RU186977U1 - Tillage working body - Google Patents

Abstract

Description

The utility model relates to agricultural machinery, in particular to tillage working bodies for loosening the soil.

The known design of the working body of the heavy cultivator KPE-3.8 mounted on the frame by means of a horizontal hinge and a spring-loaded vertical clamp [Khalansky V.M., Gorbachev I.V. Agricultural machinery, M .: Kolos, 2006, p. 94].

The working bodies of cultivators hinged in this way have a number of advantages compared to those mounted rigidly. In the process of their work, due to the variable nature of the soil resistance forces, oscillations of the working body arise, which provides the best degree of crumbling of the soil and a decrease in energy performance; less often soil sticking and clogging of the working organs with plant residues. A negative consequence of such fluctuations is the instability of the depth of processing and a change in the angle of entry of the paws into the soil.

The use of vibro-shock mechanisms consisting of hollow tubular telescopic cylinders, inside of which springs and impactors with hemispherical end surfaces are located, reduces the unevenness of the stroke depth and the traction resistance of the cultivator paw [RU, utility model patent No. 156090 U1, class. A01B 35/12. Cultivator on elastic struts // L.F. Babitsky, V.A. Kuklin. Declared June 15, 2016, published October 27, 2015]. The disadvantage of this design is the inability to adjust the amplitude of the oscillations.

Closest to the claimed and selected for the prototype design of the tillage implement [UA, patent for invention No. 80880 C2, class. A01B 39/00, A01B 35/02, A01B 35/22. Tillage tool // L.F. Babitsky, V.I. Tarasenko. Declared on November 21, 2005, published on November 12, 2007] containing a frame, a working body, a C-shaped rack, pivotally connected to the frame and spring-loaded relative to it, and a shockproof chopper. The chopper, made in the form of a screw rod with two nuts, pivotally connected to a C-shaped rack, ensures the stability of the vibration-impact action of the working body on the soil, while the deviation of the stroke depth from the installed one is within acceptable limits. The disadvantage of the design is the low frequency and intensity of the impact.

The technical result of the proposed utility model is to reduce traction resistance and intensify the process of crumbling soil due to the higher intensity of vibration impact.

The specified technical result in the implementation of the utility model is achieved by the fact that in the soil cultivating working body containing a C-shaped stand with a paw in the lower part, mounted on the frame by means of a horizontal hinge and spring-loaded with a vertical clamp with external springs, cylindrical rods of the clamp inside the external springs are installed bushings with spherical elastic ends and internal expanding springs.

The tillage working body (Fig.) Contains a frame 1 with a body 2 rigidly fixed with clamps. A C-shaped elastic post 4 with a foot 5, spring-loaded with a vertical clamp 6 with external springs 7 is mounted on the housing 2 by means of a horizontal hinge 3. On the vertical clamp rods inside the outer springs 7 are mounted cylindrical bushings 8 with spherical elastic ends 9 and internal expanding springs 10.

The process of work is as follows. When moving, the soil resistance force through the paw 5 acts on the elastic stand 4 and causes it to rotate relative to the horizontal hinge 3. At the same time, the upper upper end of the elastic stand moves down and pulls the clamp 6, causing compression of the outer 7 and expanding springs 10 and the collision of the ball elastic ends 9 cylindrical bushings 8 in the final compression phase. After a drop in traction resistance in the phase of cleaving the soil, the upper part of the strut 4, under the action of the elastic force of the external 7 and expanding springs 10, moves upward and in the final phase of the movement collides with the limiter 11. The process is periodically repeated.

Such vibration impact by means of an elastic stand and paws on the soil helps to increase the intensity of vibrations and improve the quality of tillage and provides a reduction in traction resistance.

Claims (1)

Tillage working body containing a C-shaped stand with a paw in the lower part, mounted on the frame by means of a horizontal hinge and spring-loaded with a vertical clamp with external springs, characterized in that cylindrical bushings with spherical elastic ends and internal expandable springs are installed on the vertical clamp rods inside the outer springs springs.

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