US213709A - Improvement in pneumatic grain-elevators - Google Patents
Improvement in pneumatic grain-elevators Download PDFInfo
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- US213709A US213709A US213709DA US213709A US 213709 A US213709 A US 213709A US 213709D A US213709D A US 213709DA US 213709 A US213709 A US 213709A
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- grain
- tube
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- air
- elevating
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- 238000007599 discharging Methods 0.000 description 16
- 230000003028 elevating Effects 0.000 description 8
- 230000000694 effects Effects 0.000 description 6
- 239000000203 mixture Substances 0.000 description 6
- 239000012141 concentrate Substances 0.000 description 4
- 235000016594 Potentilla anserina Nutrition 0.000 description 2
- 240000001203 Potentilla anserina Species 0.000 description 2
- 230000001174 ascending Effects 0.000 description 2
- 230000003292 diminished Effects 0.000 description 2
- 238000005192 partition Methods 0.000 description 2
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G53/00—Conveying materials in bulk through troughs, pipes or tubes by floating the materials or by flow of gas, liquid or foam
- B65G53/34—Details
- B65G53/60—Devices for separating the materials from propellant gas
Definitions
- FRANCIS TAGGART OF BROOKLYN, N. Y., ASSIGNOR OF ONE-HALF HIS RIGHT TO LOUIS LANGEVIN, OF BUENOS AYRES, ARGENTINE OONFEDERATION.
- the chamber into which the elevating-tube terminates is provided with exhausters, arranged directly or nearly opposite to each other, and the grain elevated by the vacuum created thereby is projected by its momentum across said chamber, beyond and out of the course and influence of the outward currents of said exhausters, into and through a receiving and conducting tube, arranged coincident with the horizontal discharging end of the elevating-tube, but separated a suitable distance from it, and by which the grain is delivered into a second contiguous vacuum-chamber, from which it is discharged to the place of storage.
- This second chamber communicates with the first, and the vacuum therein is created and equalized by the exhausters of the first chamber.
- the receiving section of the elevating-tube is of flexible hose, to allow it to be moved around and about as the grain is taken up, while the discharging end of said tube is straight, and contracted slightly to concentrate the column of grain and cause it to be projected more compactly across the vacuumchamber, and to render it less liable to be influenced by the outward opposite currents of air in said chamber.
- the end of the tube which receives the projected column of grain is straight, and made flaring or bell-shaped, the better to receivethe projected column of grain in its passage from the elevating-tube, while its downward-curved discharging portion is of greater diameter than the neck of the flaring mouth, to compensate for the retardation of the grain caused by its downward bend.
- the diminished neck of the flaring mouth serves the important purpose of preventing, to a great extent, the passage of the air along withthe projected column of grain through this conducting-tube.
- the exhausting-chamber has a hopper, to receive the grain that may fall from the projected'column at the beginning and ending of the operation, and this hopper connects by a spout with that of the discharging-chamber.
- a great velocity of the grain and air is required to elevate a given quantity of grain in a given time; and in order to avoid an unnecessary expenditure of power for that purpose, the exhaust-openings are made comparatively large, so that the air is withdrawn from the contiguous chambers with the least possible velocity, and thereby render this method of elevating grain advantageous and economical as compared with the expensive machinery and apparatus now generally used for the purpose.
- two or more contiguous air-tight chambers to and b, one of which, or, forms the exhausting-chamber, with which the grain-elevating tube cconnects, and from which it leads to the ship, boat, or car, or other place from which the grain is to be elevated, while the other chamber, b, receives the elevated grain and delivers it to the place of storage.
- These chambers communicate with each other by perforations d in their partition, so as to equalize the vacuum in both chambers.
- An exhauster, a is arranged at each side of the first chamber, a, in position opposite each other, or nearly so, so as to exhaust the air therefrom, preferably at right angles to the elevating-tube and by opposite currents-that is, each exhauster draws the air from this chamber in opposite directions, thereby creating a vacuum in both chambers, and, drawing the grain and air up the elevating-tube, projects it by its momentum in a column across said first chamber with sufiieient force to carry it through a receiving and conducting tube, f, arranged in position coincident with the discharging end of the elevating-tube and into the second chamber.
- This second chamber has a hopper-bottom, from which leads a discharge-spout, g, provided at its lower end with pendent hinged valves h h, adapted to meetin closing, and which are closed by the outward pressure of the air when the exhausters are set in motion, will open to allow the grain to discharge only when the weight of the grain in the spout acts as a seal and exceeds the pressure of the outside air, and the grain will then pass out in-a boutinuous stream during the operation of the elevating-tube.
