RU2485749C1 - Sealing gasket for pneumatic seeding device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: sealing gasket is designed for pneumatic seeding device comprising a hopper in which the seeds are located which enter the seed chamber, and also a vacuum chamber and a seeding plate mounted between two chambers on a horizontal shaft. The seeding plate consists of a base with suction holes and a cover plate with through cutouts between which the gasket with the ledge in the zone of return of extra seeds is located. In the gasket ledge a wedge-shaped through cutout is made. The lower edge of the cutout is formed by a circular arc with the center on the axis of rotation of the seeding plate, the upper segment is in the form of a spiral which starting end coincides with the center of this circle, and the jumpers which height from the side of the cutout is in the range of 0.11 diameter of the suction hole. In the zone of contacting of the seeding plate cover plate with the gasket on the gasket convex sections the elongated grooves are made uniformly located circumferentially in which the working apertures are made. The diameter of the apertures is given by the width of the grooves. The working apertures are located on the inner and outer circles through 5-30° and filled with anti-friction material.

EFFECT: invention has a low coefficient of friction, low capacity for adhesion, good running-in ability, thermal conductivity and stability of properties.

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Description

The invention relates to agricultural machinery, in particular to a gasket for a pneumatic sowing device, and can be used in sowing devices for precision seeders of row crops.

State of the art

Known pneumatic sowing apparatus containing a divided hopper of seeds, a housing, a seed chamber with two compartments for seeds of two crops, a vacuum chamber mounted on a horizontal shaft sowing disk, consisting of a base, pads and gaskets, a vacuum cutter, while on the pad cells are located relatively a beam passing through the suction hole towards rotation at an angle of 0 ... 0.5 of the angle between adjacent suction holes, and between the mesh and the next suction hole is made rorez width of 0.5 ... 0.8 mm in depth from the outer radius to the outer radius of the lining pads (see. Russian patent №2233061, IPC A01C 7/04, publ. 27.07.2004).

The disadvantage of this apparatus is that it cannot simultaneously sow the seeds of two different crops.

Known pneumatic sowing apparatus containing a hopper and a seed chamber with two compartments for seeds of two crops, a housing and a vacuum chamber, a metering disk installed between them, including a base with suction holes and a gasket, while the metering disk has three pads, the first of which has a suction holes made coaxially with the suction holes of the base, the second has a diameter greater than the diameter of the first lining by 2-5 mm, and is made with a bend inward along the perimeter to the width of the first lining with elongated circumferential holes located on the radius of the suction holes of the first plate, the width of which is greater than the diameter of the suction holes by 3-5 mm, and the length is 1 / 2-2 / 3 of the distance between the suction holes of the first plate, while around the perimeter of the second plate, on the radius of the first lining, opposite the gap between the oblong holes, there are through cuts with a length of 1/2 to 2/3 of the distance between the suction holes of the base and the bends - perpendicular to the lining to create the first wall mesh, the bottom of which is the outer surface of the first lining, in addition, the third lining is made in the form of a disk with an inner diameter larger than the diameter of the outer side of the oblong holes, and an outer surface having a bend perpendicular to the disk, covering the first and second lining together, and has it perimeter cutouts with a length of 1 / 2-2 / 3 of the distance between the suction holes of the base and the bends for the formation of the second wall of the mesh, with round holes made in the first overlay, round holes with thread in the base Second, while the second and third cover plates are made elongate holes, with their tie screws (see. RF patent No. 2315462, IPC АСС 7/04, publ. 01/27/2008).

The disadvantage of this apparatus is the presence of the mechanism of rotation of the gasket, complicating its design, and the possibility of formation of passes and two-grain feeds, which affects the quality of sowing.

