RU2070367C1 - Working tool of cultivator - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: working tool has a standard with a working edge and a back wall. A flat duckfoot sweep is hinged to the back wall. The sweep has a front cutting edge. Wings of the sweep have stiffening ribs. The stiffening ribs are die-stamped closed U-shaped local bulges. The stiffening ribs are arranged parallel with the cutting edges and back facets of the sweep wings. EFFECT: higher tillage quality. 2 dwg

Description

 The invention relates to agricultural machinery and is a working body of a cultivator for pre-sowing tillage on soils with high humidity and in irrigated agriculture.

Known is the combined working body of the cultivator for pre-sowing soil cultivation and the integrated application of liquid solutions, including a rack with two-sided sharpening connected to the cultivator paw, and a pipeline for supplying liquid fertilizers, in which, in order to improve the quality of the pre-sowing treatment of the soil formation with the introduction of liquid solutions into the soil and on its surface, the pipeline is equipped with liquid fertilizer spreaders and a sprayer, which is placed above the cultivating paw, the wings of the latter being made cr volineynymi in cross section with the convexity upward and the liquid fertilizer distributors disposed beneath the wings of [1]
The reasons that impede the achievement of the required technical result when using the known device include low quality soil treatment. This is because for placing the sprayers it is necessary to make the wings of the paws curved, which is associated with an increase in the cutting angle, which is the angle of sharpening and the rear angle between the blade and the surface of the treated soil. A large cutting angle leads to a spread of soil particles, uneven placement of soil aggregates on the bottom of the treated layer and a shift of the soil to the side. The described working body is not acceptable for pre-sowing soil cultivation for sowing grass seeds and other fodder crops (amaranth, mallow, goatskin, rape) with a shallow seed placement depth not exceeding 2 cm. When treating soils with high humidity and in irrigation, the described working body is enveloped with soil and plant debris. In the described working body there is no self-cleaning of the rack and its wings.

 The closest device of the same purpose to the claimed object in terms of features is a plane-cutting paw, including a rack with a working edge and a rear wall, on which a lancet paw with a front edge is pivotally mounted in which, in order to reduce traction resistance and simplify the design in the upper part of the rear wall struts made a cylindrical recess with a slot, the width of which is greater than the thickness of the paws, and the hinge is placed in a cylindrical recess and made in the form of a disk with a groove in which the pad is fixed and a paw has a window. The rear wall of the rack is placed inside the window, the width of which is greater than the thickness of the rear wall, and its length is greater than the diameter of the circle described around the axis of the hinge passing through the lower point of the working edge of the rack. The working edge of the rack is located at an acute angle to the direction of movement [2] This device we have taken as a prototype.

 The reasons that impede the achievement of the required technical result when using the known device adopted for the prototype include uneven cultivation depth along the width of the legs and incomplete cutting of weeds due to deformation of the legs in the transverse vertical plane along the length of the wings. An increase in the thickness of the paw leads to a “thick” blade and, consequently, to a blunt cutting edge with a fillet radius of more than 0.7.1.0 mm, which is unacceptable when cutting weed roots with an elastic support. A decrease in the thickness of the plane-cutting paws leads to a decrease in the strength of the wings of the paws and to a violation of the agrotechnical tolerance of the soil tillage in depth. Increasing the strength of the paws by increasing the width of the wings of the paws leads to sticking of the soil on the outer surface. The described working body when working on soils with moisture above 20% is prone to sticking. A large layer of soil accumulates on the wings at the points of interfacing with the stand. In the design of the working body of the cultivator, it is necessary to ensure unimpeded gathering of soil along the rack of a flat-cutting leg.

 The invention consists in the following.

 The problem to which the invention is directed is to ensure uniformity of loosening the soil at a given depth.

 The technical result is an increase in the quality of soil treatment in soils with high humidity.

