RU2081524C1 - Soil tillage tool - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: device has mounting 11 with support wheel 2, frame formed by cross bar 3 and longitudinal bare 4 rigidly coupled with diagonal bar 5. Working members 6 are mounted on bar 5. Working members are provided with vertical coupling with bar. They carry crank with pins on their ends to connect coupling unit of working member 6 with diagonal bar 5 by means of parallel tie-rod 11. Device has also hydraulic cylinders 12 and 13. Diagonal bar 5 with working members 6 has front part 14 and rear part 15 connected by hinge joint 16 in horizontal plane and furnished with power mechanism 17 for turning rear part 15 of bar 4. Power mechanism rod 18 is connected with crank-stop 19 coupled with rear part 15 of diagonal bar by means of lock, when this part is in operating position. Stop-lock 20 of rear part 15 of bar 5 mounted on cross bar 3 serves to lock rear part in travelling-operating-symmetrical position. Support wheel 2 is connected by vertical hinge joint 21 with longitudinal bar 4 and is connected with hinge joint 23 of mounting by means of three-link mechanism 22. Cross bar 3 rigidly coupled with longitudinal bar 4 and front part 13 of diagonal bar 5 is provided with vertical force tie 24 with mounting 1 and rod 25 of parallelogram mechanism 26 with parallelogram mechanism 27 of working members 6. Posts of working members are straight-flat and are provided with chisel cutters-deformers. Tie-rod 25 of parallelogram mechanism 26 connecting mounting 1 with parallelogram mechanism 27 of working members 6 is made up of two plates for turning of one of plates through 180 degrees and fixing with attachment members and posts of last working member when rear part 14 of diagonal bar 5 is turned into travelling position. Working member post is fastened on frame by bolts. EFFECT: enhanced operation. 3 cl, 4 dwg

Description

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

 Known 8-body plow with adjustable working width PNI-8-40, containing a hitch, a support wheel, a transverse and longitudinal bars, and a diagonal beam with working bodies connected to the last vertically located communication node, the upper end of which is connected to one of the crank fingers and the other finger of the latter is connected with the thrust of the parallelogram mechanism for controlling the working bodies and hydraulic cylinders for controlling the working bodies and hydraulic control cylinders.

 The disadvantage of this device is the complication of the transportation conditions of this type of plow due to the significant longitudinal departure of the working beam with its rear part high up, since this is a loss of control of the unit and a deterioration in road safety, leading to a loss of transport speeds and an increase in time for cross-field travel, leading to loss of performance. In addition, a significant departure of the center of mass is an accelerated failure of the rear axle and tractor hitch. A significant departure of the working beam is the loss of field area during the processing of fields sandwiched by forest edges due to the significant width of the headlands and complicated turns at the end of the headland when processing complex slope fields associated with the expansion of the headland and the loss of time on turns. Complicated and operationally directed conditions for universalization, for example, the creation of a chisel gun based on it, associated with the need for complex chisel working bodies equipped with floorboards, the presence of which is a 20% increase in energy consumption and reduced productivity.

 The purpose of the invention is the increase in productivity and the expansion of functional characteristics.

 This goal is achieved by the fact that the diagonal beam of the plow is made of front and rear parts interconnected by a vertical hinge, and the rear part of the diagonal beam is equipped with a power mechanism for its rotation in the horizontal plane, made in the form of a hydraulic cylinder mounted on a longitudinal beam, the rod of which is connected to one the end of the stop crank, which secures the rear of the beam in the working position, and on the transverse beam there is a stop-lock of the rear of the beam in the transport-working-symmetrical m position, while the hinge is pivotally connected to the transverse beam, and the transverse beam is rigidly connected to the longitudinal beam and the front of the diagonal beam, has a vertical-articulated force connection with the hinge, and is connected to the parallelogram control mechanism of the working bodies by means of a parallelogram linkage, and the supporting the wheel is connected to the longitudinal beam by a vertical hinge, and with a hinge by means of a three-link.

 In addition, the racks of the working bodies are made straight flat and equipped with interchangeable deformers chisel incisors.

In addition, the thrust of the parallelogram mechanism connecting the hitch to the parallelogram control mechanism of the working bodies is made of two strips, one of which is mounted with the possibility of rotation by 180 ^o and its fixation with the fastening elements of the rack of the last working body when turning the rear of the diagonal beam to the transport position .

 The invention is illustrated by drawings.

