RU184196U1 - Swivel Plow - Google Patents

Abstract

The utility model "Plow with a rotary beam" relates to the field of agricultural engineering, in particular to devices for primary tillage intended for dump plowing. To reduce energy consumption, expand functionality, improve the quality of tillage, as well as simplify the design of the plow and the turning mechanism, the workers bodies for turnover of the reservoir are made in the form of two spherical disks 15 with racks 13 and bearing assemblies 14, equipped with spacer hydraulic compensation ring elements 18 with seals 19, a spring 20 and an oiler 21, while the spherical disks 15 are mounted on the brackets 12 symmetrically with respect to the rotary beam 10 and at an angle of 140-150 ° to each other, and the intersection points of their projections are placed along the trace of the 9 chisel working bodies moreover, the rear rotary beam 10 is connected to the rotation mechanism, made in the form of a beam 10 placed in the slot 22 of the carrier 23, attached to the carriage 24, equipped with a worm electric drive 25 and a gear kinematically connected to the rack fixed to a fixed mounted to the frame 1 with the help of a U-shaped bracket 26 of the transverse beam 3, moreover, on the U-shaped bracket 26 parallel to the transverse beam 3, a packer roller 5 is pivotally and height-adjustable, and the additional soil-cultivating organ is made in the form of a flat-cut paw (not shown in the diagram shown), and the additional tillage body made in the form of a trainer (not shown in the diagram), moreover, the spherical discs 15 are solid, and the spherical discs 15 are gear.

Description

The utility model "Plow with a rotary beam" refers to the field of agricultural engineering, in particular to devices for the primary tillage, designed for dump smooth plowing.

The well-known "reversible plow with variable working width" (see RF patent No. 2506732, АВВ 79/00, 2014), including a supporting frame with a central longitudinal beam. The frame is pivotally connected to the rotary beam with the possibility of its deflection by an angle α within 0-45 ° in both directions relative to the axis of the rotary beam. Plow bodies are mounted on the beam with the possibility of their rotation on the axis by an angle β in the range 0-30 ° in both directions against the clockwise direction or clockwise. A slider is fixed in front of the beam. An arcuate guide is mounted on the lower part of the supporting frame and contains holes at both ends for installing the slide stop. Plow cases with hydraulic cylinders through the rods are mounted with the possibility of coordinated rotation on the axes with levers and fingers rigidly fixed on them, pivotally connected to the rod. The rotation of the plow bodies is limited by the rod stop. Plow bodies include dumps mounted on a rotary stand at an angle to each other with wings of the left and right turns of the layer, left and right shares

The disadvantages of this device include the high structural complexity of the device, and in this regard, low operational reliability and maintainability. The absence on the outside of the arcuate guide plate brackets for fixing subsurface working bodies, which reduces the capabilities of this plow.

The closest in technical essence and the achieved economic effect is the "Multifunctional plow with a rotary beam" (see RF patent No. 2618342, АВВ 79/00, 2017), containing a frame that is made of two sections pivotally interconnected - movable with fixed on her plow bodies and fixed with an arcuate guide, and the rotation mechanism. The plow bodies are made in the form of concave rectangular plates with lower sharpening and are placed symmetrically and perpendicularly on the bar of the movable section made of a square profile pipe. The plates are equipped with welded tooth pins and paired plate brackets for fastening with holes and fingers. The beam is equipped with a vertically welded cantilever axis that enters the bottom of the bearing sleeve of the fixed section. The rotation mechanism includes a kinematically connected sprocket, a worm gear with a DC motor and a pin rail. The lathing rail is fixed on the lower side and is made of a channel of an arcuate guide. On the outside, the arcuate guide is equipped with paired plate brackets for fixing the subsurface working bodies. The working bodies contain plate holders with perforation for reinstallation in height. The holders are equipped with tube posts welded in front. In racks 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 °. Draeners are installed on the back of the holders at the bottom or on the necessary, according to agronomic requirements, height of flat-cut legs. Provides increased functionality of the plow, simplifying the design of the rotation and fixing mechanism.

The known device, selected as a prototype, has the following disadvantages: the presence of plow bodies working on two sides, which is why energy costs are high, there are also 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 overturning of the formation; another drawback is that this device does not carry out rolling of the formation, that is, the functionality is low, and the rotation mechanism is complicated ota.

