RU160839U1 - INSTALLATION OF A MICROWAVE FOR DISINFECTION OF A NUTRIENT SUBSTRATE - Google Patents

Abstract

Microwave installation for disinfection of a nutrient substrate, characterized in that it includes an enameled microwave chamber of rectangular cross section, consisting of two compartments located along the chamber, separated by a protective plate, an upper compartment with magnetrons and waveguides evenly spaced along the length, and a lower working compartment for moving the substrate along the conveyor belt, based on the guide rollers, while the outlet of the camera is located above the input by supporting the end of the camera on a vertical rack.

Description

This utility model relates to the field of agriculture and forest nursery.

An autoclave is known from the prior art, which is made of a spherical container with a loading hole, a sealing cap with a flange, a seal, a suspension handle, an abutment, supports, while the loading hole has a rounded shape, uniformly truncated from diametrically opposite sides, with the formation in the region of truncation of zones elastic deformations. The autoclave is equipped with a manometer, thermometer, inlet valve, drain valve screwed into the lid (RU 2264777 C1, publ. 27.11.2005).

A steam sterilizer is also known. The invention relates to disinfection and sterilization with saturated steam under pressure of materials and objects. The sterilizer contains a working chamber, which is closed by a sealed lid. The chamber has openings for incoming and outgoing flows of working agents. The inlet for the incoming stream is connected to the water supply system through a pipeline line of valves, a water pump, and a steam generator. The opening of the chamber of the outlet stream of the working agent (steam, water) is connected to piping lines, valves, a condenser, a vacuum pump, and a water tank. The working chamber through the hole is directly connected to the line for supplying atmospheric air. The control unit is made in the form of interconnected power supplies, a microprocessor, switching elements, a display, a printer, amplifiers, a control circuit for a steam generator that is connected to sensors. The recording device 50 is connected to the sensors in the working chamber. The technical result is to ensure complete removal of air, the release of steam and drying of the sterilization chamber, as well as increasing automation (RU 2216356 C1, publ. 20.11.2003).

A known method of soil disinfection (A. S. 485720, USSR, MKI A01B 47/00 - published in B.I. N 36, 1975), including heating the soil with hot water, followed by short-term exposure to alternating current. The disadvantage of this method is the significant investment of time in heating the soil with water.

A known method of disinfecting the soil (A.S. 719523, USSR, MKI A01B 47/00 publ. In B.I., N 9, 1980), including moistening and subsequent exposure to the soil by electric shock when the soil vibrates before and during the disinfection process . The disadvantage of this method is the significant investment of time in tillage by electric current.

Closest to the claimed technical solution is a device for disinfecting the soil. The invention relates to the automation of agricultural production and is intended for disinfection of the soil using microwave energy. The inventive main processing chamber is made in the form of a rectangular waveguide, divided into two parts by a horizontal plane. The gap between the parts does not exceed a tenth of the wavelength of the microwave generator. When the device is operating, the latter moves across the field. The soil passes through the main processing chamber due to the operation of the vibrator associated with the lower part of the main processing chamber. In the said chamber, the soil is exposed to a microwave field and disinfected (RU 2054861 C1, publ. 02.27.1996).

The disadvantages of this technical solution is the inability to use on the territory of the greenhouse complex.

The technical result of the claimed utility model is the small dimensions of the installation, high performance, the use of the installation in the room, as well as the ability to perform packaging work immediately after microwave irradiation of the nutrient substrate.

The technical result is achieved by the fact that the microwave installation for disinfection of the nutrient substrate, according to the utility model, includes an enameled microwave chamber of rectangular cross section, consisting of two compartments located along the chamber, separated by a protective plate, an upper compartment with magnetrons and waveguides evenly spaced along the length, and a lower working compartment substrate on a conveyor belt resting on guide rollers, while the outlet of the chamber is located above the inlet by supporting the end of the chamber on a vertical rack.

The drawing shows a microwave installation for disinfection of a nutrient substrate.

The installation consists of a microwave chamber (1), resting at one end on a vertical rack (2). A motor (3) is attached to the microwave chamber with a rotation belt rotation conveyor belt (4). The conveyor belt is made of rubberized material with protectors moving along the guide rollers (5) to the outlet. The microwave chamber has two interconnected compartments located along the chamber, separated by a protective plate. The upper compartment with magnetrons and waveguides evenly spaced along the length (6) and the lower working compartment of the substrate movement, equipped with fans (7). The installation has an inlet (8) and an outlet (9).

The device operates as follows, the finished nutrient substrate with a moisture content of more than 70% enters the inlet (8) on the conveyor belt (4) with protectors. During the movement of the substrate inside the working compartment, the magnetrons generate microwave rays with a power of more than 800 watts each, acting on water molecules, providing an increase in the temperature of the substrate due to the friction of the molecules with each other. The waveguides uniformly scatter microwave rays on the surface and inside the substrate. After the completion of the microwave irradiation cycle, the sterile nutrient substrate enters the outlet (9) and then into the container for further use.

Claims (1)

Microwave installation for disinfection of a nutrient substrate, characterized in that it includes an enameled microwave chamber of rectangular cross section, consisting of two compartments located along the chamber, separated by a protective plate, an upper compartment with magnetrons and waveguides evenly spaced along the length of the substrate, and a lower working compartment for moving the substrate along the conveyor belt, based on the guide rollers, while the outlet of the camera is located above the input by supporting the end of the camera on a vertical rack.

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