RU112253U1 - WINDOW BLOCK - Google Patents

Abstract

1. Window block assembled from one or more sections, each of which is a frame in which at least two light-transmitting layers of glass are fixed, in at least one of the sections one light-transmitting layer is made of transparent window glass, and another light-transmitting layer is made of glass, transparent only for visible light and capable of absorbing ultraviolet radiation (UV) and infrared radiation (IR), wherein at least one section having a light-transmitting layer absorbing UV and IR is rotatable relative to the vertical and / or horizontal. ! 2. The window unit of claim 1, wherein the at least one light transmission layer is coated with a dielectric layer.

Description

The utility model relates to the field of construction, in particular to movable elements for closing openings in buildings, vehicles, fences, and represents a window unit containing a window frame with several layers of glass, including a protective one against infrared light (IR) and ultraviolet light (UV) glass.

Among the main tasks of equipping construction sites with modern windows is the task of ensuring the maintenance of the necessary thermal conditions in the room, depending on climatic and weather conditions outside the premises and the possibility of regulating the thermal conditions in the room.

To regulate the light transmission in window systems, various methods are used for the manufacture of light transmission layers, which must be capable of absorbing ultraviolet (UV) and infrared (IR) radiation in the required range. The most common methods are the use of protective coatings applied to a layer of glass, or the use of special colored glasses.

The basic principles of operation of existing devices for controlling illumination by changing their light transmission include a change in transmission due to an increase or decrease in scattering, reflection or absorption of light.

The prior art designs of window blocks with a different approach to solving the problem of controlling the temperature in the room.

In the RF patent No. 2301875, published on June 27, 2007 according to the MPK index Е06В 9/24, a window block is declared, which makes it possible to maintain the necessary thermal conditions in the room depending on climatic and weather conditions outside the premises and the possibility of smooth regulation of the thermal conditions in the room due to located in the inter-frame space of the window unit, the curtains are made of transparent material, on which there is a transverse strip with a heat-reflecting coating and a transverse strip with a heat-absorbing coating. The strips are separated from one another on two sides by sections of transparent curtain material. The movement of the curtain is regulated by two pairs of rollers, providing the location of the heat-absorbing and heat-reflecting strips in the right direction, depending on weather conditions.

This device uses additional structural elements in the interframe space, which complicates the design of the window unit as a whole.

In the application of the Russian Federation No. 2008126719, published on January 10, 2010 according to the IPC index B32B 17/06 (national phase of PCT application WO 2007/064450, published on June 7, 2007), a window block with insulating glass and a method for its manufacture are claimed. The window unit comprises a first glass substrate bearing a multilayer coating for regulating solar energy, a second glass substrate. One of the substrates has a multilayer coating for regulating solar energy and a protective coating against ultraviolet radiation, a protective coating against infrared radiation, including silver, as well as a coating of a dielectric layer. In various embodiments, the provision is set forth that the protective coating against ultraviolet radiation blocks from 50% to 95% UV from 300 to 380 nm.

This technical solution proposes the creation of a multilayer coating, which involves a complex process using various materials for the manufacture of a window unit device.

In the application of the Russian Federation No. 2009110039, published on September 27, 2010 according to the IPC index C03C 3/087 (national phase of PCT application WO 2007/065312, published on March 28, 2007), blue glass is poorly absorbing solar radiation, blue glass with a coating reflecting solar radiation , and insulating glass with low heat from solar radiation. Here, glass substrates are proposed comprising a glass composition representing a part of a glass base and a part of a dye selected in a specific composition and amount to provide radiation transmission in the visible region of the spectrum in the range from 40 to 80%. The coated glass article is a glass substrate and a coating applied to a large part of the surface of the substrate. The coating may be reflective infrared radiation, contains a silver film and several dielectric films.

This technical solution proposes options for regulating light transmission using tinted glass using coatings, which provides for a rather sophisticated manufacturing technology for a window unit.

RF patent No. 65934, published on 08.27.2007 on the IPC indices Е06В 5/10 and В32В 17/08, describes a utility model “Protective glass package” that contains a set of glasses assembled in a window and / or balcony block, where the inner surface of the outer glass is covered with a transparent a protective film that provides a change in the polarization of infrared radiation from linear to circular.

In RF patent No. 2353745, published on 04/27/2009 under the IPC index Е06В 1/36, a window system for upper floors is claimed, which comprises a main frame having a thickness corresponding to the wall thickness and fixed in the window opening, and at least one dividing a frame connected to the main frame in the vertical and / or horizontal direction for dividing the window space formed in the main frame into several window spaces and offset inward from the front outer surface of the main frame.

This design is aimed at increasing wind resistance, water resistance, preventing corrosion and ensuring a simple and safe washing of the window system. One aspect of the design is the ability to install an openable window by tilting and / or rotating.

In the application of the Russian Federation No. 94040708, published on July 20, 1996, using the MPK index Е06В 3/10 with the name “Frameless insulating glazing and a method for its manufacture”, an insulating glass packet is described, consisting of two glasses connected to each other by a molded element formed from a cushion textile material. The package is designed, in particular, for the formation of a frameless window sash. One of the options for the implementation of the glass element is the type of rotating sash, fixed in the sash frame, for which it must be equipped with furniture elements inserted into the edges of the base. The application also sets forth the idea of supplying glazing with glass that absorbs the long-wavelength component of solar radiation by means of a coating that reduces heat radiation, it is assumed that the absorption glass can rotate 180 °.

