RU2799650C1 - Cutter with hydraulic drive - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to implements of agricultural machines, in particular to combined implements for tillage and soil compaction. The cutter with a hydraulic drive consists of the right (1) and left (2) milling sections, from below containing the right (3) and left (4) drive shafts, respectively, on which the working bodies are fixed, made in the form of cutters-cultivators (5) with knives. Between the right and left milling sections, the central support (6) of the drive shafts is fixed, mounted on it coaxially with independent rotation with respect to each other, and from the end, extreme side parts of the milling sections, there are respectively lateral right (7) and left (8) supports of coaxial drive shafts with corresponding drives (9, 10) of independent rotation from the end extreme lateral right (11) and left (12) hydraulic motors.

EFFECT: expansion of operational capabilities, increase in working capacity, fault tolerance and maintainability of the device, as well as increase in the stability of the agricultural machine.

13 cl, 4 dwg

Description

The invention relates to agriculture, namely to tools of agricultural machines, in particular to combined tools for processing and rolling soil with the creation of a compacted bed for seeds in the sowing layer, with working bodies rotating from the drive on a horizontal shaft, located perpendicular to the direction of movement, and can be used for basic and pre-sowing cultivation of all types of mineral soils.

From the existing prior art, a high-clearance milling cultivator is known (Patent RU 151007 U1, 03/20/2015, A01B 33/00, A01B 39/08, A01B 39/16), including a frame with a transverse bar, an automatic coupler lock, working sections with chain transmission, flanges with knives, means for adjusting the depth of the cutter, and each section is equipped with a hydraulic motor for driving the working bodies and an emergency interruption system containing a pressure sensor and a controller configured to turn off the hydraulic motor.

Also known from the prior art is a two-rotor tillage cutter (Patent RU 2419268 C1, 05/27/2011, A01B 33/00), containing a hitch, side supports and various types of rotors, which are driven from the tractor power take-off shaft through a central bevel gear and final drives, connected to the central bevel gear through spaced side drives, moreover, the final drives and side supports are made in the form of rocking wings, which are installed coaxially with the central bevel gear and side drives and have the ability to change and fix the opening angle between themselves, as well as the central bevel gear and final drives with side bearings have the possibility of independent fixed rotation relative to the side drives.

The closest technical solution is the working body of a milling motor cultivator (Patent RU 142444 U1, 06/27/2014, A01B 33/00), including left and right milling drums, having one protective disk at their ends, each milling drum is installed at the output ends of the gearbox shaft and contains three cultivator cutters, each of which includes a hollow shaft with two radial through holes located in it, between which a bracket is installed with four knives rigidly fixed on it with an angular displacement of 90 °, while the cultivator cutters are interconnected by stoppers passing through the radial through holes, moreover, a cultivator milling cutter is additionally installed on each milling drum, while two radial through holes are additionally placed on the hollow shaft of all cutter cutters so that three holes at one end of the shaft are arranged in a row on at an equal distance from each other, and at its opposite end at the same distance from each other, there were three other radial through holes with an angular displacement relative to the first three radial through holes equal to 22.5°, 30° and 45° degrees, respectively.

The main disadvantage of the above technical solutions is either the presence of working sections with misalignment of the sector drive shafts of the cutters, which reduces the quality of soil cultivation due to the lack of working bodies (cutters) between the sectors and the installation error of the working sections with the difference in the depth of the sector cutters in the cultivated soil, or the lack of the possibility of joint use or aggregation with cultivators on one agricultural machine, the presence of one drive of the cutter mechanism for its entire width with one working shaft from the power take-off shaft of the agricultural machine, as well as the inability to use it on agricultural machines without a power take-off shaft.

The technical result of the claimed invention is the expansion of operational capabilities, which consists in the effective implementation of the sharing or aggregation of the device with known types of cultivators on one agricultural machine without the use of a drive from the power take-off shaft, in increasing the efficiency, fault tolerance and maintainability of the device, as well as in increasing the stability of the agricultural machine, expressed in an increase in the productivity of the use of the proposed device and fuel economy of the said machine, without reducing the pace of its work.

The specified technical result is achieved due to the fact that the cutter with a hydraulic drive consists of the right and left milling sections, from the bottom containing, respectively, the right and left drive shafts, on which the working bodies are fixed, made in the form of cutters-cultivators with knives.

Moreover, between the right and left milling sections, the central support of the mentioned drive shafts is fixed, installed on it coaxially with independent rotation with respect to each other, and from the end, extreme side parts of the mentioned milling sections, there are respectively lateral right and left supports of the mentioned coaxial drive shafts with corresponding drives of independent rotation from end, extreme lateral right and left hydraulic motors.

