RU2685133C1 - Mill - Google Patents

Abstract

FIELD: grinding technique.SUBSTANCE: invention relates to the technique of grinding solid materials and can be used in the construction, chemical and metallurgical industries, as well as in agricultural production. Mill contains a frame with a drum and a loading device mounted on it, a discharge device. Frame is suspended on the frame by means of rubber-cord air bellows. Drum is made of broken form along the perimeter and is provided with four broken side surfaces and four broken lines with a step of variable length of the drum, increasing with increasing bore from loading to unloading. Drum is made of sections mounted along the perimeter of alternately connected four walls of the section, two opposite walls of which are made in the form of equilateral trapezoids, and one of them has a smaller height than the other, and two other identical walls opposite to each other are made in the form of uneven trapezoids. Lower bases of all four trapeziums are equal to each other and smaller than the upper bases, which are also equal to each other in all four trapeziums with the formation of square sections at the ends. Square of each subsequent section is rotated relative to the previous square by an angle of 90°. Each attached section has the sides of the square of the lower base, equal to the sides of the square of the upper base of the previous section. Entire length of the inside of the drum is equipped with a square-shaped conical compression-tension spring, which is equipped with a device for changing the pitch of the turns.EFFECT: mill allows to expand technological capabilities and provides improved grinding performance.1 cl, 9 dwg

Description

The invention relates to the technique of grinding solid materials and can find application in the construction, chemical and metallurgical industries, as well as in agricultural production.

A vibratory mill is known that contains an elastically mounted body with a vibrator (“Equipment of factories of the paint and varnish industry”, Khimiya Publishing House, Leningrad Branch, 1986, p. 371).

A disadvantage of the known device is the low grinding intensity and limited technological capabilities due to the low mixing intensity.

The closest to the proposed invention is a tube mill (RF patent No. 2174049, MKI, VS 02/17/04, publ. 09/27/2001, bull. No. 27), containing a zigzag-shaped drum mounted on the frame, a loading and unloading device, suspended by means of rubber-chord bellows to the bed.

A disadvantage of the known device is the lack of performance and limited technological capabilities.

The technical result is the expansion of technological capabilities, increased productivity.

The technical result is achieved by the fact that in a mill containing a frame with a drum mounted on it and a loading device, suspended by rubber-cord pneumatic cylinders to the frame and unloading device, the drum is made of a broken shape along the perimeter and is equipped with four broken side surfaces and four broken lines with a variable length drum pitch, increasing with increasing bore from loading to unloading and is made of sections mounted on the perimeter of alternately The four walls of the section are connected, two opposite walls of which are made in the form of equilateral trapezoids, one of which has a lower height than the other, and the other two identical walls opposite to each other are made in the form of non-equilateral trapezoids, while the lower bases of all four trapeziums are equal to each other and less than the upper bases, also equal to each other in all four trapeziums, to form square sections at the ends, with the square of each subsequent section being rotated relative to the previous square by an angle of 90 ° and each attached section has sides of a square bottom base equal to the sides of a square top base of a previous section, while the entire length, inside the drum, is mounted a conical compression-tension spring of square shape, which is equipped with a device for changing the pitch of turns.

According to the patent technical literature, no technical solution was found, similar to the claimed one, which allows to judge the inventive step of the mill.

The novelty also lies in the fact that during the rotation of the drum, the particles of the processed materials rise to a certain height in the direction of rotation and then move the walls of the drum towards each other and on the outer screw surface of the compression and expansion spring, therefore the processing performance increases and expands technological capabilities.

The novelty of the invention lies in the fact that expanding technological capabilities by giving the masses of the processed materials complex spatial movement and the simultaneous impact on them of oscillations in three mutually perpendicular directions, excited by the geometry of the drum, with asymmetric movement of the masses of the processed materials as a result of violation of the stationarity of their movement streams geometric broken drum shape, their relative position relative to each other and to the axis rotation.

