WO2013067980A1 - Structural adjustment of the insulating glass - Google Patents

Abstract

Technical solution concerns the structural adjustments of the insulating glass (1) with a logo-which is illuminated By led diodes, which are located on the wall of the insulating glass (1) so that they are placed upright on the glass, or at an angle, and are fixed on their place using the putty, when the flow of light is directed even by insulating tape, which allows better flow of light. Another option is to skew the glass and to mount the diodes on this skewing what serves to better light flow. Another option is to create a skewing of glass and thanks to the skewing (2) of glass the light passes through the glass and illuminates the figure or logo in this way. Another option is to shorten the internal glass of two-ply and three-ply glass and to insert a light source below this shortened glass. Another option is to create a groove in the glass, which also directs the light flow as required.

Description

Structural adjustment of the insulating glass

Technology area

Technical solution concerns the structural adjustments of the insulating glass, consisting mainly in the possibility to illuminate the glass with an emphasis on highlighting of surface finishings of this insulating glass and in the possibility to illuminate the area behind the glass.

Present condition of technology

Currently, the insulating glass, two-ply glass, three-ply glass, is used inter alia as a transparent door of refrigerators for example for beverages or as glass of refrigerated display cases, furthermore this glass is possible for example to dress by engraving, sandblasting, pasting, etc. with the fact that various logos, advertising spots, etc. can be created by these techniques on this glass. These logos are illuminated by the classical light located behind the glass or in the inter-glass area or, where applicable, they are lit with led diodes. The disadvantage of these described constructional solutions is the fact that the light source is always visible to the observer, which reduces the aesthetic value of the entire device. Another disadvantage is the fact that the logo is lit from the outside, where the various reflections may reduce the artistic value of the logo, mainly due to the uneven illumination or different shadows, and the like.

Principle of technical solution

The above mentioned deficiencies are to a great extent eliminated by the constructional adjustment of the insulating glass according to this technical solution, where the figure, logo is created onto the insulating glass, by the technique of engraving, sandblasting or pasting using partially transparent foil, which is illuminated by led diodes, which are located on the wall of the insulating glass so that they are placed upright on the glass, or at an angle, and are fixed on their place using the putty, when the flow of light is directed even by insulating tape, which allows better flow of light. Another option is to skew the glass and to mount the diodes on this skewing what serves to better light flow. Another option is to create a skewing of glass and thanks to the skewing of glass the light passes through the glass and illuminates the figure or logo in this way. Another option is to shorten the internal glass of two-ply and three-ply glass and to insert a light source below this shortened glass. Another option is to create a groove in the glass, which also directs the light flow as required. For all of these solutions the main advantage is the fact that the light source is invisible and illuminates the space especially by the penetration of light through the glass. With the advantage, on the side opposite the light sources the tape is placed, which reflects the light passing through the glass and "returns" it to the specified location for better illumination of the figure.

List of pictures on the drawings

The above described constructional adjustment will be further clarified by means of drawings, where the Fig. 1 and Fig. 2 represent a cross section of insulating two-ply glass where the location of the led diodes and their fastening is shown. Fig. 3 and 4 also shows the cross section of insulating two-ply glass, where the internal part of two-ply glass is shortened and the light source is located under this shortening. Figure 5 shows the skewing of internal glass and mounting of the light source on this skewing where the shown tape reflects the light passing through the glass. Fig. 6 and 7 shows a cross section of two-ply glass with the created groove and using the tape for reflecting the light.

Examples of technical solution conduct Example 1

On the internal insulating glass 1 the source 3 of light is located with the advantage of tape from led diodes, which are fixed to the specified location by using putty 4. Source 3 is covered with isolating tape. On the glass ! a figure, logo 5 is created, which is lit up by this light without light source being visible. With the advantage this source 3 of light is located at an angle.

Example 2

Internal insulating glass I is shortened and in this area the source of 3 light is located and is fixed into the place using putty 4. Against the light, with the advantage, the reflecting film 6 is located for better directing of the light. Example 3

The internal insulating glass i is skewed and the source 3 of light is placed to this skewing. Example 4

On the internal insulating glass the source 3 of light is placed and in the glass the groove 7 is created for directing the light flow. With the advantage, this source 3 of light is located at an angle.

Industrial efficiency

This technical solution is useful where there is a need to illuminate the object placed on the glass or the space behind the glass in the way that the light source is not visible.

Claims

Claims for protection

1. Constructional adjustment of insulating glass, especially for two-ply and/or three-ply glass, characterized in that on the internal insulating glass (1) the source (3) of light is located with the advantage of tape from led diodes, which are fixed to the specified location by using a putty (4) and the source (3) of light is covered with isolating tape, whereas with the advantage this source (3) of light is located at an angle for better light flow.

2. Constructional adjustment of insulating glass, especially for two-ply and/or three-ply glass, according to the claim 1, characterized in that the internal insulating glass (1) is shortened and the source (3) of light is placed under this shortened glass.

3. Constructional adjustment of insulating glass, especially for two-ply and/or three-ply glass, according to the claim 1, characterized in that the internal insulating glass (1) is skewed and the source (3) of light is placed into this skewing (2).

4. Constructional adjustment of insulating glass, especially for two-ply and/or three-ply glass, according to the claim 1, characterized in that the internal insulating glass (1) has a created groove (7) placed opposite the source (3) of light.

5. Constructional adjustment of insulating glass, especially for two-ply and/or three-ply glass, according to the claim 1, characterized in that opposite to the source (3) of light the reflective film (6) is located for better direction of light flow.

6. Constructional adjustment of insulating glass, especially for two-ply and/or three-ply glass, according to the claim 1 , characterized in that on the internal insulating glass (1) the ornament (5) is created and is illuminated.