RU2640052C1 - Ploughshare - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: ploughshare comprises a body (1), two discs (2) installed at an angle to each other on the body, a seed guide (3) and a ripper (4). The guide (3) and the ripper (4) are made as a whole and of a closed type, are located between the ploughshare discs (2) and installed in the rear part of the ploughshare and below the funnel (5) of the filler (6) of the ploughshare body (1). The longitudinal-vertical symmetry plane of the guide (3), the ripper (4) and the funnel (5) coincides with the longitudinal-vertical symmetry plane of the ploughshare. The guide (3) and the ripper (4) are made of a pipe of round section. A bell (7) tightly put on the funnel (5) is fixed to the front part of the guide (3). The guide (3) is directed to the side opposite to the ploughshare movement. The symmetry axis of the guide (3) is tilted in the movement direction of the ploughshare relative to the horizontal by an angle of 60 degrees. The gaps between the ploughshare discs (2) and the lateral surfaces of the guide (3), measured near the cutting edges of the rear part of the ploughshare discs, are equal to at least 10 mm on each side of the lateral surface of the guide (3). The ripper (4) is located vertically and at the same time is rigidly attached with its upper part to the rear part of the guide (3). The outlet opening (9) of the lower bent part (8) of the ripper (4) does not extend beyond the transverse-vertical plane. The base of the lower bent part (8) of the ripper (4) is made in the form of a hollow curved wedge (10). Below the supporting face of the hollow curved wedge (10), a heel with a horizontally-made bottom is rigidly attached. The rear part of the heel (11) with the bottom coincides with the plane of the outlet opening (9) of the lower bent part (8) of the ripper. In the front part of the heel, from below the supporting face of the hollow curved wedge, an inclined oval rib (13) is installed. The inclined oval rib (13) is interfaced with the supporting face of the hollow curved wedge and with the rear part of the heel (11). The inclined oval edge (13) has an obtuse angle of entry into the soil, equal to 172 degrees. The ripper (4) and the guide (3) are rigidly fixed to the ploughshare body (1) by means of a bracket (14) reinforced with a stiffening rib (15). The bracket (14) is installed at the attachment place of the inner scrapers (16) of the ploughshare.EFFECT: improving the quality of seed and fertiliser seeding.6 dwg

Description

The invention relates to agricultural machinery, in particular to close-up working bodies of grain seeders.

Known opener [1], containing a housing, two discs mounted at an angle to each other, and secured to the housing by means of a hinge and equipped with a clamp, a cord-shaped knife, while in order to improve the quality of seed placement and reliability of work on soils of any moisture, the discs are located between the cheeks a polozovidnogo knife, the latter is equipped with a furrower with a keeled shape mounted under the disks and attached to its cheeks.

The disadvantages of the coulter include the use of a skid-shaped knife of a furrow former installed in front of the discs, which increases the resistance of the coulter when it moves in the soil. Also, the used runner does not exclude the sticking of soil to it and soil unloading in front of the opener, which leads to disruption of the opener working process and to a change in the seed placement depth and uniform distribution along the furrow length and seeding depth. In addition, the seeds are fed into the furrow behind a skid-shaped knife, where the soil crumbles into the furrow, and the sowing uniformity along the furrow depth and length will also be violated. All this leads to a decrease in crop yields.

, где h - глубина хода сошника; α - угол наклона пластины к дну борозды α≥ϕ, где ϕ - угол трения стальной пластины о почву на дне борозды (ϕ=26…30°), имеющей конусную форму, подобную форме вертикального сечения борозды, а именно: в передней (верхней) части на выходе из борозды ширина пластины а=а'-Δа, где а' - наибольшая ширина борозды в верхней части, Δа=2…3 мм - верхний зазор между пластиной и стенками борозды (по 1,0…1,5 мм на сторону); в задней (нижней) части - ширина пластины b=b'-Δb, где b' - наименьшая ширина борозды в нижней части; Δb=2…3 мм - нижний зазор между пластиной и стенками борозды (по 1,0…1,5 мм на сторону), а переходник, выполненный из пружинной стали, в верхней части имеет продольные отверстия под крепежные болты, которые позволяют регулировать высоту переходника и фигурной пластины, изменяя величину плотности почвенной массы вокруг семян, расположенных на дне борозды.Known opener [2], containing a housing, a leash for attaching to the frame, two flat pointed discs, seed guide, scraper, two ball bearings, and the opener is equipped with a figured plate made of highly wear-resistant steel, which is rigidly fixed with an adapter to the opener body, length

where h is the depth of the opener; α is the angle of inclination of the plate to the bottom of the furrow α≥ϕ, where ϕ is the angle of friction of the steel plate on the soil at the bottom of the furrow (ϕ = 26 ... 30 °), having a conical shape similar to the shape of the vertical section of the furrow, namely: in the front (upper ) of the part at the exit from the furrow the width of the plate is a = a'-Δa, where a 'is the largest width of the furrow in the upper part, Δa = 2 ... 3 mm is the upper gap between the plate and the walls of the furrow (1.0 ... 1.5 mm to the side); in the back (lower) part - the width of the plate b = b'-Δb, where b '- the smallest furrow width in the lower part; Δb = 2 ... 3 mm - the lower gap between the plate and the walls of the furrow (1.0 ... 1.5 mm per side), and the adapter, made of spring steel, in the upper part has longitudinal holes for fixing bolts that allow you to adjust the height adapter and curly plate, changing the density of the soil mass around seeds located at the bottom of the furrow.

