RU176153U1 - The working body of the tillage implement "PSK-ChG" - Google Patents

Abstract

The utility model relates to agricultural machinery, more specifically to the design of the working body of a tillage implement, more specifically to a chisel subsoiler, and can be used to create multi-case high-speed combined unified machine plows (abbreviation PSK-ChG) for basic dump and non-dump soil cultivation for agricultural crops for various purposes. The technical result of the proposed utility model is to reduce operating costs, increase The maintenance of the working body of the tillage tool and the reduction of traction resistance of the working body of the tillage implement when treating various types of non-stony soils by increasing the functionality of the chisel deep-ripper and the new implementation of its structural elements and assemblies. The technical result is achieved by the fact that in the working body of the tillage implement containing the carrier a rack installed in its lower part removable cutting knives and patch bit with means for regulation and fixation x position in the field, according to the utility model, the support stand is made of at least one flat steel strip having a leg shape in plan, on which the chisel is fixed on the inclined toe, in the heel zone - left and right cutting knives, on the front parts - a removable chipper with welded mounting brackets, and in the lower, middle and upper parts of the supporting rack is equipped with main and additional holes for mounting and adjusting the position of the supporting rack, cutting knives and chisels, including the ability to independently rotate around axes perpendicular to the flat side of the support rack. In addition, the support rack can be welded or prefabricated from two or three flat steel strips with the ability to quickly replace or rearrange removable elements in the field for another modification or as it wears out, moreover, each of the removable elements can be fixed on the rack at least at two points. In addition, cutting knives and chisels can have additional blade parts with the possibility of rearrangement in the event of axis, and their cutting edges may have surfacing or inserts of wear-resistant material. In addition, the bit can be made in the form of a flat or arcuate plate and mounted on the toe of the carrier rack using a bolted connection, equipped mainly with Belleville springs to change the angle of installation in the range of 5-25 ° above the plane of the frontal part of the nose of the supporting rack. In addition, the blades of the cutting knives can have an arched or flat working surface, located at an angle to the shanks and to the direction of and movement in the range of 90-110 °. In addition, shanks for attaching cutting knives can have at least two holes, one of which is for bolting, and the other is used to rotate the cutting knives around an axis perpendicular to the side of the carrier racks by using a sleeve with an eccentric or an adjusting bolt. In addition, the support column in the upper part can be equipped with one main and at least one additional holes, and the main one is intended for power about bolt connection of the rack with the frame of the tillage implement, and a shear bolt is inserted in the additional bolt to rotate the carrier rack against movement when the calculated loads on the carrier column are exceeded, for example, if an insurmountable obstacle appears on its path. pipes or rods made of wear-resistant material with an oval or wedge-shaped cross section and a width not less than the thickness of the support rack. In addition, the support column in the middle part can be equipped with an opening with bolts for bolting to the stand of a removable blade for turning the formation with the possibility of its replacement or rearrangement in the field. f-ly, 1 ill.

Description

The utility model relates to agricultural machinery, more specifically, to the design of the working body of a tillage implement in the form of a chisel deep-ripper (ChG), and can be used to create multi-case high-speed combined plows (PSC) for the main dump and non-dump tillage for agricultural crops for various purposes.

A working member of the chisel plow is known, consisting of a rack with a shoe welded at the bottom with an overhead bit fastened to it with bolts, holes are drilled along the rack to which movable blade and / or a pair of cutting wings can be attached, which are made with a bent end corresponding to the profile racks, and fastened with a bolt connection that does not protrude beyond the projection of the rear part, and the other connection is located in the closed area of the cutting part (see RF patent No. 2487514, publ. 07.02.2012). The technical drawback of such devices is the difficulty of manufacturing a welded stand and the irrational pattern of replaceable elements.

The working body of a tillage implement is known, consisting of a rack with a shoe welded at the bottom with an overhead bit, holes are drilled along the rack through which a movable blade and / or a pair of cutting wings consisting of a blade and a shank vertically directed with two holes can be attached with a pair of bolts and, in the upper inserted sleeve with an eccentric (see RF patent No. 2399177, publ. 09/20/2010). The disadvantage of this working body is the irrational design of the rack with a shoe welded at the bottom and the difficulty of replacing the bit, which reduces the operational, economic and technological performance of the gun.

