UA50466A - Меchanical fog generator - Google Patents

Abstract

A mechanical fog generator contains a working liquid tank, a spraying device. On the frame, which is fixed on the chassis of a motor vehicle, a radiator for cooling the power-generating set, a driven reducer for passing the rotation to a turbocompressor, which has a bearing bucket, a shaft, whereon gear-wheels for connecting a flexible coupling of the motor and a gear-wheel to drive the turbocompressor from an air conduct and a nozzle are pressed up, are collected. To provide delivering the working liquid the compressor of the motor is connected to receivers, reserved compressed air and working compressed air manometers, a regulating reducer, a check valve, an emergency tap with the working liquid tank, which is connected by an armoured high-pressure hose, and the sprayer through air conducts.

Description

Description of the invention

The invention relates to agricultural equipment for the cultivation of plants in the fight against pests, 2 diseases and weeds, as well as pests of silos and granaries.

The AG-UP-5 aerosol generator is well-known in agriculture, a machine for the formation of toxic fogs (aerosols) by thermomechanical method and their spraying in the fight against plant pests. It has a combustion chamber, a tank for working fluid (poison) and gasoline, pumps for supplying fuel and fluid, a fuel-air mixture ignition system, a spraying device, an air compressor. Hot 70 gases formed in the combustion chamber, passing through the atomizing device, evaporate the working fluid. Flying out of the nozzle of the spraying device, the mixture mixes with the outside air, cools and turns into fog, a cloud with a width of 50-100 m.

The disadvantage of this aerosol generator is that it has a low efficiency of plant treatment and is not used for aqueous and concentrated emulsions. (Handbook of machines for pest control and 72 diseases of agricultural crops. Shamayev P.P., Khmelev P.P. - M.: 1967, pp. 40-47).

The task of the invention is to increase the effectiveness of plant protection in the fight against pests, diseases, weeds and processing closed warehouses.

The task is achieved by the fact that a radiator for cooling the power unit, a drive reducer for transferring rotation to the turbocharger, which has a cup for bearings, a shaft on which the gears are pressed for connection with the flexible coupling of the engine and a gear for driving a turbocharger with air ducts and a nozzle. To ensure the supply of working fluid, the engine compressor is connected through air ducts with receivers, pressure gauges of reserve compressed air and working compressed air, a regulating reducer, a non-return valve, an emergency valve, with a tank of working fluid, which is connected by armored high-pressure hoses and a sprayer.

Figure 1 shows a kinematic diagram of a mechanical fog generator. "

The generator is located on the chassis of the GAZ-66 car on the frame 1, on which the radiator 2 for cooling the power unit Z, the drive reducer 4, the turbocharger 5 for supplying a strong jet of air, the nozzle for spraying the working fluid, tank 7 for preparing and supplying the working fluid, receivers are assembled of compressed air 8, fuel tank of the power unit 9. To improve the maintenance of the mechanical fog generator, the formation of a jet of clean air inside it and cooling, a hatch 10 is installed. Ge)

For a better visual inspection and monitoring of the operation of the generator, a built-in window 11.

Figure 2 shows the kinematic diagram of the drive gearbox, which transmits rotation to the turbocharger. M

The reducer is assembled in housing 4, gears 12 of engagement with a flexible disk of the diesel engine, gears 13, Ha") of rotation transmission to the turbocompressor, shaft 14, bearings 15, adjusting washer 16, flange 17. 3o In Fig. 3, the kinematic diagram of the tank for preparing the working liquid A compressed air supply system 18 is installed in the tank body 7 - this is a "G" bent pipe with holes for better mixing of the liquid, a filler neck 19, a system for supplying the working fluid 20, a graduated measuring line 21, this is a high-pressure kapron hose with a float inside, a drain plugs 22, tap for reducing the pressure in the tank 23.

Figure 4 shows a kinematic diagram of compressed air supply. The power unit Z through air ducts in Z 50 receivers 8 compressed reserve air, the pressure of which is controlled by the pressure gauge 24, the reducer valve 25 regulates and transmits the working air pressure, which is controlled by the pressure gauge 26 through the air ducts through the non-return valve 27 and the valve

From" 28 to the tank of the working fluid 7. When refueling the working fluid, the air pressure from the tank 7 is reduced by the tap 23.

