RU154364U1 - PNEUMATIC SOWING UNIT - Google Patents

Abstract

Pneumatic sowing device, comprising a housing with a seed chamber, a vacuum chamber, a flat ejector of extra seeds and a sowing disk with elongated suction holes, characterized in that a gasket is located between the sowing disk and the vacuum chamber, in which a shaped cutout is made, with the gasket cut edge , closest to the axis of rotation of the seed disk, is concentric to it, and the radius of its location is equal to the distance from the axis of rotation of the seed disk to the inner edges of the suction in the lower part of the zone adjacent to the seed chamber, the radial size of the cut-out of the gasket is maximum, while it is 5-10% smaller than the radial size of the suction holes, then it gradually decreases in the assumed direction of rotation of the seed disk, taking "extra "seed value of 3-5 mm, and in the future remains unchanged up to the zone of discharge of seeds into the opener.

Description

The utility model relates to agricultural machinery, in particular to machines for sowing seeds of agricultural crops.

Known pneumatic sowing apparatus, comprising a housing with a seed chamber, a vacuum chamber, a sowing disk installed between them with round suction holes and a dropper of excess seeds [French Patent No. 1535445, class. A01C 7/04, 1968 - analogue].

The disadvantage of this sowing apparatus is the low quality of seed metering, due to the low efficiency of the capture of seeds from the seed chamber.

Closest to the proposed technical solution is a pneumatic sowing device, comprising a housing with a seed chamber, a vacuum chamber, a sowing disk installed between them with elongated radially located suction holes, and a flat ejector of excess seeds [USSR Author's Certificate No. 1782398, class. A01C 7/04, 1990 - prototype].

The disadvantage of this sowing apparatus is also the low quality of seed metering, due to the high load of the dropper "extra" seeds.

The objective of this utility model is to improve the quality of seed metering with a pneumatic metering device.

The task is achieved due to the fact that in the pneumatic sowing device, comprising a housing with a seed chamber, a vacuum chamber, a flat ejector of extra seeds and a sowing disk with elongated suction holes, a gasket is located between the sowing disk and the vacuum chamber, in which a shaped cutout is made. In this case, the edge of the cutout of the gasket closest to the axis of rotation of the seed disk is concentric to it, and the radius of its location is equal to the distance from the axis of rotation of the seed disk to the inner edges of the suction holes. In the lower part of the zone adjacent to the seed chamber, the radial size of the cut-out of the pad is maximum, while it is 5-10% smaller than the radial size of the suction holes, then it gradually decreases in the expected direction of rotation of the sowing disk, taking the value in the start zone of the ejector of the “extra” seeds 3-5 mm, and in the future remains unchanged up to the zone of discharge of seeds into the opener.

The proposed utility model is illustrated by illustrations.

In FIG. 1 shows a diagram of a pneumatic metering device; in FIG. 2 is a diagram of a seed disc; FIG. 3 is a diagram of a gasket with a curly shape cutout; in FIG. 4 is a diagram of the mutual arrangement of the metering disc and the gasket.

The pneumatic sowing device (Fig. 1) includes a housing 1, a seed 2 and a vacuum 3 chambers, between which a metering disk 5 with elongated suction holes with the maximum possible radial size l within the apparatus design is installed and fixed on the drive shaft 4 (Fig. 2 ) Between the metering disk 5 (Fig. 1) and the vacuum chamber 3, there is a gasket 6 with a shaped cut-out, made in such a way that the edge closest to the axis of rotation of the metering disk is concentric with the axis of rotation of the metering disk 5, and its radius R (Fig. 3 ) is equal to the distance b from the axis of rotation of the seed disk to the inner edges of the suction holes (Fig. 2). In this case, the radial size of the cutout of the gasket 6 in the lower part of the zone adjacent to the seed chamber 2 is maximum, but 5-10% less than the radial size l of the suction holes, then it gradually decreases in the assumed direction of rotation of the sowing disk 5, taking in the zone of the ejector start “Excess” seeds 7 value of 3-5 mm, and in the future remains unchanged up to the zone of discharge of seeds into the opener.

The proposed pneumatic metering device operates as follows.

During rotation of the sowing disk 5 (Fig. 1) together with the drive shaft 4, the seeds, under the action of the vacuum created in the vacuum chamber 3, are captured by the metering elements (Fig. 4), formed by the intersection of elongated suction holes with a cutout in the gasket 6 and removed from the seed chamber 2 (Fig. 1). Moreover, in the lower part of the seed chamber 2, the area of the metering element is maximum, and the radial size ensures a guaranteed hit of at least one seed on the trajectory of its movement, and the fact that the radial size a of the cutout 6 is less than the radial size l of the suction hole ensures that the metering element is closed. With further rotation of the sowing disk 5, when the reaction force from the side of the overlying seed layer decreases, the area of the metering element also decreases, this reduces the likelihood of double feeds and facilitates the working conditions of the “extra” seed dropper 7. Together, the increase in the efficiency of seed capture in the seed chamber 2 and increasing the efficiency of the ejector of “extra” seeds 7 allows to ensure high quality formation of a discrete stream of seeds of row crops. Moreover, it was theoretically and experimentally established that in this zone the high quality of seed metering of most row crops is ensured with a cut-out width of 6 more than three millimeters in the pad (Fig. 3), an increase in this indicator to more than 5 mm will increase the frequency of double feeds and consumption air. Further changes in the radial size of the cutout in the gasket 6 is not required. With the subsequent rotation of the sowing disk 5, the seeds fall into the discharge zone, in the lower part of the housing 1, where the vacuum is cut off and they, under the action of gravity, fall into the furrow prepared by the coulter.

Claims (1)

Pneumatic sowing device, comprising a housing with a seed chamber, a vacuum chamber, a flat ejector of extra seeds and a sowing disk with elongated suction holes, characterized in that a gasket is located between the sowing disk and the vacuum chamber, in which a shaped cutout is made, with the gasket cut edge , closest to the axis of rotation of the seed disk, is concentric to it, and the radius of its location is equal to the distance from the axis of rotation of the seed disk to the inner edges of the suction in the lower part of the zone adjacent to the seed chamber, the radial size of the cut-out of the gasket is maximum, while it is 5-10% smaller than the radial size of the suction holes, then it gradually decreases in the assumed direction of rotation of the seed disk, taking "extra "seed value of 3-5 mm, and in the future remains unchanged up to the zone of discharge of seeds into the opener.

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