A working body of a tillage implement is also known, including a stand with a vertical flat knife with a front cutting edge and a lancet paw connected to it, consisting of right and left shares, having front cutting edges, while the working body is adapted to be attached to the frame of the tillage implement ( see RF patent No. 2348131, publ. 10.03.2009).

A feature of the known working body is the implementation of a vertical flat knife of a triangular shape with an additional lower cutting edge. The angle between the front and lower cutting edges is 30-70 °, the lower cutting edge is located at an angle to the horizon of 5-15 °, the vertical flat knife is made protruding beyond the lower surface of the lancet paw, and the sharpening angle of all cutting edges is selected from the interval of 15- 60 °. Sharpening of the cutting edges of the knife is made on the right side in the direction of movement of the working body, the left and right shares are triangular in shape and connected to the stand at an angle to the vertical plane of 83-88 ° and at an angle to the horizon of 10-25 °, while the surface area of the left share in the direction of travel exceeds the right area by 1.2-1.5 times, and the working body is equipped with a fairing in the form of a rod located above a vertical flat knife on the front side of the rack. The disadvantages of the known working body of the tillage implement include the relatively complex design of the cutting elements of a flat knife of a triangular shape and the need to control the sharpening angles of the cutting edges and the location of the shares with respect to the supporting stand.

The closest technical solution to the proposed one is the working body of a tillage implement containing a support rack, removable cutting knives and an overhead chisel installed in its lower part with means for regulating and fixing their position (see RF patent No. 148330, publ. 10.12.2014 - prototype )

величины эксцентрика, кроме того, долото выполнено «чулком», одеваемым на носок башмака, с возможностью фиксации пальцем, проходящим через отверстия в стенках чулка и носке башмака.A feature of the known working body of a tillage implement is that it contains a stand with a shoe welded in the lower part with a patch bit fixed by a bolt joint. Holes were drilled along the strut through which a pair of bolts secured a movable blade and / or a pair of cutting wings, consisting of a blade and a shank with two holes, in the upper of which a sleeve with an eccentric was inserted. The cutting wings are made of a strip with a sharpened edge for cutting, bent along the line corresponding to the angle of the solution, taking into account the width of the wing capture, an internal angle greater than the direct angle by the minimum crumbling angle. The holes on the shank are drilled along an axial line spaced from the perpendicular of the bend line by the angle of crumbling, and the upper hole for the eccentric sleeve is shifted radially between the holes to the left of the axial

the size of the eccentric, in addition, the bit is made by “stocking”, put on the toe of the shoe, with the possibility of fixing with a finger passing through the holes in the walls of the stocking and the toe of the shoe.

The disadvantages of the known device include the relatively low operational reliability, maintenance time and efficiency in case of subsurface and integrated tillage on soils with low or high resistivity, primarily because of the need for periodic changes in the operating modes of the cutting elements of the chisel subsoiler with a processing depth of up to 60 cm and more with the hardness of the main types of non-stony soils up to 4 MPa.

The solvable task of the utility model is the creation of a modern multifunctional tillage implement from a number of chisel deep-rippers for the effective treatment of the main soil types for crops with non-dump (in some cases, using a dump) tillage of the soil layer to a depth of 60 cm or more with a hardness of up to 4 MPa, humidity up to 22% and a slope of fields no more than 8 ° with the possibility of aggregation of plows in multi-body design with tractors of 2, 3, 4 classes.

The technical result of the proposed utility model is to reduce operating costs, increase reliability, turnaround time and reduce traction resistance of the working body of the tillage implement when processing various types of non-stony soils by increasing the functionality of the chisel deep-ripper and redesigning field-controlled structural elements and assemblies.

