RU189536U1 - Unit of precision tillage - Google Patents

Abstract

The unit of precision tillage The useful model relates to agricultural engineering, in particular, to the technical means for basic soil tillage. The unit of precision tillage consists of a supporting frame and air-driven drive units installed on it, three sections rigidly mounted on the frame with the possibility of dismantling, the first and third of which are folding, the second section - the base - is made with a tail, supporting and transport wheels and a compressed air cylinder, each section is made in the form of two frames. New is that the front frame of each section is made in the form of a hollow shaft 8 connected with a balloon 7 of compressed air, with working elements rigidly fixed on it in the form of a rim 9, hollow hub 10 and spokes 11 with removable conical nozzles 12 in the form of the housing 13 and the sleeve - piston 14 with radial holes 15 and 16 on them and a pointed tip 17, while the nozzles 12 are installed with the possibility of changing their number, the working bodies are made c possibility of displacement along the frame when changing the type of soil treatment y.1 with. n. f-ly, 5 ill.

Description

The utility model relates to agricultural engineering, in particular to the technical means for basic soil tillage.

There are a lot of tillage devices containing both dumping and soilless working bodies, passive and active action rippers (RU 2335107, IPC, 2008, SU 1664128 IPC, RU 2335107, IPC, 2008, RF 2491807, IPC, 2012; RU 136275, IPC, 2013 ; RU 136674, IPC, 2014).

A disadvantage of the known tillage devices is that all of them are intended to treat the soil by mechanical action on it, which leads to a violation of the structural content of the soil, its compaction and deterioration of the water-air regime.

The closest in technical essence to the claimed device is a soil tillage device selected as a prototype, containing a carrier frame and air-pulsed actuators installed on it, three sections rigidly mounted on the frame with the possibility of dismantling, the first and third folding, the second section - basic - is made with a tail, supporting and transport wheels and a compressed air cylinder, each section is made in the form of two frames (RF patent № 183739, IPC A01B79 / 02, 2018).

A disadvantage of the known device is a high traction resistance of the unit during tillage, for this reason, low operating speed, which leads to a decrease in performance.

The technical task of the proposed utility model is to reduce the traction resistance of the unit, increase productivity by increasing the speed of the unit.

The stated technical task is achieved by the fact that the unit of precision tillage, containing a carrier frame and mounted on it working bodies with air-impulse drive, three sections rigidly mounted on the frame with the possibility of dismantling, the first and third of which are folding, the second section is the base - made with a tail, support and transport wheels and a compressed air balloon, each section is made in the form of two frames; according to the utility model, the front frame of each section is made in the form of a hollow shaft connected with b a compressed air incline with rigidly mounted working bodies in the form of a rim, hollow hubs and spokes with removable conical nozzles in the form of a body and a piston sleeve with radial holes on them and a pointed tip, while the nozzles are installed with the possibility of changing their number, the workers organs are made with the possibility of displacement along the frame when changing the type of tillage.

The utility model is illustrated by drawings.

FIG. 1. Presents a unit of precision tillage, top view; in fig. 2. the same, side view; FIG. 3 - the same, the working body; in fig. 4 - the same, two positions of the cone nozzle: a) above the soil with the pointed tip extended; b) in the soil with a closed tip; FIG. 5 - the same, the start-up system of compressed air.

The unit of precision tillage contains three sections, the first 1 and the third 2 of which are folding, the second section 3 - the base section - is made with a tail 4, supporting 5 and transport 6 wheels and a balloon 7 of compressed air. The front frame of each section is made in the form of a hollow shaft 8 connected with a compressed air balloon 7, with working bodies rigidly fixed on it in the form of a rim 9, hollow hubs 10 and spokes 11. Spokes 11 are made with removable conical nozzles 12 containing the body 13, sleeve - piston 14 with radial holes 15 and 16 on them and pointed tip 17. Cone nozzles 12 are installed with the possibility of changing their number. The working bodies are made with the possibility of displacement along the frame when changing the type of tillage, i.e. from cavity tillage to continuous. On the rear frame of each section 1, 2, and 3, tillers 18 and ring-toothed rollers 19 are mounted on the brackets; they are installed with the possibility of their replacement by the working width depending on the type (solid or band) of soil treatment with compressed air.