The coulter's disadvantages include soil sticking to a curly plate, which results in poor compaction of the bottom of the furrow and the displacement of seeds along the furrow, which disturbs the uniform distribution of seeds along the depth and length of the furrow. In addition, in the opener, the seed guide is made of an open type, which leads to the ingress of seeds not to the bottom of the furrow, but to its walls, thereby violating the uniform distribution of seeds along the depth and length of the furrow. All these shortcomings lead to a decrease in crop yields.

Known opener [3], containing a furrow-forming disk mounted on a frame with a leash, on which there is a pressure rod with a spring, a seed guide located behind the furrow-forming disk, a shut-off valve, a coulter-stopper depth limiter coulter, characterized in that the furrow-forming disk on the periphery has a wedge-shaped shape, and the wedge of the disk is rounded, the seed guide in the lower front part is equipped with a two-sided scraper, made at the same time with the seed guide, the shut-off valve is pivotally mounted on the inside axis guide the seeds and has shifted the center of gravity relative to this axis, earthing devices, depth gauge progress coulters mounted on the frame of the guide seed.

One of the drawbacks of the coulter is the installation of the seed guide behind the furrow-forming disk above the soil level, which leads to the shedding of the soil into the furrow before the seeds reach its bottom. Therefore, the seeds are laid in violation of the uniform distribution of them along the depth and length of the furrow. In addition, the presence of a shut-off valve in the seed guide complicates the design and leads to its enveloping with plant residues and clogging of the seed guide, interfering with the normal operation of the coulter. Because the coulter-limiter of the depth of the coulter stroke is made of a passive type, it unloads the soil during operation, which negatively affects the uniform distribution of seeds along the depth and length of the furrow. The installation of a disk scraper in the soil leads to its clogging with plant residues and soil, while the furrow-forming disk goes with a slip or stops completely and the coulter will heap the soil.

A known opener [4], comprising a housing and two discs mounted at an angle of 18 ° to each other, while to increase the efficiency of seed distribution over the feeding area, a plate is installed between the discs to form a horizontal profile of the seed bed and a seed diffuser behind it.

The disadvantages of the coulter include the manufacture of a seed diffuser in the form of a plate, which, when the coulter is used, leads to seeds getting on the coulter discs and engaging them in rotation with the disc, while the uniformity of the seed supply and distribution in the furrow along the depth and length of the furrow is violated. In addition, the manufacture of the profiler also in the form of a plate leads to the falling of the furrow formed by it before the seeds get into it from the seed diffuser, which leads to a violation of the uniformity of the depth of seed placement and the uniform distribution along the length of the furrow.

Known opener and device for planting seeds [5] and disk coulter [6], including two discs, seed guide and device for planting seeds.

The disadvantages of these coulters include the manufacture of a seed guide tube vertical or curved and open type, and also due to the lack of a device for preliminary compaction of the walls and the bottom of the furrow, when sowing, the walls of the furrow are shed before seeds enter and the bottom of the furrow is not horizontal [7, 8 ], and also the seeds bounce off the bottom of the furrow and the seeds are laid on an unconsolidated bed, which leads to a violation of the uniform distribution of seeds in depth and further worsens zhnosti shoots.

Known for the opener battery [9], including a shaft, spherical disks, and racks installed between them with fertilizer and vas deferens, moreover, paired coulters are fixed on each rack, the lower edges of which are placed at the level of the lower edge of the spherical disks, while the working surfaces of the narral are made in the form convex parts of truncated spherical segments facing each other, and between them in front in the direction of travel is a pipe guide.

The disadvantage is that the coulter battery, as well as the coulters, are rigidly attached to the seeder frame on one shaft, without taking advantage of the coulter suspension, which negatively affects the uniformity of the sowing depth. Also, spherical discs form pile ridges and an uneven bottom of the furrow, disrupting the uniformity of sowing of seeds and fertilizers in depth. Paired arrays on not sufficiently leveled soil form grooves of different depths, which is unacceptable by agrotechnical requirements when sowing.

Of the known closest in technical essence (prototype) is the opener [10], containing a casing, two discs mounted at an angle to each other on the casing, a seed guide and a cultivator in the form of a dihedral wedge located in front of the disks at an acute angle to the horizontal plane while in order to increase the uniformity of seed placement in depth, the cultivator is equipped with a stabilizer made in the form of wings fixed in its lower part. Moreover, the wings of the stabilizer are directed upward at an acute angle to the horizontal.

