RU178917U1 - LIGHT-TRANSMITTING PRODUCT - Google Patents

Abstract

The utility model relates to construction, in particular to the production of light-transmitting products. The technical result of the proposed utility model is to simplify manufacturing, expand options for light transmission of the product. The light-transmitting product contains layers 1 and 2 suitably stacked in the stack. Layer 1 contains light-transmitting material 3 and separated between layers of non-transmitting material 2, which is used concrete, according to the technology of its manufacture, which consists in a layer pouring light-transmitting material, followed by appropriate sawing and processing. The light transmitting layer 1 is made of a set of strips of sheet light transmitting material and stacked with a gap from each other. The heights of layers 1 and 2 can be either the same or different. A set of strips of sheet light-transmitting material can be located in the layer both orderly and randomly. The number of strips of sheet light-transmitting material in layers 1 can be equal or not equal. The concrete is poured in a mold having the shape of a parallelepiped (the shape is not shown in the drawing).

Description

The utility model relates to construction, in particular to the production of light-transmitting products.

A light-transmitting product is known that contains layers of optical fiber appropriately stacked in a stack, separated by layers of non-light-transmitting material, which is used as concrete, followed by surface treatment, as well as its manufacturing technology, which consists in layer-by-layer filling of optical fiber (see http: / /poremontu.ru/news/svetyaschiysva-beton).

The disadvantage of this material is its manufacturing complexity, high cost.

The closest in technical essence to the proposed one is a light-transmitting material containing layers of optical fiber appropriately stacked in a stack, separated by layers of non-light transmitting material, followed by surface treatment, as a non-light transmitting material, a rigid material made in the form of a parallelepiped was used, and the layers laid in a groan, are rigidly interconnected by gluing under pressure (see RU pa utility model No. 162640, M. Cl .: E04C 1/10, 2016).

The disadvantage of this material is its limited arsenal of technical means.

The technical result of the proposed utility model is the expansion of the arsenal of technical means.

The technical result achieved is achieved in that in a light-transmitting product containing layers appropriately laid in a groan containing light-transmitting material, separated by layers of non-light-transmitting material, which is used as concrete, each light-transmitting layer is made of a set of strips of sheet light-transmitting material and laid with a gap from each other, while at least one layer of non-light transmitting material may have a different height from other layers of non-light non-transmitting material, while at least one layer of light-transmitting material has a different height from other layers of light-transmitting material, while the height of all light-transmitting layers can be the same, while the height of all non-transmitting layers can be the same, while the height of all light-transmitting layers and non-transmitting layers can be the same, while the set of hollow sheet light-transmitting material can be located in the layer both orderly and randomly, while the number of bands l Stow transparent material in all layers can be the same, the amount of light transmitting sheet material strips, at least one layer may be different from the number of bands listovogovo light-transmissive material of the other layers.

The drawing schematically shows an embodiment of a light transmitting product.

The light-transmitting product contains layers 1 and 2 appropriately stacked in the stack. Layers 1 contain light-transmitting material 3 and separated by layers of non-light-transmitting material 2, which is used as concrete, according to its manufacturing technology, which consists in layer-by-layer pouring of light-transmitting material followed by appropriate sawing and processing. The light transmitting layer 1 is made of a set of strips of sheet light transmitting material and stacked with a gap from each other. The heights of layers 1 and 2 can be either the same or different. A set of strips of sheet light-transmitting material can be located in the layer both orderly and randomly. The number of strips of sheet light-transmitting material in layers 1 can be both equal and not equal.

At the initial stage of manufacturing the product, the product can be made of oblong shape (many times larger in thickness than necessary). Due to this, it (the obtained product) can be sawn into products of the required thickness. This option, simplifying the manufacturing process of a light-transmitting product, is not shown in the drawing. After sawing, the products are processed, for example, ground.

The layers are poured with concrete in the form of a parallelepiped (the shape is not shown in the drawing).

The expansion of the arsenal of technical means is the advantage and advantage of the proposed technical solution compared to the prototype.

Claims (10)

1. Light-transmitting product, containing layers appropriately stacked in the stack, containing light-transmitting material, separated by layers of non-light-transmitting material, which is concrete, characterized in that each light-transmitting layer is made of a set of strips of sheet light-transmitting material, spaced apart from each other friend. 2. Light transmitting product according to claim 1, characterized in that at least one layer of non-light transmitting material has an excellent height from other layers of non-light transmitting material. 3. The light transmitting product according to claim 1, characterized in that at least one layer of light transmitting material has an excellent height from other layers of light transmitting material. 4. The light transmitting product according to claim 1, characterized in that the height of all light transmitting layers is the same. 5. The light transmitting product according to claim 1, characterized in that the height of all non-light transmitting layers is the same. 6. The light transmitting product according to claim 1, characterized in that the height of all light transmitting layers and non-transmitting layers is the same. 7. The light transmitting product according to claim 1, characterized in that the set of strips of sheet light transmitting material is arranged in the layer in an orderly manner. 8. The light transmitting product according to claim 1, characterized in that the set of strips of sheet light transmitting material is randomly located in the layer. 9. The light transmitting product according to claim 1, characterized in that the number of strips of sheet light transmitting material in all layers is the same. 10. The light transmitting product according to claim 1, characterized in that the number of strips of sheet light transmitting material in at least one layer is different from the number of strips of sheet light transmitting material of other layers.

Images