RU2643718C1 - Tillage tool - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: tool comprises a frame (1), loosening working bodies (2) mounted on the frame (1), and a roller (5) adjustably mounted behind them. The roller (5) is made in the form of a cylindrical element, along the generating surface of which teeth are fixed in annular groups. The teeth of the roller (5) are made of round-section rolled stock. Each tooth comprises two logarithmically designed working parts with sharpened edges and a rod connected to the working parts by necks of different curvature radii. The distance between the sharpened edges of the working parts of the tooth is equal to 0.93D, where D is the outer roller diameter, m. The distances from these edges to the central tooth rod axis are 0.15D and 0.22D. The teeth are placed in the grooves of the cylindrical roller element in such a way that the symmetry plane of each tooth forms an angle

with the roller rotation axis, where N is the number of teeth in the annular group, N = 10 pcs. The sharpened edges of the teeth are located on two circles concentric to the roller (5) axis, with a diameter D. The distance from the tooth rod to the roller axis is 0.157D. In each annular group, the teeth are uniformly distributed in the tangential direction. The outer diameter of the cylindrical element is equal to 0.45-0.55D. The arrangement pitch of needles on the cylindrical element in the axial direction is equal to the double axial distance between the annular rows of the sharpened edges of one annular group of the teeth.

EFFECT: simplifying the roller design, improving the quality of the field surface levelling and the upper loose soil layer formation.

6 dwg

Description

The invention relates to agricultural machinery, in particular to implements for tillage.

It is known a tillage implement containing a frame, loosening working bodies attached to it and a spiral or rod roller mounted behind the working bodies (analog - PGR-4 Plow deep-ripper. Operation manual / VV Shchirov, VI Hizhnyak, A .Yu. Nesmiyan, VN Shchirov. - Zernograd: FSBEI HPE AChGAA, 2012 - 32 p.).

The disadvantage of this tillage implement is the low intensity of crumbling of soil blocks and lumps, as well as the technological inability of the implement to form an additional upper loose soil layer, which, under conditions of dry farming, together with plant debris, condenses atmospheric moisture and retains moisture accumulated in the lower soil layers ( Brubel A.F. Agrometechnology of fields in the south of Russia / A.F. Brubel, A.N. Belan, B.A. Zemlyansky, A.S. Naydenov // Technologies and Machinery Complex for dry farming -. Yeisk, 1996. - 184 c)..

Closest to the proposed technical solution is a tillage implement containing a frame, loosely mounted working bodies mounted on the frame and a sealing roller mounted behind them with the possibility of adjustment, made in the form of a cylindrical element, the teeth are fixed around the circumference by ring groups. Each tooth is made in the form of a plate with four faces made according to given radii, one of which is fixed, and the rest (front, rear and backed) are free (prototype RU 2067799 C1, А01В 49/02, А01В 29/04).

The disadvantage of the described tillage implement is the complexity and laboriousness of making the roller teeth, the insufficiently high rate of loosening of the upper soil layer in the space between the teeth and, at the same time, the excessive crumbling of the soil along the tooth trail.

The objective of the present invention is to simplify the design of the roller tillage tools, improving the quality of leveling the surface of the field and the formation of the upper loose soil layer.

(где N - количество зубьев в кольцевой группе, N=10 шт.), заостренные кромки зубьев расположены на двух концентричных оси катка окружностях диаметром D, а расстояние от стержня зуба до оси катка составляет 0,157D, причем в каждой кольцевой группе зубья равномерно распределены в тангенциальном направлении. При этом внешний диаметр цилиндрического элемента равен 0,45-0,55D, а шаг размещения игл на цилиндрическом элементе в осевом направлении равен двойному осевому расстоянию между кольцевыми рядами заостренных кромок одной кольцевой группы зубьев.The task is achieved due to the fact that in the tillage implement containing the frame, the loosening working bodies mounted on the frame and a roller mounted behind them with the possibility of adjustment are made in the form of a cylindrical element along the forming surface of which teeth are fixed in ring groups, the teeth of the roller are made of rolled metal round section. Each tooth contains two logarithmic-made working parts with pointed edges and a shaft, which is connected to the working parts by necks of different radii of curvature. The distance between the pointed edges of the working parts of the tooth is 0.93D (where D is the outer diameter of the roller, m), and the distances from these edges to the central axis of the tooth shaft are 0.15D and 0.22D. The teeth are placed in the grooves of the cylindrical element of the roller in such a way that the plane of symmetry of each tooth forms an angle with the axis of rotation of the roller

(where N is the number of teeth in the ring group, N = 10 pcs.), the pointed edges of the teeth are located on two concentric axis of the roller with circles of diameter D, and the distance from the tooth shaft to the axis of the roller is 0.157D, and in each ring group the teeth are evenly distributed in the tangential direction. In this case, the outer diameter of the cylindrical element is 0.45-0.55D, and the pitch of the needles on the cylindrical element in the axial direction is equal to the double axial distance between the annular rows of pointed edges of one ring group of teeth.

The proposed invention is illustrated by illustrations: in FIG. 1 presents a diagram of the proposed tool; in FIG. 2 shows a diagram of the roller of the proposed design, FIG. 3 - tooth of the proposed design, in FIG. 4 is a section AA in FIG. 2, and in FIG. 5 is a section BB in FIG. 2, in FIG. 6 shows a diagram of the location on the field surface of the contact points of the pointed edges of the teeth of the proposed roller with soil.

