RU2414112C1 - Soil cultivating sowing device - Google Patents

Abstract

FIELD: agriculture. ^ SUBSTANCE: device comprises wheel tractor, hopper for seeds and fertilisers, installed above its back bridge. Hopper is arranged in the form of two separate reservoirs arranged symmetrically relative to central longitudinal axis of tractor. Reservoirs are hingedly fixed to external cantilevers by means of stands on hubs of back additional wheels with the possibility of rotation around their axis. Additional wheel of each back wheel set is fixed hingedly to axis of main wheel. Each of hopper reservoirs has its own semi-frame resting against additional hinged supports arranged on tractor frame with the possibility of rotation around axis parallel to central longitudinal axis of tractor. ^ EFFECT: improved operational-technological and agrotechnical indices. ^ 2 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to tillage sowing units designed for sowing cereals, legumes and industrial crops.

The use of modern wide-spreading sowing complexes equipped with technological containers of increased capacity for sowing crops requires the use of increasingly heavy and energy-saturated tractors in such units. This leads to an increase in the technogenic load on the soil, its over-compaction by the engines of tractors and agricultural machinery, the intensification of erosion processes and, as a consequence, the degradation of land and reduce their effective fertility. In addition, the increased slipping of propulsors leads to a decrease in power and fuel and economic indicators of the tractor.

One of the effective ways to increase the technical, economic and agrotechnical indices of agricultural wheeled tractors as part of the MTA is to install additional propulsors (doubling or tuning of the wheels), which makes it possible to bring their towing and coupling properties and agrotechnical passability to tracked vehicles.

In this case, the potential capabilities of the tractor running system in terms of bearing capacity can be most fully realized due to the partial or full transfer of the weight of technological capacities of aggregated agricultural machines to it. This allows you to expand the functionality of the tractor and increase its technological versatility by combining traction loading with the implementation of the transport operation.

Known sowing combined unit (see AS USSR No. 913962, class A01B 49/04, A01C 7/00, 1982), containing a wheeled tractor, dual front and rear wheels, a hopper with a metering device located in the interwheel space, seed tubes and elastic rubberized earthing. The treads of the front tires of the tractor are made with ring protrusions, which serve as openers, and the rear wheels have a smooth tread and serve as packer rollers. A train is installed behind the tractor.

The disadvantage of this design is the unsatisfactory quality of seed placement and the low reliability of tire treads of the front and rear wheels, as well as the high complexity of reconfiguring the working bodies when changing agrotechnical requirements for sowing.

Known sowing combination unit (see RF patent No. 2126199, class AB01 49/06, А01C 7/00, 1999), containing a wheeled tractor with pneumatic dual tires with a tread on the front wheels in the form of ring protrusions, and on the rear - with alternation at different angles to the direction of movement. In the wheel space of the tractor, a seed box with sowing devices, seed tubes and a drive of sowing devices are placed. Tires of the front and rear wheels are made in the form of a set of segments mounted on the surface of the wheels of the double wheels, and the arc protrusions on the segments of the front wheels with a given step are shifted alternately in the lateral direction to the tractor heading. The seed tubes have mechanisms for their lateral displacement by the width of the row spacing of the sowed crops and are synchronized with the forward speed of the double front wheels by means of tracking mechanisms.

The disadvantage of this design is poor agricultural performance when sowing crops on soils with low bearing capacity, due to the fact that between the paired tires of the front and rear wheels a repeatedly over-compacted jumper is formed. Re-compaction of the soil with the protrusions of the tires of the paired front wheels and the treads of the paired rear wheels leads to inhibition of the sown crops and a decrease in their productivity.

A well-known sowing combination unit (see RF patent No. 2298905, class А01С 7/00, 2005), containing a hopper for seeds and fertilizers with sowing devices installed in the cross-axle space of the tractor, seed tubes and shortcuts, tire treads of the front wheels of the tractor are used as coulters with annular protrusions, and as press rollers - the rear wheels of the tractor, while the surface of each tire and the wheel disk are formed by rotation around the axis of the wheel, respectively, of the outer and inner branches of the conchoid of Nikomed.

The disadvantage of this unit is the need to use non-standard tractor tires in the design, which leads to a decrease in the unification of the proposed solution with units and assemblies of commercially available traction means and, therefore, leads to its limited applicability.

