WO2018088928A1 - Universal complex for the production of synthetic innovative materials - Google Patents

Abstract

The invention relates to a facility in the form of production lines for preparing products/mixtures in a liquid medium, and is aimed at broadening the range of equipment (replacing a mixer, dissolver, bead mill, emulsifier, oxidizing chamber,etc.) and creating a universal complex for the production of synthetic innovative materials (UniCom), which has enhanced performance characteristics by virtue of reducing the length of the production process and improving the qualitative characteristics of the products (reducing dispersion, increasing adhesion, and reducing drying times), as well as reducing energy consumption and work space, and also enabling the production of nano particles of chemical elements. The present complex for the production of synthetic innovative materials contains a mixing vessel for loading initial materials, which consists of: two containers fitted one inside the other to form a water jacket or an oil jacket; tubular electric heaters; and a large cutter and a small cutter, said mixing vessel being connected by a pipeline, via a coarse filter and a pumping station, to an electromagnetic activator that is connected by the pipeline to a fine filter that is connected by the pipeline, via the small cutter, to the mixing vessel for emulsification of the mixture.

Description

 one

 Universal complex of synthesized innovative materials

The invention relates to a plant in the form of production lines for preparing products / mixtures in a liquid medium and is used in the manufacture of paints and varnishes, and can also be used in the processing of petroleum products, chemical and food, in the production of building materials (coatings, concrete, concrete products, etc.) .p.), as well as the production of nano-particles of chemical elements for the pharmaceutical industry, etc. (nano-particles serve as additives in the chemical, food, machine tool, aircraft, instrument making and machine building hydrochloric industry), in shipbuilding, machine tools, aerospace and t. D-

The prior art installation for the manufacture of lime paint, containing a stirring device, a pre-filter, an intermediate tank, a pump, a filter and a settling tank with an opening for draining water in the lower part and a water-permeable bag installed under it. The installation additionally contains a paint grater and a fine filter (RU 27592, 02/10/2003).

 A known installation of continuous operation for the production of varnish (enamel) paints, consisting of hopper devices designed; one for pigment and one for varnish; metering devices; mixers and dispersing devices. A filtering device and filling devices are installed at the output of the line. The mixture is circulated by pumps. Coarse pigment is fed from the hoppers into the mixer through a bulk materials dispenser and varnish (up to 50% of the total amount) through a dispenser. From the mixer, the mixture is pumped into a dispersing device consisting of three sequentially connected vibrators (SU 139763, 01.01.1961).

A known installation for the preparation of products in shaking, swinging and vibrating devices, containing equipped with shock absorbers installed with the possibility of spatial movement in three mutually perpendicular planes, a mixer with a spring fixed inside the entire length. The mixer is made around the perimeter in the form of a multiple screw surface with helical lines around the perimeter and helical grooves inside the mixer at an angle of 5 ° -30 ° to the axis of the mixer and mounted at least one strip bent in straight lines placed at an angle to the edges of the strip with the formation of parallelograms located on the strip alternately in opposite directions, while the strip is folded into cylindrical coils connected to each other along the longitudinal edges, with the formation along the perimeter of unidirectional broken helical lines and broken helical triangular pockets along the outer and inner surfaces of the mixer, and the pockets along the inner surface of the mixer differ from the dimensions Armana on the outer surface. A wave-shaped spring with a flat section of coils is mounted along the entire length of the mixer, which is equipped with a device for changing the pitch of the coils by stretching or compressing it (RU 2525901, 08/20/2014).

 The disadvantage of these installations is the narrow scope, as well as the duration of the process and low quality characteristics of the finished product.

 The technical problem to which the proposed invention is directed is to create a complex for producing ultrafine products in a liquid medium, the parameters of which provide improved manufacturing techniques and eliminate the other drawbacks mentioned above.

 The technical result achieved by the implementation of this invention is to expand the arsenal of technical means (replaces the mixer, disolver, bead mill, emulsifier, oxidation chamber, etc.) and create a universal complex of synthesized innovative material “UniCom” with improved performance due to reducing the time of the process, improving the quality characteristics of the products: reducing dispersion, increasing adhesion, reducing the drying time and shortening scheniya power and working area.

