RU2558395C2 - Chisel stubble plough of perforation loosening - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agricultural machinery industry. The stubble plough comprises a frame, wheels, hydraulic cylinders, working bodies. The stubble plough is provided with ramps and shelves for entry of the tractor on the frame and exit from it, a hinged system and a power conveyor. On the power conveyor the rear wheels of the tractor are mounted. The working bodies are made in the form of front and rear sectional chisel-shaped disc grousers. The rear drive sectional grousers are connected to the power conveyor through the gearbox and the chain drive. The front executive sectional grouser is connected to the hydraulic cylinders.

EFFECT: constructive implementation enables to reduce the resistivity in crushing the soil and to improve air saturation of the lower layers of the treated soil without revolution of the layers.

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Description

The invention relates to the field of agricultural engineering, in particular to tillage machines designed to reduce soil resistance during its processing, to improve the air saturation of formations, grinding and burying crop residues, can be used for loosening vapors and husking fields, after harvesting, for pre-sowing soil preparation ; can be used in greenhouses and gardening, as well as in road and rail construction when laying embankments.

A self-propelled chassis for tillage by working bodies in the form of plow bodies is known, to which they are attached via an articulated-parallelogram linkage. The self-propelled chassis contains a sectional frame with a power unit, drive and guide wheels, a slider connected to a reciprocating mechanism (see Copyright certificate SU No. 1316574 A1 of 06.15.1987 Bull. No. 22).

Known self-propelled motor-plow for plowing the soil, containing a frame with control levers mounted on it, a power unit made in the form of an internal combustion engine, which is kinematically connected to the support wheels mounted on a shaft attached to the frame by transmission. A working body is mounted in the rear part of the frame by means of a coupling device, made in the form of a plow body (see the description of the Copyright certificate of the invention SU No. 1657645 A dated 07.08 1991).

As a prototype, it is proposed to take the well-known self-propelled chassis (Copyright Certificate SU No. 1316574), containing working bodies, guides with a slider connected to a reciprocating mechanism, a sectional frame with a power unit, drive and guide wheels.

The known prototype design has difficulties in operation on solid soils, especially in dry periods when the soil has a high resistivity, and when plowing, large cob formation, insufficient overturning of the strata, and high energy consumption during soil cultivation.

The objective of the present invention is the universalization of the tillage mechanism, the use of the gravitational force of the mass of the tractor to reduce the resistivity of the soil during cultivation, improve the saturation of the lower layers of the soil with air and crushing plant residues when loosening, as well as the use of a device for compacting earth embankments in the construction of roads and railways .

The technical result is achieved by the fact that with traditional tillage methods, both when using self-propelled chassis, walk-behind tractors, and when aggregating other tillage machines (plows, cultivators, disc harrows ...) with tractors, the drive mechanism is drive and guide wheels or tracked tracks the main weight of the tractor, which provides only the gearing of the wheels or caterpillar tracks, but does not participate in the loosening of soil layers, and in the proposed invention driven and the guiding organs are chisel-shaped disk sectional soil couplings, which account for the entire load of the tractor, due to which blocks are destroyed, loosening of layers, grinding of plant debris by chisel-shaped disks, which allows you to saturate the lower layers of the treated soil with air without turning over the layers (and this is very important to preserve humus), burying the remains of vegetation and save energy costs for tillage due to the use of the weight of the tractor in soil tillage with chisels or other tools bochimi bodies such as wheels, legs and so on.

A comparable analysis with the prototype shows that the claimed design of the cultivator of the chisel punching is different by the method of tillage, in which the gravitational force of the tractor mass is used to reduce the resistivity of the soil by equipping the cultivator with chisel-shaped disk sectional hoists instead of driving and guide wheels or caterpillars, tractor weight is used for tilling; the fact that the lower layer of the cultivated soil is saturated with air without turning over the layers.

Thus, the claimed design of the cultivator of the drill bit punching meets the criteria of the invention of "NOVELTY."

Comparison of the proposed solution not only with the prototype, but also with other technical solutions in this technical field did not allow us to identify in them the features that distinguish the claimed solution from the prototype, which gives the right to conclude that the criterion of "SIGNIFICANT DIFFERENCE"

In FIG. 1 - shows an arrangement of nodes and mechanisms on the frame of a scoop of a bit of perforating loosening - side view;

In FIG. 2 - shows a diagram of the location of nodes and mechanisms on the frame of a scoop of bit punching loosening - top view;

In FIG. 3 - shows the control sectional soil;

In FIG. 4 - shows a diagram of a chain transmission control sectional soil.