- a discharge-spout g
- pendent hinged valves h h pendent hinged valves
- the lower portion, 0, of the elevating-tube is of flexible hose, to adapt it to be moved around and presented to the grain as it is taken up by the air drawn through said tube.
- the upper end, 0 of this tube opens in a straight line into the exhaustingchamber a, and is contracted to concentrate the column of grain issuing therefrom, so as to cause it to be projected across the air-exhausting chamber-ascompaetly as possible, and thereby, in connection with its high velocity, prevent it from scattering, and render it less liable to be influenced by the outward sidedrawn currents of air, and thereby directed with the full force of the ascending column into the flaring end 2' of the receiving and conducting tube f, arranged with its flaring mouth in line with the discharge end of the elevating-tube, but separated from it a suitable distance to produce the best results, with exhausters arranged to draw the air from the projected column of grain in opposite directions to neutralize the effects of the outward currents upon the grain.
- the tube f When the tube f is curved downward, as shown, it is gradually increased in diameter from the neck j of the bell-mouth, to compensate for any retardation of the grain which might be caused by such curve. When this tube is straight it need not be so enlarged.
- the exhaust openings are comparatively large, so that the air is drawn from the exhausting-chamber and from the projected column of grain across said chamber with the least possible velocity, while at the same time elevating the grain with a high velocity, and delivering it beyond the course and influence of the outward-drawn currents of air into a vacuum chamberadjoining,butseparated irom the exhausting chamber proper.
- the exhausting-chamber has'a hopper-bottom, k, to receive any grain thatimay fall from the column projected acrossthespace from the endof the elevating-tube -to thebell mouth ot the receiving and conducting tube, and deliver it by a spout, t, into'thespout of the second chamber.
- the intermediate receivingandconducting tube should be straight.
- the elevating and receivingtubes need not necessarily be horizontal at their interruption; but they must both project within the exhausting-chamber, and-such 'projectingeu ds must be in such relation toeaehlothenthat the grain projected from the one-s' Halbbe received into the other.
- a pneumaticgrain-clevator * having avacuum chamber or chambers and a pneumatic graimprojectiug tube, in combination with a separate receiving-tube, online of tubes, which receive the impelledgrain from said elevatortube and deliver it into store.
- the-combination with the elevating tube 1:, having a contracted discharging end, 0, opening into an exhausting-chamber, a, of a receivingand discharging. tube, f, having its receiving-end i, flaring or bell-shaped, opening into said chamber.
- the latter having a flaring receiving end, i, in combination with an exhausting-chamber, a, and a contiguous communicating chamber, b, into which the elevated grain is discharged and delivered to the place of storage.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Storage Of Harvested Produce (AREA)
Description
Patented Mar. 25, 1879.
F. TAGGART. Pneumatic Grain-Elevator.
Jinan/Z0 7,
N. PHERS. PHOTO-LITHOGRAPMER, WASHINGTON. I] C.
UNITED STATES PATENT OFFICE.
FRANCIS TAGGART, OF BROOKLYN, N. Y., ASSIGNOR OF ONE-HALF HIS RIGHT TO LOUIS LANGEVIN, OF BUENOS AYRES, ARGENTINE OONFEDERATION.
IMPROVEMENT IN PNEUMATIC GRAIN-ELEVATORS.
Specification forming part of Letters Patent No. 213,709, dated March 25, 1879 application filed- January 23, 1879.
To all whom it may concern:
Be it known that I, FRANCIS TAGGART, of Brooklyn, in the county of Kings and State of New York, have invented certain new and useful Improvements in Pneumatic Grain-Elevators and Ido hereby declare that the following is a full, clear, and exact description of the invention, which will enable others skilled in the art to which it appertains to make and use the same, reference being had to the accompanying drawings, and. to letters of reference marked thereon, which form a part of this specification.
Grain has been elevated by a column of air drawn through a tube, and it is this kind of elevator which I have improved. The chamber into which the elevating-tube terminates is provided with exhausters, arranged directly or nearly opposite to each other, and the grain elevated by the vacuum created thereby is projected by its momentum across said chamber, beyond and out of the course and influence of the outward currents of said exhausters, into and through a receiving and conducting tube, arranged coincident with the horizontal discharging end of the elevating-tube, but separated a suitable distance from it, and by which the grain is delivered into a second contiguous vacuum-chamber, from which it is discharged to the place of storage. This second chamber communicates with the first, and the vacuum therein is created and equalized by the exhausters of the first chamber. It has a bottom discharging-spout,provided with pendent hinged meeting-valves, adapted to close by the pressure of the outside air until the grain has accummulated above them to seal the spout, and with sufficient weight to overcome the pressure of the outside air, when the discharge commences, and continues so long as the grain is presented to the receiving endof the elevating-tube.
