RU2062003C1 - Soil tillage tool - Google Patents

Abstract

FIELD: agricultural equipment. SUBSTANCE: tillage tool is formed as hand-operated rotary tiller with frame, drive mounted on frame, supporting wheel, loosening working tool and row forming device positioned behind loosening device. Row forming device has wedge-shaped plate with beveled wedge corner. Wedge-shaped plate is oriented perpendicular to the direction of movement of rotary tiller. Wedge shear line is disposed at the level of lower cutting edge of loosening device blades. EFFECT: wider operational capabilities, simplified construction and enhanced reliability in operation. 2 cl, 6 dwg

Description

 The invention relates to agricultural machinery, namely to manual means for cultivating the soil and forming ridges for planting tuber crops in small areas.

 Known electric cultivator EK-1500, containing a frame mounted on it an electric drive with a cable and working bodies, control handles and a support wheel (Catalog "Means of small-scale mechanization in crop production and animal husbandry." M: Informationgrotech, 1993, p. 32).

 In the design of the electric cultivator there is no device for forming ridges, which narrows the scope of the cultivator. A known mini-cultivator containing a frame mounted on it with a working body-propulsion device installed in front of it by a passive working body made in the form of a hiller, and a control handle, while the passive working body is mounted on the frame by means of a vertical hinge and is rigidly connected to the control handle (a. S. USSR N1653560, class A 01 B 33/02, 1988).

 The passive working body of the microculture produces only hilling of plants without preliminary loosening of the soil, which reduces the quality of processing.

 The closest analogue of the claimed device is an electrophoresis containing a drive mounted on a frame, a support wheel, a working tool and a comb forming device installed behind it, made in the form of two plates connected at an obtuse angle, mounted obliquely to the field level in the direction of movement of the tillage mill (Halimulin P .M. Homemade inventory for a personal plot. M: Kolos, 1992, p. 5).

 At present, the high-yielding technology for growing potatoes proposed by the Dutch firms Cebeco and Agrico is becoming more widespread (see the journal "Tractors and agricultural machines, 1991, N6, p. 5).

 The specified technology provides for the formation of furrows with a high-volume crest. Electrophoresis selected as the closest analogue does not allow to obtain a furrow with a high-volume crest (330 x 700 mm).

 In addition, the aforementioned electrophoresis cannot be used to obtain furrows with a one-sided blade intended for applying organic fertilizers (manure) to the soil or forming beds.

 The claimed invention is aimed at expanding the technological capabilities of the device.

 The solution to this problem is achieved by the fact that in a manual tillage mill containing a drive mounted on a frame, a support wheel, a working tool and a device for forming a furrow mounted behind it, the latter is made in the form of a wedge-shaped plate with a cut wedge angle installed perpendicular to the direction of movement of the cutter, with this cut line of the angle of the wedge is located at the same level with the lower cutting edge of the knives of the working tool, and perpendicular to the wedge-shaped plate in the direction of movement of the cutter anovlena adjacent thereto a flat sidewall.

 The implementation of the device for forming a furrow in the form of a wedge-shaped plate with a cut wedge angle installed perpendicular to the direction of movement of the cutter, and the location of the cut line of the wedge angle at the same level with the lower cutting edge of the working tool allows to obtain a furrow with a high-volume crest, i.e. increase potato yields.

 Installed perpendicular to the wedge-shaped plate in the direction of the cutter movement, the adjoining flat side wall makes it possible to obtain furrows with a one-sided blade, using the inventive tillage cutter, intended for fertilizing and forming beds, i.e. allows you to expand the technological capabilities of the cutter.

 In FIG. 1 schematically shows the inventive tillage cutter, side view; FIG. 2 scheme of tillage, top view; FIG. 3 view A of FIG. 1; FIG. 4 claimed tillage cutter with side stand; FIG. 5 scheme of tillage by a milling cutter with a side wall, top view; FIG. 6 view B of FIG. 4.

 A manual tillage cutter contains a frame 1, a control handle 2 mounted on it, a support wheel 3 and a drive 4, on the vertical shaft of which a working tool 5 with knives 6 is fixed. Behind the working tool 5, a wedge-shaped plate 7 is formed for forming a furrow, perpendicular to the direction of movement of the cutter. The configuration of the wedge-shaped plate is determined by the required furrow geometry. The lower horizontal edge of the wedge-shaped plate 7 is located at the same level with the lower cutting edge of the knives 6.

 In the variant for applying fertilizers, the inventive cutter also contains a side wall 8 attached to the wedge-shaped plate 7 perpendicular to the latter and directed towards the movement of the cutter.

 The wedge-shaped plate 7 and the side wall 8 can be made curved concentrically to the circumference described by the cutting edges of the knives 6.

 Manual tillage mill works as follows.

The operator moves the cutter in the transport position for the control handle 2 on the support wheel 3, while the working tool 5 and the wedge-shaped plate 7 are raised above ground level,
On the garden, the operator turns on the drive 4 and, raising the control handle 2, deepens the knives 6 of the working tool 5 into the soil. Moving back, the operator leads a tillage cutter for the control handle 2. Knives 6 of the working tool 5, rotating, loosen the soil and give its small particles a rotational movement in the formed hole. Under the action of centrifugal forces, these small particles are thrown to the walls of the hole, being in suspension, rise up and, rising above the surface of the field, are thrown outside the circle of rotation of the knives 6. Since the wedge-shaped plate 7 prevents the movement of soil particles by centrifugal forces outside the circle in sector, overlapped by a wedge-shaped plate 7, the soil is transferred, sliding along it, and is ejected onto the field surface on both sides of the tool 5, while the edges are formed from loosened mly. The wedge-shaped plate 7 forms a groove in the ground, the profile of which corresponds to the profile of the plate 7. Thus, a groove with a high-volume ridge is formed.

 When working with a tillage mill equipped with a side wall 8, the processes of furrow formation occur in the same way. Since the side wall 8 prevents the movement of soil particles, a groove with a one-sided blade is formed.

 The plate 7, the lower edge of which is installed at the level of the lower cutting edge of the knives 6, limits their deepening into the soil after reaching the bottom edge of the furrow bottom. This provides a stable furrow depth and reduces physical stress on the operator.

 The enterprise made prototypes of a manual tillage mill and tested them. Tests have shown that using the inventive cutters, you can get high-volume ridges with a size of 330 x 700 mm, necessary for growing potatoes using advanced technology from Dutch firms Cebeco and Agrico.

 The use of a tillage mill, equipped with a side wall 8, allows you to plow fertilizers and form beds. YYY2 YYY4

Claims (2)

 1. A tillage implement containing a frame, a control handle and a support wheel mounted in its front part, as well as a milling tool mounted sequentially behind the wheel with its drive in rotation and an earthing tool, characterized in that the earthing tool is arranged perpendicularly the direction of movement of the guns of the wedge-shaped plate with the cut-off angle of the wedge, and the milling working body has a vertical axis of rotation, while the cut-off line of the angle of the wedge is at the same level as izhney cutting edge milling cutters working body.  2. The gun under item 1, characterized in that perpendicular to the wedge-shaped plate mounted adjacent to it is a flat side wall located parallel to the direction of movement of the gun.

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