RU2237405C1 - Apparatus for settlement of entomophages - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: apparatus has fans, intake channels, cutoff device, air duct, hopper and feeding channel. Cutoff device is fitted with internal rotating valve, two supplying channels and one outlet channel. Apparatus is further equipped with additional fan and distributor. Rotary valve of cutoff device is driven by electric engine. Casing of dosing hopper is made in the form of netted cylinder and provided with internal upper and lower pressure equalizers. Lower pressure equalizer is made in the form of wheel with spokes and cone in central part. Cone generatrix is made epicycloid-shaped. Upper pressure equalizer is made in the form of truncated cone with smaller base directed downward, and its cone generatrix is also made epicycloid-shaped. Pressure equalizer embodiment and arrangement dependence values are presented.

EFFECT: increased efficiency and simplified construction.

3 dwg

Description

The invention relates to agricultural machinery, in particular for the mechanized settlement of entomophages.

A device for resettling trichograms is known, including a hopper with an airtight lid and a stepped bottom, a cylindrical diaphragm, a container in the form of a two-stage cylinder closed by a conical lid, a pipe for supplying compressed air and a pipe for unloading trichograms, see a. from. USSR No. 155065, A 01 M 5/00, 1988.

A disadvantage of the known device is that it does not provide effective resettlement of trichograms.

The closest technical solution is a device for the distribution of trichograms on A. with. USSR No. 829073, A 01 K 67/00, 1978, consisting of a tank, intake and intake pipelines, a flow regulator, a dispenser, a fan, a spray nozzle, a shut-off device, and tubes with holes.

However, this technical solution does not provide high-quality introduction of biomaterial (trichograms). The disadvantage of this device is its complexity, unreliability in operation, as well as damage to the introduced biomaterial.

An object of the present invention is to provide a simpler device for resettling the biomaterial of beneficial insects (entomophages), ensuring its high-quality introduction without injury and reliable in operation.

This object is achieved in that in a device for the distribution of entomophages, containing a fan, intake duct, flow switch, air duct, hopper and feed channel, the flow chopper is made with an internal rotary valve and is equipped with two feed channels and one outlet, and the device is additionally equipped with a fan, a distributor, while the rotary valve of the flow chopper is driven by an electric motor, and the casing of the metering hopper is made in the form of a mesh cylinder and is equipped with an internal upper and lower pressure compensators, the lower compensator being made in the form of a wheel with spokes and a cone in the central part, the generatrix of the cone is made of an epicycloid, the upper end of the branch of which is tangent to the axis of the hopper-dispenser, and the lower branch is tangent to the plane of the wheel spokes, the cone is raised above the plane wheels to a height h = 5-10 mm, and the diameter of the cone is determined by the following formula d = (0.3-0.35) D, where D is the cylinder diameter of the body of the hopper-dispenser, and the upper compensator is made in the form of a hollow truncated cone lesser ION down its generatrix is formed on said epicycloid, the lower branch of which is tangent hopper axis, and the upper branch of the plane perpendicular to this axis, while the diameter d ₁ of the orifice of the upper compensator defined by the formula: d ₁ = (0.8-0.85) D, where D is the cylinder diameter of the body of the hopper, the upper compensator is installed above the bottom at a height of H ₁ = 0.5 H, where H is the height of the body of the hopper.

Figure 1 shows a schematic diagram of a device for the settlement of entomophages, figure 2 - hopper-dispenser, figure 3 - lower pressure compensator (top view).

A device for resettlement of entomophages contains fans 1, left and right, supply channels 2, a flow chopper 3, an air duct 4, a hopper-dispenser 5, a distributor 6, and supply channels 7.

The flow chopper 3 is equipped with a rotary internal valve 8, has two inlet channels 2 and one outlet connected to the air duct 4. The rotary valve 8 of the flow chopper 3 is driven by an electric motor (not shown). The metering hopper 5 comprises a mesh body 9 made in the form of a cylinder, an upper pressure compensator 10, a mesh 11 holding large biomaterial particles, a cover 12, a heat-shielding casing 13, a lower pressure compensator 14, a conical discharge part 15, in which there is an outlet 16 with an opening and a metering tray 17, which serves to regulate the gap 18. The lower pressure compensator 14 is made in the form of a wheel 19 with spokes 20 and a cone 21 in the central part, the cone forming is made of an epicycloid, the upper end of the branch of which it is satisfactory to the axis of the metering hopper, and the lower branch is tangent to the plane of the spokes of the wheel, while the cone 21 is slightly raised above the plane of the spokes of the wheel to a height of h = 5-10 mm, and its diameter d = (0.3-0.35) D, where D is the cylinder diameter of the body of the hopper-dispenser.

