RU2057422C1 - Planter - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: planter has frame, supporting drive wheels, draft bar beam, long and short draftbars hinge-mounted on brackets installed for movement along draftbar beam, double disk openers with rods and springs secured on hollow square shaft with opener depth adjuster, seed tubes, seed box with planting units in its lower part and planting unit shaft drive mechanism, and agitator placed in seed box. Placed before double-disk openers for rotation in longitudinally vertical planes are disk knives whose axles are secured by means of levers on hinge brackets of long and short draftbars. Mounted on axles of rotation of disk knives is mechanism to provide displacement of knives along axles; double-arm lever is mounted on hinge joint of bracket of short or long draftbar and is connected by second arm with each of guides of disk knife travel adjuster mechanism, the latter bring furnished with power regulator. EFFECT: enhanced reliability of operation. 5 cl, 9 dwg

Description

 The invention relates to agricultural machinery, in particular to seeders for sowing on a rod background without processing the predecessor.

 Known disk knife containing mounted for rotation in the longitudinally vertical plane of the plate having two parallel to one another flat side and connecting their one-side sharpening, in which to reduce traction resistance and improve performance, each side of the plate is made in the form of a polygon with even the number of sides, and sharpening in the form of faces arranged with an inclination alternately in one and the other sides relative to the plane of the plate, while the number of gras sharpening it is equal to the number of sides of the polygon of the side of the plate.

 The described circular knife can deviate to the left and to the right from the longitudinal-vertical plane due to the design features of the mounting fork and stand. The versatile sharpening of the cutting edge on the peripheral part of the disk knife certainly allows you to qualitatively perform the technological process: vertical cutting of the soil layer to a depth of 10.12 cm and plant and root residues both on the field surface and in the upper soil horizon. A circular knife in the form of a polygon works stably with a large depth of cut of the formation.

 A plow is also known, which contains a circular knife and a plow body on which a cutter blade is mounted in a longitudinally vertical plane, in which, to increase the productivity and quality of soil cultivation, the circular knife is corrugated with a cross section of corrugations in the form of a rectangular triangle, the large leg of which is located in the plane of the flat part of the circular knife and facing the side of the cutting knife, and the angle of inclination in the transverse vertical plane of the sections of the blade of the circular knife facing the cutting knife , less than the angle of inclination of its sections of the blade facing in the opposite direction.

 The described circular knife cannot be used as a tool for crafting a technological gap with the subsequent placement of seeds in it when sowing on a rod background. Corrugations contribute to the cutting of plant debris. At the same time, corrugations from the gap carry away the moist soil layer with their faces. Since the slot has stable side walls and is made in the form of an inverted letter P, the seeds are filled with dry soil. This affects their growth, and often to their death due to lack of moisture.

 An original tillage tool is known, including a frame and a disk knife and a planar cutting tool mounted on it on racks one after another, in which the implement is equipped with supporting elements made in the form of runners to reduce traction resistance, improve soil cultivation quality and operational reliability. which are fixed on the side of the rack of the disk knife and the cutting tool, while the rack of the flat cutting tool is made arcuate, enveloping the disk knife. Each skid is installed with the possibility of adjusting it in height.

 Placed in front of the lancet paw, the circular knife undoubtedly cuts all the plant and root residues in front of the lancet paw. This ensures high reliability of the process. However, in seeders for sowing on a stubble background, the specified working body is unacceptable both because of the destruction of the stubble and because of the high traction resistance. When installing twelve such working bodies on the frame of the seeder SN-16PM, its traction resistance exceeds 2.5 ton-force, while the seeder itself should be aggregated with tractors of draft class 0.6 or 0.9 ton-force.

 A device is known for forming guide slots and driving agricultural machines along them, comprising a knife-type guide slot and a circular knife mounted on the implement frame using a stand, in which, to improve the quality of cutting guide slots and the driving accuracy of the guide-knife blade, it is made with a blunt angle of entry into the soil and is equipped with slit wall expanders mounted in the lower part of the rack, and its lower end is located behind the vertical axis of symmetry of the disk knife. The rack of the slit-guide is made with a slot in which a circular knife is mounted. The lower edge of the circular blade is located below the lower edge of the guide slot.