In all the above inventions, as a general drawback, the use of small-capacity technological tanks and the small working width of the sowing unit should be noted, which does not allow to ensure sufficient loading of the tractor for traction and to use the potential bearing capacity of its chassis, and therefore leads to a decrease operational, technological and technical and economic indicators of the unit. The proposed technical solutions lead to high complexity during installation and dismantling of the structure, thereby limiting the ability, if necessary, to quickly use the tractor to perform other field work or transport operations, as well as making the unit unsuitable for transport crossings.

A universal traction vehicle of increased cross-country ability and maneuverability is also known (see utility model of the Russian Federation No. 1467, class B60K 17/00, 1996), containing front and rear half frames connected by an articulation unit, power steering, the power cylinders of which are articulated with an articulation unit, front and rear drive axles fixed rigidly in half frames, drive wheels with gears, fixed on half frames by means of brackets, while sequentially connected to the front half frame are mounted a drive motor, a clutch, a gearbox and a transfer case, the output shafts of which are connected to the drive axles and the power take-off gearbox mounted on the rear frame, the rear hoist and winch, located on the rear frame, the drive element of which is kinematically connected with the kinematic the drive unit of the rear power take-off shaft, a reversible power take-off mounted on the gearbox and kinematically connected to it by means of gearing with one of the gears of the last , the front power take-off shaft, while the output shafts of the power take-off box are made with the possibility of kinematic communication with the kinematic drive units of the front and rear power take-off shafts, and the output power take-off shaft of the transfer box with the input shaft of the kinematic drive unit of the rear power take-off drive and winch disconnecting the latter from communication with the power take-off.

In the described traction vehicle, it is noteworthy that the torque on each of its driving wheels is transmitted through a cardan drive, the wheels have independent suspension and can move in a vertical plane, thereby providing increased cross-country ability and smoothness of the traction vehicle when traveling over rough terrain , as well as reducing the load on the elements of its frame. And yet, despite the universality of the traction vehicle described and the high degree of unification of its structural elements with units and assemblies of production vehicles, the issue of increasing agro-technical traffic and bearing capacity of traction vehicles based on mass-produced agricultural wheeled tractors remains unresolved.

The analogue closest in technical essence to the claimed invention is a combined tillage sowing unit (Application for invention of the Russian Federation No. 2008143028/12 (055974)), consisting of a towing and transport wheeled vehicle, a combined trailed tillage sowing machine and a mounted hopper for seeds and fertilizers made of two sections, mounted above the rear axle of a wheeled traction vehicle and pivotally mounted by bearings to the axles of the rear wheels from their outer side or from swarm on an axle or hub between adjacent wheels. A bearing is used as a hinge. The design of the hopper ensures its removal and installation on the tractor chassis using the hydraulic system of the towing vehicle without the use of additional hoisting devices.

The disadvantage of this design is that the proposed mechanism for doubling the wheels of the tractor implies the preservation (by analogy with the standard kit) of a rigid kinematic connection in a pair between the main and additional mover. When moving such a mover along roughnesses of the supporting surface, the load on the primary and secondary wheels is unevenly distributed, which increases the rolling and skidding losses, reduces the overall bearing capacity of the wheelset, reduces the overall structural rigidity and, under significant loads, can lead to premature wear of the chassis system elements tractor and hopper frame design, their damage and failure.

The technical result achieved by the present invention is to increase the operational, technological and agrotechnical indicators of tillage sowing complexes based on traction and transport power means, by increasing the traction and coupling properties of the tractor, smoothness and stability of its movement, reducing the sealing effect on the soil of the unit's propellers, increase operational reliability of the design of the hopper.

The specified technical result is achieved by the fact that in the tillage sowing unit, consisting of a wheeled tractor, a hopper for seeds and fertilizers mounted above its rear axle, made in the form of two separate containers located symmetrically relative to the central longitudinal axis of the tractor and using racks pivotally attached to external consoles on the hubs of the rear additional wheels with the possibility of rotation around their axis, the additional wheel of each rear wheel pair is hinged to the axis of the main timber, each of the containers has its own hopper poluramy, based on the additional hinge support located on the tractor skeleton pivotable about an axis parallel to the central longitudinal axis of the tractor. The hinge of the axis of the rear wheel is made in the form of a driveshaft.

These distinctive features are essential and sufficient to achieve the specified technical result, since the transmission of torque from the tractor’s main wheel to the additional one by means of the driveshaft ensures the copying of the surface roughness of the supporting surface by a pair of wheels and even distribution of weight on the main and additional movers when the tractor moves, which leads to reduce power losses on slipping and deformation of the soil, eliminates the appearance of areas of over-compacted soil ( eremychek) between the dual wheels of the tractor, enhances the ride and stability of the tractor.

