RU218025U1 - The working body of the cultivator for continuous tillage - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to tillage tools, namely cultivators for continuous tillage. The working body of the cultivator for continuous tillage includes a C-shaped rack with a share, a bracket and a spring-screw mechanism. The paw is formed by a chisel, the cutting edge of which is made according to the shape of a circle involute curve, as well as a flat-cutting paw in the form of an isosceles trapezoid mounted behind the chisel on a C-shaped stand, on which the right and left flat-cutting knives are fixed. The flat-cutting knives are fixed at a flat-cutting share opening angle ranging from 55 to 75 degrees, and have a crumbling angle ranging from 10 to 18 degrees, and a knife sharpening angle ranging from 15 to 20 degrees. Two vertical gussets are rigidly fixed on the working surface of the flat-cutting paw, ensuring its fastening to the C-shaped rack by means of two bolted connections, and the right and left flat-cutting knives are fixed to the flat-cutting paw by means of three rivets for each of the knives. The achieved technical result consists in increasing the service characteristics of the paw, namely, increasing its service life by improving the shape of the cutting edge of the bit and replaceable right and left flat-cutting knives on the flat-cutting paw while maintaining the quality of loosening the soil.

Description

The utility model relates to the field of agricultural engineering, in particular to tillage tools, namely cultivators for continuous tillage.

Known working body tillage tools, containing a rack with a paw, pivotally mounted on the frame using the front and rear brackets connected by a cylindrical spring, equipped with a swinging U-shaped support, a guide link, a screw adjustment mechanism and an emphasis, while the guide link is made telescopic, rear the bracket contains a box-type element elongated forward, carrying the front part of the rack and fixed on the axis of the rack lifting-rotation, and the stop is rigidly mounted on the front bracket above the mentioned axis and shifted back from the line connecting the hinge axes of the front bracket (Patent RU 2153788 C1; IPC A 01В 35/24; published on 10.08.2000, Bulletin No. 22).

The disadvantage of this working body is the inability to replace individual structural elements of the paw when it is worn due to its integrity, leading to low versatility, functionality and reliability.

The closest analogue of the utility model is the working body of a soil-cultivating tool, containing an arc-shaped stand with a paw, a bracket fixed on the frame, a spring-screw mechanism and an emphasis, and in the lower part, a suspension lever is hinged to the bracket, the front part of which is pivotally connected to the lower part of the spring-screw mechanism, and an arcuate rack is fixed in the rear part, on the front part of which a circular section fairing is fixed, while the upper part of the spring-screw mechanism is attached to the upper part of the bracket, and the stop is fixed on the lower front part of the bracket, while the spring-screw mechanism contains no less than two springs of adjustable stiffness, and the paw is formed by various combinations of a chisel, a body with a right and left blade, a blade, which are removable (patent RU 2649331 C1; IPC A 01B 35/22, A01B 39/22, A01B 61/04; publ. 04/02/2018, bulletin No. 10).

The disadvantages of the described working body of the tillage tool include the fact that when loosening the soil, the body with the right and left blades bends in the areas of attachment to the arcuate rack, which leads to uneven processing depth, while due to the resulting fatigue stresses, microcracks can form in the bending area of the body, especially when processing heavy soils, which can lead to breakages, loss of blades and, as a result, a complete replacement of the body. In addition, when significant wear is achieved, the body with the right and left blades is also completely replaced, which leads to a decrease in the service characteristics of the paw, namely, a decrease in its service life.

The task to be solved by the claimed utility model is to eliminate the above disadvantages and provide the possibility of improving the service characteristics of the paw, namely, increasing its service life by improving the shape of the cutting edge of the bit and replaceable right and left flat-cutting knives on the flat-cutting paw while maintaining the quality of loosening the soil .

The technical result of the utility model is to increase the service characteristics of the paw while maintaining the quality of loosening the soil.

The specified technical result in the implementation of the utility model is achieved by the fact that in the working body of the cultivator for continuous tillage, including a C-shaped stand with a paw, a bracket and a spring-screw mechanism, according to the utility model, the paw is formed by a chisel, the cutting edge of which is made in the form of an involute curve circle, as well as mounted behind the chisel on a C-shaped stand with a flat-cutting paw in the form of an isosceles trapezoid, on which the right and left flat-cutting knives are fixed. In this case, the flat-cutting knives are fixed at the opening angle of the flat-cutting paw, which is in the range from 55 to 75 degrees, and have a crumbling angle, which is in the range from 10 to 18 degrees, and a sharpening angle of the knives, which is in the range from 15 to 20 degrees. Two vertical gussets are rigidly fixed on the working surface of the flat-cutting paw, ensuring its fastening to the C-shaped rack by means of two bolted connections, and the right and left flat-cutting knives are fixed to the flat-cutting paw by means of three rivets for each of the knives.

Between the set of essential features of the utility model and the achieved technical result, there is the following causal relationship.

The cutting edge of the share bit is made according to the shape of a circle involute curve, which leads to a decrease in the coefficient of friction of the soil on the metal, which ensures the uniformity of the stroke along the working depth and the decrease in the frontal resistance of the bit during its introduction with subsequent loosening of the soil, and as a result, an increase in the resource of the bit.

