RU2671704C1 - Combined coulters - Google Patents

Abstract

FIELD: agriculture; engineering.SUBSTANCE: invention relates to the field of agricultural engineering, in particular to tools for introducing seeds and fertilizers into the soil. Combination opener comprises a stand with a neck, funnel and with an angle of 10…12° to each other with two discs. Fertilizer guide for inserting the main dose of fertilizers into the notch cut by the discs is fixed to the stand of the combined coulter with the reinforced stiffener of the bracket, which is installed at the place of attachment of the internal cleavers of the combined opener. Upper part of the bracket, located above the bracket attachment point to the stand, has a shelf bent at right angles to the plane of the bracket. Lower part of the guide is bent backwards in the direction opposite to the movement of the combined opener, along an arc of a circle of radius R = 300 mm and has an outlet located in a transversely vertical plane directed with respect to the longitudinal-vertical symmetry plane of the combined opener, and in the horizontal plane coinciding with the lower part of the cutting edges of the two discs of the combined opener. Upper part of the guide has two ears, the end surface of which is parabolic, identical to the end surface of the lower part of the funnel of the neck of the column so that it fits snugly against it. Seed drill tube for introducing seeds together with the starting dose of fertilizers has in the upper part a neck, made with it as a single unit and from a tube with a diameter of 40 mm, and also fixedly fixed to the shelf of the bracket. Lower part of the seed drill tube is also bent backwards, opposite to the movement of the combined vomer along an arc of a circle of radius R = 300 mm. In the lower part, the seed drill tube has an outlet located in a transverse-vertical plane directed with respect to the longitudinal-vertical symmetry plane of the combined vomer. Following the fertilizer guide there is a seed bed sealer installed under the outlet hole on the seed drill tube and is in the form of a curved wedge having two lateral working faces made with a slope, equal to the inclination of the furrow walls, cut by the discs of the combined opener, and a supporting working face horizontally and made with a width of 14 mm equal to the width of the furrow bottom cut by the discs of the combined opener. Seed drill tube is shifted upward relative to the fertilizer guide by the value h = 30…40 mm from the support working face of the curved wedge to the base of the outlet hole of the guide. Distance l horizontally between the planes of the outlets of the tubular vas deferens and the fertilizer guide is 40…50 mm. On the seed drill tube following it at the level of the sealing working member, made of a round bar with a diameter equal to 10…12 mm, with a working width of 150 mm, an additional sealing body is installed in the form of a U-shaped windbreaker made of a round bar with a diameter of 12…14 mm, free ends of which are set horizontally and with a gap δ, equal to no more than 3…5 mm from the inner planes of the coulter discs. Height hinstallation of the sealing working body from the base of the exit hole of the fertilizer guide to the free ends of the U-shaped grabber is equal to 90…100 mm. Seed drill tube in the lower part is additionally fixed immovably to the fixing bracket of the fertilizer guide with the help of a connecting strip, fixed motionless on the tubular vas deferens above the embedding organ. Fertilizer guide and seed drill tube are made of a tube ellipsoid in cross-sectional shape, the large axes of ellipses coincide with the longitudinal vertical plane of symmetry of the combined opener.EFFECT: increase in the uniformity of the distribution of the main, starting doses of fertilizers and seeds along the length of the furrow at a given depth with a given soil layer, an increase in the germination of seeds, and an increase in the productivity of the aggregate are ensured.1 cl, 2 dwg

Description

The invention relates to agricultural machinery, and can be used in seeders and combined units for the simultaneous planting of seeds and fertilizers in the soil at different levels.

A device is known for sowing grain crops in one pass of an aggregate along an uncultivated field [1], including a frame mounted on a frame, at least one bed, on which a coulter with a seed tube and press-and-roll rollers are installed in series, while the seed tube and piping are installed in the interdisc space of the double-disc coulter at a height above the soil, which excludes mixing of seeds and fertilizers, and the lower end of the duct pipe is placed at an acute angle below the end of the duct tube placed at an obtuse angle scrap, while the working bodies on the bed are fixed with the possibility of adjusting the distance from each other and installing them in the working and transport position by means of a lever-spring suspension and adjusting devices, while the removable disk knife is made with the possibility of its movement in the vertical plane and copying the relief of the field the case of the double-disc coulter is made T-shaped, and the asymmetric rack of the case has two threaded holes displaced in the vertical and horizontal planes for mounting a skovka and two holes for placement in the interdisc space of the vas deferens and pipelines, while the double-disc coulter is equipped with a cultivator to form a loose bed for fertilizers and to prevent mixing of seeds and fertilizers, while the coulter discs converge to form an acute angle wedge regulated by adjusting washers (seals), located between the coulter body and discs.

