RU2728473C1 - Feedstuff preparation method and device for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to fodder production, and can be used in farms for thermal treatment, grinding and disinfection of primary raw materials. In the process of preparation of the combined feed, the raw material prepared for processing is moved by means of the injection screw and accumulated in the resonator chamber. Concentration and constant supply of primary raw material to confined space of resonator chamber results in its filling and increase of working pressure in it. After filling the resonator chamber, a microwave radiation source is switched on. Primary stock undergoes endogenous heating, as a result of which there is a rapid increase in its volume, as well as high pressure and temperature in the resonator chamber. Oscillation of water molecule with high rate not only leads to destruction of pathogenic parasitic microorganisms, but also to destruction (restructuring) of primary raw materials or, more specifically, micronization of grain. Restructured raw material under pressure from increased volume and evaporation is retained by delivery auger in resonator chamber, since screw surface above chamber supplies raw material from top to bottom, and screw surface under said chamber is bottom-up. Further supply of the primary raw material to the resonator chamber and its endogenous heating promotes forced displacement of the already restructured raw material to the discharge chute via a specialized channel, which is a system of cuts – sector windows on the screw surface of the lower part of the injection screw. In each sector window the second in the direction of rotation of the delivery auger is cutting.

EFFECT: use of group of inventions improves quality of ready product.

2 cl, 2 dwg

Description

The invention relates to agriculture, in particular to fodder production, and can be used in farms for heat treatment, grinding and disinfection of primary raw materials.

Known methods and devices for their implementation represent inventions that implement the technology of processing primary raw materials by electrophysical methods by means of endogenous heating with additional exogenous and mechanical action:

- a multi-tiered ultra-high-frequency installation for heat treatment of wet raw materials in continuous mode (patent RU 2661372 C1);

Of the known inventions, the closest to the proposed one is "Microwave installation for heat treatment of raw materials in the grinding process" (patent RU 2671710 C1), which was chosen as a prototype.

The installation in which the known method is implemented has a cylindrical shielding body attached to shock-absorbing springs, in which a non-ferromagnetic cylinder is located coaxially, made in the form of a grater and rigidly mounted on a disk, forming a rotor rotating from an electric motor. Microwave generators are installed on the cover of the shielding housing. The implementation of the actual method of heat treatment of raw materials consists in its reception, dosed feeding into the working chamber containing a grinding mechanism in the form of a grating cylinder made of non-ferromagnetic material, further heat treatment and disinfection in an ultrahigh-frequency electromagnetic field in the process of grinding and mixing, as well as pneumatic transportation of the finished product into a cyclone unloader.

However, the implementation of the operational and technological scheme of the feed preparation process is accompanied by inappropriate energy consumption when grinding raw materials and evacuating the finished product from the microwave installation. This is due to the fact that, despite ensuring the continuity of the process with the maximum use of the properties of flowability and viscosity of raw materials, the design of the installation does not provide for the creation and use of excess pressure from an increase in volume during micronization, as well as during vapor and gas release during endogenous heating, which contributes to accelerated and better preparation of the product and its movement along the discharge channels to the discharge chute.

The objective of the invention is to intensify the processing of primary raw materials and improve the manufacturability of the device for preparing compound feed.

This is achieved by the fact that the primary raw material is supplied and accumulated in the resonator chamber until it is filled, after which the microwave generator is turned on, the emitter of which is directed inside the resonator chamber, and endogenous heating is carried out, which results in micronization of grain ingredients and vaporization from the moisture-containing fraction. Despite the increase in pressure due to the restructuring of the primary raw material and the vapor saturation of the resonator chamber, the primary raw material continues to be fed into it, displacing the restructured raw material from the resonator chamber to the lower part of the injection screw, the helical surface of which, like the helical surface of the upper part, ensures the supply of the processed primary raw material inside resonator chamber, that is, to meet the product displaced from it. Thus, creating a back-up and excess pressure in the resonator chamber, the restructured raw material is directed into the turn-to-turn space and the sector windows of the screw surface of the lower part of the injection screw, which are a discharge channel to the discharge chute. The steam generated during the heat treatment is used both for heating the primary raw material entering the resonator chamber and for forcibly moving the restructured raw material along the outlet channel to the discharge chute. When moving in the turn-to-turn space, the ingredients of the restructured raw materials are mixed and, then, subjected to additional mechanical stress - its unloosened components are cut as they move through the sector windows of the helical surface, where the edge second in the direction of rotation of the discharge screw is equipped with a cutting plate with a blade configuration of the Verzier type Agnesi ".

