EA014480B1 - Process for producing building-finishing material or a building unit made from siliceous rock - Google Patents

Abstract

A method for production of building-finishing material and items from silicious breeds provides to use silicious sandstone mined nearby, to cut production costs and financial investments required for production process, to avoid combustable emissions of by-products into atmosphere wherein preserving high operation, physical-mechanical and esthetic properties said building-finishing material and items. The method comprises the main stages: the preparation of a geological formation Quartz sand is used in the immediate region of the natural formation of sandstone of siliceous breeds as the raw material for filling the siliceous structure. For example, in the sandpit of quartz sand with average density 2000 - 3500 kg/m. Preparation of a geological stratum involves abrasion by cutting the superficial layer and preservation of “picture” of the natural structure; impregnation of the superficial layers of a geological stratum through a lining material (or without it) by an organic linking material. Chemicals and organic matters are used as a linking material. For example, polymeric, dispersive or acrylic emulsions. Consumption of a linking material ranges from 0.5 up to 2.0 kg/mdepending on natural conditions and the given specifications that are received from a building finishing material or a construction product. A hardened layer 0.05 – 2.0 cm thick is formed by adhesion between a mineral filling and an organic binder. Drying of a building finishing material or a construction product is carried out directly on the surface of a geological stratum under natural climatic conditions until the formation of a hardened layer at ambient temperatures from +1C up to + 50C is achieved. Drying takes from one minute to several days depending on the required depth of impregnation, temperature, air humidity. It is adjusted by physicochemical properties of a binding material. The formation of a hardened layer, which is a building finishing material for the construction products from 0.5 mm up to 2 cm thick and weighing from 0.5 up to 10.0 kg/m, is implemented due to the given forms and/or sizes of a lining material by tearing from the layer surface the sandstone of siliceous breeds. The building finishing materials are stored on pallets.

Description

The invention relates to a method for the production of building materials or building products based on the use of siliceous rocks as a mineral filler and organic binder, such as natural quartz sand and polymer, dispersion or acrylic emulsion, which are used for internal and external facing of walls of buildings, floors, columns, curtain rods and other products in the field of construction, furniture production, decoration of household items, etc.

Traditionally, plaster-mortar mixtures, tile, brick, stone, and other materials and products made from them are used to finish the facades of buildings and interior spaces, in the manufacture of which rocks of both volcanic and sedimentary origin are used, as well as materials based on them dense mass. In the production of these materials and products, large energy costs are inevitable for crushing the components that make up their composition, mixing, thermal or thermal treatment, which entails not only the cost of production, but also environmental pollution.

Known methods for producing building materials and building products from them on the basis of natural quartz sand. The method of making the material includes mixing 10-95% by volume of airgel particles with a diameter of less than 0.5 mm, natural layered silicate, water and, if necessary, fibers, binders and / or auxiliary means in the mixing device, shaping, drying, if necessary, finishing treatment and heat treatment at 250-1200 ° С (patent KI No. 2169131, C04B 14/06, op. 1999).

The known method requires high costs for the production of material with good mechanical compressive strength and bending, shaped bodies are subjected to complex mechanical, physico-chemical and heat treatment. As a consequence, with the known method, large energy consumption is inevitable, in addition, environmental pollution occurs in the form of harmful emissions into the atmosphere.

The closest to the present invention is a method for producing building materials or building products from siliceous natural rocks, in which a highly concentrated binder suspension, sand and 30% calcium chloride solution are simultaneously loaded into the mixer-homogenizer and mixed for 2-7 minutes. The resulting mixture is molded products that leave to harden at a temperature of 20 ° C for 100-120 minutes Then the finished product is removed from the forms and stored (patent KN No. 2081082, C04B 14/06, op. 1997 - the prototype).

The known method is used in the manufacture of various building materials, products and structures. However, this method also requires large financial costs for its implementation, calcium chloride solution is not environmentally safe, the range of application of the obtained products is limited by its physico-mechanical characteristics, in addition, the material is not very suitable for decorative decoration, since it does not always have an aesthetic appearance.

The task of the invention is a significant reduction in the cost of production and financial investments necessary for the organization of production, obtaining environmentally friendly building materials or building products with the original natural structure and color gamut by using siliceous sandstone under conditions of its natural formation, eliminating emissions of combustion by-products atmosphere during production, while maintaining high operational, physical-fur ble and aesthetic characteristics.

The task is achieved by the fact that in the known method of obtaining a building finishing material or a sandstone construction product of siliceous rocks, including bonding the bonding material to sandstone, molding and drying them to hardening to form a building finishing material or building product, the bonding material is combined with the sandstone in places of its natural formation by impregnation of the surface layer of the geological formation of sandstone, moreover, specified before the surface layer is leveled, then the impregnated surface layer is dried in natural climatic conditions to form a hardened layer, and the building finishing material or building product is formed by trimming the specified hardened layer to the desired shape and size and tearing it from the sandstone formation surface.

Before impregnating the surface layer of the sandstone layer, a gasket material corresponding in shape and size to the construction finishing material or construction product is preliminarily applied, and this gasket material is fixed on the specified surface.

