1 |
Verfahren zum Befüllen von Grossraumlagersilos mit einem fluidisierbaren Material und Anordnung dafür |
EP06018814.1 |
2006-09-08 |
EP1897829B1 |
2008-07-30 |
Niedworok, Carsten |
|
2 |
Configurations of inlet and outlets of air filled auxiliary tank of air seeders |
US15645080 |
2017-07-10 |
US09994402B2 |
2018-06-12 |
Martin J. Roberge; Graham Douglas Stuart |
A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators. |
3 |
Configurations of inlet and outlets of air filled auxiliary tank of air seeders |
US15645066 |
2017-07-10 |
US09975710B2 |
2018-05-22 |
Martin J. Roberge; Graham Douglas Stuart |
A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators. |
4 |
Method of filling large-capacity storage silos with a fluidizable material, and arrangement therefor |
US11778856 |
2007-07-17 |
US08721230B2 |
2014-05-13 |
Carsten Niedworok |
The invention relates to a method of, and an arrangement for, filling a large-capacity silo with a fluidizable material while preventing air-flow or gas-flow separation, in the case of which the material-charging operation takes place in a controlled manner via a delivery line, feed channel and air- or gas-delivery channels into the top part of the large-capacity silo, towards the silo wall, and downwards to the surface of the material above the base of the large-capacity silo. The material-charging operation is combined with a uniform and controlled suction-extraction operation for air or gas, which is carried out by means of one or more essentially annular suction-extraction lines, arranged directly beneath the silo top, or via annular suction gaps on the material-outflow heads. |
5 |
Method of Filling Large-Capacity Storage Silos With a Fluidizable Material, and Arrangement Therefor |
US11778856 |
2007-07-17 |
US20080063495A1 |
2008-03-13 |
Carsten Niedworok |
The invention relates to a method of, and an arrangement for, filling a large-capacity silo with a fluidizable material while preventing air-flow or gas-flow separation, in the case of which the material-charging operation takes place in a controlled manner via a delivery line, feed channel and air- or gas-delivery channels into the top part of the large-capacity silo, towards the silo wall, and downwards to the surface of the material above the base of the large-capacity silo. The material-charging operation is combined with a uniform and controlled suction-extraction operation for air or gas, which is carried out by means of one or more essentially annular suction-extraction lines, arranged directly beneath the silo top, or via annular suction gaps on the material-outflow heads. |
6 |
Adjustable discharge apparatus |
US10417787 |
2003-04-17 |
US06921037B2 |
2005-07-26 |
Douglas E. Wysong; Joseph A. Bedel |
Adjustable discharge apparatus include a first conduit apparatus with a first conduit section extending along an arcuate path about a pivot axis. A second conduit apparatus is pivotally mounted about the pivot axis in a telescoping relationship with the first conduit apparatus. Adjustable discharge apparatus kits are also provided with a first conduit apparatus, a second conduit apparatus and a third conduit apparatus. The second and third conduit apparatus of the kit are for selective mounting to the first conduit apparatus. |
7 |
Method and apparatus for loading bulk materials |
US09511423 |
2000-02-22 |
US06312206B1 |
2001-11-06 |
Don Pylate; Larry Greenich; Bruce Rodgers |
A method and apparatus for loading bulk materials is disclosed. The apparatus of the present invention comprises a track and a frame movable on the track between a retracted and extended position. A first plate is movably mounted on the frame, and a ram is operably connected to the first plate for moving it between a retracted and extended position. A feeder may also secured to the frame. In operating a press such as the one disclosed, the frame and plate are moved within the container, a compressible material is transferred into the container, the compressible material is compressed, and the frame and plate are moved to a position outside the container. The steps of transferring compressible material into the container and compressing it may be repeated as desired. The frame may also be equipped with a second plate in which case one plate may be compressing material while additional compressible material is simultaneously being transferred into another portion of the container. The container may be a rail car, and the compressible material may be selected from the group consisting of cottonseed, cottonseed hulls, rice hulls, rice mill feed, and soy bean hulls. |
8 |
Loading system for particulate materials |
US444067 |
1989-11-30 |
US5040929A |
1991-08-20 |
Kermit D. Paul; Robert E. Romanchik |
A loading system for light particulate materials. A storage hopper for granular material includes an airlock by which the material is fed into an air stream. The air and accompanying material are fed to a distribution pipe with multiple flexible downward projecting fill spouts which are spaced at regular intervals. Each spout has an associated control valve and air pressure sensor within the spout, so that as a container being loaded by the spout is filled, and the pressure in the spout increases beyond a preselected level, the spout is closed off and material automatically is transported to the next open spout. Air operated spreader heads may also be furnished at the lower ends of the spouts to assure that the container volumes are completely filled. |
9 |
Gooseneck structure for silo distributors |
US3570688D |
1969-05-23 |
US3570688A |
1971-03-16 |
RYDER WILLIAM L; ROACH BENJAMIN H |
A gooseneck fill duct assembly wherein a gooseneck fill duct of hinged sections is removably supported by a framework structure adjacent the upper margin of a silo wall, including a decouplable hinge connection. The duct sections are hinged adjacent the bottom of the duct so that the discharge end portion of the duct can swing downwardly from normal position adjacent the center axis of the silo to a retracted position.