 The specified technical result during the implementation of the invention is achieved by the fact that in the known device comprising a rack with a working edge and a rear wall, on which a lancet flat-cutting paw with a front cutting edge is pivotally mounted, stiffening ribs in the form of stamped closed U-shaped joints are made on the wings of the flat-cutting paw the cross section of the bulges, the length of each of which is less than the length of the wing of the leg, while the longitudinal axis of each stiffener is parallel to the cutting edge and the rear edge of the wing ups.

 Due to the fact that the plane-cutting paw is equipped with stiffening ribs in the form of stamped bulges, the above technical result is achieved: the implementation of the plane-cutting paws with a thickness of not more than 2 mm with stiffness on the wings of the paws is higher than with paws made of sheet steel with a thickness of 5.7 mm. The described bulge on the wing provides unhindered descent of the stems and roots of weeds from the loosened soil.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

 Therefore, the claimed invention meets the requirement of "Novelty" under applicable law.

 To verify the conformity of the claimed invention to the requirement of "Inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed invention, the results of which show that the claimed invention does not follow explicitly from the prior art, since the level of technology defined by the applicant, it is not revealed the impact provided by the essential features of the claimed invention transformed Wan on the achievements of the technical result.

 Therefore, the claimed invention meets the requirement of "Inventive step" under applicable law.

 In FIG. 1 shows a working body of a cultivator with combined sections, a plan view; in FIG. 2, section AA in FIG. 1, a section of the strut, hinge and plane-cutting paws in a longitudinally vertical plane.

 Information confirming the possibility of carrying out the invention are as follows.

 The working body of the cultivator contains a rack 1, a cylindrical hinge 2 and a plane-cutting lancet paw 3 (see Fig. 1 and 2).

Stand 1 is made with complex geometry. The lower part 4 of the rack 1 is made with a blade 5 formed by sharpening the inclined part 6 to the direction of movement of the working body at an acute angle. The angle of sharpening i _{2 of the} blade 5 does not exceed 18 ^o ± 2 ^o . The blade 5 is formed by one-sided (Fig. 2) or two-sided sharpening (Fig. 1). The rack 1 above its inclined part 6 is provided with a curved blade 7 with sharpening at an angle i ₁ equal to 10 ^o .15 ^o . The blade 7 is shifted back with respect to the blade 5. In the center of the lower part 4 of the rack 1 there is a cylindrical hole 8 and a groove 9, inclined at an angle of 30 ^o to the horizontal. The groove 9 and the lower part of the cylindrical hole 8 form the rear wall 10 of the rack 1. The rear wall 10 is a supporting element in the design of the rack 1.

 The cylindrical hinge 2 is made with a radial slot 11. The height of the cylindrical hinge 2 is slightly greater than the thickness of the rack 1. The diameter of the cylindrical hinge 2 is less than the diameter of the cylindrical hole by the tolerance of the tenth quality. The width of the radial slot 11 is greater than the thickness of the plane-cutting lancet paws 3.

The arrow-shaped plane-cutting paw 3 is made with a solution angle of 2γ = 120 ^° ± 2 ^° . The paw 3 is made of sheet metal with a thickness of t 2 mm The paw 3 is equipped with cutting edges 12 and 13 by sharpening the front faces at an angle i ₃ equal to 15 ^o . In the middle part along the symmetry axis of the plane-cutting paw 3 with an offset back from the toe 14, a rectangular hole 15 is made with dimensions corresponding to the section of the rear wall 10. On the wings of the paw 3 there are stiffening ribs 16 and 17 in the form of stamped closed U-shaped in the cross section of the bulges. The length of each stiffener 16 and 17 is less than the length of the wing leg 3. The stiffener 16 and 17 are parallel to the cutting edges 12 and 13 and the rear faces 18 and 19 of the wing legs 3. The depth of the bulge of the stiffener 16 and 17 does not exceed 3 mm. The frontal section of the plane-cutting paw 3 does not exceed b 5 mm with a thickness equal to t 2 mm. The stiffeners 16 and 17 on the wings of the legs 3 form stiffening beams of variable section with a decreasing section to the end of the wings. The flat middle part of the paw 3 provides a tight fit with the radial slot 11 of the cylindrical hinge 2. The cylindrical hinge 2 is inserted into the rectangular hole 15 with the radial slot 11 in the direction of the toe 14. Next, the cylindrical hinge 2 with the paw 3 is led to the groove 9. The flat part of the paw 3 introduced into the groove 9, the hinge 2 with the toe 14 of the legs 3 are displaced along the groove to the bottom 4 of the rack 1. Then the hinge 2 with the foot 3 is aligned with the cylindrical hole 8 of the rack 1. The hinge 2 with the foot 3 is turned down in the cylindrical hole 8 of the rack 1. The working body of the cultivator is ready for work.