The specified technical result is achieved by the fact that in the working body of the tillage implement containing the support rack, removable cutting knives and an overhead bit installed in its lower part with means for adjusting and fixing their position in the field, according to the utility model, the support rack is made at least at least in the form of one flat steel strip having a shape of the legs in plan, on which the chisel is fixed on the inclined toe, in the heel zone - left and right cutting knives, on the front part - removable nickname with welded mounting brackets, and in the lower, middle and upper parts of the supporting rack is equipped with main and additional holes for mounting and adjusting the position of the supporting rack, cutting knives and chisels, including the possibility of independent rotation around axes perpendicular to the flat side of the carrier racks.

In addition, the supporting rack can be made welded or prefabricated from two or three flat steel strips with the possibility of quick replacement or rearrangement of removable elements in the field for another modification or as it deteriorates, and each of the removable elements can be fixed to the rack for at least at two points.

In addition, cutting knives and chisels may have additional blade parts with the possibility of shifting during wear, and their cutting edges may have weld deposits or inserts of wear-resistant material.

In addition, the bit can be made in the form of a flat or arcuate plate and mounted on the nose of the carrier rack using a bolted connection, equipped mainly with Belleville springs to change the angle of its installation in the range of 5-25 ° above the plane of the frontal part of the nose of the carrier rack.

In addition, the blades of the cutting knives can have an arched or flat working surface, located at an angle to the shanks and to the direction against movement in the range of 90-110 °.

In addition, shanks for attaching cutting knives can have at least two holes, one of which is designed for bolting, and the other is used to rotate the cutting knives around an axis perpendicular to the side of the support rack by using a sleeve with an eccentric or an adjusting bolt .

In addition, the support rack in the upper part can be equipped with one main and at least one additional holes, the main one being intended for power bolt connection of the rack with the frame of the tillage implement, and a shear bolt is inserted into the additional one to rotate the support rack against movement when exceeded design loads on the support rack, for example, in the event of an insurmountable obstacle appearing on its path.

In addition, a removable chipper can be made in the form of a pipe or rod of wear-resistant material with a cross section of an oval or wedge-shaped shape and a width not less than the thickness of the support rack.

In addition, the supporting rack in the middle part can be equipped with holes for bolting to the removable blade for rotation of the formation with the possibility of replacement or rearrangement in the field.

This embodiment of the working body of the tillage implement ensures the achievement of a technical result — reduction of operating costs, increased reliability and turnaround time when moldless tillage of various types of soils to a depth of 60 cm and more with hardness of 4 MPa due to an increase in functionality and a new design of removable chisel elements subsoiler. Achieving the technical result and increasing the efficiency of the proposed tillage implement is ensured, inter alia, due to the fact that the loosening of the soil layer is carried out at optimal cutting and cultivating angles for a specific depth, hardness and moisture of the soil layer processed by cutting knives and an overhead bit mounted on a carrier the chisel subsoiler rack, as well as through the use of new means for regulating, replacing and fixing the position of the removable elements in the field x

The implementation of the bit in the form of a flat or arcuate plate and its fastening on the toe of the support rack using a bolt connection equipped with disk springs or insert washers, and the constructive implementation of cutting knives with the possibility of adjusting cutting angles contributes to solving the problem of efficient processing of the main soil types for agricultural crops without processing various types of soil layer to a depth of 60 cm or more under the above conditions. The possibility of changing the angle of inclination of the chisel bit in the optimal range of 5-25 ° above the plane of the frontal part of the nose of the supporting rack and changing the angle of inclination of the cutting knives to the shanks against the direction of 90-110 ° allows, if necessary, to optimize the operating modes of the chisel in the practically used range a deep-ripper when changing agrotechnical requirements for processing plots with one or another type of soil, depending on the parameters and resource characteristics of the bit and cutting knives.

