RU76041U1 - LIGHT-PERMEABLE GLASS BLOCK FOR WALLS AND STAINED-GLASS WINDOWS - Google Patents

Abstract

The utility model relates to the field of building materials industry, in particular to the glass industry, namely the production of glass blocks used as technical means of decorating buildings, premises, advertising materials. The device is designed to create flat, curved and volumetric wall structures and stained-glass windows for the decoration of building facades, interiors, advertising media and can be used in other color-impact devices for decorative purposes. The translucent glass block contains two cup-shaped elements with flat transparent bases. It is equipped with a light emitting module and an electronic control unit, wherein the light emitting module consists of at least one light source. The central longitudinal axis of each light source is inclined to one side from the axis of symmetry of the glass block and directed towards the inner angles of the capacitive parts opposite to the corresponding light source. As a light source used: LEDs, bulbs, LED matrices, rulers, modules. Reflecting projections and depressions are made on the inner surface of the glass block. The inner surface of the capacitive elements of the glass block has a color-forming coating. In places of reflection of the rays of the LEDs, color-forming inserts are fixed. Translucent glass block is equipped with a remote control with the possibility of electromagnetic interference on the electronic control unit. 1 n.p., 5 w.p. f-ly, 4 ill.

Description

The utility model relates to the field of building materials industry, in particular to the glass industry, namely the production of glass blocks used as technical means of decorating buildings, premises, advertising materials.

The technical solution is intended to create flat, curved and volumetric wall structures and stained-glass windows for the decoration of building facades, interiors, advertising media and can be used in other color-impact devices for decorative purposes.

From information publicly available prior to the priority date of the claimed technical solution, the following means of the same purpose are known:

Translucent glass block for walls and stained-glass windows, containing two cup-shaped elements with flat transparent bases exceeding the perimeter of the outer size of the capacitive parts, having a rectangular cross section and permanently connected to each other by the open sides of the capacitive parts (patent RU 2289661, C2, Е04С 1/42, 2002 g.).

This technical solution is the closest to the claimed utility model and is therefore taken as a prototype.

The disadvantages of the prototype are the limited operational capabilities for the artistic design of wall products, stained glass and advertising media.

The technical result achieved by the utility model is to obtain an internal volumetric glow of glass blocks in a given spectrum of colors in accordance with the programmed algorithms for combining colors, time, and process parameters of light radiation. This eliminates the disadvantages inherent in the prototype.

The following are general and particular significant features characterizing the causal relationship of the invention with the specified technical result.

Translucent glass block for walls and stained-glass windows, containing two cup-shaped elements with flat transparent bases exceeding the perimeter of the outer size of the capacitive parts around the perimeter, having a rectangular cross section and permanently connected to each other by the open sides of the capacitive parts. The glass block is equipped with a light-emitting module and an electronic control unit, while the light-emitting module consists of at least one light source installed in an opening made in the connection plane. The central longitudinal axis of each light source is inclined to one side from the axis of symmetry of the glass block and directed towards the inner angles of the capacitive parts opposite to the corresponding light source. The laying of the wires of the light sources is located at the place of interfacing of the glass block elements until they are connected to an electronic control unit fixed between the bases. The height of the electronic unit does not exceed the gap between the capacitive parts of adjacent glass blocks in the assembled walls and stained-glass windows.

In the embodiment of the glass block elements:

- used as a light source: LEDs, bulbs, LED matrices, rulers, modules;

- on the inner surface of the glass block, light-reflecting protrusions and depressions are made;

- the inner surface of the capacitive elements of the glass block has a color-forming coating;

- in places of reflection of the rays of the LEDs, color-forming inserts are fixed;

- the glass block is equipped with a remote control panel with the possibility of electromagnetic effects on the electronic control unit.

The technical result achieved in all cases of the implementation of the object is ensured by the following set of new, distinctive features: it is equipped with a light emitting module and an electronic control unit, while the light emitting module consists of at least one light source installed in an opening made in the connection plane moreover, the central longitudinal axis of each light source is inclined in one

side from the axis of symmetry of the glass block and directed towards the inner angles of the capacitive parts opposite the corresponding light source, while the laying of wires of the light sources is located at the place of interfacing of the glass block elements before connecting to the electronic control unit fixed between the bases, and the height of the electronic block does not exceed the gap between the capacitive parts of neighboring glass blocks as part of the assembled walls and stained-glass windows. As a light source used: LEDs, bulbs, LED matrices, rulers, modules. Reflecting projections and depressions are made on the inner surface of the glass block. The inner surface of the capacitive elements of the glass block has a color-forming coating. In places of reflection of the rays of the LEDs, color-forming inserts are fixed. It is equipped with a remote control with the possibility of electromagnetic effects on the electronic control unit.

The utility model is illustrated by drawings, where: in Fig.1 shows a General view of the glass block; figure 2 is a section aa in figure 1; figure 3 is a view of I in figure 1; figure 4 - installation of an electronic control unit between the glass blocks.

