RU2554404C1 - Combined unit for tillage and sowing (versions) - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: combined unit for tillage and sowing comprises a wheel traction means (1), a hopper (12) for seeds, compacting rollers (16), a frame (4) of the tool. On the frame (4) of the tool the hollow racks with disc coulters (7) are placed. The coulters (7) are located in succession on two bars (5) and inclined in the longitudinal and transverse planes. The bars (5) are fixed with the front ends of the frame (4) on vertical axes (8) with the ability of rotation in a horizontal plane. The coulters (7) are fixed to the hollow racks with the possibility of partial overlapping with each previous opener of them of the next one (7). The tool can be connected with the traction means (1) by the hitch linkage (2) and is fastened to the rear half-axes (13) of the traction means or by hydraulic hitch linkage and at that to comprise the compacting rollers (16) placed at an angle to each other. The frame (4) of the tool can be divided by the longitudinal axis (18) to the central section (19) and the outermost sections (20), and the rear ends of adjacent bars (5) of the different sections are pivotally connected to each other and the sliders (22) with the longitudinal axes (18).

EFFECT: increased efficiency of soil tillage and reduction of energy consumption, with ensured optimisation of the traction means load.

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Description

The invention relates to agricultural machinery, in particular to combination machines having working bodies for tillage, and can be used for all types of primary and pre-sowing tillages, as well as sowing crops.

Known combined unit for processing and sowing, containing a frame, a mechanism for connecting the implement to the traction means, support wheels, seed hopper, disc coulters, sealing implements (RU No. 16422, 01/10/2001).

The disadvantages of the known combined unit for tillage and sowing is that after its passage on the field there are strips of earthen ridges at the junction between the sections of the multi-ring packer roller, poor leveling and mulching of the field surface.

The closest in its technical essence is a combined unit for processing and sowing, including a wheeled traction means, a hopper for seeds, a mechanism for connecting the implement to the traction means, the implement frame, with hollow racks mounted on it, mounted for rotation, and horizontal disc coulters on them, packer rollers, support wheels (RU 49415, November 27, 2005).

The disadvantages of this combined unit for tillage and sowing include the constancy of the width of the capture of one machine (module). Therefore, the working width can only be changed a multiple of the working width of one module by increasing their number. When changing the composition of the unit from one module to two, three, the working width will stepwise change from 2.5 m to 5 m and 7.5 m, respectively, that is, 2 and 3 times.

The nominal traction efforts of domestic tractors with an increase in the number of the traction class increase by 1.5 ... 1.7 times. It should be noted that in view of the inconstancy of the physicomechanical properties of the soil, its moisture content and the presence of plant residues, the resistivity of machines and implements, even in the same region or zone, can deviate widely from average values. All this does not allow for rational loading of tractors along draft with a fixed width of the module, which leads to a significant deviation of the operating speeds of the units from the established agrotechnical requirements.

The disadvantage of this design should also include increased unevenness of the treated surface. This is due to the fact that during the rotation of the coulter in different directions, part of the soil from one half is transferred to the other, and vice versa. To level the surface of the treated field at the sowing complexes, additional working bodies are required (from 3 to 4), which leads to a complication of the design of the machine and additional energy costs for tillage. In addition, to overcome the resistance of such an instrument, energy consumption is high, which leads to the need for its aggregation by traction means of increased power.

The problem solved by the present invention is to increase the efficiency of soil cultivation, reducing energy intensity and optimizing the loading of traction means.

The present problem is solved in that in the group of inventions according to the first embodiment in a combined unit for tillage and sowing, including a wheel traction means, a mechanism for connecting the implement to the traction means, a hopper for seeds, the implement frame with hollow racks placed on it, installed with the possibility of turning, and disk coulters on them, rolling rollers, hollow racks are placed sequentially one after another on two bars and with an inclination in the longitudinal and transverse planes, the bars are fixed by the front and ends on the frame on vertical axes with the possibility of rotation in the horizontal plane, disc coulters mounted on hollow racks with the possibility of partial overlapping by each previous coulter of the subsequent coulter, the mechanism for connecting the implement to the traction means at one end is attached to the rear axles of the traction means with the possibility of rotation on them and another on the implement’s frame, while the implement’s frame is additionally connected by a hydraulic cylinder to the mechanism of its connection with the traction means.

