RU136279U1 - COMBINED SOIL PROCESSING TOOLS - Google Patents

Abstract

Combined tillage tool, including a frame with plow body and mounted subsoilers behind them, characterized in that the implement is equipped with a circular knife and pushers, and the subsoilers are equipped with a rotary body in the form of a ribbed cone mounted on bearings, with the possibility of frictional rotation around its own axis, which is multi-screw, and the central angle at the apex of the cone has a size determined by the ratio, where is the depth of the deepening of the subsurface layer; l- led ina departure from the apex of the cone rack; ε - Rear cutting angle, the subsoiler has rear housings in the region defined by the relation where φ - the angle of friction of the soil working surface apex of the cone.

Description

The utility model relates to agricultural machinery, in particular to combined tillage implements.

A known method of smooth plowing and plow for its implementation [1]. The device comprises a frame and mirror-mounted right- and left-turning plow bodies mounted on it, four pushers and a circular knife. The pushers are adjustable in height and are installed in two rows so that the intersection point of the directions of the blades of the pushers of the first row are in front, and the second row is behind the right- and left-handed buildings. At the same time, the double case is made with screw, and the right- and left-turning cases with half-screw dumps. The disadvantage of this invention is that it does not deepen the arable layer.

Also known is a combined anti-erosion tool containing a frame with a support wheel, an attached device, plow bodies and subsoilers located behind each plow body, characterized in that the subsoilers are pivotally mounted on the implement frame and have a mechanism for giving them oscillations in the transverse direction, and the mechanism for imparting vibrations made hydraulic. [one]. The disadvantage of this invention is the high energy intensity of the processing process and low quality.

The closest analogue of the proposed utility model is a plow-ripper, including a frame with plow bodies and subsoilers for loosening in the form of knives having the shape of a wedge, one of whose sides coincides with the direction of movement, and shifted relative to each other by a distance equal to the width of the knife . (USSR AS No. 178584 A01B 45a, 1966) The disadvantage of this analogue is the high energy intensity of the processing process and the poor quality of work due to the formation of a core of dragging the soil in front of passive wedge-shaped knives during operation.

The technical result is a reduction in energy intensity and improving the quality of crumbling while deepening the soil.

The technical result is achieved by the fact that in a combined tillage implement, including a frame with a plow body and mounted subsoilers, a circular knife and catchers are installed, and the subsoilers are equipped with a rotary organ in the form of a ribbed cone mounted on bearings, with the possibility of frictional rotational movement around its own axis , and which is a multi-start screw, and the central angle at the top of the cone has a size determined by the ratio:

where a is the depth of the deepening (loosening of the soil) of the subsurface layer;

β is the central angle at the apex of the cone of the rotational organ;

l ₁ - the value of the departure of the top of the cone from the rack;

ε is the rear cutting angle.

In addition, in the combined tillage implement, the soil tillage machines are located at the rear of the hulls at a distance determined by the ratio:

where φ is the angle of friction of the soil on the working surface of the top of the cone.

The invention is presented in:

Figure 1 - Combined tillage implement, side view;

Figure 2 - Combined tillage implement, top view;

Figure 3 - Diagram of a subsoiler with a rotary organ;

Figure 4 - Design of a rotary subsoiler.

The combined tillage implement (Figs. 1, 2) consists of a frame 1, with an attachment mechanism 2, height-adjustable disk knife 3, a double case 4, right- and left-turning bodies 5 and 6, respectively, placed in two rows of pushers 7, subsoilers 8 and support wheels 9.

.The subsoilers are equipped with rotary bodies 10 in the form of a cone. The working surface (Figure 3, view A) of the cone 10 is made in the form of a multi-screw. The cone 10 (Figure 4) is mounted on bearings 12, with the possibility of rotational motion around its own axis 13 under the action of friction forces. Moreover, the central angle at the apex of the cone has a size determined by the relation

.

