UA61166C2 - Vibrating stirrer - Google Patents

Abstract

Vibrating stirrer for mixing loose materials may be used in agriculture, food, chemical, building, metal mining and other industries. The stirrer comprises a case with rotary shafts mounted on the bedplate by means of bumpers and equipped with vibroexciter. The case is torus-shaped and mounted on the bedplate by means of springs uniformly spaced by circle. Vibroexciter is a vertical shaft with upper and lower couples of debalances located on its ends in such a manner that the angle of turn of 30-150° is formed between the planes crossing their centres of gravity and vertical shaft axis. The paddle shafts are mounted vertically on the suspension that is coaxial relative to the case and independent of it. The suspension comprises vertical shaft with a carrier which mounted on the bedplate and has vertical paddle shafts to upper ends of which driving pulleys are fastened, those are connected with central fixed pulley through pulley gears, and vertical shafts are uniformly spaced by circle with radius equal to radius of annular axis of the torus-shaped case. Technical result consists in providing planetary motion of vertical paddle shafts in counterrotation relative to adjacent shafts, realising vibratory motion of torus-shaped case and planetary motion of paddle shafts by means of one drive motor, seal assemblies reliability improvement.

Description

Description of the invention

The invention relates to the technique of mixing bulk materials and can be used in 2 agricultural production, food, construction, chemical, mining and other industries.

A well-known vibrating mixer for bulk materials with simultaneous application of vibration and mechanical mixing (AS USSR Mo406560 M. cl. VOTE11/00, 1973, Byul. Mo46), in which the body, installed with the help of shock absorbers on the bed, together with the rotating the hollow blade shaft makes circular 70 oscillations in a plane perpendicular to the longitudinal axis of the mixer. The disadvantages of this mixer are the low efficiency of the mixing process, the complexity of the design, and the low reliability of the seals of the bearing assemblies of the blade shaft, which work in a loose medium under vibration conditions.

The closest to the declared one in terms of technical essence is the vibrating mixer (Patent of Ukraine Mo23682 A, M. cl. VEOTE11/00, 1998, Bull. Mo4), which contains, mounted on the bed with the help of shock absorbers and equipped with a 72 vibration exciter, a body with a rotating blade the shaft at the ends of which free-running mechanisms are installed to the driving links of which spring-loaded pendulums with loads are rigidly connected. The disadvantages of this mixer are also the low efficiency of the mixing process, the complexity of the design and the low reliability, under the given operating conditions, of the free-running mechanisms, since they are designed to work at a significantly lower frequency of activation than the operating frequency of vibration of the vibratory mixer, and the guaranteed term of their operation, under the given conditions , very small.

The invention is based on the task of a vibrating mixer, by making the body torus-shaped, and the vibration exciter in the form of a vertical shaft with upper and lower pairs of unbalanced loads located at its ends and the installation of bladed shafts, with the help of bearings, vertically on a suspension coaxial with the body and independent of it, and the connection of the upper ends of the vertical blade shafts, with the help of belt gears with a central fixed pulley, to ensure the planetary movement of the vertical blade shafts with the direction of their own rotation opposite to the adjacent shafts, as well as to increase the reliability (3 of the work of the seals of the bearing hubs of the blade shafts, by removing them beyond the limits of the mixed bulk medium.

The task is achieved by the fact that in the vibrating mixer, which contains a body installed on the frame with the help of shock absorbers and equipped with a vibration exciter, with rotating blade shafts, the body o is torus-shaped and installed on the frame with the help of evenly spaced springs, and "o the vibration exciter is is a vertical shaft with upper and lower pairs of unbalanced loads located at its ends, which are rotated relative to each other in such a way that between the planes that pass through - their centers of mass and the axis of the vertical shaft, a turning angle of 30-150"7 is formed, and the blade shafts are installed vertically on a suspension coaxial with the body and independent of it, which consists of a vertical shaft with a guide installed on the bed, on which vertical bladed shafts are placed evenly around the circle, to the upper ends of which are attached drive pulleys, which are driven by belt gears connected to the central stationary pulley, and vertical bladed ones all are evenly spaced around a circle whose radius is equal to the radius of the ring axis of the toroidal body. "