The closest in technical essence and the achieved positive effect to the proposed invention and adopted by the authors for the prototype is a pneumatic metering device containing a hopper, housing, seed and vacuum chambers, a metering disk mounted between them on a horizontal shaft, consisting of a base with suction holes and plates with through cutouts, between which there is a gasket with a protrusion in the reflection zone of excess seeds, and a wedge-shaped through cut is made in the strip protrusion, neither the bottom edge of which is formed by an arc of a circle centered on the axis of rotation of the seed disk, the upper segment, for example, of a spiral whose beginning coincides with the center of this circle, and jumpers, the height of which on the side of the cut is within 0.11 of the diameter of the suction hole (see patent RF No. 2048048, IPC A01C 7/04, publ. 20.11.1995).

This sowing device has several disadvantages.

For sowing seeds of various crops, the seeder is equipped with a set of sowing discs with different diameters of suction holes, which complicates the operation of the seeder.

The area of the suction openings does not always correlate with the necessary suction force for the seeds, so there are both gaps and sowing two to three seeds instead of one.

The gasket is made of polymer, leading to abrasion of the working surfaces of the gasket and the disk, resulting in a reduced vacuum suction force.

Disclosure of invention

The objective of the invention is to develop a sealing gasket for a pneumatic metering device with a low coefficient of friction, characterized by low ability to adhesion, good break-in, thermal conductivity and stability of properties.

The technical result, which can be obtained using the present invention, is to increase the life of the gaskets due to the use of antifriction material in the conditions of dry friction, since the antifriction material has a low coefficient of friction, has a low ability to adhesion, good run-in, thermal conductivity and stability of properties .

The technical result is achieved by using a gasket for a pneumatic sowing device containing a hopper in which the seeds are located, coming to the body, seed and vacuum chambers, a metering disk mounted between them on a horizontal shaft, consisting of a base with suction holes and lining with through cutouts, between which there is a gasket with a protrusion in the reflection zone of excess seeds, and in the protrusion of the gasket a wedge-shaped through cut is made, the lower edge of which is an arc of a circle centered on the axis of rotation of the sowing disk, the upper segment, for example, of a spiral whose beginning coincides with the center of this circle, and jumpers, the height of which on the side of the cut is within 0.11 of the diameter of the suction hole, while it is additionally equipped, at least two technological holes that are made in the convex sections of the gasket, while the diameter of the technological holes is set by the width of the grooves, and on the outer and inner diameters of the technological holes s through 5-30 ° and filled with anti-friction material.

Thus, the technical result is achieved due to the fact that the presence of components in the material, for example, transition metal dichalcogenides of group IV-VI groups, polytetrafluoroethylene (fluoroplast-4), fluorinated graphite, high molecular weight polyethylene, hexagonal BN, which have low friction, which lubricating action, capable of "absorbing" solid abrasive particles that have fallen on the friction surface, thereby protecting the mating part from wear, which allows to extend the service life and cultivate and increase seeding. The use of anti-friction material in dry friction conditions leads to inability or low ability to “set” (adhesion) with the material of the working surfaces of the mating parts while maintaining the necessary elasticity, which allows to increase the service life of products, reduce the loss of working time due to malfunction of the seeder and increase productivity .

Brief Description of the Drawings

Figure 1 is given a gasket for a pneumatic metering device, a pneumatic metering device, a General view. Figure 2 is the same, pneumatic sowing apparatus, section aa. Figure 3 is the same, the gasket, General view. Figure 4 is the same, the gasket, section aa.

The implementation of the invention

A sealing gasket for a pneumatic metering device, which contains a hopper 1, in which seeds 2 are placed, which enter the seed chamber 3 and vacuum chamber 4, between which on the horizontal shaft 5 there is a metering disk 6 containing the base 7 and the pad 8, separated by a gasket 9 for the formation of a suction gap 10 with a protrusion 11 having a cutout 12 with jumpers 13, and a tedder 14, while the base 7 adjacent to the vacuum chamber 4 has suction holes evenly distributed around the circumference 15 To transfer the vacuum to the suction slot 10, the pad 8 adjacent to the seed chamber 3 has through cuts evenly distributed around the circumference 16 located against the suction holes 15 with the intersection of their contours, the cutouts 16 together with the suction holes 15 form cells (not shown in the figure ), and the gasket 9 is rigidly connected to the housing 17.

