RU208702U1 - IMPLEMENT FOR TILLING THE SOIL - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to soil-cultivating implements. The soil-cultivating implement contains clamping devices connected through an adjusting plate by means of a beam equipped with a device for setting the working depth of the soil-cultivating tool, represented by a number of rods located perpendicular to the direction of movement of the tillage tool soil, pressing rollers located at the very end of the beam, a three-point linkage connected by means of a support to a frame connected to the beam and consisting of front and rear parts with fasteners located on them, presented in pairs with a certain step along each of the parts of the frame with perforated plates , to which suspensions are attached, compensating for overloads of soil-cultivating devices, one of which, located closer to the center of the rear of the frame, is shifted forward in the direction of movement of the implement for tillage relative to the total about the location of a row of tillage devices located on the rear of the frame, and the other, located closer to the center of the front of the frame, is shifted back, against the direction of movement of the tool for tilling the relative general location of the row of tillage devices located on the front of the frame, while the tillage devices one of the halves of the frame parts are mirrored to the soil-cultivating devices of the other halves of the frame parts, respectively, and the hollow concave discs belonging to them with a serrated outer edge are located at an angle to the soil surface and the longitudinal axis of the tillage implement, a modified rotary axis of the suspension of the working body, having at one end cap-limiter, and on the other - a thread for a nut, split bushings with a cone-shaped hole located at each end of the rotary axis of the suspension of the working body in such a way that the outer surface of the bushings is adjacent to the surfaces of the corresponding their holes in the mounting plates of the frame, and the wide end of the bushings faces the side of the suspension, cone-shaped bushings, made in response to the split bushings and located at each end of the rotary axis of the suspension of the working body in such a way that the wide end of the bushings faces away from the suspension, which ensures the ability to quickly eliminate the backlash of the rotary axis of the tillage body.

Description

The utility model relates to the field of agricultural engineering, in particular to tillage implements.

A device is known (patent US 9398738B2 dated 2016-07-26), taken as a prototype, containing two tool rows with inclined tillage devices made in the form of hollow disks in such a way that one of the hollow disks in the first row is slightly offset back, and one of the hollow disks in the second row is located offset forward, while, to prevent lateral displacement of the tillage tool, all the hollow disks of one of the halves of each row are located symmetrically to the hollow disks of the other halves of the rows and spaced apart at a certain distance where the hollow disks face to each other with convex sides or concave sides, which optimizes soil flow and prevents the working bodies from colliding with each other, thus ensuring uniform cultivation across the entire working width of the machine.

The disadvantage of this device is the impossibility of repair in the field, the cause of which is the wear of the holes of the mounting plates of the suspension of the soil-cultivating organs due to constant vibration loads during the operation of the tillage equipment, as a result of which a backlash occurs at the contact points of the rotary axis of the suspension and the mounting plate, which increases the wear of the device, deflecting the worker. body from its original design position, which ultimately leads to poor-quality tillage and the need to take the entire unit out of operation for the time of repair, which is unacceptable in case of limited tillage time, as well as in the case of tillage in a remote area remote from the site, suitable for renovation work.

The task to be solved by the claimed utility model is to provide an opportunity for prompt elimination of the backlash of the rotary axis of the tillage body.

The technical result is achieved by the fact that the tool for tillage, containing attached through the adjusting plate by means of a beam, equipped with a device for setting the depth of work of the tool for tillage, clamping devices, represented by a number of rods located perpendicular to the direction of movement of the tool for tillage, pressing rollers located in at the very end of the beam, a three-point hitch connected by means of a support to a frame connected to the beam and consisting of front and rear parts with fasteners located on them, represented by perforated plates placed in pairs with a certain step along each of the parts of the frame, to which suspensions are attached, compensating overload of tillage implements, one of which, located closer to the center of the rear of the frame, is shifted forward in the direction of movement of the implement for tillage relative to the general arrangement of a number of tillage implements located on the rear part of the frame, and the other, located closer to the center of the front part of the frame, is shifted back, against the direction of movement of the tool for tilling the relative general arrangement of a row of tillage devices located on the front part of the frame, while the tillage devices of one of the halves of the frame parts are mirrored to the tiller devices of the other halves of the frame parts, respectively, and their hollow concave discs with a serrated outer edge are located at an angle to the soil surface and the longitudinal axis of the tool for tillage, additionally contains a modified rotary axis of the suspension of the working body, which has a cap-limiter at one end, and another thread for a nut, split bushings with a cone-shaped hole located at each end of the rotary axis of the suspension of the working body in such a way that the outer surface of the bushings is adjacent to the surfaces of the corresponding holes in the frame mounting plates, and the wide the end of the bushings is turned towards the suspension, the cone-shaped bushings are made in response to the split bushings and are located at each end of the rotary axis of the suspension of the working body in such a way that the wide end of the bushings is turned away from the suspension, which makes it possible to quickly eliminate the backlash of the rotary axis of the soil-cultivating body.

The technical result is illustrated by drawings.

In Fig 1. - Tool for tillage (top view).

In Fig 2. - The working body of the tool for tillage (View A).

In Fig 3. - Attachment of the suspension to the frame (local section).

