EA038851B1 - Unit for processing heterogeneous materials with complex composition and properties - Google Patents

Abstract

The proposed unit relates to the field of processing various materials using shredding, size classification, deagglomeration, sorting, removal of foreign inclusions, fluffing, water separation, and a series of related processes and can be used for production and processing of raw borrow pit materials, waste disposal, all types of processes for preparing fuel, fertilizers, mining and chemical and other products, predominantly in large-tonnage production. The task of this invention is to improve the process efficiency of the unit for processing heterogeneous materials with complex composition and properties and to improve its performance parameters. For this, the unit has a frame, a working chamber, a working equipment made as a loop chain, and a drive with a rod; at this time, the working chamber is formed with lateral walls made of an elastic sheet material, the lower edges of which are fitted with a loop chain that is, in cross-section, a double-wave spiral line with mounting its central part in the course of the wave elevation on the push rod so, that the push rod is secured on pendulum arms located at the ends of the working chamber and with pivotally installing by its homonymous ends, respectively, on the frame and the drive rod; moreover, the working equipment is fitted with various elements to enhance the working process. The technical result of this invention is to improve performance of the unit proposed in order to extend its process capabilities and to improve the quality of materials processed with simultaneous simplification of the design, with cost reduction, and lowering total operational costs.

Description

The proposed invention relates to the field of technological processing of heterogeneous and complex in composition and properties of materials by grinding, sizing, disagglomeration, sorting and removal of impurities, fluffing, water separation, enrichment and a number of related processes and can be used by enterprises associated with the extraction and processing raw materials, disposal of solid household and industrial waste, preparation of fuel, fertilizers, mining and chemical raw materials and many other products for rational use, mainly in large-scale industries.

The known design of a percussion crusher with a vertically mounted rotor, mounted in supports inside a cylindrical working chamber and connected to a drive, and on the rotor shaft, percussion elements pivotally suspended on the axes - beaters, are hinged on the disks on the rotor shaft (see L.A. Sivachenko.Technological devices of adaptive action L.A. Sivachenko [and others] - Minsk, Publishing Center of BSU, 2008-375p. -P. 314-715, Fig. 7,1).

Such a crusher is a good shredding machine for processing a product that is stable in terms of initial nutrition, with a moisture content, for example, in terms of clay, up to 16-17%. However, it is not suitable for working on open pit rocks with high moisture content with the presence of strong large inclusions, since its operation under such conditions leads to breakdowns of the elements of the rotor system and clogging of the working space with the processed material. Even worse conditions are when such an installation will process products that are more complex in terms of their initial composition, properties and size, for example, solid household waste. If we add to the above that the working process of impact crushing requires high velocities of impact elements - 30-60 m / s and more, then there are problems of dynamic balancing of the rotor, fight against wear, sealing of bearing supports, the complexity of maintenance and repair, and a number of others.

The listed disadvantages of hammer grinders are due to the peculiarities of the work process and the need for an impact effect on the material associated with high rotation speeds of the beaters, which, under conditions of a limited working volume, to completely incapable of adapting to the properties of the initial product and the process of processing raw materials of the working chamber, practically exclude the possibility of using devices of a similar design. executions for the processing of materials that are heterogeneous and complex in composition and properties.

There is also known a clay ripper CM-1031A, designed for processing clay mass and consisting of a bunker body, a beater shaft and a drive, and in the lower part of the body there is a flat lattice frame formed by longitudinal beams and fixed belts (see Construction Machines. Handbook, Vol. 2. Edited by VA Bauman and FA Lapir, Moscow, Mashinostroenie, 1977, 496 pp. - pp. 131-132, Fig. 130).

The use of such a unit allows only rough primary processing of the raw material mass, which is associated with a low degree of adaptation of the working equipment to the characteristics of the processed material and its inability to influence dissimilar components not only with maximum intensity, but also with the required selectivity. These and its other disadvantages, in particular, insufficient technological efficiency and low operational reliability, are due to the fact that the working equipment is made of rigid elements that do not deform and do not move under the influence of working loads. Functionally, the clay ripper, as a technological machine, belongs to the first generation equipment intended for the primary technological conversion, and cannot be considered as a promising model of equipment for subsequent modernization and development.