 Figure 1 shows the device in operating and transport positions, in plan (while the back of the diagonal beam with its working bodies is shown in dashed lines); figure 2 shows the transport and working position of the device, in plan, equipped with a chisel version of the working bodies and allowing the tool to be used for subsurface tillage, as a chisel-symmetrical short-base plow; figure 3 shows the bracket-leash mounting the rack of the working bodies with a diagonal beam and a parallelogram mechanism for their control; figure 4 the same top view of figure 3; figure 5 shows the design of the articulation of the diagonal beam with brackets-leashes for fastening the working bodies and the thrust of the control mechanism of the working bodies.

A tillage implement containing a linkage 1, a support wheel 2, a transverse 3 and a longitudinal 4 bars, and a diagonal beam 5 with working bodies 6 connected to the last vertically located communication unit 7, the upper end of which is connected to one of the fingers 8 of the crank 9, and the other finger 10 of the latter is connected with the thrust 11 of the parallelogram mechanism 12 for controlling the working bodies 6 and hydraulic cylinders 13 and 14 of the control. In this case, the diagonal beam 5 is made of the front 15 and rear 16 parts interconnected by a vertical hinge 17, and the rear part 16 of the diagonal beam 5 is equipped with a power mechanism for its rotation in the horizontal plane, made in the form of a hydraulic cylinder 14 mounted on the longitudinal beam 4, the rod 18 which is connected to one end of the crank of the stop 19, which fixes the rear part 16 of the beam 5 in the working position, and on the transverse beam 3 there is a stop-lock 20 of the rear part 16 of the beam 5 in the transport-working symmetrical position and. In this case, the hinge 1 is connected to the transverse beam 3 of the hinge 21, and the transverse beam 3 is rigidly connected with the longitudinal beam 4 and the front part 15 of the diagonal beam 5, has a vertical-articulated force connection 22 with the hinge 1, and is connected with the rod 11 of the parallelogram mechanism 12 to parallelogram mechanism 23 of the control of the working bodies 6, and the support wheel 2 is connected to the longitudinal beam 4 vertical 24, and with the hinge 21 of the hinge by means of a three link 25. Racks 26 of the working bodies 6 are made straight flat, equipped with interchangeable deformers izelnymi cutters 27. Link 11 parallelogram mechanism 12 connecting with a sample of one parallelogram mechanism controller 23 working organs 6 is formed of two strips 28 and 29, one of which is pivotally mounted at 180 ^o and its fixing with fixing elements 30 and 31 of the rack 22 of the last working body 32 when turning the rear part 16 of the diagonal beam 5 in the transport position. The working body 6 to the rack 26 is attached with bolts 33 and 34.

 The tillage implement works by the following body.

 The driven drive tool operates in the form of a separate plow (figure 1) and shuttle in a symmetrical version of the V shaped (short-base) chisel plow.

 On bends at the end of the headland, especially when processing areas with a difficult (slope) topography, areas sandwiched by forest edges and long-distance transportation, which must be performed at higher speeds to reduce time losses due to field trips due to loss of productivity, as well as to reduce the loads operating on the rear axle of the tractor and its hitch it is necessary to give the implement an optimal longitudinal length, while providing optimal longitudinal stability to the implement with minimal lateral dimensions dangerously "increasing" during a turn and a detour ahead of a transport due to a "cast" towards the roadway end parts of long-base guns. The elimination of these shortcomings in the proposed device is achieved by reducing the longitudinal dimensions both in the corners at the end of the headland and during transportation. At the same time, the possibility of reducing the longitudinal dimensions by folding the working beam in the horizontal plane makes it possible to equip this implement with a device that allows changing the working width. At the same time, folding the implement frame, in which the rotary part of the diagonal working beam 5 occupies a symmetrical position and gives the frame a V-shape, allowing you to create a chisel tool on the frame, a chisel plow for irrigated soil cultivation. This is also facilitated by the use of a flat straight rack common for two types of working bodies of dump and baseless, mounted on brackets of the holders, that is, in communication nodes 7 of the lead type, which allows, in contrast to the prototype, to organize the protection of working bodies from meeting with an insurmountable obstacle by the introduction of shear bolts 34.