According to the second option, in a combined unit for tillage and sowing, including a wheeled traction means, a seed hopper, a mechanism for connecting the implement to the traction means, the implement frame with hollow legs mounted on it, mounted for rotation, and disk coulters on them, rolling rollers , support wheels, hollow racks are placed sequentially one after another on two bars and with an inclination in the longitudinal and transverse planes, the bars are fixed with their front ends on the frame on vertical axes with the possibility of gates in the horizontal plane, disc coulters mounted on hollow racks with the possibility of partial overlapping by each previous coulter of the subsequent coulter, while the roller rollers are mounted behind the gun frame at an angle to it and to each other.

According to the third option, in a combined unit for tillage and sowing, including a wheeled traction means, a seed hopper, a mechanism for connecting the implement to the traction means, the implement frame with hollow stands mounted on it, mounted for rotation, and disc coulters on them, support wheels rolling rollers, the frame is divided into sections by longitudinal axes, hollow racks with disc coulters are placed on the frame of each section sequentially one after another on the bars and with an inclination in the longitudinal and transverse planes , the bars are installed by the front ends on the vertical axes with the possibility of rotation around them, the disc coulters partially overlap with each previous disc the coulter of the subsequent coulter, the rear ends of adjacent bars of different sections are hinged to each other and the sliders with longitudinal axes, while the extreme sections are made with the possibility of changing their locations relatively central in the horizontal and vertical planes, and levers connected in the middle are rigidly attached to the front ends of the side bars of the extreme sections Twomey rod hinges to the frame center section. The central section is connected to the longitudinal axes by hydraulic cylinders.

In FIG. 1 diagram of a combined unit, made according to the first embodiment, top view.

In FIG. 2 is a diagram of a combined unit made in the first embodiment, side view.

In FIG. 3 is a diagram of a combined unit made in the second embodiment, top view.

In FIG. 4 is a diagram of a combined unit made in the second embodiment, side view.

In FIG. 5 is a diagram of a combined unit made according to the third embodiment, a top view.

In FIG. 6 layout of sections of the combined unit, made according to the third embodiment, in the transport position, rear view.

In FIG. 7 is a schematic diagram of the connection of the bars to the implement frame by means of vertical and horizontal axes.

The combined unit for tillage and sowing consists of a wheel towing device 1, a mechanism for connecting the implement to the towing device, according to the first and third options, mounted 2 on the rear axle axles 13, according to the second version, mounted 3. The frames 4 implements, on which two metal bars are placed 5, with hollow racks 6 with disk coulters sequentially placed on them 7. The bars 5 with their front ends are fixed on the frame 4 on the vertical axes 8 with the possibility of rotation in the horizontal plane. Hollow racks 6 are mounted rotatably in bearings 9 and are placed sequentially one after another with an inclination in the longitudinal and transverse planes (not shown in Fig.). Each previous disc coulter 7 is installed with the possibility of partial overlap of the subsequent coulter. The bars 5 according to the options one and two (Fig. 1 and 3) through the hinges 10 are interconnected by a hydraulic cylinder 11.

According to the first and third embodiment, the seed hopper 12 is mounted on the towing vehicle, and according to the second embodiment, on the frame 4 of the implement (Fig. 4). The frame by means of a mechanism for connecting the implement to the traction means (for example, for versions one and three mounted) is attached to the rear axles 13 of the traction means 1 with the possibility of rotation on them and on the frame 4 of the gun. The hopper 12 is connected to the hollow uprights 6 seed tubes 14. The frame 4 of the mounted implement contains a hydraulic cylinder 15 (Fig. 2) or a screw for adjusting the openers to a given depth of tillage (not shown). The combined unit contains press rollers 16 mounted in the first and third options behind the frame in a checkerboard pattern. In the second embodiment, the packer rollers 16 are placed behind the implement frame at an angle to it and to each other (Fig. 3).