|
10 |
Silage distributor |
US55281066 |
1966-05-25 |
US3357749A |
1967-12-12 |
SEYMOUR SHAUN A; JAMES WILLIAM E |
|
11 |
Silage distributing apparatus |
US36238353 |
1953-06-17 |
US2752204A |
1956-06-26 |
BROUGHTON DEAN C |
|
12 |
CONFIGURATIONS OF INLET AND OUTLETS OF AIR FILLED AUXILIARY TANK OF AIR SEEDERS |
US15645066 |
2017-07-10 |
US20170305687A1 |
2017-10-26 |
Martin J. Roberge; Graham Douglas Stuart |
A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators. |
13 |
Configurations of inlet and outlets of air filled auxiliary tank of air seeders |
US14464821 |
2014-08-21 |
US09725254B2 |
2017-08-08 |
Martin J. Roberge; Graham Douglas Stuart |
A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators. |
14 |
ADJUSTABLE DISCHARGE APPARATUS |
US10417787 |
2003-04-17 |
US20040208712A1 |
2004-10-21 |
Douglas
E.
Wysong; Joseph
A.
Bedel |
Adjustable discharge apparatus include a first conduit apparatus with a first conduit section extending along an arcuate path about a pivot axis. A second conduit apparatus is pivotally mounted about the pivot axis in a telescoping relationship with the first conduit apparatus. Adjustable discharge apparatus kits are also provided with a first conduit apparatus, a second conduit apparatus and a third conduit apparatus. The second and third conduit apparatus of the kit are for selective mounting to the first conduit apparatus. |
15 |
Load distribution deflector |
US09884732 |
2001-06-19 |
US20020139440A1 |
2002-10-03 |
William
F.
Burian; Charles
Lonnie
Horne; James
M.
McLaughlin; Michael
S.
Ryan; Clayton
Strand; Marvin
Miller; Malinda
Chilcote |
A deflector assembly located within the interior of a trailer for distributing dry bulk during loading of the dry bulk into the interior of the trailer. The deflector assembly comprises a deflector and an air cylinder. The deflector has a deflecting surface capable of deflecting the dry bulk being loaded into the interior of the trailer. The deflector moves from an opened position to a deflecting position upon a flow of compressed air from an air source to the air cylinder. |
16 |
Load distribution deflector |
US09821594 |
2001-03-29 |
US06408900B1 |
2002-06-25 |
William F. Burian; Charles Lonnie Horne; James M. McLaughlin; Michael S. Ryan; Clayton Strand; Marvin Miller; Malinda Chilcote |
A deflector assembly located within the interior of a trailer for distributing dry bulk during loading of the dry bulk into the interior of the trailer. The deflector assembly comprises a deflector having a deflecting surface. The deflector has an opened position and a deflecting position, wherein the deflecting surface is not situated to deflect the dry bulk when the deflector is in the opened position and the deflecting surface is situated to deflect the dry bulk when the deflector is in the deflecting position. |
17 |
Silage distributor |
US3698576D |
1969-12-19 |
US3698576A |
1972-10-17 |
GILLETTE ERWIN H |
A shifting deflector, driven by a small electric motor, is attached to the top of the conventional blower tube which blows silage up from the ground level to the top of a silo. To spread the silage evenly over the area of a large silo, the deflector is moved through an orbital path tilted sharply downwardly to deflect the incoming silage to the near side of the silo, during part of the orbital movement, and raised up to an almost horizontal position for deflecting the incoming silage to the far side of the silo, and moving through various intermediate positions to direct the silage rightwardly and leftwardly. A crank arm driven by an electric motor operates a follower crank arm eccentric to the first crank arm, which controls the orbital position of the deflector, and the eccentricity of the two crank arms relative to each other results in the motion being slower when the silage is directed to a position farther away from the blower tube, and faster when the silage is directed to a position closer to the blower tube, thus producing a more even filling throughout the entire area of the silo. The orbital movement produced by the crank arms includes a lateral twisting motion superimposed on the main orbital motion. A supplementary deflector pivoted to the discharge end of the main deflector is operated by a linkage to assist in directing the flow of silage to the near side of the silo during the appropriate part of the orbital movement.
|
18 |
Distributor spout for grain and silage |
US3618798D |
1970-02-09 |
US3618798A |
1971-11-09 |
DREIER MELVIN E |
A spout structure, attachable to a fill pipe, for directing grain and silage into a silo is adaptable with slight modification for either a center fill or a side fill operation and includes a plurality of different directional flow channels that divide the grain and silage so that there is uniform distribution of the same within the silo. One embodiment of this spout is designed especially for use with corn and includes certain obstructions in the flow channels for cracking the corn during delivery of the same to the silo.
|
19 |
Device for spreading material at the discharge end of pneumatic conveyor tubes |
US75260958 |
1958-08-01 |
US3001830A |
1961-09-26 |
ERNST WEICHEL |
|
20 |
Railroad car filling device |
US45488254 |
1954-09-09 |
US2777481A |
1957-01-15 |
ATKINSON FRED M; MATTSON DAVID F; LEIGH PAULSON ALBERT |
|