RU75822U1 - COMBINED SOIL PROCESSING TOOLS - Google Patents

Abstract

The utility model relates to agricultural machinery, namely to tillage tools for basic tillage.

The objective of the utility model is the creation of a tillage implement that provides high-quality dump tillage without clogging the working organs with stubble and plant debris, and which can be equipped with additional tools and working bodies.

The problem is solved in that in a tillage implement, including a frame consisting of longitudinal and transverse beams, equipped with interchangeable working bodies arranged with the formation of parallel rows, providing the possibility of processing the soil along the entire width of the grip of the tillage implement, while the rows are located at an angle to the direction movement, according to the proposed solution, the frame additionally contains at least 2 transverse beams located parallel and interconnected by longitudinal bars, the working bodies are made in the form of removable lancet paws fixed on a rack with dumps, while the working bodies are fixed on the transverse bars of the frame.

In this case, the tillage implement is equipped with an additional transverse beam connected to the last beam of the frame in the direction of travel and secured with slit-holes or one or several rollers.

The arrow leg consists of a vertical flat knife, right and left shares in the direction of travel, made flat with front cutting edges, while the vertical flat knife is located at the lower edge at an angle to the horizontal plane of 5-20 °, the left and right shares are triangular or quadrangular forms connected to a vertical flat knife with horizontal displacement relative to each other and are located at an angle to the horizontal and vertical planes, while the connection line with the vertical flat knife the right and left shares is located at an angle of 5-40 ° to the horizontal plane, and the cutting edges of the shares are located in the same plane with a deviation from this arrangement by up to 5 °

Slithereses are fixed on an additional transverse beam with a shift relative to the longitudinal axis of the working bodies located on the last

to the transverse beam of the frame to the right in the direction of travel by 1 / 4-2 / 3 of the working width of the working body for leveling the furrows formed after the passage of the working bodies.

The roller is made with a length equal to the width of the tillage implement. The number of rollers is determined by the number of parallel rows of working bodies located at an angle to the direction of movement, while the rollers are installed parallel to the transverse bars or at an angle to them up to 30 ° with overlap

Description

The utility model relates to agricultural machinery, namely to tillage tools for basic tillage.

A soil cultivation tool is known consisting of a horizontal support frame on which a linkage and support wheels are mounted. A drum with knife-shaped working bodies, the main working bodies made in the form of lancet paws arranged in two rows, a paddle drum-leveling device and sections of spiral rollers with left and right directions of bar winding, equipped with autonomous mechanisms for regulating their pressure on the soil, are sequentially mounted on the frame. This arrangement of the working bodies ensures high quality pre-sowing tillage in one pass of the unit (Patent for invention No. 2122301, IPC: А01В 49/02).

However, this tool is characterized by significant metal consumption and manufacturing complexity. In addition, this tool when processing the soil is clogged with stubble and plant debris, which prevents the penetration of lancet paws into the soil. This tool does not produce dump tillage and has great traction resistance.

Known combined tillage implement for continuous surface tillage, including a frame with support wheels, cultivating working bodies mounted on it and disks with opposite angles of attack located in pairs in relation to their tracks in two rows. Racks of disks in each row are hinged and connected by their leashes to a common rod of hinge-rack mechanisms of their rows with the possibility of versatile rotation of the disks in each pair. Such a constructive implementation allows to improve the quality of tillage and, accordingly, increase the productivity of crops (Patent for the invention of the Russian Federation No. 2230445. IPC: А01В 49/02).

However, this tool is also characterized by structural complexity and metal consumption, unsatisfactory quality of processing of dry soils. The disks used in the construction contribute to the formation of soil erosion, and also create

the surface of the soil is high ridges. In addition, the tool does not provide the necessary depth to the soil and produces an incomplete turnover of the cultivated soil layer.

Closest to the proposed solution is a tillage implement in the form of a multi-body mounted plow, consisting of a frame, support wheels, mounted device and mounted on the frame in series and parallel to at least two rows of dumping working bodies. In this case, the last working body of the first row is made non-stocking, and a plow is installed in front of it. (Description of the invention to AC No. 498920, IPC: А01В 3/00).

However, the use of a subsurface working body in the design leads to heterogeneous and uneven tillage. In addition, the design of this implement does not protect the working bodies from clogging with stubble and plant debris, and also does not protect against soil unloading during cultivation, thereby increasing the traction resistance of the tillage implement, which also increases due to the applied working bodies in the form of bodies plow.

The objective of the utility model is the creation of a tillage implement that provides high-quality dump tillage without clogging the working organs with stubble and plant debris, and which can be equipped with additional tools and working bodies.

The technical result is a high-quality dump tillage without clogging the working bodies of the tillage implement through the use of working bodies of a certain design and their location on the frame according to a certain pattern, which provides low traction resistance. This design solution allows to reduce the traction resistance of the tillage implement as a whole, and, accordingly, to reduce the specific fuel consumption per unit area of the treated soil, as well as to increase the productivity of tillage.

