass, on top of which a conductive coating is applied.

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