RU2538810C1 - Tool for surface tillage - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: tool comprises a frame, drive rotary working bodies arranged in two rows, a bevel gear. On the output shafts of the gear the removable sprockets are mounted. The removable sprockets are connected by a chain with the removable sprockets on the shafts of the rotary working bodies. The circumferential speed of the rotary working bodies of the first row is 1.03-1.1 of the speed of the tractor, of the second row is 1.05-1.15. The rows of the working bodies are installed perpendicular to the direction of motion of the tool with location in a checkerboard pattern. The working bodies are made in the form of wheel spiders. The needles of the wheel spiders are bent along the evolvent of circle. On the convex side of the needles of the working bodies of the first row in the tangent planes the chisel elements in the form of an isosceles triangle are fixed. The base of the triangle is parallel to the axis of the wheel spider. The top of the triangle is directed towards the end of the needles. The distance from the top of the chisel elements to the ends of the needles is equal to half the depth of processing. On the needles of the second row of the working bodies the chisel elements in the form of an isosceles triangle are fixed. The top of the triangles is located at the end of the needle. The chisel elements of the second row of the working bodies are rotated relative to the needles and form an acute angle with the axis of the wheel spiders. The needles are alternately turned about the axis of the wheel spider in opposite directions.

EFFECT: solution is aimed at reducing energy consumptions and increase in quality of the surface treatment of soil.

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Description

The invention relates to agricultural machinery and can be used for tillage.

Known tillage implement [Tillage implement. Patent RU No. 2186471. Publ. August 10, 2002], containing a frame, two rows of batteries of needle discs, a round, square or hexagonal rod and spring harrows installed sequentially on it. An additional bevel or worm gearbox is installed on the device’s frame, the input shaft of which is connected to an independent or synchronous tractor power take-off shaft by a cardan shaft. An additional sprocket is additionally installed on the output shaft of the gearbox, connected by a chain to an additional interchangeable sprocket on the front intermediate shaft of the device. A safety clutch is installed on the output shaft of the gearbox. A safety clutch is also mounted on the shaft at the top of the boom bar. The number of teeth of the device’s interchangeable sprockets is selected depending on the type of tractor power take-off drive, the gear ratio of the gearbox so that, under various operating conditions, the ratio of the translational speed of the unit to the peripheral speed of the needle disk drives is for front batteries ranging from 0.76 to 1.18, and for the rear - in the range from 0.62 to 1.38. The ratio of the translational speed of the unit to the peripheral speed of the rod should be in the range from 0.74 to 0.78.

The disadvantages of the known tools are increased energy consumption and insufficient quality of the soil with drive batteries of needle discs.

The purpose of the invention is to reduce energy consumption and improve the quality of surface tillage.

This goal is achieved by the fact that the peripheral speed of the rotating working bodies of the first row is taken equal to 1.03 ... 1.1 of the tractor speed, and the peripheral speed of the rotating working bodies of the second row is 1.05 ... 1.15 of the tractor speed. The rows of the working bodies are set perpendicular to the direction of movement of the tool with the arrangement of the working bodies in a checkerboard pattern, the working bodies being made in the form of needle disks, the needles of which are curved along the involute of a circle. In the tangent planes on the convex side of the needles of the first row of working bodies, ripping elements are fixed, which are made in the form of an isosceles triangle, the base of which is parallel to the axis of the needle disk, and the vertex, which is the intersection point of the equal sides, is directed to the end of the needles, and the distance from these vertices of the rippers elements to the ends of the needles is equal to half the depth of processing. On the needles of the second row of working bodies, ripping elements are made in the form of an isosceles triangle, the apex of which, which is the intersection point of the equal sides, is located at the end of the needle. The ripping elements of the second row of working bodies are turned relative to the needles in such a way that they form an acute angle with the axis of the needle discs, and these ripping elements are alternately rotated in opposite directions relative to the axis of the needle disk.

In FIG. 1 is a perspective view of a surface tillage implement; FIG. 2 - the same, top view; figure 3 - working bodies of the first row; in FIG. 4 - working bodies of the second row.

The tool for surface tillage contains a frame 1, an attachment 2, rotary drive working bodies 3 and 4 of the first and second row, respectively. A bevel gear 5 is mounted on the frame 1, the input shaft 6 of which is connected to the synchronous shaft of the tractor power take-off by the driveshaft 7. On the output shafts 8 of the bevel gear 5, replaceable sprockets 9 and 10 are mounted, connected by chains 11 and 12 with replaceable sprockets 13 and 14 respectively front and rear shafts of rotary working bodies. The gear ratio of the bevel gear 5, the sprockets 9, 10, 13 and 14 are selected so that the peripheral speed of the rotary working bodies of the first row is equal to 1.03 ... 1.1 the speed of the tractor, and the peripheral speed of the rotary working bodies of the second row is 1 , 05 ... 1.15 tractor speed. The rows of rotary working bodies 3 and 4 are installed perpendicular to the direction of movement of the gun with the arrangement of working bodies 3 and 4 in a checkerboard pattern. The working bodies 3 and 4 are made in the form of needle discs, the needles of which are curved along the involute of a circle.

