RU2757624C1 - Multifunctional unit for ultrasonic soil treatment - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to the field of agricultural engineering, in particular to tillage machines for tillage. The multifunctional unit contains a working body - a slotter 5 with a gas-jet emitter 11. On the surface of the nose 19 of the slotter 5 at the level of the ultrasound working channel 16, a protrusion 20 and a groove 21 expanding against the direction of movement are made, with walls 22 located at an obtuse angle to the base 23. The protrusion 20 is located directly in front of the working channel 16 and creates a sliding body that protects the working channel 16.

EFFECT: unit will reduce clogging of the working ultrasound channel.

1 cl, 7 dwg

Description

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

There is a known device for treating the soil with pulsating compressed air - a slotter with a built-in pneumatic tube, holes in the wall of the slotter, and 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 on both sides of the slot machine. Compressed air streams from three sides of the slotter from the tips are directed into the ground parallel to the horizontal surface against the movement of the unit and perpendicular to it, followed by micro-explosive air loosening of the soil [US Pat. RF No. 183739, IPC А01В 49/00, 2018].

Known invention for soil cultivation with pulsating compressed air [RF Patent No. 190264, IPC А01В 49/00 , 2019]

The disadvantages of the known device for treating the soil with ultrasound can be attributed to the rather complicated manufacturing of the working body and the high energy intensity of the technological process.

There is a known invention, the slotter of which is equipped with a built-in gas-jet emitter located in the lower part of the rear side of the working body, the emitter nozzle is connected to a pneumatic line located inside the groove of the rear side of the working body, and the outlet of the gas-jet emitter is connected to the working ultrasound channel made in the toe of the working body [ Pat. RF No. 2737421 IPC А01В 13/08, 2020].

The disadvantage of the known invention is the clogging of the outlet of the gas-jet radiator, made in the sock of the working body, at the beginning of the working process, which leads to the inoperability of the device.

The technical objective of this invention is to improve the reliability of the technological process.

The technical problem posed is achieved by the fact that in a multifunctional unit for treating the soil with ultrasound, including a gas-jet emitter built into the slotter, according to the invention, a protrusion and a groove are made on the surface of the slotter nose at the level of the ultrasound working channel, expanding against the direction of motion, with walls located under a blunt angle to the base, while the protrusion is located directly in front of the working channel and creates a sliding body that protects the working channel.

The invention is illustrated by drawings.

FIG. 1 shows a frontal projection of a multifunctional unit for processing the soil with ultrasound; in fig. 2-horizontal projection; in fig. 3 - assembly drawing of the working body; in fig. 4 - working body; in fig. 5- section of the working body; in fig. 6 - gas jet radiator; fig. 7 - toe of the working body.

The frame of the multifunctional unit for ultrasonic soil cultivation consists of front 1 and rear 2 cross beams, longitudinal beams 3. An automatic coupler lock is attached to the front beam 1 4. Working bodies are attached to the longitudinal beams 3 5. Support wheels are mounted on the front beam 1 6. On the frame the device contains a compressor 7, a receiver 8, an electric spool 9. The working bodies 5 and an electric spool 9 are connected by a high pressure pneumatic line 10.

A gas-jet emitter 11 is located inside the working body 5. On the back surface of the working body 5, a contour groove 12 is made. In the working body 5, a milling cutter forms a cavity 13 of the gas-jet emitter. Also, the cutter selected the groove 14 of the retainer 18 of the gas-jet emitter. A hole 15 is made in the nose of the working body 5 for the lock 17 of the outlet of the working chamber of the gas-jet emitter 11. There is a working ultrasound channel 16 in the nose of the working body 5.

The body of the gas-jet emitter 11 has a position lock 18 and a lock 17 of the working chamber outlet.

On the surface of the nose 19 of the working body 5 at the level of the ultrasound working channel 16, a protrusion 20 and a groove 21 are made with walls 22 expanding against the movement, located at an obtuse angle to the base 23.

The location of the projection 20 at the level of the ultrasound working channel directly in front of the working channel 16 creates a sliding body, the width of which is greater than the width of the projection 20, thereby indirectly protecting the working channel 16 itself.

The expanding walls of the groove 21 against the direction of movement and their location at an obtuse angle to the base 23 provide unhindered sliding of soil particles without jamming.

The multifunctional unit works as follows.

Before starting work, working pressure is created in the receiver 8. When the working bodies 5 are deepened into the soil, the electric spool 9 is triggered. The compressed air from the receiver 8 enters the gas-jet emitter 11, where it is converted into ultrasonic waves. These ultrasonic waves passing through the working ultrasound channel 16 cause the destruction of the soil along the movement of the working body 5.

The protrusion 20 discards soil particles, protecting the working ultrasound channel 16. The soil, which is to the right of the protrusion 20, slides without clogging along the groove 21, cleaning the walls 22 and base 23 with its movement. The volume of soil particles that have entered the working ultrasound channel 16 will be insignificant. In the process of supplying compressed air, particles will be removed from the working ultrasound channel 16.

The use of this invention will reduce the clogging of the working ultrasound channel.

Claims (1)

Multifunctional unit for processing soil with ultrasound, including a slotter with a built-in gas-jet emitter, characterized in that a protrusion and a groove are made on the surface of the nozzle of the slotter at the level of the ultrasound working channel, expanding against the direction of movement, with walls located at an obtuse angle to the base, while the protrusion located directly in front of the working channel and creates a sliding body that protects the working channel.

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