The disadvantages of this coulter include the placement of the tube of the vas deferens in front of the cultivator, while the formed furrow, together with the seeds sown by the vas deferens, will be destroyed and mixed with the soil with the cultivator installed next to the vas deferens, while the seeds are distributed at different depths and unevenly over the feeding area, while the fertilizers sown through the branch pipe of the fertilizer line will be mixed with seeds without a soil layer, while installing the seed tube and the fertilizer pipe at a height above the soil will also lead to a mixture of seeds and fertilizers with soil and disturbance of the soil layer, while the location of the planes of the outlet openings of the vas deferens and pipelines at an acute angle to the bottom of the furrow will lead to clogging of the outlet openings with soil when lowering the opener into operation, which will lead to lower crop yields and higher production costs culture.

A patent is known for a device for sowing seeds [2] comprising an opener with a double disk with a first supply means that feeds material into the space between the disks in order to pass into the slot opened in the soil by disks, while the second supply of the agent is applied next to the outer surface of each disk in order to feed the material to the soil near the specified slot, while the second feeder preferably feeds seeds to both sides of the discs and, thus, can sow two rows with the required interval, with a minimum limit on p spacing is determined by the width of two disks, while the placement of fertilizers below the seed level is achieved by applying fertilizer between the disks to the deepest part of the gap open with the disks, while each soil-engaging element can be in the form of a plate element located next to the disk to deflect the soil from it and thus, from the furrow, it being possible, said second supply means carries said plate element at its lower end, while alternatively, the soil connecting element may include second feeding means, for example, said soil engaging member, may comprise a tubular feeding element with a lower end that engages the soil to form a furrow, while another alternative embodiment of the invention has a soil engaging apparatus that includes a plate deflector having a leading edge, which is located at a distance from the outer surface of the adjacent disk and diverges back from the surface, while the tubular element has an opening at the lower end lying in the flats that go up and back at an acute angle with the base of the surface, while the relief of the deflector plate is spaced from the disk to ensure seed exit, while the double disc opener has a depth control device having the form of a clamping wheel behind the discs, an annular flange on the outer the surface of one or both disks or a strip of sheet metal going from a jumper.

The main, significant drawback of this apparatus for sowing seeds is the lack of a starting dose of fertilizers, which is applied to the soil together with the seeds, while the main dose is preferably applied away from the seeds into the gap formed by the discs, which will affect the lack of seed nutrition in the initial and further periods of its vegetative development, while the depth of the slot does not always coincide with the depth of the disc coulter, since the loose soil mass is located on a certain inclined surface back from the front part of the coulter, [3] therefore, the soil layer between the seeds and fertilizers will be of constant size, just installing a second feed means next to the outer surface of each disk to feed material to the soil next to the specified slot will result in the soil clogging the space between the disks and by means of the second feed during the operation of the disks, which will affect slipping and stopping the disks and the violation of the technological process of the apparatus, in addition, the second feed will interfere with the formation of a furrow on the side of the disks due to braking of the soil, which is discarded to the sides by the disks, in addition, the indicated tubular element for engagement with the soil, having holes at the lower end lying in the plane, which enter up and back with an acute angle to the base of the surface, will become clogged by the soil when lowering it into operation , which will also lead to a disruption of the technological process and a coulter stop, while all of the above disadvantages will affect the uniform distribution of seeds and fertilizers along the length and depth with a violation of the soil layer, which ivedet reduce crop yields.

Domestic paw openers for sowing grain crops are known (RU 2218697 C1, 12.20.2003; RU 2608022 C1, 01/11/2017; RU 2538402 C1, 01/10/2015; RU 2219695 C2, 12/27/2003; RU 2271090 C1, 03/10/2006; RU 2326520 C2, 06/20/2008; RU 2405296 C1, 12/10/2010; RU 224402 C1, 02/27/2004). Each of these devices includes a paw opener and various devices for it for multi-level fertilizing and sowing seeds, their seeding and compaction of soil above them.