The translucent glass block for walls and stained-glass windows consists of two cup-shaped elements with flat transparent bases 1 that exceed the outer size of the capacitive parts 2 around the perimeter, having a rectangular cross section and are permanently connected to each other by the open sides of the capacitive parts. The glass block is equipped with a light-emitting module and an electronic control unit 3. The light-emitting module consists of at least one light source 4, fixed by means of a fastening unit 5 in the hole made in the connection plane 6. The central longitudinal axis L of each light source 4 is inclined to one side from the axis of symmetry of the glass block and directed towards the inner angles of the capacitive parts 2 opposite to the corresponding light source 4. The laying of 7 wires is located at the place 6 of the pair of glass block before connecting to the electronic control unit fixed between the base, wherein the electronic unit does not exceed the height of the gap between the capacitive parts adjacent glass blocks composed of assembled walls and stained. To comply with the conditions for free installation of the electronic control unit 3, can be used mounting cross-pieces 9 (figure 4). In the device variants, the following light sources were used: LEDs, bulbs, LED arrays, rulers,

modules. On the inner surface of the glass block, refractory protrusions and depressions (not shown) can be made. The inner surface of the capacitive elements of the glass block has a color-forming coating (not shown). In places of reflection of the rays of the LEDs, color-forming inserts (not shown) are fixed. The control panel may be integrated in the electronic control unit 3 or the device may be equipped with a remote control 10 with the possibility of electromagnetic interference on the electronic control unit 3.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation for the priority date in the main and related sections did not reveal a tool that has features identical to all the features contained in the proposed utility model formula, including the purpose of the assignment. That is, the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the condition of patentability “novelty”.

The claimed technical solution is industrially applicable, because: in the application materials its purpose is indicated, it can be manufactured industrially in the building materials industry and used in other areas of the national economy, it is efficient, feasible and reproducible, and the distinguishing features of the device allow to obtain the desired technical result.

The claimed utility model in the form as described in each of the claims can be implemented using the tools and methods described in publicly available sources of an earlier priority than the claimed solution, for example, in a patent of the Russian Federation characterizing the possibility of implementing the inventive glass block.

The device operates as follows.

Due to the use of electronic tools and special software, the glass block's internal illumination can be colored or monochromatic with constant light or with dynamic effects such as “running shadow”, “running line”, strobe effect or other effects. Built-in electronic interior lighting can be used in industrial glass blocks, interior glass blocks (colorless, colored, matte, decorative, semi-blocks and floor tiles).

In glass blocks with the proposed internal lighting, they can be used to create original interiors in: bars, cafes, clubs, restaurants, living rooms and halls, in the bathroom, in pools, in bedrooms and lounges, in kitchens and dining rooms, for finishing ceilings and roofs in houses, for the decoration of building facades, in advertising devices.

Glass block is made as follows. In the finished block according to the rules of glass processing with a diamond drill, holes for light sources are drilled. Holes can be drilled not necessarily at the seam of the connection of parts of the glass block. An electronic control unit is installed between the blocks and connected to light sources by means of conductors. The laying of wires can be carried out along the connecting seam of the glass block elements. The electronic control unit can be with an automatic mode switch and self-powered. In this case, a remote control is not required. Ready-made glass blocks are built into sections in wall structures, stained-glass windows or advertising devices, or make up these products only from glass blocks, depending on the design plan for the decoration of the object. In accordance with this, a light source control program is being developed, which is based on algorithms for combining radiation colors, the order and modes of their initialization, and time characteristics. The proposed device uses light radiation sources with low heat, so there is no need to use tools and methods to protect glass blocks from overheating.

The technical effect of using this utility model is to expand the scope of glass blocks in construction and advertising due to their new design and aesthetic properties, due to which the shapes and volumes of walls, stained-glass windows and advertising media can vary in order to obtain an effective artistic and emotional impact.

Claims (6)

1. Translucent glass block for walls and stained-glass windows, containing two cup-shaped elements with flat transparent bases exceeding the perimeter of the outer size of the capacitive parts, having a rectangular cross section and permanently connected to each other by the open sides of the capacitive parts, characterized in that it is equipped with a light-emitting module and electronic the control unit, while the light emitting module consists of at least one light source installed in the hole made in the connection plane moreover, the central longitudinal axis of each light source is inclined to one side from the axis of symmetry of the glass block and directed towards the inner angles of the capacitive parts opposite the corresponding light source, while the laying of wires of the light sources is located at the interface of the glass block elements until connected to the electronic control unit, fixed between the bases, and the height of the electronic unit does not exceed the size of the gap between the capacitive parts of adjacent glass blocks in the composition of the assembled walls and vit razhey. 2. Translucent glass block for walls and stained-glass windows according to claim 1, characterized in that LEDs, bulbs, LED arrays, rulers, modules are used as a light source. 3. Translucent glass block for walls and stained-glass windows according to claim 1, characterized in that on the inner surface of the glass block are made of light-reflecting protrusions and depressions. 4. Translucent glass block for walls and stained-glass windows according to claim 1, characterized in that the inner surface of the capacitive elements of the glass block has a color-forming coating. 5. Translucent glass block for walls and stained-glass windows according to claim 1, characterized in that color-forming inserts are fixed in places where the LED rays are reflected. 6. Translucent glass block for walls and stained-glass windows according to claim 1, characterized in that it is equipped with a remote control panel with the possibility of electromagnetic interference on the electronic control unit.