RU193872U1 - Swivel Plow - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to devices for primary tillage, designed for loosening and dump smooth plowing. To increase the strength parameters of the frame, the ability to control the angle of attack and inclination of the discs, reduce energy costs, simplify the conversion, the front beam 1 is made in the form of a rectangular frame, inside of which is mounted the design of sockets, assembled from plates 13, for mounting and staggering racks of 14 chisel working bodies s, connected by means of a parallelogram mechanism 15 with a fixed, also rectangular section of the frame 3, equipped with mounting brackets in front of the outer surface of the side beams for mounting the parallelogram mechanism 15, and on the inner surface of the front beam by the mechanism 16 for raising and lowering the beam 1, the movable section also made in the form of a rectangular frame 6, equipped with a pivot 17 on the central transverse beam, which is part of the rotation mechanism, welded on the front and rear beams of the bracket itami movement blocks 18, placed in an arcuate mounted in the front and rear of the fixed section of the frame 3 rails 4, disks 7 type camomile with bearing assemblies 9, mounted inside the concave side, struts 8 of which are pivotally mounted in glasses 19 with sectors-regulators, fixed in the side beams, and are equipped with levers 20 associated with rods 21 changing the angle of attack of the discs 7, respectively, for the right and left row, in the range of 15 ... 75 ° with respect to the longitudinal axis, each disc being able to change the angle of inclination with respect to the field surface, the rear beam of the fixed frame 3 is equipped on its sides with mounting brackets for the roller 11, and on the inner surface of the rear beam with a mechanism 12 for raising and lowering the roller 11, and the rotation mechanism 5 is mounted on the middle beam 23 of the frame 3 fixed sections and is equipped with a hydraulic actuator.

Description

The utility model relates to the field of agricultural engineering, in particular to devices for basic tillage, designed for loosening and dump smooth plowing.

A device is known (see RF patent 2618342), comprising a frame made of two sections pivotally connected to each other - movable with plow bodies fixed on it and stationary - with an arcuate guide, and a rotation mechanism, while, according to the invention, plow bodies are made in in the form of concave rectangular plates with lower sharpening, equipped with welded tooth fingers and paired plate brackets for fastening, using holes and fingers symmetrically and perpendicularly, rigidly and articulated lennoy from a pipe with a square profile of the beam of the movable section, which is equipped with a vertically welded cantilever axis that enters from below into the bearing sleeve of the stationary section, the rotation mechanism is represented by kinematically connected asterisk, worm gear with a DC motor mounted at the beginning of the movable section, and a pin rail fixed on the lower side, made of the channel of an arcuate guide, while on the outside, the arcuate guide is equipped with paired plate with brackets, for fixing subsurface working bodies containing lamellar ones, with perforation for height adjustment, holders with front-welded tube posts with mounted cylindrical racks placed at an angle of 35-38 ° to the soil surface, flat-bottomed chisels at an angle of 10-13 ° , with back-mounted drains at the bottom or at the height required according to agronomic requirements, with flat-cut paws, with the paws located at an angle of 10-13 ° to the soil surface, made semicircular with agitators, equipped with in front there is a notch and welded brackets for fixing on the holders, and the electric motor is connected to the tractor power system, and to stop and reverse the arcuate guide is equipped with stops and limit switches at the ends.

The disadvantages are as follows: the presence of plow bodies working on two sides, which also causes high energy costs, including problems in their manufacture, their high metal consumption due to the presence of a large number of components, in addition, plow bodies do not provide high-quality crumbling and overturn of the formation, another drawback is that this device does not carry out the rolling of the formation, that is, the functionality is low, and the rotation mechanism is complicated.

