RU2761635C1 - Method for mixing feed and apparatuses for implementation thereof - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: group of inventions relates to agriculture, namely, to methods and apparatuses for mixing feed. The method for mixing feed consists in simultaneous feeding of components from several hoppers, wherein the supplying and dosing apparatuses of each of said hoppers ensure radial even supply of the components into a rotating container. Simultaneous supply of components into the rotating container eliminates the need to use vibrators and mixing bodies consuming a large amount of power. Radial even supply of components therein ensures high homogeneity of the mixture and the possibility of quick and accurate adjustment of the composition of the resulting mixture.EFFECT: use of the group of inventions provides a possibility of improving the quality of mixing and reducing the power consumption of the mixing process.4 cl, 1 dwg

Description

The invention relates to agriculture, specifically to methods and devices for mixing feed, and can be used in animal husbandry, in particular in the process of preparing feed.

Mixing is understood as the process of uniformly distributing particles of a particular component in the total volume in order to obtain a homogeneous mixture.

In agriculture, batch mixers with a fixed chamber, in which vertically or horizontally mounted agitator working bodies, are used, are most widely used. However, moving the mixing tools (screws, blades, etc.) together with the components to be mixed requires a lot of energy.

The prior art also knows a method for mixing compound feed and an installation for its implementation (Patent RU No. 2411883, A23N 17/00 (2006.01). Bull. No. 5, 2011).

The method for mixing compound feed includes loading the ingredients to be mixed into the supply bins, their simultaneous flow from the supply bins to the distributor and mixing the ingredients. Mixing of ingredients is carried out by multiple intersection of the streams of ingredients, and the primary intersection of streams, which is preliminary mixing, occurs in a receiving container communicated with the bunkers, which has a distribution device, which is made in the form of an inclined plane with an electric vibrator attached to it. And the subsequent intersection of the flows occurs in the mixing channel connected to the receiving tank by means of inclined guides fixed inside it in a checkerboard pattern and with an angle greater than the angle of repose of the compound feed, which form a working mixing zone in the form of a square in the cross section of the mixing channel.

The installation for mixing compound feed has a transport line connected to the distributor, supply bins installed under the distributor, the lower narrow part of which has adjusting flaps and is located inside the receiving tank, which has a distributor device directly under the bins, made in the form of an inclined plane with an electric vibrator attached to it. Moreover, the receiving container with its lower part is connected to the mixing channel, inside which the inclined guides are fixed in a staggered manner and with an angle greater than the angle of repose of the compound feed, forming a working mixing zone in the form of a square in the cross section of the mixing channel. In addition, the feed hoppers are equipped with high and low level sensors.

However, the quality of mixing in this case depends on a variety of both physical and mechanical properties of the components to be mixed and the design features of the device, therefore it is difficult to ensure high homogeneity of the mixture when using components that are different in physical and mechanical properties. In addition, the presence of electric vibrators complicates the mixer setup and also increases the energy consumption of the mixing process.

The objective of the present invention is to eliminate the above disadvantages, improve the quality of mixing and reduce the energy consumption of the mixing process.

The above technical result is achieved by the fact that in the proposed method the container for the mixture rotates, and the components are fed into the container from each bin radially evenly.

The invention is illustrated by a diagram, where in FIG. 1 (a) shows a mixer, general view, in Fig. 1 (b, c, d) shows a bottom view of the hoppers (options for the manufacture of dosing and feeding devices).

The proposed method of mixing feed can be implemented using a mixer (Fig. 1 a, b), which has several bins 1 and a cylindrical container 2 for mixing, which is installed on a rotating base 3. Holes 4 are made in the bottoms of the bins in the form of a ring sector, radius R the outer arc of which is less than the inner radius of the cylindrical container 2, and the radius r of the inner arc is minimal, taking into account the design features of the mixer. Hole area 4 in the form of a ring sector satisfies the condition:

,

,

where α is the angle of the ring sector. The number of supplied components can be adjusted by changing the angle of the sector of the feed hole ring 4 with the help of gates.

Also, the proposed mixing method can be implemented using a mixer (Fig. 1 a, c), which has several bins 1 and a cylindrical container 2 for mixing, which is installed on a rotating base 3, where in the bottoms of the bins are made feeding holes 5 in the form of an isosceles trapezoid, the upper base of the container directed to the axis of rotation. In this case, the holes are closed by dispensing devices in the form of rotating truncated cones with longitudinal grooves 6 tapering towards the axis of rotation of the container on the generating surface, and the volume of the grooves 6 satisfies the condition:

,

,

where α is the angle of the ring sector (within the boundaries of which the groove is made) on the sweep of the generatrix of the truncated cone surface, R is the radius of the outer arc of the ring sector (within the boundaries of which the groove is made) on the sweep of the generatrix of the truncated cone surface, r is the radius of the inner arc of the ring sector (in the boundaries of which a groove is made) on the sweep of the generatrix of the truncated cone surface, h is the depth of the groove inside the truncated cone.

