RU2275343C1 - The building bricks, the method and the set of the bricks manufacture - Google Patents

Abstract

FIELD: building materials industry; methods and equipment for the bricks manufacture.

SUBSTANCE: the invention is pertaining to the field of the building materials industry and may be used in production of bricks, including the facing brick, building stones, blocks and tiles. The technical result of the invention is the expansion of the assortment of the building bricks and the means for its production, provision of simultaneously of the heightened strength and the frost resistance the bricks, improvement of the bricks decorative effect of their front-face surface imitating the surface texture of the natural building stone. The given technical result is reached because the building wall bricks having the form of the monolithic polyhedron is manufactured out of the mixture having the humidity of 3-10 % and containing a chalkstone with the size of its particle of no more than 8 mm, portland cement of the grade of no less than 400 - as the binding substance, at their ratio (in mass %): the indicated chalkstone - 85.1-90.0, portland cement of the grade of no less than 400 - 10.0-14.9 by the mixture molding under the pressure of 15.0-20.9 MPa during 2-9.9 seconds and by the heat-moisture treatment or a by aging up to the mixture gains the strength amounting to no less than of 50 % from the grade strength of the a ready bricks. The invention gives the characteristic of the building bricks, the method of the bricks manufacture and the set of equipment used for the bricks production.

EFFECT: the invention ensures expansion of the assortment of the building bricks, simultaneously heightened strength and the frost resistance of the bricks, improvement of decorative effect of the bricks front-face surface imitating the surface texture of the natural building stone.

25 cl, 1 dwg, 1 ex

Description

The invention relates to the construction materials industry and can be used in the manufacture of bricks, including facing, stones, blocks and tiles.

Known building bricks made of clay. (Encyclopedic Dictionary. - M.: Pedagogy, 1980. p.168).

Closest to the claimed combination of features is a building element in the form of concrete, wall, monolithic, with or without voids, a volumetric body with a finishing layer located at least on one of its surfaces, while it has a geometric shape, regular or incorrect, in the form of a spatial polyhedron, and the element itself has the composition of the mixture of the building part, wt.%: volcanic ash 5-32, perlite sand 0-32, expanded clay 45-75, Portland cement grade 400-10, the rest is water, and its finishing layer vyp nen with a thickness of 5-45 mm from the mixture, wt.%: marble and / or granite, and / or tuff, and / or crushed stone, and / or basalt, and / or limestone, and / or diabase, and / or syenite crumbs, and / or diorite, and / or labradorite, and / or sandstone, and / or quartzite, and / or glass, and / or ceramic or silicate brick, and / or metlakh or glazed tiles, and / or porcelain products 0-50 , Portland cement brand 400 of any color 30, water the rest. (RF patent No. 2173374, Е 04 С 1/00, С 04 В 28/00, 09/10/2001).

A known method for the production of building bricks, including giving the material a predetermined moisture content, destroying the natural structure of the material, removing harmful inclusions, pressing the brick and firing it, is pressed at a moisture content of the starting material equal to 0.5-0.8 from the optimum, with continuously decreasing pressing speed and specific pressure at the end of pressing, providing a density of raw brick, at which the angle of shrinkage of the brick material is close to or equal to zero. (Summary of application No. 92012201, B 28 B 3/06, 05/10/1995).

Closest to the technical nature of the claimed is a method of producing face bricks, including the preparation of a mixture of clay and finely ground limestone by mixing them, moistening the resulting mixture, subsequent molding, drying and firing, with limestone in the amount of 0.1-30 wt.% mixed with 70-99.9 wt.% finely ground clay, the mixture is moistened with water to 4-7%, and the pressed products are dried at 105-110 ° C for 1-2 hours and fired in a two-stage mode at 480-550 ° C and 550-700 ° C for 1.5-2 and 1.5-2 hours, respectively. (RF patent No. 2130439, C 04 B 33/00, 05.20.1999).