The closest in technical essence and the achieved result to the proposed invention is a device for grinding wet materials containing a frame, a working chamber, working equipment made in the form of a chain curtain and a drive with a rod in the form of a crank mechanism, the axes of the hinge elements of which are parallel to the axes rods, and the chain curtain sags freely in the working chamber, and on the inner surface there are grinding process intensifiers, which are plates with sharpened edges fixed on the links of chain elements (see Patent for utility model of the Republic of Kazakhstan No. 1598, Device for grinding wet materials, IPC В02С 19/16. Authors Sivachenko L. A., Rovskiy A. M., Reutsky I. A., Kusebaev U. K., Publ. 15.08.2016, bul. No. 9).

Apparatuses of this design are characterized by a developed working surface and a high adaptive ability of the behavior of chain elements when interacting with the medium being processed. However, in real conditions, the chain curtain does not provide effective processing of the product supplied to it, which is explained by a number of significant disadvantages of such a technical solution.

Firstly, the implementation of the entire surface of the working chamber from chain elements forming a chain web leads to a loss of stable movement, both of the chain links themselves and of the intensifiers of the grinding process fixed on them, and is associated with the damping of the force effects transmitted to it by a long chain web from crank mechanism. At the same time, the cost of the product and operating costs increase significantly, although the upper and side surfaces of the chain curtain practically do not participate in the working process and play the role of passive

- 1 038851 walls of the working chamber, which is impractical.

Secondly, the free sagging of the chain curtain, connected with the drive mechanism by its central part, does not allow effectively transferring the external force to the medium being processed based on the kinematic requirements. In the working chamber stagnation of the processed material is observed, which moves mainly in the horizontal direction and accumulates in the lower part of the chain curtain, where there are no elements that create intensive destruction of the material. In addition, the transfer of motion from the crank mechanism to the bar is complicated, since due to the sagging of the chain curtain, it is necessary to lower the axis of the bar down relative to the points of its attachment to the chain curtain, which disrupts the stable operation of the entire oscillating system of this type of equipment.

Thirdly, the single-wave design of the cross-sectional profile of the chain curtain reduces not only the total length of its active working part, but also significantly reduces the intensity of the grinding process, since the mechanisms of force action based on intense counter-directed movements of the working elements are not implemented in the working chamber of the apparatus. structures between which the processed material should be located.

Fourth, the direct bearing of the bar on the lower part of the chain curtain creates additional dynamic loads on the crank mechanism, which becomes overly dependent on the nature of the processes in the working chamber, for example, when working under a blockage or loading it periodically with a loader or excavator bucket. It should be noted that in this case, the creation of large units due to their low reliability with the accompanying large-scale factor of technological efficiency becomes practically unlikely.

Fifthly, the fixation of the intensifiers of the grinding process directly only on the chain elements of the chain curtain does not contribute to the creation of intensive destruction mechanisms in the working zones, which is due to the high deformation flexibility of the chain curtain when large volumes of feedstock are supplied to it, especially with a high bulk density. In this case, the material hangs in the working chamber, stagnant zones are formed in it, and the intensity of the process decreases sharply, which is a negative phenomenon that limits the functionality of the unit as a whole. This is most pronounced when processing materials that are heterogeneous and complex in composition and properties.

The listed disadvantages in their totality characterize the selected prototype as insufficiently efficient from the technological point of view and having low operational reliability.

The objective of the present invention is to increase the technological efficiency of the unit for processing heterogeneous and complex in composition and properties of materials and to improve the performance of its work.

The technical concept of the proposed design is the implementation in the working chamber of such a mechanism for influencing the processed material, when its elements create the most effective conditions for processing the raw material by optimizing the controlled movement of the chain curtain, intensifying single acts of loading particles or volumes of the initial components and timely withdrawal from the apparatus that has passed the required technological process. product processing while reducing external loads on the elements of the working equipment and drive due to the direct rational suspension of the moving part of the chain curtain on the frame.

The problem is solved by the fact that in a unit for processing heterogeneous and complex in composition and properties materials containing a frame, a working chamber, working equipment made in the form of a chain curtain and a drive with a rod, according to the invention, the working chamber is formed by side walls made of sheet elastic material, on the lower edges of which a garland chain curtain is fixed in cross-section, which is a two-wave spiral line in which its central part in the wave lifting zone is mounted on a pushing rod in such a way that the pushing rod is fixed on pendulum levers located at the ends of the working chamber and by its ends of the same name is pivotally fixed, respectively, on the frame and the pushing rod connected to the crank mechanism, and the pushing rod and the walls of the working chamber at the points where the garland chain curtain is attached to them are equipped with intensifiers of the working process. In additional versions of the disclosure of the essence of the invention, it is provided that the garland chain curtain can be made of a set of rods parallel to each other and to the axis of the pushing rod, connected to each other along the entire length by chain elements and equipped with intensifiers of the working process installed on any of the structural elements of the working equipment. In this case, intensifiers of the working process are preferably made in the form of teeth, combs, rods, metal brushes or knives, and they are installed on the inner surface of the working chamber.