Cotton or synthetic fabric is used as a cushioning material.

Impregnation is carried out with the use of auxiliary materials.

Before leveling the surface of the sandstone seam, stripping works are carried out on the excavation and movement of the rocks covering this layer.

The proposed method of manufacturing a building finishing material or products from siliceous rocks directly in places of natural formation of sandstone of siliceous rocks does not require capital investments for the construction and operation of production areas in the form of buildings and structures. The method is carried out using standard industrial equipment and

- 1 014480 tools, does not require pre-grinding of sand into fractions, mixing and compaction of the mixture.

Used in the proposed method, organic binders are environmentally friendly products of large-scale production. Drying under natural climatic conditions eliminates the costly process of heat treatment of building materials or building products.

All of the above factors in the proposed method for the production of building finishing materials or building products can significantly reduce the cost of production, increase the profitability of production, as well as get an environmentally friendly product without harming the environment.

A distinctive feature of the obtained building finishing material or building products from siliceous rocks is the natural structure and color range. The possibility of obtaining building products of small thickness and weight give flexibility to the material and allow products to take any form of cladding surfaces, such as columns, cornices, small architectural forms, household items, etc.

The proposed method allows, if necessary, to further expose the front surface of building products to mechanical and chemical processing using auxiliary materials to ensure the specified thickness, physico-mechanical and functional properties of the material from which they are made depending on the purpose and application (for example, floor covering, showers, kitchen countertops, etc.). As a result, building decoration materials or building products of siliceous rocks are able to work on abrasion, repel water and dirt, oil, grease and acquire other desired characteristics.

Simplicity in work with the material obtained does not require special qualifications of the craftsman, construction finishing materials or building products made of siliceous rocks can be easily glued to various surfaces and cut to the required dimensions.

The proposed method is as follows.

The technological process of production of building materials or building products from siliceous rocks includes the following stages of work.

but. The stripping works on excavation and movement of rocks (overburden) covering a sandstone formation of siliceous rocks include a number of working processes: loosening of rock by drilling and blasting or mechanical means, loading the rock and transporting it to dumps, restoring the surface layer in the quarry used. These works are not carried out in the case of occurrence of a geological stratum of sandstone of siliceous rocks directly in the existing quarry.

b. Preparation of the geological reservoir is an obligatory stage of work. Preparation of a geological formation includes leveling the surface layer of siliceous rocks, for example, quartz sand, directly in areas of natural sandstone formation with an average density of 2000-3500 kg / m ³ . The alignment is carried out by cutting in one plane (horizontal, vertical, inclined) of the surface layer. The cut is carried out with preserving the pattern of the natural structure using earth-moving machines, followed by refinement using a tool such as a shovel, etc.

at. The fixing (fixing) of the cushioning material onto the prepared surface layer of the sandstone formation of siliceous rocks is carried out, for example, with the help of hardware with one-sided grinding or other fastening means: nails, pins. Both natural and synthetic fabrics are used as cushioning materials, for example cotton gauze with a surface density of about 30 g / m ² . The cushioning material prevents direct contact of the surface layer of sandstone from siliceous rock and brush (roller) during the next stage of work - impregnation with a bonding material, which allows preserving the natural pattern of the sandstone formation, as well as being a reinforcing and molding layer for finished construction products. The number of fasteners is determined by the dimensions of the cushioning material, when fixed, it should be ensured that it is easily stretched without sagging or wave formation. This stage of work may not be carried out. In this case, the produced construction finishing material or construction products are obtained without a gasket layer.

The impregnation of the surface layer of a geological formation through a gasket material (or without it) with an organic bonding material is an obligatory stage of work on the implementation of the proposed method. Impregnation is carried out both with the help of a paint brush tool (roller) and spray devices with various drives. Organic and chemical substances are used as a binder, for example, a polymer, dispersion or acrylic emulsion. The consumption of the binder material is from 0.5 to 2.0 kg / m ² depending on the environmental conditions and the specified technical characteristics of the resulting construction finishing material or building products. Auxiliary materials are used in the case of obtaining building materials or building products with additional characteristics. If necessary, water is added during the impregnation. Due to the water content can be changed as the mechanical properties of the building finishing material or building products, and the time of the method.

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e. The formation of the surface layer with a thickness of 0.05-2.0 cm is carried out using a gasket material as a result of adhesion between the mineral filler and the organic binder. The shape and area of the future construction product correspond to the gasket material. As a rule, a gasket material of rectangular shape with a size of 2.6 x1.2 m is used. Without a gasket material, adhesion occurs directly between the mineral filler and the organic binder, and the formed surface layer is cut along a contour of specified sizes.

e. Drying of a building finishing material or construction products is carried out directly on the surface of a geological stratum of siliceous rocks under natural climatic conditions until the formation of a hardened layer, at ambient air temperatures from +1 to + 50 ° C. Drying time ranges from one minute to several days, depending on the required depth of impregnation, temperature, air humidity and is governed by the physicochemical properties of the binder material. Drying can take place under natural environmental conditions, as well as by means of forced heating of the impregnated surface layer using heating devices (electric, hydro, gas, etc.). This significantly increases adhesion and shortens the drying period, but leads to higher prices for the production of construction finishing materials or building products from it.

