RU2075275C1 - Pneumatic seeding unit - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: seeding unit has casing, spindle fixed within casing, seeding disk with suction openings and auxiliary casing with vacuum space and atmospheric pressure chamber. Auxiliary casing is disposed between main casing and seeding disk. Seeding disk drive mechanism with drive gear is removably connected to seeding disk. Closure mounted on spindle has seed chamber with inclined bottom, channel-shaped seed attachment communicated with seed hopper and seed chamber, and excessive seed thrower formed as corrugated plate, agitator and seed discharge gate positioned between seed chamber bottom and seed attachment. Closure has member for separating seed sucked into seeding disk opening. Seed separating member has slot for receiving seeding disk projections. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 6 cl, 2 dwg

Description

 The invention relates to agricultural machinery, in particular to sowing devices for precise sowing of seeds.

 Known pneumatic sowing devices containing a seed hopper, a housing with a seed chamber, an axis located in the housing, a cover with a vacuum chamber (or a rarefaction chamber) and an atmospheric pressure chamber, a vertical sowing disk with suction holes, a sealing gasket between the sowing disk and the cover, a ejector excess seeds and a tedder. Such devices, for example, include a pneumatic sowing device according to as N 1395173, CL A 01 C 7/04; pneumatic metering device according to a. from. N 1604195, CL A 01 C 7/04; pneumatic sowing device of universal pneumatic mounted seeders of the type SUPN-6, SUPN-8 (technical description and operating instructions, Kirovograd, regional polygraphy publishing house, 1986).

 The disadvantages of the aforementioned devices include the narrowed scope of their application, explained by the inability to use the devices on seeders with mechanical vertical-disk devices (for example, on beet mounted seeders of the type SST-12B and SST-8A. Technical description and operating manual, Kirovograd , regional polygraphy publishing house, 1988), and the difficult cleaning of the sowing apparatus from seed residues in the seed chamber of the casing. For seed drills with mechanical vertical-disk sowing machines, the seed chamber is located in the upper part of the machine body, where the seeds of the sowing disk cells are filled with seeds located on its outer surface (external filling). For seed drills with pneumatic seed drills, the seed chamber is located in the central and lower parts of the housing. In this case, the seeds are attached to the holes of the sowing disk located on its lateral surface (lateral filling). For this reason, it is impossible to place a pneumatic sowing device on the opener body of the sowing section of the seeder with a mechanical vertical-disk device. To clean the pneumatic sowing devices from seed residues, it is necessary to remove the cover of the sowing device with rarefaction and atmospheric pressure chambers, remove the gasket, and then the sowing disk itself with the agitator. All this leads to unproductive expenditures of time during technical and technological maintenance of the apparatus.

 Also known is a pneumatic sowing device according to as N 1450772, CL A 01 C 7/04, adopted as a prototype and containing a seed hopper, a housing, a seed chamber, an axis located in the housing, a seed disk with suction holes, a drive mechanism for the seed disk, a vacuum chamber and atmospheric pressure mounted between the vacuum chamber and the seed disk a sealing gasket, a tedder, a lid, an ejector of excess seeds and an element installed in the lower part of the lid designed to release the suction hole from the unseparated seed.

 The disadvantages inherent in analogues are fully inherent in the prototype. The seed chamber of the device is located in the central and lower part of the body. Seeds are attached to holes located on the lateral surface of the seed disc (lateral filling). In view of it, it is impossible to place the device on seeders with mechanical vertical-disk devices, in which the seeds fall into the cells located on the outer surface of the disk (external filling). This greatly reduces the scope of use of the device. The seed chamber of the sowing apparatus is cleaned of seeds remaining in it after unloading the bulk of the seeds from the apparatus in the following sequence: the lid, the sealing pad, the sowing disc and the agitator are removed, then the seeds are removed. The assembly of the apparatus is carried out in the reverse order. The cost of labor and time for technical and technological maintenance of the apparatus is very significant.

 The objective of the present invention is the development of a universal apparatus designed for the precise sowing of seeds of agricultural crops and is suitable for use on various seeders, mainly on seeders with mechanical vertical-disk devices.

 The purpose of the invention is to expand the scope of use of a pneumatic sowing device and simplify its technical and technological maintenance, as well as to simplify its design, increase compactness and ensure the accuracy of sowing seeds.