The technical result when processing with a chisel deep-ripper of various types of non-stony soils is ensured, in accordance with the inventive concept, due to the specified implementation of the support rack, removable chipper, chisels and cutting knives. The reduction in operating costs and the overhaul life of the device is associated with the ability to quickly replace removable elements of the subsoiler in the field without the need to transport the plow to a repair base. Improving the reliability of its operation in the conditions of non-mold treatment of various types of soil layer to a depth of 60 cm or more with hardness up to 4 MPa and humidity up to 22%, in turn, is associated with the presence of the mentioned means for removable elements of the ripper for their fixation and regulation by the tractor operator in field conditions without resorting to manufacturers producing well-known tillage tools of the same purpose. In addition, the constructive implementation and operating features of the proposed working body of the deep-ripper make it possible to better take into account the changing agrotechnical requirements in the case of subsurface processing of the main soil types for agricultural crops for various purposes.

A change in the angle of inclination of the patch bit less than 5 ° above the plane of the frontal part of the nose of the support column affects the loosening parameters of the soil layer in a relatively small degree due to the proximity of the values of the sharpening angles of its blades. Due to the fact that the angle of inclination of the plane of the frontal part of the nose to the direction of movement may be initially in the range of 30-60 ° or more, when exceeding the specified angle of inclination of the overhead bit more than 25 °, it becomes inappropriate. The indicated ranges of the angles of inclination of the cutting elements of the deep ripper, including the angles of inclination of the cutting knives in the direction of movement in the range of 90-110 °, are revealed by the test results of the proposed device in various modes of its operation. In particular, in recent years, the design of the proposed ChG chisel deep-ripper has been tested during numerous pilot and experimental work to improve the high-speed combined and standardized plows of the PSK and PSKu series developed by NPO SUR.

To reduce the cost of manufacturing the proposed working body, the support rack can be made of one steel sheet in the form of a strip of relatively large thickness (15-35 mm) or a team of two or three thinner flat steel strips of the necessary configuration, interconnected by bolts or welding. This provides a real opportunity for quick replacement or rearrangement of removable cutting elements in the field to another modification or as it wears, for example, by attaching each of them to the stand at two points. To save time for repairing the working body, cutting knives and chisels can have additional blade parts with the possibility of rearrangement during wear, and their cutting edges can have weld deposits or inserts of wear-resistant material.

To achieve a technical result, the bit is fixed to the toe of the support rack using a bolted connection equipped with Belleville springs to change the angle of its installation in the specified range above the plane of the frontal part of the nose of the support rack, and cutting knives can be located at an angle in the plane equal to or greater than 90 ° , to the shanks and to the direction against the movement of the working body. At the same time, the mounting shanks of the cutting knives can be equipped with a sleeve with an eccentric or an adjusting bolt to rotate the cutting knives around an axis perpendicular to the side of the support rack. To prevent destruction or deformation of the support column, it can be equipped with a shear bolt and / or return spring at the attachment point to the plow frame. In this case, the support rack in the upper part can be equipped with one main and at least one additional holes intended, respectively, for the power bolt connection of the rack with the frame of the tillage implement, and a shear bolt is inserted into the additional one to rotate the support rack against movement when exceeded design loads on the support rack, for example, in the event of an insurmountable obstacle appearing on its path. The removable chipper is predominantly made in the form of a rod or strip of wear-resistant material with an oval or wedge-shaped cross section, and its execution in the form of a pipe can be used for the indicated rotation of the cutting knives, for example, by moving an additional rod inside the pipe and transmitting the lever to rotate the cutting knives . To increase the functional characteristics of the working body of the tillage implement, the supporting rack in the middle part can be equipped with holes for bolting to the removable blade for rotation of the formation with the possibility of its replacement or rearrangement in the field.

Tests of the proposed working body of the soil cultivating tool PSK-ChG, carried out by OOO NPO SUR, indicate an increase in the functionality of these modifications of chisel deep-rippers in the plows of the PSK and PSKu series due to the optimization of their operating conditions when changing agrotechnical requirements for processing plots with different types of soils. Chisel deep-rippers of this design can be used on fields of almost all types of non-stony soils with smooth and wavy terrain, sloping up to 8 degrees for the main subsurface processing of the soil layer (cutting, loosening) for known crops to a depth of 60 cm or more with hardness up to 4 MPa, soil moisture up to 22% and field gradient of not more than 8 ° with the possibility of aggregation of plows with tractors of 2, 3, 4 classes.

