RU2572208C1 - Vibration small-sized unit for preparing feed - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: vibration small-sized unit has means for loading and unloading, a container for receiving the concentrated feed, a box with an exciter, mounted on the base using elastic elements and covered on all sides, and two or more sectional, hollow, screw drums mounted tiered and connected rigidly to a single technological chain. The pipe of the loading means is mounted into the inlet opening of the upper drum. The inlet openings of the lower drums and the outlet openings of all the drums are closed with lids. Inside each drum a spring is mounted, provided with a device for changing the pitch of the turns and with the direction of the turns opposite to the direction of the turns of the previous drum.

EFFECT: use of the invention enables to increase the quality of feed obtained.

6 dwg

Description

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

Known drum feed mixer and.with. No. 1666173, cl. A23N 17/00, 1987, comprising a drum with helical surfaces, consisting of sections, each of which is made of identical 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 insufficient productivity of the preparation of feeds due to some stationarity of the movement of feed flows in a multi-helical drum with equal-pitch helical surfaces directed towards each other and with the same number of strokes, assembled from elements of equal size, size and configuration in the form of equilateral triangles, forming in the cross section coaxial with the axis of rotation of the drum flat figures - polyhedra, large dimensions in length.

Closest to the proposed invention is a device for the preparation of feed Patent No. 2028070, class. A23N 17/00, 1995, containing a bed, a drum mounted on it with the possibility of rotation, consisting of sections made in the form of a straight triangular prism formed by the cross section of the cube diagonally, moreover, the same edges of adjacent sections are connected at right angles.

A disadvantage of the known device is the limited technological capabilities due to the fact that the preparation of feed is carried out with an almost constant longitudinal and cross section of the drum from loading to unloading and insufficient productivity due to insufficient interaction of the components of the feed with each other, as well as the large dimensions of the device in length.

The technical solution to the problem is to reduce the overall length, increase productivity and expand technological capabilities by giving the feed components complex spatial movement and the simultaneous impact of vibrations in them in three mutually perpendicular directions.

The technical solution is achieved by the fact that in a small-sized vibrating feed preparation unit, characterized in that it has means for loading and unloading, a container for receiving concentrated feeds mounted on the base with elastic elements and closed on all sides with a vibration exciter box and mounted in two or more sectional, hollow, screw drums connected in a single technological chain under each other and connected into a single technological chain, each drum being mounted from two subsections, made of three or more isosceles trapezoid and isosceles triangles alternately interconnected by lateral sides, the bases of which are located in opposite directions in the subsection, and the drum sections are interconnected by large trapezoid bases, and the subsections are connected into a section so that the bases of isosceles triangles of one section are connected to the upper base of the isosceles trapezoid of the second subsection, and the bases of the isosceles triangles of the second subsection are attached to the upper base isosceles trapezoids of the first sub-section to form on the inner periphery of each drum directed towards each other three or more polygonal right and left helical lines, as well as internal three or more helical grooves with the same pitch, in addition, nozzle charging device is mounted in an inlet of the upper drum; the inlet openings of the lower drums and the outlet openings of all the drums are covered with lids, and inside each screw drum along their entire length a spring with a flat coil section is mounted, which is equipped with a device for changing the pitch of the turns and with the direction of the turns opposite to the directions of the turns of the previous screw drum, while turns of a tension spring with a flat section of turns of the first upper helical drum coincides with the direction of the circulating rotational movement of the feed components inside and this first upper screw drum in planes perpendicular to its horizontal axis.

According to the patent literature not found a technical solution similar to the claimed, which allows us to judge the inventive step of the proposed vibration small-sized installation for the preparation of feed.

The novelty of the invention lies in the fact that during the operation of the exciter, particles of feed components that circulate inside the screw drums rigidly fixed in the vibrating housing in planes perpendicular to their horizontal axes receive additional movement from the internal surfaces of a triangular and trapezoidal shape, which increases the productivity of preparation of feed expands technological capabilities.