 This goal is achieved by the fact that in a pneumatic metering device containing a housing, a seed chamber, an axis located in the housing, a metering disk with suction holes, a drive mechanism for the metering disk, a vacuum chamber and atmospheric pressure, a gasket installed between the vacuum chamber and the metering disk, a tedder , a lid, an ejector of excess seeds and an element installed in the lower part of the lid for releasing the suction port from unseparated seed, agree invention, seed disc axle mounted fixedly in the housing, the vacuum chamber and the atmospheric pressure are made in the additional housing, defined between the housing and the seed sowing apparatus disc. The cover of the sowing apparatus is mounted on the axis of the sowing disk and includes a seed chamber with an inclined bottom, a seed attachment in the form of a channel, the input window of which communicates with the output window of the seed hopper, and the output window with the seed chamber, and a flap for unloading seeds located between the bottom of the seed chamber and a seed attachment, with the ejector of excess seeds mounted on the lid. The drive mechanism of the sowing disk is made in the form of a gear transmission, the drive gear of which is mounted on the axis and detachably connected to the sowing disk mounted on the hub of the drive gear (for example, by means of fingers on the drive gear and holes on the sowing disk). The agitator is made in the form of protrusions uniformly located on the side surface of the seed disc around a circle with a radius smaller than the radius of the circumference of the location of the suction holes. The angle of inclination of the bottom of the seed chamber exceeds the angle of friction of the seeds on its surface. The excess seed ejector is made in the form of a plate with reefs in its longitudinal plane, gradually and gradually approaching the circumference of the location of the suction holes of the sowing disk, and has the ability to adjust its position relative to the latter. The element designed to release the suction hole of the sowing disk from the unseparated seed is made in the form of a plate having a groove for the passage of the protrusions of the sowing disk, the length of which exceeds the distance between two adjacent protrusions, and the transverse shape corresponds to the shape of the protrusion.

 In FIG. 1 shows a diagram of a proposed metering apparatus, section; in FIG. 2 is a view along arrow A in FIG. one.

 The proposed metering device comprises a housing 1; fixed axis 2 fixed in the housing; sowing disk 3 with suction holes 4; additional housing 5 with a rarefaction chamber 6, an atmospheric pressure chamber 7 and an outlet pipe 8 mounted between the housing 1 and the metering disk 3; a sealing gasket 9 located between the metering disc and the additional housing 5; a drive mechanism for the seed disk with a drive gear 10, on the hub of which a seed disk is placed, in the holes 11 of which the fingers 12 of the gear enter; a cover 13 mounted on the axis 2 and having a seed chamber 14 with an inclined bottom 15, the angle of inclination of which exceeds the angle of friction of the seeds on its surface, as well as the seed attachment 16, made in the form of a channel, the input window 17 of which is communicated in the output window of the seed hopper, and the exit window 18 with a seed chamber; an excess seed remover, made in the form of a plate with reefs in its longitudinal plane, gradually and gradually approaching the circumference of the location of the suction holes, with the possibility of adjusting its position relative to the latter; a tedder, made in the form of protrusions 20, evenly spaced on the side surface of the sowing disk in a circle with a radius smaller than the radius of the circumference of the location of its suction holes; a shutter 21 for unloading seeds located between the bottom 15 of the seed chamber and the seed attachment 16; installed in the lower part of the cover 13 and designed to release the suction hole of the sowing disk from the non-separable seed element 22, made in the form of a plate with a groove 23, the length of which exceeds the distance between two adjacent protrusions 20, and the transverse shape corresponds to the shape of the protrusion.

 Pneumatic metering device operates as follows.

 The air sucked from the rarefaction chamber 6 through the outlet pipe 8, for example, by a fan (not shown in FIG.), Seizes with its flows the seeds located in the seed chamber 14 and presses them to the suction holes 4 of the sowing disk 3. The disk receiving rotation from the drive gears 10 by means of fingers 12, projections 20 loosens the seeds, facilitating their suction to the holes, and sucked seeds are transported from the zone of operation of the rarefaction chamber 6 to the zone of the chamber of atmospheric pressure 7. Extra seeds sucked to the hole above of the sowing disc, the rejector of the ejector 19 is separated from the hole due to the gradual approach of the tops of the reef to the circumference of the location of the suction holes and goes back to the seed chamber 14, sliding into its lower part along the inclined bottom 15. Previously, in preparation for operation, the ejector of excess seeds is set in this position (adjustment of the position of the ejector) when, as a result of the gradual action of the reefs of the ejector on the seeds, one seed remains on each hole. The seeds sucked to the holes in the zone of the atmospheric pressure chamber fall away from them and enter the furrow. Seed that has not separated from the hole is discharged into the furrow by means of element 22. When the seed disk is rotated, the protrusions 20 extend along the groove 23, preventing the seeds from penetrating through it from the seed chamber into the furrow. As the seeds are removed from the seed chamber 14 with a sowing disk, the latter is supplemented with seeds coming into it from the seed hopper through the seed attachment 16.

 Implementation of rarefaction and atmospheric pressure chambers in an additional housing installed between the metering unit body and the metering disk, installing the metering unit cover on a fixed axis located in the housing, and equipping the cover with a seed chamber with an inclined bottom, a dropper of excess seeds and a seed attachment communicating with the seed chamber and seed hopper, allows you to fill the seeds with suction holes located on the side surface of the sowing disk, using a removable pneumatic sowing apparatus, a case similar to that of a mechanical vertical disk apparatus, characterized by filling seeds of working cells of the sowing disk located on its outer surface. In this case, it becomes possible to use the inventive sowing device on seeders equipped with mechanical vertical disk machines of the latter, which are inferior to pneumatic sowing devices in the quality of sowing and process reliability. Thus, the scope of the proposed metering device is expanding significantly.

