RU2201051C2 - Tillage tool - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: tillage tool has tine, vertical ripper, wedges, hoe and disks equipped with teeth. Mounting part of ripper is connected to disk drum shaft through frame, lever and roller. Vibration created during operation of toothed disk and hoe with rippers is transmitted through said connection from disk to hoe and vice versa. EFFECT: improved quality of soil crumbling and provision for creating moisture retaining and moisture accumulating soil layer. 4 dwg

Description

 The invention relates to agricultural machinery, in particular to tillage working bodies.

 Known tillage working body (ed. St. 1782368, MKI A 01 B 49/02), which includes a rack-mounted flat-cutting paw with cultivating elements and gear discs.

 A well-known working body does not provide complete crumbling of the formation, satisfying to a large extent the requirements of moisture accumulation and moisture conservation. Better crumbling of the reservoir is achieved by additional treatments.

 Known tillage working body (see the description of ed. St. Patent of the Russian Federation 2075272, A 01 B 49/02), including a stand, paw, ripping wedges, discs of the corrugated drum.

 The disadvantages of the known working body include the fact that it produces an unsatisfactory stacking of the fractions of the soil of the loosened formation vertically with different density, porosity and mechanical properties, and this leads to a decrease in moisture accumulation and moisture conservation of the treated soil horizon.

 To eliminate these shortcomings and achieve a technical result, the tillage working body is equipped with a two-arm lever, one end of which is pivotally mounted on the axis of the drum disc, and the other end is on a roller mounted in an elongated hole made in the mounting part of the cultivator, while to the right and left of The edges of the mounting part are equipped with return springs rigidly fixed to the back and front internal walls of the hollow rack.

 The supply of the working body with a two-arm lever allows for direct mutual dynamic connection between the disks of the serrated-corrugated drum and the plane-cutting paw, since the two-arm lever is a transmission link of vibrations from disk to paw and vice versa, from paw to disk, which contributes to crumbling of soil as in the upper layer 4 -8 cm, and in the lower 20-27 cm.

 The connection of one end of the lever pivotally with the axis of the drum disc and setting the other on the roller ensures the operation of the transmission link without significant friction costs in steady state.

 The location of the lever roller in an elongated hole made in the mounting part of the cultivator provides the transmission mechanism without jamming, which contributes to more stable operation of the disk and paws in depth and increases soil crumbling.

The installation of return springs helps stabilize the depth of travel of the paws, reduces the cost of crushing the soil, since the angle of crumbling of the paws varies between 18-25 ^o .

 The connection of the axis of the disk of the gear-corrugated drum through an inclined lever with a screw mechanism provides ample opportunity to obtain a fraction of the soil, providing stacking them with parameters that provide moisture accumulation and moisture conservation of the treated formation.

 The location of the edges of the mounting part of the vertical cultivator of the return springs fixed to the rear and front inner walls of the hollow rack, installed on the left and right, makes it possible to stabilize the process of transferring vibrations from the legs with cultivators to the disk of the serrated-corrugated drum and vice versa, since soil particles do not get onto the springs and plant debris.

In Fig.1 shows a tillage working body, side view;
figure 2 is a kinematic diagram of the proposed working body;
in FIG. 3 - a flat-cutting paw with wedges, a vertical cultivator and a mounting part in perspective;
figure 4 - diagram of the technological process of tillage by the proposed working body.

Tillage working body contains a hollow stand 1, on which is mounted a flat-cutting paw 2, ripping elements, made in the form of a double-sided wedge, are mounted on it. The wedge 3 is paired with a flat vertical cultivator 4, which passes into the mounting part 5. The wedges 6 and 7 are installed along the edges of the legs 2. The gear discs 8 are corrugated and assembled on the axis 9 to form a drum, one end of which is pivotally fixed to the axis of the drum disk, and the other is on the frame 12. The axis 9 is pivotally connected to the stand 1 through the frame 10, the two-arm lever 11, the roller 12 of the short arm 13. The roller 12 is located in the oblong hole of the mounting part 5 of the cultivator 4, and the long arm 11 is connected to the frame 15 of the drum and provided screw mechanism 16. With by the roller 17, the lever is pivotally mounted on the rack 1, as well as the mounting part 5 - by means of the roller 18. The edges of the mounting part are directly and constantly in contact with the return springs 19 of the flat type, which are rigidly fixed to the walls of the hollow rack 1. The frame 15 of the drum is pivotally attached to the long shoulder 14 of the lever 11 with the possibility of changing the depth h _{d of the} disks 8 using a screw mechanism 16. It should be noted that the disks 8 are not only corrugated, but also equipped with teeth 20, the bend of which is from an imaginary straight ditch edge is made left or right, that is, with alternation.

Tillage working body operates as follows. When the working body moves along the field, discs 8, rotating on the drum axis 9, with teeth 20 produce surface crumbling and formation destruction to a depth of h _d , a flat-cutting paw 2 cuts the soil in a horizontal plane at a depth of h _l , a vertical cultivator 4 and cultivating elements - central 3 and the side 6 and 7, double-sided wedges destroy undercut formation in the h layer _to form a soil fraction in the lower layer and the sealing medium layer. Since the teeth 20 of the disk 8 alternate with the troughs, during the movement of the disk, vibrations occur through the frame 10, the two-arm lever 11, the roller 12, the mounting part 5, the ripper 4 and are transmitted to the foot 2 and the wedges 3, 6 and 7. As a result, the intensity of the impact paws and wedges increases, crumbling increases, stacking of vertical fractions of soil improves. In addition, the paw 2, the wedges 3, 6, 7, the vertical cultivator 4 under the action of the springs 19 when they work in a heterogeneous soil environment also cause oscillations. These oscillations are transferred back to the disc 8 of the drum, which improves the crumbling of the soil of the upper part of the treated formation. The depth of travel of the disks 8 is optionally regulated by a screw mechanism 16. Thus, the proposed working body allows to improve the quality of processing due to a more ordered stacking of the soil fraction vertically, thereby improving the moisture-saving and moisture-accumulating properties of the soil.

 The application of the proposed working body does not negatively affect the environment, as it allows processing to be carried out with the formation of a wind-waterproof surface of the treated fields.

Claims (1)

 Tillage working body, including a rack-mounted paw with a cultivator and a gear-corrugated drum discs, characterized in that it is equipped with a two-arm lever, one end of which is pivotally mounted on the axis of the drum disc, and the other on a roller mounted in an elongated hole made in the mounting part of the cultivator, while to the right and left of the edges of the mounting part of the cultivator there are return springs rigidly fixed to the rear and front internal walls of the rack made of polo th.

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