SU1510749A1 - Fertilizer apparatus - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to seeding machines. The purpose of the invention is to improve the quality of seeding and simplify the design of the apparatus. The turovibrating apparatus comprises a housing 1, a hopper 2, a lid 3, a bottom 4, supported by a pin 5, a sowing element 6 in the form of a disk with horizontal pins. The sowing disk is fixed on the shaft with a pin and mounted between two rotatably mounted cam-cups, kinematically connected to the lever 11. A visor 12 is installed to prevent tins from erupting. The working surface of the cam-cups is made in a logarithmic spiral. When the sowing element 6 rotates, the pins enter the cavity of the bunker 2 in its lower part through the locking channel, penetrate the seed material, carry it through the narrowing sowing channel through the discharge channel of height C. The seeding rate of the fat can be adjusted by changing the cross-sectional area of the exhaust window, by turning the cam-cups with the help of the lever 11 and by changing the frequency of rotation of the sowing element 6. 3 Cc. f-ly, 4 ill.

Description

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with horizontal pins. The sowing disk is fixed on the shaft with a pin and mounted between two rotatably mounted cam-cups, kinematically connected to the lever 11. A visor 12 is installed to prevent the tusks from erupting. The working surface of the cam-cups is made in a logarithmic spiral. When the sowing element 6 rotates, the pins through the locking channel enter the cavity of the hopper 2 in its lower part, penetrate into the seed material, carry it through the narrowing sowing channel through the ejection channel with a height of C. The seeding rate of tuku can be regulated window, turning the cam-boxes with the help of the lever 11 and changing the frequency of rotation of the sowing element 6. 3 Cp. f-crystals, 4 Il.

FIELD OF THE INVENTION The present invention relates to agricultural design, in particular, to seed trees.

1Ds.: 1b inventions - improving the quality of a high and simplifying the design of the apparatus.

FIG. 1 shows the proposed high-level discharging apparatus, side view; in fig. 2 - IND B in FIG. one; in fig. 3 - section А-А on ({) И | -. (the option of mounting the disc on the shaft for sowing the apparatus and the cups of the disc-lio disc); in fig. 4 shows a section B-B in FIG. 1 (section of the locking channel).

The tukivysevayuschy apparatus includes a housing K fixed on the hopper 2, a lid 3, a closed ayup1 body 1 on the side, a folding bottom 4 of cylindrical shape, installed, with a housing 1 and a roof 3 x 3 and supported in the working position by an I1 TIFT 5, the sowing element 6 , vyno .: 1nnny in the form of a vertical disk, on the side surfaces of which along its periphery there are horizons around the circumference; l and s pins.

The seeding element 6 is fixed on the shaft 7 (Fig. 2) with the help of a pin 8 and is installed between two cam-cups 9 and 1 installed with a silent angle (J so that the horizontal pins of the sowing element 6 seize their outer surfaces D, D and E with The cups 9 and 10, for the purpose of ensuring that the seeding rate is regulated, are made in the form of variable-profile cams and are kinematically connected to the lever 11, while the outer surfaces of the cams entering the apparatus, to prevent tuck from sticking to them, are curved -– an arithmetic spiral, the tops of which are located in the lower part above the cylindrical bottom of the apparatus, the curvilinear surfaces G being designed in such a way that they, together with the cylindrical bottom 4, the housing 1 and the cover 3, form a seed channel of variable cross section, which increases from the value C at the exit of the apparatus up to the size of a sowing window in the bottom 1, e of the bunker, therefore when rotating tea 9 and 10 with the help of the lever P counterclockwise relative to

The axis of the sowing element 6, on the disc hub of which the cups 9 and 10 are pivotally mounted, the size of section C at the exit of the apparatus increases, and the seeding rate of the fat increases accordingly.