 The combination of rotary and passive knives in relation to devices for making guide slots for driving agricultural machines on them is rational. When making only two slots-guides slightly increases the overall traction resistance of the aggregated gun. The setting of the described working body in front of each opener, for example, a grain seeder, leads to a sharp increase in both traction resistance and instability of the working body in the depth of processing of the slit. The latter occurs due to a significant reduction in the part of the weight of the machine per each circular knife. It should also be noted the unacceptability of the specified working body as cutting cracks in grain seeders for sowing on a stubble background. The broadened part of the gap does not promote seed growth due to the lack of hard contact of seeds with soil.

 Known combined opener for broadband sowing, containing a paw, under which there is a seed chamber, a hollow rack in the form of the vas deferens and placed in front of the paw disk knife, the axis of which by means of a bracket mounted on the rack, in which to provide favorable conditions for seed germination by creating optimal conditions according to the water-air regime, the paw is made convex in shape, the curvature of the surface and the cutting edge of which are described by the equation of a logarithmic spiral. To increase the uniformity of the distribution of seeds over the sowing strip, the seed chamber has a reflective surface, inside the stand there is a shaper of seed flow made in the form of a screw auger, and at its lower end there is a fan distributor directed towards the reflective surface.

 The disadvantage of this coulter is a high traction resistance. As a rule, after harvesting the precursor, the soil hardness reaches up to 6-10 KPa. The total traction resistance of the seeder with twelve combined coulters with a sowing depth of 8 cm reaches 3 ton-force. At the same time, the lancet broadband paw completely cuts off the stubble. In the coulter described, plant and root residues hang on the bottom of the rack between the disk knife bracket and the paw. This is due to the gap between the peripheral edge of the disc and the toe of the paw.

 Known seeder breeding with variable gauge SN-16PM engineering plant experimental designs VIM, containing a frame, transmission mechanisms of the drive shaft of the sowing apparatus and tedders, seed box, coulter bar with double disc coulters on short and long leads, supporting-drive wheels, seed tubes, support legs, support legs , a running board and zagortach. This seeder is taken as a prototype.

The disadvantages of this seeder are that the double-disc coulters on the stubble background of the predecessor (wheat, sorghum, corn, sunflower, Sudan grass and other feed crops cultivated for hay and silage) does not provide the specified sowing depth (2-8 cm), and also clogged with plant debris. In most cases, double-disc coulters simply roll over the surface of the field, and seeds of small-seed fodder crops flutter in the wind. Large seeds (corn, sunflower, axes, etc.) are pecked by birds (pigeons, sparrows). With a mass of the seeder SN-16PM of 450 kg per coulter, less than 35 kgf. To ensure the deepening of the double-disc coulter to a depth of 6 cm with a soil hardness of 5.0 kgf / cm ² , a force of 1780 kg is required. Therefore, to ensure a given stroke depth of a double-disc coulter, a previously prepared technological gap is required. This condition is satisfied only when placing the knife in alignment with a disk opener.

 The invention consists in the following.

 The objective of the invention is sowing according to the core background with the presence of a large number of plant and root residues of the precursor without preliminary tillage to create the stability of the feed base in the late autumn period to obtain two and three crops per season in irrigated agriculture.

 EFFECT: ensuring reliability of seed placement to a given depth (in the range of 2-10 cm) and creating stable contact of seeds with soil for their growth.

 The specified technical result during the implementation of the invention is achieved by the fact that in the known device, for example, on the basis of a serially-released seeder SN-16PM, including a frame, support-drive wheels, a tow bar, long and short leads, pivotally mounted on brackets movable along the tow bar, two-disk openers with rods and springs mounted on a hollow square shaft with a mechanism for changing the depth of the openers, seed tubes, seed box with sowing devices installed in its lower part and fur nism drive shaft of the sowing apparatuses and seed agitators located in the drawer. Cutting stems, stalks, crop losses in the form of ears, panicles, baskets, plant roots and weeds, as well as making vertical slits of adjustable depth is achieved by the fact that in the alignment in front of the double-disc coulters of the front and rear rows are placed rotatably in longitudinally vertical planes knives. The peripheral edge of the disk can be made with one-sided or two-sided sharpening. The shape of a flat knife is round or hexagonal. The axis of rotation of the disk knives is fixed by means of the lower shoulder of the two-arm lever on the hinged brackets of long and short leashes. On the axes of rotation of the disk knives placed a mechanism for the displacement of these knives along the axes. The two-arm lever is freely positioned on the hinge of the bracket for short or long leashes. The second arm of the lever with each of the leads is connected to a mechanism for changing the depth of stroke of a circular knife. The mentioned mechanism is equipped with a power regulator.

