RU182753U1 - Tillage implement - Google Patents

Abstract

The utility model relates to agricultural engineering and can be used in tillage implements for primary tillage. The problem posed in the utility model is solved in a tillage implement including a frame with support wheels made of bars, one of which has working bodies fixed and which is located at an angle to the direction of movement of the gun, hitch, and the working bodies are mounted on a flat rack, plowshares and dumps. The difference from the prototype is that the beam the fixed working bodies are located at an angle of 25-35 ° to the direction of movement, and the working body, consisting of a flat stand made of two plates, curved in the form of a hook, the lower inner part of which corresponds to the shape of the blade, on which the share, field board and blade are fixed . In addition, the blade of the tillage implement has a recess located at a distance of 15-25 cm from the share and parallel to its blade, the lower part of which is straight and has a length of 0.5-0.8 length of the blade, and the upper part of the recess is curved, while the width of the recess is 5-12 cm, a field board is rigidly attached to the ploughshare, which is mounted on the rack, part of the hinge is bolted to the frame, and the beam of the frame intended for fastening the working bodies is made of at least two square-shaped bars, and soil traction line the processing tool passes through the track of the strut of the fourth working body, while a single or double module, which includes one or two working bodies, is attached to the beam through the flange to increase the working width.

Description

The utility model relates to agricultural engineering and can be used in tillage tools for basic tillage.

Known plow body (RF patent No. 2169998 IPC А01В 15100, publ. 07/10/2001, bull. No. 19) comprising a stand, a ploughshare, a blade and a removable sock, characterized in that the replaceable sock is made with a frontal conical surface and is equipped with a bit having two mating external conical surfaces, one of which is mated to the conical surface of the toe, and the other, on the end part of the bit, is inclined to the first so that its generatrix lying in the vertical plane of symmetry of the cone makes an angle equal to 18 35 °, and on t Flax replaceable toe side cladding made carbide element.

The disadvantage of this design is that the replaceable sock, made with a frontal conical surface, does not ensure the straightness of movement of the plow body, due to the fact that the field board is behind the frontal conical surface and is offset relative to the conical surface inside the body, while the plow body rotates relative to the vertical axis corps. This leads to a change and uneven width of the grip.

Closest to the claimed solution is a tillage implement (patent for the invention of the Russian Federation No. 2379864, IPC А01В 3/00 А01В 15/00, published on January 27, 2010, bull. No. 3), including a frame with support wheels and a hitch made of bars, on one of which the working bodies are fixed and which is located half an angle to the direction of movement of the implement, and the working bodies are right and left flat shares with cutting edges fixed on a flat stand, a vertical share with a cutting edge, curved in the form of a tape spiral, characterized in that what p The working body is equipped with a casing located behind the vertical share and made covering part of the working body between the lower part of the rack, the lower part of the vertical share and the left share to form a cavity, and the beam with the fixed working bodies is located at an angle to the direction of movement of 40-50 °, the right and left plowshares are inclined to a horizontal plane and a flat rack, and the blade of the working body is made of a metal sheet curved in radius, is a continuation of a curved surface ited formed coulter vertical ribbon, while the upper strut remote from the bent angle of the blade is formed while moving the gun. In addition, the working body is equipped with a carbon filler connected to the blade and located above the vertical share in front of the blade in the direction of movement of the tillage implement, and the vertical share is made of a metal sheet in the form of a parallelogram with the formation of sharp 70-85 ° and obtuse 95-110 ° working angles, curved in the form of a spiral, and the cutting edges of the left and right shares are placed 30-70 mm above the sharp working angle of the vertical share and are located in one horizontal plane with an allowable deviation from this arrangement up to 5 °. The shares are equipped with additional cutting edges located on opposite sides of the main cutting edges. The support wheels are made of rubber, and the mounting on the frame is made with the possibility of reinstalling them in height. The beam, designed to fix the working bodies, is made composite of at least two square-shaped beams. The hitch is equipped with an articulated mounting link for attachment to the tractor. The angle of inclination of the plane of the left share to the horizontal plane is 20-30 °, and the angle of inclination of the plane of the right share to the horizontal plane is 30-45 °.

The angle in the horizontal section of the working body formed by the cutting edge of the left share and the flat stand is 30–40 °, and the angle in the horizontal section of the working body formed by the cutting edge of the left share and the flat stand is 35–50 °. The hitch is equipped with a quick-detachable device for attachment to the tractor. On the beam, designed to fix the working bodies, 2 to 12 working bodies are fixed.

The disadvantage of the tillage implement is the unevenness of the depth of cultivation and the deepening of the tillage implements from the soil, due to the fact that the right, left and vertical plowshares, carbon shafts and the casing of the working body reduce the vertical force of the tillage immersing into the soil.