The novelty of the invention lies in the fact that such a structural design of the drum surface around the perimeter allows not only axial movement of the processed materials in the drum when the axis of rotation is horizontal, simplify the drive and increase the service life, but also increase the processing intensity by increasing miscibility due to the presence on the case surface of wavy lines and surfaces with steps of variable length along the drum, increasing with increasing the flow cross section from loading to unloading, which violates the stationarity of the movement of the mass flows of the processed materials and improves the processing performance.

The novelty also lies in the fact that the centers of symmetry of the inner surface of the drum in each element of the cross section are offset relative to the axis along its length, which violates the stationarity of the movement of the masses of the processed materials and expands the technological capabilities.

In addition, the novelty is due to the fact that the elements of which the drum sections are assembled are different in size, size and configuration, so the processing intensity increases as these elements, working as shelves, capture portions of processed materials of different volumes and directing them towards each other. friend violate the stationarity of the flow of their movement in the drum.

The novelty is seen in the fact that the pitch of broken lines increases from the load in the unloading, which intensifies the spatial movement of the masses of the processed materials, increases the unbalance of the drum.

The novelty is also seen in the fact that the area and shape of the drum cross-section along the length increases from loading to unloading, which intensifies the processing process, changing the amplitude of oscillations of the masses of the processed materials as they move from loading to unloading.

The novelty is also seen in the fact that along the entire length inside the drum a conical compression-tension spring of square shape is mounted, which is equipped with a device for changing the pitch of coils, which provides not only the movement from loading to unloading in the radial direction and an increase in the intensity of grinding, but also reduces dimensions of the drum in length by increasing the path of movement of the processed materials inside the drum (reciprocally radial movement of parts from loading to unloading).

The invention is illustrated by drawings, where: in FIG. 1 shows a mill, a general view; in fig. 2 shows section A-A in FIG. one; FIG. 3 - front view drum; in fig. 4 - drum, top view along arrow A; FIG. 5 - drum, axonometric projection; FIG. 6 - one of the sections of the drum, axonometric projection; FIG. 7 - the first (large) equilateral trapezoid; FIG. 8 - one of two identical unequal-lined trapezoids; FIG. 9 - the second (small) equilateral trapezium.

Such constructive design of the drum allows to increase the intensity of processing by increasing the miscibility, due to the presence on the surface of the drum of broken lines and the inclination of the axes of the sections to the axis of the drum.

The mill (Fig. 1, Fig. 2) consists of a drum 1, a loading 2, a discharging device 3. The drum 1 is equipped with sleeves 4 and 5. The sock 6 of a loading device 2 enters the opening of the sleeve 4 of the drum 1. The loading device 2, bearing supports 7 , 8 with drum 1 mounted in them are mounted on frame 9. Frame 9 is placed on four air bellows 10, which are mounted on frame I. The entire length of drum 1 is mounted inside a drum with a square-shaped compression-tension spring 12, which is equipped with a device set up not shown) to change the pitch of coils by stretching or compressing it with the direction of coils opposite to the direction of rotation of the drum 1. The conical compression-tension spring 12 provides not only a movement from loading to unloading in the radial direction of the particles of materials being processed . This radial movement is ensured by the fact that the particles of the processed materials that move inside the drum 1 in planes perpendicular to its axis of rotation, meeting spring coils, change the trajectory of their movement and move from loading to unloading, which creates counter-movement of loading masses, increases the intensity processing and expanding technological capabilities.

At the same time, due to oscillations of the drum 1 and oscillations of the rigidly fixed inside the conical compression-extension spring, the spring itself stretches and contracts, providing an additional intensification of the treatment.