The disadvantages of the coulter include the manufacture of a seed guide in the form of a plate and a cultivator in the form of an open type chute, which leads to the ingress of seeds on the coulter disks and their involvement with the disks in rotation, which disrupts the uniformity of the supply and distribution of seeds in the furrow in depth and length furrows. Also, the manufacture of a cultivator in the form of an open gutter leads to the rolling of seeds along the bottom of the furrow and falling asleep of the furrow formed by it until the seeds get from the cultivator into it, which leads to a violation of the uniformity of the depth of seed placement and the uniform distribution along the length of the furrow. In addition, the installation of a cultivator with a stabilizer in the front of the coulter does not allow to obtain a flat bottom of the furrow, since the stabilizer made with wings creates vibrations of the coulter in the longitudinally vertical plane, which will affect the depth of seed and fertilizer placement and their uniform distribution along the furrow length . Also, the installation of a cultivator with a stabilizer in the front of the coulter cannot be carried out for design reasons, since in this part of the coulter discs there is no necessary gap between the coulter discs for installing a cultivator with a stabilizer between them. With an increase in the size of the gap between the coulter discs of more than 1 mm, the discs in the front part of the coulter become clogged with soil during their operation and the coulters deepen and the seeds are distributed with a violation of the specified depth. Also, the design of a cultivator with a stabilizer will lead to a violation of the stability of the coulter in the soil, in a longitudinally vertical plane, which will not allow the formation of the necessary furrow for laying out the seeds, and the formed furrow has loose sides and the bottom of the furrow, which eliminates the attraction of moisture to the seeds. All this leads to a decrease in crop yields and increase production costs.

The claimed invention is aimed at eliminating the above drawbacks, and when using it, the following result was obtained: compaction of the walls and the bottom of the furrow, without shedding the furrow during the laying of seeds along the bottom of the furrow, the absence of clogging of the coulter with soil, while maintaining a stable course of the coulter, as well as equalizing the flow of seeds, the layout of seeds along the bottom of the furrow in a uniform flow with the exception of their rolling and the exclusion of seeds getting on the rotating coulter discs. This ensures the uniformity of the depth of seed placement and the uniform distribution along the length of the furrow. All this improves the quality of sowing seeds, which leads to increased crop yields and lower production costs.

The specified technical result is achieved through the use of a coulter containing a housing, two discs mounted at an angle to each other on the housing, a seed guide and a cultivator. The seed guide and cultivator are made as a single unit and at the same time closed type, while the seed guide and cultivator are located between the coulter discs and at the same time are installed in the rear part of the coulter and below the neck funnel of the coulter body, while the longitudinally vertical plane of symmetry of the seed guide , the cultivator and the funnel of the neck of the opener body coincides with the longitudinally vertical plane of symmetry of the opener, while the seed guide and the cultivator are made of a pipe, for example, of circular cross section, and to the front the th part of the seed guide is fixedly attached to the bell, while the bell is tightly placed on the funnel of the neck of the coulter body, while the seed guide is directed in the direction opposite to the movement of the coulter, while the axis of symmetry of the seed guide is inclined along the horizontal axis by an angle equal to 60 degrees while the gaps between the coulter discs and the side surfaces of the seed guide, measured near the cutting edges of the rear of the coulter discs, are at least 10 mm on each side of the side surface of the head seed cultivator, while the cultivator is located vertically and at the same time the upper part is fixedly attached to the rear of the seed guide, while the junction of the cultivator and the seed guide does not extend beyond the envelope reproduced along the contours of the cutting edges of the rear of the coulter discs, while part of the cultivator located below the junction of the cultivator with the seed guide extends beyond the envelope surface, reproduced along the contours of the cutting edges of the rear of the coulter discs, vertically downward, in the direction of the furrow, while the lower part of the cultivator is bent back, in the opposite direction to the movement of the opener, along an arc of a circle, while the lower bent part of the cultivator has an outlet located in a transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the opener, this outlet hole of the lower bent part of the cultivator does not extend beyond the transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the opener and The vertical-vertical plane is drawn tangentially to the extreme rear points of the cutting edges of the coulter discs, while the base of the lower bent part of the cultivator located below the horizontal plane drawn through the middle of the outlet of the lower bent part of the cultivator is made in the form of a hollow curved wedge, with a hollow curved wedge has two lateral working faces and a supporting face made with a width equal to the width of the furrow along its bottom, while two lateral working faces of a hollow curvilinear of the wedge are made with an inclination equal to the inclination of the walls of the furrow formed by the coulter discs, while the upper contour of the two lateral working faces of the hollow curved wedge is made along the ribs formed by the transition of the cylindrical surface of the lower bent part of the cultivator to the two side working faces of the hollow curved wedge the ribs are located in a horizontal plane drawn through the middle of the outlet of the lower bent part of the cultivator, while the bottom of the support face of the hollow is curved of the wedge, the heel with the sole is fixed motionless, while the heel sole is made horizontally, while the back of the heel and the sole coincide with the plane of the outlet of the lower bent part of the cultivator, while the horizontal part of the heel with the sole touches the horizontal plane passing through the lower points of the cutting edges of the disks opener, the width of the heel with the sole equal to the width of the support face of the hollow curved wedge, while in the front of the heel, below the support face of the hollow curved wedge an inclined oval rib is mounted, while the inclined oval rib is conjugated to the supporting face of the hollow curved wedge and the back of the heel, and the inclined oval rib has a blunt angle of entry into the soil equal to 172 degrees, while the lateral working faces of the hollow curved wedge are heel with the sole and inclined oval rib are made of wear-resistant material, while the contour of the outlet opening of the lower bent part of the cultivator consists of upper and lower contours, while the upper contour of the outlet The hole of the lower bent part of the cultivator is located above the horizontal plane drawn through the middle of the outlet of the lower bent part of the cultivator, and the upper contour of the outlet of the lower bent part of the cultivator is made along a circular arc with a radius equal to the radius of the bore of the cultivator, and the lower contour of the outlet of the lower the bent part of the cultivator is located below the horizontal plane drawn through the middle of the outlet of the lower bent part of the cultivator, and made along the edges of the rear parts of the two lateral working faces of the hollow curved wedge and along the edge of the rear part of the support face of the hollow curved wedge, made with a radius equal to the radius of the bore of the cultivator, while the cross-sectional area of the outlet of the lower bent part of the cultivator is equal to the area of the bore of the cultivator The cultivator and seed guide are fixedly mounted to the opener body using a bracket reinforced with a stiffener, while the bracket is installed at the attachment point in morning scrapers opener.

