RU2376737C1 - Device for rotary internal soil ripping - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device comprises two rotary slot cutters arranged vertically symmetrically along direction of device motion. Slot cutters are mechanically connected to common drive and have shafts arranged horizontally and perpendicularly to direction of ripper motion. Under drive there is an internal soil miller. Rotary slot cutter is equipped with disk of slot cutter and circular slot cutter. Disk of slot cutter comprises master, slave, support and aligning gears of drive, engagement teeth of which are arranged alternately on the left and right along external cylindrical surface of each gear. On master, slave, support and aligning gear and on circular slot cutter there is a cylindrical support surface, circumferential diametre of which is equal to diametre of according circumference of engagement. Circular slot cutter is equipped with engagement teeth arranged on its side surfaces alternately on the left and right directed towards its internal cylindrical surface. By means of cylindrical surface, circular slot cutter interacts with geared engagement arranged on external cylindrical surface of master, slave, support, aligning gears of drive. Circular slot cutter is equipped with cutting tools arranged on its side surfaces alternately on the left and right and directed towards its external cylindrical surface.

EFFECT: such structural design will make it possible to perform simultaneous arrangement of two slots in soil for water absorption, decompaction and mixing of internal soil layers with preservation of humic layer, strubble and glass cover onto soil surface, to increase device reliability and to reduce energy inputs.

4 cl, 2 dwg

Description

The invention relates to agricultural machinery and is intended for rotational cutting of soil cracks for water absorption with rotary cultivation and mixing (milling) of the inner layers of the soil.

Known working bodies for soil treatment, having a subcortical milling cutter with disk slitherese and their chain drive on a common axis, for example, used in machines: PMS-70; PMS-100; PMS-100M; FS-1,3; MSP-2 and others (USSR certificate No. 442759, АВВ 49/02, 1974; inf. L. SKSTI, Rostov-Don, No. 101-74, 43-75, 101-76 - prototype).

Closest to the technical nature of the claimed object is a rotary cultivator of the sub-humus soil layer containing a disk slotter, under-cover milling cutter and its drive (RF patent for the invention No. 2273120, А01В 33/02 (2006.01), А01В 49/02 (2006.01). 2006 - analogue). This device has the following disadvantages:

- low reliability due to the misalignment of the axis of rotation of the bearing in the disk disk shear support with lateral force on the edge of the bowl-shaped disk, breakage of the cutting teeth of disk disk shear, jamming of the bearings of the drive shaft and the shaft of the underground milling machine during dynamic elastic deformation of the device frame during operation;

- high traction resistance of the device, since the cutting teeth of the disk cherezerez protrude outward along its diameter and, as a result, the depth of the cut slot exceeds the required depth of soil cultivation, and also because of the need to form a gap of excessive width to create the possibility of moving along the base of the bowl-shaped disk on which transmission and the outer cutting surface of disk cherezherez;

- small width of the device due to the limited cup-shaped discs of the shaft length of the subsoil milling machine.

The technical problem to be solved by the invention is the creation of conditions under which the traction resistance of the soil is reduced during its rotational sintering and subsoil milling, the kinematic elements of the drive are more reliable, the traction resistance is reduced, and the device’s working width is increased.

The technical result obtained by the practical use of the invention is the creation of the ability to simultaneously make two slots for absorbing water when moving the device in the soil, milling the inner soil layers, softening and mixing them together, keeping the humus layer, stubble and grass cover on the soil surface , with high reliability and less energy.

To solve the technical problem, the proposed device for rotational subsoil cultivation contains two rotational cherezes located vertically symmetrically along the movement direction of the device, mechanically connected to the common drive and the subsoil milling machine located below the drive, which have shafts located horizontally and perpendicular to the direction of movement of the cultivator.

Rotational slitherese is equipped with a slitherese disk, which contains the leading, driven, supporting, centering gears of the drive, the gearing teeth of which are alternately left and right along the outer cylindrical surface of each gear.

The chererez disk is equipped with flexible elements in which the drive and milling shaft bearings are installed.

Ring slitherese is equipped with gear teeth made on its lateral surfaces alternately left and right, directed towards its inner cylindrical surface, which it rests with gearing on the outer cylindrical surface of the driving, driven, supporting, centering gears of the drive.

On the driving, driven, supporting, centering gear and ring slit, a cylindrical supporting surface is made, the circumference of which is equal to the diameter of the corresponding engagement circle.

Ring slitherese is equipped with cutting bodies made on its lateral surfaces alternately left and right, directed towards its outer cylindrical surface, tanks for receiving soil are made in front of the cutting bodies.

The milling shaft is made with consoles.

The invention is illustrated by the accompanying schemes, where

figure 1 shows the proposed device, side view;

figure 2 is a cross section of a front view of the right along the part of the device.