The specified technical result in a complex of synthesized innovative materials containing a mixing tank for loading the starting materials, consisting of two containers entering one into the other, forming a “water jacket” or “oil jacket”, electrotenes, cutters large and small, and connected through a filter through a pipe rough purification and through a pumping station with an electromagnetic activator, which is connected through a pipeline to a fine filter, connected through a pipeline through a small mill with a mixing tank for emulsifying the mixture.

 Universal complex of synthesized innovative materials

UniCom is a rigid welded frame that serves as the base and on which are installed: a mixing tank with an electric motor, an electromagnetic activator, a pumping station, a coarse filter, a fine filter and a pipeline.

 Universal complex of synthesized innovative materials

UniKom contains a control panel for the technological cycle from loading of raw materials to the release of finished products, located separately and connected to the complex by a cable, which is located in a grounded metal pipe to ensure electrical safety.

 The control panel includes an electromagnetic starter, a thermal relay, a frequency meter, control sensors, and on the front panel of the control panel there are control buttons, an activator regulator by current strength, a large mill speed regulator, a pump station speed regulator, indicators of the protective system against overloads, liquid temperature indicators in a "water shirt" or "oil shirt."

 The pipeline is made of a polymer, or stainless, or glass tube and connects the nodes of the complex through cork taps made of stainless steel.

 The universal complex of synthesized innovative materials “UniCom” is equipped with two pressure gauges for monitoring pressure in the pipeline and in the nodes of the complex, with one manometer being a working one and the other a controlling one.

The mixing tank is made with an electric motor or gearbox; at the same time, a safety valve is installed in the upper part of the mixing tank, and a tap for collecting and draining water from the “water jacket” or “oil jacket” is installed in the lower side, and a crane for emergency discharge of the mixed source material. The mixing tank is equipped with a loading hatch cover, which is made with the possibility of tight closure after loading is completed, while milling cutters large and small are fixed to the cover of the loading hatch, an electric motor with a reducer is installed, and a hermetically sealed loading hatch is installed, which ensures the ecology of the working area. The mixing tank has a cone-shaped lower part and an upper one, in which the loading hatch is located, and is made with emergency shut-off valves. Mechanical feeders are installed on the loading hatch: screw or staple, for loading the starting materials from the dispensers. The big milling cutter is made with a vertical axis and is of the “herringbone” type, while the small milling cutter is made with a hydraulic pressure regulator.

 The activator has a cylindrical shape and acts as a bead mill and consists of a polymer pipe with an electromagnetic coil wound on it, polymer baskets with grinding bodies are located inside the pipe, and three fans for cooling are installed in the activator body. In the activator, the components of the mixture of products are crushed by a continuous continuous method, as well as its activation in an e / magnetic field to change the physicochemical quality characteristics of the processed material.

 The claimed complex for producing ultrafine products changes the quality characteristics of the processed material at the physico-chemical level, i.e. in the electromagnetic activator there is a change at the atomic level, and the emulsion of the material when creating the receipt forces produces a change at the molecular level.

 The activation of the material (matter) takes place in boiling, vector, rotating magnetic fields, a solid magnetic field test is currently underway and in the future it is planned to conduct tests in a pulsed dense magnetic field, plasma and other magnetic fields.

The invention is illustrated by drawings, where in FIG. 1 shows a schematic diagram of a universal complex of synthesized innovative materials “UniCom”; in FIG. 2 - side view of the universal complex of synthesized innovative materials “UniCom”; in FIG. 3 - hydraulic diagram of the universal complex of synthesized innovative materials “UniCom”; in FIG. 4 - electromagnetic activator. Note: mechanical and electrical circuits are carried out in accordance with the technological regulations or the requirements of ISO, the processed material, i.e. from the qualitative characteristics of the raw material.

