RU2050085C1 - Combination tiller for cultivation of row middles and rows of perennial plants - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: tiller has disk gangs 2, sweeps 3 and chisels 4 and controlled turnable flat hoes 5 with piece 6, all arranged in tandem on frame 1. Flat hoes 5 are connected with frame 1 by means of vertical hinge joint 7 and are loaded by spring 8 relative to frame 1 by means of front bracket 10 rigidly connected to standard 9 of flat hoe 5. Chisel 4 is arranged in one plane with flat hoe 5 behind standard 9 of flat hoe 5. Extreme disks 11 of each disk gang 2 are installed at each side of tool with overlapping equal to or greater than width of inner wing 12 of symmetrical flat hoe 5. Main chisel 4 and additional chisel 13 are installed on one half of width 0.5 B of flat hoe 5 behind its inner wing 12. Inner chisel 13 has standard with operating length exceeding that of operating length of standard of chisel 4 and it is installed at a distance from nose of flat hoe 5 equal to 1.63 B. Angle between horizontal and straight lines connecting noses of flat hoe 5 and chisel 4 is equal to 6-16 degrees and that between lines connecting nose of chisel 13 is equal to 6-14 degrees. Chisel 4 is located at distance of 0.89 B from nose of flat hoe 5. Plane of cutting of extreme disk 11, depending on angle of incidence of disk gang, can be located at distance of (0.3-0.4)B. Length of front bracket 10 of flat hoe 5 whose standard 9 thrusts against hoe turning stop and length of rear bracket 17 are equal to 0.14 B. To kill pushes of spring 8 transmitted to hoe 5 its standard 9 has device in form of rectangular trapezium, 0.1 B in height, where B is width of symmetrical turnable flat hoe 5. Device is rigidly coupled with shoe connected to standard 9 of flat hoe 5. EFFECT: enlarged operating capabilities. 2 dwg

Description

 The invention relates to agricultural machinery, in particular to tools for the care of perennial plantings of fruit crops, such as vineyards.

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

 In FIG. 1 shows a tillage implement, top view; figure 2 is the same side view.

The tool contains sequentially located on the frame 1 disk batteries 2, lancet 3 and chisel 4 lamps and controlled rotary flat-cutting legs 5 with a cultivator 6, connected to the frame by means of a vertical hinge 7, spring-loaded relative to the frame 1 by a spring 8 through the front foot 5, rigidly fixed to the rack 9 bracket 10. Behind the rack 9 of the rotary paw 5, the chisel paw is located in the same plane with it 4. The extreme disks 11 of each disk battery 2 on each side of the implement are installed with an overlap equal to or greater than the width grip of the inner wing 12 of the symmetrical swivel leg 5. On one half of the grip width 0.5b of the swivel leg 5, behind its inner wing 12, there are additional chisel legs 13. The chisel leg 13, the working length of the rack 14 which exceeds the working length of the rack 15 of the chisel leg 4, mounted at a distance from the tip of the paw 5 by a value of 1.63b. The angle between the horizontal and the line connecting the socks ploskorezhuschey pivot 5 and chisel 4 paws is ^about 6-16, and 6-14 ^{of the} legs 13. The paw 4 is placed at a distance from the toe of the paw 5 0.89b. The reference point of the extreme disk 11, depending on the angle _of attack _{4 of} the battery, can be located at a distance of (0.3-0.4) b. The length of the front bracket 10 of the paw 5, in which the rack 9 abuts against the limiter 16, towards the rows of vineyard bushes, and the length of the rear bracket 17 for linking the spring 8 with the frame 1 is 0.14b. To repay the shocks of the spring 8 on the swivel foot 5, its stand 9 is equipped with a flag 18 made in the form of a rectangular trapezoid with a height of 0.1b, where b is the width of the swivel symmetrical foot 5. The flag 18 is rigidly connected to the shoe 19, attached to the stand 9 of the swivel foot 5 .

 The gun works as follows.

