RU1053434C - Device for distributing biomaterial from aircraft - Google Patents

Description

 The invention relates to the use of aviation in agriculture, in particular for the protection of plants using biological agents, for example trichograms, mainly from an aircraft.

 A device is known for resettling biomaterial from an aircraft, including a biomaterial hopper with a metering device, a pipe under the hopper for transporting biomaterial, a liquid atomizer and a plate, a pipe horizontally mounted from below against the atomizer.

 In the known device, a liquid atomizer is mounted above the pipe and the liquid flow is directed perpendicular to the movement of the biomaterial. When the air stream transporting biomaterial encounters a liquid torch, a return air wave occurs, due to which part of the biomaterial is not wetted, which leads to its loss. Tests of the known device showed that it provides insufficient width of the resettlement band of the biomaterial.

 It is also known the closest in technical essence to the invention a device for settling biomaterial, for example, trichograms, from an aircraft, containing a hopper with a metering device and a tube installed in the hopper, one end of which is placed in the zone of the metering hole, and the other is in communication with the incoming air flow, a biomaterial conveying channel mounted under the hopper and a liquid atomizer at the outlet end of the conveying channel.

 In the known device, the biomaterial is forcibly aspirated from the hopper by an ejected air stream.

 The ejection effect in the area of the metering hole is created by the passage of a flow of air at a speed of 30-35 m / s in a conveying channel equipped with a fairing. As a result of the rarefaction created in the zone of the metering opening of the hopper, the biomaterial from the hopper enters the conveying channel.

 However, tests of the known device showed that the use of ejection release of biomaterial does not allow for small second consumption of biomaterial (less than 1.5 g / s), while the trichogram resetting technology requires minimal costs of the order of 0.1-0.2 g / with.

 In addition, the known device does not ensure the stability of the second consumption of biomaterial.

 The aim of the invention is to ensure low second consumption and increase the stability of the release of biomaterial.

 This goal is achieved by the fact that in the device for the resettlement of biomaterial from an aircraft, containing a hopper with a metering device mounted in the outlet, a transport channel located under the hopper, a tube installed in the hopper, one end of which is mounted above the hopper outlet and the other facing towards air flow, and a liquid atomizer, the end of the tube is placed coaxially with the metering hole of the hopper, and a diffuser is installed in the inlet of the conveying channel.

 Due to the indicated structural differences, the compulsory effect of compressed air on the biomaterial is ensured, the speed in the conveying channel decreases, the possibility of obtaining small second flows is created, and the stability of the biomaterial release is increased.

 The invention is illustrated by drawings, where in FIG. 1 shows a device, a section; in FIG. 2 - General view of the proposed device with its placement on an airplane; in FIG. 3 - a device for supplying water to the sprayer and hydraulic cylinder.

 The device includes a hopper 1 with a metering hole and a lid 2 and a water supply fixture mounted on the rod 3 using the bracket 4. An unloading cone 5 is installed in the hopper 1 coaxially with the metering hole and passes into the pipe with a cutout at the top. A tube 6 is installed inside the nozzle, one end of which is located above the metering hole of the hopper 1, and the other end is passed through a cutout at the top of the nozzle and hopper and is in communication with the incoming air flow. A conveyor channel 7 for biomaterial is attached to the bunker at the bottom, having two radial holes placed one against the other and against the metering hole in the hopper 1. A diffuser is installed in the inlet of the transport channel 8. A metering device for biomaterial consisting of a hydraulic cylinder 9 is attached to the bunker in which a metering needle 11, preloaded 12, a metering regulator 13 and a hose 14, with which the cavity of the hydraulic cylinder 9 is connected to the rod 3, is installed on the rod 10.

 A centrifugal type atomizer 15 is arranged at the output end of the conveying channel 7, made in the form of an annular nozzle and connected to the rod 3 by a hose 16. A cowl 17 is mounted in the inner cavity of the conveying channel 7 to direct the biomaterial toward the atomizer 15 of the liquid. On the atomizer 15, a bell 18 is mounted attached to the hopper 1.

 The device operates as follows. Before the flight of the aircraft, biomaterial is loaded into the hopper 1, and water is poured into the aircraft tank (not shown in the drawings). In flight, the pump is turned on (not shown in the drawings), with which water is supplied to the rod 3, and from it simultaneously to the sprayer 15 and hydraulic cylinder 9. Water flowing through the hose 14 to the hydraulic cylinder 9 lowers the rod 10, compressing spring 12. In this case, the metering needle 11 is lowered, opening the metering hole to the desired size. The biomaterial under the influence of its own weight and air stream from the tube 6 enters the transport channel 7, where it enters the air stream and moves to the atomizer 15. A fluid torch directed from the atomizer 15 moistens the biomaterial at its outlet from the transport channel 7, mixes with it and drops of liquid with biomaterial are deposited on the surface of the soil.

 The use of the proposed device, as shown by flight tests, allows to obtain second costs of 6 or more times less than the costs in the known device with a significant increase in the stability of the release of biomaterial.

Claims (1)

 DEVICE FOR DISTRIBUTING BIOMATERIAL FROM THE AIRCRAFT, containing a hopper with a metering device installed in the outlet of the hopper, a conveying channel located under the hopper, a tube, one end of which is located above the outlet of the hopper, the other is directed towards the air stream, and the sprayer that, in order to ensure small second consumption of biomaterial and increase the stability of its output, the end of the tube is placed coaxially with the outlet of the hopper, and in the inlet part and a conveying channel mounted diffuser.

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