In particular, said central support can be made in the form of a central plate, from the bottom of which, on its flat sides, the inner bearing supports of the said right and left coaxial drive shafts, respectively, can be coaxially fixed, and the said side right and left supports can be in the form of side plates, from below which on their flat outer side from the end, extreme side parts of the mentioned milling sections, external bearing supports of the mentioned right and left coaxial drive shafts, respectively, can also be installed coaxially.

In this case, drives of independent rotation of said coaxial drive shafts can be made with drive chain or belt drives from said side hydraulic motors located on top along the end, extreme side parts of said milling sections.

In addition, said belt transmissions can be made with V-belts, or V-ribbed belts, or circular section belts, or toothed belts, and said drive chain drives can be made with toothed chains, or roller chains, or sleeve chains.

Moreover, the mentioned milling sections can be made symmetrically with respect to the axial line parallel to the flat sides of the central plate of the mentioned central support, the ribs of the mentioned plate, and in the upper part of the mentioned milling sections there can be at least four-point attachment to the levers of the attachment of the agricultural cultivator. machines, to the hydraulic system of which the mentioned hydraulic motors can be connected in parallel through hydraulic hoses.

At the same time, said attachment can be made unified in terms of size and fixation height of said cultivator levers for sharing or aggregation with known types of cultivators on said agricultural machine, and each point of said fastening of the cultivator linkage levers can contain two plates with lugs, also made with the shape in accordance with the standard size and fixation height of said cultivator levers of said agricultural machine. Fastening can also be made in the form of locks, hooks and other options.

In addition, in the upper part of each of the mentioned milling sections from the mentioned axis of symmetry for each mentioned attachment point, two small plates with lugs and two large plates with lugs of the mentioned attachment points of the mentioned cultivator levers can be sequentially located.

Moreover, on the flat outer side of the side plates of the mentioned side right and left supports from the end, extreme side parts of the mentioned milling sections, the right and left protective covers for the mentioned chain or belt drives can be installed, respectively.

In this case, support skis can be installed on the edge of the lower part of the side plates of the mentioned side supports, which can be made with a mechanism for adjusting the penetration of the said working bodies into the cultivated soil.

In addition, each of the mentioned milling sections can be made in the form of a metal frame or a metal cover.

Moreover, said milling sections and/or said supports can be made of carbon steel, or alloy steel, or titanium, or aluminum.

Moreover, the mentioned milling sections and/or the mentioned supports, made of carbon steel, can be made with a galvanized coating by the method of powder-polymer, or hot-dip galvanizing.

While said alloy steel can be made in the form of corrosion-resistant or stainless steel.

The essence of the invention is illustrated by drawings, which shows a particular case of the proposed cutter with hydraulic drive: figure 1 shows a General view of the cutter with hydraulic drive (protective covers are not shown); figure 2 is an axonometric projection of a general view of a cutter with a hydraulic drive (protective covers are not shown); figure 3 is a top view of a hydraulically driven cutter in a hitch for sharing or aggregation with a cultivator of an agricultural machine; figure 4 is an axonometric projection of a general view of a hydraulically driven cutter in a hitch for sharing or aggregation with an agricultural machine cultivator, where:

1 - right milling section;

2 - left milling section;

3 - right drive shaft of the right milling section;

4 - left drive shaft of the left milling section;

5 - cutters-cultivators with knives;

6 - central support;

7 - lateral right support of the right drive shaft of the right milling section;

8 - lateral left support of the left drive shaft of the left milling section;

9 - rotation drive of the right drive shaft of the right milling section;

10 - rotation drive of the left drive shaft of the left milling section;

11 - end, extreme lateral right hydraulic motor;

12 - end, extreme lateral left hydraulic motor;

13 - inner bearing support of the right drive shaft;

14 - internal bearing support of the left drive shaft;

15 - outer bearing support of the right drive shaft;

16 - external bearing support of the left drive shaft;

17 - drive chain or belt drive of the right drive shaft;

18 - drive chain or belt drive of the left drive shaft;

19 - linkage levers of the cultivator of the agricultural machine;

20 - cultivator of an agricultural machine;

21 - hydraulic hoses for parallel connection of hydraulic motors to the hydraulic system of an agricultural machine;

22 - small plates with lugs at the points of attachment and fixation of the hitch levers, the cultivator of the agricultural machine;

23 - large plates with lugs at the points of attachment and fixation of the hitch levers of the cultivator of the agricultural machine;

24 - right protective cover;

25 - left protective cover.

A special case of the implementation of a cutter with a hydraulic drive can be performed as follows: a cutter with a hydraulic drive consists of right 1 and left 2 milling sections, from the bottom containing, respectively, the right 3 and left 4 drive shafts, on which the working bodies are fixed, made in the form of cutter-cultivators 5 with knives.