The novelty also lies in the fact that under the influence of the perturbing forces of the vibrator through the duct walls, the particles of the feed components rotate in planes perpendicular to the axis of symmetry of the screw drums, while the helical surfaces of the triangular and trapezoidal shape of the screw drums change and give additional movement to the particles of the feed components, provide productivity increase.

The novelty also lies in the fact that a spring with a flat coil section is mounted inside the entire length of all screw drums, which not only ensures the movement of particles of the feed components, which increases productivity and expands technological capabilities.

The novelty also lies in the fact that a spring with a flat section of coils mounted inside all screw drums is equipped with a device for changing the pitch of the turns, which allows you to influence the nature of the movement of particles of the feed components inside the screw drums and provides control of the speed of their movement from loading to unloading.

The novelty lies in the fact that such a design of the drum allows for the axial movement of the particles of the feed components from loading to unloading with the horizontal axis of the drums, which simplifies operation due to the lack of slope of the drums and the entire vibration small-sized installation for preparing feed.

The novelty of the proposal also lies in the fact that inside each screw drum helical surfaces are formed in the form of broken screw surfaces, which increases productivity and expands technological capabilities.

The novelty also lies in the fact that with the same diameter of the drums in the proposed design, the length of the path of the particles of feed components compared with the known designs of the drums is much larger, which makes it possible to reduce the dimensions of the drum both in length and in diameter, and also contributes to increase productivity and expand technological capabilities.

The novelty is also due to the fact that the area and cross-sectional shape of the screw drums varies from loading to unloading, which changes the speed and trajectory of the components of the feed as they move from loading to unloading, expanding technological capabilities.

The novelty is due to the fact that each of the screw drums is equipped with broken helical lines of the main and opposite directions, 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 screw drum, increases the energy intensity of collisions, productivity and expands technological capabilities.

The novelty is due to the fact that the helical drums are made with the formation along the inner perimeter of three or more broken right and left helical lines directed towards each other, which ensures the creation of flows of feed components directed towards each other, which under the influence of vibration circulate rotational movement inside each of the drums with maximum energy intensity of their collisions with each other and with the walls of the drums at different angles, increases the frequency of their interaction with each other and with With cans of drums, increases productivity and expands technological capabilities.

The novelty of the invention lies in the fact that, since the frequency of movement of the particles of the feed components in the proposed design is determined not only by the frequency of the vibrator, but also by the number of flat elements around the perimeter of the screw drums, such a structural design of the surface of the screw drums by increasing the number of flat elements in each sections along the perimeter increases the frequency of collisions of particles of the components of the feed between themselves and with the walls of the screw drums, increases productivity, increases t hnologicheskie opportunities.

In addition, the novelty is due to the fact that the elements from which the screw drums are assembled are mounted at certain angles to each other, so the intensity of preparation of the feed increases, since these elements, working when meeting with the feed particles, direct them towards each other and to the turns springs fixed rigidly, as well as drums inside a vibrating body, violating, thus, the stationarity of their movement, providing increased productivity and expansion of technological capabilities.

The novelty is seen in the fact that the area and shape of the cross section of the drum varies in each cross section along its entire length from loading to unloading, which intensifies the process of preparing feeds, increases the energy intensity of the interaction of particles of feed components, and extends technological capabilities.

The novelty is also due to the fact that not only isosceles triangles and isosceles trapezoids, from which subsections of drum sections are assembled, but also the sections themselves are mounted at certain angles to each other with the formation of broken helical lines, which increases miscibility, energy consumption and changes the frequency of interaction of particles of feed components with each other and with the walls of the drum, which expands technological capabilities.

The novelty also lies in the fact that the cross-sectional cross section of the drum has the shape of a polygon, the area of which varies many times in length from loading to unloading, providing periodic compression of the masses of feed components, which increases the intensity of mixing and the energy intensity of collisions, expanding technological capabilities.

The novelty is also seen in the fact that the area and shape of the cross and longitudinal sections of the drum vary along the entire length from loading to unloading, which changes the speed and trajectory of the movement of particles of the feed components, expands the technological capabilities.