 The mechanism of displacement of circular knives along the axes of rotation is made in the form of a pair of multidirectional threaded bushings located in coaxial threaded holes on the lower arm of the lever and fixed with locknuts, while the bushings are mated to the inner rings of the rolling bearings of the hub of the circular knife, and the axis of rotation is located inside the bushings and equipped with threaded the end screwed into one of the bushings.

 The mechanism for changing the stroke depth of a disk knife is made in the form of a threaded rod, one end of which is pivotally connected to the cross bar of the leash of the double-disc coulter, and the other end of the threaded rod is connected to the cracker of the upper shoulder fork of the two-shouldered lever of the disk knife by means of a shaped nut.

 The power regulator of the mechanism for changing the stroke depth of the disk knife is made in the form of compression springs located on the threaded rod between the cracker and the handwheel in the lower part of the threaded rod.

 The described mechanisms in combination of circular knives provide the above technical result.

 The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, made it possible to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the invention.

 Therefore, the invention meets the requirement of "novelty."

 To verify the compliance of the claimed invention with the requirement of "inventive step", the applicant conducted an additional search for technical solutions in order to identify features that match the distinctive features of the claimed invention, the results of which show that the claimed invention does not follow explicitly from the prior art, since the level of technology defined by the applicant, it is not revealed the impact provided for by the essential features of the claimed invention conversion requirements to achieve a technical result.

 Therefore, the claimed invention meets the requirement of "inventive step".

 Figure 1 shows a seeder for sowing on a stubble background without preliminary tillage, plan; figure 2 is the same, left view; in Fig. 3, section AA in Fig. 1, the relative position of the circular knife and the double-disc opener mounted on the lead bar using a short lead; in Fig.4 section BB in Fig. 1, the relative position of the disk knife and the double-disc coulter mounted on a leash using a long leash; figure 5 section bb in figure 2, the displacement mechanism of the circular knife along its axis of rotation; in FIG. 6 section GG in figure 3, the mutual connection of the two shoulders of the lever of the disk knife and the arm of the leashes, plan; Fig.7 cross section DD in Fig.6, the mechanism for changing the depth of stroke of a circular knife; Fig. 8, section EE in fig. 6, the position of the power regulator on the threaded rod of the mechanism for changing the stroke depth of the disk knife.

 The seeder consists of a frame 1, a hitch bracket for an automatic coupler 2, a left support wheel 3, a right support-drive wheel 4, eleven double-disc coulters 5, a tow bar 6 rods 7, a mechanism 8 for adjusting the depth of movement of the coulters 5, front hinged support legs 9, and the rear support leg the legs 10, the movable board 11, the earthenware 12, the vas deferens 13, the seed box 14 with the hinged cover 15. The left support wheel 3 and the wheel 4 are equipped with screw mechanisms 16 for changing the gauge. An asterisk 17 is installed on the wheel hub 4 for the sleeve-roller chain 18. On the rack 19 of the wheel 4, a bracket 20 with a tension roller 21 is fixed with welds. On the brackets 22 and 23 of the frame 1, a counter 24 is fixed on the plain bearings with a longitudinal groove 25 and with a fixed driven an asterisk 26. An asterisk 27 is installed on the cantilever part of the control 24 to drive through a sleeve-roller chain 28 of the receiving shaft 29 of the forty-speed gearbox 30. A driven sprocket 31 is installed on the shaft 29, from which the chain drive is mounted Chi 32 receives the drive through the sprocket 33, the shaft 34 of the sowing devices 35. The shaft of the agitator receives the drive through the guitar 36 from the shaft 34 of the sowing devices 35.