The closest in technical essence and the achieved economic effect is the utility model (see RF patent for utility model No. 184196 "Plow with a rotary beam"), including a welded frame equipped with a hitch system, made of two sections articulated between each other - stationary with a front beam in the form of an arcuate guide equipped with paired plate brackets for fixing chisel working bodies containing plate holders with perforation for reinstallation in height, as well as for installation of sz go down to the required, according to agronomic requirements, height of the additional tillage organ, and the holders are welded to the tube posts with mounted cylindrical, placed at an angle of 35-38 ° to the soil surface, bits with a flat sole, made at an angle of 10-13 °, and movable in the form of a rotary beam connected to an arcuate guide and having a square tube profile with working bodies fixed thereon for turning the formation, a rotation mechanism, while according to the utility model, the working formation rotation barrels are made in the form of two spherical disks with struts and bearing units equipped with spacer hydraulic compensation ring elements with seals, a spring and a grease fitting, while the spherical disks are mounted on brackets symmetrically with respect to the rotary beam and at an angle of 140-150 ° to each other, and the intersection points of their projections are placed along the track of the chisel chisels, and the rear of the rotary beam is connected with the rotation mechanism, made in the form of a carrier beam placed in the slot, attached to a carriage equipped with a worm electric drive and pinion kinematically connected to a rail mounted on a transverse beam rigidly fixed to the frame with a U-shaped bracket, and on the U-shaped bracket parallel to the transverse beam, a press roller is mounted pivotally and with a possibility of changing the height the additional tillage body is made in the form of a plane-cutting paw, and the additional tillage body is made in the form of a trainer, and the spherical discs are made with elk, and spherical discs are made of gear.

The disadvantages are: the difficulty of reinstalling the chisel working bodies and the support roller, the fragile design of the frame due to the consoles, there are no mechanisms for adjusting the angle of attack, the angle of inclination of the discs for different soils (because the composition and humidity of the soil have differences), which affect the energy consumption of the process.

The technical result is to increase the strength parameters of the frame, the ability to control angles of attack and tilt of the discs, reducing energy costs, simplifying the conversion.

The technical result is achieved by the fact that in a universal plow with a swivel beam, including a front beam with chisel working bodies and a frame welded with a hitch system, which consists of two sections articulated between each other - a stationary one with an arcuate guide and a rotation mechanism and a movable section attached to it working bodies for the turnover of the reservoir, made in the form of spherical disks with struts and bearing units, which are installed symmetrically with respect to the rotary beam and at an angle of 140 -150 ° to each other, and the intersection points of their projections are placed along the track of the chisel chisels, a press roller installed with the ability to change the height, and steel pipes of a square profile according to a utility model, the front beam is made in the form of a rectangular frame, inside of which is assembled from plates design of sockets for fastening and staggering racks of chisel working bodies connected by means of a parallelogram mechanism to a fixed, also made rectangular section ra we are equipped in the front part on the outer surface of the side beams with mounting brackets for attaching a parallelogram mechanism, and on the inner surface of the front beam with a beam lifting-lowering mechanism, the movable section is also made in the form of a rectangular frame equipped with a kingpin on the central transverse beam, which is part of the rotation mechanism, motion blocks welded on the front and rear beams with brackets placed in arched guides mounted in the front and rear of the fixed section and frames, camomile-type disks with bearings mounted inside the concave side, the racks of which are pivotally mounted in glasses with sector-regulators fixed in the side beams and equipped with levers connected with rods for changing the angle of attack of the disks, respectively, for the right and left row, in the range of 15 ... 75 ° with respect to the longitudinal axis, moreover, each disk has the ability to change the angle of inclination relative to the field surface, the rear beam of the fixed frame on the sides is equipped with roller mounting brackets on the outside, and from the inner surface of the rear beam - the mechanism of raising and lowering the roller, and the rotation mechanism is mounted on the middle beam of the frame of the fixed section and is equipped with a hydraulic drive.

The new elements are that - the front beam is made in the form of a rectangular frame, inside of which there is mounted a design of slots assembled from plates for fastening and staggering the racks of chisel working bodies connected, through a parallelogram mechanism, to a fixed frame made also in the front of the frame and equipped in the front parts on the outer surface of the side beams with mounting brackets for attaching a parallelogram mechanism, and on the inner surface of the front beam with a mechanism lifting-lowering the beam, the movable section is also made in the form of a rectangular frame equipped with a kingpin on the central transverse beam, which is part of the rotation mechanism, brackets of motion blocks welded on the front and rear beams placed in the guide rails mounted in the arcuate mounted in the front and rear parts of the fixed frame section, camomile-type disks with bearings mounted inside the concave side, the racks of which are pivotally mounted in glasses with sectors-regulators fixed in the side beams and equipped with levers connected with rods to change the angle of attack of the disks, respectively, for the right and left row, in the range of 15 ... 75 ° with respect to the longitudinal axis, moreover, each disk has the ability to change the angle of inclination with respect to the field surface, the rear beam of the fixed frame on the sides on the outside it is equipped with mounting brackets for the roller, and on the inner surface of the rear beam with a mechanism for raising and lowering the roller, and the rotation mechanism is mounted on the middle beam of the frame of the fixed section and is equipped with a hydraulic drive.