The tool 1 for tillage contains a three-point linkage 2, which is connected by means of a support 13 with a frame 3, consisting of a front part 4 and a rear part 5. Fasteners are located on parts 4 and 5 of the frame 3, represented by perforated mounting plates 6, placed in pairs with a certain step along each of the parts 4 and 5 of the frame 3. Attached to the mounting plates 6 are suspensions 7 of tillage devices 8, presented in the form of hollow concave disks with a serrated outer edge, while one of the tillage devices 8, located closer to the center of part 4 of frame 3, is displaced forward in the direction 9 of movement of the implement 1 for tillage relative to the general arrangement of a row of tillage devices 8 located on part 4 of the frame 3, and one of the tillage devices 8, located closer to the center of part 5 of the frame 3, is shifted back against the direction 9 of movement of the tool 1 for processing soils of the relative general location of the soil-cultivation series cultivating devices 8 located on part 4 of frame 3, also soil-cultivating devices 8 of one of the halves of parts 4 and 5 of frame 3 are mirrored to soil-cultivating devices 8 of other halves of parts 4 and 5 of frame 3, respectively, while hollow concave discs with a serrated outer edge of soil-cultivating devices 8 are located at an angle to the soil surface and the longitudinal axis of the tool 1 for tillage. By means of the beam 10 through the adjusting plate 14 to the frame 3, clamping devices 11 are attached, represented by a row of rods located parallel to parts 4 and 5 of the frame 3, as well as pressing rollers 12 located at the very end of the beam 10. The beam 10 is equipped with a device for setting the depth of the tillage devices 8. Attachment of suspension brackets 7 tillage devices 8 is carried out with the help of axle 15 and slotted bushings 16 having cone-shaped holes and located inside holes 17 of mounting plates 6, and cone-shaped bushings 18. Axle 15 contains cap-limiter 19, nut 22 and section 20 with thread . The bushings 16, 18 are located on the axle 15 in pairs at each of its ends, while the bushings 18 are oriented in response to the bushings 16, and their wide end 21 is oriented away from the suspension.

The tool 1 for tillage works as follows: a tractor clings to the three-point linkage 2, connected by means of a support 13 to the frame 3, consisting of the front part 4 and the rear part 5, creating tractive force and moving the tool 1 across the plowed field. With the help of the depth setting device, the required level of tillage is set. In the course of movement, tillage devices 8 carry out cultivation and, upon contact with solid soil areas, transfer the force that has arisen in them to suspension 7, part of which is extinguished, and part is transferred to parts 4, 5 of the frame 3 by means of mounting plates 6. Then the loosened soil falls under clamping devices 11, each row of rods of which distributes, partially breaks earthen clods and levels the soil surface. After the earth falls under the pressing rollers 12, located at the very end of the beam 10 and finally leveling the soil surface.

Due to the fact that one of the tillage devices 8 is located closer to the center of part 4 of the frame 3 and is shifted back against the direction 9 of movement of the implement 1 for tillage relative to the general arrangement of a number of tillage devices 8 located on part 4 of the frame 3, and the other tillage device 8 , located closer to the center of part 5 of frame 3, is shifted forward in the direction 9 of movement of the tool 1 for tilling the soil relative to the general location of a row of tillage devices 8 located on part 4 of frame 3 at the time of cultivation, inter-row earthen hills are broken, arising due to the work of mirror-located tillage devices 8 of one of the halves of parts 4 and 5 of the frame 3 tillage devices 8 of the other halves of parts 4 and 5 of frame 3, respectively. When this is located at an angle to the surface of the soil and the longitudinal axis of the tool 1 for tillage tillage devices 8 produce loosening without wrapping. In the event of a backlash in the attachment points of the suspensions 7 of the tillage devices 8, the tractor operator stops the mechanism and, using a wrench, tightens the nut 22 located in the threaded section 20. At this moment, the cone-shaped sleeve 18 located on the side of the nut and the cone-shaped sleeve 18 located on the side of the cap-limiter 19 begin to press the split sleeves 16 from both sides, which have cone-shaped holes, which in turn will begin to open, thereby compensating for the backlash. The tractor operator tightens the nut until the play is eliminated. After that, the stopped mechanism is returned to operation.

Claims (1)

SUBSTANCE: tool for tillage, containing attached through an adjusting plate by means of a beam equipped with a device for setting the depth of work of the tillage tool, clamping devices, represented by a row of rods located perpendicular to the direction of movement of the tillage tool, pressing rollers located at the very end of the beam, a three-point a hinge connected by means of a support to a frame connected to a beam and consisting of front and rear parts with fasteners located on them, represented by perforated plates placed in pairs with a certain step along each of the parts of the frame, to which suspensions are attached to compensate for overloads of tillage devices, one of which, located closer to the center of the rear of the frame, is shifted forward in the direction of movement of the implement for tillage relative to the general arrangement of a number of tillage devices located on the rear of the frame, and the other, located which is closer to the center of the front part of the frame, is shifted back against the direction of movement of the implement for tilling the relative general arrangement of the row of tillage devices located on the front part of the frame, while the tillers of one of the halves of the frame parts are mirrored to the tillers of the other halves of the frame parts, respectively, and hollow concave discs belonging to them with a serrated outer edge are located at an angle to the soil surface and the longitudinal axis of the implement for tillage, characterized in that the rotary axes of the suspensions of the working bodies have a limiter cap at one of their ends, and a thread for a nut at the other, split bushings with a cone-shaped hole located at each end of the rotary axis of the suspension of the working body in such a way that the outer surface of the bushings is adjacent to the surfaces of the corresponding holes in the frame mounting plates, and the wide end of the bushings is turned towards the suspension, the cone shaped bushings made in response to the split bushings and located at each end of the rotary axis of the suspension of the working body in such a way that the wide end of the bushings faces away from the suspension.

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