RU2629259C1 - Microwave unit for cooking poultry and animal slaughter wastes - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: unit consists of horizontally disposed cylindrical shielding housing. Inside the housing there is a perforated disk-rotor made of non-ferromagnetic material, rotating from the electric motor. Cylindrical resonators are rigidly fixed on the periphery of the disk-rotor. Inside each resonator, removable heat-resistant dielectric containers are installed with locks, which covers are perforated. The inner surface of the containers is covered with silicone material. Microwave generator units are mounted on the cover of the shielding housing, which opens with the help of pivot hinges and handles, so that the radiators are directed inside the resonators. On the base of the shielding housing there is a drainage pipe.

EFFECT: invention provides cooking of poultry and animal slaughter wastes.

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Description

The present invention relates to the field of agriculture and can be used for processing wastes of slaughter of poultry and animals, obtaining feed additives on its basis.

It is known that the technological process of poultry processing includes a number of operations, as a result of which finished products, feather and down raw materials and technical waste used for the production of animal feed are obtained. In the process of slaughter, bleeding, removal of plumage, shabby, gutting, technical waste accumulates. Non-food evisceration waste, down and feather waste, blood are sent to the disposal workshop, where feed additives are prepared from them. Blood, intestines, lungs, kidneys, spleen, genitals, cuticles of muscle stomachs, low-value feather, etc. are used as raw materials for the production of animal feed. The output of blood is on average 4 ... 5% of the weight of the bird. Raw materials directed to the production of animal feed, has a high moisture content (65 ... 75%). Due to its high moisture content, raw materials are a good environment for the development of microorganisms. Therefore, all waste should be recycled immediately after it is received from the slaughterhouse. Since the raw materials for the production of animal feed are non-food waste, the main condition that must be met in the process of processing this raw material is sterilization, which ensures the destruction of pathogenic microflora. The technological line includes sections for the collection and transportation of various types of raw materials, their washing and grinding. The raw materials are crushed on a top with a diameter of lattice holes 20 ... 30 mm or use power grinders, then mix in the mixers.

It is known that during the production of boiled feed, raw materials are boiled in boilers, the fat is drained, the boiled mass is sent to feed pigs. In varilnikah feedstock is processed at a temperature of 90 ... 100 ^C, so the raw materials are charged, not requiring high heat, for neutralization. The output of the cooked product obtained by processing non-fat raw materials is 50 ... 52%, with a moisture content of 60%. After cooking, the product may be subjected to grinding, drying. The yield of dry cooked product to the weight of raw materials is 24 ... 26%.

Boiled feed is produced in cases where there are no conditions for the production of dry feed. The boiled mass is used for fattening pigs as a valuable protein supplement from by-products of processing waste from slaughter of poultry and animals.

A known method of producing meat and bone meal from animal slaughter waste in vacuum boilers by steam hydrolysis, sterilization and further drying of the raw material [1]. It is difficult to implement such a technology in a small-scale recycling workshop. Therefore, technology and technical means should be developed that allow sterilizing the product, in the process of cooking raw materials, for poultry farms of small and medium capacity.

Known technological line for the production of feed flour from blood [2], which includes areas of blood collection, heating, coagulation, sterilization, primary dehydration and drying. At the same time, the main processes are carried out in vacuum boilers with high energy costs (30 kWh / t of raw materials) and steam (1200 kg / t of raw materials). Moreover, adhered blood to the walls of the boiler reduces heat transfer.

The prototype is the "Monsoon" microwave vacuum unit, designed for heat treatment of products. Product containers are placed inside the cavity chambers. Mixing of the product is carried out by rotating the containers. Microwave energy is supplied from microwave generators located at the ends of cylindrical chambers [see fig.]. Such an installation is very expensive (single-chamber installation above 400 thousand rubles) and is complicated by a vacuum system.

The technical result is achieved by the fact that the microwave installation for cooking waste of slaughter of poultry and animals contains inside a horizontally arranged cylindrical shielding case a perforated disk-rotor of non-ferromagnetic material, rotating from an electric motor, while cylindrical resonators with perforated bases are rigidly fixed to the disk-rotor on the periphery, inside of which, using clamps, removable heat-resistant dielectric containers with perforated lids are installed, at om the inner surface of the containers is covered with a silicone material, and on opening the lid of the shielding shell mounted microwave generating units so that the radiators are directed inside cavities, wherein on the basis of the shield frame has a spout.

In FIG. 1 shows a schematic representation of a microwave installation for cooking slaughter waste of poultry and animals: 1 - shielding housing; 2 - opening cover of the shielding housing; 3 - perforated disc rotor; 4 - cylindrical resonator chambers with perforated bases; 5 - cylindrical dielectric containers with perforated lids and silicone coating; 6 - container locks; 7 - microwave generators; 8 - hinge loops; 9 - handles on the housing cover; 10 - shaft mounted on a support disk.

In FIG. 2. shows a schematic representation of a section aa installation:

1 - shielding case; 2 - opening cover of the shielding housing; 3 - perforated disc rotor; 4 - cylindrical resonator chambers with perforated bases; 5 - cylindrical dielectric containers with perforated lids and silicone coating; 6 - container locks; 7 - microwave generators; 8 - hinge loops; 9 - handles on the housing cover; 10 - shaft mounted on a support disk.