 Equipping the cover of the sowing apparatus with a shutter for unloading seeds located between the bottom of the seed chamber and the seed attachment makes it possible to simplify the technical and technological maintenance of the apparatus and thereby reduce labor costs and time spent on them. To clean the metering unit (unloading the seeds), it is enough to remove the damper and the seeds will sprinkle by gravity from the seed chamber, seed box and hopper. To replace the sowing disk, it is only necessary to remove the cover of the sowing device (with the seed attachment located on it, an ejector of extra seeds and an element for releasing the suction hole of the disk from the unseparated seed), and then the disk itself.

 The implementation of the drive mechanism of the sowing disk in the form of a gear transmission, the drive gear of which is located on an axis fixed in the apparatus body and detachably connected to the sowing disk, which in turn is located on the hub of the drive gear, simplifies the design of the device and makes it more compact.

 The implementation of the tedders in the form of protrusions uniformly located on the side surface of the sowing disk in a circle with a radius smaller than the radius of the circumference of the location of the suction holes, also simplifies the design of the apparatus, increases its compactness.

 The location of the bottom of the seed chamber at an angle exceeding the angle of friction of the seeds on the bottom surface prevents the seed chamber from being overfilled with seeds separated from the suction holes of the sowing disk by the dropper of excess seeds, and thereby eliminates the unplanned entry of seeds from the seed chamber into the furrow.

 The implementation of the ejector of excess seeds in the form of a plate with reefs in its longitudinal plane, gradually and gradually approaching the circumference of the location of the suction holes of the sowing disk, and providing the possibility of adjusting its position relative to the latter allows you to more accurately configure the device for a single supply of seeds due to the gradual exposure of the reef to excess seeds.

 The implementation of the element designed to release the suction hole from the unseparated seed, in the form of a plate mounted on the lid and having a groove for the passage of the protrusions of the sowing disk, simplifies the design of the apparatus and ensures guaranteed separation of the seed from the hole of the disk with timely supply to the furrow, which turns out to be positive on the uniform distribution of seeds along the sowing rows, i.e. on precision sowing. The excess of the length of the groove over the distance between two adjacent protrusions of the sowing disk and the correspondence of the transverse shape of the groove to the shape of the protrusion prevents leakage of seeds from the seed chamber along the groove and their subsequent entry into the furrow.

 In the All-Russian Research Institute of Oilseeds, an experimental sample of the inventive pneumatic sowing apparatus was developed and manufactured. The apparatus is equipped with the sowing section of the mounted beet seeder SST-12B instead of the vertical disk sowing device used on it, while the body of the latter was used as the body of the proposed sowing device. Tests were conducted on the sowing section, which showed that the quality of sowing seeds of row crops, sunflower, soybeans, corn, sugar beets, it meets the requirements for their sowing. Thus, the claimed apparatus allowed to expand the scope of use of a seeder designed only for sowing beet seeds.

Claims (6)

 1. Pneumatic sowing apparatus, comprising a housing, a seed chamber, an axis located in the housing, a sowing disk with suction holes, a drive mechanism for the sowing disk, a vacuum chamber and atmospheric pressure, a gasket, a tedder, a cover, an excess ejector, installed between the vacuum chamber and the sowing disk seed and an element installed in the lower part of the lid for releasing the suction opening from the unseparated seed, characterized in that the axis of the seed disk is installed in the housing motionless, the rarefaction and atmospheric pressure chambers are made in an additional housing installed between the metering unit body and the metering disk, the metering unit cover is mounted on the axis of the metering disk and includes a seed chamber with an inclined bottom, a seed attachment in the form of a channel, the input window of which is communicated with the exit window seed hopper, and the exit window with the seed chamber, and a flap for unloading seeds, located between the bottom of the seed chamber and the seed attachment, moreover, the ejector of excess seeds Replaced on the cover.  2. The apparatus according to claim 1, characterized in that the drive mechanism of the seed disk is made in the form of a gear transmission, the drive gear of which is mounted on the axis and detachably connected to the seed disk mounted on the hub of the drive gear.  3. The apparatus according to p. 1, characterized in that the tedder is made in the form of protrusions evenly spaced on the side surface of the seed disc in a circle with a radius smaller than the radius of the circumference of the location of the suction rods.  4. The apparatus according to claim 1, characterized in that the angle of inclination of the bottom of the seed chamber exceeds the angle of friction of the seeds on its surface.  5. The apparatus according to claim 1, characterized in that the ejector of excess seeds is made in the form of a plate with reefs in its longitudinal plane, gradually and gradually approaching the circumference of the location of the suction holes of the sowing disk, and made with the possibility of adjusting its position relative to the latter.  6. The apparatus according to claim 1, characterized in that the element for releasing the suction hole of the sowing disk from an unseparated seed is made in the form of a plate having a groove for the passage of the protrusions of the sowing disk, the length of which exceeds the distance between two adjacent protrusions, and the transverse shape corresponds to the shape of the protrusion .

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