Also, at the working body, the cutting edges of the left-side and right-side shares are located in the same plane, and the right-side share is shifted relative to the left-side share, as a result, the vertical force of the working body deepening into the soil is significantly reduced, as well as sticking of the space between the shares and the rack, the space formed by the bottom the edge of the blade and the base of the working body, clogged with crumbled soil, as a result, the traction resistance of the working body increases.

The presence of the left ploughshare reduces the degree of incorporation of stubble into the cultivated soil layer.

The technical task of the utility model is to increase the deepening ability, the straightness of the movement of the plow body, reduce the stickiness and clogging of the crumbled soil of the plow body, increase the degree of incorporation of stubble and plant debris and reduce the traction resistance of the tillage implement.

The problem is solved in a tillage implement, including a frame with support wheels, made of bars, on one of which the working bodies are fixed and which is located at an angle to the direction of movement of the implement, a hitch, and the working bodies are plowshares and dumps fixed on a flat rack.

The difference from the prototype is that the beam with fixed working bodies is located at an angle of 25-35 ° to the direction of movement, and the working body, consisting of a flat rack made of two plates, curved in the form of a hook, the lower inner part of which corresponds to the shape of the blade, on which the share, field board and blade are fixed. In addition, the blade of the tillage implement has a recess located at a distance of 15-25 cm from the share and parallel to its blade, the lower part of which is straight and has a length of 0.5-0.8 length of the blade, and the upper part of the recess is curved, while the width of the recess is 5-12 cm, a field board is rigidly attached to the ploughshare, which is mounted on the rack, part of the hinge is bolted to the frame, and the beam of the frame intended for fastening the working bodies is made of at least two square-shaped bars, and soil traction line the processing tool passes through the track of the strut of the fourth working body, while a single or double module, which includes one or two working bodies, is attached to the beam through the flange to increase the working width.

The utility model is illustrated by the following drawings.

In FIG. 1 shows a front view of a tillage implement with 8 working bodies; in FIG. 2 is a side view of a tillage implement with 8 working bodies; in FIG. 3 is a top view of a tillage implement with 8 working bodies; in FIG. 4 - the working body of the tillage implement; in FIG. 5 is a left view of the working body of a tillage implement; in FIG. 6 is a right view of the working body of a tillage implement; in FIG. 7 is a rear view of the working body of a tillage implement; in FIG. 8 is a top view of the working body of a tillage implement; in FIG. 9 is a bottom view of the working body of a tillage implement; in FIG. 10 is a front view of a tillage implement with 9 working bodies; in FIG. 11 is a side view of a tillage implement with 9 working bodies; in FIG. 12 is a top view of a tillage implement with 9 working bodies; in FIG. 13 is a front view of a tillage implement with 10 working bodies; in FIG. 14 is a side view of a tillage implement with 10 working bodies; in FIG. 15 is a top view of a tillage implement with 10 working bodies.

The tillage implement consists of a frame 1 with support wheels 2 made of bars 3, on one of which the working bodies are fixed and which is located at an angle to the direction of movement of the implement, hinges 4, and the working bodies are mounted on a flat rack curved in the form of a hook, consisting of two plates 5 and 6 welded together, a ploughshare 7, a blade 8. A plate 10 of the rack 10 is rigidly fixed to the plate 6. A beam 3 with fixed working bodies is located at an angle of 25-35 ° to the direction of movement. In addition, the blade 8 of the tillage implement has a recess located at a distance of 15-25 cm from the share 7 and parallel to its blade, the lower part of which is straight and has a length of 0.5-0.8 of the length of the blade, and the upper part of the recess is curved, while the width of the recess is 5-12 cm, the field board 9 is rigidly attached to the ploughshare, part of the hitch 4 is attached to the frame with bolts, and the beam 3 of the frame 1, intended for fastening the working bodies, is made of at least two square-shaped bars, and the draft line of the tillage implement I go through the track of the strut of the fourth working body, while a single or double module, which includes one or two working bodies, is attached to the beam through the flange 17 to increase the working width.

The blade 8 is attached with three bolts to the upper support of the blade 11, the mounting plate of the blade 12 and to the support of the blade of the lower 13. The share 7 is fastened with three bolts to the bracket of the share 14, which is rigidly fixed to the plate 6 of the rack (Fig. 7). The blade support is upper 15, the blade mounting plate 12, the blade plate 16 are welded to the rack plate 5 (Fig. 7). The blade support lower 13 is welded to the rack plate 5 and to the rack base plate 10. The share bracket 14 is welded to the rack base plate 10 and to the rack plate 6. The field board 9 is fixed to the rack plate 6 with two bolts and is welded to the share 7.

Tillage tool works as follows.