The problem is solved in that in a tillage implement, including a frame consisting of longitudinal and transverse beams, equipped with interchangeable working bodies arranged with the formation of parallel rows, providing the possibility of processing the soil along the entire width of the grip of the tillage implement, while the rows are located at an angle to the direction movement, according to the proposed solution, the frame additionally contains at least 2 transverse beams located parallel and interconnected by longitudinal bars, working bodies are made in the form of fixed on a rack

removable lancet paws with dumps, while the working bodies are fixed on the transverse bars of the frame.

In this case, the tillage implement is equipped with an additional transverse beam connected to the last beam of the frame in the direction of travel and secured with slit-holes or one or several rollers.

The arrow leg consists of a vertical flat knife, right and left shares in the direction of travel, made flat with front cutting edges, while the vertical flat knife is located at the lower edge at an angle to the horizontal plane of 5 - 20 °, the left and right shares are made triangular or quadrangular forms connected to a vertical flat knife with horizontal displacement relative to each other and are located at an angle to the horizontal and vertical planes, while the connection line with the vertical flat knife m of the right and left shares is located at an angle of 5-40 ° to the horizontal plane, and the cutting edges of the shares are located in the same plane with a deviation from this arrangement by up to 5 °

Slithereses are fixed on an additional transverse beam with a displacement relative to the longitudinal axis of the working bodies located on the last transverse beam of the frame to the right along the direction by an amount of 1 / 4-2 / 3 of the working body's working width to align the furrows formed after the passage of the working bodies.

The roller is made with a length equal to the width of the tillage implement.

The number of rollers is determined by the number of parallel rows of working bodies located at an angle to the direction of movement, while the rollers are installed parallel to the transverse bars or at an angle to them up to 30 ° with overlap.

The utility model is illustrated by drawings, in which Fig. 1 is a schematic view of a tillage implement with slottes, top view, Fig. 2 is a side view of Fig. 1, Fig. 3 is a schematic view of a tillage implement with rollers, top view, in Fig. 4 - working body, general view. The positions in the drawing indicate: 1 - frame, 2 - transverse bars of the frame, 3 - longitudinal bars of the frame, 4 - working bodies, 5-support wheels, 6 - attachment, 7 - parallel rows of working bodies, 8 - additional transverse beam, 9 - slitherese, 10 - rollers, 11 - stand of the working body, 12 - vertical flat knife, 13 - ploughshare, 14 - blade, 15 - lower cutting edge of a vertical flat knife, 16 - front cutting edge of a vertical flat knife, 17 - upper cutting edge vertical flat knife.

The tillage implement consists of a horizontal support frame 1 on which removable working bodies 4, a linkage 6 and support wheels 5 are mounted (Figs. 1-3). Frame 1 consists of at least three transverse bars 2, interconnected by longitudinal bars 3, providing structural rigidity. The transverse bars 2 are equipped with fastenings of the racks 11 of the working bodies 4, for example, in the form of cheeks. The working bodies 4 are fixed on the transverse bars 2 so that they form parallel rows 7 located at an angle of 20 ° -50 ° to the direction of movement of the gun. Thus, the working bodies in the ranks have a plow arrangement.

The frame 1 is mounted and has two support wheels 5, made with the possibility of movement in the vertical plane to adjust the depth of plowing. To level the surface layer of the soil, the tillage implement is additionally equipped with slithereries 9 or rollers 10. To attach the rollers or slithereries, an additional transverse beam 8 is used, which is attached to the last transverse beam of the frame 1 of the tillage implement. Slit-cutters 9 are mounted on an additional transverse beam 8 with an offset Δ relative to the longitudinal axis of the working bodies located on the last transverse beam 8 of the frame 1 to the right along the direction of the cultivating implement by 1 / 4-2 / 3 of the working tool’s working width for leveling the furrows formed after passage of working bodies. In the design of the tillage implement, one or more rollers can be used to till the entire width of the implement. When using several rollers, their number is determined by the number of parallel rows of working bodies located at an angle to the direction of movement, while the rollers are installed parallel to the transverse bars or at an angle to them up to 30 ° with overlap.

For transportation of tillage implements in the vehicle body over long distances, the support wheels 5 are made with the possibility of disconnecting from the frame 1. For high-quality soil cultivation, it is recommended to use working bodies (Fig. 4), which are pointed arms mounted on a vertical rack 11 with dumps 14. The rack 11 may be made in the form of a trapezoidal plate. The lancet paw is a single part, consisting of a vertical flat knife 12, and connected to it, for example, by welding, the right and left plowshares 13, located in the direction of travel. The vertical flat knife 12 may have a lower 15, front 16, and upper 17 cutting edges located at an angle to the horizontal plane: lower 5-20 °, front 30-60 °,