The disadvantages of these paw openers include: uneven distribution of seeds and fertilizers over the sifting area and the depth of their seeding with a violation of the soil layer between fertilizers and seeds, since devices for different levels of fertilizer application are installed, usually with a gap from the bottom of the furrow, while the paw openers are poor copy the relief of the field, in addition, when lowering the coulters into the work, the exit openings for the tuks are clogged, since the planes of the outlet openings are horizontally or at an acute angle to horizontal plane, which leads to disruption of the technological process, while the coulters have a great traction resistance, which affects the decrease in yield and increase costs for the production of crops.

Famous domestic single-disc openers with devices for sowing seeds and different levels of fertilizer application (RU 2223625 C1, 02.20.2004; RU 2340151 C1, 12/10/2008; RU 2419277 C1, 05/27/2011; RU 2577411 C1, 03/20/2016; RU 2256316 C1, 07/20/2005; RU 22577370 C1, 03/20/2016; RU 2415543 C1, 04/10/2011; RU 2415544 S2, 04/10/2011; RU 2350064 C1, 27.00.2009) that sow seeds and fertilizers with a dividing soil layer, for this purpose they have single-disc coulters and devices for distributing seeds and fertilizers at different levels.

The disadvantages of single-disc openers with adaptations include: uneven distribution of seeds and fertilizers over the sifting area and the depth of their seeding with a violation of the soil layer between fertilizers and seeds, since the guides of seeds and fertilizers are located with a gap from the bottom of the furrow, while the mixing of seeds and fertilizers occurs; clogging the outlet openings of the seed and fertilizer guides with soil when lowering the coulters to work, since the planes of the outlet openings, seeds and fertilizers are located horizontally or at an acute angle to the horizontal plane, all these facts lead to lower yields and higher costs for crop production.

Of the closest known by technical nature (prototype) is a combined double-disc coulter [4], containing a stand with two disks fixed to it at an angle to each other, a two-channel fertilizer guide installed with the possibility of making the main dose of fertilizer in the grooves cut by the disks and a tubular vas deferens seed application along with a starting dose of fertilizer containing a seed bed compactor and a seed distributor, while the tubular seed tube is located next to the two-channel fertilizer guide eat and is shifted upward relative to it.

Combined double disc coulter works as follows. When the coulter moves, two discs mounted at an angle to each other cut two grooves in the soil for local application of the main dose of fertilizer in two rows. Following the disks, a two-channel fertilizer guide is provided, along which the main dose of fertilizer is applied simultaneously, evenly in two rows. Next, there is a tubular vas deferens, ending at the bottom with a compactor, which falls asleep fertilizers located below the right and left in two grooves and at the same time forms a compacted bed for seeds for the influx of moisture. Seeds, together with the starting dose of fertilizers, are fed through the vas deferens to the surface of the dispenser and, being reflected from it, are evenly scattered on the prepared bed, forming a tape up to 8 cm wide. Next, the working bodies located and located a little higher in level ensure a uniform seeding of seeds and fertilizers to the required uniform depth.

The disadvantages of the known device include: the installation of a two-channel fertilizer guide with a gap from the bed of the formed furrow will not allow to distribute simultaneously and evenly the main dose of fertilizer along the length and depth of two rows, since the fertilizers will be mixed with soil coming off the coulter discs [3]. In addition, the seal of the bed for seeds and for the starting dose of fertilizers will not fill the fertilizers in two grooves below the right and left at the same time, and at the same time form a compacted bed of seeds for the influx of moisture, since there is no shorting behind the two-channel guide, which can close the furrow, behind the two-channel guide, soil shifted to the coulter discs, while the seeds and fertilizers of the starting dose will be laid out not in a shaped groove and on an uncompressed bed and at the same time with a violation of a given depth and without inflow and moisture, at the same time, the distributor of the starting dose of fertilizers and seeds cannot form a tape up to 8 cm wide. Moreover, the two-channel tap guide, when lowering the coulter into operation, will become clogged with soil, which will lead to disruption of the technological process of the coulter, while the soil layer between the main dose of fertilizers and the starting dose with seeds will be unstable, which will affect the deterioration of seed germination and uneven nutrition of plants during their vegetative development, which will lead to a decrease in yield Ltury. The coulter design has low reliability, since the fastening of the two-channel fertilizer guide and the tubular vas deferens is provided only in the upper part of the coulter stand, while their lower parts, under the influence of soil resistance, will fluctuate during operation, which will lead to their breakage.