 The implementation of the invention is described by the example of the universal complex of synthesized innovative materials “UniCom” (a complex for producing synthesized products), with the help of which paints and varnishes (paints) are obtained with a decrease in the process time and with an improvement in the quality characteristics of products: reduction of dispersion, increase of adhesion, reduction of time drying out etc.

 The universal complex of synthesized innovative materials “UniCom” is designed to work indoors or outdoors under a canopy with a lower limit value of operating air temperature from + 5 ° C (0 ° C is allowed - for a short time) at a humidity of not more than 65%.

 Universal complex of synthesized innovative materials

UniCom has a stationary version, it can be used, for example, on modern paint and varnish production lines for the production of paints of various bases (oil, acrylic, pentaphthalic, oil-styrene, water-dispersion, etc.), replacing a number of standard equipment, namely: mixer - disolver, bead mill, emulsifier (homogenizer), filtering and pumping equipment.

 The universal complex of synthesized innovative materials “UniCom” consists of a rigid welded frame 8 on vibration mounts 17 (represents a welded structure), which serves as the basis on which are installed: mixing tank 1 with electric motor 2 (gearbox, gearmotor), electromagnetic activator 3, pump station 4 (gear pump with electric motor 16), coarse filter 5, fine filter 6, pipeline 7 with valves (ball valves 18) and a separate control panel.

Frame 8 is made of a profile pipe. To simplify the assembly technology, all nodes of the frame 8 are welded. Clamps are welded on the left side of the frame8 for attaching the coarse filter 5. On the right side there is an attachment point for the activator 3. One frame is welded to the frame 8, the other can move vertically on the heels. The activator 3 is inserted on a fixed the frame, the movable frame is put on top and attracted by bolts. A 5 mm thick steel plate is welded to the rear of frame 8. A pump station 4 is attached to it. At the bottom of the frame 8, bosses are welded at the corners to install the vibration mounts 17. Structurally, the frame 8 is made in such a way that each element gives the frame 8 additional rigidity, which increases the strength of the frame 8 and reduces vibration during operation of the installation. The use of a profile pipe made the installation quite easy and at the same time reliable.