Description of drawings

In FIG. 1 shows a coulter layout.

In FIG. 2 shows a rear view of the opener.

In FIG. 3 shows a diagram of the coulter units and section AA.

In FIG. 4 shows a diagram of the lower bent portion of the cultivator.

The coulter contains a housing 1 (Fig. 1, Fig. 2), two discs 2 mounted at an angle to each other on the housing 1, a seed guide 3 and a cultivator 4 (Fig. 1, Fig. 2, Fig. 3). The seed guide 3 and the cultivator 4 are made as a whole and at the same time closed type, while the seed guide 3 and the cultivator 4 are located between the coulter discs 2 and are installed in the rear part of the coulter (Fig. 1, Fig. 2), and below the funnel 5 (Fig. 1) of the neck 6 (Fig. 1, Fig. 2) of the opener body 1, while the longitudinally vertical plane of symmetry of the seed guide 3, ripper 4 and funnel 5 of the neck 6 of the opener body coincides with the vertical longitudinal plane opener symmetry, with 3 seed guide and 4 ripper s, for example, of circular cross section, while the bell 7 is fixedly attached to the front of the seed guide 3 (Fig. 1, Fig. 3), while the bell 7 is tightly mounted on the funnel 5 of the neck 6 of the coulter body 1, while the seed guide 3 is directed in the direction opposite to the movement of the coulter, while the axis of symmetry of the 3 seed guide is tilted along the coulter relative to the horizontal by an angle α (Fig. 3) equal to 60 degrees. The gaps with (Fig. 2) between the coulter discs 2 and the side surfaces of the seed guide 3, measured near the cutting edges of the rear of the coulter discs 2, are at least 10 mm on each side of the side surface of the seed guide 3. In this case, the cultivator 4 (Fig. 1, Fig. 3) is located vertically and at the same time the upper part is fixedly attached to the rear of the seed guide 3. At the same time, the junction of ab (Fig. 1, Fig. 2) of the cultivator 4 and the seed guide 3 does not extend beyond the envelope reproduced along the contours of the cutting edges of the rear part of the coulter disks 2, while the part of the cultivator 4 located below the junction of the cultivator ab 4 with a guide of 3 seeds, extends beyond the envelope surface, reproduced along the contours of the cutting edges of the rear of the coulter discs 2, vertically downward, towards the furrow. At the same time, the lower part 8 (Fig. 1, Fig. 3, Fig. 4) of the cultivator 4 is bent backwards, in the opposite direction to the movement of the opener, along an arc of a circle, while the lower bent part 8 of the cultivator 4 has an outlet 9 (Fig. 1 , Fig. 2, Fig. 3, Fig. 4), located in the transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the opener, while the outlet 9 of the lower bent portion 8 of the cultivator 4 does not extend beyond the transverse vertical plane, directed relative to the longitudinal vertical plane opener symmetry and the transverse vertical plane is drawn tangentially to the extreme rear points of the cutting edges of the opener discs 2 (Fig. 1). The base of the lower bent portion 8 of the ripper 4, located below the horizontal plane drawn through the middle of the outlet 9 of the lower bent portion 8 of the ripper 4, is made in the form of a hollow curved wedge 10 (Fig. 1, Fig. 3, Fig. 4), the hollow curved wedge 10 has two lateral working faces ADE and BCM (Fig. 4) and a supporting face DEMC made with a width equal to the width b of the furrow along its bottom, while two side working faces ADE and BCM of the hollow curved wedge 10 are made with an inclination equal to the slope of the walls the furrow formed by the coulter discs 2, the upper contour of the two lateral working faces ADE and BCM of the hollow curved wedge 10 made along the ribs AE