RU2249323C1 - Goose-foot share - Google Patents

Abstract

FIELD: agricultural engineering, in particular, design of working tools for cultivators and other tillage machines.

SUBSTANCE: goose-foot share has tine and sharpened A-shaped tip composed of two wings pivotally connected with one another and with wing tines. For connecting wings to tine, the latter is provided with cavity arranged in its lower part and adapted for receiving of wing eyelets and is further provided with part for attachment of eyelets to tine. Curvilinear covers with stop are rigidly fixed to rear part of wings. Also, mechanism for adjustment of wing aperture angle is located inside wing cover cavities.

EFFECT: wider operational capabilities of share due to possibility of adjustment of share aperture angle and convenient maintenance owing to simplified replacement of one or two blunt wings.

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Description

The invention relates to agricultural machinery and can be used to create cultivating working bodies.

Universal lancet paws for cultivators are known, described in the book by A. N. Karpenko and V. M. Khalansky "Agricultural Machines", M., VO "Agropromizdat", 1989, pp. 158-160.

However, the significant drawbacks of such paws is that when sharpening dull paws, they must be removed and replaced with sharpened ones, which takes a lot of time. In addition, if you need to change the angle at the top of the paws (changing the conditions of its work), you need another set of paws.

The technical result is an extension of functionality and ease of maintenance.

This is achieved by the fact that in a lancet paw containing a strut and an arrow-shaped tip made of two wings pivotally connected to the strut, and a mechanism for changing the angle of the paw solution, the wings are pivotally connected to each other, and in the lower strut there is a cavity for the eyes on the wings and the details of their fastening to the rack, while at the rear, both wings have rigidly fixed curvilinear covers that are overlapped with a groove made on their edge perpendicular to the direction of movement to accommodate the stopper, and the fur The bottom for adjusting the angle of the wing solution is located inside the covers.

Figure 1 shows a paw, front view; figure 2 is a view a in figure 1, showing the location of the back cover of the removable wings and the mechanism for adjusting the angle of the solution of the wings; figure 3 is a view of B in figure 1.

On the rack 1 in the lower part there is a cavity for installing and fixing the eyes of the removable wings 2 and 3. Behind the rack 1, on the same wings 2 and 3, curved covers 4 and 5 are rigidly attached, which are pulled together by a screw mechanism 6, with which change the angle of the wings 2 and 3.

Wings 2 and 3 form an arrow-shaped tip. The wings 2 and 3 are pivotally connected to the rack 1 and to each other. The wings are fixed to the rack with a bolt 7. The covers 4 and 5 are lapped together and have a groove made on their edge perpendicular to the direction of movement to accommodate the stopper 8. The wing angle adjustment mechanism 6 is placed inside the covers 4 and 5.

Paw works as follows.

When the unit moves in the direction of sharpening the paws, the soil loosens and the weeds are cut with sharpened blades 2 and 3. If, according to the working conditions, it is necessary to change the central angle (between wings 2 and 3), it is enough to loosen the bolt 7 and the stopper 8 and the screw mechanism 6 to change the angle between wings 2 and 3, and then, tightening both bolts, you can continue to work. Covers 4 and 5 exclude the ingress of soil into the mechanism 6 for changing the angle between wings 2 and 3.

Thus, the proposed paws have increased functionality - you can adjust the angle of the wings or change the dull, if necessary.

Claims (1)

An arrow leg containing a rack and an arrow-shaped tip made of two wings pivotally connected to the rack, and a mechanism for changing the angle of the paw solution, characterized in that the wings are pivotally connected to each other, and a cavity is provided for the lugs and parts on the wings from the bottom. their fastenings to the stoic, while behind both wings curvilinear covers are rigidly fixed, interconnected with an overlap made on their edge perpendicular to the direction of movement of the groove to place the stopper in it, and the mechanism m regulation of the angle of the wings is located inside the covers.

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