The disk knife 3 (Figure 2) is located in front of the double body 4 on the plane of its longitudinal symmetry. The twin body 4 is provided with screw dumps, and the right- and left-turning bodies 5 and 6, respectively, have half-screw dumps. The pushers 7 are placed on the frame 1 in two rows. Subsoilers 8 are installed behind the double housing 4 and the right- and left-turning housings 5 and 6, respectively. The support wheels 9 and the pushers 7 are equipped with a height adjustment mechanism.

Combined tillage implement works as follows.

Before starting work, using the height adjustment mechanisms, set the desired plowing depth and the required stroke depth of the disk knife 3. Then, depending on the stroke depth of the plow bodies (plowing depth), the position of the sliders 7 is set in height. In this case, the adjustment is made in this way so that during the operation of the combined tool they were at the level of the surface of the treated field.

During the movement of the combined tillage implement across the field, the disk knife 3 performs a vertical incision of the soil to a set depth, then the twin body 4, having screw dumps, cuts the two middle layers of soil, divides them along the incision line of the disk knife 3 and puts it on the rough surface of the field in different directions. The front subsoiler 8 goes along a furrow open by double hulls 4, is embedded in the soil to a set depth, and rotates, providing a high degree of crumbling, due to friction of the soil on the working surface of the cone 10, made in the form of a multi-screw. During operation of the rotating cone 10, the core of the soil drawing is not formed. This leads to a decrease in the energy intensity of processing while improving its quality. With further movement of the guns, the pushers 7, installed in the first row, move the layers cut by the double casing 4 to the sides along the field surface without a revolution by a distance equal to the width of the plow bodies "b". Next, the right- and left-turning bodies 5 and 6, respectively, having half-screw dumps, cut and wrap the extreme layers into the furrows of the middle layers formed by the double body 4. The rear subsoilers 8 go along the open groove formed by the bodies 5, 6 and work similarly to the front subsoiler. Next, the pushers 7, located in the second row, move the soil layers located on the surface and previously displaced by the pushers 7 of the first row in the opposite direction, lay them in the furrows formed after the passage of the right- and left-handed buildings 5 and 6, respectively.

The implementation of the rotary subsoiler in the form of a cone 10 with a central angle at the apex of the cone P, calculated by the relation (1), contributes to its good penetration into the soil, i.e. its performance, as this ensures a positive value of the trailing angle of cutting ε. The angle ε depends on the depth of cultivation and the design parameters of the rotary cultivator.

The placement of the soil tillage machines 8 behind the hulls at a strictly defined distance calculated by the relation (2) ensures high-quality operation in open furrow conditions, excluding clogging and their interaction with the arable soil layer. This helps to reduce the traction resistance of the guns and better loosening of the subsurface horizon and the destruction of the plow sole.

Thus, the combined tillage implement provides smooth plowing of the soil with simultaneous loosening of the subsurface layer and destruction of the plow sole. Such treatment eliminates the formation of dump grooves and breakup ridges on the surface of the field, helps to increase the water permeability of the soil and can be used on slopes prone to water erosion.

In this case, the set of features characterizing the device provides over the total effect.

List of used literature:

1. RF patent for the invention No. 2222130 АВВ 79/00, 3/30, 2004

2. RF patent for the invention №2012176 A01 B13 / 16, 17/00, 1994

3. USSR author's certificate No. 178584 А01В 45а, 1966

Claims (1)

Combined tillage tool, including a frame with plow bodies and mounted subsoilers behind them, characterized in that the implement is equipped with a circular knife and pushers, and the subsoilers are equipped with a rotary body in the form of a ribbed cone mounted on bearings, with the possibility of frictional rotation around its own axis, which represents multi-screw, and the Central angle at the top of the cone has a size determined by the ratio

, where a is the depth of the deepening of the subsurface layer; l ₁ - the value of the departure of the top of the cone from the rack; ε is the rear cutting angle, in this case, the subsoilers are located at the rear of the housings at a distance determined by the ratio

, where φ is the angle of friction of the soil on the working surface of the top of the cone.

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