The employment of two exhausters and the projection of the grain across the chamberspace centrally between them from one pipe into another serves to balance or neutralize the effects of the opposite outward currents upon the crossing column of grain.
The receiving section of the elevating-tube is of flexible hose, to allow it to be moved around and about as the grain is taken up, while the discharging end of said tube is straight, and contracted slightly to concentrate the column of grain and cause it to be projected more compactly across the vacuumchamber, and to render it less liable to be influenced by the outward opposite currents of air in said chamber.
The end of the tube which receives the projected column of grain is straight, and made flaring or bell-shaped, the better to receivethe projected column of grain in its passage from the elevating-tube, while its downward-curved discharging portion is of greater diameter than the neck of the flaring mouth, to compensate for the retardation of the grain caused by its downward bend. The diminished neck of the flaring mouth serves the important purpose of preventing, to a great extent, the passage of the air along withthe projected column of grain through this conducting-tube.
The exhausting-chamber has a hopper, to receive the grain that may fall from the projected'column at the beginning and ending of the operation, and this hopper connects by a spout with that of the discharging-chamber.
A great velocity of the grain and air is required to elevate a given quantity of grain in a given time; and in order to avoid an unnecessary expenditure of power for that purpose, the exhaust-openings are made comparatively large, so that the air is withdrawn from the contiguous chambers with the least possible velocity, and thereby render this method of elevating grain advantageous and economical as compared with the expensive machinery and apparatus now generally used for the purpose.
By using the momentum of the swift-rising column of grain to effect its projection in a body across a vacuum chamber and across currents of air moving at right angles to that of the grain, and from the contracted outlet end of one tube into the enlarged inlet end of another tube, gives the advantage of deliverin g the grain outside of the exhausting-chant ber and away from the direct influence of the exhausters, and of freeing the grain from the large volume of air with which it enters the exhausting-chamber by projection through a space or interruptions of tubes arranged in line with each other, or through a succession of such interruptions.
Referring to the drawings, Figure l repre sents a vertical section of so much of a grainelevator as embraces my invention, and Fig. 2 a cross-section through the exhausting-chamher of the same.
At a suitable place in the storage or elevator building I construct two or more contiguous air-tight chambers, to and b, one of which, or, forms the exhausting-chamber, with which the grain-elevating tube cconnects, and from which it leads to the ship, boat, or car, or other place from which the grain is to be elevated, while the other chamber, b, receives the elevated grain and delivers it to the place of storage. These chambers communicate with each other by perforations d in their partition, so as to equalize the vacuum in both chambers.
An exhauster, a, is arranged at each side of the first chamber, a, in position opposite each other, or nearly so, so as to exhaust the air therefrom, preferably at right angles to the elevating-tube and by opposite currents-that is, each exhauster draws the air from this chamber in opposite directions, thereby creating a vacuum in both chambers, and, drawing the grain and air up the elevating-tube, projects it by its momentum in a column across said first chamber with sufiieient force to carry it through a receiving and conducting tube, f, arranged in position coincident with the discharging end of the elevating-tube and into the second chamber. This second chamber has a hopper-bottom, from which leads a discharge-spout, g, provided at its lower end with pendent hinged valves h h, adapted to meetin closing, and which are closed by the outward pressure of the air when the exhausters are set in motion, will open to allow the grain to discharge only when the weight of the grain in the spout acts as a seal and exceeds the pressure of the outside air, and the grain will then pass out in-a boutinuous stream during the operation of the elevating-tube.
The lower portion, 0, of the elevating-tube is of flexible hose, to adapt it to be moved around and presented to the grain as it is taken up by the air drawn through said tube. The upper end, 0 of this tube opens in a straight line into the exhaustingchamber a, and is contracted to concentrate the column of grain issuing therefrom, so as to cause it to be projected across the air-exhausting chamber-ascompaetly as possible, and thereby, in connection with its high velocity, prevent it from scattering, and render it less liable to be influenced by the outward sidedrawn currents of air, and thereby directed with the full force of the ascending column into the flaring end 2' of the receiving and conducting tube f, arranged with its flaring mouth in line with the discharge end of the elevating-tube, but separated from it a suitable distance to produce the best results, with exhausters arranged to draw the air from the projected column of grain in opposite directions to neutralize the effects of the outward currents upon the grain. The neck or point of least diameter of the bell-mouth acts to hinder the too free passage of the air along with the projected column of grain.