Moreover, between the right 1 and left 2 milling sections, the central support 6 of the mentioned drive shafts 3, 4 is fixed, mounted on it coaxially with independent rotation with respect to each other, and from the end, extreme side parts of the mentioned milling sections 1, 2, respectively, side right 7 and left 8 supports of said coaxial drive shafts 3, 4 with corresponding drives 9, 10 of independent rotation from the end, extreme side right 11 and left 12 hydraulic motors.

Said central support 6 can be made in the form of a central plate, from the bottom of which, along its flat sides, internal bearing supports 13, 14 of the mentioned right 3 and left 4 coaxial drive shafts, respectively, can be coaxially fixed, and the said side right 7 and left 8 supports - in in the form of side plates, from the bottom of which on their flat outer side from the end, extreme side parts of the mentioned milling sections, external bearing supports 15, 16 of the said right 3 and left 4 coaxial drive shafts can also be coaxially installed, respectively.

In this case, the drives 9, 10 of independent rotation of the mentioned coaxial drive shafts can be made with drive chain or belt drives 17, 18 from the mentioned side hydraulic motors 11, 12, located on top along the end, extreme side parts of the mentioned milling sections 1, 2.

In addition, said belt transmissions 17, 18 can be made with V-belts, or V-ribbed belts, or circular section belts (round belts), or with toothed belts, and said drive chain transmissions 17,18 can be made with toothed chains, or roller chains or sleeve chains.

Moreover, the mentioned milling sections 1, 2 can be made symmetrically with respect to the axial line parallel to the flat sides of the central plate of the mentioned central support 6, the ribs of the said plate, and in the upper part of the mentioned milling sections 1, 2, at least four-point attachment to the levers 19 of the attachment of the cultivator 20 of the agricultural machine, to the hydraulic system of which the mentioned hydraulic motors 11, 12 can be connected in parallel through the hydraulic hoses 21.

At the same time, said fastening can be made unified in size and height of fixation of said levers 19 of the cultivator 20 for sharing or aggregation with known types of cultivators on the said agricultural machine, and each point of said fastening of the cultivator linkage levers can contain two plates with lugs, also made with a shape in accordance with the unification in terms of size and height of fixation of the mentioned levers 19 of the cultivator 20 of the mentioned agricultural machine.

In addition, in the upper part of each of the mentioned milling sections 1, 2 from the mentioned axis of symmetry for each mentioned attachment point, two small plates 22 with lugs and two large plates 23 with lugs of the mentioned attachment points of the mentioned levers 19 of the cultivator 20 can be sequentially located .

Moreover, on the flat outer side of the side plates of the mentioned side right 7 and left 8 supports from the end, extreme side parts of the mentioned milling sections 1, 2, respectively, the right 24 and left 25 protective covers for the mentioned chain or belt drives 17, 18 can be installed.

At the same time, support skis (not shown in the figures) can be installed on the edge of the lower part of the side plates of the said side supports 7, 8, which can be made with a mechanism for adjusting the penetration of the said working bodies into the cultivated soil.

In addition, each of the mentioned milling sections 1, 2 can be made in the form of a metal frame or a metal cover.

Moreover, said milling sections 1, 2 and/or mentioned supports 6, 7, 8 can be made of carbon steel, or alloy steel, or titanium, or aluminum.

Moreover, the mentioned milling sections 1, 2 and/or the mentioned supports 6, 7, 8, made of carbon steel, can be made with a galvanized coating by powder-polymer, or hot-dip galvanizing.

While said alloy steel can be made in the form of corrosion-resistant or stainless steel.

The hydraulic cutter operates as follows: first, the hydraulic cutter is hitched directly to the cultivator 20 of the agricultural machine. For what, in the beginning, the levers 19 of the hitch of the cultivator 20 of the agricultural machine at the attachment points are fixed by means of plates 22, 23 with lugs. Then, with the help of hydraulic hoses 21, the end, extreme side hydraulic motors 11, 12 are connected in parallel directly to the hydraulic system of the agricultural machine. After that, by means of an adjusting mechanism made on support skis (not shown in the figures), the depth level of the cutter-cultivators 5 with knives is set in the cultivated soil and it is directly cultivated by means of the traction force generated by the agricultural machine using the inventive cutter with a hydraulic drive. At the same time, in one pass of the mentioned machine with the inventive cutter, operations can be simultaneously performed for grinding and/or crumbling soil lumps, leveling and rolling with the creation of a compacted bed for seeds. Moreover, the drive shafts 3, 4 of the milling sections 1, 2, installed in bearing supports 13, 14, 15, 16, made from below the lamellar structural supports 6, 7, 8, with drives 9, 10 of independent rotation through drive gears 17, 18, closed by protective covers 24, 25, from hydraulic motors 11, 12 ensure the operation of the device without their synchronization.

