RU221356U1 - Cultivator working body - Google Patents

Abstract

The utility model relates to soil-cultivating machines, in particular to the working parts of cultivators.

The working body of a cultivator, containing a cultivator paw with wings, elastically mounted on a C-shaped spring-loaded elastic stand by means of bolts with elastic bushings and disc springs, characterized in that at the ends of the right and left wings of the paw, elastic rod elements of different lengths are fixed horizontally in a cantilever in the ratio 1: 1.5, made in the shape of a logarithmic spiral of different lengths at an angle of 24-26° to the direction of movement away from the ends of the wings. During soil cultivation, the working body of the cultivator compensates for impacts on rocky fractions, thanks to a spring unit consisting of a bolted connection and disc springs and intensifying the vibration of the cultivator's paw in the horizontal plane. The presence of elastic rod elements at the ends of the paw wings of different lengths in a ratio of 1:1.5 helps to increase the self-cleaning of the paw blades from crop residues and reduces the resistance of the soil coming off them, due to their design in the form of a logarithmic spiral.

The achieved technical result consists in reducing the wear of the working surfaces of the cultivator paw, ensuring the operability of the cultivator on hard soils containing rocky inclusions, improving the quality of tillage and reducing the traction resistance of the entire agricultural implement due to the coordination of the phases of deformation and destruction of the soil.

Description

The utility model relates to agricultural engineering, in particular to the working bodies of cultivators for continuous and inter-row tillage.

There is a well-known utility model “Working body of a cultivator” [RU patent for utility model No. 184962 U1, MPK A01B 35/22, published 11/15/2018], containing a spring-loaded C-shaped stand mounted on a frame with a cultivator paw, on the wings of which there is a rigid cylindrical impact mechanisms are installed in the longitudinal direction, made in the form of tubular links with internal hemispherical plugs and elastic balls located inside them, capable of freely moving along the axis of the tubular link, which in turn will reduce the energy intensity of the soil cultivation process and improve the quality of soil crumbling.

The disadvantage of the considered utility model is the complexity of the design and the increase in the contact area of the surface of the cultivator paw with the cultivated soil layer, due to the surface area of cylindrical impact mechanisms, which will lead to a slight increase in traction force when performing the technological operation of surface tillage.

The working body of a cultivator is known [RU patent for utility model No. 210070 U1, IPC A01B 35/26, published 03/28/2022], containing a stand and a pointed paw movably attached to it in the lower part by means of a bolted connection. The paw is attached to the stand using two bolts on which elastic bushings (rubber) with a diameter twice the diameter of the bolts are installed. The useful model provides a self-cleaning effect, increases the service life of the cultivator tines, allows you to cultivate soil with rocky inclusions and reduces the traction resistance of the cultivator as a whole.

The disadvantage of the proposed utility model is the insufficient intensity of vibrations of the cultivator paw in the horizontal plane, which does not allow the periods of chipping and destruction of the cultivated soil layer to be coordinated with the frequency of vibration of the cultivator paw, which, in turn, does not sufficiently reduce traction resistance during soil cultivation.

The utility model “Working body of a cultivator” was chosen as a prototype [RU patent for utility model No. 187398 U1, IPC A01B 35/22, 61/04; SPK A01V 35/22, 61/04, published 03/04/2019], ensuring the performance of the cultivator on hard soils by increasing the durability of the working surfaces of the cultivator paw while simultaneously ensuring a reduction in the traction resistance of the cultivator and an increase in the quality of crumbling of the treated soil layer. A special feature of this useful model is that a pointed foot is secured to the cultivator foot, rigidly connected to the stand, by means of three bolts. The frontal surface of the thrust bearing is made in the shape of the rear surface of the pointed paw in its middle part. Between the thrust bearing and the lancet foot, three disc springs are installed on the fastening bolts, resting on the left, middle and right parts of the thrust bearing.

The disadvantage of the proposed utility model is the insufficient intensity of vibrations of the cultivator paw in the horizontal plane, which does not allow the periods of chipping and destruction of the cultivated soil layer to be coordinated with the frequency of vibration of the cultivator paw, which, in turn, does not sufficiently reduce traction resistance during soil cultivation.

The technical result of the proposed utility model is a reduction in the traction resistance of all agricultural implements due to the coordination of the phases of deformation and destruction of the soil.

The problem is solved as follows.

The working body of the cultivator, containing a cultivator paw with wings, elastically fixed on a C-shaped spring-loaded elastic stand by means of bolts with elastic bushings and disc springs; at the ends of the right and left wings of the paw, elastic rod elements of different lengths are fixed horizontally in a cantilever in a ratio of 1:1.5, made in the shape of a logarithmic spiral at an angle of 24-26° to the direction of movement away from the ends of the wings. The technical solution reduces the traction resistance of the cultivator when cultivating soil, due to the oscillation of the cultivator paw in the horizontal plane in the range from 16 to 21 Hz.

The general features of the prototype, which coincide with the features of the utility model, are:

- the presence of three bolts for fastening the cultivator tine to the elastic strut of the cultivator; between the thrust bearing and the pointed tine, three disc springs are installed on the fastening bolts, resting on the left, middle and right parts of the thrust bearing.

Distinctive features are:

- elastic rod elements made in the shape of a logarithmic spiral of different lengths in a ratio of 1:1.5 at an angle of 24-26° to the direction of movement away from the ends of the wings of the cultivator paw.

The essence of the utility model is illustrated by graphic material, where:

Fig. 1 - Cultivator paw mounted on an elastic stand (side view);

Fig. 2 - Fastening elastic rods on the wings of the cultivator paw (top view).

The working body of the cultivator contains (Fig. 1) the left 1 and right 2 wings (shown in Fig. 2) of the cultivator's paw, mounted on an elastic stand 3, by means of bolts 4 with elastic bushings 5 and disc springs 6. In the rear part of the cultivator paw on the wings 1 and 2, elastic rod elements 7 and 8 of different lengths are cantilevered in a ratio of 1:1.5, made in the shape of a logarithmic spiral at an angle of 24-26° to the direction of movement away from the ends of the wings.

The device works as follows. During operation, the working body of the cultivator cuts the soil layer with the blades of the left 1 and right 2 wings; the elastic rod elements 7 and 8 located at the ends of these wings, made, for example, of alloy hardened steel 65G, due to their different lengths, intensify the vibrations of the cultivator's paw in the horizontal plane. This ensures a reduction in the traction resistance of the cultivator due to the coordination of the phases of deformation and destruction of the soil at oscillation frequencies in the range from 16 to 21 Hz.

During soil cultivation, the working body of the cultivator compensates for impacts on rocky fractions thanks to a spring unit consisting of a bolted connection and disc springs and intensifying the vibration of the cultivator's paw in the horizontal plane.

Claims (1)

The working body of the cultivator, containing a cultivator paw with wings, elastically mounted on a C-shaped spring-loaded elastic stand by means of bolts with elastic bushings and disc springs, characterized in that at the ends of the right and left wings of the paw, elastic rod elements of different lengths are fixed horizontally in a cantilever in the ratio 1: 1.5, made in the shape of a logarithmic spiral at an angle of 24-26° to the direction of movement away from the ends of the wings.

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