A known line for the production of building bricks, containing an extruder installed in the technological sequence, a device for cutting cut timber, a conveyor, a sliding mechanism, drying chambers and automatic stackers located before and after them, including a sliding frame and a drive with drive rollers, the sliding mechanism consists of pads mounted on a shaft movably interconnected by fingers. (RF Patent No. 2010706, B 28 B 15/00, 04/15/1994).

Closest to the claimed combination of features is a set of equipment for the manufacture of building bricks, containing a horizontal molding unit, loading, heat treatment, unloading and packaging stations, and the drying and grinding unit is made as a single unit combining coarse crushing, fine grinding, separation, drying, mixing components and transportation of the finished press powder, self-feeding dosing device is rigidly connected with the device for pressing products for orderly laying of light eotformovannyh products on drying-calciners trolley (RF Patent №2037413, B 28 B 15/00, 19.06.1995).

When creating the invention, the problem was solved of expanding the arsenal of building bricks, methods for the production of building bricks and sets of equipment for the production of building bricks.

The technical result is the expansion of the arsenal of building bricks, methods for the production of building bricks and sets of equipment for the production of building bricks, providing both increased strength, frost resistance of the brick, increasing the decorativeness of its front surface, which imitates the texture of the surface of natural stone.

The specified technical result is achieved by the fact that the building wall brick in the form of a monolithic polyhedron is made of a mixture characterized by a moisture content of 3-10%, containing limestone with a particle size of not more than 8 mm, Portland cement grade not less than 400 as a binder, with their ratio, wt. %:

Indicated Limestone 85.1-90.0 Portland cement brand not lower than 400 10.0-14.9

pressing it at a pressure of 15.0–20.9 MPa for 2–9.9 s and heat-moisture treatment or maintaining it to a set strength of at least 50% of the brand strength of the finished brick.

In this case, building bricks may contain pigment in an amount of up to 9 wt.% By weight of the binder. Building wall brick has a compressive strength of at least 75 kg / cm ² and frost resistance of at least 35 freeze-thaw cycles. The front surface of a building wall brick can be embossed with a roughness height of at least 25 mm.

The specified technical result is also achieved by the fact that a method of manufacturing a building wall brick involves preparing a mixture by mixing limestone with a particle size of not more than 8 mm and Portland cement grade not less than 400 as a binder with their ratio, wt.%:

Indicated Limestone 85.1-90.0 Portland cement brand not lower than 400 10.0-14.9

with the introduction, if necessary, of water until the moisture content of the mixture reaches 3-10%, molding the mixture by pressing at a pressure of 15.0-20.9 MPa for 2-9.9 s and subsequent heat-moisture treatment or maintaining until a set strength of at least 50% of the brand strength of the finished brick.

Heat and moisture treatment can be carried out using saturated steam at a relative humidity of the vapor-air mixture of at least 80% with isothermal heating for at least 4 hours at a temperature of at least 75 ° C.

In summer, at high ambient temperatures, the formed bricks can be aged packed in a plastic film.

Each of the front faces of the made brick can be machined to give it a relief surface, the roughness of which is not less than 25 mm.

The indicated technical result is also achieved by the fact that for the manufacture of the above-described bricks in the above-described way, a set of equipment is used containing a limestone preparation and supply module, a dosing module including binder, limestone and water dispensers, a mixture preparation module, a molding module in the form of at least one press, providing a pressing pressure of 15.0-20.9 MPa, equipped with a receiving hopper, a module of heat and moisture treatment, a module for packaging, labeling and storage of finished products .

The limestone preparation module can consist of limestone receiving hopper, crusher, vibrating screen, sorted limestone storage hopper, technologically connected by loading and unloading devices, and a limestone feeding mechanism, installed during the technological process.

The limestone receiving hopper may have in its upper part an inclined grating for separating limestone with a particle size of less than 100 mm, equipped with a vibrator.

The crusher can be made percussion, with ball grinding elements.

The vibrating screen can be made in the form of a box with built-in vibrators and two screens located one above the other to separate limestone with a particle size of less than 8 mm.