The proposed method can be implemented by a device (figure Fig. 1, Fig. 2), containing: vertically located on the mounting frame 1 cylindrical shielding body 2 with a loading funnel 3 and an unloading chute 4, inside which is a resonator chamber 5, equipped with emitters 6 with magnetrons 7, directed into the resonator chamber and connected by the transmission line 8 with the microwave generator unit 9, and inside the cylindrical shielding housing there is a discharge screw 10 made of a dielectric material, the shaft of which is located along the central axis of the resonator chamber 5 and is driven by a gear motor 11, while the helical surface in the upper and lower parts of the injection screw 10 is made with a reciprocal inclination of the turns to ensure the movement of the processed raw material inside the resonator chamber 5 both from top to bottom and from bottom to top, while the central part of the injection screw 10 located in the resonator chamber 5 , wines It is not provided with a commercial surface, but on the screw surface in the lower part of the pressure screw 10 there are sector windows 12, in which the second edge along the direction of rotation of the pressure screw is equipped with a cutting plate 13 with a blade configuration of the "Verziera Agnesi" type.

The proposed method for preparing compound feed is implemented in the device as follows. The device includes a cylindrical shielding body 2 vertically located on the mounting frame 1 with a loading funnel 3, into which primary raw materials are loaded, prepared for processing, that is, soaked in advance and brought to a moisture content of 30 ... 60%. The pre-switched gear motor 11 sets the rotation of the pressure screw 10 so that the primary raw material moves by the helical surface of the upper part of the pressure screw 10 into the resonator chamber 5, where it accumulates, gradually filling its limited internal space. The accumulation of primary raw materials is facilitated by the helical surface of the lower part of the injection screw 10, made with a reciprocal inclination of the turns with respect to the upper part, which ensures the movement of the processed primary raw material inside the resonator chamber 5 from bottom to top and prevents it from entering the discharge chute 4. The resonator chamber 5 is equipped with emitters 6 with magnetrons 7 directed inside the resonator chamber 5, which are activated in the operating mode by the microwave generator unit 9 by means of the transmission line 8 at the moment the resonator chamber 5 is filled with primary raw material, thereby ensuring its endogenous heating. As a result, the micronization of grain ingredients and vaporization from the moisture-containing fraction occurs, which leads to an increase in pressure, which is a consequence of the restructuring of the primary raw material and the vapor saturation of the inner cavity of the resonator chamber 5. Without interrupting the heat treatment process, the primary raw material continues to be fed through the feed hopper 3 by means of a helical surface the upper part of the injection screw 10 into the resonator chamber 5, thereby squeezing the restructured raw material from the resonator chamber 5 to the lower part of the screw 10, the screw surface of which prevents its further movement to the discharge chute 4. Thus, the displaced heat-treated product is backed up and an overpressure 0 , 3 ... 0.7 bar. in the resonator chamber 5, which maintains the restructuring temperature of the primary raw material 180 ... 200 ° C during the entire period of its movement inside the resonator chamber 5. As a result of the formation of excess pressure, the restructured raw material is forcibly directed into the turn-to-turn space of the screw surface of the lower part of the injection screw 10 and made in a screw the surface of the sector windows 12, realizing the function of the outlet channel to the unloading chute 4. The steam generated during heat treatment is used both when heating the primary raw material entering the resonator chamber 5 and for forced movement of the restructured raw material along the outlet channel to the unloading chute 4. When moving in the inter-turn space, the ingredients of the restructured raw materials are mixed due to friction against the helical surface and, then, the unloose components remaining in the mass are subjected to additional mechanical stress - cutting when they move through the sector windows 1 2, where the second edge in the direction of rotation of the discharge screw 10 is equipped with a cutting plate 13 with a blade configuration of the "Verziera Agnezi" type, which reduces the energy consumption of the cutting process by 29 ... 45%. The restructured raw material, after mixing in the inter-turn space of the screw surface of the lower part of the injection screw 10 and the impact of cutting plates 13, moves gravitationally into the discharge chute 4 and further to the consumer.

The duration of exposure to an electromagnetic field of ultrahigh frequency on primary raw materials is determined depending on the type of raw materials, their flowability or viscosity, depending on the properties of the raw materials components, on their percentage in accordance with the recipe for 30 ... 60 s. To speed up the process of heat treatment of primary raw materials, optimize energy consumption and improve the quality of the resulting product, the proposed device uses several microwave generators.