 The mechanism 8 comprises a hollow square shaft 37 mounted on shaped bearings 38. Slide bearings 38 are placed on the sidewalls 39 of the frame 1. In the middle part, the hollow square shaft 37 is provided with a fist 40, which is connected by a cylindrical axis 41 to the link 42. The link 42 is connected by a hinge 43 to the frame 1. The link 42 is provided with two adjusting screws 44 and 45, with with the help of which the predetermined position of the fist 40 of the hollow square shaft 37 is fixed. The forks 48 of the rods 7 are placed along the length of the hollow square shaft 37 using the clamps 46 and the lining 47. The upper ends of the rods 7 are passed through the rectangular holes of the crackers 49. The lower ends of the rods 7 with the help of Int 50 are connected to leashes short 51 and long 52, respectively, of the front and rear rows of double-disc openers 5. On the rods 7 between the crackers 49 and washers 53 fixed by wrappers, the pressure springs 54 are placed. The rear ends of the short 51 and long 52 leashes by means of bolts 55 sec countersunk head connected to coulter brackets 5. The front ends of short 51 and long 52 leads (see figures 1, 2, 3, 4 and 6) are connected using cylindrical axles 56 with cast brackets 57. Brackets 57 pairs of bolts 58, overlays 59 , nuts 60 and spring sha yb 61 are fixed on the corners of the leash 6.

In the alignment in front of the double-disc coulters 5, rotary knives 62 are placed rotatably in the longitudinal-vertical planes, the axes 63 of which are fastened via levers 64 to the hinged brackets 57 of long 52 and short 51 leads (see figures 1, 2, 3, 4, 5 and 6). The thickness of the disk 62 should not exceed 3 mm. The material is steel 65 G. The peripheral edge of the disk 62 can be made with one-sided sharpening with an angle of not more than 15 ^about , with two-sided sharpening and an angle of sharpening not more than 30 ^about and hardened to 60.70 N sec. The shape of the flat knife 62 can be made round or in the form of a regular polygon. A disk knife 62 with rivets 65 is fixed on the hub 66. In the hub 66 there are two radial ball bearings 67 of a single grease. The position of the ball bearings 67 in the hub 66 is fixed by the retaining rings 68.

 A spacer sleeve 69 is placed between the inner rings of the ball bearings 68. The axis of rotation 63 of the blade knives 62 are secured by the lower arm of the lever 64 to the hinged brackets 57 of the long 52 and short 51 leads. On the rotational axes 63 of the disk knives 62, a mechanism 70 for displacing said knives 62 along axes 63 is arranged.

 The mechanism 70 of displacement of the circular knives 62 along the axes of rotation 63 is made in the form of a pair of multidirectional threaded bushings 71 and 72. The bushings 71 and 72 are placed in coaxial threaded holes 73 on the lower arm of the lever 64. The bush 71 from the bush 72 differs in that the inner hole of the bush 71 equipped with thread. The position of the sleeves 71 and 72 in the threaded holes 73 is fixed by the lock nuts 74. The axis of rotation 63 of the disk knife 62 is located inside the sleeves 71 and 72. The threaded end 75 of the axis of rotation 63 is screwed into the internal threaded hole of the sleeve 71. The described design of the mechanism 70 of displacement of the disk knives 62 provides placement in the alignment of the aforementioned knife 62 with a longitudinally vertical plane of the arrangement of the disk knife 5, as well as a generally high reliability of the said mechanism.

Two shoulders lever 64 (see Fig. 3-6) is made of two parts of strip steel with a cross section of 8 x 40 mm ² . The upper and lower parts of the two shoulders of the lever 64 are separated by a distance sleeve 76. In the plan view, the two shoulders of the lever 64 takes an H-shape. The spacer sleeve 76 is located on the cylindrical axis 56 between the tides of the cast bracket 57. The upper shoulder of the two shoulders of the lever 64 with each of the long 52 and short 51 leads are connected by a mechanism 77 for changing the stroke depth of the disk knife 62. The mechanism 77 is equipped with a power regulator 78.

 The mechanism 77 for changing the stroke depth of the disk knife 62 is made in the form of a threaded rod 79. The lower end of the threaded rod 79 from the side of the hex head 80 is screwed with its threaded portion (M16) into the cylindrical hinge 81. The cylindrical hinge 81 is placed in the triangular groove 82 of the transverse strip 83, which welded seams connected to the longitudinal bars of short 51 and long 52 leads. The lower part of the cylindrical hinge 81 rests on the stops 84. The cross bar is provided with an oval hole 85. The described design of the threaded rod 79 allows the latter to make angular movements in a wide vertical plane in a wide range. The upper part of the threaded rod 79 is equipped with a shaped nut 86. A shaped nut 86 (M14) is inserted in the cylindrical hole 87 of the cracker 88. The cracker 88 with its cylindrical pins 89 is installed in the coaxial holes 90 of the upper part of the two shoulders lever 64 (see Figs. 3, 4, 7 and 8).