and BM (Fig. 4), formed by the transition of the cylindrical surface of the lower bent portion 8 of the cultivator 4 to two side working faces ADE and BCM of the hollow curved wedge 10, while the ribs AE and BM are located in a horizontal plane drawn through the middle of the outlet 9 of the lower bent portion 8 of the cultivator 4. At the same time, from the bottom of the support face DEMC of the hollow curved to ins 10 fixedly secured to the sole 11, a heel 12 (FIG. 4), while the sole 12 of the heel 11 is made horizontally, while the back of the heel 11 with the sole 12 coincides with the plane of the outlet 9 of the lower bent portion 8 of the ripper 4, while the horizontal part of the heel 11 with the sole 12 touches the horizontal plane passing through the lower points of the cutting edges of the opener discs 2 (Fig. 1), while the width b (Fig. 4) of the heel 11 with the sole 12 is equal to the width b of the supporting face DEMC of the hollow curved wedge 10, while in the front of the heel 11, below the supporting face of the DEMC hollow curved wedge 10 set the inclined oval rib 13 (Fig. 4) is leveled, the contour of the inclined oval rib 13 is shown by the superimposed section K (Fig. 4), while the inclined oval rib 13 is conjugated with the DEMC support face of the hollow curved wedge 10 and with the back of the heel 11, and this inclined oval rib 13 has an obtuse angle β (Fig. 3) of entry into the soil equal to 172 degrees, while the lateral working faces ADE and BCM (Fig. 4) of the hollow curved wedge 10, the heel 11 with the sole 12 and the inclined oval rib 13 made of wear resistant material. In this case, the contour of the outlet 9 (Fig. 4) of the lower bent portion 8 of the cultivator 4 consists of upper and lower circuits, while the upper circuit of the outlet 9 of the lower bent portion 8 of the cultivator 4 is located above the horizontal plane drawn through the middle of the outlet 9 of the lower bent part 8 of the cultivator 4, and the upper contour of the outlet 9 of the lower bent part 8 of the cultivator 4 is made along an arc AB (Fig. 4) of a circle with a radius equal to the radius r of the passage section of the cultivator 4, while the lower circuit of the output from the verst 9 of the lower bent portion 8 of the cultivator 4 is located below the horizontal plane drawn through the middle of the outlet 9 of the lower bent part 8 of the cultivator 4, and at the same time is made along the edges AD and BC of the rear parts of the two side working faces ADE and BCM of the hollow curved wedge 10 and along the edge DC of the rear part of the support face DEMC of the hollow curved wedge 10 made with a radius equal to the radius r of the passage section of the cultivator 4, while the cross-sectional area of the outlet 9 of the lower bent part 8 of the cultivator 4 is equal to the area cross-section of the cultivator 4. In this case, the cultivator 4 and the guide 3 seeds are fixed motionless to the housing 1 (Fig. 1, FIG. 2) the coulter using the bracket 14, reinforced with a stiffener 15, while the bracket 14 is installed at the attachment point of the internal openers 16 of the opener.

The coulter works as follows. When the coulter moves in the direction of sowing, two coulter discs 2 (Fig. 1), mounted at an angle to each other on housing 1, cut a groove for seeds and fertilizers in the soil, and seeds and fertilizers fall into the funnel 5 of the neck 6 of the coulter body 1 then through the bell 7 enter the seed guide 3 and then into the cultivator 4 (Fig. 1, Fig. 3), then from the cultivator 4 the seeds and fertilizers enter the furrow, which is covered by soil that has crumbled from the walls of the furrow behind the coulter disks 2.

