RU2807102C1 - Tillage roller - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to tillage rollers. The tillage roller includes a hollow cylinder 2 equipped with an axle 1 with vertical disks 3 mounted on the axle 1. Between the vertical disks 3 at an equal distance from them, an additional vertical disk 4 is rigidly mounted on the axis 1. Along the periphery of the vertical disks 3, springs 5 connecting the vertical disks 3 with an additional vertical disk 4 are axially installed evenly along the circumference. The vertical disks 3 are made with the possibility of changing their angular position relative to the axis 1 and fixing in a predetermined position. Neighbouring springs 5 are installed with the same offset in the radial direction relative to each other.

EFFECT: improved quality of soil rolling and crumbling of soil clods.

1 cl, 3 dwg

Description

The invention relates to agricultural engineering, in particular to soil cultivating rollers.

A known soil-cultivating roller [Tilling roller // RF Patent No. 121418. - Publ. 10/27/2012, Bulletin. No. 30], including a hollow cylinder with ribs evenly spaced around the circumference. The ribs are installed along a helical line connecting the vertical disks. Inside the hollow cylinder there is a smooth cylinder, the diameter of which is less than the radius of the hollow cylinder. The smooth cylinder is equipped with an axis mounted in bearings on leads on the axis of the hollow cylinder.

The disadvantage of the tillage roller is the insufficient quality of soil compaction and crumbling of soil lumps.

The technical result is improved quality of soil compaction and crumbling of soil lumps.

The technical result is achieved by installing an additional vertical disk rigidly on the axis between the vertical disks at an equal distance from them. Along the periphery of the vertical disks, springs connecting the vertical disks with the additional vertical disk are installed axially evenly around the circumference. Vertical disks are made with the ability to change their angular position relative to the axis and fix them in a given position. Adjacent springs are installed with the same displacement in the radial direction relative to each other.

In fig. Fig. 1 shows a general view of the soil-cultivating roller, Fig. 2 shows the same, section along A. - A, Fig. 3 - extension element A (enlarged).

The tillage roller is made in the form of a hollow cylinder 2 equipped with an axis 1, with vertical disks 3 installed on the axis 1. Between the vertical disks 3 at an equal distance from them, an additional vertical disk 4 is rigidly installed on the axis 1. Along the periphery of the vertical disks 3 are axially mounted evenly around the circumference connecting the vertical disks 3 with the additional vertical disk 4 of the spring 5. The vertical disks 3 are made with the ability to change their angular position relative to the axis 1 and fix them in a given position. Adjustment of the angular position of the vertical disks 3 is ensured, for example, by rotating them relative to the axis 1 and fixing it in a given position by screwing the screw 6 into the ring 7 connected to the vertical disk 3 and fixing it in the grooves 8 made on the axis 1. Adjacent springs 5 installed with the same offset in the radial direction relative to each other.

The tillage roller operates as follows. The axis 1 of the hollow cylinder 2 is connected to the coupling of the tillage unit. Previously, taking into account the type of soil and its physical and mechanical state, the angular position of the vertical disks 3 relative to axis 1 is changed. In this case, the left and right vertical disks are shifted in the same direction at the same angle relative to the additional vertical disk 4. This ensures the required tension of the springs 5 and their installation at a certain angle of inclination to the guide of the hollow cylinder 2. When the soil-cultivating roller moves, the hollow cylinder 2 with the springs 5 connecting the vertical disks 3 with the additional vertical disk 4, which are installed on the periphery of the vertical disks 3 axially and evenly around the circumference, rolls along the soil surface. Lumps of soil lying on the surface are destroyed by coils of springs 5. Springs 5, in contact with the soil, copy the topography of the field and destroy lumps of soil to agrotechnically specified sizes.

When changing the angular position of the vertical disks 3 relative to the axis 1, the tension of the springs 5 increases, which is necessary when working on heavier soils. In this case, springs 5 copy the relief to a lesser extent, but destroy soil lumps more intensively. In addition, installing the springs 5 at an angle to the guide of the hollow cylinder 2 increases the smoothness of the soil-cultivating roller by reducing the shock load when the springs 5 enter the soil and increasing the pitch of the turns when the angular displacement of the vertical disks 3 relative to each other, which improves the quality of soil compaction. In this case, the tillage roller maintains a straight trajectory of movement, and springs 5 leave V-shaped marks on the surface of the field. Installation of adjacent springs with the same displacement in the radial direction relative to each other creates a variable force effect on the field surface, allowing not only to increase the efficiency of crushing soil clods, but also ensures heterogeneity of soil density that does not exceed the limits of agricultural requirements, which is especially important when rolling winter crops. .

Consequently, rigid installation on the axis between the vertical disks at an equal distance from them of an additional vertical disk, installation along the periphery of the vertical disks evenly along the circumference of springs axially connecting the vertical disks with the additional vertical disk, making vertical disks with the possibility of changing their angular position relative to the axis and fixing them in in a given position, as well as installing adjacent springs with the same displacement in the radial direction relative to each other improves the quality of soil compaction and crumbling of soil lumps.

Claims (1)

A soil-cultivating roller comprising a hollow cylinder equipped with an axle with vertical disks installed on the axis, characterized in that between the vertical disks at an equal distance from them, an additional vertical disk is rigidly mounted on the axis; along the periphery of the vertical disks, connecting vertical disks with the additional vertical disk are axially installed evenly around the circumference spring disk, the vertical disks are made with the ability to change their angular position relative to the axis and fix in a given position, and adjacent springs are installed with the same displacement in the radial direction relative to each other.