The essence of the utility model "Plow with a rotary beam" is presented in the drawings: where in FIG. 1 - shows the plow assembly; in FIG. 2 - front beam front view; in FIG. 3 - fixed section of the frame with a hitch; in FIG. 4 - movable section of the frame with disks; in FIG. 5 - View A; in FIG. 6a - a glass with a sector-regulator in a perspective view; in FIG. 6b - a glass with a sector-regulator top view; in FIG. 7 - View B; in FIG. 8 - View D

The utility model "Plow with a rotary beam" contains a front beam 1 with chisel working bodies and a frame welded with a hitch system 2. The frame consists of two sections pivotally interconnected - a stationary 3 with an arcuate guide 4 and a turning mechanism 5 and a movable 6 section with working bodies fixed on it for turnover of the formation. The working bodies for the formation rotation are made in the form of two spherical disks 7 with struts 8 and bearing units 9, which are installed symmetrically relative to the rotary beam and at an angle of 140-150 ° to each other, and the intersection points of their projections are placed along the track of 10 chisel working bodies . A packer roller 11 is installed at the rear of the stationary section 3 of the frame. The roller 11 has the ability to change the height due to the lifting mechanism 12. The front beam 1 is made in the form of a rectangular frame from a square-shaped steel pipe. Inside the frame of the beam 1 mounted nestled from the plates 13 nest design for mounting and staggered racks of 14 chisel working bodies. The frame of the beam 1 is connected by means of a parallelogram mechanism 15 with a stationary frame made also of rectangular section 3 of a frame welded from steel pipes of a square profile. The fixed section 3 is equipped in the front part on the outer surface of the side beams with mounting brackets for mounting the parallelogram mechanism 15, and on the inner surface of the front beam by the mechanism 16 for raising and lowering the beam 1. The movable section 6 (pivot beam) is also made in the form of a rectangular frame made of steel pipe square profile. The movable section 6 is equipped with a pin 17 which is part of the rotation mechanism. The movable section 6 is equipped with brackets of the motion blocks 18 welded on the front and rear beams located in the arcuate guides 4 mounted in the front and in the rear of the fixed section 3. The movable section 6 is equipped with camomile-type disks 7 with bearing assemblies 9 fixed inside the concave side, whose struts 8 pivotally mounted in glasses with sector-regulators 19 fixed in the side beams. Racks 8 are equipped with levers 20 of FIG. 4, which are connected by pins 21 with rods 22 made in the form of plates. The levers 20 have holes for fixing the rods 22 together with the uprights 8 and serve to change the angle of attack of the discs 7, respectively, for the right and left row, in the range 15 ... 75 ° with respect to the longitudinal axis. Glasses with sectors-regulators 19 are made in the form of a unit consisting of a plate sector with 13 holes arranged in two rows with a step of 5 ° Fig. 6b. The angle between the outer holes is 60 °. The regulator sector is mounted on a steel cup with upper and lower plain bearings. For fixing, a bolt with a nut (not shown in the diagrams) is used in one place with the required angle of attack of the discs 7. In addition, each disc 7 has the ability to change the angle of inclination relative to the field surface, for which there are three holes in the rack 8 (not shown in the diagrams ), and in the brackets welded to the bearing units 4 holes. In this case, the angle of inclination of the disk relative to the bottom of the furrow (field surface) varies on each cutting device individually - the four upper holes of the bracket 23 allow you to set the disk 7 in four positions in increments of 11 °. The initial position is taken to the angle of inclination of the disk 7, taking into account the structural bending of its rack 8 equal to 80 °. Then, in the second position, the angle of inclination will be 69 °, and in the third - 58 ° and in the fourth - 47 °. The rear beam of the fixed section 3 of the frame on the sides is equipped with mounting brackets for the roller 11, and on the inner surface of the rear beam with a mechanism 12 for raising and lowering it. The rotation mechanism 5 of the movable section 6 of the frame is mounted on the middle beam 24 of FIG. 1 fixed section 3 frames and is equipped with hydraulic drive. The manufacture of a frame in the form of rectangular components welded from steel pipes with a square profile due to load distribution will increase the strength components.