The sorted limestone storage bin can be equipped with a level gauge.

The limestone feed mechanism can be made in the form of a bucket elevator.

The raw materials dosing module can be equipped with a pigment dispenser.

The concrete preparation module may comprise a receiving and distribution tray, at least one mixer and feeder.

The brick forming module is equipped with a loading and unloading device with a ejector located above the press receiving hopper.

The ejection module of the brick forming module is made of plow.

The press of the brick forming module is hydraulic.

The module of heat-moisture treatment of products can be made in the form of at least one isothermal chamber.

The module for machining bricks to create a relief front surface can be made in the form of a press with a needle working surface for the formation of bumps.

The combination of features of the claimed inventions makes it possible to manufacture building face bricks, characterized by increased by about 1.5-2 times, strength with increased not less than 1.5-2 times frost resistance, high decorativeness of its front surfaces that mimic the texture of the surface of natural stone, for example, characteristic of marble. This is due to the fact that the selected composition of the brick, i.e. limestone of the corresponding fraction and Portland cement, in which limestone enters in an active state, in the presence of the indicated amount of water and when pressed under the indicated pressure, allows creating a physico-chemical structure of the product with new properties, uniform in its properties, in the building brick. Strengthening of structural bonds due to the fact that under such compression there is a deformation of the molecules, which in turn leads to a change in the ground energy state of the system and the configuration of the interaction in the molecules, as well as an increase in the strength and frost resistance of the brick.

The invention is illustrated by a specific example of their implementation and the drawing, which shows a set of equipment for the production of building bricks.

In our example, the front brick, which has the shape of a solid rectangular parallelepiped with clear edges, is presented as building brick. The front surface of the brick can be either smooth or embossed. In this case, the unevenness of the relief front surface of the brick is at least 25 mm. Moreover, the building element, in particular the front brick, has a compressive strength of at least 75 kg / cm ² and frost resistance of at least 35 freezing cycles.

Building bricks, in particular facing bricks, are made of a mixture containing limestone with a particle size of not more than 8 mm 88 wt.% And Portland cement grade 400, in particular PC 400-D20 according to GOST 10178, 12 wt.%, Moistened to a moisture content of 3% by pressing it under a pressure of 16 MPa for 3 s, keeping it to a set strength of at least 50% of the strength of the finished brick.

Slag Portland cement can also be used as a binder.

To add color to building bricks, dyes can be introduced, for example, pigments recommended by GOST 17608-91: to obtain red color, red minium iron, to obtain green color, chromium oxide, etc. Building elements may contain pigment up to 9 wt.% By weight of the binder.

A method for the production of building bricks, in particular facing bricks, involves the preparation of a mixture containing limestone 87 wt.% With a particle size of not more than 8 mm and Portland cement grade 400 13 wt.%., By mixing the components with water moistening to achieve the finished mixture 5% humidity and subsequent molding of products by pressing with a pressing pressure of 17.0 MPa.

In a forced-action mixer, such as a paddle mixer, with the mixing components being supplied from the bottom up, the dosed quantities of limestone with a particle size of not more than 8 mm, Portland cement and water, the amount of which is traditionally calculated based on the initial limestone moisture, the initial cement moisture, and the final 5% humidity of the finished mixture.

The loaded components are mixed for at least 2 minutes.

To obtain a brick of the color required by the technological regulations, dyes - pigments, which are recommended by regulatory acts, for example, GOST 17608-91, can be introduced into the mixture.

The mixture obtained after mixing is fed to the molding of products, which is carried out by hyperpressure with a pressing pressure of 17 MPa for, for example, 5 seconds.

Molded bricks laid in a pallet immediately after molding can be subjected to heat-moisture treatment with saturated steam, which can be carried out at a relative humidity of the vapor-air medium of at least 80% with isothermal heating for at least 4 hours at a temperature of at least 75 ° C.

In the summer, at high ambient temperatures, heat treatment may be excluded from the technological process, but at the same time, the products are placed up to a set of tempering strength in open areas under conditions creating a relative humidity of 85-95%, for example, packed in a plastic film.

