RU222417U1 - Cultivator for continuous tillage - Google Patents

Abstract

The utility model relates to agricultural engineering, namely to devices for surface tillage. A cultivator for continuous tillage contains a frame carrying racks with working bodies, on the transverse pipes of which rack fastening units are installed, consisting of an upper corner on which a mechanism for changing the angle of entry of the working body into the soil is installed, and a lower corner on which the rack bracket is rigidly fixed , wherein the upper corner has a rigid connection with the lower corner, and four cylindrical rubber dampers are installed between the transverse frame pipe, the upper corner and the lower corner. The mechanism for changing the angle of entry of the working body into the soil includes a support plate rigidly fixed to the upper corner, in which a support adjusting bolt with a removable rubber tip is installed by means of a threaded connection, abutting against a metal plate rigidly fixed to the transverse pipe by means of a bracket, and the bracket passes through the groove of the upper corner. The rack bracket includes two vertical sidewalls that are rigidly connected to each other by means of a horizontal plate, which has one hole for a bolted connection of the rack and two holes for a bracket for fastening the rack of the working body. The achieved technical result is to increase the reliability of the cultivator and the quality of crumbling of the soil layer.

Description

The utility model relates to agricultural engineering, namely to devices for surface tillage.

A known attachment unit for the working body of a cultivator contains a frame, a stand with a shank and a nut, the surface of which is mated with a hole made in the frame. The mating surfaces are made in the form of hemispheres. A support washer is attached to the stand. Between the support washer and the frame, external and internal cylindrical compression springs with opposite winding directions are installed on their common axis of symmetry with the shank. The outer and inner cylindrical springs are made with respect to their twisting or unwinding moments of equal rigidity. The outer and inner cylindrical compression springs have the ends of the rods bent parallel to their axis of symmetry, inserted into the holes of the frame and support washer corresponding to their rod diameters (patent RU 2766449 C1; IPC A01B 61/04; publ. 03/15/2022, Bulletin No. 8).

The disadvantage of this attachment point for the working body of the cultivator is the low reliability of the cultivator due to rapid wear of the mating hemispherical surfaces of the hole in the frame and the nut.

A cultivator is known, consisting of a frame carrying racks with working parts. The racks on the side opposite to the working bodies are equipped with slots. The splines of the racks are interconnected with counter splines made on the fingers. The fingers are made of elastic material and at one end are rigidly fixed to the frame. The fingers are placed with the possibility of angular elastic deformations when they are twisted in cylindrical glasses. The glasses are rigidly fixed to the frame. On one side, on the inner circular surfaces, the glasses have hemispherical cross-section grooves inclined to the vertical plane, interacting with similar-shaped protrusions located on the racks, and on the other, windows in which the racks of the cultivator’s working parts are located (patent RU 2544618 C1; IPC A01B 61 /04, A01B 35/24, A01B 39/22; published 03/20/2015, bulletin No. 8).

The specified cultivator is closest to the proposed one in terms of technical essence and was adopted as a prototype.

The disadvantage of the prototype is the low reliability of the cultivator, due to pin breakages when the working body rack is strongly deflected back when it encounters an obstacle in the soil. Also, a large number of rubbing surfaces of parts that actively wear out during operation contribute to a decrease in the reliability of the cultivator.

The technical result of the utility model is to increase the reliability of the cultivator and the quality of crumbling of the soil layer.

This result is achieved by the fact that in a cultivator for continuous tillage, including a frame carrying racks with working bodies, in accordance with the utility model, on the transverse pipes of the frame, fastening units for the racks are installed, consisting of an upper corner on which a mechanism for changing the entry angle of the working body is installed into the soil, and a lower corner on which the rack bracket is rigidly fixed, wherein the upper corner has a rigid connection with the lower corner, and four cylindrical rubber dampers are installed between the transverse frame pipe, the upper corner and the lower corner. The mechanism for changing the angle of entry of the working body into the soil includes a support plate rigidly fixed to the upper corner, in which a support adjusting bolt with a removable rubber tip is installed by means of a threaded connection, resting against a metal plate rigidly fixed to the square pipe by means of a bracket, and the bracket passes through the groove of the upper corner. The rack bracket includes two vertical sidewalls that are rigidly connected to each other by means of a horizontal plate, which has one hole for a bolted connection of the rack and two holes for a bracket for fastening the rack of the working body.

There is the following cause-and-effect relationship between the set of essential features of a utility model and the achieved technical result.

The mounting units for the racks, installed on the transverse pipes of the frame, consist of an upper corner, on which a mechanism for changing the angle of entry of the working body into the soil is installed, and a lower corner, on which the rack bracket is rigidly fixed, and the upper corner has a rigid connection with the lower corner, and between Four cylindrical rubber dampers are installed across the transverse frame tube, upper corner and lower corner, which ensures elastic deformation of the dampers without relative sliding of the surfaces of the parts, thereby eliminating wear of parts from friction, which increases the reliability of the cultivator. In addition, this design of the mounting points for the racks provides two degrees of freedom of vibration of the working body, relative to the vertical and horizontal planes, thereby intensifying the vibration-impact effect of the working body on the soil, which improves the quality of crumbling of the soil layer.