According to the second variant, the mechanism for connecting the implement to the traction means 1 is hydraulically mounted 3 and is attached to the skeleton of the tractor, and the hopper 12 is mounted on the implement frame (Fig. 4), while the soil cultivating implement has support wheels 17.

According to the third option, the frame 4 of the combined unit for tillage and sowing is divided by longitudinal axes 18 into three sections: central 19 and extreme 20. The extreme sections are rotatable to copy the surface of the working bodies and transfer them to the transport position on the longitudinal axes 18. Hollow racks 6 with disk openers 7 are placed on metal bars 5 with a partial overlap by each previous disk of the opener of the subsequent disk. The front ends of the bars 5 are mounted on the frame on the vertical axes 8. The rear ends of adjacent bars of 5 different sections are interconnected by hinges 21 with the sliders 22 of the longitudinal axes 18, dividing the frame into sections. The extreme sections 20 are connected to the central 19 by means of hydraulic cylinders 23 and 24 and have the ability to change their location relative to the middle section 19, increasing or decreasing the width of the capture unit. The vertical axis 8 of the bars 5 of the extreme sections are placed on the frame 20 in the front part with the possibility of rotation of the bars 5 in the horizontal plane. For this, the extreme bars 5 of the frames 20 with their front ends are fixed on the vertical axes 8 and connected through levers 26, hinges 8 and rods 27 to the central section 19. The extreme sections have supporting wheels 17.

The unit operates as follows. When moving through the field with a traction means 1 of a tillage sowing complex, the coulters 7, tillage and sowing tools mounted on metal bars 5 of the frame 4, partially overlapping each other, cut the top soil layer and the root part of the plants with cutting edges, the value of which at each of they are limited by the cutting edges of adjacent disc coulters 7. As the coulters advance, the soil layer rises, contracts and deforms, which causes the destruction of its initial composition. At the same time, the cultivated soil layer presses on the working surface of the coulter disc. Due to the occurrence of the resulting cutting force and friction force, the coulter discs on the right side of the disk implement rotate together with the hollow posts 6 in the bearings 9 around the axes clockwise and the left counterclockwise. This is due to the displacement of the forces of the soil impact relative to the axis of rotation of the disks on each of the bars 5. The surface of each working part of the rotating coulter disks 7 will have a relatively low speed of movement to the treated soil layer, which will significantly reduce the energy cost of friction of the soil on the disk coulters . Seed material comes from the hopper 12 through the vas deferens 14 into the hollow racks 6 and falls under the disc coulter 7.

If it is necessary to change the implement’s working width, one or two stops the unit and the hydraulic cylinder 11 installed in the hinges 10 pushes the bars 5 with hollow posts 6, equipped with disk coulters 7, at a predetermined angle with their subsequent fixation (the fixing mechanism in Fig. Not shown ) With three-section manning of the unit, this is done using hydraulic cylinders 23 and 24 (Fig. 5)

Before starting the operation of the unit according to option three, it is necessary to set the required working width with the help of hydraulic cylinders 23 and 24, spreading the outer sections 20.

In this case, the hydraulic cylinders, abutting against the longitudinal axes 18, push the extreme sections 20. Moving away, the extreme sections by means of levers 26, rods 27 on the vertical axes 8 turn the side bars 7 of the extreme sections by a larger angle. At this moment, the rear ends of adjacent bars 5 of the central 17 and the end sections 20 due to the hinges 21 and the sliders 22 are moved forward, increasing the width of the capture unit. After that, the position of the bars 5 and the working bodies and the width of the grip are fixed (the locking mechanism in Fig. Not shown).

