RU20420U1 - PRECISION SEEDING DEVICE - Google Patents

Abstract

1. Precision sowing apparatus, including a frame with racks and a reinforced platform-base with vas deferens, an autonomously spring loaded seed jar with unloading windows, a movable plate sliding between them and the base with calibrated metering holes and a drive providing it with a reciprocating movement, characterized in that the supporting platform-base is spring-loaded at four points with the ability to adjust the height and angle of inclination of its upper plane, and in the lower part A seed shoe is asymmetrically strengthened by a “shoe”, whose toe covers from above the inlet of the corresponding vas deferens, each of which is made in the form of telescopic tubes and is capable of varying its length to the extent necessary, and a leading sprocket with a variable number is used as the drive of the movable plate with calibrated holes protrusions interacting with the lower spring-loaded end of one of two swinging levers fixed on one shaft, the upper ends of which have a longitudinal groove and with the help of The screws passed through it are connected to the corresponding vertical rack of the movable metering plate, the ends of which slide in horizontal guides fixed on the inside of the brackets installed on the upper plane of the vertical racks of the frame. 2. The sowing apparatus according to claim 1, characterized in that the placement of the unloading windows of the seed cans of one block, the holes in the removable metering plates and the inlet openings of the seed tubes in the supporting platform is mutually interfaced and, depending on the sowing scheme or according to

Description

PRECISION FEMALE SOWING UNIT

The proposed model of sowing apparatus refers to the field of agricultural and forestry engineering and is intended for precision seeders. It can be used both in dotted and square-nest seeders, which will ensure the same) feeding area for all plants grown on a plot, and in seeders for sowing seeds in cassettes, including for selection purposes.

Known slide, or lamellar, sowing apparatus, comprising a race, a hopper (seed banks) with unloading windows, a base with longitudinally located openings, seven-ducts, through which the seeds fall directly into the soil. Between the hopper and the base there is a movable plate with calibrated holes, which serve to receive the required dose of seeds from the discharge windows of the seed hopper and dump them into the openings-gray wires. The reciprocating movement of the plate between the bottom of the hopper and the base provides a drive

from the wheels of the sowing unit. (USSR author's certificate I 57897, class A 01 C 7/04, 1940; copyright certificate SU 1 I2I896I A, class A 01 C 7 / 02L984).

Existing slide metering devices have the following disadvantages: the tight fit of the moving plate with the holes to the bottom of the hopper leads to damage to a significant proportion of the seeds, and dropping them through the seed duct through the hole directly into the soil does not provide an exact distance between adjacent plants in one line. This problem is also not addressed by trans-jouters with gutters;., Separated by partitions (USSR author's certificate L 312566, class A 01 C 7/16, 1970). In addition, the complex design makes it difficult to readjust the device when moving from one type of seed to another

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seeds during sowing, which is especially important in breeding work; to achieve maximum accuracy when sowing each portion of seeds into the soil; to create a useful) model of the most universal sowing apparatus, capable of providing high-quality sowing of seeds of a diverse assortment of plants both directly on plots and in the cells of several types of cassettes, having, for example, a different number of cells or differing in height, with a small expenditure of time for changing the apparatus.

The following is a description of the design of the utility model of the sowing unit, the precision sowing unit according to the most suitable option, namely, when used in a seeder for sowing seeds in cassettes. As the basic model, individual seeder units according to our patent were used (RU No. 2144756 CI, class 7 A 01 C 7/00). The application of the proposed model of the sowing apparatus in dotted seeders will differ only in the drive design and a more yni / pure idle mechanism.

Figure 1 shows a General view of the sowing apparatus in front; fng.2 - longitudinal section aa in figL; 1Sh fig.Z - metering plate with a single-row arrangement of calibrated holes, top view; figure 4 is a variant of a two-row arrangement of calibrated holes on the plate; in Fig. 5 - options for the shape of calibrated holes for various types of seeds.