To evenly distribute seeds and fertilizers along the depth and length of the furrow and to prevent seeds and fertilizers from entering the rotary discs 2 of the coulter (Fig. 1, Fig. 2), the seed guide 3 and the cultivator 4 are made as a single unit and at the same time are closed, while a seed guide 3 and a cultivator 4 are located between the coulter discs 2 and at the same time are installed in the rear part of the coulter and below the funnel 5 (Fig. 1) of the neck 6 of the coulter body 1, while a longitudinally vertical plane of symmetry of the seed guide 3, cultivator 4 and funnels 5 necks 6 bodies and 1 opener coincides with the longitudinally vertical plane of symmetry of the opener, while the guide 3 seeds and the cultivator 4 (Fig. 1, Fig. 2, Fig. 3) are made of pipe, for example, of circular cross section, while to the front of the guide 3 seeds the bell 7 is fixedly attached (Fig. 1, Fig. 3), while the bell 7 is tightly mounted on the funnel 5 of the neck 6 of the opener body 1 (Fig. 1), while moving seeds and fertilizers inside the guide 3 (Fig. 1, FIG. 2, FIG. 3) seeds, as a result of impacts of seeds on its wall when they move 3 seeds inside the guide, the direction and speed of seeds and fertilizers changes, and there is some mixing [11], due to which the sequence of falling seeds and fertilizers into the cultivator 4 and further to the bottom of the furrow changes, compared with the sequence of seeds and fertilizers entering the funnel 5 (Fig. 1) of the neck 6 of the opener body 1, which contributes to a more uniform distribution of seeds and fertilizers along the depth and length of the furrow. In addition, so that when the coulter does not significantly slow down the movement of seeds and fertilizers inside the 3 seed guide (Fig. 1, Fig. 2, Fig. 3), which can lead to a delay and clogging of the 3 seed guide, as well as to a violation of the uniform distribution seeds and fertilizers along the depth and length of the furrow and the specified seeding rate, the 3 seed guide is directed in the opposite direction to the coulter movement, while the axis of symmetry of the 3 seed guide is tilted along the coulter relative to the horizontal by an angle α (Fig. 3), equal to 60 degrees owls.

The formed flow of seeds and fertilizers from the guide 3 seeds (Fig. 1, Fig. 2, Fig. 3) enters the cultivator 4, through which most of the seeds and fertilizers (75 ... 85%) [11] pass without hitting the walls of a vertically installed cultivator, while maintaining the steady-state flow parameters of seeds and fertilizers.

To exclude the mixing of seeds and fertilizers with the soil when sowing seeds and fertilizers from the cultivator 4 into the furrow, and therefore, to fulfill the requirement of uniformly seeding them at a given depth and length of the furrow, the lower part 8 (Fig. 1, Fig. 3, Fig. 4 ) the cultivator 4 is bent back, in the opposite direction to the motion of the opener, along an arc of a circle, while the lower bent part 8 of the cultivator 4 has an outlet 9 located in a transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the opener, m the outlet 9 of the lower bent portion 8 of the cultivator 4 does not extend beyond the transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the opener, while the transverse vertical plane is drawn tangent to the extreme rear points of the cutting edges of the disks 2 (Fig. 1) opener. Through the outlet 9 of the lower bent portion 8 of the cultivator 4 (Fig. 1, Fig. 3, Fig. 4), the seeds and fertilizers leave the directed and formed flow into the furrow, while the walls of the furrow are kept by the lower bent part 8 of the cultivator 4 from shedding for a while, until all seeds and fertilizers fall to a clean bottom of the furrow, while the contour of the outlet 9 (Fig. 4) of the lower bent portion 8 of the cultivator 4 consists of upper and lower circuits, while the upper contour of the outlet 9 of the lower bent portion 8 of the cultivator 4 is located higher horizontally the second plane drawn through the middle of the outlet 9 of the lower bent portion 8 of the ripper 4, and the upper contour of the outlet 9 of the lower bent portion 8 of the ripper 4 is made along an arc AB (Fig. 4) of a circle with a radius equal to the radius r of the passage section of the ripper 4, the lower contour of the outlet 9 of the lower bent portion 8 of the cultivator 4 is located below the horizontal plane drawn through the middle of the outlet 9 of the lower bent portion 8 of the cultivator 4, and is made along the edges AD and BC (Fig. 4) the rear parts of the two side working faces ADE and BCM of the hollow curved wedge 10 and along the DC edge of the rear part of the support face DEMC of the hollow curved wedge 10, made with a radius equal to the radius r of the passage section of the cultivator 4, while the cross-sectional area of the outlet 9 of the lower bent part 8 ripper 4 is equal to the area of the flow section of the ripper 4.

After passing through the outlet 9, the seeds and fertilizers lay in a uniform flow and without rolling to the bottom of the furrow, due to the low fall height and throwing them out of the outlet 9 of the lower bent portion 8 of the cultivator 4 (Fig. 1, Fig. 3, Fig. 4) , in the direction opposite to the opener movement, with a speed close in magnitude to the opener speed [11].