g. The formation of the hardened layer, which is a building finishing material for products with a thickness of 0.5 mm to 2 cm and a weight of 0.5 to 10.0 kg / m ² , is carried out due to the shapes and sizes of the gasket material or the cut contour (without gasket material ) by the separation of the hardened layer from the surface of the layer of siliceous rocks. For these purposes, use special devices in the form of strips with clips.

h Storage of construction materials or building products is carried out on flights. Products made of building finishing material can be subjected to finishing processing and finishing depending on the required characteristics, for example, changing the thickness of the material by mechanical action, additional coating with a protective agent, etc.

Example 1. In the implementation of the method of obtaining building materials or building products from siliceous rocks used natural quartz sand. A geological reservoir was prepared with an average density of 2,650 kg / m ³ at its natural location in the Republic of Belarus, the Gomel Region, the Dobrush District, and the village of Krugovets. The overburden was not carried out, since the existing quarry was used for glass production. Preparing the surface of the geological formation included digging a trench 2 m wide and 1.5 m deep with a hydraulic excavator, followed by manual refining of the side walls at an angle of 90 ° -110 °. The fastening of the cushioning material from cotton fabric was carried out by means of nails 100 mm long. The average daily temperature in the implementation of the proposed method was + 24- + 26 ° C. A single-component acrylic-based emulsion Вοχνίΐίΐΐι ΌΜ778 was applied as a binder, which was applied with a brush. As a result of adhesion, a hardened layer 2 mm thick was formed. The drying time was 4 hours. The separation of the hardened layer from the sandstone formation layer of siliceous rocks was carried out at the beginning with the help of strips with clips, then under the influence of the weight of the hardened layer itself.

6000 m ^{2 of} construction finishing material and building products were produced, which were used as wallpaper and tiles for interior decoration.

Example 2. In the implementation of the method used natural quartz sand with an average density of 2700 kg / m ³ in the place of its natural occurrence in Kazakhstan, North Kazakhstan region, the aul Aisarinsky. The overburden excavation and movement of the rocks (overburden) covering the sandstone was carried out by overburden excavation followed by transportation to the dumps. Preparing the surface of the geological formation included digging a trench 2 m wide and 1.5 m deep with a hydraulic excavator, followed by manual refining of the side walls at an angle of 90-110 °. The average daily temperature in the implementation of the proposed method was + 35- + 40 ° C. Securing the cushioning material was not carried out. A single-component acrylic emulsion (manufacturer Celaiegе) was applied as a binder, which was applied using a pneumatic spray gun. Drying time was 2 hours. 800 m ^{2 of} construction finishing material, 1 mm thick, was produced, which was used for design work on finishing household items and exterior walls.

Thus, the proposed method of obtaining building finishing material or building products from siliceous rocks is characterized by simplicity of organizing production without significant financial investments, availability of all ingredients, and therefore cheapness while retaining sufficiently high operating physical and mechanical characteristics.

Obtained by the proposed method of building decoration material or building products from siliceous rocks are environmentally friendly, since their production does not use heat treatment, there are no emissions of CO and CO ₂ , the composition of building decoration material or building products does not include harmful chemical components, and their natural structure with original colors and physical and mechanical properties give a new aesthetic appearance with

- 3 014480 wide applications in modern construction and architecture.

In contrast to existing methods, the proposed method, as a rule, does not require additional processing of building finishing material or building products from siliceous rocks.

Using the proposed method for the production of light building materials or building products from siliceous rocks allows not only to improve the environmental situation of homes through the use of environmentally friendly, lightweight, flexible material, but also to protect them from moisture and dirt.

Claims (6)

1. A method of obtaining a building decoration material or a building product from sandstone of siliceous rocks, comprising combining a binder material with sandstone, forming and drying it before hardening to form a building decoration material or building product, characterized in that the binder material is connected to the sandstone directly in places natural formation by impregnation of the surface layer of the geological layer of sandstone, and before impregnation of the specified surface layer ayut then impregnated surface layer is dried in natural climatic conditions until the formation of the solidified layer, and building construction or decoration material product form by trimming said solidified layer into the desired shape and size and surface tearing of the sandstone formation. 2. The method according to claim 1, characterized in that on the surface of the sandstone formation before impregnation of its surface layer, a cushioning material is preliminarily applied, corresponding in shape and size to the obtained building decoration material or building product, and this cushioning material is fixed on said surface. 3. The method according to claim 2, characterized in that cotton is used as a cushioning material. 4. The method according to claim 2, characterized in that the synthetic fabric is used as cushioning material. 5. The method according to claim 2, characterized in that the impregnation is carried out using auxiliary materials. 6. The method according to one of claims 1 to 5, characterized in that before leveling the surface of the sandstone formation, overburden operations are carried out to excavate and move the rocks covering this formation. About Eurasian Patent Organization, EAPO Russia, 109012, Moscow, Maly Cherkassky per., 2