The sowing apparatus consists of a frame I, on which two-step racks 2 and guides 3, s are fixed; cushions for reciprocating movement of box 4 with a seeded cassette. A roller chain 5 is tensioned on one of its side walls on top, interacting with an asterisk 6, mounted on one of your arms 7 about a leading asterisk 8, It drives the sowing unit of the seeder. The shaft 7 rotates in bearings 9 mounted on the mouth of the uprights 2. Between the uprights 2, the onoric Pad-base 10 is strengthened with the vas deferens G made in the form of a foam in the corresponding hole of the supporting pad 10, and the lower one is an elastic tube with a large radius of curvature, which can freely slide so the outer surface of the upper tube up OR down, and also rotate around its axis. The supporting platform 10 is spring loaded at 4 points with the ability to change the height and inclination of its upper plane by means of screws. On top of the racks 2, a block of ceMeHmix cans 12 is installed, each of which is individually spring-loaded and has the possibility of limited up-down movement, but without rotation around its own axis. In the lower part of the seed cans 12 shoes / are reinforced, the asymmetrically located socks of which cover the inlet openings of the corresponding seed tubes II from above. The sole of the shoes 13 and the upper plane of the supporting platform 10 are lined with a layer of fleecy material 14. Unloading windows 15 are provided at the base of the seed cans 12, the diameter of which is approximately two times the length of the largest seed of cultivated plant species. To take the seed from the unloading windows 15 of the seed jars 12 and transport them to the inlet openings of the seed tubes II, a movable metering plate 16 is used, the cond of which slide in the guides 17 horizontally mounted on the inner side of the brackets 18 mounted on the upper plane of the racks 2. B the metering plate 16 has calibrated holes 19, the size of which corresponds to the shape and size of the seeds of a particular species or group of plant species. With good seed germination (80-90 /), 2-3 seeds are required for guaranteed cultivation of one plant in each cell of the cassette. Therefore, each interchangeable metering plate 16 is provided with holes whose dimensions allow 3 grains to be yarned at the same time. The most compact form of the hole 19 was that it allows three seeds lying next to each other in the form of an equilateral triangle of a certain taxon to be placed. The thickness of the plate is approximately equal to the thickness of the lying seed. Thanks to the fleecy 1M (in material 14, with which the support plate 10 is covered and the soles are sown

minimum, and the seeds during sowing are not cut.

The reciprocating movement of the metering plate 16 is provided by means of oscillating swinging arms 20 and 21, which are rigidly fixed near the ends of the shaft 22, rotating in bearings 23 mounted under the brackets 18. The lower ends of the swinging arms 20 and 21 are connected to the springs 24, the tension of which is regulated with the help of screw lanyards 25, passed through holes in the corner 26 connecting the upper part of the two stone-like racks 2, In the upper ends of the swinging levers 20 and 21 there are longitudinal grooves 27 through which the screws 28 are forged, schiesya to the uprights 29, 16. plastinydozatora Svobodshze ends of the screws 28 equipped with rollers 30 which roll on the upper surface of the respective guide 17.

The shnen end of the swing arm 20, being connected with the tensile ПЕЕ ЖИНА 24, during rotation of the drive sprocket 8 slides along its protrusions, making oscillating movements, which are converted into reciprocating movements of the metering plate 16. However, such a mechanism can work with the rotation of the drive sprocket 8 tol166 in one side In a manual seeder designed for sowing seeds in

cassettes, the working process is cyclical, that is, the working stroke of the box 4 under the sowing apparatus, 1 when the seeds are sown in the cells of the cassette, alternates with idle, during which it is set to its original position. To replenish it, an idling mechanism is provided in the design of a utility model of a precision sowing apparatus. It consists of a vertical link 31, swinging on a horizontal axis 32, mounted on the inner side of the step-like rack 2 above the upper face of the second side wall of the box 4. In the upper part of the link 31 there is a horizontal, freely rotating fork 33, which periodically interacts with the end of the lever 20, the outlet from the leading sprocket 8. On the D1 curved side of the link 31 there is a groove 34 for the roller 35 of the spring-loaded dog 36 fixed below the link 31.

To turn on the idle mechanism, a horizontal roller 37 is mounted on the box wall 4, which at the end of the stroke rests against the front edge of the link 31, turning it e on the axis 32 until the roller 35 enters groove 34 and fixes the position of the link 31. At the same time, its horizontal plug 33 presses on the lower end of the lever 20 and moves it away from the drive sprocket 8, the upper ends of the levers 20 and 21, pivotally connected to the vertical posts 29 of the metering plate 16, set it in its extreme rear position. After replacing the seeded cassette with a new box 4 along the guides 3 it moves to its original position until the first row of cassette cells from the operator reaches the vas deferens II. This is idling.

The idle mechanism is switched off using a wedge 38 mounted on the same wall of the box 4 as the roller 37. At the end of the idle, the wedge 38 goes under the shank of the dog 36 and lifts it, as a result of which the roller 35 comes out of the groove 34, freeing the wings 31 with a fork 33. A spring 24 pulls the widest end of the lever 20 sharply towards the next protrusion of the drive sprocket 8, while the upper ends of the levers 20 and 21 throw the dispenser plate 16 forward. Seeds captured by its calibrated holes 19 during their passage under the discharge windows 15 of the seed cans 12 are discharged into the seed tubes II.