At the end of heat-moisture treatment or holding for a set of tempering strength, which should be at least 50% of the brand strength of the products, bricks with a smooth surface that does not require further refinement are obtained, unless a brick with a relief front surface is specified by special technological regulations.

To obtain a relief surface, each of the faces of the made brick, which is the front, is subjected to mechanical processing by chipping with the formation of bumps, the depth of which is not less than 25 mm, by means of a press with a needle working surface.

Finished products are stacked on pallets and sent for packaging and labeling.

Packed bricks in sealed material, for example in plastic film, and fixed on pallets, for example, using polypropylene tape designed for this purpose.

The claimed method for the production of building elements is carried out using a set of equipment for the production of building bricks, containing module 1 for preparing and supplying limestone, module 2 for dosing raw materials, module 3 for preparing concrete mix, module 4 for molding products, and module 5 for packaging, labeling and warehousing of finished products.

A set of equipment for the production of building bricks can be equipped with module 6 heat-moisture treatment of products.

A set of equipment for the production of building bricks can be equipped with a module for machining bricks to create a embossed front surface, which can be made in the form of a traditional press, for example, a hydraulic press, with a needle working surface (not shown in the drawing) to form bumps by chipping.

Limestone preparation module 1 consists of limestone receiving hopper 7 installed during the technological process, crusher 8, vibrating screen 9, sorted limestone storage hopper 10, technologically connected by unloading and loading devices 11, for example, belt conveyors, and limestone supplying mechanism 12, made for example , in the form of a bucket elevator.

The limestone receiving hopper 7 has in its upper part an inclined grate equipped with a vibrator (not shown in the drawing) to separate limestone with a particle size of less than 100 mm.

Crusher 8 is made traditional, for example, shock, with ball grinding elements.

Vibrating screen 9 is a box with built-in vibrators and two sieves arranged one above the other to separate limestone with a particle size of less than 8 mm.

The storage hopper 10 of the sorted limestone may be provided with a level indicator.

The raw materials dosing module 2 consists of a limestone dispenser 13, a cement dispenser 14 and a water dispenser 15. The raw material dosing module 2 may be provided with a pigment dispenser (not shown in the drawing).

The limestone dispenser 13 consists of a hopper, a weighing device and a feeder, made, for example, in the form of a conveyor belt.

The binder dispenser 14 consists of a hopper, a weighing device and a shutter. In our example, dispenser 14 can also be used to dispense pigment.

The water dispenser 15 is volumetric.

Module 3 preparation of concrete mixture contains a receiving and distribution tray 16, at least one mixer 17 and a feeder 18.

The receiving and distribution tray 16 is equipped with a guide gate, through which it is possible to alternately direct the components to one or the other mixer, if there are two mixers 17.

Module 4 molding products made in the form of at least one press 19 (with a pressing pressure of 15.0 to 20.9 MPa), equipped with a receiving hopper. In our example, the molding module will have three hydraulic presses 19, each of which is equipped with a receiving hopper. In this case, the module 4 molding products can be equipped with a loading and unloading device with a ejector 20, for example plow, located above the receiving hopper of the press 19.

The module 6 of the heat-moisture treatment of products can be made in the form of at least one isothermal steaming chamber, for example, of periodic operation, equipped with heaters, for example heaters, and with a temperature regulator brought out to control the operation of heaters to maintain the temperature inside the isothermal chamber in a predetermined process temperature range.

The isothermal chamber of module 6 can be a traditional design, the length of which is selected so that it can accommodate the number of pallets with bricks specified by the technological process (for simplicity, one pallet is shown in the drawing),

The isothermal chamber of module 6 can be a traditional U-shaped tunnel design, for example, assembled from traditionally insulated thermal panels mounted on racks. The ends of the isothermal chamber of module 6 can be closed by the entrance and exit doors.

