RU205807U1 - ROTARY WORKING BODY OF THE PASS CULTIVATOR - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to tillage implements, and can be used for inter-row cultivation of row crops. The technical result of the utility model is to improve the quality of loosening of the soil in flat rows of row crops while reducing the energy intensity of the operation. The technical result is achieved due to the fact that the axis of the impeller and the teeth in the working position are vertical, and the blades have a circular cross-section, are made of spring steel and are arranged horizontally. spirals of Archimedes, and the teeth are located at the points of intersection of the blades with straight lines emanating from the axis of rotation of the working body, and the axis of the impeller and the teeth in the working position are vertical, and the blades have a circular cross-section, are made of spring steel and are located horizontally.

Description

The utility model relates to agricultural engineering, in particular to tillage implements, and can be used for inter-row cultivation of row crops.

Known rotary body cultivator-ripper [Copyright certificate SU patent No. 1037851, IPC cl. А01В 35/18, 1983], including an inclined axis and a disk fixed on it with teeth located at the intersection points of curves with right and left entry, symmetric about the disk axis and the polar equation of which is expressed by the relationship ρ = AsinKϕ.

The disadvantage of this working body is insufficient quality loosening of the soil in the flat aisles of row crops. The closest analogue to the claimed is the rotary working body of the cultivator [Copyright certificate SU patent No. 1329638, IPC class. A01B 35/18, 1987], containing an impeller mounted on an inclined axis, on the blades of which teeth are fixed, each of the blades has the shape of an Archimedes spiral section, and the teeth are located at the intersection points of the blades with straight lines emanating from the axis of rotation of the working body.

The disadvantage of this working body is insufficient quality loosening of the soil in flat aisles of cultivated crops and low self-cleaning ability.

The random (in the statistical sense) value of the imbalance of the moments of the forces of resistance of the soil and the root system of weeds acting on the teeth relative to the axis of rotation of the disk is not enough to ensure stable rotation of the disk around the axis. At the same time, along the length of the rut, areas of dragging of weeds appear along with the soil, the enveloping of the teeth with plant fractions increases, the ability to self-cleaning decreases, and the energy intensity of the operation increases.

The technical result of the utility model is to improve the quality of loosening the soil in the flat aisles of row crops while reducing the energy intensity of the operation.

The technical result is achieved due to the fact that the impeller axis and teeth are vertical in the working position, and the blades have a circular cross-section, are made of spring steel and are located horizontally.

The specified set of essential features ensures the appearance of new properties in the rotary working body of the row-crop cultivator, different from the prototype.

Thus, the declared features of a utility model meet the “novelty” criterion.

FIG. 1 shows a diagram of a rotary working body of a row cultivator, side view, in Fig. 2 is a diagram of the dental field.

The rotary working body of the row cultivator (Fig. 1), containing the impeller 2 mounted on the axis 1 with the possibility of rotation, on the blades 3 of which the teeth 4 are fixed, each of the blades has the shape of an Archimedes spiral section, and the teeth are located at the points of intersection of the blades with straight lines, outgoing from the axis of rotation of the working body (Fig. 2), and the axis 1 of the impeller and the teeth 4 in the working position are vertical, the blades 3 have a circular cross-section, are made of spring steel and are located horizontally.

The work of the rotary working body of the row cultivator is carried out as follows.

In the working position, when the tillage unit moves in the row spacing of row crops 5 (Fig. 3) in the direction of the velocity vector V, all the teeth 4 of the impeller move in the soil, and the blades 3 move above the soil. Under the influence of the forces of resistance of the soil and the root system of weeds to the movement of the teeth in strip A (Fig. 3), the blades 3 made of spring steel are additionally bent, the arms of the action of resistance forces relative to the axis of rotation of the impeller decrease, which leads to a decrease in their total torque counterclockwise ...

At the same time, in band B, under the influence of similar resistance forces, the blades 3 made of spring steel are additionally unbent, the arms of the resistance forces relative to the impeller rotation axis increase, which leads to an increase in their total torque clockwise.

As a result of the above imbalance in the torque of the resistance forces, a stable clockwise rotation of the impeller occurs (Fig. 3) with a variable angular velocity ω, which provides better loosening of the soil in the flat row spacing of row crops 5, the absence of dragging areas, increases the ability to self-cleaning, reduces the energy consumption of the operation ...

Sources of information:

1. Copyright certificate SU patent No. 1037851, IPC class. A01B 35/18, 1983.

2. Copyright certificate SU patent No. 1329638, IPC class. A01B 35/18, 1987.

Claims (1)

A rotary working body of a row cultivator, containing an impeller mounted on an axis with the ability to rotate, on the blades of which teeth are fixed, each of the blades has the shape of a section of an Archimedes spiral, and the teeth are located at the points of intersection of the blades with straight lines emanating from the axis of rotation of the working body, characterized in that that the impeller axis and teeth are vertical in the working position, and the blades have a circular cross-section, are made of spring steel and are located horizontally.

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