The tillage implement through the hitch 4 and the earring is attached to the tractor attachment and rises to the transport position. Before the tractor moves across the field, the tillage implement from the transport position is lowered to the surface of the field. Then, when the tractor moves, the share 7 and the dumps 8 begin to penetrate into the soil, and the soil crumbles and moves along the dump 8. By installing a field board 9 connected to the share 7, when it interacts with the furrow wall, the rotation of the tillage implement in side of the treated field, while maintaining the straightness of movement, and the connection of the share to the field board significantly increases the strength of the bow of the share. The presence of the excavation of dump 8 eliminates the adhesion of the crushed soil to the dump, and crumbled soil with plant debris above the excavation, due to the bent part of the dump, will move to the bottom of the furrow, and then it will be covered with crumbled soil below the excavation of the dump.

The flat curved stand of the working body, due to which the ploughshare 7, the blade 8 and the field board 9 of the working body, are shifted back relative to the main beam of the frame 1 along the direction of the tillage implement, eliminating the clogging of the space between the working bodies by the soil and plant residues. The recess in the dump 8 (Fig. 4) of the working body, located at a distance of 15-25 cm from the share and parallel to its blade, the lower part of which is straight and has a length of 0.5-0.8 lengths of the blade, and the upper part is curved, while the width of the recess is 5-12 cm, (Fig. 6), reduces sticking of the blade with high humidity soil.

Part of the blade B, above the recess A, due to the bent part of the end of the blade C will discharge plant residues located on the day surface of the field to the bottom of the furrow, which is formed when the previous working body moves. The field board 9 is connected to the share 7 and the rack plate 6, the lower edge of which is 2-3 cm higher than the share blade and ensures the strength of the nose of the share and the straightness of movement of the working body.

The implementation of the frame 1 of the team of at least two square-shaped bars, and the possibility of removing the hinge 4, allows to reduce or increase the dimensions of the frame and the hitch of the modules with 8, 9, or 10 working bodies using flanges 17, and also facilitate the transportation of the structure in a collapsible state.

The passage of the draft line of the tillage implement through the track of the fourth working body strut, due to the formation of a difference in torque from the working bodies located to the right and left of the draft line, the pressure of the field planks on the furrow wall decreases, which reduces the traction resistance of the tillage implement.

An example of a specific implementation.

A mounted tillage implement was made, consisting of a frame 1 with two support wheels 2, on which eight working bodies and a linkage 4 are fastened with bolts. A single 18 or double 19 module with working bodies can also be attached to the frame to increase the working width of the tillage implement. The working bodies are placed on the main beam at an angle of 30, while the working width of one working body is 40 cm with the possibility of tillage over the entire working width of the tillage implement to a depth of 30 cm. The working width of the tillage implement with eight working bodies is 3.20 m, s nine working bodies of 3.6 m and with ten 4 m. This arrangement of working bodies and the presence of hooked racks of working bodies prevents them from clogging with soil and plant debris. Each working body consists of two flat curved racks with a thickness of 16 and 25 mm, to which a share 7 is fixed by means of the share ploughshare bracket 15 and the base plate of the rack 10. Using the blade mounting plate 12, the support blade plate 13, the lower blade 8 is attached to the rack. By means of welding, a field board 9 joins the ploughshare, which is bolted to the stand. Cutting out the blade reduces soil sticking to the blade. The upper part of the dump and its bent part provides the movement of plant residues located on the day surface of the field to the bottom of the furrow, which is formed when passing in front of the working tool. The horizontal part of the cutout is located at a distance of 25 cm above the share blade, the width of the cutout is 10 cm, and its length is 30 cm. Passing the draft line of the tillage implement through the track of the fourth working body allows the tractor to be 15-20 cm from the edge of the first furrow when moving, at the same time, due to the non-symmetrical finding of the traction line of the tillage implement, a turning moment of forces from the working bodies will arise, as a result of which the pressure of the field boards on the furrow wall decreases and the traction resistance to tillage tools.

Claims (1)

A tillage implement, including a frame with support wheels, made of bars, on one of which the working bodies are fixed and which is located at an angle to the direction of movement of the implement, a hitch, and the working bodies are plowshares and dumps fixed on a flat rack, characterized in that the beam with fixed working bodies is located at an angle of 25-35 ° to the direction of movement, and the working body, consisting of a flat rack made of two plates, curved in the form of a hook, the lower inner part of which It corresponds to the shape of the blade, on which the share, field board and blade are fixed, in addition, the blade of the tillage implement has a recess located at a distance of 15-25 cm from the share and parallel to its blade, the lower part of which is straight and has a length of 0.5-0.8 the length of the blade, and the upper part of the recess is curved, while the width of the recess is 5-12 cm, a field board is fixed to the ploughshare, which is mounted on the rack, part of the hinge is bolted to the frame, and the beam of the frame, designed for fastening the working bodies, completed at least two bars of rectangular cross section, and the line of draft of the tillage implement passes through the track of the strut of the fourth working body, while a single or double module, which includes one or two working bodies, is connected to the beam through the flange to increase the working width.

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