It is also advisable that the push rod is equipped with teeth on which the garland chain curtain is hung, and which freely pass between the links of the chain elements inside the working chamber. Noteworthy is the installation of intensifiers of the working process on the chain elements of the garland chain curtain in the form of separate teeth located on the inner surface

- 2 038851 working chambers. In addition, of practical importance are technical solutions that ensure the installation of the push rod on the pendulum levers and the side walls of the working chamber on the frame with the ability to move in height.

The execution of a chain curtain with a garland, which is a two-wave spiral line in cross-section, provides an expansion of the front on which the working process of materials processing takes place. This solution creates two working chambers in the unit, functioning autonomously and expanding its functionality. In parallel with this implementation of the side walls of the working chamber made of sheet elastic material, not only the design of the working equipment is simplified and its production is made cheaper, but also the working process in the unit is stabilized, since the side walls reduce the free sagging of the chain curtain and allow more targeted feeding of material into the zones of intense vibrations elements of working equipment.

The most important role in the entire design of the proposed unit is played by the technical solution, in which the central part of the cross-section of the two-wave spiral line of the garland chain curtain in the wave rise zone is mounted on the pushing rod in such a way that the pushing rod is fixed on the pendulum levers located at the ends of the working chamber and with their namesake the ends are pivotally mounted on the frame and the drive rod, respectively.

With this design, the function of the pendulum levers is reduced to imparting a kinematically stable movement of the central part of the garland chain curtain, which is especially important for large units processing large volumes of materials. The operation of the pendulum levers in the mode of a simple rocking system makes it possible to minimize the energy costs for ensuring the specified oscillations of this lever structure, since for this it is necessary to overcome only friction in the suspension zones of the levers and inertial forces due to the mass of the vibrating parts of the unit together with the processed material.

The stability and predictability of the chain curtain's behavior under intense vibrations is the basis for an efficient recycling process. This is largely facilitated by the fact that the push bar and the walls of the working chamber in the places where the garland chain curtain is attached to them are equipped with intensifiers of the working process, made in the form of teeth, combs, metal brushes or knives. Each of these versions solves its strictly defined technological problems, and the efficiency of their application depends on the properties of the materials being processed, the design of the equipment and its operating modes and, at the same time, significantly exceeds the level realized in known devices for a similar purpose, since the kinematics of the working movement, the force factor and the increased degree of adaptation of the developed apparatus to the properties of the processed material allows this to be achieved with maximum efficiency and minimum costs.

The features of the invention concerning the execution of a garland chain curtain from a set of rods parallel to each other and to the axis of the pushing rods, connected to each other along the entire length by chain elements and equipped with the previously mentioned intensifiers of the working process, are aimed at simplifying the design, increasing its operational reliability and intensifying the working process of the claimed unit ... The use of these rods, forming a kind of technological shutters, radically changes the operating mode of the chain curtain, which becomes capable of processing materials that are larger and more complex in their composition and properties, such as clay blocks, frozen soil or other conglomerates that are difficult to grind or dispose of using traditional methods. ...

The installation of intensifiers of the working process on the chain elements of the garland chain curtain in the form of separate teeth located on the inner surface of the working chamber is necessary to create the desired nature of their effect on the particles of the processed material. The use of such elements contributes to the creation of splitting, shearing, bending, abrasion and shock stresses in the structure of the initial product, which is important for solving the assigned tasks.

The simplification of the design of the proposed unit to a certain extent can be ensured by the fact that the push rod is equipped with teeth that freely pass between the links of the chain elements inside the working chamber. This further improves the conditions for maintenance and repair, since the installation of the chain curtain does not require its additional fixation, which is performed by the teeth or rods on the push rod, which are easy to manufacture or replace after wear or breakdowns.

The control of the technological modes of the material processing process is easily carried out by installing a push rod on pendulum levers with the ability to move in height. This ensures that the required vibration amplitudes of the elements of the chain curtain are obtained in accordance with the technology and is easily implemented in practice by known methods. the behavior of the chain curtain, which allows you to vary the working process conditions within a fairly wide range.

The unity of the described distinctive features of the invention fully justifies the achievement of the tasks set. Their combination in the presented form is absent in the prototype and analogues,

- 3 038851 which testifies to the technical novelty, industrial reproducibility and economic significance of the proposed design of the unit for processing materials that are heterogeneous and complex in composition and properties.