The claimed invention is aimed at eliminating the above disadvantages and when using it, the following technical result can be obtained: increasing the uniformity of the distribution of the main, starting doses of fertilizers and seeds along the length of the furrow at a given depth with a given soil layer; increase seed germination due to the formation of a compacted bed for seeds and a starting dose of fertilizers; increase in unit productivity due to a significant reduction in stopping time caused by clogging of the outlets of the needle guide and tubular vas deferens.

The specified technical result is achieved by installing a fertilizer guide and a tubular vas deferens made of an ellipse-shaped tube with a cross-sectional shape, as well as the implementation of their lower parts in a circular arc with a radius of R = 300 mm, which will even out the fertilizer flow of the main and starting doses and seeds, which is significantly will improve the uniformity of their distribution along the length and depth of the sowing furrow. The outlet openings of the fertilizer guide and the tubular vas deferens located in the transverse vertical planes directed relative to the longitudinally vertical plane of symmetry of the combined opener will eliminate the clogging of the outlet of the fertilizer guide and the tubular vas deferens, as well as mixing the seeds and fertilizers with the soil and create conditions for their uniform distribution over furrow length and embedment depth. The location of the base of the outlet guide on a horizontal plane coinciding with the lower part of the cutting edges of the two discs of the combined coulter will allow you to distribute the fertilizer of the main dose at a given depth. The installation of an additional sealing organ in the form of a U-shaped zagortag and a seed bed compactor and a fertilizer starting dose in the form of a curved wedge on a tubular vas deferens will allow a densified bed to be obtained, which contributes to the influx of moisture and the formation of amicable seed shoots, with the displacement of the tubular vas deferens upward relative to the fertilizer guide by an amount equal to h = 30 ... 40 mm, it will create a guaranteed soil layer between the main and starting doses of fertilizers with seeds, which contributes to uniform food plants with a pot of their development. The fixed fastening of the ductwork and tubular vas deferens to the rack in the upper and lower parts of the combined opener will improve the reliability of the combined opener.

