RU82627U1 - GLASS MAGNESITE SHEET - Google Patents

Abstract

1. Glass-magnesite sheet, the material of which is the product of the hardening of the raw material mixture containing the main components, fillers, and a reinforcing coating in the form of a mesh fabric, characterized in that the hardening product of the raw material mixture additionally contains oxidizing agents and wood waste, magnesium oxide MgO is used as the main components and magnesium chloride MgCl2, and fiberglass and non-woven fiberglass fabric are used as a reinforcing coating in the following ratio of components of the product of hardening of the raw material mixture,%:! magnesium oxide MgO20-69.9 magnesium chloride MgCl210-30 fillers 10-30 wood waste 10-15 oxidizing agents 0.1-5! 2. Glass-magnesite sheet according to claim 1, characterized in that sensory reagents are used as oxidizing agents: zf-1 and zf-2 and / or phosphoric acid. ! 3. Glass-magnesite sheet according to claim 1, characterized in that the sawdust uses wood fractions of 0.1-2.0 mm as wood waste. ! 4. Glass-magnesite sheet according to claim 1, characterized in that perlite, sand, dolomite flour, fly ash, slag, foaming agent are used as fillers.

Description

The utility model relates to the production of building materials, namely to the manufacture of glass-magnesite sheets (LSU), and can be used for interior decoration of residential and public buildings.

The “Sheet-metal building product” is known, selected as a prototype (see the patent of the Russian Federation for utility model No. 43496, class B32B 13/00, filing date 2004.09.29., Patent holder: State Educational Institution of Higher Professional Education Tomsk Polytechnic Institute).

Known technical solution, the material of which is the hardening product of a raw construction mixture containing the main components, fillers, and a reinforcing coating in the form of a mesh fabric.

Known technical solution has the following disadvantages.

Due to the fact that the sheet construction product is made on the basis of calcium sulfate (technical gypsum), it has insufficiently high performance characteristics: surface wear resistance, low water resistance, low fire retardant properties. Therefore, a sheet construction product can only be used for interior decoration.

In addition, the sheet construction product is made of non-environmentally friendly materials, since the product includes fillers that are harmful to health.

The objective of this utility model is:

- improving the physico-mechanical properties of glass-magnesite sheets (LSU):

increase of wear resistance, water resistance, fire retardant and decorative properties of the material;

- reduction in the cost of glass-magnesite sheets (LSU);

- simplification of the manufacturing process of glass-magnesite sheets (LSU);

- improving the environmental situation in the manufacture of glass-magnesite sheets (LSU).

The problem is solved due to the fact that in the glass-magnesite sheet, the material of which is the product of hardening the raw material mixture, containing the main components, fillers, and a reinforcing coating in the form of a mesh fabric, according to the utility model, the product of hardening the raw mixture

contains oxidizing agents and wood waste, magnesium oxide MgO and magnesium chloride MgCl ₂ are used as the main components, and glass fabric and non-woven glass fabric are used as a reinforcing coating, in the following ratio of components of the product of hardening of the raw material mixture,%

- magnesium oxide MgO 20-69.9 - magnesium chloride MgCL ₂ 10-30 - fillers 10-30 - wood waste 10-15 - oxidizing agents 0.1-5

According to a utility model, sensory reagents are used as oxidizing agents: zf-1 and zf-2 and / or phosphoric acid, wood chips are used as waste wood fractions of 0.1-2.0 mm, and perlite and sand are used as fillers, dolomite flour, fly ash, slag, foaming agent.

The inventive glass-magnesite sheet is an environmentally friendly material, due to the fact that it does not contain harmful toxic substances through the use of waste from clean production, and does not emit smoke even when heated.

The use of magnesium chloride MgCl ₂ , greatly improves indoor air, as it acts as a salt mine.

The use of sawdust with a fraction of 0.1-2.0 mm allows to increase the strength of the glass-magnesite sheet, due to the internal filling and absorption of an aqueous solution of MgCl ₂ .

The addition of sensory reagents: zf-1 and zf-2 or phosphoric acid can reduce the moisture absorption of the sheet and prevent the release of calcium oxide on the surface of the product (efflorescence), which allows you to avoid the operation of soaking the finished sheets in water, and, therefore, there is no need to utilize hydrochloric acid disposal of which is quite laborious.

Therefore, glass-magnesite sheet can be used for decoration of apartments, offices, swimming pools, fire exits, escape routes, etc. It is ideal for decorating children's, medical institutions and rest homes, as the sheet is able to withstand high humidity, temperature extremes and open fire.

The claimed technical solution is convenient for wall cladding, window slopes, manufacturing floors, creating suspended ceiling structures, the formation of dividing walls.

The glass-magnesite sheet is reinforced on both sides with fiberglass and non-woven fiberglass, a two-layer coating performs a reinforcing function, as well as a protective one.

