RU2536623C1 - Chopper of forage grain - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the agricultural production, namely, machines for grinding concentrated feed. The chopper of forage grain comprises a housing made in the form of a tube rigidly fixed to the frame. The loading hopper is attached to the side of the housing. Inside, on the axis of the housing a shaft is located, rotating in bearing assemblies. In the upper part of the shaft a receiving scraper is consecutively mounted, as well as a distribution cone having spiral notches, opposite which on the inner walls of the housing a distribution conical sleeve is fixed, having a smooth surface. Below, directly adjacent to the distribution cone, a working cone is secured, having main notches in the form of grooves. Opposite the working cone on the inner walls of the housing the working conical sleeve is fixed, having, as well as the working cone, the main and additional notches in the form of similar grooves but directed to the opposite side to the grooves of the working cone and providing the angle of pinching the material between the grooves of the working cone and the conical sleeve of not less than 45°. At the lower part of the shaft under the working cone an unloading scraper is mounted, opposite which in the housing there is an unloading chute. For the implementation of the vertical adjustment of the gap between the working bodies a screw is used. The gap size is fixed by a nut. An electric motor is mounted on the frame, connected to the shaft by means of a vee belt transmission.

EFFECT: device provides reduction in energy intensity of the grinding process of forage grain and increase in productivity.

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Description

The invention relates to agricultural production, and in particular to machines for grinding concentrated feed.

Known feed chopper (1), comprising a housing made in the form of a hollow cylinder with opposing elements of variable depth, the cross section of which has the shape of a triangle. A cone-shaped rotor is mounted in the housing, mounted on one shaft with a feed screw. The chopper contains loading and unloading nozzles. On the rotor 3, blades are made having an inclination to the generatrix of at least 30 °. On the lower part of the rotor and the housing a mesh surface is made by mesh corrugation.

Known feed grain grinder (2), containing a feed screw, a conical rotor with blades made on it, a housing with opposing elements of variable depth, horizontal knives, an opposing ring, loading and unloading nozzles.

The disadvantages of these grinders is the lack of self-cleaning of the working bodies, since the pinching angle of the crushed material between the blades is not taken into account, which will lead to clogging of the blades and a decrease in productivity. The use of blades contributes to their rapid blunting when grinding grain.

The closest in technical essence (prototype) to the claimed invention is a chopper (3), containing a housing made in the form of a pipe, rigidly mounted on the frame. A loading funnel is attached to the side of the housing. In the lower part of the housing there is a thread on which the stator is wound. The stator has an internal conical surface, handles and an outlet pipe. Inside the housing there is a shaft resting on a bearing assembly. A reflector made in the form of a cone and a rotor made in the form of a step pyramid assembled from washers having the shape of a truncated cone are fixed coaxially with the stator on the shaft. Moreover, on the side conical surface of the washers there is a cut at an angle to the generatrix of this surface. Moreover, the cutting is performed in such a way that the smaller the washer, the smaller the cutting. In the assembled state, the rotor and stator form a grinding zone in the form of a conical step gap. The separation of the grinding zone into steps, formed by the sections of the conical surfaces of the rotor and stator, allows you to feed the same parts of the feed from one zone to another without immediately clamping them, but giving some freedom initially, which helps prevent the compression of the feed and reduce the grinding force. To move the particles of raw materials in a stepped conical gap and reduce energy costs during grinding, the grooves on the inner surface of the stator are used. The depth of the grooves decreases from the place of loading of raw materials to the exit. On top of the frame is an electric motor connected to the shaft by means of a coupling.

The disadvantages of this grinder is the low productivity due to the supply of grain through a loading funnel at one pickup point and subsequent distribution in the working area. An increase in the supply of grain is impossible since clogging of the working organs will occur. There is a risk of clogging of the working bodies due to the lack of self-cleaning of the grooves of the grinder.

The claimed invention is aimed at eliminating the noted drawbacks and from its use the following technical result was obtained: reducing the energy intensity of the process of grinding feed grain and increasing productivity.

The specified technical result is achieved due to the fact that in the upper part of the shaft, a receiving scraper, a distribution cone having screw notches, are consecutively fixed next to each other, on which the distribution conical sleeve having a smooth surface is fixed on the inner walls of the housing, while directly adjacent to the distribution cone, the working cone is fixed, having the main notches in the form of grooves having in the cross section two unequal side faces - narrow (point) and wide (back) with a point angle between these faces α = 40 ... 80 °. The radius drawn through the top of the groove divides the point angle by the point angle β = 0 ... 20 ° and the back angle γ = 40 ... 60 °. The grooves are located relative to the vertical axis of the working cone at an angle δ = 20 ... 60 °. In the lower part of the working cone, to increase productivity, additional notches were made in the form of grooves to the middle of the working cone, having geometric dimensions similar to the main notches. Opposite the working cone, a working conical sleeve is fixed on the inner walls of the casing, having, like the working cone, the main and additional notches in the form of similar grooves, but directed in the opposite direction to the grooves of the working cone and providing a pinch angle between the grooves of the working cone and the conical bushings not less than 45 degrees. The angle at the apex of the working cone ψ ₁ is 5 ... 20 ° sharper than the angle of the working sleeve ψ ₂ . An unloading scraper is installed in the lower part of the shaft under the working cone, opposite which there is an unloading tray in the housing.

