RU2373809C1 - Drum food mixer - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to food mixers. The drum mixer contains a drum with screw surfaces. The drum is multisectional, multithread, screw and conic. The drum is assembled of sections manufactured from equilateral and isosceles triangles connected sequentially, their lateral sides are equal to each other, and the bases of the isosceles triangles are bigger than the length of their lateral sides. The sections are connected with each other with free sides. The number of the equilateral and isosceles triangles in the section is equal to six at least and is not restricted upwards forming three, four, five, etc. broken screw lines of the reference direction along the perimetre of the drum in increments changing from charging to discharging and three, four, five, etc. broken screw grooves of the reference direction inside the drum accordingly in increments changing and increasing from charging and discharging as well as three, four, five, etc. broken screw lines of the opposite direction in increments changing from charging to discharging and three, four, five, etc. broken screw grooves of the opposite direction accordingly inside the drum in increments changing and increasing from charging and discharging.

EFFECT: invention enables to improve food mixing quality.

5 dwg

Description

The invention relates to devices for mixing, in particular to continuous drum mixers for mixing concentrated, coarse, succulent and watery feeds.

A known патент patent for feed. A23N 17/00, 1995, containing a bed, a drive, a working chamber, consisting of sections made in the form of a straight triangular prism formed by a cross section of a cube diagonally, the edges of the same sections being connected at the same angle.

A disadvantage of the known device is the limited technological capabilities due to insufficient mixing intensity and the need to tilt the entire device to ensure the movement of feed components of the feed from loading to unloading.

Closest to the proposed invention is a drum feed mixer and.with. USSR No. 1666173, cl. B01F 19/02, 1987, comprising a drum with helical surfaces, consisting of sections, each of which is made of the same area plates having the shape of equilateral triangles, interconnected by two sides on the surface of the drum and placed at an angle to each other and to its axis, while the sections are interconnected by the free sides of the plates and form multidirectional screw surfaces of equal pitch, and the number of plates in the section is even and at least six.

A disadvantage of the known device is the limited technological capabilities due to insufficient mixing intensity and the need to tilt the entire device to ensure the movement of feed components of the feed from loading to unloading.

The technical result of the task is to expand technological capabilities and ensure the movement of feed components from loading to unloading with a horizontal axis of the drum.

The technical result is achieved by the fact that in a drum feed mixer containing a drum with helical surfaces, the drum is made in the form of a multi-section, multi-start helical conical drum mounted from sections made of alternately connected equilateral and isosceles triangles, the sides of which are equal to each other, and the bases of isosceles triangles are greater than the length of their lateral sides, while the sections are connected to each other by free sides, the number of equilateral and isosceles t eugolnikov section at least equal to six and does not limit upward to form the perimeter of the drum three, four, five, etc. broken helical lines of the main direction with a step that varies from loading to unloading, and accordingly three, four, five, etc. broken helical grooves of the main direction inside the drum with a variable, increasing step from loading to unloading, as well as three, four, five, etc. broken helical lines of the opposite direction with a step that varies from loading to unloading, and accordingly three, four, five, etc. broken helical grooves of the opposite direction inside the drum with a variable, increasing step from loading to unloading.

The novelty of the proposal lies in the fact that by increasing the bore of the drum from loading to unloading, i.e. conditionally conical shape of the drum, the stationary movement of the components of the feed is violated and technological capabilities expand.

The novelty is also seen in the fact that the pitch of the helical lines increases from loading to unloading, which not only provides an increase in the speed of longitudinal movement of the feed components, but also intensifies the mixing process by complicating the trajectories of their movement inside the drum and expanding technological capabilities.

The novelty is also due to the fact that the area and shape of the cross section of the drum varies from loading to unloading, which changes the speeds and trajectories of the movement of feed components as they move from loading to unloading, expanding technological capabilities.

The novelty is due to the fact that the drum is equipped with three, four, five, etc. broken helical lines of the main and opposite directions, the step of which varies from loading to unloading and, accordingly, three, four, five, etc. with broken helical grooves of the main and opposite directions inside the drum, which increases not only the speed of movement of the feed components from loading to unloading, but also their frequency of interaction with each other and with the walls of the drum, increases the energy intensity of collisions, productivity and extends technological capabilities.

The invention is illustrated by drawings, where: in Fig.1 shows a drum feed mixer, General view; figure 2 is a section aa in figure 1; figure 3 - screw drum of the drum feed mixer, General view, sections of which are mounted from four equilateral and four isosceles triangles; figure 4 is a view of figure 3; figure 5 - screw drum of a drum feed mixer, General view, sections of which are mounted from six equilateral and six isosceles triangles.