The essence of the invention is illustrated by graphic materials. FIG. 1 is a schematic diagram of the unit, FIG. 2 - General view of the unit, side view, Fig. 3 - General view of the unit, top view, Fig. 4 is an embodiment of a chain curtain made of a set of parallel rods, FIG. 6, 7, 8, 9, 10 - respectively, embodiments of intensifiers of the work process, respectively, in the form of teeth, combs, rods, metal brushes and knives, in Fig. 11 shows an embodiment of a push rod and pendulum arms; FIG. 13 - an embodiment of the intensifiers of the working process on the links of the chain curtain, in Fig. 14 - a variant of the design of the side wall with comb-shaped intensifiers of the working process.

The unit for processing materials of non-uniform and complex composition and properties contains a supporting frame 1, a loading window 2, a working chamber 3, working equipment 4 and a drive 5 based on a crank mechanism 6. The working chamber is formed by side walls 7, 8 made of sheet elastic material, and working equipment, which, in turn, consists of a garland chain curtain 9 and intensifiers of the working process 10, 11, located, respectively, on the lower edges of the side walls 7, 8 and a push rod 12, fixed in the central part of the garland chain curtains 9 in the zone of wave rise of its sagging parts 13, 14. The pushing rod 12 is rigidly connected to the pendulum levers 15, which with their upper ends are installed in the hinges 16 on the frame 1, and the lower ends in the hinges 17 of the drive rod 18 of the crank mechanism 6.

A garland chain curtain, as a variant of one of the stated technical solutions, includes a chain element 19, consisting of links 20, fixed on parallel rods 21 with cutting knives 22. The intensifiers of the working process, depending on the technological tasks performed, can be made in the form of teeth 23, combs 24, rods 25, metal brushes 26 or knives 22.

The push rod 12 can be equipped with rods 26 and threaded shanks 27, rigidly attached to the pendulum arms 15 with the ability to move in height, for example, in guides or sockets. In this case, the drive rod 18 is rigidly connected to the connecting rod 28 of the crank mechanism 6, which by means of a hinge 29 is connected to the crank 30 of the electric drive 5. The fastening of individual teeth 31 to the chain curtain can be carried out by means of a plate 32, which is pivotally connected to the chain links 20. Side walls 7 , 8 can be moved in height relative to the frame 1 in any of the known ways, in particular by means of threaded connections.

Workflow intensifiers in any of the presented technical solutions of their design can be installed on any of the elements of the work equipment, depending on the properties of the processed materials and technological requirements for the quality of the finished product, as well as the peculiarities of their fixation on these elements.

The operation of the unit for the processing of materials that are heterogeneous and complex in composition and properties is carried out as follows. The drive 5 is switched on and by means of the crank mechanism 6 through the drive rod 18 it communicates the oscillatory movements of the pendulum lever 15, the upper ends of which are suspended in the hinges 16 on the frame 1. The amount of movement of the suspension point on the pendulum levers 15 of the push bar 12, which communicates external forces to all elements working equipment 4, located in the lower part of the working chamber 3, is equal to the double eccentricity of the crank 30, and the pushing bar moves along an arc of a circle with a radius equal to the distance from its longitudinal axis to the suspension axis in the hinges 16.

Further, the raw material to be processed through the loading window 2, located in the upper part of the supporting frame 1, enters the working chamber 3, where it is intensively influenced by such elements of the working equipment 4 as the chain elements 19 of the sagging parts 13, 14 of the garland chain curtain 9 and work process intensifiers 10, 11. The nature of the impact on the processed product, depending on the technology, can be reduced to crushing, deaglameration, separation, sorting, fluffing, water separation and other operations. In this case, such intensifiers of the work process as teeth 23, combs 24, rods 25, metal brushes 26 or knives 26 perform specific functions. Each of these elements can be installed in any part of the working equipment of the unit, depending on the technological problems to be solved.

The intensity, as well as the efficiency, of the impact on the material is determined by the nature of the behavior of the working equipment. For this, the unit implements the principle of maximum adaptation to the properties of the processed medium. So, the elements of the garland chain curtain 9 perform different kinematic movements, contributing to the optimal movement of material inside the working chamber 3 and its high-quality processing due to its controlled supply to the zone of maximum energy intensity of the working process.

