UA81033C2 - Working element of cultivator - Google Patents

Abstract

A working element of a cultivator comprises a C-like stilt which is reinforced by resilient springs, arranged on rear side thereof, and a blade made of three parts connected to an auxiliary stilt, in particular of a chisel with a spherical conic front part and two symmetrical wings with stepped edges on the both sides. Each step of the cutting edge is a right-angled triangle with a ratio of the length of a larger right angle side and a lesser one as 2:1.

Description

Description of the invention

The invention belongs to agricultural engineering, in particular, to working bodies for tillage 2 soil.

The closest in terms of technical essence to the proposed technical solution is the chosen closest analogue "Working body of the cultivator" | patent of Ukraine for invention 52733, IPC" AO1835/221, which contains

C-shaped rack, which is strengthened by elastic plates located on its back side, and a paw with straight blades of one-sided sharpening. The features of the closest analogue, which coincide with the 70 essential features of the invention, are the presence in the working body of the cultivator of a C-shaped rack, which is reinforced by elastic plates located on its back side, and paws with straight blades of one-sided sharpening. The design of the closest analogue provides oscillations of the paw, which occur due to the variable resistance force of the soil during its cultivation, which helps to reduce the traction resistance and increase the quality of soil cultivation. t The disadvantage of the known working body of the cultivator is that its design is short-lived and unreliable, since the blades are sharpened on one side, and the paw does not have a replaceable chisel, and when the blades and toe of the paw are worn, the paw must be removed and sharpened, which is impossible in field conditions, and it is often necessary to pull back the cutting edge in the workshop, which leads to downtime of the tillage unit. In addition, smooth blades do not cause micro-oscillations of the paw wings, which does not contribute to self-cleaning of the blades and additional loosening of the soil, as well as the quality of cutting the soil layer. This only happens when the blades have a sharp cutting edge in the early days of the unit after sharpening the claws, as it is well known that cutting with smooth blades in hard materials such as wood or soil requires a much sharper cutting edge compared to step cutting (compare knife and saws).

The basis of this invention is the technical task of improving the design of the working body of the 29th cultivator with the achievement of a technical result - improving the quality of loosening the soil, improving cutting of parts of the soil and weed roots, increasing the durability and reliability of the paw wings in field conditions, additional reduction of traction resistance of the working body thanks to the micro-oscillations of the wings of the paw, increasing the stability of the gait of the paw in the ground.

The task set by the invention is solved by the fact that the working body of the cultivator, which contains a C-shaped o rack, which is reinforced by elastic plates located on its back side, and a leg, according to the invention, the leg "U" is made of three parts connected to an auxiliary rack - a chisel with a spherical conical front part and two symmetrically designed wings with stepped edges on both sides, while each step of the cutting edge is a right triangle with a ratio of the length of the larger and smaller legs as 2:1. "-

The set of the above essential features is necessary and sufficient to fulfill the technical task set as the basis of the invention with the achievement of the technical result - improving the quality of loosening the soil, increasing the reliability of the technological process of cutting parts of the soil and weed roots, increasing the durability and reliability of the paw wings in the field conditions, an additional reduction of the traction resistance of the working body due to micro-oscillations of the wings of the paw, an increase in the stability of the movement of the paw in the ground. " and Fig. 1. the working body is shown schematically (side view), in Fig. 2 - the paw of the working body (top view), - in Fig. 3 - the degree of the edge of the wing of the paw. c The working body of the cultivator consists of a frame 1, a C-shaped rack 2 and reinforcing elastic plates 3, which are connected to the frame with clamps. The paw of the working body is made of three parts connected to the auxiliary stand: a chisel 5 with a spherical conical front part and two symmetrically designed wings 6, 7 with stepped cutting edges 8, 9 on both sides, while each step of the cutting edge is a so 395 right triangle with the ratio of the length of the larger 10 and smaller 11 legs as 2-1.

The working body of the cultivator works as follows. - When working the soil, first of all, the bit 5 is deepened, which wedges the soil with its toe, and behind it, the wings 6, 7 of the paw of the working body are successively deepened. At the same time, parts of the soil when they are cut are displaced both across the cutting edge of the wings 8 b, 7, and along it, due to the fact that the wings 6, 7 (95) 50 are located at an angle to the direction of movement of the unit. Thus, parts of the soil gradually move from the larger leg 10 of the triangle of the cutting edge 8 to the smaller leg 11, while there is a change in the resistance force of the soil, because suddenly a part of the soil jumps to the second step of the paw blade (comparison when the ball rolls on a stepped gyrus) and thanks to this, there are micro-impacts of the blade steps on parts of the soil, which additionally loosen parts of the soil and excite micro-oscillations of the wings of the paw, which additionally reduces the traction resistance of the working body. The stepped shape of the wings 6, 7 legs allows to increase the reliability of the technological process

GF) cutting parts of the soil due to micro-shocks and micro-oscillations of the blades 8, 9 of the wings in comparison with smooth t blades, which contributes to increasing the long-term operation of the wing blades while reducing the sharpness of the cutting edge of the paw during operation. The spherical conical shape of the bit 5 contributes to a better deepening of the paw into the soil and the opening of the soil in the city of the embedment of the bit, which increases the stability of the movement of the paw along the depth of cultivation. Because the symmetrical shape of the wings 6, 7 and the sharpening of their cutting edges 8, 9 on both sides allows you to quickly change the cutting sides of the wings 6, 7 to opposite ones when they are blunted in the field, which increases the productivity of the unit and increases the long-term operation of the working body as a whole.

Thus, the proposed working body of the cultivator ensures an increase in the quality of loosening the soil and the reliability of the technological process of cutting parts of the soil, an increase in the long-term operation of the paws in field conditions and an additional reduction in traction resistance and an increase in the stability of the paw movement in the soil along the depth.

which in general increases the quality of soil cultivation and reduces the costs of the production process.

Claims (1)

The formula of the invention The working body of the cultivator, which contains a C-shaped rack, which is reinforced by elastic plates located on its rear side, and a paw, which is distinguished by the fact that the paw is made of three parts connected to an auxiliary rack - a chisel with a spherical conical front part and two symmetrically designed wings with 70 stepped edges on both sides, while each step of the cutting edge is a right triangle with the ratio of the length of the larger and smaller legs as 2:1. with what c) Ge) Ge) (ав) "- с - with . a (ee) - (av) (95) syu ko bo b5