To prepare the unit in the transport position, the outer sections 20 are rotated on the longitudinal axes 18 and rise up (the lifting mechanism is not shown).

To prepare the unit in the transport position, the central 19 and end sections 20 are moved to the position when the disc coulters 7 are deepened, and then with the help of hydraulic cylinders 23 and 24 they move the end sections 20 to the central section 19, which reduces the size of the transverse base of the unit. Then, with the help of hydraulic cylinders mounted on the central section 19 and pivotally connected to the extreme sections 20, translate them into a vertical position and fix (not shown in Fig. 5).

The rise in the vertical position of the extreme sections is carried out according to the generally accepted scheme for transferring a three-section wide-angle unit to the transport position. As an example in FIG. 6 is a rear view of the unit, where the central section 19 is connected via longitudinal axles 18, hydraulic cylinders 28 and 29 to the side sections 20, which in the transport position are rigidly fixed relative to the central section 19 by hydraulic cylinders 28 and 29 by installing the spool of the hydraulic distribution system in a neutral position, which locks oil in and out of cylinders. The pistons of the hydraulic cylinders are stationary. The bars 5 are connected to the frame of the implement 4 by means of vertical 8 and horizontal axes 30. During long-term transportation, the side sections 20 are additionally fixed mechanically (not shown).

The transfer of the unit from the transport position to the working one is carried out sequentially in the reverse order.

Claims (4)

1. The combined unit for tillage and sowing, including wheeled traction means, a mechanism for connecting the implement to the traction means, a seed hopper, the implement frame with hollow racks mounted on it, mounted with the possibility of rotation, and disk coulters on them, rolling rollers, different the fact that the hollow racks are placed sequentially one after another on two bars and with an inclination in the longitudinal and transverse planes, the bars are fixed with their front ends on the frame on the vertical axes with the possibility of rotation in horizontal nal plane, disc coulters mounted on hollow racks with the possibility of partial overlapping of the next coulter by each previous one, the coulter of the next one, the mechanism for connecting the implement to the traction means at one end is attached to the rear axles of the traction means with the possibility of rotation on them, and the other on the implement frame, while the implement frame additionally connected by a hydraulic cylinder with a mechanism for its connection with the traction means. 2. A combined unit for tillage and sowing, including a wheeled traction means, a seed hopper, a mechanism for connecting the implement to the traction means, the implement frame with hollow racks mounted on it, mounted with the possibility of rotation, and disc coulters on them, rolling rollers, support wheels, characterized in that the hollow racks are placed sequentially one after another on two bars and with an inclination in the longitudinal and transverse planes, the bars are fixed with their front ends on the frame on vertical axes with the possibility of gate in a horizontal plane, disc coulters mounted on hollow struts, with partial overlapping each preceding one subsequent opener, the following rollers are mounted behind the gun frame at an angle thereto and to each other. 3. A combined unit for tillage and sowing, including a wheel towing device, a seed hopper, a mechanism for connecting the implement to the towing device, the implement frame with hollow struts mounted on it, mounted with the possibility of rotation, and disc coulters on them, support wheels, rolling rollers, characterized in that the frame is divided by longitudinal axes into sections, hollow racks with disk coulters are placed on the frame of each section sequentially one after another on the bars and with an inclination in the longitudinal and transverse planes, the bars are mounted by the front ends on the vertical axes with the possibility of rotation around them, the disc coulters partially overlap with each previous disc the coulter of the subsequent coulter, the rear ends of adjacent bars of different sections are pivotally connected to each other and sliders with longitudinal axes, while the extreme sections are made with the possibility of changing their location relatively central in the horizontal and vertical planes, and to the front ends of the side bars of the extreme sections, levers are connected rigidly Twisted hinge rods with the frame of the central section. 4. The combined unit according to claim 3, characterized in that the central section is connected to the longitudinal axes by hydraulic cylinders.

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