The sowing apparatus of the exact Vmsev operates as follows. Before you start sowing seeds in cassettes, you must configure the device. When preparing it for work, it is necessary to equip the apparatus with such a block of seed jars 12 and a platform-base 10, which exactly correspond to the type / type of cassettes that are prepared for sowing. In modern practice, for example, in Finland, cassettes with waffle and cellular arrangement of cells are used. The first option is simpler, since the placement of seed jars in the block, the calibrated holes in the metering plate and the input holes of the seed tubes in the base support base is single-row. In the second option, the placement of all the previously listed elements in the nodes of the sowing apparatus is two-row, but located M //.

they are given in a checkerboard pattern. IF it is planned to use cartridges with different sizes of the recesses, with a greater or lesser distance between the centers of the cells, then an asterisk 8 is replaced, and an asterisk with a different number of protrusions is put in its place.

All manipulations on setting the metering unit are carried out on an empty cassette. The fitting of the vas deferens II is performed according to their length and the position of the outlet. To do this, their lower tube carefully moves down or up and at the same time rotates around the axis until its outlet is exactly in the center of the cells of the corresponding row and a gap of no more than 3-5 mm remains to the upper edge of the cassette. Since the metering plate 16, depending on the type of seeds, has a different thickness, when it is installed in the guides 17, using the 4 screws, the position of the base pad 10 is adjusted until the gap between it and the shoes 13 of the seed jars 12 interfere with the freedom of movement of the metering plate 16. At the same time, any uncontrolled ejection of seeds must be excluded, bypassing the vas deferens II. In this case, the tension of the spring 24 is adjusted using a screw turnbuckle 25.

Refueling seeds in seed banks 12 is carried out using a funnel. In order to exclude accidental mixing of seeds of different varieties in one seed jar 12 or in one row of cassette cells, when conducting selection crops according to the scheme: one variety - one row of cassette cells, refueling must be done / in compliance with all safety precautions. For this, each next bank 12 is refilled only when all the other banks are closed with plugs, and accidentally fallen seeds are removed immediately before the next bank starts refueling.

The cartridge is installed in drawer 4 when it is directly in front of the operator. of this, she advances along two drawers 4 all the way into its rear wall. In this zero; |; tion, the outlet holes of the vas deferens II should be located above the centers of the cells of the cassette. Since the filling of the calibrated holes 19 of the dispenser drawer 16 with seeds occurs ZCff // {/: 9

WALKS during their passage through the unloading windows 15 seed cans 12, in the direction from the inlet openings of the seed tubes II to the foot of the shoes 13, filling the seed cans 12 should be done even before the start of the idle run.

When sowing, the sowing device is driven by the drive sprocket 8. The drive sprocket 8 is rotated by a chain transmission either directly from the support drive wheel of the seeder, or, as in this case, from the roller chain 5 stretched on the side wall of the box 4, with which the sprocket 6 interacts, mounted on the same shaft 7 with the drive sprocket 8, the Wheel seeder can be mounted on a self-propelled chassis using a hydraulic linkage and simply rise above the ground at the end of the working drive. With this option, the use of the sowing apparatus idle as such is absent. Therefore, it is advisable to consider its work in the mode of sowing seeds (working stroke).

During the working stroke, the operator moves the box 4 along the guides 3 towards itself, and the drive sprocket 8 rotates counterclockwise. Each protrusion of the drive sprocket 8, meeting on its way the lower end of the lever 20, takes it forward, while stretching the spring 24. The upper ends of the swinging levers 20 and 21, the hinge connected to the vertical posts 29 of the metering plate 16, retract, entraining plate 16. The speed of its movement in the direction of the seed jars, 12 depends on the speed of movement of the box 4 and is set by the operator: for one, a number of cells takes about I second. At this speed, the calibrated holes 19 during passage under the discharge windows 12 of the seed cans 12 have time to accept from one to three seeds.

Having passed the upper point of the protrusion of the drive sprocket 8, the lower end of the lever 20 under the action of the spring 24, sharply slides from it and hits the next protrusion. Therefore, the return stroke of the metering plate 16 associated with the upper ends of the levers 20 and 21 takes place in the form

2 ///// 4 /. 7 holes 19 in the corresponding vas deferens IIh) at the same time.

ejection of seeds through the top prevents socks of shoes 13 seed cans 12, covering the inlet openings of the vas deferens II,

The base site 10, on which the metering plate 16 slides, is covered with a layer of fleecy material 14 and above. he is faced with 13 seed cans 12, the friction forces are insignificant when moving it, the main advantage of the fleecy material is that it keeps the seeds trapped in the calibrated holes 19 of the metering plate 16 as if suspended, which prevents their mechanical damage during the collection of seeds from the discharge windows 15, transportation and j discharge into the vas deferens II.

