RU2806544C1 - Hammer mill - Google Patents

Abstract

FIELD: agricultural industry.

SUBSTANCE: hammer mills for crushing grain in the agro-industrial complex and food production. Hammer mill consists of a charging hopper, a vertical crushing chamber, a rotor with hammers located in the vertical crushing chamber, a sieve mounted under the rotor, air supply pipelines and unloading nozzles for crushed grain. The vertical crushing chamber contains a spherical body, made with a spherical wall and an aspiration chamber, the first pipeline for supplying air under pressure from the compressor to the air supply chamber, into which grain enters from the hopper for uniform supply of this air flow into the spherical body to the rotor hammers, the second pipeline for supplying air under pressure from the compressor to the air supply chamber, with the air flow of which large particles of crushed grain that have not passed the sieve are fed along the spherical wall for re-crushing. At the same time, the aspiration chamber contains a flexible inclined sieve for sifting out small particles and dust, along which the crushed grain of a given fraction is collected into the bunker through the unloading pipe.

EFFECT: increased productivity.

1 cl, 1 dwg

Description

The invention relates to hammer crushers for crushing grain in the agro-industrial complex and food production.

A hammer crusher (RU No. 2031711, MPK V02S 13/02, publ. 03/27/1995), taken as a prototype, is known, containing loading and unloading devices, a housing, a rotor with hammer packs, and the front wall of the loading device forms an air outlet channel with the housing wall.

The disadvantage of the known hammer crusher design is the low productivity and high energy intensity of the crushing process.

The objective of the invention is to increase the productivity of the crusher.

The task is achieved by the fact that the hammer crusher contains a loading hopper, a vertical crushing chamber, which contains a spherical body made with a spherical wall, and has an aspiration chamber, a first pipeline for supplying air under pressure from the compressor to the air supply chamber, into which grain enters from loading hopper for uniform supply of this air flow into the spherical body to the rotor hammers, a second pipeline for supplying air under pressure from the compressor to the air supply chamber, with the air flow of which large particles of crushed grain that did not pass the sieve are fed along the spherical wall for re-crushing, with In this case, the aspiration chamber contains a flexible inclined sieve for sifting out small particles and dust, through which crushed grain of a given fraction is collected into a hopper through a discharge pipe.

In fig. 1 shows the proposed crusher.

The hammer crusher contains a loading hopper 1 mounted on an air supply chamber 2, in which a damper 3 is installed. The first air supply pipeline 4 is connected to the air supply chamber 2 connected to the compressor 5, and the second air supply pipeline 6 is connected to the air supply chamber 7. Chamber for air supply 2 is connected to the spherical housing 8, and the air supply chamber 7 is connected to the aspiration chamber 9 and the vertical crushing chamber 10, inside of which there is a shaft 11 with hammers 12 mounted on the rotor 13. The shaft 11 is connected by a coupling 14 to the electric motor 15. Spherical chamber 8 in the lower part it is connected to the spherical wall 16. Between the spherical wall 16 and the aspiration chamber 9 there is a sieve 17, and in the lower part there is a sieve 18 and an inclined bottom 19. The inclined bottom 19 is connected to a discharge pipe 20, which has a receiving hopper 21. An inclined sieve 18 connected to a discharge pipe 22 having a receiving hopper 23. The hammer crusher is installed on support posts 24.

The hammer crusher operates as follows: grain is poured into the loading hopper 1, which enters the air supply chamber 2. The flow of supplied grain is regulated by a damper 3. Through the first air supply pipeline 4, pressurized air is supplied to the air supply chamber 2 from the compressor 5. Pipeline air supply 4 is connected to compressor 5. From compressor 5, air under pressure through the second air supply pipeline 6 is supplied to the air supply chamber 7. The vertical crushing chamber 10 contains a spherical housing 8, as well as a spherical wall 16. The electric motor 15 is turned on, which through the coupling 14 transmits torque to shaft 11. When shaft 11 rotates, the rotor 13 attached to it rotates with hammers 12 placed in a spherical housing 8. By air flow, the grain is fed through the air supply chamber 2 into the spherical housing 8 and falls on hammers 12, where crushing occurs grains After passing the rotor 13 with hammers 12, the crushed grain passes down and falls on the sieve 17, where the mass of crushed grain is divided into large and small fractions. When air is supplied from the air supply chamber 7 under pressure, large particles of crushed grain that have not passed the sieve 17 under the action of an air flow along the spherical wall 16 are re-crushed to the rotor 13 with hammers 12. The crushing cycle is repeated until the crushed parts of the grain will not pass the sieve 17. After passing the sieve 17, the particles of crushed grain enter the aspiration chamber 9, onto the inclined sieve 18 and when sliding down, small particles and dust are sifted out, which are collected along the inclined bottom 19 through the discharge pipe 20 into the receiving hopper 21, and the crushed grain of a given fraction rolls down an inclined sieve 18 and through a discharge pipe 22 is collected into a receiving hopper 23. The installation is installed on support posts 24.

Claims (1)

A hammer crusher containing a loading hopper, a vertical crushing chamber, a rotor with hammers located in the vertical crushing chamber, a sieve mounted under the rotor, pipelines for air supply and discharge pipes for crushed grain, characterized in that the vertical crushing chamber containing a spherical housing is made with a spherical wall and has an aspiration chamber, a first pipeline for supplying air under pressure from the compressor to the chamber for supplying air, into which grain from the loading hopper enters for uniform supply of this air flow into the spherical body to the rotor hammers, a second pipeline for supplying air under pressure from compressor into the air supply chamber, by the air flow of which large particles of crushed grain that have not passed the sieve are fed along the spherical wall for re-crushing, while the aspiration chamber contains a flexible inclined sieve for sifting out small particles and dust, through which crushed grain of a given fraction through an unloading The pipe is collected in a hopper.

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