The novelty also lies in the fact that along the perimeter of the drum helical surfaces are formed from flat elements of various shapes and sizes, which ensures a violation of the stationary flow of particles of feed components inside the drum, expands technological capabilities and increases productivity.

The invention is illustrated by drawings, where: in FIG. 1 shows a General view of a vibrating small-sized installation for the preparation of feed; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a view A in FIG. one; in FIG. 4 - one of three screw drums, a general view; in FIG. 5 is a view B in FIG. four; in FIG. 5 - one of the screw drums, a visual image.

A small-sized vibrating installation for preparing feed (Fig. 1, Fig. 2) consists of means for loading 1, means for unloading 2, box 3, installed using elastic elements 4 on base 5. At the bottom of box 3, vibration exciter is mounted 6. Vibration The small-sized feed preparation unit is equipped with a capacity of 7 for receiving finished feed. In the box 3, made closed on all sides, screw drums 8, 9, 10 are mounted under each other and connected into a single technological chain.

The helical drums 8, 9, 10 are made hollow, one of which, for example, 8, is shown in FIG. 4 and FIG. 5.

The nozzle of the loading device 1 is mounted in the inlet of the screw drum 8. The outlet 11 of the screw drum 8 is closed by a lid 12, which simultaneously covers the inlet 13 of the screw drum 9 and allows the flow of feed components from the upper (first) screw drum 8 to the underlying (second ) a screw drum 9, namely from the outlet 11 of the screw drum 8 into the inlet 13 of the screw drum 9. The outlet 14 of the second screw drum 9 is closed by a cover 15, which simultaneously covers the inlet 16 of the underlying third screw drum 10, ensuring the transfer of concentrated feed components from the second middle screw drum 9 to the lower third screw drum 10. To receive the finished feed streams, discharge means 2 are mounted under the third screw drum 10. Under the outlet 17 of the third screw drum 16 and the means for unloading 2 is mounted with a capacity of 7 for receiving flows of finished feed.

A spring with a flat coil section is mounted along the entire length of each of their screw drums 8, 9, 10, which is equipped with a device for changing the pitch of the turns (not shown in the drawing) and with the direction of the turns opposite to the direction of the turns of the previous screw drum, while the direction of the turns of the tension spring 18 with a flat cross section of the turns of the first upper screw drum 8 coincides with the direction of the circulating rotational movement of the components of the feed inside this first upper screw drum 8 in planes, perpendi ocular of its horizontal axis. The direction of the turns of the tension spring 19 with a flat cross-section of the turns of the second underlying screw drum 9 is opposite to the direction of the turns of the upper spring 18. The direction of the turns of the tensile spring 20 of the third underlying screw drum 10 is opposite to the direction of the turns of the spring 19 and this ensures longitudinal movement of the feed components in each screw drum 8, 9, 10 from loading to unloading.

Screw drums 8, 9, 10, for example, in FIG. 4 and FIG. 5, drum 8 (Fig. 4) is made of sections 21 mounted from two subsections, for example, 22 and 23, made of three or more alternately connected to the sides of isosceles trapezoid 24 and isosceles triangles 25 (in Fig. 4 one of the isosceles trapezoid 24 and one of the isosceles triangles 25 are marked by double lines), the bases of which in the subsection, for example, subsections 22, are located in different directions, for example, in the subsection 22, the base 26 of the trapezoid 24 and the base 27 of the triangle 25 are located in different sides of the subsection, and this section is interconnected by large bases of the trapezoid 28, 29, for example as in FIG. 4a, the subsections are connected to the section so that the bases of the isosceles triangles, for example, of one subsection 22 of the base 27 are attached to the upper base, for example 30, of the isosceles trapezoids of the second subsection 23, and the bases of the isosceles triangles of the second subsection, for example, the subsections 23 of the base 31, are attached to the upper base 32 of the isosceles trapezoid, for example 24 of the first subsection 22.

As a result of such sequential assembly of the wall elements of the screw drum 8 around the perimeter are formed, for example in FIG. 4, five right and five left broken helical lines with the same pitch S ₁ and S ₂ . One of the five left broken helix lines with step S _{1 is} shown in FIG. 4 with a thickened line 33-34-35-36-37, and one of the five right broken helical lines with step S _{2 is} shown in FIG. 4 thickened line 38-39-35-40-41.