The links of chain elements 19, which form a chain curtain 9 and are a movable screening surface, are interconnected using known methods, for example by means of staples, rings or other elements. They screen out particles that have reached less than

- 4 038851 gaps between them, sizes. This allows you to minimize the amount of material in the working chamber 3, the side walls 7, 8 of which are made of elastic material, for example, rubber-cord sheets, and also actively vibrate and the processed material does not stick to them. The low cost and simplicity of the design of both the side walls and the elements of the chain curtain significantly reduce the cost of the unit and its operation. The product that has passed the appropriate stage of technology is unloaded from the apparatus, and those pieces of material, their conglomerates or foreign inclusions, the dimensions of which exceed the gaps between the chain links of the chain curtain, can be discharged through the ends of the working chamber. For this, the unit is installed at a slight angle to the horizon.

Important functions in the unit are assigned to the formation of a chain curtain based on parallel rods 21 connected to each other using chain elements 19. This solution reduces the cost and labor intensity of manufacturing, increases the reliability and technological efficiency of the proposed installation. The rods 21, playing the role of a tray-shaped plate vibrator, create a controlled impact on the raw material, which is additionally activated by the cutting edges 22 made on them.

Any of the declared activators of the workflow is a necessary technological tool for creating an appropriate type of processing of the source material. The technological condition for achieving the tasks set in the invention consists in developing the design of an adaptive principle of operation with the most active working equipment and optimal organization of the working process based on the stable movement of the inner surface of the working chamber along predetermined trajectories that form zones of effective impact on the pieces of the processed product.

From the point of view of the practical implementation of the developed unit, it should be borne in mind that in each specific case, its various units and elements can be manufactured and interconnected in accordance with specific conditions. For example, a chain curtain can consist of separate halves mounted on a push bar separately, and the push bar is equipped with metal brushes or combs attached to it.

The nature and kinetics of the working process of the unit are determined by many factors and design decisions. The most important of them can be considered: the amplitude and frequency of oscillations of the push bar, the geometric parameters of the working equipment, the presence of intensifiers of the working process in the structure corresponding to the conditions for processing the product, and the rational organization of the supply of the apparatus with the initial raw material mass. In real production conditions, it is possible to control the working process, for example, by changing the parameters of the working chamber by moving the side walls 7, 8 or the push bar 12 along the height, as well as installing the appropriate intensifiers of the working process on the working equipment 4 and switching from one type of chain curtains to another.

The use of the proposed unit in comparison with known devices for a similar purpose allows you to obtain a number of positive effects, which are derivatives of the design and characteristics of its working process.

First of all, it is necessary to highlight the increase in the technological efficiency of the developed equipment. This is due to the implementation of the working equipment not only adaptive action, but also with a high activity of impact on the original product almost evenly over its entire surface. With such a process, the material that has passed the required stage of processing is forcibly ejected from the working chamber by inertial forces and does not complicate the processing of the rest of it. The best conditions are created when the working chamber is fully loaded or under a blockage, since the chains work well with material of any moisture content, size and density. They exclude any jamming or sticking and are best able to generate oscillations of increased amplitudes (100-200 mm and more). Such behavior of working equipment is realized for the first time, and its consumer qualities are expressed in obtaining a number of new and expanding many known technological indicators of work.

So, the unit can effectively grind raw materials from quarry - chalk, marl, clay, efficiently grind and sort wet products, solid household and industrial waste, fluff up such material as isovol, perform deagglomeration, water separation and primary beneficiation, cleaning of foundry blanks from molding sand , selective crushing of low-strength brittle materials, etc. The installation is capable of accepting pieces of feed material up to 1000 mm in size at a feed rate of 10-250 t / h with an energy consumption of 0.5-0.8 kWh / t, and even less in a number of technological stages.

The design of the chain unit does not require a lot of readjustment when converting it to the processing of materials with different characteristics. In this case, an important function is assigned to intensifiers of the work process, which, depending on the design, carry out cutting, splitting, abrasion, impact, shearing, compression, vibration and other more complex types of loading, ultimately providing optimal conditions for processing the target product and maximum efficiency of the technological process. The obvious advantages of the new apparatus include its omnivorousness, expressed in the ability to work on materials with significantly different characteristics, for example, processing

- 5 038851 to dispose of unsorted garbage or stale areas of city dumps.

Important positive qualities of the new equipment are its high performance and maintainability. This is due to the simplicity of the design, low dynamic loads associated with the maximum adaptability of the working equipment to the processing conditions of the corresponding materials, the presence in the kinematic chain of the machine of units and assemblies with a guaranteed degree of reliability, good access to the main mechanisms and working bodies and the convenience of their maintenance and repair.

