RU2113087C1 - Tillage tool working unit - Google Patents

Abstract

FIELD: agricultural engineering, in particular, cultivation of stubbly soil. SUBSTANCE: working unit has tine, chisel and shearing members fixed on chisel, which is made conical with rounded apex. Portion of chisel base joined to tine has concave surface. Chisel has two parts. Front detachable part is made in the form of wear-resistant conical point. Rear part of chisel is made in the form of truncated elliptical cone. Shearing members are positioned between bases of chisel front and rear parts in plane of junction of these parts and adapted to provide additional soil mellowing. Shearing members are manufactured from high-strength wear-resistant material and provided with odd number of side faces with cutting edges positioned in plane of larger base of pyramid. Each shearing member has central opening. It allows width of horizontal mellowing portion to be increased. Chisel front part base has threaded shank. EFFECT: increased efficiency, enhanced reliability in operation and prolonged service life. 5 cl, 4 dwg

Description

 The invention relates to agricultural machinery, in particular to tillage machines for loosening the soil with a rod background.

 Known working body of the cultivator, having the shape of a curved cuttings knife with a variable thickness, increasing from top to bottom along its length, in which, in order to improve the quality of loosening the soil and reduce traction resistance, the front working part of the knife is made with a variable sharpening angle: from sharp in the upper part of the knife to blunt in its lower part with a smooth transition between them (SU, N 435764. Mcl A 01 B 35/20, A 01 B 35/26. The working body of the cultivator // Storchak S.V. Declared 02/18/1972. Published 07/15/1974).

 Despite the horizontal cutting edge at the bottom of the stand, it only processes a narrow vertical layer of soil. As the wear of the mentioned cutting edge, the traction resistance of the working body sharply increases. With a fillet radius of 6-8 mm, the entire working body made of stainless steel is rejected at the bottom of the rack.

 Also known is the working body of the cultivator, including the stand and the bit, in which, in order to improve the quality of loosening and reduce traction resistance, the bit is made in the form of an elliptical cone, the base of which at the interface with the stand has concave-curved surfaces; the top of the cone is rounded (SU, N 1431698. Mcl 4 A 01 B 35/26. The working body of the cultivator // Shishlyannikov I.D. and Pulin I.V. Announced on 10/29/1986. Published on 10/23/1988).

 The disadvantages of this device include reduced wear resistance of the working body, increased traction resistance as the bit wears out, as well as the high cost of operating costs due to the replacement, after wear, not of the working blade, but of the entire working body made of structural steel materials.

 The invention consists in the following.

 The problem to which the claimed invention is directed is to expand the functionality of the working body.

 The technical result is an increase in service life, lower operating costs, stabilization of the traction resistance of the working body due to the use of wear-resistant tip, shearing elements and their change after prolonged operation.

 The specified technical result in the implementation of the invention is achieved by the fact that in a known working body of a tillage implement containing a stand and a cone-shaped chisel with a rounded top, the base of which at the interface with the stand has a concave surface, the bit is detachable and consists of front and rear parts, the front part of the bit is made in the form of a wear-resistant tip and has the shape of a cone, and the rear part has the shape of a truncated elliptical cone and between the bases of the front Chipping elements are placed in the plane of their interface and the rear parts of the bit, with the front part provided with a threaded shank located on its base, and in this part of the bit there is a radial hole located between the rounded apex and the base, and in the rear part of the bit from the side of the small base there are a threaded hole and two blind holes, which are laterally offset, are made on supporting platforms and in which pins are placed for fixing said cleaving elements between the parts of the bit; the shearing element is made of high-strength and wear-resistant material in the form of a truncated regular pyramid, mainly with an odd number of side faces provided with cutting edges in the plane of the large base, and a hole made in the center of the shearing element; the cleaving element is mounted with the possibility of reinstallation on a pin on the back of the bit; supporting platforms are located in the body of the back of the bit of a relatively small base at a depth equal to the thickness of the cleaving element; one of the cutting edges of the cleaving element is conjugated with the side face of the support platform.

 Due to the fact that the bit is made of two separate parts, and cleaving elements are installed in the plane of their interface, the above technical result is achieved.

