RU199176U1 - Combined opener for sowing crops in strips - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, namely to devices for the simultaneous planting of seeds of various crops in the soil at different depths and with a variable row spacing, and can be used when sowing forage crops that differ in morphological and biological characteristics. The technical result is to create a simple by design and reliable operation of the seed drill opener, carrying out simultaneous strip sowing of different levels of depth, taking into account the morphological and biological characteristics of the sown seeds and fulfilling the specified agrotechnical requirements, which is expressed in increasing the yield of forage crops and improving the quality of feed. In addition, the technical result is to reduce the labor intensity of the sowing process by reducing the cost of pre-sowing soil cultivation, which will certainly affect the cost of the resulting crop and agrotechnical terms. parts with a flat-cutting paw 2 and placed on a rack 1 with the ability to move in a vertical plane a freely rotating flat disk 3. The rack 1 is made hollow, in the cavity of which on both sides of its longitudinal-vertical plane symmetrically with the possibility of movement in a vertical plane with their subsequent fixation installed identical plates 8 and 9, each of which is made in the form of a club, the shank 10 and 11 of which is mated with the upper part of the plate at an angle of 90 °, is made with a cutting edge along the movement of the opener with a sharpening angle of 15 ° and is located under the flat-cutting paw 2. Between the plates 8 and 9 and the side walls of the rack 1, there are seed tubes 14 and 15, each of which is a flexible transparent hose, the lower end of which is bent in the direction opposite to the direction of movement of the opener, and is located under the flat-cutting paw 2 behind the shank 10 and 11 plates. The outlet openings of the seed pipes 14 and 15 are located and fixed in a plane parallel to the transverse-vertical plane of the opener with the possibility of adjusting the distance between them. On the lateral faces 23 of the flat-cutting paw 2 along their entire length, symmetrically relative to the longitudinal-vertical plane of the opener, soil guides 24 and 25 are installed, each of which is made in the form of a curved plate, in cross-section representing a curve with a variable angle to the upper plane of the flat-cutting paw 2, and in the point of intersection of the lateral 23 and the rear edges 26 of each wing of the flat-cutting paws 2 are hingedly mounted with the possibility of changing the angle to the direction of movement of the opener, the harvesters in the form of vertical plates 27 and 28. 2 C.p. f-ly, 3 dwg

Description

The utility model relates to the field of agricultural engineering, namely to devices for the simultaneous planting of seeds of various crops into the soil at different depths with a variable row spacing, and can be used for sowing forage crops with different morphological and biological characteristics.

Various types of multicomponent crops allow to reduce the cost of feed and at the same time improve their quality by increasing the content of protein and a complex of microelements. Such mixtures have higher yields than mono crops, lodging of plants decreases, conditions for photosynthesis and nitrogen fixation are improved, solar energy, soil moisture and nutrient reserves are more fully utilized, losses during harvesting are reduced, and the introduction of the legume component solves the problem of nitrogen deficiency in the soil. which is essential to maintain soil fertility. Joint sowing, in which the seeds of the crops are not mixed in advance, but are sown separately in alternating rows, is more effective. It is economically viable to sow the components at the same time in one pass of the sowing unit. At the same time, it is important to maintain the optimal parameters of the seeding depth of each crop and the width of the row spacing between them.

The process of separate simultaneous sowing of various crops is realized by equipping seeders with additional openers (RF patent No. 2052235, class A01C 7/00, 1993). For the simultaneous sowing of perennial legumes and bluegrass crops, a seeder is proposed containing a frame, support-drive wheels, a drive bar, openers, separate seed boxes with seeding devices, a drive from the wheels to the seeding devices and seed pipes connecting the seeding devices with openers. The seed boxes are equipped with additional seeding devices, the number of which and the coulters is a multiple of any number of simultaneously sown crops, while the seeding devices of each seed box of the same name are connected to the openers located next to each other by means of a cruciform arrangement of the seed pipes.

The known seeder sows seeds of fodder crops in parallel alternating rows in a pure form, however, the complex design, large mass of the seeder, difficulties in adjusting the depth of the openers, the impossibility of using them on soils of different quality, in particular on the stubble of cereals, makes this seeder little used.

Known seeder SPCh-6 for sowing mixtures of agricultural crops, in which each opener sows one of the components of the mixture to the required depth with the desired seeding density (USSR AS No. 1604194, CL A01C 7/00, 1988).

The disadvantage of the known seeder is that during sowing, a microrelief is formed in the form of soil ridges, while the sowing itself is wide-row with a distance between rows of 60 ... 70 cm.