 The power regulator 78 (see Figs. 7 and 8) of the mechanism 77 for changing the stroke depth of the disk knife 62 is made in the form of a compression spring 91 located on the threaded rod 79 between the cracker and the flywheel 92 and the lower part of the threaded rod 79.

 The seeder works as follows.

 To prepare the seeder for work, it is necessary to establish the required seeding rates, row spacing, depth of stroke of circular knives, depth of seed placement in the soil, spring pressure on the rods and in power regulators.

 Let us consider the technological process of sowing small-seeded crops (spring rep) on the stubble background of spring wheat as a precursor, medium seeds (barley-pea-oat mix) on the stubble background of Sudan grass, large seeds (soy, beans, sunflower) on the stubble background of corn.

On the shaft 34 sowing devices place seed plastic coils for sowing small-seeded crops. The number of coils should correspond to the number of coulters 5 on the lead bar 6. Based on 3 · 10 ⁶ pcs. seeds of spring rep are determined by calculating the number of seeds per 1 l.m. By changing the gear ratio in the multi-stage gearbox 30 by rearranging the levers, the seeding rate is achieved with the engagement accuracy. After this, scrolling of the support-drive wheel 4 makes sure that all the sowing devices sow the same number of seeds equal to the calculated value or exceeding the calculated value for spring rape no more than two or three grains.

 The coulters 5 are set to a predetermined row spacing width (from 10 cm or more in any range steplessly) by shifting the cast bracket 57 along the groove between the angles 36 x 36 mm of the guide bar 6 with the nuts 60 turned off on the pairs of bolts 58. First, the middle disc coulter 5 is mounted symmetrically to the frame 1 seeder (for an odd number of coulters 5). Having fixed the middle coulter by tightening the nuts 58 through the spring washers 61 and the linings 59 by the bolts 58, to the left and to the right of it, the second and third coulters 5 are installed to the row spacing (15 cm) 5. The coulters 5 are installed alternately on the drawbar 6 using short 51 and long 52 leashes.

 When sowing spring rape, the seed placement depth should be within 2.3 cm. For this, the seeder is installed on a solid technological site. Under the support wheel 3 and the supporting-drive wheel 4, 4 cm thick linings are installed. The bracket of the automatic coupler 2 is plumbed vertically. The front support legs 9 and the rear hinged leg 10 fix the seeder frame 1 in a rigid, stable position. The seeder should take the position shown in figure 4. Then proceed as follows. The wrappers fixing the lower ends of the pressure springs 54 from the side of the washers 53 are removed from all the pressure rods 7. The position of the upper ends of the rods 7 relative to the upper edges of the crackers 49 in this case can be very diverse: the rods 7 are completely recessed in the crackers 49, and the disk coulters 5 front and rear rows hang in the air, rods 7 are recessed in crackers 49, and disk coulters 5 do not all touch the surface of the platform; the heads of the rods 7 exceed above the upper edge of the crackers 49.

 If the rod heads 7 exceed the crackers 49 (see Fig. 9), the screw 45 is unscrewed from the threaded part of the link 42, and the axis 41 together with the lever 40 are displaced with the screw 44. The hollow square shaft 37 of the mechanism 8 through the forks 48 leads the crackers 49 to the rod heads 7. When the adjusting screw 44 is rotated, the lower edges of the coulter discs are raised 2-3 mm above the process site. When sowing small-seeded crops, the wrapper, while preloading the springs 54 on the rods 7, is installed in the second hole from the bottom. Similarly, the coulters 5 are brought into operation in other situations.

 Then proceed to set the stroke depth of the disk knives 62 (see Fig. 7-9). This adjustment begins to be carried out with the spring 91 of the power regulator 78 fully loosened. Rotating the shaped nut 86 on the threaded rod 79, the cutting edge of the disk knife 62 is brought to the supporting platform. Next, turning the handwheel 92, tighten the coils of the spring 78. Finally, this adjustment is carried out in the field, taking into account the stubble background and soil hardness.

