RU173263U1 - Tillage implement - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to tillage working bodies for loosening the soil. The tillage implement contains a frame with a rigidly attached body using clamps. An L-shaped rack with a rigidly fixed lancet paw is pivotally mounted on the axis on the body and an elastic element with a rod having a hinge mount with a rack in the lower part and a nut for adjusting the compression force of the elastic element is placed in the upper part. The cylindrical vibro-shock mechanism serves as a limiter for the rotation of the rack and creates a vibro-shock effect on it. It consists of alternating cylindrical impactors movably located in a cylindrical body with hemispherical ends separated by expandable coil springs. The upper part of the vibro-shock mechanism has a hemispherical impact surface interacting with the horizontal shoulder of the L-shaped rack, and the lower part is fixedly mounted on the body. The proposed tillage implement with the ability to control the amplitude of oscillations of the L-shaped rack provides increased stability of the working bodies in depth, improves the quality of loosening of the soil and reduces traction resistance due to periodic vibration and shock impact on the soil.

Description

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

Known tillage implements with pivotally mounted uprights placed on the cultivator frame with additional elastic elements [RU invention patent No. 2134935, IPC: АВВ 35/12. Tillage tool // V.T. Yakovlev. Declared May 7, 1998, published August 27, 1999].

Articulated working bodies of cultivators have a number of advantages compared to rigidly mounted ones: due to the occurring vibrations, the traction resistance decreases and the frequency of clogging of the working bodies with plant residues decreases. The disadvantage of these types of working bodies is the instability of the depth of processing, especially when working on heavy soils.

The use of vibration-proof limiters, made in the form of hollow tubular telescopic cylinders, in the cavity of which springs are placed, between which shock cylinders with hemispherical end surfaces are installed, reduces unevenness of the stroke depth and activates the process of loosening the soil, as well as reduce the traction resistance of the working body [RU patent for utility model No. 156090, IPC: А01В 35/12. Cultivator on elastic struts // L.F. Babitsky, V.A. Kuklin. Declared June 15, 2015, published October 27, 2015]. The disadvantage of the design is the lack of adjustment of the amplitude.

The closest to the declared and selected for the prototype design of the tillage implement [RU patent for the invention No. 2261567, IPC: А01В 35/12. Tillage tool // V.T. Yakovlev. Declared March 23, 2004, published October 10, 2005] with a pivotally mounted L-shaped stand, an elastic element in the form of a spring, an adjusting bolt and a rotation limiter. This design vibrates during soil cultivation, which reduces traction resistance, and is applicable for working on stony soils due to the fact that it easily bypasses obstacles due to the joint significant amount of deformation of the elastic element with the removed rotation limiter. The design disadvantage is the low frequency of vibrations and the low intensity of the vibrational impact of the working body on the soil.

The technical result of the proposed utility model is to increase the uniformity of the depth of the working body of the cultivator, the intensification of the process of loosening the soil, reducing traction resistance, as well as the ability to adjust the amplitude of the oscillations.

The specified technical result in the implementation of the utility model is achieved by the fact that in a tillage implement containing a frame with a rigidly attached body, on which an L-shaped stand is pivotally mounted with a rigidly fixed lancet foot, an elastic element and an adjustment bolt, a telescopic cylindrical vibro-shock is mounted vertically coaxially to the elastic element a mechanism that serves as a limiter for the rotation of the rack and connecting the horizontal shoulder of the L-shaped rack with the housing, consisting of movably located In the cylindrical body of alternating cylindrical impactors with hemispherical ends separated by expandable coil springs. The upper part of the vibro-shock mechanism has a hemispherical impact surface interacting with the horizontal shoulder of the L-shaped rack, and the lower part is fixedly mounted on the body.

The tillage implement (Fig. 1) contains a frame 1 with a rigidly attached housing 2 using clamps 3. On the housing 2 is pivotally mounted on the axis 4 of the L-shaped rack 5 with a rigidly fixed lancet paw 6 and an elastic element 8 with a rod 10 having the lower part of the hinge with a rack 5, and in the upper - nut 9 to adjust the compression force of the elastic element. The cylindrical vibro-shock mechanism 11 serves as a limiter for the rotation of the rack and creates a vibro-shock effect on it. It consists of alternating cylindrical percussion 13 movably located in a cylindrical body with hemispherical ends separated by expandable coil springs 14. The upper part of the vibro-shock mechanism has a hemispherical impact surface 12 that interacts with the horizontal arm of the L-shaped rack, and the lower part is fixedly mounted on the body.

Tillage tool works as follows. The variable soil resistance force acting on the cultivating paw 6 causes oscillatory movements of the L-shaped rack 5. The upper movement of the horizontal part of the L-shaped rack 5 is limited by the adjusting screw 7 with a hammer fixed in its lower part and occurs with impact. The lower movement of the L-shaped strut 5 is limited by a cylindrical vibro-shock mechanism 11. Due to the sliding swivel joint, the limiter does not interfere with the relative movement of the strut and provides additional vibro-impact impact on the strut in accordance with the phases of deformation and destruction of the soil due to the impact of the hemispherical end surfaces of the rigid cylinders 13 inside the telescopic cylindrical tubular body. Periodic shock and vibration impact through the L-shaped rack and paw is transmitted to the soil and helps to reduce the shearing force and provides lower traction resistance.

Thus, the proposed tillage implement with the ability to control the amplitude of the oscillations of the L-shaped rack will increase the stability of the working bodies in depth, improve the quality of loosening of the soil and reduce traction due to periodic vibration and shock impact on the soil.

Claims (1)

A tillage implement containing a frame with a rigidly attached body on which a L-shaped stand is pivotally mounted with a rigidly fixed lancet paw, an elastic element and an adjustment bolt, characterized in that a telescopic cylindrical vibro-shock mechanism is installed vertically coaxially to the elastic element, which serves as a limiter for rotation of the rack and connecting horizontal arm of an L-shaped rack with a housing, consisting of alternating cylindrical impactors movably located in a cylindrical housing with hemispherical ends separated by expandable coil springs, with the upper part of the vibro-shock mechanism having a hemispherical shock surface interacting with the horizontal shoulder of the L-shaped rack and with the lower part fixedly mounted on the body.

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