RU2050757C1 - Flexible harrow - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: flexible harrow has cross bar 5 with telescopic rods hinge-mounted on bar and spring-loaded relative to bar, and lengths 29 and 30 of chain coverer made in form of links with ripping teeth. Rods differ in length and they are arranged on ends of cross bar 3 at angle to direction of movement. Free ends of rods are pointed to each other. Needle disks are mounted on free ends of rods. Needles of disks are arch-shaped and are pointed outwards from rods. Needle disk installed on shorter rod is located before disk of longer rod. Lengths 29 and 30 of chain coverer are hinge-coupled by one end with bar 3 and by other end, with axles of needle disks. With harrow moving, disks, rotating under action of reaction forces of soil, transmit rotary motion of lengths of chain coverer and ripping teeth of the latter provide crushing of soil. EFFECT: improved quality of cultivation of soil. 3 cl, 7 dwg

Description

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

 The purpose of the invention to improve the quality of soil treatment.

 In FIG. 1 shows a flexible harrow, rear view; in FIG. 2 harrows, top view; in FIG. 3 view B in FIG. 2; in FIG. 4 node I in FIG. 3; in FIG. 5 node II in FIG. 3; in FIG. 6, section AA in FIG. 5, top view; in FIG. 7, section AA in FIG. 5, side view.

 The flexible harrow contains a frame 1 and a chain loop 2. Frame 1 is made in the form of two I-shaped transverse bars 3, the ends of which are fixed to brackets 4, while the bars 3 are connected by brackets 5 to the bars 6 of the cultivating frame. On the brackets 4 in the bearings 7, shafts 8 are installed with holes for adjusting the stroke depth, in the lower part of which the harrow head fastening nodes 9 are pivotally mounted, and the levers 10 are mounted in the upper part. Telescopic rods 12 with movable 13 are mounted via hinges 11 and fixed 14 links that are fixed to each other by bolts 15. The free ends of the links 13 of the rods 12 are bent at a right angle downward and are equipped with bushings 16 with axes 17. The inner sides of the latter are made in the form of a cone, on the surface which has an annular groove 18.

 Above the groove 18 through the axis 19 is installed a circular knife 20, the cutting edge of which is placed in the groove 18 and serves to cut the stems of weed vegetation. On the outer side of the sleeve 16, a needle disk 21 is rigidly fixed to the axis 17, the needles 22 of which are curved and directed from the rod 12. The disk 21 is mounted on the axis 17 by means of a pin 23 and a nut 24.

Levers 10 are connected to hydraulic cylinders 25 to the cultivator frame (not shown) to rotate the rod 12 at an angle of 0 to ⁹⁰ in traversing obstacles and to transfer harrow in transport position. The rods 12 are connected to the bars 3 by means of adjustable springs 26 and 27 to ensure the operation of the rods 12 in self-oscillating mode. Hydraulic cylinders 28 are attached to the bearings 7 and connected to the links 14 of the rods 12 to change the angle of inclination of the rods 12.

 Chain loop 2 is made of two segments of the left 29 and right 30, on the links 31 of which in the mutually perpendicular planes there are loosening teeth 32 and 33. On the outer links 31 of the segments 29 and 30, the fingers 34 are fixed, located in the cups 35 and fixed in them by nuts 36. The rear ends of the segments 29 and 30 of the loop 2 are rigidly connected with the axis 17 of the needle discs 21.

 Flexible harrow works as follows.

 Before starting work, taking into account the working width and the width of the processed strip, two different lengths of segments 29 and 30 of the chain loop 2 are selected. After this, the links 13 and 14 of the rods 12 are moved apart so that the segments 29 and 30 are in a taut position and are fixed with bolts 15. Install springs 26 and 27 and adjust their length, taking into account the physical and mechanical composition of the soil and the degree of contamination, while the rod 12 of a shorter length is placed in front of the rod 12 of a larger length.

When the harrow moves, the teeth 32 and 33 enter the soil to a predetermined depth, while the rods 12, overcoming the resistance of the springs 26 and 27, move from the transport position to the working position. The angular deviation of the rods 12 depending on the resistance of the harrow can be 0 to 90 ^about . The uneven surface of the soil creates alternating loads, causing tension and return of the springs 26 and 27 to the calculated value, causing the rods 12 to oscillate with segments 29 and 30 of the loop 2. Moreover, the rods of the hydraulic cylinders 25, in the floating position, also oscillate and linearly.

 On the wavy surfaces of the soil with the locked position of the hydraulic cylinders 25, the rods 12 stop vibrations in the horizontal and vertical planes and the harrow performs the functions of a planner.

With different resistances on the segments 29 and 30 of the loop 2, the distance between the ends of the rods 12 will be unequal and with a significant clogging of the segments 29 and 30 with weedy vegetation, each of the rods 12 can momentarily turn back up to an angle of 90 ^° . In this case, weed vegetation is removed by the soil flow moving along the axis of the segment 29 and 30 and the rod 12 returns to its original position. The deflection of the rods 12 back is also carried out when the segments 29 and 30 meet with an obstacle.

 Weed vegetation accumulating on the loop 2 as a result of the slope of its segments 29 and 30 relative to the direction of movement, rotation and oscillations of the links 31 constantly moves along the segments 29 and 30 of the loop 2 and, falling into the groove 18, is cut with a knife 20.

 The curved shape of the needles 22 of the disks 21 prevents weeds from being wound on them, while the disks 21 provide a stable torque to the segments 29 and 30 of the loop 2. When the harrow is in transport position, the rods 12 are attracted to the bars 3 by means of springs 26 and 27 or hydraulic cylinders 28.

Claims (3)

 1. A flexible harrow containing a transverse beam with a telescopic rod pivotally mounted on it and spring-loaded relative to it and segments of a chain loop, made in the form of links with loosening teeth and articulated at one end with a transverse beam, characterized in that, in order to improve the quality of processing the soil, the harrow is equipped with a pivotally mounted on the transverse beam and another telescopic rod of a smaller length spring-loaded relative to it, while the rod is located at the ends of the transverse beam, at an angle the direction of movement is directed towards each other by free ends, and each rod is equipped with a needle disk mounted on its free end, the needles of which are arcuate in shape and directed away from the rod, and the needle disk mounted on a shorter rod is placed in front of the needle disk mounted on a longer rod and the free end of each of the segments of the chain loop is rigidly connected with the axis of the needle disk of one of the rods.  2. The harrow according to claim 1, characterized in that each rod is connected to the transverse beam by means of a hydraulic cylinder, and the hinge connecting the rod to the transverse beam is universal.  3. The harrow according to claim 1, characterized in that each bar is provided with a circular knife fixed to its free end, and an annular groove is made on the axis of the needle disk, in which the cutting edge of the circular knife is placed.

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