RU2575364C1 - Pneumatic sowing apparatus for sowing small-seed crops - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: sowing apparatus includes a seed hopper 1 with a base 2 which is provided with sowing windows which are linked to a seed tube 4. A seed disc 6 is mounted on a vertical shaft 5 over the base 2, the said disc having, arranged uniformly on concentric circles with a radius R_n, equal to

where n is the number of the circle from the centre of the seed disc and l is the distance between rows of the sowed seeds of small-seed crops in mm, identical cells and a system for compressed air supply 8. The number of cells increases on each next circle in proportion to the length of the radii of the next and previous circles. All the cells are in the form of a funnel, the opening of which is equal to the size of the sowed seeds. The base 2 of the hopper 1 has an identical cylindrical shape and diameter, greater than the diameter of the cell of the seed disc 6, sowing windows arranged on the same number of concentric circles with the same radii. The number of the sowing windows is equal to the number of rows of the sowed seeds. Each circle has the same number of sowing windows which are built into the row on two mutually perpendicular diameters of the base 2, one of which makes an angle of 45° with the axis of symmetry of the base clockwise. Each sowing window is provided with the seed tube 4 situated below the base and made in the form of two interfaced cylinders, the upper one of which is arranged perpendicular to the base 2 and the lower one at an acute angle to the base with a diameter which increases in the direction from the sowing window, while enabling the supply of compressed air into each lower cylinder of the seed tube 4, where the jet of the compressed air is directed along the edge of the lower cylinder. The hopper 1 is in the form of a cylinder which is interfaced with the base of a truncated cone, the edge of which makes an angle of less than 34° with its base.

EFFECT: high operational reliability and high efficiency of the sowing apparatus which provides quality sowing of seeds of small-seed crops.

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Description

The invention relates to agricultural machinery, in particular to seed drills, and can be used for sowing small-seeded crops.

The issues of improving the sowing apparatus of seeders for small-seeded crops as a means capable of sowing at low rates and improve the uniform distribution of seeds and plants in a row and over the field area are relevant. In this regard, studies aimed at improving the process of seed dosing, as well as the uniform distribution of seeds and plants in a row and over the field area with seed drills for sowing small seeded crops, are of great scientific and economic importance.

The development of the dotted method of sowing seeds of agricultural crops served as an incentive for the creation of pneumatic sowing machines.

There are many designs of pneumatic metering devices: pneumatic metering device (A.S. USSR No. 156792, class A01C 7/04, 1961; A.S. USSR No. 161983, class A01C 7/04, 1960; A.S. USSR No. 1671185, class A01C 7/04, 7/16, 1989; Pat. RF No. 2233061, class A01C 7/04, 2002; Pat. RF No. 2228586, class A01C 7/04, 2002); sowing apparatus (Pat. RF No. 21217898, class A01C 7/16, 2001; AS USSR No. 1745150, class A01C 7/04, 7/16, 1989); pneumatic seeder (AS USSR No. 1099869, class A01C 7/04, 1981) and others, devoted to increasing the uniformity of seed distribution in a row and over the field area, as well as improving the process of seed metering.

The use of sowing machines for sowing small-seeded crops is limited by the fact that the smaller the diameter of the holes of the sowing disk, the greater the risk of clogging them with dust, small fragments of seeds or other impurities, which leads to disruption of the sowing process. Known technical solutions for improving the reliability of the process of sowing seeds by cleaning the holes of the sowing disk (Pat. RF No. 2197075, class A01C 7/04, 2001; AS USSR No. 880293, class A01C 7/04, 1979; A. S. USSR No. 442764, class A01C 7/16, 1973).

Known sowing apparatus (A.S. No. 888837, class A01C 7/04, 1976, prototype), comprising a seed hopper with a base having a hole communicating with the vas deferens, a rotating disk with cells around the circle located above the base, a compressed supply system air with a distributor and an outlet located above the opening of the base. In order to increase the reliability of the introduction of seeds into the soil in a predetermined interval, the apparatus is equipped with a control valve located between the outlet of the compressed air supply system and the base hole, while the disk has multi-position cams for concentrating on both sides of the cells for interaction with the valve. In addition, an elastic ring is installed inside the vas deferens in its upper part, the passage section of which narrows to the middle part and has a diameter in this part equal to the smallest diameter of the sown seeds. The vas deferens is equipped with a means to reduce the air velocity at the exit of the vas deferens.

