RU154163U1 - MULTIFUNCTIONAL ENERGY EFFICIENT STAGE - Google Patents

Abstract

1. A multifunctional energy-efficient shutter designed to close windows or doorways or other type of openings, installed with the ability to move the shutter between the position when the opening is open and the position when the opening is closed, by means of an electric drive, characterized in that the sun is fixed on the outside of the shutter battery 2. The multifunctional energy-efficient shutter according to claim 1, characterized in that the shutter is made in the form of a frame with at least three heat-reflecting screens fixed to it, while the external heat-reflecting screens are made of aluminum sheet with a thickness of at least 200 μm, the internal heat-reflecting screens are made of aluminum foil with a thickness of 7 -15 μm, the distance between the heat-reflecting screens is 5-10 mm, and a sealing cord is fixed along the perimeter of the frame from the side of the closed opening.

Description

MULTIFUNCTIONAL ENERGY EFFICIENT STAGE

The utility model relates to the field of construction, namely to the designs of fencing openings.

Automatic shutters are known - a type of blinds, (http://ru.wikipedia.org/wiki), made in the form of a roll, two guides and sliding plates on them, usually made of metal. Automatic shutters are installed in window, door and garage openings and are designed to protect the premises from breaking, adverse weather conditions, noise, dust, light and prying eyes. The roller shutter drive can be either manual or electric. The electric drive, in turn, can be controlled by either a conventional key switch or a remote control.

The disadvantage of these roller shutters is the low level of thermal protection and large heat losses through windows or doorways or other types of openings.

Solar batteries are known (Wikipedia. Free encyclopedia, http://ru.wikipedia.org/wiki/), which are several integrated photoelectric converters (photocells) - semiconductor devices that directly convert solar energy into direct current.

The disadvantages of these solar panels are that they have a low light transmittance, and their use is limited in light openings.

It is well known that window shutters are installed on window frames from their outer (outer) side outdoors, in the form of panels of wood or other material that partially or completely cover the window. There are wing shutters, hinged, or removable, or retractable, automatic shutters are also known. In cold regions, continuous shutters are common, which close to protect the window panes from damage, as well as to reduce heat loss through the windows in cold weather. Such shutters do not let in sunlight. (Wikipedia. Free encyclopedia, http://ru.wikipedia.org/wiki/, http://www.ForumHouse.ru/threads/178439, http://www.sgsotomasyon.com/ com / urunlerimiz / otomatik-kepenk-sistemleri-ru.html).

The disadvantages of these shutter data are that the issue of heat conservation, and in particular the reduction of the radiant component of heat loss, has not been resolved.

The technical result consists in expanding the functionality by providing the generation of electric energy necessary for the autonomous operation of the device itself (electric drive and automation) and power receivers inside the building, as well as supply to the external electrical network, while maintaining thermal protection and reducing heat losses of the building through windows or doors openings or openings of a different type.

The technical result is achieved by the fact that a multifunctional energy-efficient shutter designed to close windows or doorways or other type of openings, installed with the ability to move the shutter between the position when the opening is open and the position when the opening is closed, by means of an electric drive, is made in the form of a frame with fixed in it at least three heat-reflecting

screens, while the external heat-reflecting screens are made of aluminum sheet with a thickness of at least 200 μm, the internal heat-reflecting screens are made of aluminum foil 7-15 μm thick, the distance between the heat-reflecting screens is 5-10 mm, and a sealing cord is fixed along the perimeter of the frame from the side of the closed opening moreover, on the external heat-reflecting screen from the outside is mounted a solar battery.

In FIG. 1 shows a multi-functional energy-efficient shutter.

A multifunctional energy-efficient shutter comprises a frame 1 made, for example, of plastic material, and heat-reflecting screens 2 made, for example, of aluminum foil. The distance between adjacent heat-reflecting screens 2 can be from 5 to 10 mm. The external heat-reflecting screens 2 are made of aluminum sheet with a thickness of at least 200 microns, to ensure the reliability of the design and the integrity of the screens, the internal heat-reflecting screens are made of aluminum foil 7-15 microns thick. On the outside, the shutter is equipped with a solar battery 3, consisting, for example, of thin-film photocells, which is connected to the controller (or to the modular center). A sealing cord 4 is fixed around the perimeter of the frame 1 from the side of the opening to be closed. The outer shutter is installed so that, in the position when the opening is closed, it tightly adjoins the outer surface of the building wall and ensures that convection is excluded. Automatic (by electric drive) control is provided, which saves time for moving shutters with a large number of windows, for example, in production rooms.

Tests of the inventive shutters consisting of a frame with four reflective screens installed through clearances equal to 5 mm were carried out: two outer screens are made of aluminum sheet with a thickness of 200 microns, internal ones are made of aluminum foil with a thickness of 10 microns, the outside of the shutter is equipped with a solar battery made of thin-film photocells . The tests performed showed a 3.5-fold decrease in heat loss.

In addition to reducing heat loss through the window opening, when used, the conditions for heating (raising the temperature) of the window are created. For example, at an outdoor temperature of -16.5 ° C and an internal air of 20 ° C, the temperature of the outer glass reaches + 8 ° C while without using the inventive shutters, the outer glass has a temperature of -7.5 ° C. This creates favorable working conditions and increases the life of the window unit.

Using the inventive shutters also allows you to lower the maintained temperature of the indoor air in the “standby” mode of heating, provided that condensation does not occur on the internal glazing of the window by 3-10 ° C depending on the humidity of the air inside the room, the heat transfer resistance of the window and shutter, the temperature of the indoor and outdoor air , which leads to a decrease in heat costs for maintaining the parameters of the indoor microclimate.

Using a solar battery allows you to generate electrical energy, providing not only autonomous operation of the device, but also partially (or completely) covering the consumer’s electrical load, and also, with large volumes of generation, supplied to an external electrical network, and the efficiency of converting sunlight to electricity reaches 20 %

Thus, the use of multifunctional energy-efficient shutters expands their functionality, i.e. provides the generation of electrical energy, while maintaining thermal protection and reducing heat loss of the building through windows or doorways or openings of a different type.

Claims (2)

1. A multifunctional energy-efficient shutter designed to close windows or doorways or other type of openings, installed with the ability to move the shutter between the position when the opening is open and the position when the opening is closed, by means of an electric drive, characterized in that the sun is fixed on the outside of the shutter battery. 2. The multifunctional energy-efficient shutter according to claim 1, characterized in that the shutter is made in the form of a frame with at least three heat-reflecting screens fixed to it, while the external heat-reflecting screens are made of aluminum sheet with a thickness of at least 200 μm, the internal heat-reflecting screens are made of aluminum foil 7-15 microns thick, the distance between the heat-reflecting screens is 5-10 mm, and a sealing cord is fixed along the perimeter of the frame from the side of the closed opening.

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