Mixing tank 1 is a welded metal structure with a cone-shaped lower and upper flat parts and it includes: two containers (one into the other) forming a “water jacket” 13, electrotenes 15, a mill 9 and a small mill 14 (emulsifier), emergency shut-off valves plum. A loading hatch 12 with a cover is located in the upper part of the mixing tank 1 and a safety valve is installed, and in the lower side part there is a tap (cork tap) for collecting and draining water from the “water jacket” 13, in which the water is heated by tubular electric heaters (TENs), crane for emergency discharge of mixed feed material. The design of the loading hatch 12 allows the use of mechanical feeders of almost all structures (screw, drum, elevator, belt feeders) for loading materials, as well as manual loading. On the cover of the upper part of the mixing tank 1, cutters large 9 are fixed by means of a bearing assembly 10 and a small one, an electric motor 1 1 with a gearbox is installed, and a hermetically sealed loading hatch 12 is installed, which ensures the ecology of the working area. Mixing tank 1 is made of alloy steel sheet. A steel ring is welded to the bottom of the inner shell to give structural rigidity. There are three holes in the ring, from the outside to which are threaded bosses into which the heating elements are screwed to heat the water in the “water jacket” 13. Also in the ring there is an opening to which a pipe with a thread is welded to drain the water from the “water jacket” 13. The outer shell is made of sheet steel 3. Inside the walls of the “water jacket” 13 are painted with paint against corrosion. In the lower part of the cone there is a hole to which a pipe with a thread is welded emergency crane 19. In this pipe there is a hole to which a pipe with a thread is welded to which the hydraulic system of the installation is connected. In the upper part, the outer and inner shells are connected by plates of steel strip. Mixing tank 1 is welded to the vertical racks of the frame 8. For emphasis, the corners are welded to the racks of the frame 8. When welding tank 1, electric arc welding with tungsten electrodes in a shielding gas medium (argon) was used. In the upper part of the mixing tank 1, there is a support unit for a large 9 cutter with a vertical axis (herringbone type), a small 14 cutter with a hydraulic pressure regulator (ball valve). The big mill 9 is connected to the gear motor through the shaft of the bearing assembly, which is fixed to the metal cover of the complex with bolts through a rubber band. Two angular contact bearings are used in the bearing assembly. Big 9 mill is a forced-action herringbone-type paddle-type mixing device designed to mix liquid, viscous and hardly soluble components and to obtain in the working cavity containers of technological solutions, mixtures, emulsions and suspensions of the necessary concentration and consistency, and made of steel pipe and steel plates (blades). Steel plates / strips are welded to the steel pipe at an angle and rotated clockwise along the longitudinal axis. Due to this, the five upper steel plates (blades) direct the mixture to the lower part of the tank, the sixth lower steel plate (blade) creates a counter flow, which contributes to better mixing of the starting materials (working mixture). The big mill 9 is put on the shaft of the bearing assembly and is fastened with a stud with two nuts and centered with two bolts. Through the shaft of the bearing assembly, the mill 9 will be connected to the gearmotor. TEN consists of a metal case; filler; spirals; contact rod in the seal; sealant; insulator; contact rod. Small mill 14 (emulsifier) allows to obtain stable emulsions of various viscosities, provides high quality and exceptional durability of emulsions, economical consumption of surface-active substances, and reduced energy consumption. Using a gear pump ensures high-quality homogenization of mixtures at low pressures, which makes this small cutter 14 safe to use. Small milling cutter 14 made of pipe, a groove is made in the lower part, in which holes are drilled. Passing through the holes in the milling cutter of small medium 14 are mixed, and large particles that make up the mixture are divided into small ones. When the mixture moves to the outlet, it is further crushed due to the cavitation effect, which is enhanced by reduced pressure. A thread has been cut in the upper part of the small cutter 14 for connection to the pipeline 7, and at the bottom there is a plug for washing the cutter 14. The small cutter 14 is attached to the lid of the mixing tank 1, touching directly the wall of the tank 1. A flange with a groove is welded on for fastening so that it was possible to correctly determine the location of the holes of the cutter 14. Between the flange and the cover is a gasket made of oil-resistant rubber. To flush the cutter 14, it is necessary to disconnect it from the pipeline 7, unscrew the bolts on the flange and remove it from the mixing tank 1, then unscrew the plug and rinse.

The activator 3 in addition to activating the material also acts as a bead mill and consists of a sleeve 19 (a polymer pipe with an electromagnetic coil wound around it), a first basket 20, a second basket 21, a third basket 22, an upper fitting 23, gaskets 24, an upper cover 25, a mesh 26, outer ring 27, housing 28, grinding body 29, electromagnetic coil 30, supply fans 31, exhaust fan 32, terminal box 33, lower fitting 34, lower cover 35. Inside the sleeve 19 there are (polymer) baskets 20 - 22 with grinding bodies 29. On the sleeve 19 Nama The electromagnetic coil 30 is shielded by a copper wire. By changing the direction of the electromagnetic field, the grinding bodies 29 change the direction of motion and grind the mixture, thereby reducing the dispersion of solid particles. In addition, due to changes in the flow area, flow turbulence occurs, which also improves the grinding of solid particles. As grinding media 29 barium ferromagnetic balls or permanent magnets made of other material are used. Balls are poured into basket 20 and basket 21. Stainless steel meshes 26 are soldered into baskets with a middle wire mesh. The mixture is supplied to the activator 3 through the upper fitting 23 and exits through the lower fitting 34. The fittings 23, 34 are threaded for coupling with the pipe 7 and screwed to the caps 25, 35 with bolts. Between lids 25, 35 and fittings 23, 34 put gaskets 24 made of oil-resistant rubber. Covers 25, 35 are bolted. The activator 3 has a steel casing 28, in which the supply fans 31 and the exhaust fan 32 are mounted. The fans 31, 32 are used to cool the coil 30. To control the temperature in the coil 30 there is a thermocouple that goes to the temperature controller. In addition, on the housing 28 of the activator 3 there is a terminal box 33, which leads the wires of the coil 30, fans 31, 32 and thermocouples.