A well-known metering device according to the prince of its action refers to pneumopulse: it disperses the seeds with compressed air to the speed necessary for their introduction and fixation in the furrow formed by the coulter, ensuring accurate distribution of seeds. To ensure reliable fixation of seeds in the soil, a special device is needed that neutralizes the energy of compressed air moving before and after the seed. Otherwise, this air acts on the soil and tears out its particles, often with an already fixed seed.

The fundamental disadvantages of the known pneumatic sowing devices, including the prototype, are complex designs with their simple principle of operation.

The problem solved by the invention is to create a simple and reliable design of the pneumatic sowing apparatus for sowing small seed crops, providing its high productivity and high-quality sowing.

The technical result from the solution of the task is to increase the operational reliability of the sowing apparatus and its productivity, to increase the yield of cultivated crops, as well as to reduce the hectare consumption of sown seeds, which will reduce the cost of cultivated crops.

где n - номер окружности от центра высевающего диска, n=l,2..., а 1 - расстояние между рядками высеваемых семян мелкосеменной культуры, мм; причем количество ячеек увеличивается на каждой последующей окружности пропорционально длинам радиусов последующей и предыдущей окружностей, а ячейки выполнены в форме воронки, проходное отверстие которой равно размеру высеваемых семян, при этом основание бункера выполнено с одинаковыми цилиндрической формы и диаметром, большим размера ячейки высевающего диска, высевными окнами, размещенными на таком же количестве концентрично расположенных окружностей с такими же радиусами, причем количество высевных окон равно количеству высеваемых рядков семян, а на каждой окружности размещено одинаковое количество высевных окон, выстроенных в ряд на двух взаимно перпендикулярных диаметрах основания, один из которых составляет угол 45° с осью симметрии основания, следуя по часовой стрелке от нее. Каждое высевное окно снабжено семяпроводом, установленным под основанием и выполненным в форме двух сопряженных между собой цилиндров, верхний из которых установлен перпендикулярно основанию, а нижний - под острым углом к нему с увеличивающимся в направлении от высевного окна диаметром с возможностью подвода в каждый нижний цилиндр семяпровода сжатого воздуха, струя которого направлена вдоль образующей нижнего цилиндра. Бункер выполнен в форме цилиндра, сопряженного с основанием усеченного конуса, образующая которого составляет с его основанием угол не меньше 34°.The object of the invention is solved in that in a pneumatic sowing apparatus for sowing small-seeded crops, including a seed hopper with a base equipped with sowing windows communicating with the seed tube, a sowing disk mounted on a vertical shaft above the base, with identical cells evenly spaced around the circumference, and a supply system of compressed air, the sowing disk is additionally equipped with cells made on concentrically arranged circles with a radius R _n equal to

where n is the number of the circle from the center of the sowing disk, n = l, 2 ..., and 1 is the distance between the rows of sown seeds of a small-seeded crop, mm; moreover, the number of cells increases on each subsequent circle in proportion to the lengths of the radii of the next and previous circles, and the cells are made in the form of a funnel, the passage opening of which is equal to the size of the seeds sown, while the base of the hopper is made with the same cylindrical shape and diameter larger than the size of the cells of the sowing disk, sowing windows placed on the same number of concentrically arranged circles with the same radii, and the number of sowing windows is equal to the number of sowing Mykh rows of seeds, and on each circle taken by the same amount of seeding windows arranged in series on two mutually perpendicular diameters of the base, one of which makes an angle of 45 ° with the axis of symmetry of the base, following the clockwise therefrom. Each sowing window is equipped with a seed tube installed under the base and made in the form of two mating cylinders, the top of which is installed perpendicular to the base, and the bottom is at an acute angle to it, with a diameter increasing in the direction from the sowing window with the possibility of supplying to each lower cylinder of the seed tube compressed air, the stream of which is directed along the generatrix of the lower cylinder. The hopper is made in the form of a cylinder mated to the base of a truncated cone, the generatrix of which is at least 34 ° with its base.