The work of a universal plow with a rotary beam of the device is as follows. In the field, when the tractor is moving (not shown in the diagrams) with a plow mounted with a hitch 2, its chisel working bodies placed on the front beam 1, by staking the racks 14 into the nests of the bits made of plates 13 in a staggered manner with chisels 10, carry out non-dump cultivation to depth from 20 cm and more (30-40 cm). The depth of loosening by chisel working bodies is set using the mechanism 16 for raising and lowering the beam 1 having a rectangular shape due to the parallelogram mechanism 15 contributing to its plane-parallel movement relative to the stationary section 3 of the frame. The movable section 6 of the plow frame thanks to the rotation mechanism 5 equipped with a hydraulic actuator has the ability to pivot through the pivot 17 when raised to the transport position using the plow 2. Due to this, plowing is provided with the help of the hulls represented by paired disks, and the plowing is smooth. The depth of plowing is adjusted by the mechanism 12 raising and lowering the roller 12 within 15-18 cm. When optimizing costs for different soils, different angles of attack of the discs 7 of one or the second row are set by their phased rotation by levers 20 in glasses with sectors-regulators 19. At the same time, traction 22 make a parallel parallel movement by moving the pins 21 levers 20, so that their holes are aligned through 5 ° with the holes of the sectors of the regulator. Then follows fixing with a bolt and nut, and for the obtained position of the disk 7 energy indicators are determined, etc. The inclination of the disks 7 is adjusted as follows: in the lower hole of the rack 8, which is combined with the lower hole of the brackets welded to the housing of the bearing assembly 9, a bolt is inserted, which is the axis of rotation, and is fixed through one of the two upper ones with the corresponding upper holes of the brackets.

The application of the presented utility model will provide an increase in the strength parameters of the frame, the ability to select the optimal angles of attack and tilt of the disks, reduce energy costs, simplify conversion.

Claims (2)

1. A plow with a rotary beam, including a front beam with chisel working bodies and a frame welded with a hitch system, which consists of two sections pivotally interconnected - a stationary one with an arcuate guide and a rotation mechanism and a movable section with working bodies fixed on it for turning the formation, made in the form of two spherical disks with uprights and bearing units, which are installed symmetrically relative to the rotary beam and at an angle of 140-150 ° to each other, and the points of intersection of their projections are puppies on the trail of chisel chisel working bodies bits, a packer, square-shaped roller and steel tubes with a square profile for frames, characterized in that the front beam is made in the form of a rectangular frame, inside of which there is mounted a design of slots assembled from plates for mounting and placement in staggered racks of chisel working bodies, connected by means of a parallelogram mechanism with a fixed, also made rectangular section of the frame, equipped in front of the outer surface side beams with mounting brackets for attaching a parallelogram mechanism, and on the inner surface of the front beam with a beam lifting-lowering mechanism, the movable section is also made in the form of a rectangular frame equipped with a kingpin on the central transverse beam, which is part of the rotation mechanism, welded on the front and rear beams brackets of motion blocks placed in arched guides mounted in front and in the rear of the stationary section of the frame, camomile-type disks with bearings, mounted inside the concave side, the racks of which are pivotally mounted in glasses with sector-regulators fixed in the side beams and equipped with levers associated with rods for changing the angle of attack of the disks, respectively for the right and left rows, in the range of 15 ... 75 ° relative to the longitudinal axis, moreover, each disk has the ability to change the angle of inclination with respect to the field surface, the rear beam of the fixed frame on the sides is equipped with roller mounting brackets on the outside, and fur on the inner surface of the rear beam ism up-down roller. 2. A plow with a rotary beam according to claim 1, characterized in that the rotation mechanism is mounted on the middle beam of the frame of the fixed section and is equipped with a hydraulic drive.

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