Vibrational small-sized installation for the preparation of feed works as follows.

By means of a loading device 1, feed components are continuously loaded into the upper screw drum 8. Under the influence of the disturbing forces of the rotating vibrator 6 through the walls of the box 3 and rigidly connected to it screw perforated drums 8, 9, 10 disturbing forces are transmitted to the particles of the feed components. Particles of feed components under the influence of these disturbing forces under the influence of vibration rotate in planes perpendicular to the axis of symmetry of the screw drums 8, 9, 10. Moreover, the walls of the triangular and trapezoidal shape of the screw drums 8, 9, 10 change and give additional movement to the particles of the feed components and provide increased cooking performance. Mounted inside the screw drums 8, 9, 10, springs with a flat section of coils 18, 19, 20 provide a longitudinal movement of particles of feed components in each of the screw drums from loading to unloading. For example, the spring 18 moves the particles of the feed components in the screw drum 8 from loading to the outlet, for example, to the outlet 11 of the screw drum 8.

Under the influence of vibration and helical lines, springs with a flat section of coils 18 around the perimeter of the screw drum 8, as well as using the cover 12, the particles of feed components are loaded through the hole 13 into the underlying screw drum 9, inside of which a spring 19 with flat turns is mounted, the direction of which is opposite to the direction turns of the spring 18 of the upper helical drum 8. Under the influence of vibration and helical lines of the spring 19, the feed components in the helical drum 9 are moved to the outlet 14 and through the cover 15 p are moved through the inlet 16 into the inner cavity of the screw drum 10. Under the influence of vibration and helical lines of the spring 20, the feed components move along the horizontal axis of the screw drum 10 and through the hole 17, as well as with the help of an unloading device 2 are moved outside the installation limit for small-sized feed preparation in capacity 7 for receiving the finished feed.

Technical appraisal and economic advantages of the invention arise due to an increase in productivity, imposition of complex rotational motion from vibration in planes perpendicular to the horizontal axis of the screw drums, additional movement imparted by the walls of the triangular and trapezoidal shape of the screw drums, which expands the technological capabilities. In the process of moving the components of the feed from loading to unloading, their particles make a complex spatial movement, since the direction of their movement under the influence of vibration changes under the influence of the walls of the triangular and trapezoidal shape of the screw drums, which increases productivity. Technical and economic advantages are also ensured by reducing the working area of the installation of small-sized feed preparation.

Claims (1)

A small-sized vibrating feed preparation unit, characterized in that it has means for loading and unloading, a container for receiving concentrated feeds, installed on the base with elastic elements and closed on all sides with a vibration exciter box and mounted in the box in tiers under each other and connected in a single technological chain two or more sectional, hollow, screw drums, while each drum is mounted from two subsections made of three or more alternately soy the isosceles with each other on the sides of the isosceles trapezoids and the isosceles triangles, the bases of which in the subsection are located in different directions, the drum sections are interconnected by the large bases of the trapezoids, and the subsections are connected to the section so that the bases of the isosceles triangles of one section are attached to the upper base of the isosceles trapezoids of the second subsections, and the bases of the isosceles triangles of the second subsection are attached to the upper base of the isosceles trapezoids of the first subsection with the formation on the inner perimeter of each drum three or more broken right and left helical lines directed towards each other, as well as internal three or more helical grooves with the same pitch, in addition, the nozzle of the loading device is mounted in the inlet of the upper drum, the inlets of the lower drums and the outlet openings of all the drums are closed by covers, and inside each screw drum along their entire length a spring with a flat section of coils is mounted, which is equipped with a device for measuring the pitch of the turns and with the direction of the turns opposite to the directions of the turns of the previous screw drum, the direction of the turns of the tension spring with a flat section of the turns of the first upper screw drum coincides with the direction of the circulating rotational movement of the feed components inside this first upper screw drum in planes perpendicular to its horizontal axis .

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