The design of the pneumatic sowing device is aimed at high-quality sowing of seeds of small seeded crops with the same distance in the row and the same distance between the rows of sowed small seeded crops and is provided by the design of the sowing disk with cells and the design of the base of the hopper with sowing windows. This ensures reliable operation of the metering device and its high productivity.

где n - номер окружности от центра высевающего диска, n=1,2..., а 1 - расстояние между рядками высеваемых семян мелкосеменной культуры, мм, а количество ячеек на каждой последующей окружности увеличивается пропорционально длинам радиусов последующей и предыдущей окружностей. Выполнение ячеек в форме воронки, проходное отверстие которой равно размеру высеваемых семян, позволит пропустить через ячейку только одно семечко высеваемой культуры.The sowing disk is equipped with cells made on concentrically arranged circles. The distance between the cells (along an arc of a circle) is equal to the distance between the seeds in a row. To ensure an equal distance between the seeds to be sown in a row, it is necessary to place the cells evenly around the circle at a distance from each other equal to the distance between the seeds in the row, with the radius of each circle concentrically located from the center of the seed disk

 where n is the number of the circle from the center of the sowing disk, n = 1,2 ..., and 1 is the distance between the rows of sown seeds of a small-seeded crop, mm, and the number of cells on each subsequent circle increases in proportion to the lengths of the radii of the next and previous circles. The implementation of the cells in the form of a funnel, the passage opening of which is equal to the size of the sown seeds, will allow you to pass through the cell only one seed of the sown culture.

The design of the base of the hopper with sowing windows is linked to the design of the sowing disk. The number of sowing windows at the base of the hopper is equal to the number of rows of sown small-seeded crops. The windows are made of the same cylindrical shape and a diameter larger than the cell size of the sowing disk to ensure unhindered entry of the seed into the vas deferens, and a large range of sizes of seeds of small-seeded crops.

The design of the vas deferens will effectively and efficiently carry out the process of "delivery" of the seed to the seed bed. To reduce the air velocity at the exit of the vas deferens, it is made with an increasing diameter in its lower part, which prevents soil particles from being pulled out, often with already fixed seeds.

The implementation of the hopper in the form of a cylinder, coupled with the base of a truncated cone, the generatrix of which forms an angle of not less than 34 ° with the base of the truncated cone, is aimed at improving the process of feeding seeds to the sowing disk. Based on the condition that the angle of repose of seeds of small seeded crops about steel is 32 ° ... 34 °, an angle of at least 34 ° will prevent sticking of seed material on the surface of the walls of the hopper.

The proposed design of a pneumatic sowing device for sowing small-seeded crops is simple and reliable in operation, provides high productivity, due to the simultaneous sowing of seeds in several rows, operational reliability and high-quality sowing, resulting in reduced hectare consumption of sown seeds and increased crop yields, which leads to to reduce the cost of cultivated crops.

The invention is illustrated by drawings.

In FIG. 1 shows a pneumatic sowing apparatus for sowing small-seeded crops, a general view; in FIG. 2 is the same, view along arrow A in FIG. one; in FIG. 3 is the same, view along arrow B in FIG. 1 (vas deferens not shown); in FIG. 4, same view of the extension member B in FIG. 1 (damper in working position).