The proposed mixing method can also be implemented using a mixer (Fig. 1 a, d), which has several bins 1 and a cylindrical mixing container 2, which is installed on a rotating base 3, where rectangular feeding holes 5 are made in the bottoms of the bins, which are closed by cylindrical dosing devices with longitudinal grooves 6 tapering to the axis of rotation of the container on the generating surface, and the volume of the grooves 6 satisfies the condition:

where α is the angle of the ring sector (within the boundaries of which a groove is made) on the sweep of the generatrix of the surface of the cylindrical dosing device, R is the radius of the outer arc of the ring sector (within the boundaries of which the groove is made) on the sweep of the generatrix of the surface of the cylindrical dosing device, r is the radius of the inner arc of the ring sector (within the boundaries of which a groove is made) on the sweep of the generatrix of the surface of the cylindrical dosing device, h is the depth of the groove inside the cylindrical dosing device.

The devices work as follows: each component of the mixture is loaded into a separate hopper 1, from where, when the gate is opened, the components of the mixture by gravity (Fig. 1 b) or by rotation of the dosing device (Fig. 1c, d) are radially uniformly poured into the cylindrical container 2 installed on the rotating base 3, where the crumbling components are superimposed on each other, due to which there is a gradual layer-by-layer filling of the cylindrical container 2. When the container 2 is full, the supply of components from the hoppers stops and the base 3 stops rotating. Then the finished mixture from the cylindrical container 2 can be used for its intended purpose.

The number of bins 1 depends on the number of ingredients corresponding to the technology and recipes for the preparation of compound feed.

This invention makes it possible to reduce the energy consumption of the process due to the absence of active stirring working bodies and vibrators. At the same time, the quality of mixing is also increased due to the uniform distribution of the components of the mixture, which are different in physical and mechanical properties. The proposed designs allow you to quickly and accurately adjust the flow of each component, as well as change it depending on the requirements for the finished mixture.

The technical result is to improve the quality of mixing, reduce the energy consumption of the mixing process.

Claims (15)

1. A method of mixing feed, which consists in the simultaneous supply of feed mixture components from several bins, characterized in that the feeding and dosing devices of each hopper provide an adjustable feed of the feed mixture components radially uniformly into a cylindrical mixing tank mounted on a rotating base. 2. A device for implementing the method of mixing feed according to claim 1, characterized in that it has several hoppers with dosing and feeding devices and a cylindrical mixing container installed on a rotating base, while the holes in the bottoms of the hoppers are made in the form of a ring sector, the radius R of the outer arc of which is less than the radius of the cylindrical vessel, and the radius r of the inner arc is minimal, taking into account the design features of the mixer, and the angle of the ring sector is made adjustable by means of a gate, and the area of the hole S in the form of a ring sector is determined by the following relationship:

, where α is the angle of the ring sector; R and r are the radii of the arc of the ring sector. 3. A device for implementing the method of mixing feed according to claim 1, characterized in that it has several hoppers with dosing and feeding devices and a cylindrical mixing container installed on a rotating base, while the bottoms of the hoppers have holes in the shape of an isosceles trapezoid, the upper the base of the container directed to the axis of rotation, which are closed by dosing devices in the form of rotating truncated cones with longitudinal grooves tapering to the axis of rotation of the container on the generating surface, while each groove is made within the boundaries of the sweep ring sector of the cone surface, the radius R of the outer arc of the ring sector is less than the radius cylindrical vessel, the radius r of the inner arc is minimal, taking into account the design features of the mixer, and the volume of the grooves is determined by the following relationship:

, α is the angle of the ring sector, within the boundaries of which the groove is made; R and r are the radii of the arc of the ring sector, within the boundaries of which the groove is made; h is the depth of the groove inside the truncated cone. 4. A device for implementing the method of mixing feed according to claim 1, characterized in that it has several hoppers with dosing and feeding devices and a cylindrical mixing container installed on a rotating base, while the bottoms of the hoppers have rectangular feeding openings that are closed by rotating cylindrical dosing devices with longitudinal grooves tapering to the axis of rotation of the container on the generating surface, with each groove made within the boundaries of the sweep ring sector of the generating surface of the cylindrical dosing device, the radius R of the outer arc of the ring sector is less than the radius r of the cylindrical container, the radius of the inner arc is minimal, taking into account the structural features of the mixer, and the volume of the grooves is determined by the following relationship:

, α is the angle of the ring sector, within the boundaries of which the groove is made; R and r are the radii of the arc of the ring sector, within the boundaries of which the groove is made; h is the depth of the groove inside the cylindrical metering device.

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