The schematic drawing (Fig. 1) shows an example of a specific implementation of the proposed working body of a tillage implement with various options for attaching and adjusting removable elements.

The working body of the tillage implement contains a supporting stand 1, removable cutting knives 2, 3 and an overhead chisel 4 with means for adjusting and fixing their position in the field, installed in its lower part. The support rack 1 is made in the form of a flat steel strip having a leg shape in plan, on which the chisel 4 is fixed on the inclined toe 5, and the right and left cutting knives 2, 3 in the heel zone 6. A removable chipper 7 is placed on the front part of the support rack 1 in the form of a rod of wear-resistant material with a cross-section, for example, a wedge-shaped form with mounting brackets 8, 9 welded to it. In the upper part, the support rack 1 is provided with main and additional holes 10, 11 for attaching and adjusting the position of the support rack on the frame 12 plows in height. The holes 13 in the rack 1 are intended for bolt fastening of cutting knives 2, 3 to it, and the holes 14 - for their possible displacement along the height of the rack 1. The specified bolt fastening of cutting knives 2, 3 can be made with the possibility of their rotation around an axis perpendicular to the flat side of the support rack 1. In this case, the shanks 15 for attaching the cutting knives 2, 3 can have two holes 13, 16, one of which is for bolting, and the other is used to rotate the cutting knives 2, 3 around the axis, perpendicular to the side of the carrier strut 1 by using an eccentric bushing (shown in phantom). The blades of the cutting knives 2, 3 have a predominantly flat working surface located at an angle of about 90-110 ° to the shanks 15 and to the direction against the movement of the plow.

The carrier rack 1 is made with the possibility of quick replacement or rearrangement of removable elements 2, 3, 4 in the field to another modification thereof or as it wears out. Cutting knives 2, 3 and chisel 4 have additional blade parts with the possibility of moving removable elements during wear, and their cutting edges have weld deposits (not shown) of wear-resistant material. In this case, the bit 4 is made in the form of a flat plate and is mounted on an inclined toe 5 of the support rack 1 using bolts 17, 18 provided with insert washers or disk springs 19 to change the angle of installation of the bit 4 in the range of 5-25 ° above the plane of the frontal part of the sock 5 support strut 1.

As indicated, the support rack 1 in the upper part is provided with several holes 10, 11 for power bolted connection of the rack with the frame 12 of the tillage implement. In other cases, the support rack 1 can be equipped with one main 20 and additional holes 10, into which shear bolts are inserted to rotate the support rack 1 against movement when the calculated loads on the support rack are exceeded, for example, if an insurmountable obstacle appears on its path (not shown ) In addition, the supporting rack 1 in the middle part can be provided with holes 21 for bolting to a removable blade rack (not shown) for the purpose of reservoir rotation and the possibility of replacing or rearranging the blade in the field. In FIG. 1, arrows A, B. B, D show the directions of possible displacement when setting the operating modes of the subsoiler, respectively, for rack 1, shanks 15 of cutting knives 2, 3, bit 4 and adjusting bolt 16, equipped with an insert washer or disk spring 18. Arrows D and E indicate the possible rotations of the cutting knives 2, 3 and chisel 4 when they are adjusted to the optimum aggradation of the cultivated soil specified by the agrotechnical conditions.

The working body of the tillage implement operates as follows.

The technological process of work of the working body of the tillage implement is reduced to loosening the soil with a chisel 4 with subsequent processing by cutting wings 2, 3. The depth of the soil cultivation from the chisel 4 is regulated by attaching the support rack 1 to the plow frame 12 using various holes 10, 11, and also by plow support wheels (not shown). The depth of soil cultivation with cutting knives 2, 3 is changed by moving them through the holes 14 along the strut 1. To reduce the cost of cutting knives 2, 3 can be made of strips with a pre-sharpened cutting edge. In the shanks of 15 cutting knives 2, 3, as a rule, two holes were drilled for their fastening. A sleeve 16 with an eccentric can be inserted into one of the holes for horizontal arrangement of the cutting line of knives 2, 3 when the eccentric is set to the minimum angle of crumbling. To adjust the angle of inclination of the bit 4, as was indicated, it is used, for example, pressing its upper edge with an adjusting bolt 18, equipped with an insert washer or cup spring to the toe 5 of the rack 1.