A device for rotational subsoil tillage is made symmetrically in the direction of movement of the device. The device has a drive shaft 1. On the left and right sides of the device frame on the bracket 2, through the fastening elements 3, a rotational slider 4 is installed, which contains a sloter disk 5 with sockets of bearing bearings 6, connected to the drive shaft, leading 7, driven 8, supporting 9, centering 10 gears of the drive, driven, supporting, centering gears are provided with covers 11. The gears of the drive are made with straight teeth located alternately left and right along the outer cylindrical surface of the gear. The bearings of the driving and driven gears are installed in the slitherese disk through flexible elements 12. Rotary slitherese contains annular slitherese 13 with gear teeth made on its side surfaces alternately left and right. The gearing teeth are directed towards its inner cylindrical bearing surface, with which it rests with meshing on the outer bearing surface of the driving, driven, supporting, centering gears of the drive. Each abutment surface has a diameter equal to the corresponding diameter of the circumference of the engagement. The annular slitherer is provided with cutting bodies 14 arranged on its lateral surfaces alternately on the left and right, facing the outer cylindrical surface. In front of the cutting body on the side surface of the annular slithere is a container for receiving soil 15.

The subsoil milling machine 16 comprises a milling machine shaft 17 and soil milling machines 18. The milling machine shaft 17 is made with consoles 19 and is installed in the driven gears of the rotary slotters.

The proposed device for rotational subsoil loosening works as follows.

When the unit moves along the field, the torque through the drive shaft 1 is sequentially transmitted to the drive gear of the drive 7, to the inner cylindrical surface of the annular slothere 13, equipped with lateral gear teeth. Then, through the driven gear of the drive 8 to the shaft 17 of the milling machine 16 and the soil mills 18. The annular slitherese 13 is fixed in the space alternately left and right located, respectively, on it, as well as on the gears, the teeth of the drive. The movement of the annular slit-hole 13 in the vertical plane is limited by the cylindrical surfaces of the rolling gears, on which the annular slit-hole 13 is continuously supported by its inner cylindrical supporting surface. The diameter of the cylindrical contact surface of each gear and annular slit 13 is equal to the diameter of the corresponding engagement circle. At the same time, rotary cherereses 4 buried in the soil 4 with the outer surface of the annular creeper 13 provided with cutting bodies 15 cut water-absorbing slots, the subsoil milling machine 16 is buried in the soil and makes its soil rotational loosening and mixing between the rotary gouges 4, and also in the area of the consoles 19.

The use of new elements in the form of annular slitherese 13 with meshing teeth alternately on the left and right, cutting teeth 14, and soil receiving tanks 15 makes it possible to craft two slots for absorbing water while moving the device in the soil, milling the inner layers of the soil, softening and mixing between them, preserving the humus layer, stubble and grass cover on the soil surface, with high reliability and lower energy costs, because the opportunity is created:

- increase the reliability of the device. The shoulder of the force decreases when the axis of rotation of the bearing of the support gear of the rotary cherese is skewed. The breakage of cutting teeth of disk cherezeres is excluded, as annular slitherese is equipped with sequentially supported cutting teeth made on its side surfaces alternately left and right. The cross section of annular cherese is not attenuated in the cross section of the soil receiving tank. Jamming of bearings of the drive shaft and the shaft of the subsoil milling machine during elastic dynamic deformation of the device frame during operation is excluded, since the driving and driven gears are connected to the shearer disk by flexible elements. Ring slitherese engages with drive gears and constantly relies on them;

- reduce the traction resistance of the device due to the fact that the movement of rotational shelieres with annular sheliroz requires the formation of a gap of a smaller width;

- increase the width of the device, since the milling shaft in the absence of the base of the bowl-shaped disk is installed with consoles.

Claims (4)

1. A device for rotational subsoil cultivation, containing two rotational cherezes located vertically symmetrically along the direction of movement of the device, mechanically connected to a common drive and an underground milling machine located under the drive, which have shafts arranged horizontally and perpendicular to the direction of movement of the cultivator, characterized in that the rotary the slitherese is provided with a slitherese disk and annular slitherese, and the slitherese disk contains a leading, driven, supporting and centering gear and a drive, the engagement teeth of which are alternately left and right along the outer cylindrical surface of each gear, and on the driving, driven, supporting and centering gear and on the ring slit, a cylindrical supporting surface is made, the circumference of which is equal to the diameter of the corresponding engagement circle, while the ring slit equipped with gear teeth made on its side surfaces alternately left and right, directed towards its inner cylindrical surface, by which it interacts with gearing made on the outer cylindrical surface of the driving, driven, supporting, centering gear of the drive, while the ring slit is equipped with cutting bodies made on its lateral surfaces alternately left and right and directed towards its outer cylindrical surface. 2. The device according to claim 1, characterized in that the slitherese disk is equipped with flexible elements in which the drive bearings and the milling shaft are installed. 3. The device according to claim 1, characterized in that in front of the cutting body on the side surface of the annular slit is made capacity for receiving soil. 4. The device according to claim 1, characterized in that the milling shaft is made with consoles.

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