Description of drawings

In FIG. 1 shows a diagram of a combined opener

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

The combined opener contains a rack 1 (Fig. 1, Fig. 2) with a neck 2 (Fig. 1, Fig. 2) and a funnel 3 (Fig. 1), mounted on it at an angle to each other by two disks 4 (Fig. 1 , Fig. 2), fertilizer guide 5 (Fig. 1, Fig. 2), installed with the possibility of introducing the main dose of fertilizer into the furrow cut by the disks 4, a tubular vas deferens 6 (Fig. 1, Fig. 2) for applying the seeds together with the starting dose fertilizers and located next to the guide 5 with offset relative to it up, the seal 7 (Fig. 1) the bed for seeds and closing the working body 8 (Fig. 1), two discs 4 of the combined coulter are installed at an angle of 10 ... 12 °, while the tap guide 5 and the tubular seed tube 6 are made of an ellipse-shaped cross-sectional tube, while the large axes of the ellipse-shaped cross-sections of the cross-guide tube 5 and the tubular testicle 6 coincide with a longitudinal vertical plane of symmetry of the combined opener, while the lower part of the guide 5 is bent backward, in the direction opposite to the movement of the combined opener, along a radius circular arc ohms equal to R = 300 mm, the upper part tukonapravitelya 5 has two lugs 9 (Fig. 1), while the end surface of the ears 9 is made in a parabolic shape, while the end surface of the ears is identical to the end surface of the lower part of the funnel 3 of the neck 2 of the rack 1, while the end surface of the ears of the tensioner fits snugly against the end surface of the funnel 3 of the neck 3 of the neck 2 of the rack 1, while the lower part of the guide 5 has an outlet 10 (Fig. 1, Fig. 2) located in a transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the combined nick, the base of the outlet 10 is located on a horizontal plane coinciding with the lower part of the cutting edges of the two discs 4 of the combined coulter, while the tension guide 5 is fixed to the counter 1 of the combined coulter using an arm 11 (Fig. 1) reinforced with a stiffener 12 (Fig. 1), while the bracket 11 is installed at the place of attachment of the internal scrapers 13 (Fig. 1) of the combined coulter, while the upper part of the bracket 11, located above the place of attachment of the bracket to the rack 1, has a shelf 14 (Fig. 1), while the shelf 14 is bent at a right angle to the plane of the bracket 11, while the lower part of the tubular vas deferens 6 is bent backward, in the direction opposite to the movement of the combined opener, along a circular arc of radius R = 300 mm, while the tubular vas deferens 6 has the upper part of the neck 15 (Fig. 1, Fig. 2), while the tubular vas deferens 6 and the neck 15 are made as a whole, while the neck 15 of the tubular vas deferens 6 is made of a pipe with a diameter of 40 mm and is fixed to the shelf 14 of the bracket 11, with this at the bottom of the tubular with the piping 6 has an outlet 16 (Fig. 1, Fig. 2) located in a transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the combined coulter, while under the outlet 16, on the tubular vas deferens 6, a bed seal 7 is installed for seed, made in the form of a curved wedge, while the curved wedge has two lateral working faces made with an inclination equal to the inclination of the furrow walls cut by the discs of the combined coulter and the abutment working face ab (Fig. 1) made with a width of 14 mm equal to the width of the bottom of the furrow cut by the discs 4 of the combined coulter, while the supporting working face ab of the curved wedge is horizontal, while the tubular seed tube 6 is displaced upward from the fertilizer guide by an amount of h equal to 30 ... 40 mm, measured from the reference working face of the curved wedge to the base of the outlet 10 of the guide tube 5, while the distance 1 between the planes of the outlet holes of the tubular vas deferens and the guide tube, horizontally, is 40 ... 50 mm., while ribbed vas deferens 6 is an additional zadelyvayuschy body in the form of earthing devices 17 (FIG. 1) U-shaped, wherein the height h ₁ (FIG. 1, FIG. 2) earthing devices installation, measured from the base of the outlet tukonapravitelya, is 90 ... 100 mm ., while the zagotachka 8 (Fig. 1) is made of a round bar with a diameter equal to 10 ... 12 mm, while the free ends of the U-shaped zagotachka 17 are installed with a gap 5 (Fig. 2) equal to not more than 3 ... 5 mm from the internal of the planes of the discs 4 of the combined opener, while the free ends of the U-shaped collar 17 are set Lena horizontally, the tubular seminal duct 6 in the lower part is further secured fixedly to the bracket 11 mounting tukonapravitelya 5 via the connecting strips 18 (Fig. 1) mounted motionlessly on the tubular vas deferens 6 above the earthing device 8, while following the tubular vas deferens 6, at the level of the earthing device 8, a closing body 17 of a U-shape is made made of a round bar with a diameter of 12 ... 14 mm, while the earthing device 8 has a working width of 150 mm.

Combined opener works as follows. When moving the combined opener, the main dose of fertilizer from the neck 2 with the funnel 3 of the rack 1 (Fig. 1, Fig. 2), falls into the guide 5 (Fig. 1, Fig. 2). Thanks to the use of a pipe of an ellipsoidal cross-sectional shape of the guide 5 and bending of its lower part back to the side opposite to the movement of the combined coulter along a circular arc with a radius of R = 300 mm (Fig. 1), it will allow to even out the fertilizer flow of the main and starting doses and seeds, which will significantly improve the uniformity of their distribution along the length and depth of the sowing furrow. Fertilizers from the outlet 10 (Fig. 1, Fig. 2) are evenly distributed along the bottom of the furrow formed by two discs 4 installed at an angle of 10 ... 12 °, while not mixing with the soil, due to the location of the holes 10 in the transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the combined opener (Fig. 1), while the fertilizer, when leaving the hole 10, is distributed strictly at a given depth, since the base of the output hole 10 is located on a horizontal plane, coinciding with the lower part of the cutting edges of the two drives combined opener. In order to exclude fertilizer spillage into the soil through the cracks, the upper part of the guideway 5 has two ears 9 (Fig. 1), while the end surface of the ears 9 is made parabolic and identical to the end surface of the lower part of the funnel 3 of the neck 2 of the rack 1, while end surfaces fit snugly together. To increase the reliability of the combined coulter, the guide 5 in the upper part is additionally fixed motionless using the bracket 11 (Fig. 1), reinforced with a stiffener 12 (Fig. 1) at the attachment point of the internal scrapers 13 (Fig. 1) of the combined coulter.