upper to 90 °. The vertical flat knife is mounted on a vertical stand 11 at an angle to the horizontal plane, while the angle between the lower end surface of the vertical flat knife and the horizontal plane is 5-20 °, which ensures the best penetration of the working body into the soil and rectilinear movement of the tillage implement. The right and left plowshares 13 are made flat with leading cutting edges, while the plowshares can be either triangular or quadrangular. The sharpening angle of the cutting edges is selected from the interval 15 ° -35 °. The share 13 is connected to a vertical flat knife 12 with offset horizontally relative to each other and are located at an angle to the horizontal plane. In this case, the best result, providing a decrease in traction resistance of the working body and high-quality soil cultivation, is achieved when the right share is located relative to the left closer to the vertical flat knife 12. The share 13 is connected to the vertical flat knife 12 on their legs, while the cutting edges of the shares 13 are located in one horizontal plane with a tolerance of up to 5 ° from such an arrangement. A structural feature of the blade 14 is its flat shape in the form of a quadrangle with a curved upper angle remote from the rack in the direction of travel. The blade 14 is mounted on the rack 11 at an acute angle using a bracket with the ability to move it vertically. The rack is connected to the cheeks by means of two bolts of different diameters. The smaller bolt is shear to protect the working body from damage in the event of a collision with obstacles. When this safety device is activated, the working body rotates relative to the axis of the bolt of a larger diameter along the direction of the tillage implement

The inventive tillage tool works as follows.

For tillage, a tillage implement is attached to the tractor using a linkage mechanism. At the site of the field work, the depth of the soil cultivation is set by adjusting the height of the support wheels. When the working bodies of the tillage implement are deepened into the soil, the left and right shares of the working bodies in the direction of travel provide loosening of the soil, and the dumps shift and wrap the soil layer loosened by plowshares. At the same time, due to the location of the working bodies on the frame, the soil is cultivated over the entire working width of the tillage implement, and stubble and plant debris do not accumulate on the racks of the working bodies. Thus, the task of reducing the clogging of the tillage implement is solved.

while improving the quality of loosening the soil, saving fuel and, at the same time, increasing the productivity of tillage tools. Additional devices in the form of crevice in the process of moving the soil towards the furrow, thereby leveling its surface. It is also possible to ensure a flat soil surface by using rollers of various designs.

An example of a specific implementation.

A mounted tillage implement was made, on the four transverse bars of the frame of which 19 working bodies were fixed. In this case, the first beam is shorter in length in order to enable the support wheels to be arranged. The frame is made of a metal pipe with a square profile 120 mm wide. The working bodies are made in the form of lancet paws and mounted on the frame of a tillage implement with the possibility of tillage over the entire working width. The rows of working bodies on the frame are located at an angle of 30 ° to the direction of movement (longitudinal beam). The distance in these rows between adjacent working bodies is 600 mm, and the distance between adjacent working bodies on transverse bars is 1040 mm. The width of the working bodies is 300 mm. The distance between the central axes of the working bodies in the projection on a straight line is 290 mm, which provides tillage with little overlap by adjacent working bodies. This arrangement of the working bodies prevents their clogging with stubble and plant debris. The distance between the cross bars is 600 mm. The width of the tillage implement is 5 m.

The claimed technical solution provides a fuel consumption of 7-9 l / ha, and a productivity of 4.3-4.5 ha / h.

Claims (6)

1. Tillage tool, including a frame consisting of transverse and longitudinal beams, equipped with interchangeable working bodies arranged with the formation of parallel rows, providing the possibility of tillage over the entire width of the grip of the tillage implement, while the rows are located at an angle to the direction of movement, characterized in that that the frame additionally contains at least two transverse beams arranged in parallel, while the transverse beams are interconnected by longitudinal beams, and the workers are ganas formed as a rack attached to the removable lancet paws with blades and fixed to the transverse frame bars. 2. Tillage tool according to claim 1, characterized in that it is equipped with an additional transverse beam connected to the last transverse beam of the frame along the way, and secured with slitherez or one or more rollers. 3. The tillage implement according to claim 1, characterized in that the lancet paw consists of a vertical flat knife, right and left shares in the direction of travel, made flat with front cutting edges, while the vertical flat knife is located at the bottom edge at an angle to the horizontal plane 5 -20 °, the left and right shares are triangular or quadrangular, connected to a vertical flat knife with horizontal displacement relative to each other and are located at an angle to the horizontal and vertical planes m, the connection line with a vertical flat knife of the right and left shares is located at an angle of 5-40 ° to the horizontal plane, and the cutting edges of the shares are located in the same plane with a deviation from this arrangement by up to 5 °. 4. The tillage implement according to claim 2, characterized in that the slitherens are mounted on an additional transverse beam with a displacement relative to the longitudinal axis of the working bodies located on the last transverse beam of the frame to the right along the direction by 1 / 4-2 / 3 of the working body width for leveling the furrows formed after the passage of the working bodies. 5. Tillage implement according to claim 2, characterized in that the roller is made with a length equal to the width of the grip of the tillage implement. 6. The tillage implement according to claim 2, characterized in that the number of rollers is determined by the number of parallel rows of working bodies located at an angle to the direction of movement, while the rollers are mounted parallel to the transverse bars or at an angle to them of up to 30 ° with overlap.