After the end of the working stroke, when all rows of cassette cells are seeded, or the entire bed is passed, if the sowing device is used in a wheel seeder, it is necessary to turn off the metering plate 16. The idling mechanism performs this function. In a seeder for sowing seeds at the cassiechm, the sowing device is turned off at the very end of the working stroke. The roller 37, which closes on the upper edge of the side wall of the drawer 4, abuts against the front edge of the drawer 31 and, with the further movement of the drawer 4, rotates it on the axis 32 until the roll 35 of the spring-loaded dog 36 enters the groove 34 of the drawer 31 and fixes its position . At the same time, the fork 33, overcoming the resistance of the spring 24, presses on the lower end of the lever 20 and moves it away from the protrusions of the rotating drive sprocket 8, and the metering plate 16 connected to the upper ends of the levers 20 and 21 is moved back and occupies such a position, in in which its calibrated openings 19 turn out to be behind the shoes 13 of the seed cans 12. In this position, you can visually control the degree of filling with seeds.

Is being performed

mash 16 remains stationary

At the end of idling, the wedge 38, rounded on the same wall of the box 4, the atom and the roller 37, enters under the shank of the dog 36 and, lifting it, leads the roller 35 out of the groove 34 31. At the same time, the spring 24

pulls the lower end of the lever 20, while the upper konrychag 20 and 21

W pivotally connected to the metering plate 16, sharply push the metering plate 16 forward, as a result of which the seeds are discharged from its calibrated holes 19 into the corresponding seed tubes II. According to them, sevien enter the cells of the first row. From that moment the next working move begins. The cycle repeats.

If the sowing annarat is used on a south wheel seeder, the role of the idling mechanism i remains unchanged - to turn off the metering plate 16 in time, which can be done using a similar swing arm 31 with a fork 33 connected via a rod with a spring-loaded lever fixed to the seeder control handle. At the end of the rut, the operator will be able to temporarily, for example turn, turn off the sowing unit by simply pressing the lever and, releasing the lever, again turn on the metering plate 16 in the work.

All these design features of the proposed model of the sowing apparatus provide accurate and synchronized sowing of seeds without causing any damage to them, and the arrangement of the seed tubes and the ability to quickly replace the metering plate and individual catches make it a universal tool that can sow crops of many types of agricultural plants and woody plants. only in zero conditions and nurseries, but also in several types of cassettes of domestic and foreign production, used for growing seedlings and seedlings in closed the ground.

In the summer of 2000, a prototype of a utility model of a precision seedbed cultivating apparatus was manufactured, which is mounted on a manual seeder for seeding small coniferous seeds in cassettes with cells 41x41 mm (Ж-77, Finland), 42x42 (, Sweden), and a diameter of 40 mm (С- 40, Saransk, Russia),

Claims (5)

1. Precision sowing apparatus, including a frame with racks and a reinforced platform-base with vas deferens, an autonomously spring loaded seed jar with unloading windows, a movable plate sliding between them and the base with calibrated metering holes and a drive providing it with a reciprocating movement, characterized in that the supporting platform-base is spring-loaded at four points with the ability to adjust the height and angle of inclination of its upper plane, and in the lower part A seed shoe is asymmetrically strengthened by a “shoe”, whose toe covers from above the inlet of the corresponding vas deferens, each of which is made in the form of telescopic tubes and is capable of varying its length to the extent necessary, and a leading sprocket with a variable number is used as the drive of the movable plate with calibrated holes protrusions interacting with the lower spring-loaded end of one of two swinging levers fixed on one shaft, the upper ends of which have a longitudinal groove and with the help of The screws passed through it are connected to the corresponding vertical rack of the movable metering plate, the ends of which slide in horizontal guides mounted on the inside of the brackets mounted on the upper plane of the vertical frame racks.  2. The sowing apparatus according to claim 1, characterized in that the placement of the unloading windows of the seed cans of one block, holes in removable metering plates and input holes of the vas deferens in the base support platform is mutually interfaced and, depending on the sowing pattern or the arrangement of the cassette cells , i.e. it is wafer or honeycomb, it can be single-row or double-row, and the ratio of the diameters of these holes is 2: 1, 2: 2, and the shape of each metering hole in the movable plate corresponds to the shape of three lying side by side in the form p an unilateral triangle of the largest seeds of a particular species or group of plant species, while the plate thickness is approximately equal to the thickness of the seed of a given taxon lying on its side.  3. The sowing apparatus according to claim 1, characterized in that the upper plane of the base support platform and the lower plane of the "shoes" of the seed cans are lined with a layer of fleecy material.  4. The sowing apparatus according to claim 1, characterized in that the lower part of each seed tube is made in the form of an elastic tube with a large radius of curvature that can move up and down along the outer perimeter of the upper tube and rotate around its axis. 5. The sowing apparatus according to claim 1, characterized in that the swing arm mounted on the inside of one of the pillars of the frame is used as the idle drive mechanism of the movable metering plate, the horizontal fork of which periodically interacts with the lower spring end of the swing arm, moving it away from rotating drive sprocket and interrupting for a while the movement of the metering plate in the extremely rear position.