RU194904U1 - BUILDING ELEMENT - Google Patents

Abstract

This utility model relates to building structures and relates to building elements that may find application for highlighting and / or decorative design of various paths, sidewalks, as well as for the decoration of internal and external surfaces of buildings and structures. The technical result is to increase the strength characteristics. The building element is formed of at least two layers of resin-based polymeric material, one of which contains a first filler with a luminescent substance, the first filler being made in the form of crushed polymeric material, while one of the layers of the material contains the second filler in the form of crushed mineral material and is located behind one of the layers with the first filler.

Description

This utility model relates to building structures and relates to building elements that can be used for highlighting and / or decoration of various paths, sidewalks, landscape design sites, roads, runways, as well as for the interior and exterior surfaces of buildings and constructions for installation in pools, fountains, etc.

There are known luminous building elements used as facing and decorative coatings, containing as light sources along with luminescent materials (luminescent paint, photoluminophores, etc.) and LED light sources (for example, patents RU 147409 U1, filing date 03.04 .2014, published on November 10, 2014, RU 71666 U1, filing date on November 27, 2007, published on March 20, 2008).

A common disadvantage of the known luminous building elements, simultaneously containing LED and fluorescent light sources, is the complexity of their production.

Known facing polymer tiles based on polyethylene terephthalate (PET) resin containing a luminescent substance (patent RU 21041 U1, filing date 04/23/2001, published 12/20/2001).

A disadvantage of the known tiles is the unsatisfactory strength characteristics due to the fact that the feedstock for it are waste polyethylene terephthalate.

Known fluorescent facing tile containing a substrate, a reflective layer located on the upper surface of the substrate, a fluorescent layer located on the upper surface of the reflective layer, and a glass layer on the upper surface of the phosphor layer, the glass layer is transparent, the reflective layer is made of opaque material, the layer The phosphor is made of fluorescent material, the substrate is made of clay (patent CN 202705942 U, filing date July 25, 2012, published January 30, 2013).

The disadvantages of the known cladding tiles can also include low strength characteristics and a short service life associated with the use for the formation of layers of materials with a significant difference in thermal linear expansion, leading to the formation of a non-monolithic building element, unstable to compressive loads and vibration loads.

As the closest technical solution, a building tile for external cladding of various surfaces containing a substrate, a luminescent coating located on the substrate, and a protective layer located on the luminescent coating was selected. The substrate is made of natural marble, and the luminescent coating is an energy storage device and is made of luminescent glue made of synthetic resin, the protective layer is made of silica sand (patent CN 206591396 U, filing date 02.03.2017, published on 10.27.2017).

The disadvantages of the closest analogue, as well as well-known building elements with the possibility of luminescence, are low strength and short life, due to the use of materials with a significant difference in thermal linear expansion, leading to the formation of a non-monolithic building element, unstable to vibration loads.

A technical problem, the solution of which is provided by the claimed utility model, is the creation of a building element that provides high reliability and long life of the building element.

The technical result obtained by using the claimed utility model is to increase the strength characteristics, in particular compressive strength.

The technical result is achieved in that a building element formed of at least two layers of resin-based polymeric material, one of which contains a first filler with a luminescent substance, according to a utility model, one of the layers of the polymeric material contains a second filler in the form of crushed mineral material and is located behind one of the layers with the first filler, and the first filler is made in the form of crushed polymer material.

Moreover, according to a utility model, the first filler can be made in the form of crushed polymer chips.

Moreover, according to the utility model, marble chips can be used as crushed mineral material.

Moreover, according to a utility model, crushed slate can be used as crushed mineral material.

Moreover, according to a utility model, a phosphor can be used as a luminescent substance.

Moreover, according to a utility model, the particle size of the first filler may be 3-7 mm.

Moreover, according to a utility model, the particle size of the second filler may be 0.3-5 mm.

Moreover, according to the utility model, the thickness of the layer of polymer material with the first filler may be 10-14 mm.

Moreover, according to a utility model, the thickness of the layer of polymer material with a second filler may be 20-50 mm.

Moreover, according to a utility model, the polymeric material can be made on the basis of a polyester resin.

Moreover, according to a utility model, the polymeric material can be made on the basis of epoxy resin.