During the rotation of the vertical shaft of the vibration exciter with pairs of unbalanced loads, a system of two C 70 mutually stationary rotating centrifugal forces arises, under the influence of which the housing begins to perform complex spatial oscillations, which can be considered as the sum of two oscillations: translational oscillations of the center of mass of the housing along the horizontal circular trajectory and angular oscillations of the hull around its own center of mass. At the same time, each point of the inner surface of the case oscillates along a trajectory that has the shape of an ellipse inclined at a certain angle to the horizontal plane. Moreover, the points of the body surfaces, which lie on a circle concentric with the axis of the vertical shaft, carry out these oscillations with a phase shift relative to each other. Such fluctuations of the points b of the hull surfaces can be considered as quasi-waves propagating along the annular axis of the hull, which leads to fluidization of the bulk medium and its intensive vibrational transport along the hull and mixing. Under the action of the pressure of the bulk medium, the vertical blade shafts move - along the annular axis of the torus-shaped body, and therefore around the central fixed pulley, and since the blade shafts b 20 are connected to this pulley by means of belt gears, this will lead to the rotation of the blade shafts around their own axes . At the same time, the vertical blade shafts carry out planetary motion with the direction of their own rotation opposite to that of the adjacent shafts. The oscillating movement of the toroidal body and rotation of the blade shafts in this vibrating mixer is carried out by one drive electric motor, which significantly reduces the cost and simplifies its design, while simultaneously improving the quality of mixing due to the use 29 of the torus-shaped body. At the same time, the reliability of the seals of the bearing units also increases

HF) bladed shafts, as they are installed on the carrier and do not come into contact with the mixed bulk medium. By changing the mass of pairs of unbalanced loads, their eccentricity and the angle of mutual reversal, it is possible to smoothly, within wide limits, adjust the component trajectories of vibrations of the mixer body and points on its surface, and therefore adjust the speed of vibration transport of the bulk medium and the amount of dynamic pressure created by it.

The structural scheme of the vibrating mixer is shown in Fig. The vibrating mixer consists of a bed 1, on which, with the help of elastic elements 2, a torus-shaped body C with an electromechanical drive and a centrifugal vibrating exciter 4, filled with a mixed bulk medium 5, is installed using elastic elements 2. The vibrating exciter 4 is driven by an electric motor (not shown in the figure) and is a vertical a shaft with pairs of unbalanced loads installed at its ends, which can be rotated around the shaft and fixed in their position with tension bolts. The angle o between the planes passing through the centers of masses of pairs of unbalanced loads and the axis of the vertical drive shaft is the turning angle of the unbalanced loads. At a certain distance from the frame 17, a vertical rack 6 is installed with attached to it: a pneumatic cylinder 7, guides 8 and a hinge 9

A bushing. On the rod of the pneumatic cylinder 7, with the help of a thrust bearing, a finger cross 10 is installed, which in turn is rigidly attached to the rod 11, at the upper end of the latter a traverse 12 is rigidly installed, at the end of which there is a suspension for vertical blade shafts. The suspension is installed on the traverse 12 coaxially with the vertical axis of the toroidal body 3, using the central hinge 13 with the vertical axis 14. In addition, to the end of the traverse 12 with the help of brackets 15, a central fixed 7/0 multi-band pulley 16 and a noise-absorbing cap 17 are attached, installed with a gap coaxial with the central hinge 13 and the vertical axis 14. To the lower end of the latter, a carrier 18 is rigidly attached, with vertical blade shafts 20 installed on it with the help of vertical hinges 19, which are evenly spaced along a circle with a radius equal to the radius of the ring axis of the toroidal body of the vibrating mixer. Drive pulleys 21 are attached to the upper ends of the vertical blade shafts 20, connected to the central pulley 75 with belts 22, and blades 23 to the lower ends.

The mixer works as follows. When the vibration drive is turned on, complex spatial oscillations of the toroidal body З are generated, which can be considered as the sum of two oscillations: translational oscillations of its center of mass along a horizontal circular trajectory and angular oscillations around the center of mass. At the same time, each point of the working surface of the toroidal body Z oscillates along a trajectory that has the shape of an ellipse inclined at a certain angle to the horizontal plane. Moreover, the points of the surface of the toroidal body 3, which lie on a circle concentric with the axis of the vertical drive shaft 4, carry out these oscillations with a phase shift relative to each other.

Such oscillations of the points of the surfaces of the toroidal body Z can be considered as the propagation along its ring axis of a quasi-wave, which consists of traveling longitudinal and transverse quasi-waves shifted relative to each other by 907. Moreover, the wave fronts of both quasi-waves have the form of planes that pass through the axis of the vertical drive shaft 4, and the length of quasi-waves is equal to the length of a circle concentric with the axis of this shaft, along which it spreads. Such fluctuations of the points of the surfaces of the toroidal body 3 lead to intensive mixing and vibration transport of the bulk material 5 along the annular axis of the toroid and around it. The direction of vibration transport of the bulk material layer does not depend on the direction of rotation of the vertical drive shaft 4 and is always carried out in the direction of calculating the angle of reversal of unbalanced loads, from "o the lower pair of unbalanced loads to the upper one, provided that this angle is not greater than 5180"7. The flow of bulk medium , which carries out a circulation movement, creates a dynamic pressure that acts on the blades 23 placed in the loose medium and mounted on the blade shafts 20. As a result, the force Ek caused by the frontal resistance of the latter acts on the blade shaft 20 from the side of the loose medium. :

Rk - ukesbkOsv - KU t

Zo de tsk - coefficient of the shape of the blade shaft (frontal resistance); so ros - medium density;

