前苏联专利SU1138003A3 Pneumatic feed for seeders

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优先权

专利摘要:
PNEUMATIC SEEDING DEVICE FOR SEEDERS containing a vertical disc. with pr1 | suction holes adjacent to it, in the zone of seed dumping, the diverter ,. and a rarefaction chamber, in which case, in order to improve the uniformity of sowing of light seeds, the ejector is made in the form of a Venturi tube with a seed hole in its neck, which is located in the zone of seed discharge on the placement line of suction holes. i cl
公开号:SU1138003A3
申请号:SU813267803
申请日:1981-04-03
公开日:1985-01-30
发明作者:Мори Жан-Пьер
申请人:Ноде-Гужи (Фирма)；
IPC主号:

专利说明:

with
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uh
9

The invention relates to agricultural machinery engineering, in particular to sowing machines, intended for use in planting plants for sowing light seeds, for example, vegetable crops.
Pneumatic sowing machines for seedlings are known, which contain a vert: ikalny disk with suction holes adjacent to it in the seed drop zone, a reset device, and an accommodation chamber ij and Y,
A disadvantage of the known sowing apparatus is the fact that the diverter, excess seeds are made mechanical. This leads to poor sowing of seeds, especially of the lungs, as they are damaged.
The aim of the invention is to improve the uniformity of seeding of light seeds.
This goal is achieved by the fact that in a pneumatic seeding machine for seedlings containing a vertical disk with attachment holes, a resetter adjacent to it in the seed drop area, and a vacuum chamber, the venturer is filled in the form of a venturi tube with a seed hole in its neck. which is located in the seed discharge zone on the suction line of the holes.
FIG. 1 shows a pneumatic seed metering device for spraying machines with a perpendicular air supply to the diverter; in fig. 2 shows section A-A in FIG. one; in fig. 3 - the device with the maximum air supply to the resetter; in fig. 4 shows an apparatus with a sectional discharge diffuser in FIG. 5 is a section BB in FIG. four.
The pneumatic sowing apparatus (see Figs. 1 and 2) consists of a venturi tube 1 adjacent to one of the side perforated disk 2, a rarefaction chamber 3. which is located on the other side of the disk and is covered from the side of the seed drop zone Ka shown in FIG. 1 by dashed lines, discharge chamber 3 has an end wall 4 located in the radial direction across the placement line 5 of the suction ports 6 of the disk 2 directly opposite the neck 7 of the Venturi tube located on the other side of the disk.
The seed drop zone is located at the place where the end wall 4 of the chamber
38003.2
The vacuum section 3 intersects the placement line 5 of the holes 6, which, however, limit this place, do not pass through the discharge zone, but through zone c. atmospheric pressure, where the suction effect ceases to occur, and the seeds are released. In this zone, the reset of the seeds, i.e. opposite the wall 4 of the dilution chamber 3, in the wall of the neck of the 7-venturi V tube there is an inlet 8, and the placement line 5 of the openings 6 for transporting seeds 9 passes in the middle of this opening
15 that the seeds supplied by disc 2 may fall inside the venturi tube 1 adjacent to the side of disc 2 on which the seeds are carried.
The venturi tube consists of an inlet cone 10 passing into the diffuser 11, the inlet cone 10 being connected by means of a nozzle 12 (see Fig. 2) to an air source (not shown). The cone 10 can iodine air,
25 supplied from a dilution chamber 3 in order to maintain a vacuum inside this chamber. The upper half of the Venturi tube 1 (Fig. 1 and 2) does not have a fixed rear wall
0 and is open on the side of the distribution disk 2, which thus forms a movable rear wall of the inlet cone 10, neck 7, where the seed opening 8 of the seed is located, c and the upper part of the diffuser 11, the lower part of which is closed by a fixed rear wall 13.
The position of the distribution unit (vacuum chamber and venturi tube) 0 can be changed by rotating around the axis of rotation of disk 2.
Thus, it is possible to arbitrarily change the position of the venturi with respect to the surface
soil. I