The specified technical result is achieved due to the fact that in the design of the device the drive shafts are made coaxially with independent rotation with respect to each other from individual hydraulic motors connected in parallel to the hydraulic system of the agricultural machine, it is ensured, firstly, the uniformity of tillage due to the absence of an error in the difference in depth cutter cultivators with knives. Secondly, the possibility of independent operation of the milling sections is realized, which makes it possible to ensure the possibility of continuous operation of the device when the shaft is blocked or the hydraulic motor of one of the said sections breaks, as well as ensuring the operation of the device without synchronization of the mentioned hydraulic motors. Thirdly, fuel savings and an increase in the productivity of the use of the device, expressed in an increase in the area of cultivated land, are ensured due to the stable operation of the agricultural machine due to the absence of a decrease in the rate of its work. And, fourthly, it becomes possible to retrofit any cultivator of an agricultural machine with a change in the tillage process.

Technical solutions coinciding with the totality of the essential features of the claimed invention have not been identified, which allows us to conclude that the claimed invention complies with such a patentability condition as "novelty".

The claimed essential features that predetermine the receipt of the specified technical result do not explicitly follow from the prior art, which allows us to conclude that the claimed invention complies with such a patentability condition as "inventive step".

Claims (13)

1. Cutter with hydraulic drive, consisting of the right and left milling sections, from below containing, respectively, the right and left drive shafts, on which the working bodies are fixed, made in the form of cutters-cultivators with knives, characterized in that between the right and left milling sections is fixed the central support of said drive shafts mounted on it coaxially with independent rotation with respect to each other, and from the end, extreme side parts of the mentioned milling sections, there are respectively lateral right and left supports of the mentioned coaxial drive shafts with corresponding drives of independent rotation from the end, extreme side right and left hydraulic motors. 2. A cutter with a hydraulic drive according to claim 1, characterized in that said central support is made in the form of a central plate, from the bottom of which, along its flat sides, the internal bearing supports of the said right and left coaxial drive shafts, respectively, are fixed, and the mentioned side right and left supports - in the form of side plates, from the bottom of which on their flat outer side from the end, extreme side parts of the mentioned milling sections, the external bearing supports of the mentioned right and left coaxial drive shafts are also coaxially installed, respectively. 3. A cutter with a hydraulic drive according to claims 1, 2, characterized in that the independent rotation drives of the mentioned coaxial drive shafts are made with drive chain or belt drives from the mentioned side hydraulic motors located on top of the end, extreme side parts of the mentioned milling sections. 4. A cutter with a hydraulic drive according to claim 3, characterized in that said belt drives are made with V-belts, or V-ribbed belts, or circular section belts, or with toothed belts, and said drive chain drives are made with toothed chains, or roller chains , or sleeve chains. 5. Cutter with hydraulic drive according to claims 1-3, characterized in that said milling sections are symmetrical with respect to the axial line parallel to the flat sides of the central plate of said central support, the ribs of said plate, and in the upper part of said milling sections is located, at least four-point attachment to the linkage levers of the cultivator of the agricultural machine, to the hydraulic system of which the mentioned hydraulic motors are connected in parallel through hydraulic hoses. 6. Cutter with a hydraulic drive according to claim 5, characterized in that said fastening is made unified in size and fixation height of said cultivator levers for sharing or aggregation with known types of cultivators on said agricultural machine, and each point of said fastening of the cultivator hitch levers contains two plates with lugs, also made with a shape in accordance with the standard size and fixation height of the said levers of the cultivator of the mentioned agricultural machine. 7. Cutter with hydraulic drive according to claims 5, 6, characterized in that in the upper part of each of the mentioned milling sections from the mentioned axis of symmetry for each said attachment point there are sequentially located two small plates with lugs and two large plates with lugs of the mentioned attachment points of said cultivator levers. 8. A cutter with a hydraulic drive according to claims 1-7, characterized in that on the flat outer side of the side plates of the said side right and left supports from the end, extreme side parts of the said milling sections, respectively, the right and left protective covers are installed for the mentioned chain or belt gears. 9. Cutter with hydraulic drive according to claims 1 to 8, characterized in that support skis are installed on the edge of the lower part of the side plates of said side supports, which are made with a mechanism for adjusting the penetration of said working bodies into the cultivated soil. 10. Cutter with hydraulic drive according to claims 1 to 9, characterized in that each of said milling sections is made in the form of a metal frame or a metal cover. 11. A hydraulically driven cutter according to claims 1 to 10, characterized in that said milling sections and/or said supports are made of carbon steel or alloy steel or titanium or aluminium. 12. A hydraulically driven cutter according to claim 11, characterized in that said milling sections and/or said supports made of carbon steel are made with a galvanized coating by powder-polymer, or hot-dip galvanizing, or galvanization. 13. A hydraulically driven cutter according to claim 11, characterized in that said alloy steel is made in the form of corrosion-resistant or stainless steel.

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