The starting dose of fertilizers together with the seeds falls into the neck 15 (Fig. 1, Fig. 2) of the tubular vas deferens 6 (Fig. 1, Fig. 2). To equalize the flow of seeds and fertilizers in the tubular vas deferens and their uniform distribution along the length of the sowing furrow, the tubular vas deferens 6 is made of ellipsoidal tubes in cross-sectional shape (Fig. 2), while the lower part of the tubular vas deferens 6 is bent back, to the opposite side the movement of the combined opener, along an arc of a circle with a radius equal to R = 300 mm. (Fig. 2) in order to prevent mixing of fertilizers and seeds with soil at the outlet of the tubular vas deferens 6, which contributes to the planting of seeds and fertilizers in accordance with the requirements, as well as to evenly distribute seeds and fertilizers along the length of the sowing furrow in the lower part of the tubular the vas deferens there is an outlet 16 (Fig. 1, Fig. 2) located in a transverse vertical plane directed relative to the longitudinally vertical plane of the combined opener.

In order to lay seeds and fertilizers on a compacted bed, to obtain friendly seedlings of plants and better digestibility of fertilizers by the roots of plants in the initial period of their vegetation, a seal 7 (Fig. 1) of a bed for seeds made in the form is installed under the outlet 16 on the tubular seed tube 6 a curved wedge with two lateral working faces made with an inclination equal to the inclination of the walls of the furrow cut by the discs 4 of the combined opener, and a supporting working face ab (Fig. 1) made with a width equal to the width of the bottom of the furrow 14 mm, p In this case, the supporting working face ab of the curved wedge is horizontal.

To obtain a guaranteed layer of soil between the main dose of fertilizers and the starting dose of fertilizers together with the seeds, which will provide uniform nutrition during the vegetative development of plants, the tubular seed tube 6 is shifted upward from the fertilizer guide by h = 30 ... 40 mm. (Fig. 1, Fig. 2), measured from the base of the outlet 10 of the guide 5, to the supporting working face ab of the curved wedge.

In order to seal the furrow formed by the guide 5, as well as to create conditions for the formation of a compacted bed for seeds and the starting dose of fertilizers, a seed bed compactor made in the form of a curved wedge with two side working faces made with an inclination equal to the inclination of the walls of the furrow cut through by disks 4 of the combined coulter, on the tubular vas deferens 6 there is a U-shaped bead 17 (Fig. 1), while the bead 8 (Fig. 1) is made with a round bar with a diameter of 10 ... 12 mm, while the free ends of the U-shaped a large zagorta 17 are installed with a gap 5 equal to not more than 3 ... 5 mm from the inner surfaces of the discs 4 of the combined coulter, while the free ends of the U-shaped zagotcha 17 are installed horizontally, while the height h ₁ (Fig. 1, Fig. 2) installation of the zipper measured from the reference working face ab of the curved wedge to the free ends of the U-shaped zagotchka 17 is 90 ... 100 mm

To increase the reliability of the combined coulter and more uniform distribution of seeds along the length of the bed for seeds and fertilizers of the main and starting doses, the neck 15 of the upper part of the tubular vas deferens 6 is made of a pipe with a diameter of 40 mm and is fixed to the shelf 14 of the bracket 11, while the lower part of the tubular the vas deferens 6 is fixedly fixed to the bracket 11 of the fastener guide 5, using the connecting strip 19 (Fig. 1) mounted motionless on the tubular vas deferens 6, above the shorting 8.

For the final filling of the furrow behind the combined opener, followed by the tubular vas deferens 6, at the level of the earthing device 8, a sealing body 17 U-shaped, made of a round bar with a diameter of 12 ... 14 mm, is installed, while the earthing device 8 has a working working width of 150 mm

The installation of a fertilizer guide and a tubular vas deferens made of an ellipse-shaped tube with a cross-sectional shape, as well as the execution of their lower parts with a circular arc of radius R = 300 mm, will even out the fertilizer flow of the main and starting doses and seeds, which will significantly improve the uniformity of their distribution over the length and depth of the sowing furrow. The outlet openings of the fertilizer guide and the tubular vas deferens located in transverse vertical planes directed relative to the longitudinally vertical plane of symmetry of the combined coulter will also eliminate the mixing of seeds and fertilizers with the soil and create conditions for their uniform placement along the depth and length of the sowing furrow. The location of the base of the outlet guide on a horizontal plane coinciding with the lower part of the cutting edges of the two discs of the combined coulter will allow you to distribute the fertilizer of the main dose at a given depth. The sealant of the bed for seeds and fertilizers will allow you to get a compacted bed, which helps to obtain friendly seedlings. The displacement of the tubular vas deferens upward relative to the guideline by an amount equal to h = 30 ... 40 mm, will create a guaranteed soil layer between the main and starting doses of fertilizers with seeds, which contributes to a uniform nutrition of plants during their vegetative development. The installation of a shortener on a tubular vas deferens will make it possible to fill up the furrow behind the fertilizer guide and create conditions for the formation of a compacted bed for seeds and fertilizers of the starting dose. The fixed fastening of the ductwork and tubular vas deferens to the rack of the combined opener will improve the reliability of the combined opener.

