SU1014493A1 - Sowing apparatus - Google Patents

Abstract

A PLANTING MACHINE, comprising a housing with internal seeding on horizontal drive shafts tf g -i: a ,,, .. a sowing disk and impeller, the impeller being installed in the cavity between the housing and the sowing disk, characterized in that in order to improve operational reliability The impeller is mounted in the housing rotatably by means of its hub and is made with a ring gear, and its drive shaft is installed in the housing parallel to the shaft of the sowing disc and provided with a scoop interacting with the ring gear m impeller, wherein the impeller rollers and the sowing disc is kinematically coupled together. (L S 4 CO oo

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to precision sowing machines.

Known metering devices, including the housing, the seed disk and the impeller mounted in the housing 1.

The disadvantage of these devices - low operational reliability.

Closest to the proposed technical essence is a sowing apparatus, including a housing with a sowing disk and impeller located inside it on horizontal drive shafts, the impeller being installed in the cavity between the housing and the sowing disk 2.

A disadvantage of the known sowing apparatus is the possibility of damage to the impeller blades and seeds located in the sowing apparatus case in case of a breakdown of the disk drive mechanism. When the disk stops, the impeller rotates and the seeds create a large resistance to the rotation of the blades, which under the action of resistance forces bend, i.e. the impeller goes out of order. Increasing the thickness of the blades increases the metal intensity of the apparatus.

The purpose of the invention is to increase the operational reliability of the metering unit.

The goal is achieved by the fact that in the seeding unit the impeller is mounted in the housing rotatably through its hub and made with a gear ring, and the drive shaft is mounted in the housing parallel to the shaft of the seed disc and provided with gears interacting with the serrated ring of the impeller, the impeller shafts and the seeding disk are kinematically connected.

FIG. 1 shows a sowing unit, side view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. 2; in fig. 4 shows a section B-B in FIG. 3

The metering device includes a housing 1, in which a sowing disk 3 is located on the drive shaft 2, which has through holes (cages) along the rim 4. A seed hopper 5 adjoins the housing 1, and there is a sowing window 6 in the lower part of the housing. the disk 3 and the inner cylindrical cavity 7 of the housing 1 are fitted with an impeller 8 with a hub 9, a toothed rim 10 of the internal engagement and blades 11. The cavity 7 of the housing 1 through the cavity 12 of the impeller communicates with the internal cavity 13 of the sowing disk. The drive shaft 2 is installed in the sleeve 14 of the housing. The sprockets 15 and 16 are attached to it. The asterisk 15 serves to drive the sowing disc, and the asterisk 16 to drive the impeller. The shaft 17 (Fig. 4) is installed in the sleeve 18 of the housing. A sprocket 19 is mounted on the shaft 17, having a drive from the sprocket 16, and a gear wheel 20, which engages with the gear ring of the impeller. Sowing machine operates as follows.

Seeds filled into the bunker 5 under the action of gravity move into the cylindrical cavity 7 of the housing 1, then enter the rotating cylindrical cavity 12 of the impeller 8. Acquire a rotational movement here, the seeds fall on the blades 11 of the impeller 8 and fill the cavity 13 of the sowing disk 3. Rotation The sowing disk 3 and the impeller 8 are made in one direction, but the circumferential speed of the blades 11 of the impeller 8 is less than the peripheral speed of the holes (cells) 4 of the disk 3, due to which the seeds slide along the inner cellular surface NOSTA seed disc 3. In this case, under the influence of centrifugal forces in its seeds sink through holes 4. With the approach of the latter to the window 6 vybrosnyh grain discharged from the openings by centrifugal force and gravity and supplied to the bottom of the furrow.

Implementing the drive of the impeller with an internal gear system significantly increases the operational reliability of the sowing unit, since the possibility of rotating the impeller with the stopped sowing disc and, conversely, the rotation of the disc with the impeller stopped, is practically excluded. . This eliminates damage to the impeller blades and possible damage to the seeds inside the seed disc.

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Claims (1)

SOWING DEVICE, comprising a housing with a metering disk and an impeller located inside it on horizontal drive shafts, the impeller being installed in the cavity between the housing and the metering disk, characterized in that, in order to increase operational reliability, the impeller is rotatably mounted through the hub and is made with a gear ring, and its drive shaft is mounted in the housing parallel to the shaft of the seed disk and is equipped with a gear interacting with the gear ring of the impeller, etc. why the impeller and seed disc shafts are kinematically connected. A