 The seeder is hung on the tractor by means of an arm 2 of a hitch of an automatic coupler. The tractor hydraulic system lowers the seeder in the field to the edge of the plot. By scrolling the support-drive wheel 4, make sure that all the seed boxes of the sowing apparatus 35 were filled with seeds and they were thrown onto the folding tray. After that, the tray is transferred to the working position, removing seeds from it. At a given gear, the tractor moves along the milestones, making the first working stroke. The drive from the support drive wheel 4 is transmitted to the counter-drive shaft 24, and from its cantilever sprocket 27 to the sprocket 28 of the reception shaft 29 of the gearbox 30. Further, from the sprocket 31 on the output shaft 29 of the gearbox 30, the shaft 34 of the metering devices is received at a given frequency 35. Seeds, which are filled in the seed box 14, through the rectangular holes receive the metering devices 35 and send them to the seed tubes 13. When the seeder rolls on wheels 3 and 4, disc knives 62, placed in the alignment with disc coulters 5, cut the plant and ornevye radicals such as lying on the field surface and in the soil, leaving a vertical gap of 3 mm. The depth of the gap should not exceed the seed placement depth of more than 5 mm. The coulters 5 located behind the circular knives 62, due to the angle of installation of their knives, form inclined walls of the slit, forming a stable groove. Seeds according to the seed guide of the coulters from the seed tubes 13 are laid on the bottom of the groove and are sealed with moist soil that is poured from the inclined walls of the groove and additionally covered with field covers 12.

 In irrigated agriculture, immediately after the seeder, front-line or circular irrigation machines move. When watering even with small norms, irrigation water accumulates mainly in crevices and grooves, thereby excluding erosion control and the formation of a crust over sowing grooves. Observations found that seedlings in this case appear on the fourth or fifth day. The harvest of spring rape during the harvesting period (22.X,) amounted to 350. 400 c / ha.

 When operating circular knives 62 in the field, setting the circular knife 62 into the target of the disc coulter 5 often does not correspond to the desired position. This is due to the presence of gaps of the axis 56 in the cast bracket 57 and the distance sleeve 76 on the axis 56 (see FIG. 6) and the deviation of the geometric shape of the corners of the towing bar 6, as well as for other reasons. Having established in the field the amount of displacement of the disk coulter 5 from the plane of the disk knife 62, proceed as follows. By rotating the flats, the axis 63 is partially unscrewed from the sleeve 71. The gap between the axis head 63 and the end from the threaded side of the sleeve 72 should be greater than or equal to the offset value of the disk knife 62. Lock nuts 74 are unscrewed from the bushings 71 and 72. By moving the bushings 71 and 72 to axis 63 achieve a shift to the left or right of the hub 66 of the disk knife 62. Lock nuts 74 fix the position of the bushings 71 and 72 in the threaded holes 73 (see figure 5). Then screw the threaded portion 75 of the axis 63 into the sleeve 71, providing rigidity to the entire structure.

 When sowing small-seeded crops, such as amaranth, poppy, etc., the axis 63 together with the mechanism 70 is installed in the upper threaded holes 73.

 When sowing medium-seeded crops, both in pure form and in mixtures, reel-pin devices 35 are installed on shaft 34. In the manner described above, the seeder is set to a predetermined sowing rate, stroke depth of disk knives, and seed placement. The difference is the position of the springs 54 on the rods 7 and the compression ratio of the springs 91 of the power regulators 78.

 When sowing large-seeded crops, the coils of paddle sowing apparatuses 35 are installed on the shaft 34. By the methods described above, the stroke depth of the disk knives 62 is set at 8.9 cm, and the seed placement depth at 6.7 cm.

When swinging the circular knife 62, the latter, when meeting with the stalks of corn, with stumps, ears, wedge the latter between the soil and cut them. When cutting the latter and the soil layer, the reaction R ₁ occurs (see Fig. 9), which is directed to the center of the axis 63. The system of the disk knife 62 is in equilibrium if the following condition is satisfied:
R _xi h ₂ + G _n · l ₁ + R _mon · t ₁ ≥ R _z · l ₂ where R _x1 and R _z1 are the reaction components;
G _n the weight force of the circular knife 62 with the bracket 64;
P _Mon the compression force of the turns of the spring 91 of the power regulator;
l ₁ , l ₂ , h ₂ , t _{1 the} shoulders of the application of the mentioned forces relative to the axis 56.