Zk - the area of the largest cross-section of the blade shaft perpendicular to the flow (Midel section of the blade shaft); « ю usr - Speed of circulation movement of bulk medium; Z uk - speed of movement of the blade shaft. c Under the influence of this force, the vertical blade shafts begin to move along the annular axis of the toroid, "z" which causes the carrier to rotate around its vertical axis under the influence of the torque I equal to:

Y v - pshEk v de pu - the number of blade shafts; ia av - the diameter of the circle on which the blade shafts are placed on the carrier. - The blade shafts are connected by means of drive pulleys 21 and belts 22 to the central stationary multi-belt pulley 16 and move under the pressure of the circular movement of the bulk medium 5, around it, which leads to - the rotation of the blade shafts 20 around their vertical axes with an angular velocity o) ) level:

Ge) 50 oschstovdiip

F de ord is the angular speed of rotation of the carrier, which is equal to

Fvd72Uk/av; ip - gear ratio of the belt transmission, which is equal to: 5B ip-ac/ap, where aC is the diameter of the central pulley;

ГФ) ap - the diameter of the drive pulley.

Ge Rotation of blade shafts is possible if equality is observed:

And vepshi-ship/pp in de Tsu - the moment of resistance to the rotation of the blade shaft; tp - efficiency ratio of belt transmission.

To increase the torque on the carrier 18, the mixer provides the possibility of installing vertical sail plates that are attached to the carrier 18 and immersed in the loose medium 5, in order to increase the torque on the carrier by the amount of the moment from the frontal resistance forces of the above-mentioned plates. 65 In the process of vibration processing, the blade shafts rotate around their own vertical axes 20 and simultaneously with the carrier around the central axis 14, that is, they perform planetary motion. At the same time, the paddles 23 attached to them make the same movement. During operation, the paddles are constantly rotated and contribute to better mixing of the bulk medium, which ensures high productivity and mixing quality. After the end of the work cycle, the discharge hatch (not shown in the figure) opens in the lower part of the toe-shaped housing C and the bulk medium under the action of vibration "flows out" from the housing 3. To load a new portion of the bulk medium, it is necessary to turn on the pneumatic cylinder 7 and its rod will raise the finger cross 10 , rod 11 and traverse 12, while the suspensions together with the blade shafts are pulled out of the housings. After loading a new portion of bulk medium, the pneumatic cylinder 7 is turned off and the traverse 12, together with the rod 11 and suspensions with bladed shafts 23, begins to descend under the influence of its own weight. In the process of lowering, the finger crosspiece 10 runs into the beveled section of the guides 8 and ensures the lowering of the guides 18 and suspensions together with the blade shafts 23 strictly along the vertical axes of the toroidal bodies 3. At the same time, the blades are immersed in the bulk medium and the mixing process begins.

The oscillating movement of the toroidal body and rotation of the blade shafts in this vibratory mixer is carried out by a single drive electric motor, which significantly reduces and simplifies its design, while simultaneously improving the quality of mixing due to the use of the toroidal body. At the same time, the reliability of the seals of the bearing assemblies of the blade shafts also increases, since they are installed on the carrier and do not come into contact with the mixed bulk medium. By changing the mass of pairs of unbalanced loads on the drive shaft and their eccentricity, when rotating the unbalanced loads relative to each other in each pair, and the angle of mutual reversal of the pairs of unbalanced loads so, it is possible to smoothly, within wide limits, adjust the component trajectories of oscillations of the toroidal bodies З and their points surfaces At the same time, the intensity of the circulation movement of the bulk material will change, and therefore the efficiency of its mixing. The angle of mutual reversal of pairs of unbalanced loads o must be within 30-150", since at other values, effective vibration transportation of bulk material will not occur. c

The formula of the invention Go) 1. A vibrating mixer containing a body with rotating blade shafts installed on the frame with the help of shock absorbers and equipped with a vibration exciter, which is distinguished by the fact that the body is made (or toroidal and installed on the frame with the help of springs evenly spaced around the circle, and the vibration exciter is a vertical shaft with upper and lower pairs of unbalanced loads located at its ends, while the pairs of unbalanced loads are deployed relative to each other in such a way that an angle of deployment is formed between the planes that pass through their centers of mass and the axis of the vertical shaft , which is 30-150", and the blade shafts are installed vertically. -- 2. The vibrating mixer according to item 1, which differs in that the blade shafts with the help of bearings Ge) are mounted on a suspension coaxial with the body and independent of it, which consists of from a vertical shaft with a carrier installed with the help of bearings on the bed, on which the size is evenly distributed around the circumference vertical vane shafts, to the upper ends of which drive pulleys are attached, which are connected to the central stationary pulley with the help of belt gears, while the latter is installed coaxially with the vertical shaft of the suspension, and the vertical vane shafts are evenly spaced along a circle that has a radius equal to the radius shsh c of the ring axis of the torus body of the vibrating mixer. . and? (o) - - (o) 4) ime) 60 b5