где n - номер окружности с ячейками 7 от центра высевающего диска 6, n=1,2..., а 1 - расстояние между рядками высеваемых семян мелкосеменной культуры, мм. Расстояние между ячейками 7 (по дуге окружности) на каждой концентрично расположенной окружности высевающего диска 6 одинаково и равно расстоянию между семенами высеваемой культуры (шагу посева), поэтому, чтобы обеспечить равномерное распределение семян в ряду, количество ячеек 7 на высевающем диске 6 увеличивается на каждой последующей окружности от центра высевающего диска 6, причем пропорционально длинам радиусов последующей и предыдущей окружностей. Все ячейки 7 выполнены в форме воронки, проходное отверстие которой равно размеру высеваемых семян. Семена мелкосеменных культур отличаются друг от друга по форме (круглые, продолговатые) и по размеру, поэтому для посева каждой мелкосеменной культуры используют свой высевающий диск. Основание 2 бункера 1 выполнено с одинаковыми цилиндрической формы и диаметром, большим размера ячейки 7 высевающего диска 6, высевными окнами 3, которые размещены на таком же количестве концентрично расположенных окружностей с такими же радиусами, что и ячейки 7 высевающего диска 6. Количество высевных окон 3 равно количеству высеваемых рядков семян. Чтобы обеспечить одинаковое расстояние между рядками семян высеваемой культуры, на каждой концентрично расположенной окружности размещено одинаковое количество высевных окон 3, выстроенных в ряд на двух взаимно перпендикулярных диаметрах основания 2, при этом один из них составляет угол 45° с осью симметрии основания, следуя по часовой стрелке от нее. Благодаря тому, что каждое высевное окно 3 снабжено своим семяпроводом 4, установленным под основанием 2, удается качественно осуществить посев семян в рядки с одинаковым расстоянием между ними. Каждый семяпровод 4 выполнен в форме двух сопряженных между собой цилиндров 9 и 10, верхний 9 из которых установлен перпендикулярно основанию 2, а нижний 10 - под острым углом к нему (основанию 2) с увеличивающимся в направлении от высевного окна 3 диаметром с возможностью подвода в каждый нижний цилиндр 10 семяпровода 4 сжатого воздуха из системы его подвода 8. Струю сжатого воздуха направляют вдоль образующей нижнего цилиндра 10, чтобы направить семена строго в рядок и обеспечить качественный посев семян. Бункер 1 выполнен в форме цилиндра, сопряженного с основанием усеченного конуса, образующая которого составляет с его (усеченного конуса) основанием угол не меньше 34°. Между основанием 2 и высевным диском 6 в бункере 1 установлена заслонка 11, повторяющая форму основания 2 с высевными окнами 3 и закрывающая их (высевные окна 3) в нерабочем состоянии высевающего аппарата.Pneumatic sowing apparatus for sowing small-seeded crops includes a hopper 1 for seeds with a base 2, equipped with the same cylindrical sowing windows 3, each of which communicates with its seed tube 4, mounted above the base 2 on a vertical drive shaft 5 sowing disk 6 with cells 7 and the system compressed air supply 8. The vertical drive shaft 5 is mounted along the axis of the seed disk 6 in bearings, the housing of which is rigidly fixed to the base 2 of the hopper 1 on its lower side, which protects the seed disk 6 from skew with respect to the base 2 of the hopper 1. Cell 7 of the sowing disk 6 is made on concentric circles with a radius R _n equal to

where n is the number of the circle with cells 7 from the center of the sowing disk 6, n = 1,2 ..., and 1 is the distance between the rows of sown seeds of the small-seeded crop, mm. The distance between the cells 7 (along the arc of a circle) on each concentrically located circumference of the sowing disk 6 is the same and equal to the distance between the seeds of the sowing crop (sowing step), therefore, to ensure uniform distribution of seeds in a row, the number of cells 7 on the sowing disk 6 is increased on each the subsequent circumference from the center of the sowing disk 6, and in proportion to the lengths of the radii of the subsequent and previous circles. All cells 7 are made in the form of a funnel, the passage opening of which is equal to the size of the sown seeds. The seeds of small-seeded crops differ from each other in shape (round, oblong) and in size, therefore, for sowing each small-seeded crop, they use their own sowing disk. The base 2 of the hopper 1 is made with the same cylindrical shape and a diameter larger than the size of the cell 7 of the sowing disk 6, sowing windows 3, which are placed on the same number of concentrically arranged circles with the same radii as the cell 7 of the sowing disk 6. Number of sowing windows 3 equal to the number of rows of seeds sown. To ensure the same distance between the rows of seeds of the sowing culture, the same number of sowing windows 3 are placed on each concentrically arranged circle, arranged in a row on two mutually perpendicular diameters of the base 2, one of which makes an angle of 45 ° with the axis of symmetry of the base, following clockwise arrow from her. Due to the fact that each sowing window 3 is equipped with its seed tube 4, installed under the base 2, it is possible to qualitatively sow the seeds in rows with the same distance between them. Each seed tube 4 is made in the form of two mating cylinders 9 and 10, the upper 9 of which are installed perpendicular to the base 2, and the bottom 10 - at an acute angle to it (base 2) with a diameter increasing in the direction from the sowing window 3 with the possibility of feeding into each lower cylinder 10 of the vas deferens 4 of compressed air from the supply system 8. A stream of compressed air is directed along the generatrix of the lower cylinder 10 to direct the seeds strictly in a row and to ensure high-quality sowing of seeds. The hopper 1 is made in the form of a cylinder mated to the base of a truncated cone, the generatrix of which is at least 34 ° from its (truncated cone) base. Between the base 2 and the seed disk 6 in the hopper 1, a shutter 11 is installed, repeating the shape of the base 2 with sowing windows 3 and closing them (sowing windows 3) in the inoperative state of the sowing apparatus.

