RU209637U1 - vibrating mixer - Google Patents

Abstract

The utility model relates to the field of mixing dry bulk materials and can be used, for example, for the preparation of feed in animal husbandry. SUBSTANCE: vibratory mixer contains a housing in the form of a trough with sawtooth elements fixed inside it, evenly placed one after the other with an inclination to the bottom of the trough and having holes in the form of an isosceles triangle, the apex of which is directed towards the bottom of the trough. The length of the base and the height of the isosceles triangle are respectively 0.3 and 1.2 steps of the sawtooth element, the holes are arranged in a row in the middle of the sawtooth element, the number of holes is equal to the number of troughs of the sawtooth element. Under the holes there are plates having the form of similar isosceles triangles, curved at an angle of 174°, and inclined relative to the sawtooth element at an angle of 12°. The technical result consists in increasing the degree of homogeneity of the resulting mixture through the use of sawtooth elements with holes and triangular plates. The use of the proposed vibratory mixer provides an increase in the degree of homogeneity of the mixture obtained up to 96-97%. 3 ill.

Description

The utility model relates to the field of mixing dry bulk materials and can be used for the preparation of feed in animal husbandry, as well as in other industries for the preparation of bulk mixtures.

Known vibratory mixer containing a housing in the form of a chute with reinforced inside the mixing elements with a serrated edge, evenly spaced one after the other with an inclination to the bottom of the chute, the mixing elements are made in the form of cones, and forming the cones have different values in length [Patent No. 41644 B01F 11/00].

The disadvantages of this vibratory mixer is the low homogeneity of the resulting mixture, low productivity.

The closest in technical essence to the claimed utility model is a vibratory mixer containing a body in the form of a chute with sawtooth elements fixed inside it, evenly spaced one after the other with an inclination to the bottom of the chute and having holes in the form of an isosceles triangle, the apex of which is directed towards the bottom of the chute, the length of the base and the height of the isosceles triangle is equal to 0.2-0.4 and 1.0-1.4 steps of the sawtooth element, respectively, the holes are arranged in a row in the middle of the sawtooth element, the number of holes is equal to the number of hollows of the sawtooth element [Patent No. 148602 B01F 11/00 ].

The disadvantage of this device is the low degree of homogeneity of the resulting mixture.

The technical result consists in increasing the degree of homogeneity of the resulting mixture.

The technical result is achieved by the fact that a vibratory mixer containing a body in the form of a chute with sawtooth elements fixed inside it, uniformly placed one after the other with an inclination to the bottom of the chute and having holes in the form of an isosceles triangle, the apex of which is directed towards the bottom of the chute, the length of the base and the height of an isosceles triangle is equal to 0.3 and 1.2 steps of the sawtooth element, respectively, the holes are located in a row in the middle of the sawtooth element, the number of holes is equal to the number of troughs of the sawtooth element, under the holes there are plates having the shape of similar isosceles triangles, curved at an angle of 174 °, and inclined relative to the sawtooth element at an angle of 12°.

The technical solution is illustrated by the drawing, where in Fig. 1 shows a vibratory mixer, general view; in fig. 2 - sawtooth element; in fig. 3 - triangular plate located under the hole and curved at an angle of 174°.

Vibratory mixer contains a housing in the form of a trough 1 with sawtooth elements 2 fixed inside it, evenly spaced one after another with an inclination to the bottom of the trough. The chute rests on the frame 4 with the help of springs 3. The vibrations are communicated to the chute by an eccentric drive 5. The sawtooth elements are made with holes 6 in the form of an isosceles triangle, the apex of which is directed towards the bottom of the chute. Plates 7 are located under the holes, having the form of similar isosceles triangles, curved at an angle of 174°, and inclined relative to the sawtooth element at an angle of 12°.

Vibratory mixer works as follows. The mixed mass is fed by dispensers into the loading part of the trough 1. Under the influence of vibration imparted by the eccentric drive 5, the mixed mass enters the first sawtooth element 2. Further, the mixed mass moves in the longitudinal direction along the flat surface of the sawtooth element, then part of it reaches the holes 6 in in the form of an isosceles triangle and falls towards each other from the sides of the hole 6 onto the curved triangular plate 7 located under it.

Bulk material that has fallen on a curved triangular plate rolls off it in different directions, the particles are additionally mixed and move to the next mixing element; their trajectories intersect with the trajectories of particles that fall off the jagged edge, and the trajectories of particles moving from other triangular plates - all this also contributes to the intensification of the mixing process.

Then there is a movement of the mixed mass in the longitudinal direction at the bottom of the trough. On the second and subsequent sawtooth elements, the described processes are repeated. Due to the multiple intersection of the trajectories of movement of particles of bulk material, a highly homogeneous bulk mixture is obtained in a relatively short period of time. The finished mixed mass is poured from the discharge end of the chute.

The step of the sawtooth element can be taken equal to 44-52 mm. The technical result is an increase in the degree of homogeneity of the resulting mixture, which is optimally achieved with a combination of the declared parameters.

The technical result is an increase in the degree of homogeneity of the mixture.

In the case of reducing the size of the triangular holes on the surface of the sawtooth elements and, consequently, reducing the size of the triangular plates located under the holes, relative to the step of the sawtooth element, it is necessary to reduce the angles of convexity and increase the angles of inclination of the plates within the established limits to prevent clogging of the holes with bulk mass and obtain optimal speed movement of particles - during the movement of their trajectory will repeatedly intersect, which allows to achieve a technical result - increasing the degree of homogeneity of the resulting mixture.

In the case of an increase in the size of the triangular holes on the surface of the sawtooth elements and, consequently, an increase in the size of the triangular plates located under the holes, relative to the step of the sawtooth element, it is necessary to increase the angles of convexity and reduce the angles of inclination of the plates within the established limits to obtain the optimal particle velocity, otherwise the particles will quickly roll off the surface of the triangular plates, and the trajectories of their movement will hardly intersect with each other. In addition, to contribute to obtaining a technical result in this case will be an increase in the efficiency of using the working surface of triangular plates.

In the laboratory conditions of the Tara branch of the Federal State Budgetary Educational Institution of Higher Education, Omsk State Agrarian University, a prototype of a vibratory mixer was manufactured and tested.

Laboratory studies have shown that the proposed vibratory mixer provides an increase in the degree of homogeneity of the resulting mixture through the use of sawtooth elements with holes and triangular plates. Under the holes there are plates having the form of similar isosceles triangles, curved at an angle of 174°, and inclined relative to the sawtooth element at an angle of 12°, which makes it possible to increase the number of mixing processes. Along with the main movements of particles in the longitudinal direction of the chute, leading to mixing of the mass, there is a multiple movement of particles falling from the triangular plates of each sawtooth element, which increases the degree of uniformity of the resulting mixture.

The use of the proposed vibratory mixer provides an increase in the degree of homogeneity of the mixture obtained up to 96-97%.

Claims (1)

A vibrating mixer, containing a body in the form of a trough with sawtooth elements fixed inside it, evenly spaced one after the other with an inclination to the bottom of the trough and having holes in the form of an isosceles triangle, the apex of which is directed towards the bottom of the trough, the length of the base and the height of the isosceles triangle are respectively 0, 3 and 1.2 steps of the sawtooth element, the holes are arranged in a row in the middle of the sawtooth element, the number of holes is equal to the number of cavities of the sawtooth element, characterized in that under the holes there are plates having the shape of similar isosceles triangles, curved at an angle of 174 °, and inclined relative to the sawtooth element at an angle of 12°.

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