The drum feed mixer (figure 1, figure 2) consists of a screw drum 1, loading 2 and unloading 3 pins. Drum 1 (Fig. 3, Fig. 4) is made in the form of a multi-section, multi-input helical conical drum mounted from sections 4 made of four equilateral 5 and four isosceles 6 triangles, alternately connected by their sides 7 and 8 to each other. The sides of equilateral 5 and isosceles triangles 6 are equal to each other, and the bases of isosceles triangles are larger than their sides 7 and 8. Sections 4 are connected to each other on the free sides 9 of equilateral 5 and isosceles 6 triangles. The total number of equilateral 5 and 6 isosceles triangles in sections 4 of the reel is equal to at least six, must be an even number, has no restrictions in the direction of increase. The vertices of triangles 5 and 6 form around the perimeter of drum 1 four broken helical lines and, accordingly, four broken helical grooves in the main direction (clockwise) with a step S ₁ increasing from loading to unloading, as well as four broken helical lines and, accordingly, four broken helical grooves opposite direction (counterclockwise) with a step S ₂ increasing from loading to unloading. One of the four broken helical lines with step S _{1 of the} main direction is shown in FIG. 3 by the thickened line 10, 11, 12, 13, 14. One of the four broken helical lines of the opposite direction with step S _{2 is} shown in FIG. 3 by the thickened line 15, 11, 16, 17, 18.

Figure 5 shows, for example, drum 1, sections 19 of which are made of six equilateral 20 and six isosceles 21 triangles, alternately connected by their sides 22 and 23 to each other. The sides 22 and 23 of equilateral 20 and isosceles triangles 21 are equal to each other, and the bases of isosceles triangles are larger than their sides 22 and 23. Sections 19 are connected to each other on the free sides 24 of equilateral 20 and isosceles 21 triangles.

The vertices of triangles 20 and 21 form six broken helical lines along the perimeter of drum 1 and, accordingly, six broken helical grooves of the main direction (clockwise) with a step S ₃ increasing from loading to unloading, and six broken helical lines and six broken helical grooves of the opposite direction (counterclockwise) in increments of S ₄ increasing from loading to unloading. One of six broken helical lines with a step S _{3 of the} main direction is shown in Fig. 5 by a thickened line 25, 26, 27, 28, 29, 30. One of six broken helical lines with a step S _{4 of the} opposite direction is shown in Fig. 5 by a thickened line 31, 32, 27, 33, 34, 35.

Drum mixer feed works as follows. Drum 1 is filled with feed components. When the drum 1 rotates, flat elements - equilateral and isosceles triangles mounted along the perimeter of the screw drum are differently inclined to the axis of rotation of the screw drum and to each other, working like buckets (shelves), capture masses of feed components of various volumes, lift them in the direction of rotation of the drum 1 slightly higher than the angle of repose, and then send these portions of mass in directions perpendicular to these shelves (buckets), at a certain angle not only to the axis of rotation of the screw drum, nor to the other them by mass mass flow of feed components, moving inside the screw barrel at different angles and with different speeds. The length of the trajectory of the movement (amplitude) of the masses of the components of the feed largely depends on the diameter of the screw drum, on the angles of inclination of the flat elements to each other and to the axis of rotation. The frequency of movement and collisions of the masses of the components of the feed is determined not only by the frequency of rotation of the screw drum, but also by the number of flat elements around the perimeter of the screw drum. Therefore, the proposed design of a drum feed mixer provides an increase not only in the amplitudes of movement of the feed components, but also in their frequency characteristics by a factor of tens, and technological capabilities are expanding. Since the shape and dimensions of the cross section, having the shape of a polygon, change repeatedly along the length of the screw drum from loading to unloading, periodic compression of the masses of feed components is ensured, which increases the mixing intensity, the energy intensity of the collisions, and expands the technological capabilities. The mixing process is intensified by the fact that the area of the triangles are not only different in one section, but also along the length of the drum 1.

The proposed shape and design of the drum allows to increase the amplitude of movement of the feed components inside the drum, the intensity of mixing the feed components between each other and the frequency of their interaction with each other, with the inner walls of the drum and to ensure the continuity of the process of their transportation from loading to unloading, to expand technological capabilities.

Technical and economic advantages arise due to the increase not only in the amplitude of movement of the feed components, but also in the frequency of their interaction not only with each other, but also with the walls of the screw drum, which increases the mixing intensity, increases the energy consumption of the interaction of grinding media and material, increases productivity and expands technological capabilities.

Claims (1)

A drum feed mixer comprising a drum with helical surfaces, characterized in that the drum is made in the form of a multi-section, multi-way helical conical drum mounted from sections made of alternately connected equilateral and isosceles triangles, the sides of which are equal to each other, and the bases of the isosceles triangles are larger the lengths of their lateral sides, while the sections are connected to each other by free sides, the number of equilateral and isosceles triangles in a section and at least equal to six and has limited upward to form on the drum perimeter three, four, five, etc. broken helical lines of the main direction with a step that varies from loading to unloading, and accordingly three, four, five, etc. broken helical grooves of the main direction inside the drum with a variable, increasing step from loading to unloading, as well as three, four, five, etc. broken helical lines of the opposite direction with a step that varies from loading to unloading, and accordingly three, four, five, etc. broken helical grooves of the opposite direction inside the drum with a variable, increasing step from loading to unloading.

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