The front frames of each section 1, 2 and 3 are made in the form of a hollow shaft 8 and are connected to the compressed air cylinder 7 via pneumatic electro valves 20, micro-compressors 21 and pneumatic electro-valves 22. Each micro-accelerator 21 has a device for changing volume, for example a piston 23 moving inside a cylinder 24 s using a screw mechanism 25. Depending on the physico-mechanical properties of the soil, the required volume of compressed air is pre-installed in the micro-pressurizer 21 by means of a screw mechanism 25. At the command of the control system ditsya mikroressiverov filling 21 of high pressure compressed air before the next impulse action on the ground from a high pressure cylinder 7 via a gas common line due to short pnevmoelektroklapanov opening 20. Continuous operating pressure in the cylinders 7 is supported by the compressor (not shown).

Cone nozzle 12 is a continuation of the spokes 11 with threaded connection with them. Holes 15 and 16 are made for the passage of compressed air. The cylindrical body 13 includes a shank 26 of the holding sleeve - the piston 15 from falling out of the pneumatic channel 27. At the end of the pneumatic channel 27, the curvature 28 of the housing 13, interacting with the shank 26, is made.

Unit precision tillage works as follows.

Before moving the unit with the help of hydraulic cylinders 29, the hollow shafts 8 of all sections, together with rims 9 fixed on them, hollow hubs 10 and spokes 11 with conical nozzles at the end 12, are lowered onto the installation depth of tillage. Compressed air to the nozzles 12 comes from the high-pressure cylinder 7, passing through the common filling line, hub 10 and the spokes 11. The compressor maintains a constant pressure of compressed air in the cylinder 7. When the pneumatic solenoid valves 20 are opened, all micro-sprinklers 21 of three sections are filled (pipelines are not shown) compressed high pressure air. After they are filled, the pneumatic solenoid valves 20 are closed and cut them off from the common filling line. Thus, all mikroressivery 21 are prepared to supply a low-volume pulse of compressed air to the conical nozzles 12 through the hollow shaft 8. At the command of the control system, the pneumatic solenoid valves 22 are activated and provide compressed air of high pressure from the micro-compressors 21 to the hollow shaft 8. Then the stream of compressed air is sent to the tapered nozzles 12, following through the hub 10 and the spokes 11 to the bushings - the pistons 14 and causes the tail end 17 to push out until it stops. At this time, the radial holes 15 and 16 are blocked, and the shank 26 holds the sleeve - the piston 14 with a pointed tip 17 from falling out of the pneumatic channel 27, resting on the flange 28 of the tubular part. In this case, all the conical nozzles 12 rotating above the soil surface are not in the working position, i.e. before they enter the soil and after leaving it.

The rim 9 rotates, alternately immerses spokes 11 with conical nozzles 12 into the soil. As the pointed tip 17 of cone nozzle 12 sinks, the soil forces the bushing — the piston 14 back to its original position, which contributes to the opening of the radial holes 15 and 16 for the passage of compressed air. After that, microexplosion effect of compressed air pulses on the soil, loosening occurs. After which the cycle repeats.

Tillage cutters 18, located behind the wheels 6, grind the soil, and the ring-toothed rollers 19 complete the treatment of the soil, compacting the surface.

The unit of precision tillage allows for one pass to carry out the processing of the soil with precision pulsating blows of compressed air to the set depth, the mills 18 grind the soil, and the ring-toothed rollers 19 complete the treatment of the soil, compacting the surface.

The implementation of a three-section tillage device with folding side sections allows you to change the width of the grip.

The use of the claimed device will reduce the traction resistance of the unit, to increase its performance due to the increase in speed.

Claims (1)

The unit of precision tillage, containing a carrier frame and mounted on it air-pulsed actuators, three sections rigidly mounted on the frame with the possibility of dismantling, the first and third of which are folding, the second section - the base - is made with a branch, supporting and transport wheels and a compressed air cylinder, each section is made in the form of two frames, characterized in that the front frame of each section is made in the form of a hollow shaft connected to a compressed air cylinder, with a slave rigidly fixed on it with organs in the form of rims, hollow hubs and spokes with removable conical nozzles in the form of a housing and a piston hub with radial holes on them and a pointed tip, while the nozzles are installed with the ability to change their number, the working bodies are made with the possibility of displacement along the frame when changing type of tillage.

Images