Figure 5 shows the kinematic diagram of the working fluid supply system. According to the air supply system of Fig. 4A, the required working pressure is supplied to the tank 7, which displaces the working fluid from the tank and supplies it through the pipelines through the faucet 29 to the filter 30 to the electric valve 31 with a fluoroplastic valve. Next, the working fluid is dosed by the dosing and electric valve 32 and fed into the sprayer 33 of the nozzle b. A built-in AV is used to purge the pipeline electrovalve 34, as in the pipeline (see Fig. 5) from position 32 to position 33, there is a working fluid that may not enter through the nozzle after turning off the fog generator. The electrodosing shk tap has two scales of precise and rough calibration, which allow the operator to adjust the amount of working fluid, as well as the engineer during calibration, which made it possible to draw up a calibration table that the operator uses.

Fig. b6 is a kinematic diagram of the air supply system for creating a foggy cloud. The turbocharger 5 through the air duct 36 supplies a strong flow of air to the Nozzle 6. The air picks up the working fluid from the atomizer 33, breaks the droplets of the working fluid into microscopic parts and creates a foggy cloud 35.

Operation of a mechanical fog generator. When starting the YAM3-238 power unit, the rotation is transmitted 25 Through the gearbox to the turbocharger, which compresses the air through the air ducts into the mixer for the formation of foggy cloud The cloud coverage width is 500 - 700 m, the speed of movement during processing is 8 - 1 km/h.

The engine compressor compresses the compressed air into the receivers through the air ducts. From the receivers, the air is directed, regulated and controlled by the regulating reducer and manometers. The non-return valve in the compressed air system prevents the backflow of the working fluid into the system. An auxiliary valve 60 is installed, which blocks the flow of compressed air in manual mode when moving or parking.

The generated working pressure in the tank (minimum pressure - 0.2 atm, maximum - 4 atm.) squeezes the working fluid and supplies it through armored high-pressure hoses (inner diameter of the hoses 8 - 12 mm) through a tap, which in manual mode blocks the output of the working fluid from tank The cleaning filter for the vapor electric valve, which is the main working element of disconnection and supply of liquid to the dosing electric valve for calibration of the minute release of the working liquid.

The minute release of the working fluid from the electrodosing valve, the air flow of the tube compressor, the speed of the fog generator - are the main components of the technological process of plant processing. Control of the mechanical fog generator is performed by the operator, who is in the passenger seat of the car on the side of the working nozzle. Monitoring of the operation of units and aggregates, as well as control of the fog generator, is carried out by a remote control located in the car cabin. The use of remote electric mass made it possible to emergency turn off the fog generator from the operator's place in emergency situations.

The fog generator is powered by 6-ST-182 batteries with a voltage of 248.

The mechanical fog generator is designed for applying insecticides and herbicides with the help of fog 7/0 with a dispersion of 10 - 25 μm with a high efficiency of treatments per change of 100 Ohms. This makes it possible to promptly and at the optimal time protect crops from pests, diseases and weeds, to destroy pests in warehouses with the efficiency of treatment per shift of 100,000 cubic meters.

The basis of high efficiency is operation in the mode of ultra-small-volume spraying (0.3 - 1.2 l/ha) with a large effective grip width of more than 500Ω, with an increased speed of movement of the unit in the field (8 - 100 km/h). /5 Refueling with insecticidal (herbicidal) liquid is carried out once per shift.

Against the larvae of the shell when using contact insecticides, and nerve-paralytic action, only microscopic droplets of the same size, which are provided by the pneumatic principle of liquid crushing with the help of a strong jet of air at the most sonic speed, are harmful and optimal. ) drops.

Microscopic oily (aqueous) slowly evaporating, insecticidal (herbicidal) droplets spread over the field in the form of a thick fog wave (more than 100 particles per cubic mm) enveloping each plant in the crops. Moving along the width of the catch with the help of the energy of the passing wind, they settle on the small sensory organs of the larvae's body, namely: on the receptors-antennae, and in a short time paralyze the pest.