 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 compliance of the claimed invention with 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 tion to achieve a technical result.

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

 The invention is illustrated by drawings, where in FIG. 1 shows a working body of a tillage implement, side view; in FIG. 2 - same, plan view; in FIG. 3 is a section AA in FIG. 1, a diametrical section of the front removable and rear parts of the bit and chipping elements placed in the interface plane of the front and rear parts of the bit; in FIG. 4 is a section BB in FIG. 2, the position of the cleaving elements on the supporting areas of the small base of the elliptical cone.

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

The working body of the tillage implement contains a rack 1 of rectangular cross section and a bit 2 installed in its lower part. The front of the rack 1 is equipped with a cutting edge 3 at the top of the dihedral blade 4. The sharpening angle of the dihedral blade 4 does not exceed 21-25 ^o . The bit 2 is made conical in shape with a rounded top 5. The base of the bit 2 at the interface with the rack 1 has a concave surface 6. The bit 2 is detachable and consists of front and rear parts 7 and 8. The front part 7 of the bit 2 is made in the form of a wear-resistant tip and has the shape of a circular cone. The rear part 8 of the bit 2 has the shape of a truncated elliptical cone. The base 9 of the front part 7 of the bit 2 is associated with a small base of a truncated elliptical cone of the rear part 8 of the bit 2. The base 9 of the front part 7 of the bit 2 is equipped with a threaded shank 10. The front part 7 of the bit 2 is provided with a radial hole 11 located between the rounded peak 5 and the base 9 . In the rear part 8 of the bit 2 from the side of the small base there is a threaded hole 12 and two blind holes 13, which are placed sideways. A threaded hole 12 is made along the axis of the truncated elliptic cone for screwing the threaded shank 10 of the front part 7 of the bit 2. Two lateral holes 13 with a diameter of 6 mm are made laterally from the axis of the elliptical cone of the bit 2, in which the pins are mounted 14. On a small base of the elliptical cone of the rear part 8 of the bit 2 with an offset from the threaded hole 12, two supporting platforms 15 and 16 are made to accommodate the cleaving elements 17.

 The shearing element 17 is made in the form of a truncated pyramid with an odd number of side faces 18. The intersection of the side faces 18 of the pyramid with its large base forms cutting edges 19. A hole with a diameter of 6 mm is made along the pyramid axis of the shearing element 17. The thickness of the cleaving element 17 is equal to the height of the truncated pyramid. The shear elements 17 are fixed by pins 14 to the support pads 15 and 16. The rotation of the shear element 17 around the axis of the pin 14 is limited by the side face 20 of the support pads 15 and 16. The length of the cylindrical pins 14 is equal to the sum of the height of the shear element 17 and the depth of the mounting hole 12. The shear elements 17 on pins 14 are mounted with the possibility of reinstallation. In the working position, the small base of the pyramid should be aligned with the supporting platform 15 (16). One of the cutting edges 19 of the shearing element 17 is associated with the side face 20 of the support platform 15 or 16. The supporting areas 15 and 16 are located in the body of the rear part 8 of the bit 2 of a relatively small base at a depth equal to the thickness of the shearing element 17.

 The working body of the tillage implement works as follows.