The upper compensator 10 is made in the form of a hollow truncated cone with a smaller base pointing downward, the generatrix of which is made on an epicycloid, the lower branch of which is tangent to the axis of the metering hopper, and the upper branch is tangent to a plane perpendicular to this axis. The diameter of the cross section of the upper compensator is d ₁ = (0.8-0.85) D, where D is the cylinder diameter of the body of the hopper-dispenser and it is installed above the lower compensator at a height of H ₁ = 0.5 H, where N is the height of the hopper body - dispenser.

A device for the settlement of entomophages works as follows. Biomaterial is poured into the cylindrical body 9 of the metering hopper 5 through the mesh 11, which, under the action of gravity, is lowered to the conical discharge part 15 and then through the outlet pipe 16 with an opening enters the metering tray 17, by means of which the gap 18 is regulated. The fans 1 are turned on. part of the air flow created by the fans 1, through the inlet channels 2 enters the flow switch 3 and from it into the air duct 4 and then to the bunker-dispenser 5. The flow switch 3 provides alternating air intake l more from the right or left fan and directs the pulsating air flow through the air duct 4 to the pipe 16 of the discharge part 15 of the metering hopper, tray 17, where the pulsating flow captures the entomophages and directs them to the distributor 6. The pulsating air flow blows a portion of the biomaterial from the tray 17 and transports it to the distributor 6, which through the feed channels 7 sends portions of the biomaterial to the fans, which spray it across the field. At the time of the cessation of air movement in the air duct 4, a new portion of the biomaterial enters the dosing tray 17 and the process is repeated. The upper pressure compensator 10 helps to reduce the pressure in the surrounding area inside the hopper-dispenser 5, since the biomass is held by a cone, which leads to a decrease in injury to beneficial insects. The implementation of the compensators 10, 14 in the form of cones with generators along the epicycloid helps to ensure that the biomaterial does not linger on them, but flows smoothly either to the center of the hopper from the upper compensator to the lower one, or from the lower compensator to the space between the spokes to the discharge part 15 and through the outlet the hole of the pipe 16 to the tray 17. Due to the presence of two fans, the device provides dispersion of biomaterial into two rows of plants, when the device moves along the aisle. If necessary, the distributor 6 is switched manually for operation only on one row with one fan, but at the same time the air intake by the supply pipes 2 is carried out from two fans, thereby maintaining a pulsating air flow, which ensures spraying of the biomaterial with interruptions, i.e. more evenly on the cultivated area with a given volume of biomaterial. The pulsating resettlement of entomophages helps to reduce the accuracy of biomatsrial application, therefore, it provides a better distribution over the biomatsrial field, which leads to the saving of an expensive biological means of protecting cultivated plants from pests.

Claims (1)

A device for resettlement of entomophages, comprising a fan, intake duct, flow chopper, air duct, hopper and feed channel, characterized in that the flow chopper is made with an internal rotary valve, is equipped with two supply channels and one outlet, and the device is additionally equipped with a fan, distributor, the rotary valve of the flow chopper is driven by an electric motor, and the housing of the hopper-metering unit is made in the form of a mesh cylinder and is equipped with an internal upper and lower comp pressure support, and the lower compensator is made in the form of a wheel with spokes and a cone in the central part, the generatrix of the cone is made of an epicycloid, the upper end of the branch of which is tangent to the axis of the hopper, and the lower branch is tangent to the plane of the wheel spokes, the cone is raised above the plane of the wheel to a height h = 5-10 mm, and the diameter d of the cone is determined by the following formula: d = (0.3-0.35) D, where D is the cylinder diameter of the body of the metering hopper, and the upper compensator is made in the form of a hollow truncated cone, with a smaller base downward, forming it is made according to an epicycloid, the lower branch of which is tangent to the axis of the hopper, and the upper branch to the plane perpendicular to this axis, while the diameter of the passageway of the upper compensator is determined by the formula d ₁ = (0.8-0.85) D, where D is the cylinder diameter of the body of the hopper-dispenser, the upper compensator is installed above the bottom at a height of H ₁ = 0.5N, where N is the height of the body of the hopper-dispenser.

Images