Cups 9 II 10, adjacent ends with

0 on one side to the side surfaces of the disc of the sowing element 6, and on the other to the walls of the housing 1 and the lid 3, cover the free space between the housing 1 and the lid 3 in the central part of the machine body and prevent spontaneous precipitations of the tuk from the bunker and sowing apparatus. With the same purpose, prevent the tupas from falling out of the bunker through the slot in the upper part of the apparatus between the cylindrical surface E

The cups 9 and 10 and the edge of the sloping wall of the bunker 2, which serves to enter the pins of the sowing element 6 into the cavity of the bunker, above the sowing element from the outer side of the bunker 2 ycTanoB.iien, the visor 12 (Fig. 1 and 4), forming together with

 cylindrical surface E tea cups 9 and 10, the locking channel, the length of which is larger than the step of arranging the rigging on the disc of the sowing element 6, so that it is constantly blocked by one of the grill of the disc and the seed cannot reach

0 from the hopper out.

To unify the cups 9 and 10, the surface of the cups D formed into the side of the cavity of the hopper 2 is curved along a logarithmic spiral and extends symmetrically with respect to the surface F facing the cylindrical sleeper, therefore the cups 9 and 10 are interchangeable.

To eliminate the disintegration of the granules and the pressing of the tukas onto the cylindrical dock, the outer part of the vertical disc of the sowing element protruding above the horizontal pins is made in the form of a pointed edge.

The tukovysevayuschy apparatus works as follows.

5 When the sowing disk 6 rotates, the pins through the locking channel enter the cavity of the hopper 2 in its lower part, penetrate into the seed material, carry it into

the joint movement and due to the forces of internal friction create a circumferentially moving active layer of tukas, which through the tapering exit from the apparatus due to the curved surface of the cams-boxes 9 and 10, the seeding channel is carried out by pliers outward through the output gap C. Due to the curved surface of the cups, the moving the active layer is pressed from top to bottom, the bursting particles of the tuk in the spaces between the studs prevent sticking of the tuk on the pins, and the side surfaces of the rotating disk are cleaned of sticking tuk The cups of cups 9 and 10.

The seeding rate of the tukas can be adjusted by rotating the bolts 9 and 10 with the help of a lever 11, which serves to fix the position of the cups on the bracket of the housing 1 and change the rotation frequency of the sowing element 6.

When the 9: i 10 cups are rotated using the lever 11, the value of the cross-sectional area at the exit of the apparatus changes. When the lever 1 1 is turned upwards, the size of the gap C between the edge of the cylindrical young girl 4 and the cups 9 and III increases and, as a result, the seeding rate increases, and when the lever is turned in the opposite direction, the size of the gap C decreases, thereby reducing the seeding rate.

The economic effect is obtained from an increase in yield due to a more even distribution of fertilizers and improved plant nutrition with a more complete observance of seeding standards, due to reduced maintenance time of the sowing unit and, as a result, increase in labor productivity, as well as

from ready :: en tukovisevshego

Claims (4)

1.Tukovysevayuschey device containing a hopper, a housing, a sowing element rotating on a horizontal axis, a sowing channel narrowing in the direction of rotation of the sowing element, a discharge window and a mechanism for controlling the area of the bore window of the discharge window with a lever, characterized in that and simplify the design of the apparatus, the sowing element is made in the form of a disk with horizontal teeth fixed to the periphery of its lateral surfaces, and the mechanism for adjusting the flow area Nogo windows - as kinematically associated with a lever mounted on the sides of the disk rotatably and forming the top wall channel seeding curved working surface of the two cams, iri that the maximum radius of the cam arrangement circle radius menn1e least distant from the center of the disk points q Tift. 2. The apparatus according to claim 1, characterized in that the profile of each cam is made in the form of two circumscribed, symmetrically located branches of a logarithmic spiral. 3. The apparatus according to claim 1, is distinguished by the fact that each cam is made in the form of an inverted internal cavity to a 6oKOBoii disk surface 4anjKn. 4. The device according to claim 1. different TCNU that on the disk on both its sides are made with the formation of a sharp edge of the chamfer.  FIG. 2 fig