Thus, the claimed combined coulter provides an increase in the uniformity of the distribution of seeds and fertilizers of the main and starting doses along the furrow length at a given depth, increases the productivity of the unit by eliminating the clogging of the holes of the guide and the tubular vas deferens with soil, which leads to increased crop yields and lower costs for them production.

Literature

1. RF patent No. 2483518, IPC A01C 7/20, Bull. No. 16 dated 06/10/2013 (analogue)

2. United Kingdom Patent (GB) No. 8033764 of 05/07/1981 (equivalent)

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

4. Patent of the Republic of Belarus No. 10445, IPC АСС 7/00 dated 04/30/2018 (prototype)

Claims (1)

Combined coulter containing a stand with a neck, funnel and two disks fixed on it at an angle to each other, a fertilizer guide for introducing the main dose of fertilizer into the furrow cut by the disks, a tubular vas deferens for introducing seeds together with a starting dose of fertilizers, a seed bed compactor located followed by a guide with an offset upward relative to it, and a closing body, characterized in that the two discs of the combined coulter are installed at an angle of 10 ... 12 °, while the guide and tr the cored seed tube is made of an ellipsoidal tube in cross-sectional shape, the large axis of the ellipses of which coincide with the longitudinal vertical plane of symmetry of the combined opener, the lower part of the guideway is bent back to the side opposite to the movement of the combined opener, along a circular arc of radius R = 300 mm and has an outlet, located in the transverse vertical plane directed relative to the longitudinally vertical plane of symmetry of the combined opener and in the horizontal plane coinciding with the lower part of the cutting edges of its two disks, and the upper part of the guideway has two ears, the end surface of which is made of a parabolic shape identical to the end surface of the lower funnel of the neck of the rack so that it fits snugly, while the guide is fixedly fixed to the rack of the combined coulter with the help of a bracket reinforced with a stiffener, which is installed at the place of fastening of the internal scrapers of the combined coulter, with the upper part of the bracket located I am above the place of attachment of the bracket to the rack, has a shelf bent at right angles to the plane of the bracket, the lower part of the tubular vas deferens is also bent back to the opposite side to the movement of the combined opener, along a circular arc of radius R = 300 mm, while the tubular vas deferens part of the neck, made with it as a whole and from a pipe with a diameter of 40 mm, and also fixed to the bracket shelf, in the lower part the tubular seed tube has an outlet located in a transverse vertical section bones directed relative to the longitudinally vertical plane of symmetry of the combined opener, in addition, the seed bed sealer is installed under the outlet on the tubular vas deferens and is made in the form of a curved wedge having two lateral working faces made with an inclination equal to the inclination of the furrow walls cut through by the combined disks of the opener, and a support working face, located horizontally and made 14 mm wide, equal to the width of the bottom of the furrow cut by the discs of the combined opener, etc. this tubular vas deferens is shifted upward from the tundish guide by an amount of h = 30 ... 40 mm from the supporting working face of the curved wedge to the base of the outlet of the tundish guide, and the horizontal distance l between the planes of the outlet holes of the tubular vas deferens and the guide tube is 40 ... 50 mm, while on the tubular after the vas deferens at the level of the closing working body, made of a round bar with a diameter of 10 ... 12 mm, with a working working width of 150 mm, an additional closing organ is installed en in the form of a U-shaped zagotachka made of a round bar with a diameter of 12 ... 14 mm, the free ends of which are installed horizontally and with a gap δ equal to not more than 3 ... 5 mm from the inner planes of the discs of the combined opener, the height h ₁ installation a U-shaped clipper from the base of the outlet guide to the free ends of the U-shaped clipper is 90 ... 100 mm, while the tubular vas deferens in the lower part is additionally fixed motionless to the bracket of the fitting of the guide with soy extension strap mounted motionlessly on the tubular vas deferens above the terminating working body.

Images