Known opener (AS USSR No. 1611246, class A01C 7/20, 1990), which allows you to simultaneously place seeds of different crops in the soil at different depths. The coulter consists of a four-link, in which a spring is installed, pressing the coulter to the field surface. Two cheeks are fixed on the rack, with the main sealant, a runner with a slot, and a rake is installed in front of the runner. A seal is installed in the lower part of the runner, and strips are fixed in the top in the middle. The passage of small-sized seeds is provided through the slot. Seeds that are sown more deeply enter the space between the cheeks. One of the cheeks contains a dozer blade with a passively rotating disc, which in the process of work throws soil into the furrow between the cheeks. Both furrows are simultaneously covered with soil by the harvesters following the coulter. Various seeding depths are provided by raising the skid on the coulter stand and adjusting the overall seeding depth using the harrow.

The disadvantage of the opener is the impossibility of changing the distance between the rows, which makes it difficult to select the sown components, its use does not allow creating optimal conditions for seed germination. The presence of side strips, which prevent the furrow for shallow seeding from falling asleep, increases the resistance to the movement of the opener and impairs the stability of its movement.

Known combined opener for sowing seeds of different crops (RF patent No. 2438286, class A01C 7/20, 2010). The coulter contains a stand and two cheeks with a furrow bottom sealant. There are two vertical slots in the rack. The nose of the coulter rack has a wedge shape in plan. On both sides, the rack has symmetrical sharpened knives. The knives are installed at angles to the horizon in the longitudinal and transverse planes with the ability to move along the slots of the rack. The furrow makers are mounted on the knives with the ability to move along two rows of holes. In the latter, there are vertical vas deferens, passing into the vas deferens of the seals of the bottom of the lateral furrows, which end in the lower part with a horizontal groove. On top of the grooves there are spacer plates with holes. The furrow makers are fixed to the knives by the sealing rods passing through the knives, furrow makers and spacer plates. In the upper part, the rods end with a thread on which the tightening nuts are installed. At the bottom, the seals and furrows are bolted together. The seals are in the shape of a parallelepiped, rounded at the sides.

The known combined opener allows for simultaneous multicomponent sowing of crops in parallel rows at the depth and width of the row spacing determined by the agrotechnical requirements, however, it has a complex design and increased energy consumption.

The closest to the declared design is the opener for embedding seeds and fertilizers into the soil (RF patent No. 2503167, class A01C 7/20, 2012, prototype). The coulter contains a rack with a flat-cutting lancet paw in the lower part. A circular knife is located in the rack. A wedge-shaped replaceable seed furrow former is installed in the lower part of the rack. At the rear wall of the rack, a seed tube is fixed, coupled with the lower edge of the duckfoot paw. Behind the seed tube to the lower part of the wings of the duckfoot paw, wedge-shaped furrow formers are fixed with countersunk head screws - fertilizer harvesters, located at both wings of the paw with the possibility of compressing the walls of the groove for seeds. Behind the furrow formers - harvesters on the rack, a fertilizer line with a divider-socket is fixed. The upper edge of the duckfoot paw is closed with a flap up to the pipeline, behind which soil guides are fixed on the upper part of the wings of the paw.

The known opener is capable of sowing seeds only in a mixture of agricultural crops after their preliminary mixing. However, the components of the mixture often differ significantly in morphological and biological characteristics, and, therefore, require different cultivation technologies: the depth of seeding, fertilizer doses, the degree of soil aeration, etc. This is especially important for annual forage crops. So, the most common in the Central Non-Black Earth Region legume-bluegrass mixtures, represented, for example, by pea-oat crops, are sown simultaneously in one row and at the same depth, which does not allow realizing the genetic potential of crops. In particular, for oats the average seeding depth is 3-4 cm, and for peas 5-6 cm. In addition, the joint placement of plants of different species in one row contributes to the emergence of allelopathic effects, which also reduce the productivity of multi-species sowing.

The task to be solved by this utility model is to create a simple in design and reliable in operation of a seeder opener, carrying out simultaneous strip sowing of different levels of depth, taking into account the morphological and biological characteristics of the sown seeds and fulfilling the specified agronomic requirements.

The technical result from solving the problem is to increase the productivity of agrocenoses by optimizing the distribution of seeds along the soil profile in order to improve the field germination of seeds, the area of plant nutrition and eliminate allelopathic effects, which ultimately translates into an increase in the yield of forage crops and an increase in the quality of feed. In addition, the technical result is to reduce the labor intensity of the sowing process by reducing the cost of pre-sowing soil cultivation, which will certainly affect the cost of the resulting crop and agrotechnical terms.

