RU2643820C1 - Device for delivering air heat carrier to biological objects, products and plants - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture and can be used to protect plants and fruits from pests and microorganisms. Device for delivering a heat carrier to objects includes a box. Heat carrier used is hot air. Hot air is supplied from at least two slit nozzles. Nozzles are located at an angle of 30–60 degrees to the plane of the plants. First nozzle in the direction of travel tilts the plant with hot air as it moves and treats said plant. Next nozzle tilts the plant in the opposite direction and treats said plant.

EFFECT: enabling treatment of whole plant with hot air; maintaining temperature of the air jet at longest possible distance from the device.

1 cl, 3 dwg

Description

The invention relates to agriculture and can be used to protect plants and fruits from pests and microorganisms.

The invention is based on the application 2015143683/13 (067359) from 10/13/2015.

A known method of supplying energy to a bioobject, including the impact on the object of a directed flow of coolant, which is used saturated steam of water or its solutions with environmentally friendly substances, the flow of saturated steam with a temperature from 80 ° C to 135 ° C and humidity from 0, 01 to 0.99 is fed to the object of exposure under pressure (1.01-5.2) × 10 ⁵ Pa (see the characteristic of the analogue in the description of the invention to A.S. RU No. 2177224, A01M 1/20, A01M 21/04 , F22B 27/16).

Steam comes to the plants through a nozzle.

The disadvantages of this method are:

- limited use on plants, as it can be used only in early spring, when there is no foliage;

- the supply of coolant to the plants through a separate nozzle does not ensure its complete processing.

A common feature of the prototype and the proposed device is the flow of coolant to the object through the nozzle.

The objective of the proposed device for the destruction of agricultural pests and microorganisms is to create a device that allows you to deliver hot air to the plant, treating it from all sides, without damaging the leaves and crown. It is required to minimize the turbulence of air jets in order to reduce the mixing of cold air into the jets.

The technical result is expressed in maintaining the temperature of the jet at the greatest possible distance from the installation and complete blowing of leaves and fruits of plants.

The specified technical result is achieved by the fact that the constructive solution of the device allows optimal delivery of the coolant to various plants in the fields, in gardens, in vineyards, in greenhouses. From the device, hot air is supplied through slotted nozzles located at an angle of 30-60 degrees to the plane of the plants, and, tilting them with an air stream in one, then in the opposite direction, processes the plants and fruits.

The delivery of hot air to plants for the destruction of pests can be implemented by the proposed device, FIG. 1 connected to the heat generator 1. The device has a rectangular shape, in two, FIG. 2, or four, FIG. 3, slotted nozzles 2 are made in the corners along the sides. When the vehicle carrying the device moves, the first nozzle tilts the plant with hot air in the direction of travel and processes it, the next nozzle tilts the plant in the opposite direction and processes it. The device provides the processing of the entire plant with hot air. When the movement stops to prevent damage to plants, valve 3 opens, FIG. 1, the pressure in the device decreases, and hot air does not enter the plants.

When processing vertical beds, bushes, trees and vineyards, the device is made with four nozzles, FIG. 3, which provides the processing of two rows of plants.

Claims (1)

A device for delivering a heat carrier - hot air - to objects, including a box distributing a stream of hot air, characterized in that hot air is supplied from at least two slotted nozzles located at an angle of 30-60 degrees to the plane of the plants, the first nozzle in the direction of travel tilts the plant with hot air in the direction of travel and processes it, and the next nozzle tilts the plant in the opposite direction and processes it, ensuring that the entire plant is treated with hot air.

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