RU2318304C1 - Tillage tool - Google Patents

Abstract

FIELD: agricultural engineering, in particular, power saving and soil protecting equipment.

SUBSTANCE: tillage tool has hitch tongue pivotally connected to frame. Frame comprises mid section and pivotally connected side sections, and carrier wheels which are secured to frame and equipped with tillage depth adjusting mechanism, spherical disks, flat hoes, transport wheels, two-row strip-type slides, and frame side section folding mechanisms. Spherical disks are positioned in one row with concave side oriented away from center. Each of said disks is mounted on individual tine at constant angle of attack and tillage depth smaller than that of flat hoes. Spherical disks are positioned in single longitudinal plane with respective flat hoe. Two-row strip-type slides mounted on mid and side sections of frame are offset relative to one another in lengthwise direction.

EFFECT: improved quality of soil tillage, increased efficiency, reduced consumption of power, and reduced draft.

3 dwg

Description

The invention relates to the field of agricultural engineering, in particular to units designed for resource-saving and soil-protective treatment.

Known combined tillage unit, including a frame with a hitch, disk batteries mounted at an angle to its transverse line, flat-cutting legs, roller and a V-shaped equalizer (patent No. 2134940, A01B 49/02, bull. No. 24, 1999).

The disadvantage of this design is the presence of a passive V-shaped equalizer designed to distribute the dump crest formed by disk batteries, which leads to unloading and clogging of the aggregate with crop residues when working on wet soil, which requires significant cleaning work and worsens the surface of the treated field due to the formation of heaps.

The closest technical solution to the proposed one is a trailed hydraulically folding tillage unit containing a bale, a frame consisting of a middle and pivotally attached side sections, spherical disc sections mounted on the frame, plane-cutting legs, transport wheels, ribbed rollers and mechanisms for translating side sections of the frame to transport position (Prospectus Great Plains, Canada, Model Discovator 7333).

A disadvantage of the known design of the tillage unit is that its transport wheels are used during operation as support wheels for adjusting the depth of processing and do not provide, due to the sticking of soil, a stable depth; in addition, the disk sections mix the post-harvest residues in the entire processed layer, and acids are formed, which are the product of the mineralization of organic substances, inhibiting the development of the plant root system during subsequent sowing.

The purpose of the invention is to improve the quality of tillage, increase productivity, reduce traction resistance and save fuel and lubricants.

This goal is achieved by the fact that in a tillage unit containing a bale, pivotally connected to a frame consisting of a middle and pivotally attached side sections, on which support wheels with a mechanism for adjusting the depth of processing, spherical disks, plane-cutting legs, transport wheels, strip rollers and folding mechanisms of the side sections of the frame, there are the following features: spherical disks are installed in one row with the concave side from the center, each on an individual rack with a constant angle at and with a processing depth less than flat-cutting paws, each disk being located in the same plane with the corresponding flat-cutting paw, and the double-row rollers on the middle and side sections of the frame are shifted relative to each other in the longitudinal direction.

Figure 1 shows the proposed tillage unit, a top view, figure 2 is a side view, figure 3 is a rear view in a transport position.

The tillage unit (Fig. 1) consists of a snitsa 1, a middle section of a frame 2 and side sections 3, support wheels 4, spherical disks 5, flat-cutting legs 6, transport wheels 7, double-row strip rollers 8 and a hydraulic cylinder for turning transport wheels 9.

The installation of spherical disks 5 in one row with the concave side from the center eliminates the formation of an oval ridge and improves the evenness of the surface of the treated field.

Mounting spherical disks on an individual rack with a constant angle of attack provides a reduction in the time for replacing disks in case of breakage, the depth of processing is not adjusted by changing the angle of attack of the disks, but by supporting wheels 4 and rollers 8, which helps to speed up the setup of the unit and, therefore, increase productivity .

Placing the disks at a shallower depth of treatment than flat-cutting paws creates a gap between the plane of the bottom formed by the disks and the plane of undercutting the paw, which improves soil crumbling with minimal cost.

The location of the disks in front of the corresponding paw in the same plane with it eliminates the hanging of plant debris on the rack of the plane-cutting paw, promotes mixing of plant debris only within the upper layer, which creates a mulching layer that retains moisture.

The offset of the double-row rollers on the middle section of the frame relative to the rollers located on the side sections, allows the rollers to overlap and, thereby, to prevent the formation of scallops at the junction of the sections.

The soil-cultivating unit is connected with the snake 1 to the tractor’s trailer bracket and a hydraulic system is connected to control the hydraulic cylinders for turning the transport wheels 9 and folding the unit into transport position 11.

The initial position of the tillage unit is shown in figure 2. The unit is lowered and rests on the soil with wheels 4 and rollers 8, spherical disks 5 and plane-cutting paws 6 are recessed, transport wheels 7 are raised by hydraulic cylinder 9 above the soil, hydraulic cylinder 10 is displaced, and the grommet 1 is released due to the groove in which the hydraulic fork is installed.

During the movement of the tillage unit, spherical disks 5 mounted in front of each flat-cutting paw rotate to cut plant debris, crumble the cultivated soil layer and shift it to the side, forming grooves for the passage of the paws. Flat-cutting paws 6 cut the layer at an additional depth and crumble it without a turn. Following the paws, double-row strip rollers 8 eliminate voids in the middle zone of the treated layer, form a moisture-saving compacted layer, crush the soil lumps that have passed through the strips inside the roller, mulch the top layer and fill the furrows remaining after the paws pass.

At the end of the rut, the hydraulic cylinder 9 extends with the aid of a hydraulic system and rotates the crankshaft axis of the transport wheels 7, and the hydraulic cylinder 10 lowers and fixes the grip 1, the unit is deepened, and after a turn, it is lowered to its original position and the process is repeated.

Changing the depth of processing is carried out by reinstalling the support wheels 4 and rollers 8 using depth adjustment mechanisms.

When transporting the unit on roads to reduce its width using the hydraulic system, the side sections 3 (Fig. 3) are lifted by the hydraulic cylinders 11 above the middle section of the frame 2.

Tests of the unit in the farms of the Novosibirsk region showed that it provides high-quality tillage with high productivity and efficiency.

Claims (1)

A tillage unit, including a pick, pivotally connected to a frame consisting of a middle and pivotally attached side sections, on which support wheels with a mechanism for adjusting the working depth, spherical disks, flat-cutting legs, transport wheels, double-row strip rollers and mechanisms for folding the side sections of the frame are installed, characterized in that the spherical discs are mounted in one row with the concave side of the center, each on an individual rack with a constant angle of attack and a processing depth of less than skorezhuschih clutches, and in the same longitudinal plane with corresponding ploskorezhuschey paw, and double-row rollers on the middle strip and the side frame sections are shifted relative to each other in the longitudinal direction.

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