The mortality of the larvae of the shell reaches 80 - 95905. Small droplets, which practically do not settle on the plants themselves, bypass them, as they cannot overcome the "frontal" pressure. It is important that it is possible to adjust the size of the drops within the necessary limits for spraying the plant itself in the fight against weeds. "

The degree of dispersion is changed by adjusting the consumption of the working fluid during the constant supply of compressed air by the generator to the working nozzle, into which the working fluid is fed. Preparation of the working fluid in the tank is carried out by adding an insecticide (herbicide) according to the consumption norms and a measured amount of solar Hezo oil. The preparative form of insecticides (herbicides) should ensure a high concentration of the toxicant during the period of propagation of the working wave. ise)

The setting of the fog generator to the operating mode, which ensures the fulfillment of the specified rate of consumption of the working fluid "E Ol/ha, is carried out by selecting the necessary release of the working fluid per unit of time D, l/minute, the speed of the machine in km/h and the width of the working grip B. All these indicators are connected by the following dependence:

D - (OVU) / 600

Efficiency fluctuates due to changes in the liquid supply network, increase or decrease in the size of the output holes of the dosing devices.

The speed of movement of the machine is of great regulatory importance. When other indicators in the work are known, it "

It can be easily determined in the above formula. The correctness of the carried out adjustment of the fog generator is checked in the process of work according to the compiled calibration tables.

When processing closed spaces, the rate of consumption of the working fluid is calculated from liters per estimated time. ;" When the volume of the room U, m/cubic meter, and the fogging efficiency of the generator D, l/minute are known, the specified consumption rate of the poison chemical H, liters, during processing is achieved by setting it accordingly during operation

Generator and waves. is determined by the formula: c 1- (NU) / (D 7 1000)

When working with chemicals, the requirements for the liquid dosing system increase, as the requirements for the uniform distribution of the liquid over the sowing area increase. The speed of supplying the working fluid to the nozzle (with a constant diameter of the hoses) depends on the pressure supplied by the reducer. A dosing tap is used to regulate liquid flow.

Me, Chemical treatment of plants begins after sunset, in the evening when the surface layer is stable

F of the atmosphere with the onset of the gradient, at a wind speed of 0.5 to 5 m/sec. The gradient is the difference in air temperature at a height of 0.5 to 2 m. The air speed is measured by a weather vane amenometer, which is fixed on a rod with two thermometers to record the temperature difference. After the onset of optimal meteorological conditions, it is allowed to start chemical treatment of plants. The direction of movement during processing should be from the windward side at an angle or perpendicular to the direction of the wind. With foggy processing at night as by itself

P" of the process, and the application of drops on plants is not visually visible, therefore it is necessary to illuminate the cloud with searchlights.

Constantly monitor the main parameters of the fog generator from the remote control, as well as the instruments and data of the weather station. The operator's logbook monitors the start and end of work, the beginning and end of each work shift, the technological indicators of the weather station's instruments: wind direction and speed.

The use of a fog generator increases the effectiveness of plant protection of agricultural crops in the fight against pests, diseases and weeds in production. Design features of the generator allow the use of drugs of the new generation with high efficiency. b5

Claims (1)

The formula of the invention is a mechanical fog generator containing a tank for the working fluid, a spraying device, 9, which differs in that a radiator for cooling the power unit, a drive reducer for transferring rotation to the turbocharger, which has a cup for bearings, are assembled on the frame, which is fixed on the chassis of the car , a shaft on which gears are pressed for connection with a flexible engine coupling and a gear for driving a turbocharger with an air line and a nozzle, to ensure the supply of working fluid, the engine compressor through air lines is connected to receivers, manometers of reserve compressed air and working compressed air, regulating a reducer, a non-return valve, an emergency valve with a tank of working fluid, which is connected by armored high-pressure hoses and a sprayer. « (Se) (Se) « «c) And c) - with . and? 1 («c) sh» (o) 4) 60 b5