Microwave installation for cooking waste slaughter of poultry and animals contains: horizontally located shielding housing 1 with an opening lid 2; perforated disc rotor 3; resonator chambers 4 with perforated bases; heat-resistant dielectric containers 5 with perforated lids and with clamps 6; microwave generator blocks 7 mounted on the lid with hinge loops 8 and handles 9; an electric motor whose shaft 10 is mounted on a support disk.

The installation consists of a horizontally arranged cylindrical shielding housing 1 with an inclined lower base, where a drain pipe, which acts as an out-of-band waveguide, is docked. The upper base of the shielding housing 2 is made in the form of an opening lid, for which hinges 8, handles 9 and locking contacts are provided, which ensure tight closing of the lid and prohibit operation when the lid is open. Microwave units 7 are mounted on the upper base of the shielding housing 2, so that the emitters are directed inside the resonator chambers 4. A perforated disk rotor 3 is installed inside the shielding housing 1. At the periphery of the disk rotor 3, cylindrical resonators 4 with perforated bases are rigidly fixed. Inside each resonator 4, with the help of clamps 6, heat-resistant dielectric containers 5 with perforated lids are installed. The inner surface of the containers is covered with silicone film to limit the adhesion of blood to the walls. The volume of each resonator does not exceed 5 liters, which ensures high electric field strength when using low-power microwave generators from a microwave oven. The rotor disk is driven by an electric motor, the shaft 10 of which is mounted on a support disk mounted on a mounting frame (not shown). Installation works in periodic mode.

To control the process, there is a viewing window with a backlight, closed by a fine mesh and double-glazed window, to limit electromagnetic radiation outside the installation. The unit is equipped with an electromechanical control panel with a radiation power regulator and a timer. The control panel also contains buttons for turning the generators on and off, rotating the rotor disk, power switching buttons, signal lamps, etc. In containers there are rulers of level of raw materials.

The technological process of cooking waste slaughter poultry and animals is as follows. In heat-resistant dielectric containers 5, the raw materials are loaded after magnetic cleaning with a height of not more than three penetration depths of electromagnetic radiation (5 ... 6 cm), closed with perforated lids. Open the lid 2 of the shielding case 1. Install the dielectric containers 5 with raw materials inside the cylindrical resonators 4. Close the lid 2 of the shielding case 1. Turn on the motor, the shaft 10 of which drives the perforated disk rotor 3. Next, turn on the microwave generators 7 at certain powers and duration of work. In the process of rotation of the disk-rotor 3, the raw materials in the dielectric containers 5 are repeatedly exposed to the electromagnetic field of ultra-high frequency and cooked. Providing a high electric field strength (above 1 kV / cm) in the resonator chamber, the product is disinfected. Due to the action of centrifugal forces, the raw materials in the dielectric containers 5 are mixed and therefore subjected to heat treatment uniformly in volume. First, part of the moisture is spilled out through the perforated covers of the dielectric containers 5 (centrifugation, i.e., partial separation of the liquid and solid phases) occurs, then steam is removed through the perforation holes during the heat treatment. Separated moisture flows through the perforated base of the resonators 4 and the rotor disk 3 into the storage chamber, formed between the inclined base of the shielding housing 1 and the rotor disk 3, from where this fluid is poured through the drain pipe, which performs the function of the beyond waveguide. After the lag time, the microwave generators 7 are turned off, the lid is unlocked. After the lamp is lit, which indicates the end of the heat treatment of the raw materials, you should open the lid, remove the dielectric containers 5 with the welded product, replace and replace the dielectric containers, pre-filled with raw materials and closed with a perforated lid. Close the cover of the shielding housing. Re-start the process of heat treatment of raw materials through the control panel. Dielectric containers with the finished product are easily released, because due to the silicone coating on the inner surface, the product does not stick to the walls of the container 5. Next, the containers should be washed and reloaded with raw materials.

The product should be stored in the refrigerator at a temperature of 2 ... 10 ^C or directly used for fattening pigs protein supplement as a valuable by-product of processing slaughter waste. Temperature control is carried out through the viewing window using a thermal imager. Productivity of the installation depends on the quantity and power of microwave generators, electrophysical parameters of raw materials. The final product is of high quality, acquires a deeper color, odor compared to the original characteristics, and most importantly, the product is completely disinfected due to the high electric field strength of ultra-high frequency in the resonator chambers.

Due to the improvement of microbiological indicators, the shelf life of the product increases.

Information sources

1. Fayvishevsky M.L. Processing of non-food waste from meat processing enterprises. - SPb. GIORD, 2000, p. 83.

2. Ivashov V.I. Technological equipment for the meat industry. Part 1. Equipment for slaughter and primary processing. - M .: Kolos, 2001 .-- 552 p. (S. 516).

Claims (1)

A microwave installation for cooking poultry and animal slaughter waste, characterized in that a perforated disk-rotor made of non-ferromagnetic material is mounted inside a horizontally arranged cylindrical shielding casing, rotating from an electric motor, while cylindrical resonators with perforated bases are rigidly fixed to the disk-rotor on the periphery which, with the help of clamps, removable heat-resistant dielectric containers with perforated lids are installed, while the inner container surface is coated with a silicone material, and on opening the lid of the shielding shell mounted microwave generating units so that the radiators are directed inwardly resonators, there being a spout on the basis of the shield frame.

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