RU154676U1 - GLASS PACKAGE - Google Patents

Abstract

1. A double-glazed unit containing at least two sheets of optically transparent material, with at least one of the sheets of optically transparent material being grooved at the end and spaced apart from each other to form an inner closed space between them, separated by a distance frame sealed around the perimeter with a sealant, the image glow area created on one of the sheets of the double-glazed window, light sources of one or more colors, which are placed in the grooves of at least one of the sheets op nical transparent material and connected to a power source via a control unit, characterized in that one or both optically transparent sheets of material formed simultaneously with energosberezheniya.2 elements. A double-glazed window according to claim 1, characterized in that an energy-saving film is fixed as energy-saving elements on any surface of either one or both sheets of optically transparent material. A double-glazed window according to claim 1, characterized in that, as elements of energy conservation, both one and both sheets of optically transparent material are made in the form of a triplex with a spraying on the inner surface of the sheets.

Description

The utility model relates to construction, namely to the field of translucent structures - double-glazed windows, which are used for glazing buildings and structures, as well as for front glazing of small architectural forms, the use of double-glazed windows as partitions in office buildings, in refrigerators and cabinets for cooling drinks and products food, including as a means for advertising media, where they can be used to inform the public for advertising and commercial purposes for the promotion of goods and services, incentive tion of sales and higher sales volumes.

Today, when the problem of energy conservation is becoming increasingly relevant, leading manufacturers of glass units recommend the use of energy-saving glass in glass units. It is widely believed that the most optimal is the use of double-glazed windows. In fact, the use of single-chamber double-glazed windows with energy-saving glass is more beneficial in all respects. Firstly, it is the improved thermal insulation of a single-chamber double-glazed window with some special glass compared to a double-chamber double-glazed window with ordinary glass. Secondly, such a single-chamber double-glazed window is cheaper than a two-chamber. In addition, a single-chamber double-glazed window is lighter than a two-chamber, and this means a longer service life of a double-glazed window with energy-saving means.

A useful model is known “Double-glazed window with optical fibers” (see RF patent No. 96597, 2010), containing at least two sheets of optically transparent material separated by a distance frame and sealed around the perimeter with sealant, characterized in that to one or more From these glass units, optical fibers of end or side glow are connected, which are connected to light sources, and light sources are connected to the power supply through the control unit.

The disadvantage of this utility model is the complexity of the technological process for the use of optical fibers and high energy consumption when using this double-glazed window. Working with optical fibers requires special care when introducing the beam into the input device, otherwise, as a result, the input connector may fail. In addition, despite the fact that modern optical fibers allow you to transmit a laser beam for tens of meters, it should be said about the loss of part of the beam power with increasing fiber length. The high sensitivity to mechanical damage, the small elasticity of the cable when it is monolithic do not allow the technology of optical fibers to be used to the maximum in building structures and / or their blocks, panels, frames, etc. especially when it comes to moving such structures and transporting them. And finally, the use of optical fibers in double-glazed window structures significantly affects the complexity and, as a result, the cost of such structures due to the high unit cost of fiber optic cables, as well as interacting devices. All this affects the costly part of creating a double-glazed window, and the very use of a double-glazed window is characterized by a low level of energy saving.

Known utility model "Glass" (see RF patent 74948, 2008), consisting of at least two sheets of optically transparent material separated by a distance frame and sealed around the perimeter with sealant, light sources of one or more colors connected, at least at least one of these glass unit elements, while at least one of the sheets of optical material has a luminous region, all light sources are connected to the power supply through the control unit.

The disadvantage of this utility model is the low level of economy and efficiency of the use of sheets of optically transparent material in terms of energy conservation.

The closest technical solution is the utility model “Double-glazed window with special capabilities” (see RF patent No. 140203 dated 05/27/2013), taken as a prototype and containing at least two sheets of optically transparent material, with at least at least one of the sheets of the grooves and located at a distance from each other with the formation of an inner enclosed space between them, separated by a distance frame, sealed around the perimeter with a sealant, the image glow area created on one of the sheets of the glass unit, agozaschischennye and enclosed in an insulating sheath LEDs light guide one or more colors that are housed in the slots, at least one sheet of optically transparent material and connected to the power source through the control unit.

The disadvantage of this utility model is the low level of thermal insulation of the double-glazed unit and energy-saving indicators of sheets of optically transparent material, which play a major role in the implementation of the functions of the double-glazed unit and on which the reliability of the double-glazed unit and its durability depend.

The development of a utility model is based on the task of creating a reliable design of a glass unit with improved energy saving indicators, which would improve the functionality of the glass unit and the efficiency of its use.

The problem is solved in that a double-glazed window containing at least two sheets of optically transparent material, with the execution at the end of at least one of the sheets of optically transparent material of the grooves and located at a distance from each other with the formation between them of an internal closed space separated by a distance frame, sealed around the perimeter with a sealant, the area of the image glow created on one of the sheets of the double-glazed window, moisture-proof and enclosed in an insulating light-conducting sheath LEDs of one or more colors, which are placed in the grooves of at least one of the sheets of optically transparent material, and connected to the power source through the control unit, according to the utility model, one or both sheets of optically transparent material are simultaneously made with energy-saving elements, the LEDs are made in the form of a tape and / or in the form of a separate single diode and / or in the form of one or more modules of interconnected two or more separate diodes, an internal closed space of a double-glazed window not dried air or gas, or a mixture thereof, or vacuum. According to a utility model, an energy-saving film is fixed as energy-saving elements on any surface of either one or both sheets of optically transparent material. According to the utility model, as elements of energy conservation, both one and both sheets of optically transparent material are made in the form of a triplex.