The cultivator is a chisel punching loosening (Fig. 1; Fig. 2) contains a frame 1, which is supported by two rear drive chisel-shaped disk sectional tillers 2 and the front control also a chisel-shaped disk sectional tillers 3. The rear drive sectional tillers 2 is equipped with a gearbox 4, which through a chain transmission 5 receives rotation from the power conveyor 6, and transmits rotation to the shaft 7 of the rear drive sectional soil coupler 2. The power conveyor 6 is mounted on bearing structures 26 (Fig. 2) and is driven into rear tractor wheels 29. Shaft 7 is attached to frame 1 using bearing assemblies (not shown). The front control sectional inlet 3 (Fig. 3) is attached to the frame 1 using an arm 8 with a vertical sleeve 9, into which the axle shaft 10 is mounted on bearings 30, driven by two hydraulic cylinders 15, through a chain transmission 16, the sprocket 12 of which is fixed by the hub mounted on the axis 10. The hydraulic cylinders 15 are placed on the frame 1 symmetrically to the axis of the sprocket 12 so that the centers of their rods coincide with the middle of the chain drive rollers 16, diametrically located on the edges of the sprocket 12 at points of radii perpendicular s axis of symmetry. The ends of the chain gear 17 are pivotally connected to the rods of the hydraulic cylinders 15.

The oil enters the hydraulic cylinders 15 from the hydraulic distributor (it is located in the tractor cabin, is not shown in the diagram): when the spool is moved by the control lever, the oil from the hydraulic distributor enters the over-piston space of the hydraulic cylinder 15 - its rod starts to retract, for example, the right one, as shown in FIG. 4, and pulls the chain gear 16 along with it, rotates the sprocket 12 clockwise, and together with it rotates the axle shaft 10, which forces the unit to turn to the right, since the rotated sprocket 12 and the axle shaft 10 are made in one with the bracket 13.

A hexagonal shaft 14 is attached to the bracket 13 through the bearing assemblies 27, onto which the chisel-shaped disks 28 are mounted, which are similar to the working bodies of the rear drive sectional couplings 2. The front control 3 and the rear drive 2 sectional couplings are disk holders with sharp-ribbed tooth-like chisels worn on hexagonal shafts 7 and 14, which makes it possible to disperse the location of the chisel-shaped disks at different angles of the bits relative to each other.

To enter the tractor 29 to the cultivator, the chisel drill has 17 ladders and shelves 18. The ladder 17 in the raised state is fixed with a screw 19. The tractor 29 is fixed in the stationary cultivator by the hammer puncher loosening using an anchor 20 and a stopper 21 of any design.

In the rear part of the frame 1, a hitch 22 is arranged for aggregating agricultural equipment. For transporting the cultivator of the hammer drill for cultivating loosening to the frame 1 on the axle shaft 23, transport wheels 25 are installed through the crank fork 24. During transportation, the cultivator of the hammer drill for loosening is lifted onto the wheels 25 and lowered together with the agrotechnical equipment held by the hitch 22 to the soil using the hydraulic cylinder 11 ( figure 1). In the front of the frame 1, a hooked earring (not shown) is arranged for connecting the bit cultivator with the tractor during its transportation, which is a bar iron bar that is welded to the ends of the ladders 17.

The tractor enters the chisel on the chisel on the lowered ladder 17, shelves 18 and is mounted with the rear wheels on the power conveyor 6. The tractor is fixed in the working position on the scoop of the chisel punching using the anchor 20 and stopper 21, after which the ladders 17 are lifted and fixed in the raised state by a screw 19. Then the hydraulic cylinders of the unit are connected to the hydraulic system of the tractor. The tractor driver sits in the cab, turns on the necessary speed, and, operating with the hydraulic control lever and the hydraulic cylinder 15 connected with it, drives the aggregate along the corral, processing the soil.

The rotation force of the rear wheels of the tractor through the power conveyor 6, the chain drive 5, the gearbox 4, is transmitted to the shaft 7 of the rear drive sectional tractor 2, the latter, turning, plunges its bits into the soil, loosens it, while making holes for the passage of air into the lower layers of the processed soil, and with sharp ribs it crushes the remains of vegetation with their subsequent indentation into loosened soil. In this situation, the gravitational force of the tractor mass is used to loosen the soil, thereby reducing its specific resistance to the tillage machine, thereby reducing energy consumption for the work of cultivating the soil.

Claims (1)

The cultivator is a chisel for punching loosening, containing a frame, wheels, hydraulic cylinders, working bodies, characterized in that it is equipped with ladders and shelves for tractor entry to and exit from the frame, a mounted system and a power conveyor on which the tractor’s rear wheels are mounted, and the working bodies are made in the form of front and rear sectional chisel-shaped disk couplings, while the rear drive sectional couplings are connected to the power conveyor through a gearbox and chain transmission, and the front control sectional couch the trailer is connected to the hydraulic cylinders.

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