In tangent planes on the convex side of the needles 15 of the working bodies 3 of the first row, ripping elements 16 are made in the shape of an isosceles triangle. The bases of these triangles are parallel to the axis of the needle disk. The vertices of the triangles, which are the intersection points of equal lateral sides, are directed towards the end of the needles 15, and the distance from these vertices of the ripping elements to the ends of the needles 15 is equal to half the depth of processing.

On the needles 17 of the second row of working bodies 4, the ripping elements 18 are also made in the form of an isosceles triangle, the apex of which, which is the intersection point of the equal sides, is located at the end of the needles 17. The ripping elements 18 of the second row of the working bodies are rotated relative to the needles 17 in such a way which form an acute angle β with the axis of the needle discs, the ripping elements 18 being alternately rotated in opposite directions with respect to the axis of the needle disc.

The tool for surface tillage works as follows.

Before starting the movement of the unit, in the transport position of the implement, a tractor power take-off shaft is switched on, from which torque is transmitted by means of the driveshaft 7, input shaft 6, bevel gear 5 to output shafts 8, through interchangeable sprockets 9 and 10, chain 11 and 12, interchangeable sprockets 13 and 14 on the front and rear shafts and rotary working bodies 3 and 4 of the first and second row, made in the form of needle discs with ripping elements 16 and 18 mounted on them, respectively. Further, at the beginning of the movement with the help of the attachment 2, the implement is moved to the working position. In this case, the rotating working bodies 3 of the first row carry out strip tillage with its front loosening by separation, and the working bodies 4 of the second row loosen the soil by tensile deformation in adjacent untreated strips, acting on it with disk needles and loosening the cultivating elements 18, which are alternately rotated in opposite directions from the axis needle discs, in the direction of already loosened strips.

Reducing energy costs and improving the quality of surface tillage is achieved by the fact that the peripheral speed of the rotary working bodies of the first row is equal to 1.03 ... 1.1 the speed of the tractor, and the peripheral speed of the rotary working bodies of the second row is 1.05 ... 1.15 of the tractor speed . This provides loosening of the soil by stretching with separation and the creation of reactions directed towards the movement of the aggregate by the first row of rotary working bodies, as well as loosening of the soil by inclined cutting with a separation without transport and creating reactions directed towards the movement of the aggregate by the second row of rotating working bodies. In addition, this ensures self-cleaning of the working bodies and excludes soil loading by the working bodies.

Improving the quality of surface tillage and reducing energy costs is also achieved by arranging the rows of working bodies perpendicular to the direction of movement of the implement, placing the working bodies in a checkerboard pattern. The same contributes to the implementation of the working bodies in the form of needle disks, the needles of which are bent along the involute of a circle, and the fastening in tangent planes on the convex side of the needles of the working bodies of the first row of ripping elements in the form of an isosceles triangle, the base of which is parallel to the axis of the needle disk, and the vertex, which is a point the intersection of equal lateral sides, is directed to the end of the needles, and the distance from these vertices of the ripping elements to the ends of the needles is equal to half the depth of processing. This allows you to perform strip tillage by frontal tillage at half the depth of cultivation with a significant reduction in energy costs for lateral movement of the formation with a given limitation of the depth of processing.

The implementation of the ripping elements of the second row of working bodies in the form of an isosceles triangle, the top of which, which is the intersection point of the equal sides, is located at the end of the needle, the rotation of the ripping elements relative to the needles in such a way that they form an acute angle with the axis of the needle discs, as well as alternating rotation of the ripper elements relative to the axis of the needle disk in opposite directions allows you to loosen the soil with tensile strain in adjacent, not processed by the first row of working bodies, the floor wasps of soil by alternating action of ripping elements directed in opposite directions, which also improves the quality of surface tillage and reduces energy costs.

Claims (1)

A tool for surface tillage, including a frame, rotary drive working bodies arranged in two rows, an installed bevel gear, the input shaft of which is connected by a cardan shaft to the tractor power take-off shaft, replaceable sprockets are mounted on the output shafts of the gearbox, connected by a chain to interchangeable sprockets on the shafts rotation of the working bodies, while the peripheral speed of the rotating working bodies of the first row is equal to 1.03 ... 1.1 the speed of the tractor, and the peripheral speed of the rotating working bodies is second first row - 1.05 ... 1.15 tractor speeds, rows of working bodies installed perpendicular to the direction of movement of the implement with the arrangement of working bodies in a checkerboard pattern, the working bodies being made in the form of needle disks, the needles of which are curved along the involute of a circle, while the tangent planes on the convex side of the needles of the working bodies of the first row are fixed loosening elements made in the form of an isosceles triangle, the base of which is parallel to the axis of the needle disk, and the vertex, which is a point intersection of equal lateral sides, directed towards the end of the needles, and the distance from these vertices of the ripping elements to the ends of the needles is equal to half the working depth, ripping elements fixed in the shape of an isosceles triangle, the vertex of which is the intersection point of the equal lateral sides, are fixed on the needles of the second row of working bodies is located at the end of the needle, the ripping elements of the second row of working bodies are turned relative to the needles in such a way that they form an acute angle with the axis of the needle discs, and these loose The casting elements are alternately rotated relative to the axis of the needle disk in opposite directions.

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