Behind the bit on a C-shaped post, a flat-cutting paw is mounted in the form of an isosceles trapezoid by means of two bolted joints and two scarves rigidly fixed on the working surface of the flat-cutting paw, on which the right and left flat-cutting knives are also fixed by means of three rivets on each of the knives, which ensures that there is no bending moments of knives on the working surface of the flat-cutting paw, thus forming a uniform depth of processing. In the course of its operation, with significant wear on the working surface of the flat-cutting paw, only the right and left flat-cutting knives are completely replaced by means of three rivets on each of the knives, which leads to an increase in the service characteristics of the entire paw, namely, an increase in its service life.

The right and left flat-cutting knives are fixed at the angle of the flat-cutting paw opening, which is in the range from 55 to 75 degrees, which ensures their high-quality work without sticking the soil and sliding along the knives of various weeds.

The right and left flat-cutting knives have a crumbling angle ranging from 10 to 18 degrees, and a blade sharpening angle ranging from 15 to 20 degrees, which ensures a high-quality flat-cutting degree of loosening of the soil produced by the flat-cutting share.

The utility model is illustrated by drawings.

In FIG. 1 shows a general view of the working body of a cultivator for continuous tillage.

In FIG. 2 - flat-cutting paw in the form of an isosceles trapezoid, bottom view.

In FIG. 3 - flat-cutting paw in the form of an isosceles trapezoid, top view.

The working body of the cultivator for continuous tillage contains a C-shaped rack 1 with a paw, a bracket 2 and a spring-screw mechanism 3 (figure 1). The paw is formed by a chisel 4, the cutting edge 5 of which is made in the form of an involute curve of a circle k(s) , while behind the chisel 4 on a C-shaped rack 1 a flat-cutting paw 6 is mounted in the form of an isosceles trapezoid (figure 2). On the working surface 9 of the flat-cutting paw 6, two vertical scarves 8 are rigidly fixed, ensuring its fastening to the C-shaped rack 1 by means of two bolted connections 7. In addition, on the working surface 9 of the flat-cutting paw 6, the right 10 and left 11 flat-cutting knives are fixed by means of three rivets 12 for each of the knives (figure 3). The flat-cutting knives 10 and 11 are fixed at an opening angle 2γ of the flat-cutting foot 6, which is in the range from 55 to 75 degrees, and has a crumbling angle β, which is in the range from 10 to 18 degrees, and a sharpening angle of the knives i , which is in the range from 15 to 18 degrees. 20 degrees.

The working body of the cultivator for continuous tillage works as follows. When the working body of the cultivator moves, the chisel 4, the cutting edge 5 of which is made in the form of a curve of the involute of a circle k(s) , leading to a decrease in the coefficient of friction of the soil against the metal, ensures uniformity of the stroke along the working depth and a decrease in the frontal resistance of the chisel during its implementation with subsequent loosening of the soil . At the same time, the right 10 and left 11 flat-cutting knives, rigidly fixed by means of rivets 12 on the flat-cutting paw 6, form a uniform depth of processing due to the absence of bending moments of the knives on the working surface 9 of the flat-cutting paw 6. In the process of loosening the soil, the right 10 and left 11 flat-cutting knives, fixed at the opening angle of the flat cutting paw 2γ, which is in the range from 55 to 75 degrees, perform high-quality work without sticking the soil and sliding along the knives of various weeds. In the process of loosening the soil, the right 10 and left 11 flat-cutting knives, having a crumbling angle β in the range from 10 to 18 degrees, and a sharpening angle of the knives i in the range from 15 to 20 degrees, create a high-quality flat-cutting degree of loosening produced by the flat-cutting paw 6 soil. If significant wear occurs on the working surface 9 of the flat-cutting paw 6, only the right 10 and (or) left 11 flat-cutting knives are completely replaced by means of three rivets 12 on each of the knives, which leads to an increase in the service characteristics of the entire paw 6, namely, an increase in its service life .

The use of the proposed working body of the cultivator for continuous tillage will improve the service characteristics of the paw and maintain the quality of loosening the soil.

Claims (5)

1. The working body of a cultivator for continuous tillage, including a C-shaped rack with a paw, a bracket and a spring-screw mechanism, characterized in that the paw is formed by a chisel, the cutting edge of which is made in the form of a circle involute curve, and also mounted behind the chisel on C -shaped rack with a flat-cutting paw in the form of an isosceles trapezoid, on which the right and left flat-cutting knives are fixed. 2. The working body of the cultivator for continuous tillage according to claim 1, characterized in that the right and left flat-cutting knives are fixed at an opening angle of the flat-cutting paw, which is in the range from 55 to 75 degrees. 3. The working body of the cultivator for continuous tillage according to claim 1, characterized in that the right and left flat-cutting knives have a crumbling angle in the range from 10 to 18 degrees, and a knife sharpening angle in the range from 15 to 20 degrees. 4. The working body of the cultivator for continuous tillage according to claim 1, characterized in that two vertical scarves are rigidly fixed on the working surface of the flat-cutting paw, ensuring its fastening to the C-shaped rack by means of two bolted connections. 5. The working body of the cultivator for continuous tillage according to claim 1, characterized in that the right and left flat-cutting knives are fixed on the flat-cutting paw by means of three rivets for each of the knives.

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