The technical result is to reduce energy consumption, expand the functionality, improve the quality of tillage, as well as simplify the design of the plow and the rotation mechanism.

The technical result is achieved by the fact that in the utility model “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 arc-shaped 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 from bottom to bottom at the required, according to agronomic requirements, height in addition o 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 guide connected with an arcuate and having a square tube the profile of the rotary beam with working bodies fixed on it for turning the formation, a rotation mechanism, while according to the utility model, the working bodies for turning the formation are made in the form of two spherical disks with stands and with peak assemblies equipped with spacer hydrocompensatory ring elements with seals, a spring and a nipple, while the spherical disks are mounted on the brackets 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 the chisel working bodies, moreover, the rear rotary beam is connected with the rotation mechanism, made in the form of a carrier placed in the slot of the timber, attached to a carriage equipped with a worm electric drive and gear, kinematic connected to a rail fixed on a transverse beam rigidly fixed to the frame with the help of a U-shaped bracket, moreover, a packer roller is pivotally and pivotally mounted on the U-shaped bracket parallel to the transverse beam, and the additional tillage organ is made in the form of a flat-cut paw, the additional tillage organ is made in the form of a trainer, moreover, the spherical discs are solid, and the spherical discs are gear.

New elements are that the working bodies for the turnover of the formation are made in the form of two spherical disks with struts and bearing assemblies equipped with spacer hydrocompensatory 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 back of the rotary beam is connected to the rotation mechanism made in the ide of a carrier placed in the slot of the carrier, attached to a carriage equipped with a worm electric drive and gear, kinematically connected to the rack, fixed to the transverse beam rigidly fixed to the frame with the U-shaped bracket, and pivotally mounted on the U-shaped bracket parallel to the transverse beam a change roller is installed packer roller, and the additional tillage body is made in the form of a flat-cut legs, and the additional tillage body is made in the form of wood nera, and the spherical discs are solid, and the spherical discs are made of gear.

The novelty is that when processing fallow soils, solid disks and chisel working bodies are installed. On old arable soils, only gear discs are installed, and the chisel working bodies rise to the inoperative position. To reduce energy consumption on fallow soils, the chisel working body first undermines the formation, part of which is then cut (crumbled) by a solid disk at an angle of 25-30 ° to the direction of movement, and another disk at an angle of 115-120 ° to the direction of movement part of the reservoir is wrapped with the first. Due to the fact that the intersection points of the disk projections are placed clearly after the bits, the bottom is aligned. Also, thanks to the packer roller, the surface layer is further aligned. On old arable soils, the soil has a looser resistance to discs, so there is no need to use chisel working bodies. Also new is the placement of the turning mechanism at the rear, which makes it possible to place the packer roller and adjust the depth of tillage.

The drawings schematically represent a utility model "Plow with a rotary beam": in FIG. 1 is a plan view of FIG. 2 is a sectional view of the bearing assembly, in FIG. 3 is a section AA, when the movable section coincides with the longitudinal axis of the frame, FIG. 4 - rotation mechanism, FIG. 5 - View A, FIG. 6 - disks (serrated, continuous).