When the tube f is curved downward, as shown, it is gradually increased in diameter from the neck j of the bell-mouth, to compensate for any retardation of the grain which might be caused by such curve. When this tube is straight it need not be so enlarged.
The exhaust openings are comparatively large, so that the air is drawn from the exhausting-chamber and from the projected column of grain across said chamber with the least possible velocity, while at the same time elevating the grain with a high velocity, and delivering it beyond the course and influence of the outward-drawn currents of air into a vacuum chamberadjoining,butseparated irom the exhausting chamber proper.
The exhausting-chamber has'a hopper-bottom, k, to receive any grain thatimay fall from the column projected acrossthespace from the endof the elevating-tube -to thebell mouth ot the receiving and conducting tube, and deliver it by a spout, t, into'thespout of the second chamber.
When more than two vacuum chambersarc used the intermediate receivingandconducting tube should be straight.
Any of the well-known devices for producing and maintaining avacuum in the com municating chambers-may beused, and I have shown fan blowers; but :pumps exhausting through valves of more 'than' one=half the area of their cylinders are preferable.
The elevating and receivingtubes need not necessarily be horizontal at their interruption; but they must both project within the exhausting-chamber, and-such 'projectingeu ds must be in such relation toeaehlothenthat the grain projected from the one-s'halbbe received into the other.
I claim-- 1. A pneumaticgrain-clevator *having avacuum chamber or chambers and a pneumatic graimprojectiug tube, in combination with a separate receiving-tube, online of tubes, which receive the impelledgrain from said elevatortube and deliver it into store.
2. In a pneumatic .grain elevator,an elevatin g-tubeand a receiving and disohargingtube, the end of each projecting intman'exhaustingchamber and separated 'from'eaclr other therein, in combinationwith exhausters adapted to draw theair from said chamber, whereby the grain is-elevated and delivered at aipoint beyond the course and influence of the outwardlydrawn currents of air.
3. In a pneumatic graimelevator, the-combination, with the elevating tube 1:, having a contracted discharging end, 0, opening into an exhausting-chamber, a, of a receivingand discharging. tube, f, having its receiving-end i, flaring or bell-shaped, opening into said chamber.
4. In a pneumatic grain-elevator, in which the elevated grain is projected in a column by its momentum from the elevating-tube 0 across an exhausting-chamber, a, into the coincident end of a receiving and discharging tube, f,
the latter having a flaring receiving end, i, in combination with an exhausting-chamber, a, and a contiguous communicating chamber, b, into which the elevated grain is discharged and delivered to the place of storage.
5. In a pneumatic grain-elevator, in which the elevated grain is projected by its momentum in a column across a vacuum-chamber from the end of the elevating-tube 0 into the coincident flaring end of a receiving and discharging tube, f, the contiguous communicating vacuum-chambers a b, each provided with a hopper, and inwhich the hopper of the exhausting-chamber communicates with the hopper-spout "g of the grain-receiving chamber, above the automatic closing and openingvalves FRANCIS TAGGART.
Witnesses:
A. E. H. J oHNsoN, J. W. HAMILTON J OHNSON.
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US213709A true US213709A (en) | 1879-03-25 |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2474205A (en) * | 1945-11-14 | 1949-06-21 | Int Harvester Co | Pneumatic grain elevator |
US3405738A (en) * | 1964-06-19 | 1968-10-15 | Oka Shozo | Pipes with bent portion for transporting powder or grains by air power |
US4232632A (en) * | 1976-10-04 | 1980-11-11 | K-B Engineering Co. | Live fowl conveying system |
US6736171B2 (en) * | 2002-05-21 | 2004-05-18 | Jack Harris | Assembly for delivering solid particulate matter for loading |
-
0
- US US213709D patent/US213709A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2474205A (en) * | 1945-11-14 | 1949-06-21 | Int Harvester Co | Pneumatic grain elevator |
US3405738A (en) * | 1964-06-19 | 1968-10-15 | Oka Shozo | Pipes with bent portion for transporting powder or grains by air power |
US4232632A (en) * | 1976-10-04 | 1980-11-11 | K-B Engineering Co. | Live fowl conveying system |
US6736171B2 (en) * | 2002-05-21 | 2004-05-18 | Jack Harris | Assembly for delivering solid particulate matter for loading |
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