RU2703940C2 - Plant for granulation of milled wastes of animal and plant origin during dielectric heating - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to microwave equipment and can be used in production of granulated feedstuffs, for example, from mixture of grain wastes (bran, grass meal, etc.) and non-food wastes of animal origin (blood, spleen, intestines, skin tissue, etc.). Plant for granulation of milled wastes of animal and plant origin in process of dielectric heating contains cylindrical screening housing with discharge branch pipe, inside which a working chamber in the form of a stationary cylindrical resonator is located coaxially. Inside cylindrical resonator between dielectric plates of fastening there are clamping dielectric rollers with rib surface with tight attachment to inner surface of cylindrical matrix, which is a component part of generatrix of cylindrical resonator. Lower dielectric plate installed in the cylindrical resonator is coaxial and located on the electric drive shaft. Mounted on the electric drive shaft is a unit which comprises a vertically arranged knife on the outer side of the generatrix of the cylindrical resonator and a scraper mounted horizontally above the lower base of the cylindrical shielding body. Loading container is made in form of funnel from non-ferromagnetic material, inside which coaxial screen is coaxially located, which base and lower base of loading container are arranged so that there is an annular space between them, with a gap of less than a quarter of wavelength. Radiators from superhigh-frequency generators are installed at the lateral side of the cylindrical resonator with shift of 120 degrees.

EFFECT: invention increases efficiency of the plant, reduces energy consumption of the process of granulating multicomponent raw material and increases storage life of the granulated fodder.

1 cl, 7 dwg

Description

The present invention relates to microwave equipment and can be used in the production of granular feed, for example, from a mixture of grain waste (bran, grass meal, etc.) and non-food waste of animal origin (blood, spleen, intestines, haemorrhage, etc. )

We propose to granulate crushed grain and slaughter waste of animal origin during cyclic compressive mechanical action in an electromagnetic field of ultrahigh frequency, at which acceleration of stress relaxation in granules occurs, gelatinization and dextrinization of starch, protein denaturation, complete disinfection of granules, improvement of smell and taste, increase plasticity . At the same time, it is expected that the energy intensity of the granulation process of multicomponent raw materials will decrease, increase the productivity of the installation, and increase the shelf life of the granulated feed.

Known household granulators GKM brand containing a matrix and movable rollers in the working chamber [1]. They are intended for the processing of grain waste, food waste, meal, cake in granular feed. At the same time, it is not possible to fully achieve the vitamin composition, improve microbiological parameters and the digestibility of granules.

The technical result is achieved by the fact that the installation for granulation of crushed waste of animal and vegetable origin in the process of dielectric heating contains

inside a vertically arranged cylindrical shielding case with an unloading nozzle, a coaxially located working chamber in the form of a stationary cylindrical resonator, inside of which are coaxially mounted, between the dielectric fastening plates, clamping dielectric rollers with a rib surface with a snug fit to the inner surface of the cylindrical matrix, which is an integral part of the cylindrical generatrix resonator

moreover, the lower mounting plate is mounted on the electric drive shaft, where a unit with a vertically located knife is mounted on the outside of the generatrix of the cylindrical resonator and with a scraper located horizontally above the lower base of the shielding housing, located under the loading tank, made in the form of a funnel of non-ferromagnetic material, inside of which is coaxially a conical screen is located, so that between their bases there is an annular space with a gap of less than a quarter of the wavelength,

at the same time, emitters from microwave generators are mounted with a shift of 120 degrees on the side of the cylindrical resonator.

In FIG. 1 shows a spatial image of a plant for granulating shredded animal and vegetable waste in the process of dielectric heating: 1 - shielding housing; 2 - loading capacity of non-ferromagnetic material; 3 - conical screen; 4 - emitters from a microwave generator; 5 - pressure dielectric rollers with a ribbed surface; 6 - a cylindrical matrix of non-ferromagnetic material; 7 - knife; 8 - a scraper; 9 - electric drive shaft; 10 - upper and lower dielectric plates for mounting pressure rollers; 11 - cylindrical resonator; 12 - discharge pipe.

In FIG. 2 shows a spatial image of the loading capacity in the form of a funnel of non-ferromagnetic material.

In FIG. 3 shows a spatial image of a cylindrical shielding housing with a discharge pipe.

In FIG. 4 shows a spatial image of a cylindrical matrix.

In FIG. 5 shows a spatial image of the node for mounting on a shaft with a vertically located knife and a scraper in the horizontal plane.

In FIG. 6 shows a spatial image of the bottom plate for mounting dielectric pinch rollers with a ribbed surface.