 The working body of the cultivator operates as follows.

 The inclined part 4 of the rack 1 with a blade 5 cuts the vertical walls in the soil layer, while simultaneously cutting all the roots encountered while moving the rack 1. The lower edge of the blade 5 is located below the cutting edges 12 and 13 of the plane-cutting leg 3. Uncut roots of the plants and uncut obstacles slide down along the blade 5 and are embedded in the soil. As the rack 1 is deepened, the toe 14 of the lancet paw 3 is carried away into the soil, transmitting the tractor pull through the cylindrical hinge 2 from the rack 1 to the leg 3.

When meeting with the soil, the sock 14 tends to dig into the soil due to the large rear angle. Cutting edges 12 and 13 cut the soil formation. The paw 3 is deepened into the soil until the paw takes a horizontal position. There is no gap between the lower edge of the paw 3 and the bottom of the treated soil. The clearance angle is zero. The cutting edges 12 and 13 cut off the soil layer with the roots of weeds. This is the first phase of soil crumbling. With further movement of the trimmed formation on the surface of the paw 3, it rises to the upper face of the convexity of the stiffeners 16 and 17. This is the second phase of loosening of the formation. With further movement of the rack 1 and legs 3, the soil layer with weeds leaves the bulge of stiffeners 16 and 17 on the soil surface. This is the third phase of loosening the soil. Three-stage movement of the undercut formation leads to intensive crumbling of soil aggregates, thereby creating a mulching soil layer on the surface of the treated field. The soil does not stick between the uprights 1, the hinge 2 and the paw 3, because the frontal section is smaller than the wings of the paws (t << b) in the place of their mutual mating. The hinge 2 provides for the movement of the cultivating working body horizontal position of the legs 3 regardless of the angle of inclination of the rack 1 to the vertical. This achieves the minimum resistance of the lancet paw 3 when working in any soil conditions. The minimum permissible thickness of the cultivator paw is 3 and 2 mm with sharpening angles of the cutting edges 12 and 13 ensures sharpness of the blades when operating time up to 100 hectares of the treated area. Under the condition of manufacturing paws 3 from structural steel and hardening of the cutting edges 12 and 13 to 50.60 HRCE, the service life of the paws reaches up to 800 hectares of the treated field area with weediness from 50.80 to 300,400 plants per 1 m ² .

 Sharpening the front parts of the rack 1 with blades 5 and 7 ensures the operation of the flat-cutting paw 3 and the working body of the cultivator in highly neglected fields, when due to the large amount of rainfall over a long period and high air temperature, the height of the weed stems reaches 50.80 cm.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:
means embodying the claimed invention in its implementation, is intended for use in agricultural machinery; for the claimed invention in the form described in the independent clause of the claims, the possibility of its implementation using the means and methods described above or known prior to the priority date is confirmed; means embodying the claimed invention in its implementation, is capable of achieving the achievement of the technical result perceived by the applicant.

 Therefore, the claimed invention meets the requirement of "Industrial applicability" under applicable law.

Claims (1)

 The working body of the cultivator, including a rack with a working edge and a rear wall, on which a lancet planar paw with a front cutting edge is pivotally mounted, characterized in that the stiffening ribs are made on the wings of the plane-cutting paw in the form of stamped closed U-shaped convex cross sections, each length of which less than the length of the wing of the leg, while the longitudinal axis of each stiffener is parallel to the cutting edge and the rear edge of the wing of the leg.

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