Disc coulter 5 provides seed placement by a predetermined amount, subject to the conditions
G _c · l ₃ + P _ps · t ₂ + R _mon · t ₁ ≥
≥ R _x2 · h ₁ + R _z2 · l ₄ where G _{c is} the weight of the coulter with a leash;
P _ps the compression force of the spring 54 on the rod 7;
R _Mon reaction of the spring 91 of the power regulator 78 of the mechanism 70;
R _x2 and R _{z2 are the} components of the reaction R ₂ at the edge of the convergent edges of the coulter discs 5.

Consider the behavior of the system disk knife 62 opener 5 when faced with difficult to overcome obstacles (solonetzic spot, foreign body, over-compacted area, soil hardness of 50.70 kgf / cm ² ).

In this case, the value of R _z1 on the shoulder l is the moment of forces that turns the two-arm lever 64 on the axis 56. This leads to (see Fig. 7 and 8) that the cracker 88 will move along the cylindrical part of the shaped nut 86. The cracker 88 through the washer will compress the coils of the spring 91, then through the handwheel 92, the cylindrical hinge 81 to the film 83 and the leads 51 or 52 slightly deepening the opener 5. After overcoming the obstacle under the influence of the compressed coils of the spring 91, the system returns to its original position. The described pattern is repeated during the passage of the same section with the disk coulter 5. Three moments from the active forces G _c , R _ps and R _Mon prevent the deepening of the disk coulter 5.

 The described design of the seeder provides the sowing of any crops on a stubble background without preliminary tillage: a thin disk 62 provides cutting of all plant and root residues, as well as preliminary preparation of the seed bed. On the vertical slit after the passage of the disk knife 62, the disk coulter 5 provides only the distribution and seeding of seeds in the soil.

 Thus, the above information indicates the fulfillment of the following set of conditions when using the invention: the product embodying the invention in its implementation is intended for use in agriculture; for the invention in the form described in the independent paragraph of the claims, the possibility of its implementation using the means and methods described in the application prior to the priority date is confirmed; a seeder embodying the invention in its implementation is capable of achieving the achievement of the technical result perceived by the applicant.

 Therefore, the invention meets the requirement of "industrial applicability".

Claims (5)

 1. A seeder containing a frame, support-drive wheels, a guide bar, long and short leads, pivotally mounted on brackets movable along the guide bar, double-disc coulters with rods and springs fixed on a hollow square shaft with a mechanism for changing the coulter stroke depth, seed tubes, a seed box with sowing units installed in its lower part, a drive mechanism for the shaft of sowing units located in the seed box of the tedder and placed in the alignment in front of the double-disc coulters with the possibility in longitudinally vertical planes, circular knives, the axes of which are mounted by means of levers on the hinged brackets of long and short leads, characterized in that on the axes of rotation of the disk knives there is a mechanism for moving the knives along the axes, and the lever is two-armed, freely placed on the hinge of the bracket of short or a long leash and is connected by a second shoulder to each of the leashes with a mechanism for changing the depth of stroke of a disk knife, while the mechanism for changing the depth of stroke of a disk knife is equipped with an individual power p the regulator.  2. The seeder according to claim 1, characterized in that the mechanism for displacing the disk knives along the rotational axes is made in the form of a pair of multidirectional threaded bushings located in the made coaxial threaded holes on the lower arm of the lever and fixed with locknuts, while the bushings are interfaced with the inner rings of the rolling bearings the hub of the circular knife, the axis of rotation being placed inside the bushings and provided with a threaded end screwed into one of the bushings.  3. The seeder according to claim 1, characterized in that the mechanism for changing the stroke depth of the disk knife is made in the form of a threaded rod, one end of which is pivotally connected to the cross bar of the leash of the double-disc coulter, and the other end of the threaded rod is connected to the cracker of the fork of the upper shoulder of the two-shouldered disk lever knife by means of a shaped nut.  4. The seeder according to paragraphs. 1 and 3, characterized in that the power regulator of the mechanism for changing the stroke depth of the disk knife is made in the form of a compression spring located on the threaded rod between the cracker and the handwheel in the lower part of the threaded rod.  5. The seeder according to paragraphs. 1 and 3, characterized in that the lower face of the transverse strip of the leash is provided with a triangular groove in which is placed a cylindrical hinge of the lower part of the threaded rod of the mechanism for changing the stroke depth of the circular knife.

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