RU216159U1 - Soil cultivator to the cultivator for strip technology - Google Patents

Abstract

The utility model relates to agricultural engineering, mainly to soil-cultivating implements, in particular for rolling and leveling the soil surface with strip tillage technology. The device contains a hollow cylinder with ribs in the form of cylindrical bars. Inside the hollow cylinder, by means of holders, an inner cylinder is installed in the form of a battery with rigidly mounted disks with a pitch of 25 ... 100 mm on the axis, made with the possibility of forced rotation from the axis of the hollow cylinder. In the hollow cylinder, an additional battery of discs with a diameter equal to 0.8 ... 0.9 of the distance from the axis of the hollow cylinder to the axis of the inner cylinder is installed. The axis of the additional battery is tilted back in the direction of travel in such a way that the discs of the additional battery are located in the middle of the inter-disk space of the inner cylinder with the possibility of forced rotation of the axis of the hollow cylinder with a rotation speed different from the rotation frequency of the axis of the inner cylinder. The holders are made in the form of triangular plates with three seats for bearing supports for the axes of the hollow cylinder, the inner cylinder and the additional battery of disks.

Description

The utility model relates to agricultural engineering, mainly to soil-cultivating tools, in particular for rolling and leveling the soil surface with strip tillage technology.

As a prototype, a soil-cultivating roller for a cultivator for strip technology (patent No. 207796 RU, A01B 29/04, publ. 11.10.2021, bull. No. 29) was chosen, containing a hollow cylinder with ribs in the form of planks evenly spaced between vertical discs, and an inner cylinder mounted on holders with an axis parallel to the axis of the hollow cylinder, characterized in that on the fixed axis inside the hollow cylinder, the inner cylinder is fixed on the holders in the form of a battery of disks with a pitch of 25 ... 100 mm, the working edges of the disks are installed with a gap from the inner surface ribs, the axis of the disk stack is mounted on bearings in the holders, the holders are rigidly fixed at one end to the fixed axis of the hollow cylinder, the axis of the disk stack is installed in the holders with the possibility of forced rotation from the axis of the hollow cylinder.

The disadvantage of this prototype is the clogging of soil clods interdisk space of the inner cylinder.

The technical task of the utility model is to ensure the reliability of the technological process and to prevent soil clods from clogging the inter-disc space of the inner cylinder.

The technical result is ensured by the fact that in the soil-cultivating roller for a cultivator for strip technology, containing a hollow cylinder with ribs in the form of parallel cylindrical bars, inside the hollow cylinder 1, by means of holders 3, an inner cylinder 4 is installed in the form of a battery with hard-mounted disks with a pitch of 25 ... 100 mm on the axis, made with the possibility of forced rotation from the axis of the hollow cylinder, in the hollow cylinder there is an additional battery of disks with a diameter equal to 0.8 ... 0.9 of the distance from the axis of the hollow cylinder to the axis of the inner cylinder, the axis of which is deflected back in the direction in such a way that the discs of the additional battery are located in the middle of the inter-disk space of the inner cylinder with the possibility of forced rotation of the axis of the hollow cylinder with a rotation speed different from the rotational speed of the axis of the inner cylinder, the holders are made in the form of triangular plates with three sockets for bearings upper supports for the axes of the hollow cylinder, the inner cylinder and the additional battery of discs.

In FIG. 1 shows a soil-cultivating roller for a cultivator for strip technology (rear view);

in fig. 2 - left side view.

The tillage roller for the cultivator for strip technology contains a hollow cylinder 1 with ribs 2 in the form of parallel cylindrical bars. Inside the hollow cylinder 1, by means of holders 3, an inner cylinder 4 is installed in the form of a battery with rigidly mounted disks with a pitch of 25 ... 100 mm on the axis, made with the possibility of forced rotation from the axis of the hollow cylinder 1. An additional battery of 5 disks with a diameter equal to 0.8 ... 0.9 of the distance from the axis of the hollow cylinder 1 to the axis of the inner cylinder 4. The axis of the additional battery 5 is tilted back in the direction of travel in such a way that the disks of the additional battery 5 are located in the middle of the interdisk space of the inner cylinder 4 with the possibility of forced rotation of the axis hollow cylinder 1 with a rotational speed different from the rotational speed of the axis of the inner cylinder 4. The holders 3 are made in the form of triangular-shaped plates with three sockets for bearing supports for the axes of the hollow cylinder 1, the inner cylinder 4 and the additional disk battery 5.

The working edges of the disks of the inner cylinder 4 and the additional battery 5 are installed with a gap from the inner surface of the ribs 2. The axis 6 of the additional battery of disks 5 and the axis 7 of the inner cylinder 4 are mounted on bearing supports (not shown) in the sockets on the holders 3. The holders 3 with their upper ends by means of bearing supports are fixed on the axis 8 of the hollow cylinder 1. The axis 6 of the additional battery 5 disks is installed in the holders 3 with the possibility of forced rotation from the axis 8 of the hollow cylinder 1 (conditionally shown in the form of a chain drive). Chain transmission includes drive sprocket 9 on axle 8, driven sprocket 10 on axle 6, driven sprocket 11 on axle 7 and chains 13, 14, with drive 9 and driven sprockets 10, 11 being changeable.

The tillage roller to the cultivator for strip technology works as follows.

During the rolling of the roller, each rib 2 enters the soil with its outer working surface. Through the chain 14, drive 9, driven sprockets 10, 11 from the axis 8, the axis 6 of the additional battery 5 of the disks and the axis 7 of the inner cylinder 4 are driven into rotation. the inner surface of the ribs 2. Due to the difference in the linear speeds of the disks of the additional battery 5, the inner cylinder 4 and the ribs 2, the intensification of the crumbling of soil clods is ensured.

To regulate the intensity of crumbling of soil clods, depending on the technological properties of the cultivated soil and agrotechnical requirements, it is possible to change the drive 9, 12 and/or driven 10, 11 sprockets, as well as change the distance between the disks of the additional battery 5 and the inner cylinder 4.

The use of a roller in strip tillage technology ensures the reliability of the technological process and the exclusion of soil clods clogging the inter-disc space of the inner cylinder.

Claims (1)

A soil-cultivating roller for a cultivator for strip technology, containing a hollow cylinder with ribs in the form of parallel cylindrical bars, inside the hollow cylinder, by means of holders, an inner cylinder is installed in the form of a battery with rigidly mounted disks with a pitch of 25 ... 100 mm on the axis, made with the possibility of forced rotation from axis of the hollow cylinder, characterized in that the hollow cylinder has an additional battery of discs with a diameter equal to 0.8 ... are located in the middle of the interdisc space of the inner cylinder with the possibility of forced rotation of the axis of the hollow cylinder with a rotation frequency different from the rotational speed of the axis of the inner cylinder, the holders are made in the form of triangular plates with three sockets for bearing supports for the axes of the hollow cylinder cylinder, inner cylinder and additional disk battery.

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