The problem posed by the utility model is solved by the fact that in a combined opener for strip sowing of agricultural crops, containing a stand with a wedge-shaped chest and a flat-cutting paw fixed in its lower part, placed on a stand with the ability to move in a vertical plane, a freely rotating flat disc, soil guides and harvesters, the rack is made hollow, in the cavity of which on both sides of its longitudinal-vertical plane symmetrically with the ability to move in the vertical plane with their subsequent fixation, identical plates are installed, each of which is made in the form of a club, the lower part of which is a shank, mated with the upper part of the plate at an angle of 90 °, made with a cutting edge in the direction of movement of the opener with a sharpening angle of 15 ° and is located under the flat-cutting paw, and between the plates and the side walls of the rack are installed seed tubes, each of which is a flexible transparent hose, the lower end of which is bent to the side opposite to the direction of movement of the opener, and is located under the flat-cutting paw behind the shank of the plate, while the outlet openings of the seed pipes are located and fixed in a plane parallel to the transverse-vertical plane of the opener with the possibility of adjusting the distance between them, in addition, on the side faces of the wings of the flat-cutting paw along their entire length, symmetrically relative to the longitudinal-vertical plane of the opener, soil guides are installed, each of which is made in the form of a curved plate, in cross-section representing a curve with a variable angle to the upper plane of the flat-cutting paw, and at the point of intersection of the lateral and rear edges of each wing of the flat-cutting paw, pivotally installed with the ability to change the angle to the direction of movement of the opener harvesters in the form of vertical plates.

The design of the claimed combined opener for strip sowing of agricultural crops is simple and, therefore, reliable in operation; the labor intensity of the sowing process is also low, due to the reduction in the cost of pre-sowing soil cultivation. The opener of the claimed design allows the formation of multicomponent forage agrocenoses due to the simultaneous sowing of different agricultural crops in parallel rows at the depth and width of row spacings determined by the agrotechnical requirements, resulting in an increase in the yield of forage crops and an increase in the quality of forage.

The utility model is illustrated with drawings.

FIG. 1 shows a combined opener for strip sowing of agricultural crops, side view; in fig. 2 - the same, section along AA in Fig. 1; in fig. 3 - the same, view along B in Fig. 2.

The combined opener for strip sowing of agricultural crops contains a rack 1 with a wedge-shaped chest and a flat-cutting paw 2 fixed in its lower part with a sharpening angle of 3 ... 5 ° and a crumbling angle α, providing loosening of the soil without mixing. A freely rotating flat disk 3 with a radius of at least 50 mm is installed on the rack 1 with the ability to move in a vertical plane by means of a leash 4 rigidly connected to a clamp 5, which is installed on the rack 1 with a bolt with a wing nut at a certain distance from the soil surface, depending on its physical and mechanical properties. When the flat disc 3 is deepened, all plant residues are cut and the rack 1 is prevented from enveloping the plant residues. The location of the rack 1 with a flat-cutting paw 2 relative to the soil surface depends on the crops sown and is adjusted using the device 6, which is a loop of sheet metal fixed on the leash 7 of the opener, and a bolt, one end fixed on the rack 1, the other end of which is passed through the loop and is fixed on the leash 7 using locknuts (not shown).

Rack 1 is made hollow. In the cavity of the rack 1, on both sides of its longitudinal-vertical plane, symmetrically with the possibility of movement in a vertical plane with their subsequent fixation, identical plates 8 and 9 are installed, each of which is made of sheet steel in the shape of a club, while its lower part is a shank 10 and 11, coupled with the upper one at an angle of 90 °, made with a cutting edge in the direction of movement of the opener with an angle of sharpening of the working edge of 15 ° and released from the rack 1 under the flat-cutting share 2. Based on the condition that the angle of friction of the soil against steel is 14 ° ... 52 ° (Mechanical engineering: Encyclopedia. - M .: Mechanical engineering, 1998. - T. 4-16. - p. 115), the angle of entry into the soil of a steel plate with a sharpening angle of the working edge of 15 ° will provide maximum sliding of soil particles along the working surface of the sealing its part, excluding the possibility of soil adhesion to the working surface of the plate.