The following causal relationship exists between the set of essential features of the utility model and the technical result that is achieved: the execution of one or both sheets of an optically transparent material with energy-saving elements, namely, with an energy-saving film and / or in the form of a triplex with spraying on the inner surface sheets allows you to protect the design of the glass from overheating in the heat and overcooling in the cold due to the properties of the film and spraying, so the glass can take longer can be used in any climatically unstable environment, and also allow saving on electricity, for example, in the case of using such elements in refrigerators with a glass door - the cold produced by the refrigerator is used more efficiently and more economically due to the reduction of thermal and ultraviolet radiation (absorption coefficient up to 99%), or, when using the design of a double-glazed window as a window or a stained-glass window, the costly part of the energy carrier for heating the room or cooling is reduced, plus all The abovementioned use of films prevents sheets from mechanical damage, such as scuffing, scratching, cracking, deformation (fracture), which can worsen the condition of the sheets, which, in turn, significantly affects its functionality, which consists in a high-quality presentation of the image applied in the field of luminescence, which is informative and attractive to others, the use of LEDs in the form of a tape, and / or a single single diode, and / or one or more modules from interconnected two or more separate diodes makes it possible to more efficiently use the light that is supplied to the luminescence and combining areas, if necessary, with the color gamut when placing the LEDs at the end of the sheet, which makes it possible to optimize the use of LEDs, create several image glow areas with individual multi-colored illumination, thereby improving functionality and, finally, filling the inner confined space of the glass with dried air or gas, or a mixture thereof Or the vacuum prevents fogging inter-glass space, prevents the negative influence of solar radiation and improve the lighting characteristics depending on what space is filled, which contributes to longer operation of the glazing unit by eliminating the possibility of sudden changes in temperature inside the glass.

The utility model is illustrated by graphic material, where in FIG. 1 shows the design of the proposed double-glazed window with a view A, in FIG. 2 is a view A (side view) of the glass packet in FIG. one.

The double-glazed window (see Fig. 1) contains the first sheet of optically transparent material 1, to which a spacer frame 2 is attached, on which a second sheet of optically transparent material is placed in the form of triplex 3 with a glow region 4 made on it, grooves 5, in which the LEDs are placed 6, cable 7 for connecting the LEDs 6 to the control unit 8, cable 9 for transmitting electrical power and sealant 10. An energy-saving film 11 is fixed to the outer surface of the sheet 1 (see Fig. 2).

In a specific case, the proposed double-glazed window is made as follows: the first sheet of optically transparent material 1 with an energy-saving film 11 fixed on it is laid on a flat flat surface, on top of it a distance frame 2 is attached with an adhesive base, to the distance frame 2, symmetrically to sheet 1, the second sheet of optically transparent material in the form of a triplex 3 with a glow region 4 and grooves 5 is glued tightly with an adhesive base, LEDs in the form of a tape 6 from which x, the cable 7 is led outside the double-glazed window to the control unit 8, which is connected to the power source by cable 9, along the perimeter of the end part of the double-glazed window, in the cavity formed by the inner sides of sheets 1, 3 and the outer side of the distance frame 2 is filled with sealant 10, which also gets into the grooves 5 of sheet 3 and, hardening, seals the LEDs 6, giving integrity and rigidity to the glass packet. Vacuum, or dried air, or gas, or their mixture is introduced in the usual way according to DSTU B B.2.7-107-2001.

In a specific case, an energy-saving film is fixed to any surface of either one or both sheets of optically transparent material.

In a specific case, both one and both sheets of optically transparent material are made in the form of a triplex.

In the specific case, the LEDs 6 are made in the form of a single single diode and / or in the form of one or more modules from interconnected two or more separate diodes.

The double-glazed window works as follows:

The cable 9 transfers power to the control unit 8, which is transmitted through the cable 7 to the LEDs 6, the light emitted by the LEDs 6 is directed to the end of the sheet 3 with the luminescence region of the image 4, where it is scattered in the region of the applied image, which causes it to glow.

The technical result is as follows:

- Improving the energy efficiency of the glass;

- improves the functionality of the glass and the effectiveness of its use;

- improving the lighting characteristics of the structure.

Testing of the proposed double-glazed window was carried out at the enterprises of the applicant. The proposed device is industrially suitable and shows a high degree of reliability and durability.

Claims (3)

1. A double-glazed unit containing at least two sheets of optically transparent material, with at least one of the sheets of optically transparent material being grooved at the end and spaced apart from each other to form an inner closed space between them, separated by a distance frame sealed around the perimeter with a sealant, the image glow area created on one of the sheets of the double-glazed window, light sources of one or more colors, which are placed in the grooves of at least one of the sheets op nical transparent material and connected to a power source via a control unit, characterized in that one or both optically transparent sheets of material formed simultaneously with the power-saving elements. 2. A double-glazed window according to claim 1, characterized in that an energy-saving film is fixed as energy-saving elements on any surface of either one or both sheets of optically transparent material. 3. A double-glazed window according to claim 1, characterized in that, as elements of energy conservation, both one and both sheets of optically transparent material are made in the form of a triplex with spraying on the inner surface of the sheets.

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