To attract moisture to the seeds and fertilizers laid on the bottom of the furrow, as well as to preserve the formed furrow for laying seeds and fertilizers on it, the walls and bottom of the furrow are compacted due to the fact that the base of the lower bent part 8 (Fig. 1, Fig. 3, Fig. 4) the ripper 4, located below the horizontal plane drawn through the middle of the outlet 9 of the lower bent portion 8 of the ripper 4, is made in the form of a hollow curved wedge 10, while the hollow curved wedge 10 (Fig. 4) has two lateral working faces ADE and Sun M and a support face DEMC made with a width equal to the width b of the furrow along its bottom, while two side working faces ADE and BCM of the hollow curved wedge 10 are made with a slope equal to the slope of the walls of the furrow formed by the coulter discs 2 (Fig. 1, Fig. 2), while the upper contour of the two side working faces ADE and BCM (Fig. 4) of the hollow curved wedge 10 is made along the ribs AE and BM formed when the cylindrical surface of the lower bent portion 8 of the cultivator 4 passes to the two side working faces ADE and BCM of the hollow curved wedge 10, the ribs AE and BM are located in a horizontal plane drawn through the middle of the outlet 9 of the lower bent portion 8 of the ripper 4. In this case, the heel 11 with the sole 12 is fixed from the bottom of the support face DEMC of the hollow curved wedge 10 (FIG. 4), while the sole 12 of the heel 11 is made horizontally, while the back of the heel 11 with the sole 12 coincides with the plane of the outlet 9 of the lower bent portion 8 of the ripper 4, while the horizontal part of the heel 11 with the sole 12 touches the horizontal plane passing through the lower points of the cutting edges of the coulter discs 2 (Fig. 1, Fig. 2), while the width b (Fig. 4) of the heel 11 with the sole 12 is equal to the width b of the support face DEMC of the hollow curved wedge 10, while in the front of the heel 11, from the bottom reference face DEMC hollow curved wedge 10 y the inclined oval rib 13 is mounted, the contour of the inclined oval rib 13 is shown by the superimposed section K (Fig. 4), while the inclined oval rib 13 is conjugated with the support face DEMC of the hollow curved wedge 10 and with the back of the heel 11, and the inclined oval rib 13 has obtuse angle β (Fig. 3) of entry into the soil, equal to 172 degrees, while the lateral working faces ADE and BCM (Fig. 4) of the hollow curved wedge 10, the heel 11 with the sole 12 and the inclined oval rib 13 are made of wear-resistant material.

To prevent clogging of the coulter discs 2 by the soil, the gaps between the coulter discs 2 (Fig. 2) and the side surfaces of the seed guide 3, measured near the cutting edges of the rear part of the coulter discs, are at least 10 mm on each side of the side surface of the seed guide 3.

To maintain a stable coulter stroke in the soil at a given depth and uniform distribution of seeds and fertilizers along the depth and length of the furrow, the cultivator 4 (Fig. 1, Fig. 3) is located vertically and at the same time the top part is fixedly attached to the rear of the 3 seed guide. The connection point ab (Fig. 1) of the cultivator 4 and the seed guide 3 does not extend beyond the envelope reproduced along the contours of the cutting edges of the rear part of the coulter disks 2, while the part of the cultivator 4 located below the connection ab of the cultivator 4 with the guide 3 seeds, goes beyond the envelope surface, reproduced along the contours of the cutting edges of the rear part of the coulter discs 2, vertically downward, towards the furrow, which ensures balancing the forces acting on the coulter during its operation, while maintaining a stable opener stroke at a given depth and even distribution of seeds along the depth and length of the furrow.

To exclude fluctuations of the cultivator 4 and the guide 3 seeds, when the coulter, which will also lead to a uniform distribution of seeds along the depth and length of the furrow, the cultivator 4 and the guide 3 seeds are fixed motionless to the housing 1 (Fig. 1, Fig. 2) of the coulter with the bracket 14, reinforced with a stiffening rib 15, while the bracket 14 is installed at the place of attachment of the internal scrapers 16 opener.

Thus, a furrow is formed with compacted walls and the bottom of the furrow, while the compacted walls of the furrow do not crumble during the laying of seeds and fertilizers along the bottom of the furrow, while the coulter works without clogging the soil, while maintaining its stable course, while the flow of seeds is equalized and fertilizer, excluding clogging of the guide 3 seeds and cultivator 4 seeds and fertilizers when moving them in the guide 3 seeds and cultivator 4, while the layout of seeds and fertilizers along the bottom of the furrow is carried out by a uniform flow when the claim li ne their rolling along the bottom of the furrow, thus excluded from entering the seeds and fertilizer coulters rotating wheels 2, which ensures uniformity of seed and fertilizer over the depth and length of the furrow. All this improves the quality of sowing seeds and fertilizers, which leads to increased crop yields and lower production costs.

Literature

1. USSR copyright certificate No. 1273006 A1, IPC A01C 7/20, Bull. No. 44 dated November 30, 1986 (analogue).

2. RF patent No. 2435356 C1, IPC A01C 7/20, Bull. No. 34 dated 12/10/2011 (analogue).

3. RF patent No. 2224401 C1, IPC A01C 7/20, 02/27/2004 (analog).

4. RF patent No. 2427124 C1, IPC A01C 7/20, Bull. No. 24 dated 08/27/2011 (analogue).

5. Certificate for utility model of the Russian Federation No. 37904 U1, IPC АСС 7/20, 05/20/2004 (analog).

6. RF patent No. 2237396 C2, IPC A01C 7/20, 10/10/2004 (analog).

7. Klenin N.I. Agricultural and reclamation machines / N.I. Klenin, V.A. Sakun. - M .: Kolos, 1994 .-- 751 p.

8. GOST 26244-84. Pre-sowing tillage. Quality requirements and determination methods. - 1 s

9. RF patent No. 2125359 C1, IPC A01C 7/20, Bull. No. 28 dated January 27, 1999 (analogue)

10. USSR author's certificate No. 1688796 A1, IPC A01C 7/20, Bull. No. 41 dated November 7, 1991 (prototype).

11. Sablikov M.V. Agreecultural machines. Agreecultural equipment. Part 2. Fundamentals of theory and technological calculation. - M.: Kolos, 1968 .-- 296 p.