Along the perimeter of the side surfaces, the drum 1 (Fig. 3, Fig. 4, Fig. 5) is made with four broken lines with a step of variable length, increasing as the flow cross section increases from loading to unloading, FIG. H and FIG. 4 one of the broken lines is shown by the thickened line 13-14-15-16-17-18. The perimeter of the drum 1 (Fig. 3, Fig. 4) expands in length from loading to unloading and joining sections 19 to one another (Fig. 5). FIG. 5 shows that each section 19 is mounted around the perimeter of alternately connected walls 20, 21, 22, 23 and each subsequent section 19 is rotated relative to the previous one by 90 °, i.e. the square of each subsequent section is rotated relative to the previous square by an angle of 90 ° and each the attached section has the sides of the square of the lower base equal to the sides of the square of the upper base of the previous section. Therefore, the drum 1 (Fig. 3, Fig. 4, Fig. 5) is made of a broken form extending along the length of sections 19 mounted along the length of the drum 1 along the perimeter from the loading device 2 to the unloading device 3.

FIG. 6 shows one of the sections 19 of the drum 1 in a pictorial image, which is mounted from four walls alternately connected 24-25 to 25-25 (the two walls 25 are the same in size and shape). 27,28,29,30 is the length of the sides of the four trapezoids 24, 25, 26, 25.

Thus, each section 19 is mounted of four walls alternately connected, one of them is a wall in the form of an equilateral trapezium 24 (Fig. 6, Fig. 7), two identical walls in the form of unequal trapezium 25 (Fig. 6, Fig. 8) and one of them is smaller in height, in the form of an equilateral trapezoid 26 (Fig. 6, Fig. 9), the lower bases 27 of which are equal to each other in each of the four trapeziums, and less than the upper bases 28, also equal to each other in all four trapeziums , with the formation at the ends of the section of the base in the form of a square, while the square base azhdoy subsequent section is rotated relative to the previous square base angle 90 °, wherein each attachment section has sides equal to the lower sides of the square base of the upper square base previous section.

For clarity, the rotation of sections 19 relative to each other by 90 ° is a small equilateral trapezium 25 with a lateral side of 29 in FIG. 5 is shown as a thickened line and shaded. Thus, a broken drum 1 is created, in which the axis of each section rotated relative to the previous one by 90 ° is located at an angle to the transport line, i.e. to the axis of rotation, with increasing flow area of the drum 1 from loading to unloading. The axes of the sections, including the axis i ₁ -i _{1 of the} first section (FIG. 3, FIG. 4), to which the second section is attached with the axis i ₂ -i ₂ , then the third section is attached with the axis i ₃ -i ₃ , then the fourth section is attached with the axis i ₄ -i ₄ , then the fifth section is connected with the axis i ₅ -i ₅ and so on, intersect with each other and are angled not only to each other, but also to the axis of rotation 0 ₁ -0 ₁ drum 1.

The mill works as follows.

The drum 1 through the loading device 2 is filled with a continuous stream of particles of the processed materials. When the drum rotates, 1 particles of processed materials are informed by complex spatial movement with the imposition of oscillations in three mutually perpendicular directions, excited by the geometry of drum 1 with asymmetric movement of the particles of the processed materials and the occurrence of unbalance as a result of the stationary movement of the flows of the particles of the processed materials by the geometric shape of the sections, their mutual relative to each other and to the axis of rotation. At the same time, the centers of symmetry of the inner surface of the drum 1, in each element of the cross section along its length are offset from the axis of rotation, which violates the stationarity of the movement of particles of the processed materials. Due to the simultaneous effects of complex spatial motion on the particles of the processed materials and their low-frequency oscillations, the miscibility of the particles of the processed materials increases, their intensity of interaction with each other and with the walls of the drum 1. The particles of the processed materials, mixing, move inside the drum 1 from loading to unloading. Such structural design of the rotating drum 1 allows for the sequential compaction and discharge of the particle flows of the materials being processed as they move from loading to unloading, which expands technological capabilities and increases processing efficiency. Since the drum 1 is made of a broken form, its eccentricity increases relative to the axis of rotation, which ensures, without a vibrativator, the excitation of oscillations in three mutually perpendicular directions of the frame with rotating drum 1 transferred to the cylinders that are transferred from the load to the unloading particles of processed materials, which provides increased processing intensity and expands technological capabilities. Moreover, since the centers of symmetry of the inner surface of the drum 1 in each of its cross-sectional elements are offset relative to the axis of rotation along the axis, and the axes of the sections i ₁ -i ₁ ; i ₂ -i ₂ ; i ₃ -i ₃ ; i ₄ -i ₄ ; i ₅ -i _{5 of the} drum 1 intersecting straight lines and they are located not only to the axis of rotation of the drum 1 at an angle, but also to each other, the stationarity of the movement of particles of the processed materials is disturbed and the technological capabilities are expanded. The elements from which the rotating drum 1 is assembled are different in size, size and configuration, so the processing intensity increases as these elements, working as shelves, capture portions of the processed materials of different volume and direct them towards each other, thus breaking , the stationarity of their movement, increasing the intensity and intensity of their interaction, expanding technological capabilities. With further movement of the particles of the processed materials and the passage of the distance from the start of loading to unloading, the process of their grinding occurs and they are unloaded through the sleeve 5 into the discharge device 4.