A design feature of the gasket 9 is that in the contact zone with the disk 6, oblong grooves 18, 19 are located uniformly in circumference, in which at least two technological holes 20 and 21 are made, made in the form of a narrow circle every 5-30 ° filled with antifriction material acting as a lubricant, the diameter of which is given by the width of the grooves, which is different on the inner and outer diameter, as well as the width of the grooves of the gasket 9 (see Figure 3, Figure 4).

Pneumatic metering device operates as follows.

Seeds 2 enter the hopper 1 into the seed chamber 3, where the agitator 14 drives them; when the metering disk 6 rotates, the cut-outs 16 in the cell filling zone capture the seeds 2, which are fixed in them by means of a vacuum transmitted from the vacuum chamber 4 through the suction holes 15 into the suction gap 10, while due to the fact that several seeds 2 get into the vacuum field of the cells of the suction gap 10, then not only the main, but also the extra seeds 2 are sucked in, the main seeds 2 are located in the cells, and the extra ones are sucked from side and top, then they are transported by the disk 6 to the protrusion 11 of the strip 9, while the protrusion 11 with its top shields the part of the vacuum field that holds the extra seeds 2 sucked from above, and as the cell moves in the zone of the protrusion of the strip 9, the screening effect increases account of the wedge-shaped shape of the cutout 16. They detach from the suction slot 10 and fall into the seed chamber 3 while the main seeds 2 are held by the vacuum transferred to the cell through the through cutout 12 of the protrusion 11, the remaining seeds 2 are trans tiruyutsya in the lower part of the device in the termination of the vacuum zone, which are separated from the disk 6, fall into the furrow and buried in the soil (in the figure not shown).

When the metering disk 6 is rotated about the gasket 9, a force is created which leads to abrasion of the gasket 9 and disk 6, as a result of which the vacuum suction force is reduced.

In order to extend the life of the disk 6 and gasket 9, elongated grooves 18, 19 are located in the contact zone with the disk 6, in which technological holes 20 and 21 are cut, made in the form of a narrow circle every 15 °, filled with antifriction material performing the role of a lubricant, the diameter of which is specified by the width of the grooves, while on the inner and outer diameter it is different, as is the width of the grooves of the gasket.

The increase in wear resistance is affected by the presence in the material of components, for example, transition metal dichalcogenides of groups IV-VI, polytetrafluoroethylene (fluoroplast-4), fluorinated graphite, high molecular weight polyethylene, hexagonal BN, which provide low friction, have a lubricating effect, are able to "absorb" solid abrasive particles, trapped on the friction surface, thereby protecting the mating part from wear, which allows to extend the service life of the product and increase the sowing of seeds 2, the use of antifriction material ala under dry friction leads to an inability or small ability to "settable" (adhesion) with the material working surfaces of the mating parts, while maintaining the required elasticity, thus increasing the product life, to reduce the loss of working time because of a fault sowing and increase productivity.

The invention in comparison with the prototype and other known technical solutions has the following advantages:

- increase the service life of products,

- increase the performance of the seeder,

- improving the accuracy of sowing seeds,

- reduction of loss of working time due to malfunction of the seeder.

Claims (1)

A sealing gasket for a pneumatic sowing device containing a hopper in which seeds are delivered to the seed chamber, as well as a vacuum chamber, and a metering disk mounted between the chambers on a horizontal shaft, consisting of a base with suction holes and pads with through cutouts between which is located laying with a protrusion in the reflection zone of excess seeds, and in the protrusion of the strip a wedge-shaped through cut is made, the lower edge of which is formed by an arc of a circle centered on and rotation of the sowing disk, the upper segment in the form of a spiral, the beginning of which coincides with the center of this circle, and jumpers, the height of which on the side of the cut is within 0.11 of the diameter of the suction hole, characterized in that in the contact zone of the lining of the sowing disk with the gasket, on convex sections of the gasket, oblong grooves are made uniformly spaced around the circumferences, in which technological holes are cut, the diameter of which is given by the width of the grooves located on the inner and outer circles of of 5-30 ° and filled with an antifriction material.

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