In FIG. 7 shows a spatial image of the upper mounting plate for pinch rollers with a ribbed surface.

Installation for granulating crushed animal and vegetable waste in the process of dielectric heating (Fig. 1-7) contains: a shielding housing 1; loading capacity 2; conical screen 3; emitters 4 from microwave generators; pinch dielectric rollers 5 with a ribbed surface; a cylindrical matrix 6 of non-ferromagnetic material; knife 7; scraper 8; electric drive shaft 9; upper and lower dielectric plates 10 for mounting clamping dielectric rollers; cylindrical resonator 11; discharge pipe 12.

The apparatus for granulating crushed animal and vegetable waste in the process of dielectric heating consists of a cylindrical shielding body 1 with an unloading pipe 12, inside which a working chamber is coaxially located in the form of a stationary cylindrical resonator 11.

Inside the cylindrical resonator 11, dielectric plates 10 are installed, between which pressure dielectric rollers 5 with a ribbed surface are attached. They 5 are installed with a tight fit to the inner surface of the cylindrical matrix 6. The matrix is removable and inserted into the side wall of the cylindrical resonator 11, so that it is an integral part. The lower dielectric mounting plate mounted coaxially in the cylindrical resonator 11 is located on the shaft 9 of the electric drive.

A node is mounted on the electric drive shaft, which contains a vertically located knife 7 on the outer side of the generatrix of the cylindrical resonator, and a scraper 8 mounted horizontally above the lower base of the cylindrical shielding case 1. The shielding case 1 is joined by the loading capacity 2, located above it 1. The loading capacity is made in in the form of a funnel of non-ferromagnetic material, inside of which a conical screen 3 is coaxially located. The base of the conical screen 3 and the lower base of the loading tank 2 Position the, so that an annular space therebetween, a gap less than a quarter wavelength.

On the side of the cylindrical resonator 11 around the perimeter are installed with a shift of 120 degrees emitters 4 from microwave generators. The dielectric rollers 5 are pressed against the cylindrical matrix 6 due to a special screw that allows you to adjust the location of the axes of the pressure rollers. The cylindrical matrix 6 can be removable, with different diameters of the holes for different types of raw materials. The diameter and height of the cylindrical resonator 11 are consistent with the wavelength. The maximum dimensions of a cylindrical resonator do not exceed 3-5 wavelengths.

The technological process of granulation and disinfection of raw materials is as follows.

Pre-mix multicomponent raw materials, including grain waste (up to 30% grain content) and non-food animal waste in a certain concentration, so that the moisture content of the mixture does not exceed 20%. Turn on the electric drive (shaft 9) of the dielectric pinch rollers 5, pour mixed multicomponent raw materials from waste of plant and animal origin into the loading tank 2. Turn on microwave generators 5. The multicomponent raw materials through the annular space between the loading capacity 2 and the conical screen 3 enter the cylindrical resonator 11, where the emitters 4 are located, located on the side surface with a shift of 120 degrees around the perimeter. In this case, the reflected waves do not interfere with the operation of neighboring magnetrons. In an electromagnetic field of ultra-high frequency formed in a cylindrical resonator, the raw material is heated, disinfected. Due to the fact that the side surface of the cylindrical resonator 11 is formed by a cylindrical matrix 6, using rotating clamping dielectric rollers 5 with a ribbed surface, the heated raw material is extruded through the holes of the matrix in the form of granules. The granules are cut with a rotating knife 7, mounted parallel to the generatrix of the cylindrical resonator. Next, the cut granules using a rotating scraper 8 are unloaded through the pipe. 12 per container.

The source of information

1. yandex.ru/images>, feed granulators.

Claims (1)

A plant for granulating crushed animal and vegetable waste in the process of dielectric heating, characterized in that a working chamber in the form of a stationary cylindrical resonator is arranged coaxially inside a vertically arranged cylindrical shielding housing with an unloading nozzle, inside of which clamping dielectric rollers with ribbed surface with a snug fit to the inner surface of tsilin a drical matrix, which is an integral part of the generatrix of the cylindrical resonator, the lower mounting plate mounted on the electric drive shaft, where a unit with a vertically located knife on the outside of the generatrix of the cylindrical resonator and a scraper located horizontally above the lower base of the shielding housing located under the loading tank made in in the form of a funnel of non-ferromagnetic material, inside of which a cone-shaped screen is coaxially located so that between their bases they There is an annular space with a gap of less than a quarter of the wavelength, while radiators from microwave generators are mounted with a shift of 120 degrees on the side of the cylindrical resonator.

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