Module 5 for packaging, marking and warehousing of finished products includes a traditional packaging machine for packing bricks in a sealed material, such as plastic wrap, pallets on wheels and a stamping device.

A set of equipment for the production of building bricks works as follows.

Limestone is fed into the receiving hopper 7 of the limestone preparation module 1. On the inclined grate of the receiving hopper 7, limestone with a particle size of more than 100 mm enters the crusher 8. Limestone with a particle size of less than 100 mm enters through a sieve 9 through one of the unloading and loading devices 11.

Limestone enters the upper sieve of the vibrating screen 9 and, thanks to the inclined installation and oscillatory movements of the box, is transported to the discharge opening, while being sifted through the sieve openings. At the same time, a limestone fraction of less than 8 mm enters the storage hopper 10, and limestone of a fraction of more than 8 mm is returned by one of the unloading and loading devices 11 to the crusher 8, from where the crushed limestone again returns to the vibrating screen 9 by another unloading and loading device, and from it to storage hopper 10. When filling the storage hopper 10 with limestone, the signal from the level indicator disables further limestone supply.

By means of a loading and unloading device and bucket-type elevator 12, limestone from the storage hopper 30 enters the lime batcher 13 of the batching module 2.

From the storage hopper, cement is fed through a screw conveyor to a dispenser 14, which can also be used to dispense pigment if it is necessary to introduce a dye into the brick.

Filling the dispenser 13 with limestone and the dispenser 14 with cement is carried out simultaneously. Cement and pigment in the dispenser 14 are loaded alternately.

In the water dispenser 15 of the dosing module 2, water enters from the storage tank (not shown in the drawing) if necessary.

Dispensed amounts of limestone with a particle size of not more than 8 mm, Portland cement for concrete grade 400 through the receiving and distribution tray 16 is loaded into one of the mixers 17 of the module 3 for the preparation of concrete mix. The calculated amount of water is also introduced into the same mixer if the intrinsic moisture of limestone or Portland cement is not enough to achieve a finished mixture of 3-10% moisture. The loaded components are mixed for at least 2 minutes.

The mixture obtained after mixing by the feeder 18 is fed to a loading and unloading device with a dropper 20 of the product molding module 4, which, in turn, feeds the mixture through the receiving hopper of the corresponding hydraulic press 19 to the product molding, which is carried out by means of hyperpressure with a compression pressure of 18 MPa for for example, 6 seconds.

Molded bricks laid on a pallet immediately after molding can be subjected to heat-moisture treatment with saturated steam in an isothermal steaming chamber of module 6 of the heat-moisture treatment of products.

Heat-moisture treatment of molded bricks is carried out at a relative humidity of the vapor-air medium of at least 80% with isothermal heating for at least 4 hours at a temperature of at least 75 ° C.

At the end of heat-moisture treatment or exposure to a set of tempering strength, bricks with a smooth surface that does not require further refinement are obtained, unless a brick with a relief front surface is specified by special technological regulations.

To obtain a relief surface, the finished bricks are fed to the working body of the module for machining bricks to form bumps, the depth of which is not less than 25 mm, by shearing by means of a press with a needle working surface

Finished products are stacked on pallets and sent for packaging and labeling.

Pack bricks in sealed material, for example in plastic film, using the packaging machine of module 5 for packaging, marking the storage of finished products, which are fixed on pallets on wheels, for example, using polypropylene tape designed for this purpose. Using a stamping device, bricks are marked in each pallet one at a time in the upper and lower rows by applying the corresponding information to the indelible paint on the visible surface.

Example.

The brick is front, has the form of a monolithic rectangular parallelepiped with clear edges and side dimensions of 250 × 120 × 65 mm. The front surface is decorative, without additional decoration: the natural white color of the stone with grayish streaks characteristic of marble.

The brick has a composition, wt.%:

Limestone 86 Portland cement 400 fourteen

Moreover, the front brick has a compressive strength of 225 kg / cm ² , which is about 1.5 times higher compared to the known front brick, and the frost resistance is 75 freezing cycles, which is about 2 times higher.

