RU2555139C2 - Pre-treating module for potato-planting machines - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: potato tuber pre-treating unit in the form of additional equipment to the potato-planting machine comprises a container 1 for working fluid communicating through the pipes 2, locking metering fittings, and filter 5 with the spraying device communicating with the cavity of the tuber-duct. The spraying device is made in the form of a fan 9 with delivery 8 and suction 10 air-ducts. The latter has a drip pan 11 with a tip for supplying the working fluid 13. At the outlet of the delivery air-duct at an angle to the air flow the drip-crushers 14 are mounted with the grooved surface and it is communicated with the pins 7 and 13 for supplying the working fluid from the container and the drip pan. The tuber-duct walls are made sealed between the output and input holes of the delivery and suction air-ducts, respectively. Both air-ducts are communicated with the cavity of the tuber-duct to form a pre-treating chamber 15 in the spray zone of the working fluid with the recirculated air flow.

EFFECT: invention provides additional crushing drops to the size of fine aerosol and creation of an aerosol cloud of uniformly distributed in the pre-treating chamber, as well as recirculation and re-use of the agent not precipitated on the tubers.

1 dwg

Description

The invention relates to agricultural machinery, in particular to additional devices for potato-planting machines for treating tubers with protective stimulating preparations during planting.

Known installation for liquid processing of root crops (as USSR USSR No. 917737, MKI A01C 1/08), consisting of a pickling chamber, centrifugal disk sprayers, a reservoir for liquid and a conveyor of root crops, a device for preplant treatment of seed potato tubers (patent No. 2421964 RU , IPC A01C 1/00), containing a working body in the form of rotating drums located in a container with a biostimulator, also a device (RU patent No. 2357396, IPC A01C 1/00) for planting potatoes, containing a hopper with a conveyor integrated in its bottom and a container for etching fluid and a flexible pipe connected to the feeder bucket. Known for a coulter for a potato planting machine (USSR AS No. 1635926, А01С 9/00), consisting of a stand, a groove opener, groove open side walls with a tuber pipe inside with a spraying device and brushes for additional processing of tubers.

Known installation of NVU-10 for pre-planting processing of potato tubers, mounted on a potato planter, consisting of containers for working fluid, pipelines, shut-off and metering valves, filter and spray device.

The disadvantages of the known devices are the formation of large drops during spraying of the working fluid and, as a consequence, the unevenness of the coating of the surface of the tubers, as well as the removal of a significant part of the protective-stimulating preparations from the treatment area with the subsequent release of these drugs into the soil.

The proposed device provides a new technical effect - additional crushing of droplets to the size of a finely dispersed aerosol, creating a uniformly distributed aerosol cloud in the etching chamber, recycling and recycling of the drug that has not settled on the tubers. This effect is achieved in that the spray device is made in the form of a fan with a discharge and suction ducts, the latter having a droplet eliminator with a tip for supplying working fluid, and droplets with a corrugated surface are installed at the outlet of the discharge duct at an angle to the air flow and it is communicated with tips for the supply of working fluid from the tank and drip trap, while the walls of the tubing are made airtight between the outlet and inlet respectively The exhaust and suction ducts, which are connected to the tuber duct cavity with the formation of an etching chamber in the spray zone of the working fluid, create a recirculated air flow in the tuber etching zone.

In FIG. 1 shows a diagram of an etching module mounted on a seed pipe of a potato planting machine.

The potato tuber dresser contains a container 1 with a pressure equalization tube 2, communicating via pipelines 2 through a shut-off solenoid valve 4, a filter 5, a dispenser 6 with a tip of the main supply of working fluid 7 installed in the discharge duct 8 of the spray device, consisting of a fan 9, discharge 8 and suction 10 ducts. Between the suction duct 10 and the fan 9, a droplet eliminator 11 is installed in the form of an expansion chamber, in the bottom of which a calibrated hole 12 is made, connected via a drainage channel with a secondary fluid supply tip 13 located inside the discharge duct 8. At the outlet of the discharge duct 8, at an angle to the direction air flow, droplets 14 are installed, which are plates with a corrugated surface. The walls of the tuber duct between the outlet and inlet windows of the discharge 8 and suction 10 ducts are sealed and form an etching chamber 15.

The proposed device operates as follows. When the fan 9 is turned on, the solenoid valve 4 opens. From the tank 1 through the solenoid valve 4, the filter 5 and the dispenser 6, the working fluid is supplied to the tip of the main supply of the working fluid 7. In the discharge duct 8, the air flow created by the fan 9 crushes the working fluid flowing from tip 7, into drops and carries them along to the exit. When the droplet-air mixture meets droplets 14, small droplets bend around its plates, and larger ones, due to greater inertia, collide with the corrugated surface of the plates and, as a result of the impact, break into secondary smaller particles. The working fluid deposited on the corrugated surface of the droplets 14, tearing off the tops of the reefs by the air flow, is also subjected to secondary spraying and is fed into the pickling chamber 15. On the surface of the potato tubers flying freely through the pickling chamber 15, from both sides, blown and sucked by air flows, the working fluid is applied in the form of an aerosol. An aerosol that has not settled on the tubers from the pickling chamber 15 is carried away by the air flow from the treatment zone to the suction duct 10, and then it is sent to the droplet eliminator 11. In this case, the air flow rate decreases sharply and drops of the working fluid settle. Flowing down, unused working fluid is re-fed through a calibrated hole 12 to the secondary fluid supply tip 13 located in the discharge duct 8, where it is again crushed into small drops under the influence of the air flow. In this case, the pressure of the working fluid in front of the tip of the main supply of working fluid 7 remains constant and corresponds to the difference in the vertical position of the lower end of the alignment tube of the pressure head 2 and the tip 7.

The use of multidirectional air flows and the effect of secondary crushing of the drops will ensure high uniformity and completeness of the coating of potato tubers. Aerosol recycling, reuse of the working fluid will reduce the consumption of the drug and prevent environmental pollution.

Claims (1)

The potato tuber dresser in the form of additional equipment for a potato planting machine, including a working fluid container communicating via pipelines, shut-off, metering valves and a filter with a spray device connected to the tuber duct cavity, characterized in that the spray device is made in the form of a fan with a discharge and a suction air ducts, the latter having a droplet eliminator with a tip for supplying the working fluid, and at the outlet of the discharge duct under Droplets with a corrugated surface are installed at an angle to the air flow and communicated with tips for supplying the working fluid from the container and the droplet eliminator, while the walls of the tuber conduit are sealed between the outlet and inlets of the discharge and suction ducts, respectively, which are in communication with the cavity of the tuber conduit to form an etching chamber in the zone of spraying the working fluid with recirculated air flow.