During the rotation of the drum 1, the particles of the processed materials are informed of a complex spatial movement with the movement of these particles of the processed materials from loading to unloading. The processing process is intensified by the fact that the axis i ₁ -i ₁ ; i ₂ -i ₂ ; i ₃ -i ₃ ; i ₄ -i ₄ ; i ₅ -i ₅ sections along the length of the drum 1 relative to its axis of rotation are differently inclined not only to each other, but also to the axis of rotation of the drum 1, therefore unbalance occurs. As a result, the stationary movement of the particles of the processed materials is disturbed due to the quadrangular shape of the flow area of the drum 1, there is an unbalance of not only the drum 1 of the broken form, but also the unbalance of the masses of materials being processed inside the drum 1 by increasing the distances from the axes of the sections to the axis of rotation of the drum 1 along its length from loading to unloading. There is an intensification of miscibility, an increase in energy intensity and the frequency of interaction between particles of the materials being processed, an increase in the intensity of processing, and an increase in technological capabilities.

Technical and economic benefits arise from the broken drum 1 and giving it four broken side surfaces and four broken lines with a variable drum length step, increasing as the flow cross section increases from loading to unloading the particles of processed materials of complex spatial motion and simultaneous exposure to them oscillations in three mutually perpendicular directions, which increases the intensity of mixing, increases the energy intensity of the interaction of particles abativaemyh materials among themselves, with the walls of the drum 1 and expands technological capabilities. Since along the length of the drum 1, the cross-sectional dimensions, shape and location, the center of symmetry change, the disturbance of the movement of the processed materials is aggravated, and due to the broken shape of the perimeter of the drum 1, the intensity of the treatment increases and the technological capabilities expand.

Claims (1)

A mill containing a frame with a drum mounted on it, a loading device suspended by rubber-cord air bellows to the frame, and an unloading device, characterized in that the drum is made of a broken shape around the perimeter and is equipped with four broken side surfaces and four broken lines with a step varying along the length of the drum , increasing with increasing bore from loading to unloading, and is made of sections mounted around the perimeter of the alternately connected four ste Nok sections, two opposite walls of which are made in the form of equilateral trapezium, one of which has a smaller height than the other, and two other identical walls opposite to each other, made in the form of non-equilateral trapezium, while the lower bases of all four trapezium are equal to each other to a friend and less than the upper bases, also equal to each other in all four trapeziums, to form square sections along the ends, with the square of each subsequent section being rotated relative to the previous square by an angle of 90 ° and each joining Inna section has square bottom sides equal to sides of upper square base of previous section, along with which a conical square-compression compression-tension spring is mounted along the entire length of the drum, which is equipped with a device for changing the coil pitch.

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