RU112582U1 - SOIL PROCESSING MACHINES FOR IMMEDIATE SOIL TREATMENT - Google Patents

Abstract

1. A soil cultivating tool containing working bodies and their drive, which is made in the form of a crank-rocker mechanism, characterized in that vibrators with centrifugal excitation of vibrations are installed in the drive to the working bodies from the tractor power take-off shaft on the crankshafts. ! 2. The tillage tool according to claim 1, characterized in that the amplitude of the centrifugal force F is proportional to the square of the frequency, which changes by the mass of the unbalance m, the eccentricity about the axis of rotation r and the frequency ω and is determined by the formula F = mrω2.

Description

The utility model relates to agricultural machinery and, in particular, to tillage implements for deep subsurface tillage.

The proposed utility model is a further improvement in the analogue of a tillage implement for subsurface tillage (patent for invention No. 2321195, 2005).

Known aerator-fertilizer (utility model patent No. 80649, 2008). Also known are rotary working bodies for tillage, where vibration is used (A.S. No. 2138144, 1999, patent 2319328, 2005).

The main disadvantage of the analogue is that for the introduction of spade-shaped working bodies into the soil, great efforts are required, their poor penetration and unstable work in the depth of processing.

The purpose of the proposed utility model is to reduce energy consumption and improve the quality of subsurface tillage.

This goal is achieved by the fact that the tillage implement is equipped with vibrators with centrifugal excitation of vibrations.

Figure 1 shows a diagram of a tool for subsurface tillage, figure 2 - view A.

The tillage implement contains crankshafts 1 (left and right) as cranks, the connecting rod necks of which are connected to the connecting rods 2, and the latter to the rocker arms (balancers) 3. The working bodies 4 are rigidly mounted on the connecting rods 2. Vibrators 6 are installed on the crankshafts 1 at the ends. The drive of the working bodies is carried out from the tractor power take-off shaft through a bevel gear 5. During operation, each vibrator 6 creates centrifugal forced vibrations.

Under the action of the centrifugal force F, which depends on the unbalance mass m, the eccentricity r and the rotation frequency ω is determined by the formula F = mrω ² . It was found that the friction coefficient between the working bodies and the soil is reduced, which leads to a decrease in the effort to introduce the working bodies into the soil and energy consumption. The vibration amplitude, depending on the properties of the cultivated soil, is regulated by a change in mass m and eccentricity r, and the frequency by the angular velocity ω.

Claims (2)

1. A tillage tool containing working bodies and their drive, which is made in the form of a crank-rocker mechanism, characterized in that in the drive to the working bodies from the tractor power take-off shaft, crankshafts are equipped with vibrators with centrifugal excitation of vibrations at the ends. 2. The tillage implement according to claim 1, characterized in that the amplitude of the centrifugal force F is proportional to the square of the frequency, which varies by the unbalance mass m, the eccentricity with respect to the rotation axis r and the frequency ω and is determined by the formula F = mrω2.