Install disk batteries 2 at an angle of attack α ₄ to the depth of processing L ₁ , lancet paws 3 to a depth of L ₂ , paw 4 to a depth of L ₃ , paw 13 to a depth of L ₄ . During the working course, the disks of the battery 2 pre-loosen the top layer of soil, cut off the stems and sections of the cut vines, excluding the clogging of the lancet 3, chisel 4, 13 and rotary 5 paws. Mounting the extreme disks 11 of the batteries 2 exactly in front of the rack 9 of the swivel foot 5 prevents clogging of its rack 9 without damaging the shoots of the grape bush. Swivel paw 5, cutting weeds, cultivates the soil of a row and the protective zone of vineyard bushes. The cut soil layer of the protective zone and row is turned towards the row-spacing by the tiller 6 paws 5. The chisel paws 4 and 13 looser the soil deeper and stabilize the depth of the disk drive of the disk battery 2, lancet 3, rotary 5 paws. In front, a walking paw 4 loosens the soil in layers, compacted by the passages of the movers of aggregates of different purposes, by workers involved in the care of grape bushes. In this case, the paw 4 loosens the soil and compresses, deforms the lateral layers, and after it passes at the time of expansion of the deformed layers, the paw 13 loosens and deforms the soil behind the inner wing 12 of the paw 5. The placement of the chisel paws 4 and 13 to different depths is explained by the fact that the protective zone of the row closer to the bushes, the roots are closer to the day surface and cannot be damaged, and further deepening is allowed towards the middle of the aisle, since the roots are located deeper there. As a result of the joint work of the front 4 and rear 13 paws, the protective zone of the vineyard is loosened, and the integrated work of all working bodies: disk battery 2, lancet ploskorezhy and chisel paws, provides a stable and reliable operation of the implement.

 The selected length of the brackets 10 and 17 provides a quick response to changes in the resistance of the outer wing of the paw 5. When the outer wing meets the “monolith” root system and compacted soil, the resistance to the outer wing increases. Therefore, the rotary paw 5 is forced to rotate a certain angle inward, while the spring 8 is compressed and its tremors are quenched by the flag 18, resting on the loose soil layer from the row spacing, and after going around the outer wing bush, the wing drags are equalized and the elastic force of the spring 8 returns the rotary paw 5 to the starting position. Next, the cycle repeats.

Claims (1)

COMBINED TOOLS FOR TILLING SOIL BETWEEN ROWS AND ROWS OF PERENNIAL PLANTS, containing disk batteries, lancet and chisel legs with racks sequentially mounted on the frame, while the disk batteries are mounted at an angle of attack, and their extreme parts are shifted in the direction of movement, each of which the paws are connected to the frame by means of a vertical hinge, spring-loaded relative to it and equipped with a tiller, and each of the chisel paws is located behind one of the extreme plane-cutting paws in one with it a longitudinally vertical plane and has a working rack length greater than the working length of the strut of a plane-cutting paw, and the angle between the horizontal and a straight line passing through the socks of the claw-cutting paw and the chisel paw placed behind it is 6 16 ^o , characterized in that behind each chisel paw an additional chisel paw is installed with offset in the longitudinal and transverse planes to the axis of symmetry of the gun, the working length of the rack of which is greater than the working length of the rack of the main chisel paw, and the distance from the toe of the plane-cutting paw is sock primary paw chisel equal 0,89b, where b ploskorezhuschey paw width, and further to the toe chisel paw 1,63b, wherein the angle between the horizontal and the line joining socks and ploskorezhuschey paws is extra chisel June 14 ^o, and the cutting plane fielder the disk of each battery is located at a distance of 0.3 0.4b, and the lengths of the front and rear brackets of the flat-cut legs are 0.14b, the frame is equipped with limiters for turning the flat-cut legs, and the rack of each flat-cut legs is equipped with a flag for suppressing spring shocks, made in the shape of a rectangular trapezoid with a height of 0.1b and rigidly fixed to the shoe.

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