RU168829U1 - TILLING WORKING BODY - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to tools designed for anti-erosion tillage on slope areas.

The objective of this utility model is to simplify the design of the tillage working tool while optimizing moisture retention by increasing the volume of holes formed on the surface of the field.

The problem is achieved due to the fact that the soil cultivating working body containing impellers with hubs bearing blades, the blades are made in the form of two half-disks placed vertically and at an angle α = 55-60 ° to the axis of rotation of the hub, which is mounted on a shaft located in the bearing assembly horizontally and perpendicular to the planned direction of movement of the gun. Moreover, the half-disks are fixed on the hub in such a way that their points concentric with the curved surface of each half-disc lie on the axis of rotation of the hub, and the half-disks themselves are displaced relative to each other by 180 ° around the axis of rotation of the hub, so that the planes of the half-disks are located at an angle to each other β≤60-70 °, while two impellers are mounted on the shaft, located symmetrically with respect to the longitudinally vertical plane passing through the longitudinal central axis of the tillage working body.

Description

The utility model relates to agricultural engineering, in particular to tools designed for anti-erosion tillage on slope areas.

A device is known for anti-erosion tillage, comprising a frame with a support wheel, subsoilers connected both in pairs and with the implement frame installed in a plane transverse to the implement stroke, and a hydraulic mechanism for imparting vibrations to the subsoilers in the transverse direction, the power element of which is made in the form of a hydraulic cylinder (ed. certificate of the USSR N 1440362, class AB01B 13/16, 1988 (analogue)).

The disadvantage of this device is the structural complexity and low technological reliability.

Closest to the proposed technical device is a rotary tillage working body containing an impeller with a hub bearing a blade located on an inclined axis mounted with the possibility of changing its angle of inclination to the longitudinal axis of the unit, and the blades are fixed with a fixed rotation around their longitudinal axes ( prototype - certificate for utility model No. 12498, IPC АВВ 35/16, publ. 2000).

The disadvantage of the described device is also the complexity of the design and the small volume of the holes formed on the surface of the field, which reduces the efficiency of the retention of runoff water.

The objective of this utility model is to simplify the design of the tillage working tool while optimizing moisture retention by increasing the volume of holes formed on the surface of the field.

The problem is achieved due to the fact that the soil cultivating working body containing impellers with hubs bearing blades, the blades are made in the form of two half-disks placed vertically and at an angle α = 55-60 ° to the axis of rotation of the hub, which is mounted on a shaft located in the bearing assembly horizontally and perpendicular to the planned direction of movement of the gun. Moreover, the half-disks are fixed on the hub in such a way that their points concentric with the curved surface of each half-disc lie on the axis of rotation of the hub, and the half-disks themselves are displaced relative to each other by 180 ° around the axis of rotation of the hub, so that the planes of the half-disks are located at an angle to each other β≤60-70 °, while two impellers are mounted on the shaft, located symmetrically with respect to the longitudinally vertical plane passing through the longitudinal central axis of the tillage working body.

In FIG. 1 shows the proposed tillage working body; in FIG. 2 - the impeller of the tillage working body; in FIG. 3 is a diagram of a tillage working body, top view; in FIG. 4 is a diagram of a tillage working body, side view.

Tillage working body (Fig. 1) contains a shaft 1 mounted horizontally perpendicular to the planned direction of movement of the implement (Fig. 2) in the bearing assembly 2, on which are symmetrically relative to the longitudinal-vertical plane passing through the longitudinal central axis of the tillage working body two impellers 3 (Figs. 1 and 2). Each impeller 3 contains a hub 4 (Fig. 3), on which two blades 5 are mounted, made in the form of half-disks placed vertically and at an angle α = 55-60 ° to the axis of rotation of the hub 4. Moreover, the blades 5 are mounted on the hub 4 in this way that points A, concentric with the curved surface of each half-disk, lie on the axis of rotation of the hub 4 (Fig. 4), and the blades 5 are shifted relative to each other by 180 ° about the axis of rotation of the hub 4, so that the planes of the half-disks are located under each other under angle β≤60-70 °.

Tillage working body operates as follows.

When the gun moves along the field of the impeller 3 will rotate due to the adhesion of the blades 5 with the soil, while the blades 5 will form on the surface of the field the dimples are variable in the direction of movement of the guns of shape and variable depth. Moreover, since the maximum angle β / 2 of the installation of each blade 5 to the direction of movement of the implement is less than the angle of friction of the surface of the half-disk against the soil ϕ = 30-35 °, the probability of inhibited movement of the impeller 3 is reduced. This will reduce the longitudinal size of the formed holes. At the same time, the maximum approximation of the angle β / 2 to the value of the angle of friction of the surface of the half-disk against the soil ϕ, provides the maximum mutual transverse displacement l _{max of the} outer cutting edges of each blade 5, which allows to increase the transverse size of the formed hole. Moreover, the use of two blades 5 in the design of each impeller 3 will not only increase the transverse size of the formed hole, but also provide the maximum thickness of the uncultivated soil between the formed holes, and the specified position of the blades 5 relative to the axes of the hub 4 will reliably connect the half-discs with the hub 3. the pairs of impellers 3 symmetrically mounted on the shaft 1, will compensate for the lateral component of the forces acting on the working body from the side of the soil and ensure its stable straight -linear movement.

The proposed device can be used as an additional tillage working tool in the design of row cultivators for the formation of an erosion relief of the field surface between rows of crops of row crops.

Claims (1)

Tillage working body containing an impeller with a hub, bearing blades, characterized in that the blades are made in the form of two half-disks placed vertically and at an angle α = 55-60 ° to the axis of rotation of the hub, which is mounted on a shaft located horizontally in the bearing unit and perpendicular to the planned direction of movement of the gun, and the half-disks are fixed on the hub so that their points concentric with the curved surface of each half-disc lie on the axis of rotation of the hub, and the half-disks themselves are shifted about relative to each other by 180 ° around the axis of rotation of the hub so that the planes of the half-disks are located to each other at an angle β≤60-70 °, while two impellers are mounted on the shaft, located symmetrically with respect to the longitudinally vertical plane passing through the longitudinal central axis tillage working body.

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