Before starting work in the holes 13 on the supporting pads 15 and 16 set cylindrical pins with a diameter of 6 mm The pins are mounted on the pins 17 so that one of its cutting edges 19 is parallel to the side face 20 of the support platform 15 (16). The front part 7 of the bit 2 by means of a wrench with a diameter of 14 mm, located in the radial hole 11, is screwed behind the threaded pin 10 into the threaded hole 12 in the rear part 8 of the bit 2. When screwing the pin 10 of the front part 7 of the bit 2 its base 9 in the plane of the connector with a small the base of the elliptical cone of the rear part 8 of the bit 2 presses the cleaving elements 17 against the surface of the supporting pads 15 and 16. Due to the displacement of the holes 13 sideways from the geometric axis of the elliptical cone of the rear part 8 of the bit 2, the cutting edges 19 of the cleaving elements 17 extend beyond the larger base of the elliptical cone of the rear part 8 of the bit 2. After that, the front part 7 of the bit 2 in the form of a circular cone and its rear part 8 in the form of a truncated elliptical cone together with the cleaving elements 17 form a single bit 2 of increased wear resistance. With the movement of the working body, a rounded and especially hardened top 5 of the front part 7 of the bit 2 acts on the soil, causing crushing deformation in it. At the same time, the cone-shaped surface of the bit 2 affects the soil mass in the vertical and horizontal planes, moreover, due to the fact that the axis of the cone is inclined to the horizon, and a back angle of 5-7 ^{° is} formed between the lower generatrix of the conical surface and the horizon. The deformation of the soil in the horizontal plane is slightly less than in the longitudinally vertical plane. An increase in the loosening zone in the horizontal plane is achieved by the cleaving elements 17. The cutting edges 19 of the cleaving elements 17 are embedded in the solid soil layer and are crushed additionally. As a result of this, the soil particles outside the elements 17 are compacted, forming local larger and mechanically strong structures. At the larger base of the elliptical cone of bit 2, the soil mass along concave surfaces 6 falls into the rarefaction zone, where large aggregates are crushed into agronomically valuable individuals. Due to the fact that in the rarefaction zone there is friction of the soil against the soil, the overall traction resistance of the working body is reduced. The deformation of the soil in the layers located above the bit 2 is carried out using the cutting edge 3 of the blade 4 of the rack 1.

 In the process of the working body, an additional movement of soil particles occurs when meeting with cleaving elements 17. This contributes, firstly, to additional crushing and loosening of the soil and, secondly, to increase the loosening zone due to protruding edges at the intersection points of the cutting edges 19 on a large the base of the polygon with an odd number of lateral faces of the cleaving element 17. The increased service life of the working body is achieved by the presence on the bit 2 of the removable front part 7 of a wear-resistant tip installed in one of the most intense soil deformation. Additionally hardened top 5 of the front part 7 of the bit 2 wears out less intensively compared to the rest of the surfaces of the bit 2. As a result, there is no accelerated, intense blunting of the bit 2, which is a factor in the stabilization of the traction resistance of the working body when it is worn. When the especially strong cutting edges 19 of the cleaving elements 17 are worn or chipped, they are reinstalled on the pins 14 so that new or less worn cutting edges 19 participate. On the other hand, the increased wear resistance and stability of the traction resistance expand the functionality of the working body, allowing use it not only for cultivation, cultivation, but also for deep cultivation of soils with a heavy mechanical composition. If necessary, the front part 7 of the bit 2 is replaced with a new one, leaving for the rest of the work the remaining elements of the working body. Also do with the cleaving elements 17.

 Thus, the above information indicates the fulfillment when using the claimed invention of a combination of conditions: a tool embodying the claimed invention is intended for use in agricultural machinery; for the claimed invention in accordance with the following formula confirms the possibility of its implementation using known means and methods; 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 (5)

 1. The working body of a tillage implement containing a stand and a cone-shaped chisel with a rounded top, the base of which at the interface with the stand has a concave surface, characterized in that the bit is detachable and consists of front and rear parts, while the front part of the bit is made in a wear-resistant tip and has the shape of a cone and between the bases of the front and rear parts of the bit in the plane of their mating cleavage elements are placed, and the front part is equipped with a threaded shank located on its base and in this part of the bit there is a radial hole located between the rounded top and the base, and in the back of the bit from the side of the small base there is a threaded hole and two blind holes that are laterally offset, are made on the supporting platforms and in which are placed pins for fixing said cleaving elements between parts of the bit.  2. The working body according to claim 1, characterized in that the shearing element is made of high-strength and wear-resistant material in the form of a truncated regular pyramid, mainly with an odd number of side faces, equipped with cutting edges in the plane of the large base, and a hole made in the center of the shearing element.  3. The working body according to claim 1 or 2, characterized in that the shearing element is mounted with the possibility of reinstallation on a pin on the back of the bit.  4. The working body according to claim 1, characterized in that the support pads are located in the body of the rear part of the bit relative to a small base at a depth equal to the thickness of the cleaving element.  5. The working body according to claim 1, characterized in that one of the cutting edges of the shearing element is associated with the side face of the support platform.

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