SU1090312A1 - Apparatus for producing mist for spraying when watering farm crops - Google Patents

Abstract

DEVICE FOR OBTAINING TU11ANA FOR RA: BROWNING DURING AGRICULTURAL CULTURE WATER, containing a support, a nozzle for supplying pressure fluid, a water distributor with radially arranged capillaries fi. channels and an ultrasonic vibrator, contact, mated with a water distributor, characterized in that, with the purpose of increasing the uniformity of moisture in the ground part of plants and soil, it is equipped with a pipe With a nozzle and an axial fan coaxially installed in it, capillary channels are made in the form of pipes mounted in the pipe walls by means of elastic pipe seals, the output ends of which are directed into the pipe cavity between the fan and the nozzle, and between the water distributor and the nozzle for supplying pressure fluid placed sound insulation plate. (L ttt 1

Description

The invention relates to agriculture, in particular, to devices for producing mist when irrigating agricultural crops, including in greenhouses. A device for obtaining mist for spraying during irrigation of agricultural crops is known, comprising a support, a nozzle for supplying pressure fluid, a water distributor with radially arranged capillary channels, and an ultrasonic vibrator contacting with a water distributor Hm. However, the known device is characterized by insufficient uniformity ground part of the plant research institute and soil. The aim of the invention is to increase the uniformity of the wetting of the ground parts of plants and soil. This goal is achieved by the fact that the device for receiving the mist is equipped with a pipe with a nozzle and an axial fan coaxially installed in it, the capillary channels are made in the form of tube seals mounted in the pipe walls by means of elastic pipe seals A pilot and a nozzle, the sound insulation plate being placed between the distributor and the branch pipe for the delivery of pressure fluid. .In FIG. 1 shows the general scheme of the device; in fig. 2 - nozzle together with jets installed on it, section. The device includes a support in the form of a pumping station 1 with a suction hose 2 and a nozzle 3 for supplying pressurized fluid, connecting the pump station 1 to the water distribution ring 4 connected to the plastic pipe 5, having a nozzle 6, an ultrasonic vibrator 7 and an axial fan 8 powered by generator 9 through a thyristor device 10. In the device, an ultrasonic vibrator 7, power from generator 1I, connected to a water distribution ring 4, which is connected in cross section to capillary tubes 12, one end of which is located above the top NOSTA plastic tube 5, its other introduced inwardly through the nozzles 13, 14 connected by couplings to form a region of high pressure drop (capillary tube 12) to the low pressure (the tube cavity 5). The nozzles 13 have elastic seals 15. An axial fan 8 is placed behind the inlets of the nozzles 13 inside the cavity of the plastic pipe 5, and the latter is mounted on the bracket 16 with the hinge 17 and on the adjustable bracket 18 to fix the angle of inclination of the plastic pipe 5 relative to the horizontal surface. In order to provide ultrasound only to the water distributor ring 4 and cadillary tubes 12 and to exclude its influence on other components of the device, the water distribution ring 4 is connected to the pressure hose nozzle 3 by means of a sound insulating plate 19 ,. The nozzles 13 of the capillary tubes 12 at the entrance to the cavity of the plastic tube 5 are connected to elastic seals 15. To ensure high-quality (uniform) spraying of the liquid, the capillary tubes 12 and, consequently, their nozzles 13 are equally spaced along the diameter of the plastic tube 5 not x. The operation of the device for the production of fine aerosols is as follows. Pump station 1 is towed by a tractor to a reservoir (river, pond, hydrant) and installed nearby. After starting the engine of the station, the intake hose 2 is lowered into the reservoir and using the pump of the station water is supplied to the nozzle 3 for supplying pressure fluid, and then it is injected into the water distribution ring 4 where the water flow is distributed through high-pressure capillary tubes 12. The capillary tubes 12 are connected to the nozzles 13 and by means of couplings 14 with a rubber seal 15, the ends of which enter the inside of the plastic tube 5, where the water stream is pulled out from the high pressure area (capillary tubes 12), falls into the low pressure area ( nozzle 6). It is crushed into droplets which are picked up by the air flow, being fractionated into smaller particles due to air turbulence; flow, forming fine aerosols that are accelerated in the nozzle 6 to high speeds due to the operation of the axial fan 8 with a high air pressure. l in order to increase the speed of water moving through capillary tubes

12 and create a high pressure in them; they, together with the water distribution, the ring is directly subjected to ultrasonic action.

The plastic tube 5 (nozzle 6) of the fogger is adjusted to the desired angle of inclination using an adjustable bracket 18,

The advantages of the proposed device in comparison with the known ones are ensuring uniformity

moistening of the whole land part of agricultural crops and soil with minimal water consumption; simplicity of the device design and ease of maintenance; elimination of the ultrasonic effect on the base units of the device; increased productivity of fogging and reduced labor costs.

The device can be used for watering agricultural crops.

Claims (1)

DEVICE FOR PRODUCING FOG FOR SPRAYING IN AGRICULTURE CARTRIDGES WITH IRRIGATION OF AGRICULTURAL CROPS, containing a support, a nozzle for supplying pressure fluid, a water distributor with radially spaced capillary channels and an ultrasonic vibrator / contact coupled to the water distributor, different; the fact that, with the whole increase in the uniformity of moistening of the ground part of plants and soil, it is equipped with a pipe with a nozzle and an axial fan coaxially installed in it, the capillary channels are made in the form of pipes mounted in the walls of the pipe by means of elastic tube seals, the outlet ends of which are directed into the pipe cavity between a fan and a nozzle, and between the water distributor and the nozzle for supplying pressure fluid a soundproof plate is placed kJ ▼ And THAT / .. .'Ίυ - 2