The claimed pneumatic sowing apparatus for sowing small-seed crops works as follows.

The seed hopper is filled with seeds of a small-seeded crop, for example, clover, according to which the sowing disk 6 is pre-installed in the hopper 1, after which the sowing windows 3 are opened with the shutter 11 at the base 2 of the hopper 1. When the sowing disk 6 is rotated, the seeds are transported to the discharge zone. At the moment of coincidence of the axis of the cell 7 with the axis of the sowing window 3 in the base 2, the seeds move by force of gravity into the seed tube 4, and, having passed the upper cylinder 9, are picked up by a stream of compressed air in the lower cylinder 10 and thrown into the soil in evenly spaced rows with the same distance between seeds in a row. Due to the increasing diameter of the vas deferens 4 in its lower part, the air velocity at the outlet of it decreases, which prevents the soil particles from being torn out, and at the same time, the seeds already fixed in the soil, ensuring high-quality sowing of seeds of small-seeded crops.

The simple design of the pneumatic metering device ensures its high operational reliability. Its high productivity is achieved by simultaneous sowing of seeds in several rows.

The claimed pneumatic sowing apparatus for sowing small-seeded crops is industrially feasible. Its industrial design was made and tested on the experimental field of the Department of Agricultural Machines of the Engineering Department of the Tver State Agricultural Agricultural Academy for narrow-row sowing of seeds of small-seeded crops with a row spacing of 7.5 cm. The distance between the seeds in a row, depending on the seeding rate (80-120 kg / ha), within 1.2 ... 2.2 cm. The pneumatic sowing device is characterized by high operational reliability and productivity. Using this apparatus for sowing seeds of small seeds, such as clover, cabbage, millet, timothy, the productivity of cultivated crops increased on average by 5-7%, the hectare consumption of sown seeds decreased on average by 2.5-3%, the expected decrease the average cost of cultivated crops is 3.5–4.2%.

The claimed pneumatic sowing device can be recommended for sowing seeds of small seeded crops.

Claims (1)

Pneumatic sowing apparatus for sowing small-seeded crops, including a seed hopper with a base equipped with sowing windows communicating with the vas deferens, a sowing disk mounted on the vertical shaft above the base with identical cells evenly spaced around the circumference and a compressed air supply system, characterized in that the sowing disk additionally equipped with cells made on concentric circles with a radius R _n equal to

where n is the number of the circle from the center of the seed disk;
l is the distance between the rows of sown seeds of a small seed culture, mm;
moreover, the number of cells increases on each subsequent circle in proportion to the lengths of the radii of the next and previous circles, and the cells are made in the form of a funnel, the passage opening of which is equal to the size of the seeds sown, while the base of the hopper is made with the same cylindrical shape and diameter larger than the size of the cells of the sowing disk, sowing windows placed on the same number of concentrically arranged circles with the same radii, and the number of sowing windows is equal to the number of sowing rows of seeds, and on each circumference there is the same number of sowing windows arranged in a row on two mutually perpendicular diameters of the base, one of which makes an angle of 45 ° with the axis of symmetry of the base, following clockwise from it, in addition, each sowing window is provided seed tube installed under the base and made in the form of two mating cylinders, the top of which is installed perpendicular to the base, and the bottom at an acute angle to it, increasing in the direction from the seed in diameter, with the lower inlet to each cylinder of the vas deferens compressed air jet which is directed along a generatrix of the lower cylinder and the hopper is formed into a cylindrical shape, coupled with the base of the truncated cone, the generatrix of which it forms with its base an angle of not less than 34 °.

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