The plow with a rotary beam contains a welded frame 1 of two sections pivotally connected to each other, fixed with a front beam 2 in the form of an arcuate guide and with a rear transverse beam 3. The fixed section of the frame 1 is equipped with a hinge system 4, as well as a hinged rolling roller, which can be height-adjustable 5. The front beam 2 is equipped in front with paired plate brackets 6 for fixing chisel working bodies containing plate holders with perforation 7, for reinstallation in height, as well as for installation ki at the back at the required, according to agronomic requirements, height of additional tillage organs in the form of plane-cutting paws, or drains below (not shown in the diagrams). The holders 7 are welded to the tube posts 8 with mounted cylindrical, placed at an angle of 35-38 ° to the soil surface, bits 9 with a flat sole made at an angle of 10-13 °. The movable section is made in the form of a rotary beam 10 having a tubular square profile, the axis 11 of which is pivotally mounted on the fixed part of the frame 1. The rotary beam 10 is equipped with welded brackets 12, in which the racks 13 with bearing assemblies 14 are mounted, supporting working bodies for turning the formation in the form two spherical disks 15. In this case, the disks can be continuous for fallow soils and toothed for old arable soils. Spherical disks 15 are mounted on brackets 12 symmetrically with respect to the rotary beam 10 and at an angle of 140-150 ° to each other, and the intersection points of their projections are placed along the trail of the 9 chisel working bodies. Bearing units 14 and discs 15 are bolted together. The racks 13 are rigidly attached to the bearing assemblies 14. The bearing assemblies 14 comprise a mounting axis 16, an oil cavity 17, spacer hydrocompensation ring elements 18 with seals 19, a spring 20 and a grease fitting 21. The pivot bar 10 is connected to a pivot mechanism made in the form of a slot beam 22 drove 23, attached to the carriage 24 equipped with a worm electric drive 25 and gear, kinematically connected to the rack, fixed to rigidly fixed to the frame 1 using the U-shaped bracket 26 of the transverse beam 3. On P a different bracket 26 parallel to the transverse beam 3 pivotally and with the possibility of changing the height of the mounted roller 5.

The work of the plow ensures smooth plowing due to the rotary section of the frame 1. When processing fallow soils, solid disks 15 and chisel working bodies are installed. On old arable soils, only toothed disks 15 are installed, and the chisel working bodies rise to the inoperative position. To reduce energy consumption on fallow soils, first the chisel working body with a bit 9 undermines the formation, part of which is then cut (crumbled) by a solid disk 15, located at an angle of 25-30 ° to the direction of movement, and another disk 15, located at an angle of 115-120 ° towards the direction of movement, the second part of the formation is wrapped with the first. Due to the fact that the intersection points of the projections of the disks 15 are located on the trace of the chisels of 9 chisel working bodies, the bottom is aligned. Also, thanks to the packer roller 5, further leveling of the surface soil layer is carried out. On old arable soils, the soil has a looser resistance to the disks 15 less, so there is no need to use chisel working bodies. Due to the rear arrangement on the beam 3 of the carriage 24 with the carrier 23 placed in the groove 22 of the rotary beam 10, the front part of which is placed in an arcuate guide 2, the hinge mounting tension is reduced 11. The worm drive 25 moves the carriage 24 and, accordingly, the beam 10 to the left or right extreme position. Also, thanks to the U-shaped bracket 26, it becomes possible to fasten the beam 3 and the packer roller 5 to the frame 1 and regulate by reinstalling the soil tillage depth. The bearing assembly 14, thanks to the spring 20, the hydraulic compensation elements 18 with seals 19 act on the bearings, adjusting their fit, thereby ensuring the reliability of rotation of the disks 15 in one direction or the other.

Using the proposed utility model “Plow with a rotary beam” will reduce energy costs, expand the functionality, improve the quality of tillage, as well as simplify the design of the plow and the rotation mechanism.

Claims (5)

1. A 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 at the bottom back to the required, according to agronomic requirements, height of an additional tillage organ, and the holders are welded to cutting stands with mounted cylindrical bits with a flat sole, placed at an angle of 35-38 ° to the soil surface, 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 workers mounted on it bodies for the turnover of the reservoir, the rotation mechanism, characterized in that the working bodies for the turnover of the reservoir are made in the form of two spherical disks with racks and bearing units equipped with spacer hydraulic compensation rings elements with seals, a spring and a nipple, while the spherical disks are mounted on the 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 working bodies, and the rear rotary beam is connected to a rotation mechanism made in the form of a carrier placed in a slot of a bar attached to a carriage equipped with a worm electric drive and a gear kinematically connected to a rail fixed to a frame fixed to with the help of a U-shaped bracket for the transverse beam, and on the U-shaped bracket parallel to the transverse beam, a packer roller is pivotally and pivotally mounted. 2. A plow with a rotary beam according to claim 1, characterized in that the additional tillage organ is made in the form of a flat-cut paw. 3. A plow with a rotary beam according to claim 1, characterized in that the additional tillage organ is made in the form of a drainer. 4. A plow with a rotary beam according to claim 1, characterized in that the spherical disks are solid. 5. A plow with a rotary beam according to claim 1, characterized in that the spherical disks are made of gears.

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