 As the pumping station 4, hydraulic pumps are used — gear, hydraulic, designed to pump the working fluid into hydraulic systems. The direction of rotation of the pump shaft is indicated on its housing. The pump consists of a housing, a cover and a pumping unit. The pumping unit consists of the driving and driven gears, two plates, anti-friction liners and sealing cuffs. The injection of the working fluid is carried out using the leading and driven gears located between the bearing and clamping cages and plates. Bearing cage with anti-friction liners installed on it serve as a single support for all pinions of gears. The clamping ring under the influence of the pressure of the working fluid in the cavity of the cuff seals on the periphery of the gear teeth from the high pressure side. The support plate serves to close the gap between the housing and the clamping clip. The lateral surfaces of the gears are sealed with two plates under the influence of the working fluid pressure in the cavities with end cuffs. The working edges of the end cuffs are protected from extrusion into the end gaps by plates, rings and safety gaskets. The drive shaft of the pump is sealed by cuffs, which are fixed by a stop and a spring ring. The centering of the drive shaft of the pumping unit relative to the mounting collar of the housing is provided by the sleeve. The joint of the housing with the cover is sealed with a rubber ring, and the drive end of the drive gear shaft with rubber self-clamping cuffs.

The coarse filter 5 is designed to protect the pumping station 4 from foreign objects that may be in mineral additives and from the ingress of large undissolved pieces of mineral additives into the pumping station 4 and other components of the complex. Filter housing 5 is made of pipes to which the bottom and two rings are welded - external for fastening the filter cover 5 and internal for fastening the filter element. Two nozzles are welded into the body, one for the entrance and one for the exit of the mixture. A pipe is welded into the lower part of the body to drain the sludge when washing the filter 5. There are 8 threaded holes in the outer mounting ring for attaching the cover. Between the cover and the body there is a gasket made of oil resistant rubber. The inner mounting ring has 8 threaded holes for attaching the filter element. The filter element is made of stainless mesh. The mesh is welded to the upper and lower rings. The upper ring serves to attach the filter element, the lower one for the stiffness of the element.

 The fine filter 6 (standard equipment) is made of stainless steel for liquid filtration with the replacement of the standard filter with a fine metal mesh, which traps small not dispersed particles of the mixed / dispersible material after the activator 3.

 For the pipeline 7 of the complex, a polymer pipe and / or pipe made of stainless steel and / or glass and / or non-ferrous metal was used. The pipeline 7 connects the main technical nodes of the complex through cork cranes made of stainless steel.

 The control panel of the technological process (from loading of raw materials to the release of finished products) is located separately from the complex and is connected to it by a cable, which is located in a grounded metal pipe to ensure electrical safety. The control panel (metal case / casing / box of the 5th degree of protection) includes: electromagnetic starter, relay, frequency converter, control sensors. On the front panel of the control panel there are START and STOP buttons, an activator regulator by current strength, a large mill speed regulator, a pump station speed regulator, indicators of the protective system against overloads, liquid temperature indicators in a "water jacket".

The claimed complex is equipped with two pressure gauges for monitoring pressure in the pipeline 7 and in the main technical units. One pressure gauge is a working one, the second is a controlling one. The UniKom universal complex of synthesized innovative materials is supplied to the customer in a partially disassembled form, specially prepared for transportation, according to the picking list. Installation of the complex is carried out in the following sequence:

 1) a frame with a mixing tank is installed on the main concrete (wooden) floor (fixing to the floor with anchor bolts is allowed) strictly observing its horizontal position;

 2) the pumping station is bolted to the lower frame;

 3) filters are installed on the designated (marked) place of the frame with the mixing tank;

 4) an activator is installed using anchor bolts in a specially designated place (marked) with a mixing tank;

 5) an electric motor with a reducer is installed on the top cover of the mixing tank, to which a large mill is attached;

 6) a small milling cutter is inserted into a special (marked) socket (hole) on the top cover of the mixing tank and fixed with bolts;

 7) the pipeline is assembled according to the designation marked on it;

8) the control panel with electrical equipment is installed separately (attached with anchor bolts to the wall of the room, column or to a specially made rack). The control panel is connected to the complex with an electric cable.