For the production of the claimed face brick, 86 wt.% Limestone with a particle size of 7 mm is taken, Portland cement 400 14 wt.%. and water 0.5 wt.%.

Portland cement was used for 400 brand concrete, in particular ПЦ 400-Д20 but GOST 10178. No pigment was added.

Front brick was produced as follows.

Limestone is fed into the receiving hopper 7 of the limestone preparation module 1. According to the inclined grate of the receiving hopper 7, limestone with a particle size of more than 100 mm enters the crusher 8. Limestone with a particle size of less than 100 mm enters through a belt conveyor 11 onto a vibrating screen 9. The limestone enters the upper screen of the vibrating screen 9 and is transported due to the inclined installation and oscillatory movements of the box to the unloader while sifting through the sieve openings. In this case, a limestone fraction of less than 8 mm enters the storage hopper 10, and limestone of a fraction of more than 8 mm is returned by one of the conveyors 1 to the crusher 8, from where the crushed limestone returns to the vibrating screen 9 through another conveyor, and from it to the storage hopper 10 . When filling the storage hopper 10 with limestone, the signal from the level gauge disables the further supply of limestone.

By means of a belt conveyor and bucket-type elevator 12, limestone from the storage hopper 10 enters the lime batcher 13 of the batching module 2.

From the storage hopper, cement is fed through a screw conveyor to the dispenser 14.

Filling the dispenser 13 with limestone and the dispenser 14 with cement is carried out simultaneously.

In the water dispenser 15 of the dosing module 2, water enters from the storage tank (not shown in the drawing) if necessary.

Dispensed amounts of limestone with a particle size of not more than 7 mm, Portland cement for brand 400 concrete through the receiving and distribution tray 16 is loaded first into one of the mixers 17 of the module 3 for the preparation of the mixture, and then to the second. A metered amount of water is also introduced into the same mixer. The loaded components are mixed for 3 minutes.

The mixture obtained after mixing by the feeder 18 is fed to a loading and unloading device with a dropper 20 of the product molding module 4, which in turn feeds the mixture through the receiving hopper of the corresponding hydraulic press 19 to the product molding, which is carried out by means of hyperpressing with a pressing pressure of 20.0 MPa for 16 seconds

Molded bricks are laid on a pallet. Immediately after molding, the brick pallet is subjected to heat-moisture treatment with saturated steam in an isothermal steaming chamber of module 6 of the heat-moisture treatment of products at a relative humidity of the vapor-air medium of 84% with isothermal heating for 5 hours at a temperature of 75 ° C.

At the end of the heat-moisture treatment, bricks with a smooth surface that does not require further refinement were obtained.

Finished products are packaged in plastic film using a packaging machine module 5 packaging, labeling and warehousing of finished products. The packed bricks are fixed on pallets on wheels using polypropylene tape designed for this purpose. Using a stamping device, bricks are marked in each pallet, one in the upper and lower rows, by applying the corresponding information to the indelible paint on the visible surface.

Labeled products are exported to the finished goods warehouse. Thus, the use of the claimed inventions: building bricks, a method for the production of building bricks and a set of equipment for the production of building bricks - makes it possible to solve the problem of both expanding their arsenal and increasing the decorativeness of the front surface, which mimics the surface texture of natural stone, made bricks with increased strength and frost resistance of a brick.

Claims (24)