Optimizing the workflow, eliminating possible jamming of structural elements and minimizing friction losses and maintaining the oscillatory motion of the working equipment reduce the total energy costs for processing materials in the chain unit. At the same time, the costs of maintenance and repairs, as well as the amortization of capital costs for the purchase of a chain unit, are reduced. All this allows you to minimize the unit operating costs with high quality processing of the original raw material.

The simplicity of the design and, consequently, the low cost of its manufacture, is determined by the fact that the chain curtain is easily assembled from elements widely used in technology - chains, teeth of plates, brackets and others. This, in turn, allows you to reduce operating costs, since the elements of the chain curtain have a high degree of mobility, which reduces possible types of breakdowns and failures, it is not required to carry out laborious cleaning of the working chamber and perform other preventive work, in particular, lubrication of rubbing surfaces.

The proposed unit can be used in the stages of primary processing of materials that are heterogeneous and complex in composition and properties with a degree of grinding in one pass of 10-20 or more. A distinctive feature of the working process of such a unit is a strictly fixed particle size of the processed product, the maximum size of which is determined by the gaps between the chain links of the chain curtain. The stable size of the obtained pieces and their uniform ejection from the working chamber along the entire periphery of the chain curtain create special conditions for removing moisture from their surface, which can be additionally activated by blowing even cold air and thereby reduce the humidity by 2-5%. This is much more cost-effective than thermal drying and a guarantee of simplification of further technological conversions, since the dispersed material becomes more crumbly, does not stick together, it is easy to transport, separate, mix or grind.

The chain aggregates of the developed design fit well into the technological lines of existing or created industries, their installation does not require massive foundations or powerful metal structures, the sound pressure level from the operating installation does not exceed the permissible standards, and dust removal is ensured by known methods with greater efficiency. A potentially new class of equipment can replace, with a greater degree of efficiency, clay rippers, drum and flat screens, stone separating rollers, rotary, hammer crushers and disintegrators for soft rocks and quarry raw materials, fluffers for fibrous raw materials, combined multi-purpose units and many other types of technological machines ...

In general, the industrial use of the developed equipment can be carried out for the complex processing of materials that are heterogeneous and complex in composition and properties, including the grinding of mineral and organic raw materials with a compressive strength of up to 10-15 MPa, with a lower size limit of crushed particles of 10 mm or more and its moisture content, for example, for peat or tripoli 4070%, for clay, chalk or marl 15-25%, separation of various materials, including ballast of municipal solid waste, in size with a separation limit of 10 mm or more with a process efficiency of 8595%, removal of 2-5% moisture from the original raw material mass by blowing it with air, fluffing fibrous materials with an increase in their bulk density, for example, for isovol by 2-4 times or more, combining the stages of preliminary grinding and mixing of dissimilar products, as well as for performing a number of other technological functions.

Claims (6)

CLAIM 1. A unit for processing materials of non-uniform and complex composition and properties, containing a frame, a working chamber formed by side walls, on the lower edges of which a garland chain curtain is fixed, in cross-section representing a two-wave spiral line, in which its central part is in the lifting zone waves are mounted on a pushing rod, fixed on pendulum levers located at the ends of the working chamber and with their ends of the same name hinged, respectively, in the upper part of the frame and on the drive rod, and its drive is made in the form of a crank mechanism, characterized in that the garland chain curtain made of a set of rods parallel to each other and to the axis of the pushing rod, connected to each other along the entire length by chain elements and equipped with intensifiers of the working process, and the pushing rod is mounted on pendulum levers with the ability to move in height, and the side walls of the working chamber are made of elastic different material and mounted on the frame - 6 038851 with the ability to move in height. 2. The unit for processing materials of non-uniform and complex composition and properties according to claim 1, characterized in that the intensifiers of the working process are made in the form of teeth. 3. The unit for processing materials of non-uniform and complex in composition and properties according to claim 1, characterized in that the intensifiers of the working process are made in the form of combs. 4. The unit for processing materials of non-uniform and complex in composition and properties according to claim 1, characterized in that the intensifiers of the working process are made in the form of metal brushes. 5. The unit for processing materials of non-uniform and complex in composition and properties according to claim 1, characterized in that the intensifiers of the working process are made in the form of knives. 6. The unit for processing materials of non-uniform and complex in composition and properties according to claim 1, characterized in that the intensifiers of the working process are installed on chain elements in the form of separate teeth located on the inner surface of the working chamber.