 If necessary, mechanical feeders for loading bulk materials are connected to the loading hatch of the mixing tank.

 Preparatory work:

 - turn on the control panel electric water heating in the "water jacket" of the mixing tank;

 - we check the operability of all nodes of the complex, filter, and at the same time close cork cranes to avoid loss of materials.

 The next stage of work:

 - turn on a large mill of the mixing tank (the mill of the mixer works constantly);

Liquid materials (film-forming) are pumped through the pumping station into the mixing tank and run through the pipeline system and all nodes through a small mill for 15-20 minutes. 17 000061

 12

 - dry components are filled through the loading hatch according to the recipes and run through the pipeline system and all nodes within 15 - 100 minutes.

 The loading of the components of the mixture of the source material from the tank of liquid components through the dispenser is carried out in the mixing tank through the cover of the loading hatch, which is hermetically closed after loading. Mechanical feeders (screw, staple, etc.) can be installed on the loading hatch for loading raw materials from dispensers. The materials that make up the mixes are mixed (dispersed) due to the design of a large mill, which provides a uniform and accelerated process when mixing.

 From the mixing tank through the coarse filter and through the pumping station, the mixed mixture is piped into the activator with grinding media, in which the mixed components are further crushed by a continuous continuous method. Thus, a high homogeneity of the mixture is ensured with a minimum mixing time.

 From the activator, through the pipeline, the mixed liquid enters the fine filter, where large particles that are not dispersed are retained (filter mesh from Yumkm or more). Pressure gauges control the pressure in the pipeline.

 After the fine filter, the mixture flows through a pipeline into the mixing tank through a small mill. At this stage, the mixture undergoes an emulsification process (splitting of coagulated particles).

 After the mixture has been prepared, using the ball discharge valve of the complex through the discharge pipe, the mixture is discharged from the mixing tank under pressure through the pump station to a separate storage tank (the discharge valve at the pump station opens and the finished paint is poured into the maturation tank for 7-10 minutes), where the process of maturation of the obtained product within 24 to 36 hours. To accelerate and even the process of product maturation in the storage tank, the product is periodically mixed.

The process phase is completed (the duration of the phase depends on the capacity of the pumping station). Depending on the 61

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mixed materials, the phase of the process is repeated several times.

 During the operation of the complex, the technological process is controlled by the operator using ball valves located on the pipeline, and the control of the electrical equipment modes (activator, pump station, large cutter revolutions) is carried out using the control panel. The control panel allows you to independently turn on the heating elements of the heating "water jacket", the pump station engine and the motor gear motor. The activator (currently EMA-J, i.e., the electromagnetic fluid activator) is turned on only when the pumping station is operating.

 Below is a description of the operation of the hydraulic circuit of the universal complex of the synthesized innovative material “UniCom” shown in FIG. 3.

 Before starting work, all cranes are closed.

 To load the installation with liquid components, the valve 36, the valve 37, the valve 38 and the valve 39 are opened.

 1st cycle: The valve 40, the valve 37, the valve 38 and the valve 39 are opened. The mixture from the tank through the coarse filter 5 by pump station 4 is fed into the tank (blue arrow).

 2nd cycle: The valve 41 opens, the valve 39 closes. The mixture passes through small mill 14 (blue arrow and blue dotted arrow).

 3rd cycle: The valve 42, the valve 43, the valve 44, the valve 45, the valve 37 and the valve 38 are closed. The mixture passes through an activator 3, a fine filter 6 to a small mill 14 (red arrow).

 After the production cycle, all valves are closed, the valve 40 and the valve 46 are opened and the finished product is downloaded by the pumping station 4 into a maturation tank.