(где N - количество зубьев 7 в кольцевой группе, N=10 шт.) (фиг. 2), заостренные кромки зубьев 7 расположены на двух концентричных оси катка 5 окружностях диаметром D, а расстояние от стержня 10 зуба 7 до оси катка 5 составляет 0,157D (фиг. 4), причем в каждой кольцевой группе зубья 7 равномерно распределены в тангенциальном направлении. При этом внешний диаметр цилиндрического элемента 6 равен d=0,45-0,55D (фиг. 4), а шаг T размещения зубьев 7 (фиг. 2) на цилиндрическом элементе 6 в осевом направлении равен двойному осевому расстоянию S между кольцевыми рядами заостренных кромок одной кольцевой группы зубьев 7.The tillage implement contains a frame 1 (Fig. 1), on which loosening working bodies 2 are fixed. The implement is equipped with support wheels 3 and an attachment device 4, which serves to connect to the tractor. A roller 5 made in the form of a cylindrical element 6 (tubular shaft) is installed in the rear part of the gun with the possibility of adjustment, along the generatrix of which teeth 7 are fixed in ring groups (Fig. 2). The teeth 7 of the roller 5 are made of rolled round section. Each tooth 7 contains two logarithmic law working parts 8 and 9 with sharp edges and a shaft 10, which is connected to the working parts 8 and 9 by necks 11 and 12 of different radius of curvature. The distance between the pointed edges of the working parts 8 and 9 of the tooth 7 is 0.93D (where D is the outer diameter of the roller, m), and the distances from these edges to the central axis of the tooth shaft are 0.15D and 0.22D (Fig. 3 ) The teeth 7 are placed in the grooves of the cylindrical element 6 of the roller 5 so that the plane of symmetry of each tooth forms an angle with the axis of rotation of the roller 5

(where N is the number of teeth 7 in the ring group, N = 10 pcs.) (Fig. 2), the sharp edges of the teeth 7 are located on two concentric axis of the roller 5 with circles of diameter D, and the distance from the shaft 10 of tooth 7 to the axis of the roller 5 is 0,157D (Fig. 4), and in each ring group, the teeth 7 are evenly distributed in the tangential direction. The outer diameter of the cylindrical element 6 is equal to d = 0.45-0.55D (Fig. 4), and the pitch T of the placement of the teeth 7 (Fig. 2) in the axial direction 6 is equal to the double axial distance S between the annular rows of pointed the edges of one annular group of teeth 7.

Tillage tool works as follows.

During the process, the soil layer crumbles and deforms under the influence of the working bodies 2 (Fig. 1) to a predetermined depth, the value of which is regulated by the movement of the support wheels 3 relative to the frame 1. At the same time, large lumps of soil formed during loosening are crushed by the roller 5. At the same time, the sharpened edges of the teeth 7 of the roller 5 “soil” the soil, loosening it to a depth of 5-9 cm (depending on the degree of pressure of the roller 5 on the soil) and while maintaining the remaining stubble on the field surface. Moreover, the logarithmic form of the working parts 8 and 9 of the teeth 7 provides the condition for their vertical “entry” into the soil or “exit” from the soil (depending on the orientation of the roller relative to the direction of movement of the unit), reducing the likelihood of its release and removal of erosion-hazardous particles to the field surface. The specified parameters of the teeth 7 and the laws of their location on the cylindrical element 6 lead to the fact that one annular group of teeth 7 forms two annular groups of working parts 8 and 9, in which the pointed edges of the teeth (Fig. 5) are located with a constant step S (excluding the curvature of the path of movement of the edges of the teeth 7). Moreover, due to the fact that the symmetry plane of the teeth 7 are located to the axis of the roller 5 at an angle α, the pointed edges of the adjacent annular rows of the working parts 8 and 9 are offset relative to each other in phase so that in the tangential direction the distance between the nearest pointed edges of the adjacent annular of rows is S / 2 (Fig. 2), and the axial distance S between the pointed edges of the annular group of teeth 7 is equal to the tangential step between the pointed edges located in a plane normal to the axis of rotation of the roller 5 (Fig. 5). Due to this design, the pointed edges of the teeth 7 inflict injections at the conditional vertices (i.e. A, B, C, D and D in Fig. 2) of equilateral triangles, which ensures uniform, honeycomb (Fig. 6) coverage of the field surface during processing. In addition, due to the inclination of the teeth 7 inclined to the vertical, they have not only a loosening, but also a compacting effect on the soil, contributing to its partial deposition after processing by the loosening working bodies of 2 implements.

Claims (1)

A tillage implement containing a frame, loosely mounted working bodies and a roller mounted behind them with the possibility of adjustment, made in the form of a cylindrical element along the forming surface of which teeth are fixed in ring groups, characterized in that the teeth of the roller are made of rolled round section, each tooth contains two logarithmic working parts with pointed edges and a rod that is connected to the working parts by necks of different radius of curvature, while the distance between the pointed edges of the working parts of the tooth is 0.93D, where D is the outer diameter of the roller, m, and the distances from these edges to the central axis of the tooth shaft are 0.15D and 0.22D, the teeth are placed in the grooves of the cylindrical element of the roller in such a way that the plane of symmetry of each tooth forms an angle with the axis of rotation of the roller

where N is the number of teeth in the annular group, N = 10 pcs., the sharp edges of the teeth are located on two concentric axis of the roller with circles of diameter D, and the distance from the tooth shaft to the axis of the roller is 0.157D, and in each ring group the teeth are evenly distributed in the tangential direction, while the outer diameter of the cylindrical element is equal to 0.45-0.55D, and the spacing of the needles on the cylindrical element in the axial direction is equal to the double axial distance between the annular rows of pointed edges of one ring group of teeth.

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