As shown in FIG. 1, the venturi tube 1 is located transversely with respect to the placement line -5 of the holes 6, the input cone 10 is inside the circle formed by the holes 6, the diffuser is outside this circle, and the intersection point of the tube with line 5 is at the level of the neck 7 and the seed inlet 8 for the seeds is open on the side opposite to the disk axis.
Venturi tube 1 can be located along a tangent to the line 5 of the holes 6 of the disk 2 (Fig. 3) in such a way that the input cone 10 and. the diffuser 11 is outside the said line of location 5 of the holes 6. The point of contact with the axis of the Venturi and LINE 5 is slightly below the neck 7 of the tube at the very beginning of the diffuser 11, and the inlet 8 for the seeds is located on the side of the axis 2 and A line of 5 holes 6 extends in the middle of the hole. The neck 7 of the venturi and hole 8 are located in the drop zone of the seeds nJ i. opposite the end wall 4 of the dilution chamber, the wall being shown by a dotted line in FIG. Compressed air is supplied to the inlet cone 10 of the venturi from port 14 coaxially with the venturi, the extension of which it is. The absence of a knee at the inlet to the inlet cone of the Venturi tube significantly reduces the pressure loss. The upper part of the diffuser 11 and the lower part of the input cone 10 do not have fixed rear walls and are open from the side of the disk 2, which forms their movable; back wall. The Venturi sectional tube diffuser consists of a perforated disk 2, in which the holes 6 and 15 are located opposite the dilution chamber (not shown) in such a way that the seeds 9 can be held by the disk (Fig. 4 and 5). The dilution chamber extends to the axis indicated in the figure by the number 16. Compressed air is supplied to the tube. Venturi through the cutting road 14. In this case, the diffuser 11 is longitudinally divided into two parts by means of a partition 17, as a result of which two channels are formed in the diffuser. At the ends of these two channels are attached extension tubes 18 and 19 (see Fig. 5). Pneumatic pumping apparatus works as follows. During operation, the perforated disk rotates opposite the hour hand (Figs. 1 and 3), and compressed air is supplied to the inlet cone 10 of the Venturi tubes 1, the flow guides of which are shown in the drawings by the arrows. The flow rate of compressed air increases at the level of the neck 7 of the venturi to very high j values. The maximum speed of the air reaches the level of the inlet 8 for the seeds 9 supplied by the disk 2. After the vacuum chamber 3 is open at the level of the neck 7 or slightly lower its seeds are released from the carrier disc and picked up by a compressed air stream moving at high speed from the inlet cone of the Venturi tube. To this stream, air is sucked through the inlets 8, in a Tadzim way, through a diffuser 1-1 seeds-with force. They are thrown in the direction of the soil surface. Since all the leaves move in relation to the ground, the seeds ejected from. Venturi tubes are subjected to the influence of the horizontal component of velocity W, which is connected to the influence of the component of velocity V, directed along the axis of the venturi tube. By adjusting the pressure of the compressed air entering the inlet cone of the Venturi tube, or the position of the Venturi tube relative to the vertical, or both at once, we can obtain the equivalent component of the VQ velocity perpendicular to the soil surface. As a result, the ejected grain flies perpendicular to the surface of the furrow and cannot roll or bounce. When the apparatus in FIG. 4. and 5 in the working cycle for each of the two rows, holes 6 and 15 to the entrance of one of the two channels of the diffuser 11 are fed seeds, and the seeds are released at the moment when they are already in one or another channel, or when they are at the very approach to them. Se lka by; - allows to sow two parallel grooves using only one perforated disc. . The number of parallel rows can be more than two. Thus, a single perforated disc can be used to seize several parallel furrows. The pneumatic sowing unit allows light seeds to be sown — due to the fact that these seeds are literally sucked inwards — a dropper before they are picked up — a stream of compressed air passing through
51138003
this dumper. A zone of rarefaction directed outward and capable of forming in the necks of tubes. Venturi impede the penetration of seeds into the interior and prevents the formation of a stream of air from the vent.
L- /
I
3