Independent vertical movement of the hopper capacities, both relative to each other and relative to the tractor frame, by transferring the weight of each of them to three hinged supports, ensures uniform loading of all structural elements of the hopper during movement of the unit, thereby increasing its operational reliability and eliminating the occurrence of extreme loads on the nodes of the chassis of the tractor during its operation as a towing vehicle.

Figure 1 shows a side view of a towing vehicle with a hopper.

2 shows a rear view of a towing vehicle.

Figure 3 shows a top view of the towing vehicle (in plan).

The soil-cultivating sowing unit consists of a wheeled tractor 1 (Fig. 1), a soil-cultivating sowing machine (not shown due to fame), a hopper for seeds and fertilizers 2, mounted above the rear axle of the tractor and made in the form of two separate tanks 3 and 4 (Fig. 2, 3), located mirror symmetrically with respect to the central longitudinal axis of the tractor.

An additional wheel 14 (FIG. 2) of the rear axle is connected to the main wheel 13 by means of a cardan shaft 15, which is attached to the inner side of the hub of the additional wheel.

Tanks 3 and 4 of the hopper have their own half-frames 5 and 6 (Fig. 2, 3), each of which is supported by three articulated supports: the first 7 (Fig. 2) - on the outer console 8, located on the hub of the rear additional wheel 14 with the possibility turning around its axis, the second - through the hinge 9 (Fig.3) - on the rear frame of the tractor 16 (Fig.1) and the third - through the hinge 10 (Fig.3) - on the transverse beam of the rear linkage of the tractor 17 (Fig.2) . The second and third points are supported, respectively, through the transverse beams 11 and 12 of the half frame of the hopper section with the possibility of their rotation around an axis parallel to the direction of movement of the tractor.

During the movement of the unit, when moving along uneven terrain, the additional wheels of the tractor 14, being connected to the main 13 by means of the driveshaft 15, move vertically independently, thereby ensuring that the wheel pair copies the profile of the supporting surface and evenly distributes the load transmitted to the paired wheels from the frame of the tractor and sections of the hopper for seeds and fertilizers.

As a result, the tractor's traction and hitching performance increases, its smoothness and motion stability improves, power losses due to skidding of movers and soil deformation are reduced, the formation of a bridge from re-compacted soil between paired tractor wheels is eliminated.

Sections 3 and 4 of the hopper in the process of copying the relief of the supporting surface by the rear wheel pairs of the tractor, due to the rotation of their semi-frames 5 and 6 relative to the axes of the hinged supports 9 and 10 (Fig. 3) located on the rear tractor frame 16 (Fig. 1) and the the beam of its rear linkage 17 (figure 2), respectively, move vertically independently from each other together with additional wheels of the tractor 14.

This ensures uniform distribution of the load on the structural elements of the hopper frame, increases its operational reliability, eliminates the appearance of unacceptable loads on the nodes and parts of the chassis of the tractor, which ensures its reliable operation when used as a traction vehicle.

The amount of free wheeling of the additional tractor wheels corresponds to the vertical movement of the half-sections of the hopper sections and in their lower position, limited by the stops 18 and 19 of the transverse beams 9 and 10 of the half-frames 5 and 6 into the rear half-frame 16 (Fig. 1) of the tractor and the transverse beam of its rear linkage 17 ( figure 2). To eliminate shock loads and reduce wear of the structure, in the places of contact of the structural elements of the tractor with the transverse beams of the semi-sections of the hopper, rubber bumpers can be installed on the stops 18 and 19 (not shown in Fig. 1, Fig. 2, 3 are shown schematically).

Claims (2)

1. Tillage sowing unit, consisting of a wheeled tractor, a hopper for seeds and fertilizers mounted above its rear axle, made in the form of two separate containers located symmetrically relative to the central longitudinal axis of the tractor and using racks pivotally attached to external consoles on the rear additional hubs wheels with the possibility of rotation around their axis, characterized in that the additional wheel of each rear wheel pair is hinged to the axis of the main wheel, each of the hopper tanks has its own semi-frame, based on additional articulated supports located on the skeleton of the tractor with the possibility of rotation around an axis parallel to the central longitudinal axis of the tractor. 2. Tillage sowing unit according to claim 1, characterized in that the hinge of the axis of the rear wheel is made in the form of a driveshaft.

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