Claims (1)

A coulter comprising a housing, two discs mounted at an angle to each other on the housing, a seed guide and a cultivator, characterized in that the seed guide and cultivator are made as a whole and at the same time closed, with the seed guide and cultivator located between the coulter discs and at the same time installed in the rear part of the opener and below the funnel of the neck of the opener, while the longitudinally vertical plane of symmetry of the seed guide, ripper and funnel of the neck of the opener coincides with the longitudinal-vertical with the opener symmetry plane, wherein the seed guide and cultivator are made of a pipe, for example, of circular cross section, while the bell is fixedly attached to the front of the seed guide, while the bell is tightly placed on the funnel of the neck of the coulter body, while the seed guide is directed to the side, opposite to the coulter movement, while the axis of symmetry of the seed guide is inclined along the coulter horizontal to an angle of 60 degrees, while the gaps between the coulter discs and the lateral surfaces seeds, measured near the cutting edges of the rear part of the coulter discs, are at least 10 mm on each side of the side surface of the seed guide, while the cultivator is located vertically and the upper part is fixed to the rear of the seed guide, while the junction of the cultivator and the guide seeds does not extend beyond the envelope surface, reproduced along the contours of the cutting edges of the rear part of the coulter discs, while the part of the cultivator located below the junction of the cultivator with the guide mian, extends beyond the envelope surface, reproduced along the contours of the cutting edges of the rear part of the coulter discs, vertically downward, towards the furrow, while the lower part of the cultivator is bent back, in the opposite direction to the motion of the coulter, along an arc of a circle, while the lower bent part of the cultivator has an outlet located in a transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the opener, while the outlet of the lower bent part of the cultivator does not go out and the limits of the transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the opener and the transverse vertical plane drawn tangentially to the extreme rear points of the cutting edges of the coulter discs, while the base of the lower bent part of the cultivator located below the horizontal plane drawn through the middle of the output the holes of the lower bent part of the cultivator are made in the form of a hollow curved wedge, while the hollow curved wedge has two side working another face and a support face made with a width equal to the width of the furrow along its bottom, while two lateral working faces of the hollow curved wedge are made with an inclination equal to the inclination of the walls of the furrow formed by the coulter discs, while the upper contour of the two side working faces of the hollow curved wedge is made along the ribs formed during the transition of the cylindrical surface of the lower bent part of the cultivator to two lateral working faces of the hollow curved wedge, while the ribs are located in the horizontal plane carried out through the middle of the outlet opening of the lower bent part of the cultivator, while the bottom of the support face of the hollow curved wedge is fixedly attached to the heel with the sole, while the heel sole is made horizontally, while the back of the heel and the sole coincide with the plane of the outlet of the lower bent part of the cultivator this horizontal part of the heel with the sole touches the horizontal plane passing through the lower points of the cutting edges of the coulter discs, while the width of the heel with the sole is equal to the width the supporting face of the hollow curved wedge, while in front of the heel, below the supporting face of the hollow curved wedge, an inclined oval rib is installed, while the inclined oval rib is conjugated with the supporting face of the hollow curved wedge and with the back of the heel and the inclined oval rib has an obtuse angle entering the soil, equal to 172 degrees, while the lateral working faces of the hollow curved wedge, the heel with the sole and the inclined oval rib are made of wear-resistant material, while the outlet contour of the lower bent portion of the cultivator consists of upper and lower contours, the upper contour of the outlet of the lower bent portion of the cultivator is located above the horizontal plane drawn through the middle of the outlet of the lower bent portion of the cultivator, and the upper contour of the outlet of the lower bent portion of the cultivator made along an arc of a circle with a radius equal to the radius of the cultivator cross-section, while the lower contour of the outlet of the lower bent part is loosened It is located below the horizontal plane drawn through the middle of the outlet opening of the lower bent part of the cultivator, and at the same time it is made along the edges of the rear parts of two lateral working faces of the hollow curved wedge and along the edge of the rear part of the support face of the hollow curved wedge, made with a radius equal to the radius of the passage section of the cultivator wherein the cross-sectional area of the outlet opening of the lower bent part of the cultivator is equal to the area of the flow-through section of the cultivator, while the cultivator and seed guide are closed epleny fixedly to the housing via the opener arm reinforced stiffener, wherein the bracket is mounted at the place of fixing the internal scrapers opener.

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