RU194179U1 - Ultrasound Soil Processing Device - Google Patents

Abstract

An ultrasonic soil treatment device comprises a slotter with a built-in pneumotube, nozzle and resonator. The slotter is equipped with a built-in gas-jet emitter located in the lower part of the rear side of the working body. The radiator nozzle is connected to a pneumatic pipe located inside a groove on the back of the working body. The simplification of the design of the working body. 8 ill.

Description

The utility model relates to the field of agricultural engineering, in particular to machines for tillage.

Known plow ripper ПЧ-4,5, on the frame of which 9 or 11 rippers can be installed [Karpenko A.N., Khalansky V.M. Agreecultural machines. Agreecultural equipment. - M.: Agropromizdat, 1989. - P.31]. The cultivator consists of a stand, fairing, chisel or lancet paws.

During operation of the cultivator, consisting of a stand, fairing and chisel, in the process of operation a zone of blocked cutting and a zone of disturbed state are formed. The zone of the disturbed state is located in the surface soil layer. Its dimensions depend on the geometric parameters of the working body of the deep-ripper and the internal angle of friction of the soil. At the same time, the zone of blocked cutting depends only on the geometric parameters of the working body. Soil particles of the zone of blocked cutting, located in front of the working body, collapsing, are pressed into the side walls [V. Trufanov Deep soil chiselevy / V.V. Trufanov. - M.: Agropromizdat, 1989, 139 s].

A disadvantage of the known device is the inadequate treatment of the zone of blocked cutting of the soil.

A device for treating the soil with pulsating compressed air is known - a slotter with an integrated pneumatic tube, holes in the slotter wall, tips. The tips are directed parallel to the horizontal surface, some in the opposite direction of the movement of the unit, others perpendicular to it from two sides of the slot machine. Pulses of compressed air come out of the tips of the slotting machine and provide loosening of the zone of blocked cutting of the soil [US Pat. RF number 183739, IPC A 01 B 49/00, 2018].

The disadvantages of the known device include the lack of effectiveness in the destruction of the zone of blocked cutting by pulses of compressed air.

Closest to the claimed solution (prototype) is a device for processing soil pulsating compressed air [Pat. No. 190264 of the Russian Federation, IPC A 01 B 49/00, 2019]. The known device includes a slotter in which a two-stage hole is made and a pneumatic tube with a nozzle and a nut with a resonator are placed.

The disadvantages of the known device include the complexity of manufacturing a working body.

The technical task of the utility model is to simplify the design of the working body.

The technical task is achieved by the fact that in the device for soil cultivation with ultrasound, including a slot with integrated pneumatic tube, nozzle and resonator, according to a utility model, the slot is equipped with a built-in gas-jet emitter located in the lower part of the rear side of the working body, the radiator nozzle is connected to a pneumatic pipe placed inside the groove on the back of the working body.

The utility model is illustrated by drawings.

In FIG. 1 is a front view of an ultrasonic processing device; in FIG. 2- horizontal projection; in FIG. 3 - assembly drawing of the working body; in FIG. 4 - section of the working body assembly; in FIG. 5 - working body, in FIG. 6 - section of the working body; in FIG. 7 - gas-jet emitter; in FIG. 8 - technological process of the device.

The frame of the ultrasonic tillage device consists of front 1 and rear 2 transverse beams, longitudinal beams 3. An automatic coupler lock is attached to the front beam 1 of the frame 4. Working bodies are attached to the longitudinal beams 3. Support wheels are mounted on the front beam 1 6. On the frame the device is located compressor 7, receiver 8 and elektrozolotnik 9. Working bodies 5 and elektrozolotnik 9 are connected by high pressure pneumatic conduit 10.

A gas-jet emitter 11 is placed inside the working body 5. A contour groove 12 is made on the rear surface of the working body 5. A high pressure pneumatic pipe 10 is located in the contour groove 12. In the working body 5, a cavity 13 of the gas-jet emitter 11 is formed by a milling cutter 11. In the side walls of the cavity 13 of the gas-jet emitter 11, grooves 14 are selected for the latch 15 of the output channel of the working chamber of the gas-jet emitter 11.

Gas-jet emitter 11 is mounted in the cavity 13 of the working body 5 by the plate 16.

The device operates as follows.

Before starting work in the receiver 8 creates a working pressure. When the working bodies 5 are deepened into the soil, the electric well 9 is activated. Compressed air from the receiver 8 enters the gas-jet emitter 11, where it is converted into ultrasonic waves. These ultrasonic waves cause the destruction of the blocked cutting zone of the soil of the working body 5.

The use of this device will simplify the design of the working body.

Claims (1)

An ultrasonic soil tillage device, comprising a slotter with an integrated pneumatic tube, nozzle and resonator, characterized in that the slotter is equipped with a built-in gas-jet emitter located in the lower part of the rear side of the working body, the radiator nozzle is connected to the pneumatic pipe located inside the groove of the rear side of the working body.

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