RU187305U1 - Tillage working body - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to the working bodies of tillage machines. Tillage working body contains a cultivating paw on a C-shaped spring-loaded stand with a pendulum lever mounted on it on the back side with impactors. The pendulum lever is made two shoulders with hemispherical drummers at its ends. The ratio of the upper and lower sides and the upper and lower masses of the strikers is 1: 2. The technical result achieved is to reduce traction resistance while increasing the efficiency of surface loosening of the soil by increasing the degree of crumbling. 1 ill.

Description

The utility model relates to the field of agricultural engineering, in particular to the working bodies of tillage machines.

Known working body of the cultivator KPE-3.8, which contains a frame, a spring-loaded C-shaped rack and lancet paw (Karpenko A.N., Khalansky V.M. Agricultural machines. - M .: Agropromizdat, 1989). This device provides oscillatory movements of the lancet paws in the soil due to variable resistance and the spring device of the C-shaped rack, which allows to slightly reduce the resistance to movement of the cultivator paws in the soil and the traction resistance of the tillage unit as a whole.

A disadvantage of the known device is that the oscillations of the working body in the soil are unstable and strongly depend on its specific resistance, since the adjustment of the spring device of the C-shaped rack can be carried out only periodically when the tillage unit stops, and the potential energy of the spring device is not used during compression or tension its springs. As a result, the specific resistance to movement of the cultivator paw and the traction resistance of the soil cultivating unit are reduced slightly and there is no increase in the degree of crumbling of the soil and, accordingly, an improvement in the quality of its processing.

The closest analogue of the utility model is the cultivator working body, which includes a frame, a spring-loaded C-shaped strut and a pointed arm, additionally containing a pendulum-type shock mechanism with a swinging lever mounted on the rear side, the upper side of which is fixed to the axis of rotation and is mounted on its lower side the drummer, while the axis of rotation of the swinging arm is mounted on the rack with the possibility of changing its position in height relative to the cultivator legs, and the length of the swinging arm of the pendulum is adjustable (UA patent No. 28178 IPC АВВ 33/00. Working body of the cultivator // Babitsky L.F., Tarasenko V.I., Kusenko Yu.Yu. Claimed 03.08.2007, published 26.11.2007).

The reasons that impede the achievement of the required technical result when using the known device adopted for the closest analogue include the fact that the design allows you to save the working body from breakdowns due to the spring-loaded strut, but the vibrations of the working body itself with one hammer, which, in this case, have low frequency and, as a result, soil crumbling does not significantly improve, which is a significant drawback of this device.

The problem to which the claimed utility model is directed,

- increasing the efficiency of loosening the soil by reducing the diameter of lumps and plant debris during their intensive crumbling while reducing traction resistance of the gun.

The technical result is to reduce traction resistance while increasing the efficiency of surface loosening of the soil by increasing the degree of crumbling.

The essence of the utility model is as follows.

The specified technical result in the implementation of the utility model is achieved by the fact that the soil cultivating working body containing a cultivating paw on a C-shaped spring-loaded strut with a pendulum lever with drummers mounted on it from the back side, the pendulum lever is made with two shoulders and the hammers are hemispherical, and the drummers are mounted on the ends of the lever, the ratio of the upper side to the lower side of which, as well as the ratio of the mass of the upper hammer to the mass of the lower hammer, is 1: 2, respectively, which ensures double the number of hits on the surface of the rack and intensifies the frequency impact of the drummers on the rack.

The utility model is illustrated in the drawing.

In FIG. 1 shows a General view of the tillage working body, side view.

Tillage working body contains a cultivating paw 1 (Fig. 1) on a C-shaped spring-loaded strut 2 with a pendulum lever 3 mounted on it from the rear side 4. The pendulum lever 5 is made of two shoulders with hemispherical drummers 4 (Fig. 1) at its ends . The ratio of the upper side 6 to the lower 7 side of the pendulum arm and the ratio of the mass of the upper 8 hammer to the mass of the lower 9 hammer is 1: 2.

Tillage working body operates as follows. When the tillage working body moves across the field, the loosening paw 1, penetrating the soil, creates a bending moment on the C-shaped spring-loaded post 2, due to a change in the soil reaction. Oscillations occur, which are transmitted to the C-shaped spring-loaded strut 2, and from it to the pendulum lever 3 with hemispherical drums 4. The C-shaped spring-loaded strut 2, in contact with one of the two strikers 4, creates a shock impulse. Impact impulses from the drummers 4 and the C-shaped spring-loaded strut 2 are transmitted to the cultivating paw 1. Their intense vibration occurs, which reduces the friction force of the soil and plant debris on the surface of the cultivating paw 1. In areas of the field where there is compacted and solid soil, it is necessary to increase the amplitude of the shock. This is realized by the fact that the pendulum lever 5 is made of two shoulders with hemispherical impactors 4, which provides an increase in the number of strokes on the surface of the C-shaped spring-loaded strut 2 twice. The C-ratio of the upper side 6 to the lower 7 side of the pendulum lever 3 and the ratio of the mass of the upper 8 of the striker to the mass of the lower 9 of the striker is 1: 2, which intensifies the frequency impact of the strikers on the rack. As a result, the soil loses its cohesion, it is easier to process with a loosening paw 1, and this leads to a decrease in the traction resistance of the implement and an increase in the degree of crumbling of the soil, and it allows a twofold increase in the moment and force of impact on the lower part of the stand with the paw, which reach the critical force of soil destruction.

Using the proposed tillage working body will reduce traction resistance and at the same time increase the effectiveness of the surface of loosening of the soil by increasing the degree of crumbling.

Claims (1)

Tillage working body containing a cultivating paw on a C-shaped spring-loaded stand with a pendulum arm mounted on it from the rear side, characterized in that the pendulum arm is double-armed and the hammer is hemispherical, with the hammer mounted on the ends of the lever, the ratio of the upper side to whose lower side, as well as the ratio of the mass of the upper striker to the mass of the lower striker, is 1: 2, respectively.

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