Graphic materials

Figure 1 shows the chopper feed grain.

Figure 2 shows the working cone.

The feed grain shredder comprises a housing 1 made in the form of a pipe rigidly fixed on the frame 2. A feed funnel 3 is attached to the housing 1 on the side. Inside the axis of the housing 1 there is a shaft 4 rotating in the bearing assemblies 5. In the upper part of the shaft, one after another a receiving scraper 6, a distribution cone 7 having screw notches are fixed, opposite which a conical distribution sleeve 8 having a smooth surface is fixed on the inner walls of the housing 1. Below, directly adjacent to the distribution cone 7, the working cone 9 is fixed, having the main notches in the form of grooves having two unequal lateral faces in the cross section - narrow (point) and wide (back) with an angle of sharpening between these faces α = 40 ... 80 °. The radius drawn through the top of the groove divides the point angle by the point angle β = 0 ... 20 ° and the back angle γ = 40 ... 60 °. The grooves are located relative to the vertical axis of the working cone at an angle δ = 20 ... 60 °. In the lower part of the working cone, to increase productivity, additional notches were made in the form of grooves to the middle of the working cone, having geometric dimensions similar to the main notches. Opposite the working cone 9, a working conical sleeve 10 is fixed on the inner walls of the housing, having, like the working cone 9, the main and additional notches in the form of similar grooves, but directed in the opposite direction to the grooves of the working cone and providing a pinch angle between the grooves of the working cone and conical sleeve not less than 45 degrees. The angle at the apex of the working cone ψ ₁ is 5 ... 20 ° sharper than the angle of the working sleeve ψ ₂ . An unloading scraper 11 is installed in the lower part of the shaft under the working cone, opposite which there is an unloading chute 12. A screw 13 is used for vertical adjustment of the clearance between the working bodies. The size of the clearance is fixed by nut 14. An electric motor 15 is mounted on the frame 2 and connected to the shaft 4 using V-belt transmission 16.

The crushed raw material through the loading funnel 3 enters the housing 1, where it is captured by a receiving scraper 6 and fed into the distribution zone of the crushed material between the distribution cone 7 and the distribution conical sleeve 8. The distribution cone 7 has screw notches and, in combination with the receiving scraper 6, ensures a uniform supply of the crushed material raw materials throughout the volume of the distribution conical sleeve 8. The crushed raw material on the smooth surface of the distribution conical sleeve 8 enters the grinding zone formed by the working cone 9 and the working conical sleeve 10. The crushed raw materials, falling into the gap between the working cone 9 and the working conical sleeve 10, are crushed by compression and chipping under the influence of notches made on the working bodies in the form of grooves. The presence of a pinch angle ensures self-cleaning of the notches. The discharge of crushed raw materials is carried out by means of an unloading scraper 11 through an unloading tray 12.

The degree of grinding of raw materials in the grinder is regulated by changing the gap between the working cone 9 and the working conical sleeve 10, rotating the screw 13 along the thread. The position of the screw is fixed by nut 14.

Information sources

1. Pat. No. 42441 of the Russian Federation. B02C 18/08. Food chopper / B.I. Vagin, V.A. Anisimov, A.S. Belov, E.V. Pepelyaev - No. 2004120325/22; application 07/07/2004; publ. 12/10/2004. - 3 p.

2. Pat. No. 66979 of the Russian Federation. B02C 18/08. Feed grain grinder / V.A. Anisimov, E.N. Peretyagin - 2007115984/22; application 04/26/2007; publ. 10/10/2007. - 3 p.

3. Pat. No. 2332004 of the Russian Federation. B02C 7/18. Chopper / V.G. Short, SV. Antimonov, SJ. Solovyh, V.A. Trofimov, E.V. Ganin, - 2006139695/12; application 11/09/2006; publ. 08/27/2008. - 3 p.

Claims (1)

A chopper containing a housing rigidly fixed to the frame, made in the form of a pipe with a loading funnel attached to the side and a shaft located inside, supported by a bearing assembly, characterized in that a receiving scraper, a distribution cone having screw cuts, are sequentially fixed to each other in the upper part of the shaft opposite which, on the inner walls of the housing, a conical distribution sleeve is fixed having a smooth surface, while directly adjacent to the distribution cone the working cone is fixed, having the main grooves in the form of grooves having in the cross section two unequal side faces - a narrow one - a sharp point and a wide - back with an angle of sharpness between these faces α = 40 ... 80 °, and the radius drawn through the top of the groove divides the point angle at the point angle β = 0 ... 20 ° and the back angle γ = 40 ... 60 °, while the grooves are located in relation to the vertical axis of the working cone at an angle δ = 20 ... 60 °, and in the lower part of the working cone to increase productivity additional notches in the form of grooves to the middle of the work its cone, having geometric dimensions similar to the main notches, while a working conical sleeve is fixed on the inner walls of the housing opposite the working cone, having, like the working cone, the main and additional notches in the form of similar grooves, but directed in the opposite direction to the grooves working cone and providing a pinch angle of the material between the grooves of the working cone and the conical sleeve at least 45 °, while the angle at the top of the working cone ψ ₁ is 5 ... 20 ° sharper than the angle of the working sleeve ψ ₂ , and at the bottom This shaft under the working cone has an unloading scraper, opposite which in the case there is an unloading tray.

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