The front side of the sheet is polished and prepared for gluing wallpaper or tile, applying paint, the sheet also has chamfers to facilitate the joining of sheets between each other, due to the matrix in the form of smooth PVC sheets.

It was experimentally established that, thanks to the reinforcing fiberglass mesh, LSU can bend with a radius of curvature of up to three meters, which allows it to be used on uneven surfaces and reduces the possibility of fracture during installation and transfer.

The use of reinforcing non-woven fiberglass can improve the physical and mechanical properties of glass-magnesite sheets (LSU), due to the fact that the sheet does not bend and will not be curved.

In this case, non-woven fiberglass eliminates the sticking of the raw mixture to the drum rollers.

Physico-mechanical properties of glass-magnesite sheets (LSU), such as ease of processing, which does not require special tools, which allows the use of a sheet of two to three times less thickness than with traditional GVL and GKL, and, consequently, the weight of the structure is facilitated, correspondingly, more quick installation.

The inventive glass-magnesite sheet and the method of its manufacture are different from the prototype (see patent of the Russian Federation No. 2043099, class A61K 9/20, A61K 31/60, A61K 47/12, filing date 01/31/1994, publication date 09/10/1995 g .), therefore, meets the criterion of "novelty."

The specified glass-magnesite sheet can be obtained and used in industry, therefore, meets the criterion of "industrial applicability".

An example of a specific implementation.

Components: magnesium oxide MgО, filler, for example perlite, wood waste, for example sawdust with a fraction of not more than 0.5 mm, are sequentially fed into the mixer and mixed.

As fillers, not only perlite can be used, but also sand, dolomite flour, fly ash, slag, a foaming agent.

Then an aqueous solution of magnesium chloride MgCl _{2 with a} concentration of 18-25% is supplied, oxidizing agents, for example, sensory reagent: zf-1, sensory reagent: zf-2.

Due to the fact that sensory reagents: zf-1 and zf-2 are quite expensive, orthophosphoric acid can be added to reduce the cost of LSU.

All components are mixed in a mixer, and the finished mixture enters the dispenser.

The process of obtaining LSU begins with the installation of the matrix, which is a flat smooth sheet without sides, made of PVC plastic, on the conveyor.

Then, through the drums, a non-woven fiberglass fabric with a base - fiberglass and weft (transverse thread) - into one fiberglass is fed onto the matrix surface, a fiberglass-fiberglass mesh with a mesh size of 4 * 4 mm or 5 * 5 mm is fed into the second layer.

The required amount of the mixture from the dispenser is fed to the prepared matrix sheet. By means of a cutter located in the dispenser, you can set the thickness of the LSU.

The matrix with the required amount of the mixture moves to the second drums, reinforcing fiberglass and fiberglass, which are superimposed on top of the filled mixture in the matrix. We get a glass-magnesite sheet reinforced on both sides. The two-layer coating performs both a reinforcing function and a protective one.

The distance between the drums and the matrix with the filled mixture is adjustable from 3-20 mm. As a result, you can get a sheet of the desired thickness.

The molding process is completed when all layers are joined together.

Further, moving along the conveyor, the sheets dry out. Then they are cut to the size of the matrix and transferred to a room for hardening sheets at a temperature of 27-35 ° C for 2-7 hours.

Then the glass-magnesite sheets are moved to the edging machine, where both edges are cut along the entire length.

Finished glass-magnesite sheets arrive at the finished goods warehouse.

The proposed technical solution is an example of products of modern scientific and technological developments related to the category of light and safe finishing materials for indoor and outdoor use, having fire-fighting properties, flexibility, strength, high moisture resistance, heat resistance, frost resistance, high sound insulation, which allows its wide application in construction industry.

Claims (4)

1. Glass-magnesite sheet, the material of which is the hardening product of the raw material mixture containing the main components, fillers, and a reinforcing coating in the form of a mesh fabric, characterized in that the hardening product of the raw material mixture additionally contains oxidizing agents and wood waste, magnesium oxide MgO is used as the main components and magnesium chloride MgCl ₂ , and as a reinforcing coating using fiberglass and non-woven fiberglass in the following ratio of components of the product of hardening of the raw material mixture,%:  magnesium oxide MgO 20-69.9 magnesium chloride MgCl ₂ 10-30  fillers 10-30  wood waste 10-15  oxidizing agents 0.1-5 2. Glass-magnesite sheet according to claim 1, characterized in that sensory reagents are used as oxidizing agents: zf-1 and zf-2 and / or phosphoric acid. 3. Glass-magnesite sheet according to claim 1, characterized in that the sawdust uses wood fractions of 0.1-2.0 mm as wood waste. 4. Glass-magnesite sheet according to claim 1, characterized in that perlite, sand, dolomite flour, fly ash, slag, foaming agent are used as fillers.