The mechanism for changing the angle of entry of the working body into the soil consists of a support plate rigidly fixed to the upper corner, in which a support adjusting bolt with a removable rubber tip is installed by means of a threaded connection, resting against a metal plate rigidly fixed to the frame by means of a bracket, and the bracket passes through the groove of the upper corner, which ensures damping of impacts of the bolt on the metal plate, thereby eliminating the destruction of parts that strike during operation, which also additionally helps to increase the reliability of the cultivator. In addition, the ability to change the angle of entry of the working bodies into the soil ensures that the machine adapts to various soil operating conditions, which also helps to improve the quality of crumbling of the soil layer.

In fig. Figure 1 shows a side view of the cultivator.

In fig. Figure 2 shows a top view of the cultivator.

In fig. Figure 3 shows a section A-A of the attachment point of the working body strut.

In fig. Figure 4 shows a view of the attachment point of the working body strut in direction B.

A cultivator for continuous tillage includes a frame 1 (Fig. 1), a supporting rack 2 with working parts 3. On the transverse pipes 4 (Fig. 2) of the frame 1 there are fastening units 5 of the racks 2, consisting of an upper corner 6 (Fig. 1) , on which the mechanism 7 is installed for changing the angle of entry of the working body 3 into the soil, and the lower corner 8, on which the bracket 9 of the rack 2 is rigidly fixed, and the upper corner 6 has a rigid connection with the lower corner 8. Between the transverse pipe 4 of the frame 1, the upper corner 6 and the lower corner 8 are installed with four cylindrical rubber dampers 10.

The mechanism 7 for changing the angle of entry of the working body 3 into the soil includes a support plate 11 (Fig. 3) rigidly fixed to the upper corner 6, in which, by means of a threaded connection 12, a support adjusting bolt 13 is installed with a removable rubber tip 14, abutting the metal plate 15, rigidly fixed on the transverse pipe 4 by means of a bracket 16, and the bracket 16 passes through the groove 17 (Fig. 4) of the upper corner 6.

The bracket 9 (Fig. 1) of the rack 2 includes two vertical sidewalls 18 (Fig. 3, 4), which are rigidly connected to each other by means of a horizontal plate 19, which has one hole 20 for the bolted connection 21 of the rack 2 and two holes 22 for the bracket 23 fastenings of the rack 2 of the working body 3.

The cultivator works as follows. The cultivator is mounted on a tractor (shown in the figure). Set the specified depth of tillage and the angle of entry of the working bodies 3 (Fig. 1) into the soil. The specified angle of entry of the working bodies 3 into the soil is set by the mechanism 7 for changing the angle of entry of the working body 3 into the soil by turning the adjusting bolt 13 installed in the support plate 11 (Fig. 3) through a threaded connection 12. Since the rubber tip 14 of the adjusting bolt 13 abuts the metal plate 15, rigidly fixed to the transverse pipe 4 by means of a bracket 16, the support plate 11 moves along the adjusting bolt 13, turning the fastening unit 5 (Fig. 1) of the rack 2 of the working body 3 relative to the transverse pipe 4, changing the angle of entry of the working body 3 into the soil. Having driven out into the field, they lower the cultivator and begin to move. When the cultivator moves, the working bodies 3, moving at a given depth, cut the soil layer and loosen it. Fastening units 5, which do not have parts that wear out due to friction, ensure the reliability of the cultivator during operation. Also, the attachment points 5 of the racks 2 provide an intense vibration-impact effect of the working bodies 3 on the soil during operation of the cultivator. Setting the specified angle of entry of the working body 3 into the soil through mechanism 7 ensures high-quality crumbling of the soil in various soil conditions. During operation of the cultivator, the rubber tip 14 (Fig. 3) of the adjusting bolt 13, abutting the metal plate 15, softens the impacts of the adjusting bolt 13 on the metal plate 15, preventing their destruction.

The use of the proposed cultivator design will improve the reliability of the cultivator and the quality of loosening the soil layer.

Claims (3)

1. A cultivator for continuous tillage, including a frame carrying racks with working bodies, characterized in that on the transverse pipes of the frame there are mounting points for the racks, consisting of an upper corner on which is installed a mechanism for changing the angle of entry of the working body into the soil, and a lower corner , on which the rack bracket is rigidly fixed, and the upper corner has a rigid connection with the lower corner, and four cylindrical rubber dampers are installed between the transverse frame pipe, the upper corner and the lower corner. 2. The cultivator according to claim 1, characterized in that the mechanism for changing the angle of entry of the working body into the soil includes a support plate rigidly fixed to the upper corner, in which a support adjusting bolt with a removable rubber tip is installed by means of a threaded connection, abutting against a metal plate rigidly fixed on the transverse pipe by means of a bracket, and the bracket passes through the groove of the upper corner. 3. The cultivator according to claim 1, characterized in that the stand bracket includes two vertical sidewalls that are rigidly connected to each other by means of a horizontal plate, which has one hole for the bolt connection of the stand and two holes for the mounting bracket of the working body stand.