The technical solution set forth in the application of the Russian Federation No. 94040708, can be taken as a prototype of the proposed utility model.

The objective of the new utility model is to create a modern design of the window unit that provides heat control in the room using a simple and easy-to-use device.

The technical result is achieved through the use of a special energy-saving glass capable of absorbing UV and IR radiation in the required range, as well as the special design of the window unit with the organization in it as a whole or in part of the ability to rotate 180 ° vertically and / or horizontally.

The problem is solved in a window unit assembled from one or more sections, each of which is a frame in which at least two light-transmitting layers of glasses are fixed, at least one of the sections has one outer light-transmitting layer (transparent layer) made of transparent window glass, and the other outer light-transmitting layer (absorbing layer) is made of glass, transparent only to visible light and capable of absorbing ultraviolet (UV) radiation into and infrared (IR) radiation (absorbing glass), wherein at least one section having a light transmitting layer absorbing UV and IR is rotatable relative to the vertical and / or horizontal.

The inventive design of the window unit can be made in the form of a single section, which is a frame in which two light transmitting layers of glass are fixed. One layer is made of transparent window glass that transmits full-spectrum sunlight. Another light transmitting layer is made of glass capable of absorbing UV radiation and IR radiation. To regulate the heat inside the protected room, the window unit from one section can be rotated vertically or horizontally, for which the necessary elements are installed in the frame, as a rule, in the central part of each side, with which the frame is also fixed in the window opening.

Such a window unit device allows you to install it in different positions relative to the room and the external environment, depending on climatic conditions. So, in the warm season (or days), when it is necessary to reduce the excess heat, the window unit is turned with a transparent layer of glass to the inside of the room, and the layer of absorbing glass is turned to the external environment. Thus, the desired temperature is maintained indoors. Conversely, in the cold season (or day), the position of the light-transmitting layers is changed by turning the absorbing layer inside the room to keep the heat indoors.

It is possible to smoothly control the absorption of light by changing the angle of inclination of the entire window unit when moving vertically, the angle of rotation horizontally.

It is possible to manufacture a multi-section window unit in which one or more sections can be made with an absorbing layer and which can be installed in the required position.

In the window unit, it is advisable that at least one light transmission layer on the inside of the frame has a dielectric coating reflecting thermal radiation in the wavelength range of 8-12 μm.

This solution allows for the regulation of radiation heating of the room in the range from 100% to 40% of the maximum value of this heating under current weather conditions.

The transparent layer is made of any kind of ordinary window glass. The absorbing layer can be made of glass with a high content of iron, copper and other metal oxides (for example, Planibel Green-6 or Planibel Azur-6 glass). The dielectric layer can be made in the form of a coating deposited chemically.

The fasteners enabling the rotation of one or more sections of the window unit may be in the form of hardware roller elements, preferably located in the center of the horizontal bases of the section frame at the top-bottom and / or in their side parts, i.e. vertical sides of the frame.

Figure 1 shows the window unit in the form of one section, where 1 is the frame, 2 is the light transmitting layer of transparent window glass, 3 is the light transmitting layer of absorbing glass, 4 are fasteners with a turning property, of which 4-1 and 4 are 2 are located on the horizontal sides of the frame and provide vertical rotation of the section, and 4-3 and 4-4 are mounted on the vertical sides of the frame and provide horizontal rotation of the section.

Figure 2 presents a three-section window unit, in which the middle section 5 is made with two transparent light-transmitting layers, and the two extreme sections 6 and 7 are made with different light-transmitting layers and can be rotated vertically.

The proposed design of the window unit is easy to manufacture and convenient for its operation.

A specific example of the manufacture of a window unit in the form of one section with two light transmitting layers of glass:

In a glass packet from metal-plastic 1300x700 mm in size, 4 mm thick M5 glass is installed on one side, and 6 mm thick Planibel Green-6 glass on the other. Such a design in the “M5-inside” position reduces the solar radiation flux heating the room by 3.2 times, weakening the light flux in the visible region of the spectrum by only a third.

Using a window unit with the ability to regulate heat indoors is not difficult. The section containing the absorbing layer is installed in the hot season (or days) so that the absorbing layer of glass is outside and the transparent layer of glass is indoors. If necessary, change the angle of inclination during vertical rotation, or the vertical angle of rotation, which ensures the regulation of the desired room temperature.

The proposed design of the window unit, especially in the multi-sectional version, can be effectively included in the indoor air conditioning system by automatically controlling the position of the frames in the sections according to the algorithm for minimizing the load on the air conditioner.

Claims (2)

1. A window unit assembled from one or more sections, each of which is a frame in which at least two light transmission layers of glasses are fixed, at least one of the sections has one light transmission layer made of transparent window glass, and another light transmitting layer is made of glass that is transparent only to visible light and capable of absorbing ultraviolet radiation (UV) and infrared radiation (IR), with at least one section having a light transmitting layer absorbing UV and IR, configured to rotate relative to the vertical and / or horizontal. 2. The window unit according to claim 1, in which at least one light transmission layer has a coating of a dielectric layer.