 Crane 47 is designed to drain water from the "water jacket" 13, taps 48 and 49 to drain product residues from coarse and fine filters, respectively. The crane 50 is designed for emergency discharge of the mixture.

The claimed invention is not limited to the preparation of only paints and varnishes, it can also be used in the processing of petroleum products, chemical and food products, in the production of building materials (concrete, reinforced concrete products, etc.), as well as for producing nanoparticles of chemical elements for the pharmaceutical industry and the fields of shipbuilding, machine tool building, aircraft manufacturing, etc., since the complex is universal, cyclic, and designed to complete production lines or to be used independently for mixing, dispersion, homogenization, emulsification, liquids, pastes , hardly soluble components in the manufacture of paints and varnishes.

Claims

Claim

 1. A complex of synthesized innovative materials, characterized in that it contains a mixing tank for loading the starting materials, consisting of two containers entering one into the other, forming a “water jacket” or “oil jacket”, electrotenes, mills large and small, and connected by pipeline through a coarse filter and through a pumping station with an electromagnetic activator, which is connected through a pipeline to a fine filter, connected through a pipeline through a small mill with a mixing tank for emulsion mixtures of the mixture.

 2. The complex according to claim 1, characterized in that it is a rigid welded frame that serves as the base and on which are installed: a mixing tank with an electric motor, an electromagnetic activator, a pump station, a coarse filter, a fine filter and a pipeline.

 3. The complex according to claim 1, characterized in that it contains a control panel of the technological cycle from loading of raw materials to the output of finished products, located separately and connected to the complex by a cable, which is located in a grounded metal pipe to ensure electrical safety.

 4. The complex according to claim 3, characterized in that the control panel includes an electromagnetic starter, a thermal relay, chastotniks, control sensors, and on the front panel of the control panel there are control buttons, an activator regulator according to the current strength, a large mill speed regulator, a rotational speed regulator pump station, indicators of the protective system against overloads, indicators of the temperature of the liquid in the "water jacket" or "oil jacket".

 5. The complex according to claim 1, characterized in that the pipeline is made of a polymer, or stainless, or glass tube and connects the nodes of the complex through cork taps made of stainless steel.

6. The complex according to claim 1, characterized in that it is equipped with two pressure gauges for monitoring pressure in the pipeline and in the nodes of the complex, while one pressure gauge is a working one and the second one is a controlling one.

7. The complex according to claim 1, characterized in that the mixing tank is made with an electric motor or gearbox, while a safety valve is installed in the upper part of the mixing tank, and a tap for collecting and draining water from the “water jacket” or “in the lower side part” oil jacket ”, crane for emergency discharge of mixed feed material.

 8. The complex according to claim 7, characterized in that the mixing tank is equipped with a loading door cover that is sealed to close after loading is completed, while large and small milling cutters are fixed to the loading door cover, an electric motor with a gearbox is installed, and it is also sealed Lockable loading hatch, ensuring the ecology of the working area.

 9. The complex according to claim 1, characterized in that the large milling cutter is made with a vertical axis and is of the “herringbone” type, and the small milling cutter is equipped with a hydraulic pressure regulator.

 10. The complex according to claim 8, characterized in that the mixing tank has a cone-shaped lower part and an upper one, in which the loading hatch is located, and is made with emergency shut-off valves.

 1 1. The complex according to claim 10, characterized in that mechanical feeders are installed on the loading hatch: screw or paper clips, for loading the starting materials from the dispensers.

 12. The complex according to claim 1, characterized in that the activator has a cylindrical shape.

 13. The complex according to claim 12, characterized in that the activator grinds the components of the product mixture using a continuous continuous method, as well as its activation in an e / magnetic field to change the physicochemical quality characteristics of the processed material.

 14. The complex according to claim 13, characterized in that the activator acts as a bead mill and consists of a polymer pipe with an electromagnetic coil wound on it, polymer baskets with grinding bodies are located inside the pipe, and three or more fans are installed in the activator body for cooling.