The proposed implementation of the working body of the tillage implement allows to increase the operational, economic and technological performance of the deep-ripper, while ensuring the achievement of the technical result - lower operating costs, increased reliability and maintenance between the chisel and integrated processing of various types of soils by increasing the functionality and new design removable chisel subsoiler elements. The applicant’s experience in creating a series of plows with the proposed deep rippers indicates an increase in the efficiency of subsurface cultivation of the soil layer in the fields of almost all types of non-stony soils with smooth and wavy relief, sloping up to 8 degrees for the main subsurface cultivation of the soil layer (cutting, loosening) for known crops to a depth of 60 cm or more with hardness up to 4 MPa, soil moisture up to 22% with the possibility of aggregation of plows in multi-body design with tractors 2, 3, 4 Lassen, including tractors DT-75M, MT3-1221, T-150K, BT-150, HT3-16131.

Tests of the proposed working body of the tillage implement, carried out by OOO NPO SUR, confirm the achievement of the technical result, increasing the efficiency and functionality of these modifications of chisel deep-rippers in the PSC and PSCU series plows by optimizing their operating conditions under changing agrotechnical requirements for processing plots from different types of soils.

Claims (9)

1. The working body of a tillage implement containing a support rack, removable cutting knives and an overhead chisel installed in its lower part with means for adjusting and fixing their position in the field, characterized in that the support column is made of at least one flat a steel strip having a leg shape in plan, on which the chisel is fixed on the inclined toe, in the heel zone there are left and right cutting knives, on the front part there is a removable chipper with welded mounting brackets, and in the lower, the middle and upper parts of the support rack is equipped with main and additional holes for mounting and adjusting the position of the support rack, cutting knives and chisels, including with the possibility of independent rotation around axes perpendicular to the flat side of the support rack. 2. The working body according to p. 1, characterized in that the support column is welded or prefabricated from two or three flat steel strips with the possibility of quick replacement or rearrangement of removable elements in the field for another modification or as they wear, each of the removable elements mounted on a rack at least at two points. 3. The working body according to p. 1, characterized in that the cutting knives and chisel have additional blade parts with the possibility of shifting during wear, and their cutting edges have surfacing or inserts of wear-resistant material. 4. The working body according to p. 1, characterized in that the bit is made in the form of a flat or arcuate plate and mounted on the toe of the support rack using a bolted connection, equipped mainly with Belleville springs to change its installation angle in the range of 5-25 ° above the plane of the frontal part of the toe of the support rack. 5. The working body according to claim 1, characterized in that the blades of the cutting knives have an arcuate or flat working surface, located at an angle to the shanks and against the direction of movement in the range of 90-110 °. 6. The working body according to claim 1, characterized in that the shanks for attaching the cutting knives have at least two holes, one of which is intended for bolting, and the other is used to rotate the cutting knives around an axis perpendicular to the side of the carrier struts by using a sleeve with an eccentric or an adjusting bolt. 7. The working body according to claim 1, characterized in that the support column in the upper part is provided with one main and at least one additional holes, the main one being intended for power bolt connection of the rack with the frame of the tillage implement, and a shear bolt is inserted into the additional to rotate the carrier rack against movement when the calculated loads on the carrier column are exceeded, for example, if an insurmountable obstacle appears in its path. 8. The working body according to p. 1, characterized in that the removable chipper is made in the form of a pipe or rod of wear-resistant material with a cross section of an oval or wedge-shaped shape and a width not less than the thickness of the support rack. 9. The working body according to p. 1, characterized in that the supporting rack in the middle part is provided with holes for bolting to the removable blade rack for turnover of the formation with the possibility of replacement or rearrangement in the field.

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