权利要求:
Claims (1)
[1]
PNEUMATIC SOWING UNIT FOR SEEDERS, containing a vertical disk with suction holes, adjacent to it in the zone of seed discharge the ejector, and the rarefaction chamber, so as to increase the uniformity of sowing of light seeds, the ejector is made in the form of a Venturi tube with a hole for seeds in its neck, which is located in the zone of discharge of seeds on the line ^ of placement of suction holes .. ..
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1 1138003, 2

类似技术:

公开号 | 公开日 | 专利标题

SU1138003A3|1985-01-30|Pneumatic feed for seeders

US20200084957A1|2020-03-19|Planter with seed delivery apparatus

US7490565B2|2009-02-17|Seed distribution method and apparatus

US6308646B1|2001-10-30|Tuning orifice for pneumatic metering manifold

US4306509A|1981-12-22|Vacuum drum planter

US3482735A|1969-12-09|Seed sower or other distributing device

US3434437A|1969-03-25|Precision planter with seed accelerator

US4128191A|1978-12-05|Collector for a pneumatic dispenser

US10219428B2|2019-03-05|Distributor device of fertilizers

US3373705A|1968-03-19|Planter

US3680737A|1972-08-01|Fluidic grain planting control

SU1519545A1|1989-11-07|Pneumatic sowing apparatus

US3432075A|1969-03-11|Precision seed planting apparatus and method

US4253586A|1981-03-03|Pneumatic planter having controlled movable nozzle

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US11277960B2|2022-03-22|Seed inductor apparatus

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US20200068789A1|2020-03-05|Seed inductor apparatus

SU762773A1|1980-09-15|Sowing device

RU2099915C1|1997-12-27|Combined unit

SU913971A1|1982-03-23|Pneumatic sowing apparatus

SU938791A1|1982-06-30|Pneumatic sower

SU1591836A1|1990-09-15|Dispenser of pneumatic drill

NL1014379C2|2001-08-15|Device for introducing seed into furrow in ground comprises housing, storage chamber for seed, drum component rotatable in housing and connected to device producing vacuum in drum to retain seed by suction

SU1191008A1|1985-11-15|Sower for strip ribbon seeding

同族专利:

公开号 | 公开日

AU6907381A|1981-10-22|

EP0037775B1|1984-05-09|

CA1160108A|1984-01-10|

ES501040A0|1982-01-01|

HU201634B|1990-12-28|

GR75620B|1984-08-01|

BR8102040A|1981-10-06|

DE3163467D1|1984-06-14|

YU88281A|1983-12-31|

IT8153076V0|1981-04-03|

FR2479644A1|1981-10-09|

AU541799B2|1985-01-17|

DE8108744U1|1981-07-16|

US4399757A|1983-08-23|

EP0037775A1|1981-10-14|

FR2479644B1|1983-10-28|

IL62521A|1983-06-15|

ES8201804A1|1982-01-01|

BG44871A3|1989-02-15|

IL62521D0|1981-05-20|

CS225831B2|1984-02-13|

YU42687B|1988-10-31|

ZA812156B|1982-04-28|

DD157990A5|1982-12-22|

AR222618A1|1981-05-29|

引用文献:

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US4915258A|1985-02-28|1990-04-10|Deere & Company|Seed meter seed tube|

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DE3637530C1|1986-11-04|1988-03-31|Karl-Heinz Paul|Method and device for sowing individual seeds into a furrow drawn by a flock|

US4917029A|1988-06-16|1990-04-17|The Regents Of The University Of Califorina|Hydro-pneumatic singulation of gel-encapsulated propagules|

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US5061145A|1990-04-19|1991-10-29|Gen-Gar-Inc.|Apparatus for picking up and transferring lightweight articles|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

FR8007775A|FR2479644B1|1980-04-04|1980-04-04|

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