1. Building wall brick in the form of a monolithic polyhedron, made of a mixture characterized by a moisture content of 3-10%, containing limestone with a particle size of not more than 8 mm, Portland cement grade not lower than 400 as a binder with their ratio, wt.%: Indicated Limestone 85.1-90.0 Portland cement brand not lower than 400 10.0-14.9 pressing it at a pressure of 15.0–20.9 MPa for 2–9.9 s and heat-moisture treatment or maintaining it to a set strength of at least 50% of the brand strength of the finished brick. 2. The building wall brick according to claim 1, characterized in that it is made of a mixture additionally containing pigment in an amount of up to 9% by weight of the binder. 3. The building wall brick according to claim 1, characterized in that it has a compressive strength of at least 75 kg / cm ² and frost resistance of at least 35 freeze-thaw cycles. 4. Building wall brick according to claim 1 or 2, characterized in that it has a relief front surface with a roughness of at least 25 mm. 5. A method of manufacturing a building wall brick according to claim 1, comprising preparing a mixture by mixing limestone with a particle size of not more than 8 mm and Portland cement grade not less than 400 as a binder in their ratio, wt.%: Indicated Limestone 85.1-90.0 Portland cement brand not lower than 400 10.0-14.9 with the introduction, if necessary, of water until the moisture content of the mixture reaches 3-10%, molding the mixture by pressing at a pressure of 15.0-20.9 MPa for 2-9.9 s and subsequent heat-moisture treatment or maintaining until a set strength of at least 50% of the brand strength of the finished brick. 6. A method of manufacturing a building wall brick according to claim 5, characterized in that the heat-moisture treatment is carried out using saturated steam. 7. A method of manufacturing a building wall brick according to claim 5, characterized in that the heat-moisture treatment is carried out at a relative humidity of the steam-air mixture of at least 80% with isothermal heating for at least 4 hours at a temperature of at least 75 ° C. 8. A method of manufacturing a building wall brick according to claim 5, characterized in that in the summer period at high ambient temperature the formed bricks are kept packed in a plastic film. 9. A method of manufacturing a building wall brick according to claim 5, characterized in that each of the face faces of the made brick is subjected to machining to give it a relief surface. 10. A method of manufacturing a building wall brick according to claim 9, characterized in that the embossed front surface is performed with a roughness height of at least 25 mm. 11. A set of equipment for the manufacture of building wall bricks according to claims 1 to 4 by the method according to claims 5-10, comprising a limestone preparation and supply module, a dosing module, including binder, limestone and water batchers, a mixture preparation module, a molding module in the form of, at least one press providing a pressing pressure of 15.0-20.9 MPa, equipped with a receiving hopper, a module of heat and moisture treatment, a module for packaging, labeling and storage of finished products. 12. The set of equipment according to claim 11, characterized in that the limestone preparation module consists of a limestone receiving hopper, crusher, vibrating screen, sorted limestone storage hopper technologically connected by unloading and loading devices, and a limestone feeding mechanism, installed during the technological process. 13. The set of equipment according to p. 12, characterized in that the limestone receiving hopper has in its upper part an inclined grating for separating limestone with a particle size of less than 100 mm, equipped with a vibrator. 14. The set of equipment according to item 12, characterized in that the crusher is made of impact with ball grinding elements. 15. The set of equipment according to claim 12, characterized in that the vibrating screen is made in the form of a box with built-in vibrators and two screens located one above the other to separate limestone with a particle size of less than 8 mm. 16. The set of equipment according to p. 12, characterized in that the hopper storage of sorted limestone is equipped with a level indicator. 17. The set of equipment according to p. 12, characterized in that the limestone feed mechanism is made in the form of a bucket elevator. 18. The set of equipment according to claim 11, characterized in that the dosing module of raw materials is equipped with a pigment dispenser. 19. The set of equipment according to claim 11, characterized in that the concrete mixture preparation module comprises a receiving and distribution tray, at least one mixer and feeder. 20. The set of equipment according to claim 11, characterized in that the brick forming module is equipped with a loading and unloading device with a ejector located above the press receiving hopper. 21. The set of equipment according to claim 20, characterized in that the resetter of the brick molding module is made of plow. 22. The set of equipment according to claim 11, characterized in that the press of the brick forming module is hydraulic. 24. The set of equipment according to claim 11, characterized in that it is equipped with a module of heat-moisture treatment of products made in the form of at least one isothermal chamber. 25. The set of equipment according to claim 11, characterized in that it is equipped with a module for machining bricks to create a relief front surface, made in the form of a press with a needle working surface for the formation of bumps.