In the upper part of each plate 8 and 9, there is a vertical row of holes (not shown) with a uniform pitch corresponding to the step of the marks on the scale 12 applied to the body of the rack 1 in its upper part. Each plate 8 and 9 in the cavity of the rack 1 is installed so that each shank 10 and 11 is buried in the soil to the sowing depth of the seeds of a given crop according to the scale 12, designed to adjust the sowing depth of seeds of different crops, after which the specified position of each plate 8 and 9 are fixed in the rack 1 by installing a rod 13 in its hole and then installing it in the rack 1 by, for example, passing the rod 13 into the holes made on the opposite walls of the hollow rack 1, followed by fixing the rod 13 with pins (not shown). Shanks 10 and 11 of plates 8 and 9, buried in the soil to the depth of sowing seeds, perform the function of furrowers, distributing seeds separately from different bunkers in a strip manner separately from each other and to different depths.

In the hollow strut 1 symmetrically relative to its longitudinal-vertical plane between the plates 8 and 9 and the side walls of the strut 1, there are two seed tubes 14 and 15, which are flexible transparent hoses. A transparent hose allows you to monitor the progress of seeds in it and, if necessary, in the event of, for example, seed blockages in the hose cavity, to correct existing problems. The lower ends of the seed tubes 14 and 15 are bent in the direction opposite to the direction of movement of the opener and are located under the flat-cutting foot 2 behind the shanks 10 and 11 of the plates 8 and 9. Their outlet holes are located and fixed in a plane parallel to the transverse-vertical plane of the opener with the possibility of changing the distance between them. The distance between the centers of the outlet openings in accordance with the row spacing of the sown crops is changed by a device for adjusting the distance between the centers of the outlet openings of the seed pipes, which is two vertical metal plate-spacers 16 and 17 rigidly mounted on the rack 1 in its lower part symmetrically relative to the longitudinal-vertical plane of the rack 1, the plane of which is parallel to each other and the longitudinal-vertical plane of the rack 1, with holes for installing rods 18 and 19 in them, one end rigidly installed in clamps 20 and 21, compressing the outlet openings of the seed pipes 14 and 15 along the perimeter, the other end of each rod 18 and 19, ending in a thread, is fixed in the holes of the spacer plates 16 and 17 by means of a hollow hexagon 22 with a thread, the characteristics of which are determined by the direction of threading on the rods 18 and 19. By rotating the hexagon 22, the distance between the centers of the outlet openings of the seed tubes 14 and 15 is changed in accordance with the specified row spacing of sown crops.

On the lateral faces 23 of the wings of the flat-cutting share 2 along their entire length symmetrically relative to the longitudinal-vertical plane of the opener, soil guides 24 and 25 are installed, each of which is made in the form of a curved plate bent in the longitudinal plane, in cross-section representing a curve with a variable angle to the upper plane flat-cutting paws 2. At the junction of the lateral 23 and rear edges 26 of the wings of the flat-cutting paws 2, they are pivotally mounted with the possibility of changing the angle to the direction of movement of the coulter of the harrow in the form of vertical plates 27 and 28.

Adjustments of soil guides 24 and 25 consist in changing the angle of inclination of their curved surface in cross section to the upper plane of the flat-cutting paw 2, which are carried out by screwing in - unscrewing a countersunk head bolt, the thread for which is cut in the body of the flat-cutting paw 2, and simultaneously moving the bolt head in the transverse a groove 29 made in the body of each soil guide 24, 25.

Adjustments of the harrow 27 and 28 in the form of vertical plates consist in changing the angle between the plane of the vertical plates and the direction of movement of the opener similarly to adjusting the soil guides 24 and 25: by screwing in - unscrewing a countersunk head bolt, the thread for which is cut in the body of the vertical plate 27, 28, and simultaneously by moving the head of the bolt in the longitudinal groove 30, made in the body of the flat-cutting paw 2.

The combined opener works as follows.