 The reduction of the longitudinal dimensions is achieved by turning on the hydraulic cylinder 13, which, translating the rear part 16 of the diagonal beam 5 from the working position to the transport-working position, is symmetrical with respect to the initial one, fixed by a stop 20, closed during long-distance transportation and when using the gun in a symmetrical chisel version. To do this, include a hydraulic cylinder 13, the rod of which is elongated and rests on the crank stop 19, rigidly connected with the back of the diagonal beam 5 and, turning the latter around the hinge 17, and closes the end of the diagonal beam 5 with the transverse beam 3, where it is held by the fixing element 20.

 Changing the width of the guns is carried out by turning on the hydraulic cylinder 13 power connection. When this happens, the rotation of the working frame, which includes rigidly interconnected transverse beam 3, a longitudinal beam 4 and the front part 15 of the diagonal beam 5, while maintaining the working bodies 6 of the longitudinal position due to the interaction of the parallelogram rod 11, pivotally at a point 21 connected with the hinge 1 and parallelogram mechanism 23 of the working bodies 6.

 The longitudinal position of the rolling plane of the support wheel 2 is ensured by articulation 24 of its axis with the longitudinal beam 4 and the presence of a three link 25 connecting the axis of rotation of the wheel 2 with the hinge 21 of the linkage 1.

Preparation for operating the implement as a symmetrical chisel plow involves replacing the deformers of the dump body with the chisel cutter, assuming that the implement has been transferred to the transport-working position in a symmetrical position, i.e. the rear part 16 of the beam 5 is fixed to the transverse beam 3 with a latch 20 , and one of the rods 29 of the rod 11, being deployed around the hinge 21 by 180 ^o , is articulated at its end with the crank of the rack 31 of the last working body 32. The hydraulic cylinders 13 and 14 are disconnected.

 Before plowing, study the working conditions of the unit. The implement is adjusted to an approximate working width, make a control pass and observe the work and the quality of plowing and, if necessary, change the working width of the plow.

Positive features of the proposed tool:
increased productivity due to the ability to optimize the working width due to changing soil conditions in different fields and on the same field;
the possibility of operating the unit both on a flat and sloping terrain with a significant reduction in the width of the headlands and better use of the field site under the conditions of operation of the tool on irregularly shaped fields, clamped by forest edges;
providing the possibility of high-speed transportation while increasing traffic safety, i.e. reduction of time of inter-field movements, which provides increased productivity;
the possibility of universal application for both dumping and non-moldboard treatments, and the possibility of operating the tool in a symmetrical chisel version, which reduces energy and operating costs, is associated with the possibility of using simplified chisel working bodies devoid of field boards, which make it possible to process the soil at higher speeds (at the same number of working bodies as in the dump version of the tool, with the same and greater capture), leading to improved quality tillage and productivity. It should be noted here that the initial installation angle of the diagonal beam 5 is selected from the condition of the greatest inter-pillar distance, and in this case, typical for the operation of the gun in the chisel version, equal to 50 cm;
Improving the operating conditions of the tractor, providing increased service of the rear axle and tractor hitch.

Claims (3)

 1. A tillage implement containing a hitch, a support wheel, a transverse and a longitudinal beam and a diagonal beam with working bodies connected to the last vertically positioned communication angle, the upper end of which is connected to one of the crank fingers, and the other finger of the latter is connected to the parallelogram linkage control mechanism working bodies, and control hydraulic cylinders, characterized in that the diagonal beam is made of front and rear parts interconnected by a vertical hinge, and the back of the diagonal The flat beam is equipped with a power mechanism for its rotation in the horizontal plane, made in the form of a hydraulic cylinder mounted on a longitudinal beam, the rod of which is connected to one end of the crank stop, which fixes the rear of the beam in the working position, and the stop-lock of the rear of the beam is placed on the transverse beam transport-working symmetrical position, while the hinge is pivotally connected to the transverse beam, and the transverse beam is rigidly connected to the longitudinal beam and the front of the diagonal beam, having vertically-jointed connection to the power and by lifting traction parallelogram mechanism is connected with a parallelogram control mechanism working bodies, said support wheel being connected to the longitudinal beam a vertical hinge and a hinge linkage by trehzvennika.  2. The tool according to claim 1, characterized in that the racks of the working bodies are made straight flat and equipped with interchangeable deformers chisel cutters. 3. The tool according to claim 1, characterized in that the thrust of the parallelogram mechanism connecting the linkage to the parallelogram control mechanism of the working bodies is made of two trims, one of which is mounted rotatably by 180 ^o and its fixation with the fastening elements of the rack of the last working body when turning the rear of the diagonal beam into the transport position.

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