The technical problem was solved by the development of a layered building element formed from layers of a polymer material based on resin with crushed luminescent polymer filler and mineral filler. The increase in strength characteristics is ensured through the use of materials with a small difference in thermal linear expansion, the use of similar compounds forming a monolithic element, which ensures its strength and resistance to compression loads, guaranteeing high adhesion of the glued layers of the building element and their monolithicity.

The present useful model is illustrated by images (Figs. 1-2), an example of a building element on which, however, is not the only possible, but clearly demonstrate the possibility of achieving the claimed technical result. Moreover, the above examples of the claimed utility model do not limit the possibilities of its implementation, not beyond the scope of the utility model, and are not exhaustive. In FIG. 1 is a schematic illustration of the layers of a building element; FIG. 2 is a photograph of a finished product in the form of paving slabs.

According to a utility model, a building element is formed of at least two layers of resin-based polymeric material. According to a utility model, the polymeric material can be made on the basis of various resins, for example, polyester or epoxy, etc. In FIG. 1 shows one embodiment of a building element, in accordance with which it is a housing 1 of two layers 2 and 3 of a material based on, for example, polyester resin, for example, grade 3401A. Layer 2 contains the first filler with a luminescent substance. The first filler is made in the form of crushed polymeric material, for example, crushed crumbs of polypropylene and / or high and low pressure polyethylene colored with a phosphor (for example, brand ФВ-530Д).

The first filler additionally reinforces layer 2. Layer 2 in the ready-for-use building element is the front part (top layer) of the building element, which accumulates solar radiation in the daytime. Layer 2 can be transparent. As a luminescent substance, a phosphor, in particular photoluminescent pigments of various colors, can be used. The particle size of the polymer chips may be 3-7 mm. The thickness of the layer of material with the first filler can be 10-14 mm with a Shore hardness of 75-80D, which forms a wear-resistant, impact-resistant and textured (non-slip) outer surface. Thanks to the luminescent substance, layer 2 provides a glow in the dark. Layer 3 contains a second filler in the form of crushed mineral material and is located behind layer 2 with the first filler. As crushed mineral material can be used, for example, marble chips, slate, pebbles or other mineral filler. The second filler additionally reinforces layer 3. Moreover, according to a utility model, the particle size of the second filler can be 0.3-5 mm, and the thickness of layer 3 can be 20-50 mm with a shore hardness of 75-80D.

After manufacturing, the building element is ready for installation on any supporting surface, as well as for the beginning of its operation in all weather conditions and under conditions of high vibration loads.

Using the proposed utility model, it is possible to organize decorative lighting of landscape elements, creating a fluorescent effect in the form of surface light emission in the spectrum visible to the human eye at night, due to the accumulation of daylight without the use of electricity or other energy sources, and also to improve strength characteristics due to increase vibration resistance, compressive strength and wear resistance.

The use of polymer chips of various colors in the upper layer provides a glow of the surface of the element in different colors: blue, light green, pink, etc.

Claims (11)

1. A building element formed of at least two layers of resin-based polymeric material, one of which contains a first filler with a luminescent substance, characterized in that one of the layers of polymeric material contains a second filler in the form of crushed mineral material and is located behind one of the layers with the first filler, and the first filler is made in the form of crushed polymeric material. 2. The building element according to claim 1, characterized in that the first filler is made in the form of crushed polymer chips. 3. The building element according to claim 1, characterized in that marble chips are used as crushed mineral material. 4. The building element according to claim 1, characterized in that the crushed slate is used as the crushed mineral material. 5. The building element according to claim 1, characterized in that a phosphor is used as the luminescent substance. 6. The building element according to claim 1, characterized in that the particle size of the first filler is 3-7 mm. 7. The building element according to claim 1, characterized in that the particle size of the second filler is 0.3-5 mm. 8. The building element according to claim 1, characterized in that the thickness of the layer of polymer material with the first filler is 10-14 mm. 9. The building element according to claim 1, characterized in that the thickness of the layer of polymeric material with a second filler is 20-50 mm. 10. The building element according to claim 1, characterized in that the polymeric material is made on the basis of polyester resin. 11. The building element according to claim 1, characterized in that the polymer material is made on the basis of epoxy resin.

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