When the seeding unit moves, the flat disc 3 cuts the soil layer and plant residues in a vertical plane, thereby reducing the load and soil resistance on the rack 1, which finally cuts the soil, pulling the coulter through it. Plane-cutting paw 2 with a sharpening angle of 3 ... 5 ° and a crumbling angle α, providing loosening of the soil without mixing, trims the soil layer without shifting to the sides and without disturbing its structure. Further, the undercut soil layer is dragged along the surface of the flat-cutting paw 2. At the same time, seed material is fed from different hoppers through the seed pipes 14 and 15 under the formed space between the flat-cutting paw 2 and the bottom of the furrows formed by shanks 10 and 11 of plates 8 and 9. Due to the fact that the lower some of the plates 8 and 9 are mated with the upper one at an angle of 90 °, grooves are formed with the same depth along their entire width. Execution of the lower part of the plate - shank 10 and 11 with a cutting edge in the direction of movement of the opener with a sharpening angle of the working edge of 15 °, which does not exceed the angle of friction of the soil against steel, shank 10 and 11 easily enter the soil, forming grooves for sowing seeds. The seeds are placed on the bottom of the furrows, at the same time, the undisturbed soil layer along the cut surface layer is finally cut by the stalk 1 of the opener and tends to slide from the wings of the flat-cutting paw 2 to the side, which is impeded by the soil guides 24 and 25, due to which the soil comes off the wings of the flat-cutting paw 2 gradually. Vertical plates 27 and 28, pivotally mounted at the junction of the lateral 23 and rear edges 26 of the wings of the flat-cutting paw 2 at a predetermined angle to the direction of movement of the opener, carry out the seeding of the sown crops. Thus, the claimed opener allows for simultaneous strip sowing of different levels in depth of various crops, taking into account the morphological and biological characteristics of the sown seeds and the fulfillment of the specified agrotechnical requirements.

The declared combined opener for strip sowing of agricultural crops is industrially feasible. Its industrial prototype was made and tested on the experimental field of the Department of Technological and Transport Machines and Complexes of the Faculty of Engineering of the Tver State Agricultural Academy for simultaneous multilevel pea oat sowing in depth, taking into account the morphological and biological characteristics of the sown seeds of each crop and the fulfillment of the specified agrotechnical requirements.

The conducted field experimental studies confirmed the rational parameters of the design elements of the claimed opener and proved that the proposed opener design is efficient, and it is characterized by high operational reliability, as well as the efficiency of using a seeder equipped with experimental openers. Significant advantages of the practical use of the developed opener have been revealed, which make it possible to increase the productivity of poly-species crops due to a better spatial distribution of seeds, which is ensured by optimizing the areas of plant nutrition in rows and eliminating allelopathic effects. With the use of the declared opener for pea-oat sowing, the yield of cultivated crops increased by an average of 12-18% in comparison with the control, the expected decrease in the cost of cultivated crops averaged 6-6.5%. In addition, the possibility of effective use of the combined opener on soils of various degrees of preparation, in particular, on stubble of grain crops, has been established, which makes it possible to reduce the economic and labor costs for pre-sowing soil cultivation by 10-12% according to preliminary calculations.

The claimed combined opener can be recommended for sowing forage crops with different morphological and biological characteristics, which makes it possible to reduce the cost of forage and at the same time improve their quality.

Claims (3)

1. Combined opener for strip sowing of agricultural crops, containing a stand with a wedge-shaped chest and a flat-cutting paw fixed in its lower part, placed on a stand with the ability to move in a vertical plane, a freely rotating flat disc, soil guides and harvesters, characterized in that the stand is made hollow , in the cavity of which on both sides of its longitudinal-vertical plane symmetrically with the ability to move in a vertical plane with their subsequent fixation, identical plates are installed, each of which is made in the form of a club, the shank of which is mated with the upper part of the plate at an angle of 90 °, is made with cutting edge in the direction of movement of the opener with a sharpening angle of 15 ° and is located under the flat-cutting paw, and between the plates and the side walls of the rack are installed seed pipes, each of which is a flexible hose, the lower end of which is bent in the direction opposite to the direction of movement of the opener, and is located under the flat-cutting paw behind the shank of the plate, while the outlet openings of the seed tubes are located and fixed in a plane parallel to the transverse-vertical plane of the opener with the possibility of adjusting the distance between them, in addition, on the side faces of the flat-cutting paw along their entire length, symmetrically relative to the longitudinal-vertical plane of the opener, soil guides are installed, each of which is made in the form of a curved plate, in cross-section representing a curve with a variable angle to the upper plane of the flat-cutting paw, and at the point of intersection of the lateral and rear edges of each wing of the flat-cutting paw, they are hingedly installed with the possibility of changing the angle to the direction of movement of the opener; in the form of vertical plates. 2. Combined opener according to claim 1, characterized in that the flexible hose, in the form of which each seed tube is made, is transparent. 3. The combined opener according to claim 1, characterized in that the outlet openings of the seed tubes are compressed around the perimeter with clamps, in each of which a rod is installed at one end, the other end of which is provided with a thread, is installed in the hole of the corresponding vertical plate-spacer, rigidly fixed on the rack in its lower part, parallel to the longitudinal-vertical plane of the rack, symmetrically relative to another similar spacer plate with subsequent fixation in it by means of a hollow hexagon with a thread corresponding to the direction of the thread on each rod.

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