Thus, the use of the proposed method and device for its implementation will make it possible to intensify the process of preparing compound feed, provided that the functional diagram is integrated into a single technological cycle of operations of electrophysical, thermal and mechanical action on primary raw materials with the effect of reducing energy consumption and improving the quality of the final product.

The technical result, which is expressed in increasing the efficiency and improving the quality of processing of primary raw materials into compound feed, is achieved by increasing the working pressure in the resonator chamber and intensifying the cutting of the compound feed mass during its preparation. The proposed method consists in the fact that the primary raw material prepared for processing is moved by means of a pressure screw and accumulates in the resonator chamber. Concentration and constant supply of primary raw materials into the limited space of the resonator chamber, as a result, leads to its filling and an increase in the working pressure in it. After filling the resonator chamber, the microwave source is turned on. The primary raw material is endogenously heated, resulting in a rapid increase in its volume, as well as an increase in pressure and temperature in the resonator chamber. Oscillation of the water molecule at high speed leads not only to the destruction of pathogenic parasitic microorganisms, but also to the destruction (restructuring) of the primary raw material or, specifically, grain micronization. The rastructured raw material under pressure from increased volume and vaporization is retained by the injection screw in the resonator chamber, since the helical surface above the chamber feeds the raw material from top to bottom, and the helical surface under the resanator chamber - from bottom to top. Further entry of the primary raw material into the resonator chamber and its endogenous heating contributes to the forced movement of the already restructured raw material to the discharge chute through a specialized channel, which is a system of cutouts - sector windows on the helical surface of the lower part of the injection screw. Moreover, in each sector window, the second edge in the direction of rotation of the discharge screw is a cutting edge. Thus, the forced movement of the restructured raw material through the sector windows and the turn-to-turn space is carried out towards the displacement vector determined by the geometric parameters of the screw surface of the injection screw under the resonator chamber. When the restructured raw material moves through the sector windows, it is exposed to the cutting edge, which provides additional destruction of dense components before the finished feed enters the unloading chute and then to the consumer.

In fact, the proposed method and device for its implementation implement the model of the isochoric process of heat treatment of primary raw materials for compound feed using endogenous heating. The specialized channel for the withdrawal of restructured raw materials also plays the role of a safety valve that provides the maximum required operating pressure in the resonator chamber and excludes the destruction of the device or its removal from the operating mode. In this case, a technological analogy with a "pressure cooker" saucepan is acceptable.

Claims (2)

1. A method of preparing compound feed, including receiving components of primary raw materials, transferring raw materials to the working chamber, heat treatment in an electromagnetic field of ultra-high frequency during grinding and mixing, as well as transporting the finished product through an unloading pipe, characterized in that the processing of primary raw materials is carried out under excessive pressure created as a result of its accumulation due to the reciprocal feed of raw materials by the helical surfaces of the injection screw, which is placed in the working resonator chamber, as well as an increase in volume as a result of micronization of grain ingredients and vaporization from moisture-containing components of the restructured raw material in the resonator chamber, from which, after heat treatment in an electromagnetic field ultra-high frequency, the finished product is forcibly fed into the turn-to-turn space of the lower part of the injection screw and to the sector windows made in the screw tape of the injection screw, passing through which the mass is restructured Turbated raw materials are subjected to additional mechanical stress - cutting with the second edge in the direction of rotation of the discharge screw, equipped with a cutting plate with a blade configuration of the "Verziera Agnesi" type, after which the product is gravitationally moved to the discharge branch pipe. 2. A device for implementing the method according to claim 1, comprising a cylindrical shielding housing with a resonator working chamber, on the cover of which a receiving branch pipe is located, and microwave generators with emitters directed into the resonator chamber, having an unloading branch pipe on the side surface, characterized in that it equipped with a pressure screw installed in the resonator chamber connected to a gear motor, while on the part of the screw shaft located in the resonator chamber, there is no screw surface, and the screw surfaces of the upper - overcavity and lower - subcavity parts of the pressure screw are made with a reciprocal inclination of the turns, when At the same time, on the screw surface of the lower - subcavity part of the discharge screw, there are sector windows, in which the second edge in the direction of rotation of the discharge screw is equipped with a cutting plate with a blade configuration of the Verziera Agnezi type.

Images