IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0587327
(2005-04-20)
|
등록번호 |
US-8157483
(2012-04-17)
|
우선권정보 |
DE-10 2004 019 703 (2004-04-20) |
국제출원번호 |
PCT/EP2005/004229
(2005-04-20)
|
§371/§102 date |
20070905
(20070905)
|
국제공개번호 |
WO2005/102882
(2005-11-03)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
13 |
초록
▼
Disclosed is a method for rendering vacuum conveyors inert, the vacuum conveyors including at least one intake device (30), a discharge device (40), a separating vessel (100), a vacuum pump device (20), and a system for feeding inert fluid into the separating vessel (100). An inert fluid is fed into
Disclosed is a method for rendering vacuum conveyors inert, the vacuum conveyors including at least one intake device (30), a discharge device (40), a separating vessel (100), a vacuum pump device (20), and a system for feeding inert fluid into the separating vessel (100). An inert fluid is fed into the at least one separating vessel (100) below the free surface of a separated material (102) during inertization. A corresponding vacuum conveyor (10) which can be rendered inert includes a system for feeding inert fluid below the free surface (103) of a separated material on and/or in the at least one separating vessel (100).
대표청구항
▼
1. Method for rendering a vacuum conveyor inert, the conveyor comprising a separating vessel (100), at least one intake opening (38) to the separating vessel, a discharge device (40) including a discharge opening (40A) and a discharge lid (41) that pivots between an opened and a closed position rela
1. Method for rendering a vacuum conveyor inert, the conveyor comprising a separating vessel (100), at least one intake opening (38) to the separating vessel, a discharge device (40) including a discharge opening (40A) and a discharge lid (41) that pivots between an opened and a closed position relative to said discharge opening (40A), and a vacuum pump device (20) for establishing a vacuum within the separating vessel (100) in order to intake material into said separating vessel, said method comprising: while said discharge lid (41) is closed, operating said vacuum pump device (20) to intake material entrained in a conveying gas into said separating vessel (100) by way of said intake opening (38) of the separating vessel, separating said material from said conveying gas within said separating vessel, and collecting said separated material in a lower region of said separating vessel;performing an inertization step within said separating vessel while said discharge lid is closed; and,after said inertization step, performing a discharging step using said discharge device (40) to discharge said separated material from said separating vessel through said discharge opening (40A) by pivoting said discharge lid (41) to its opened position to open said discharge opening (40A),said inertization step comprising feeding an inert fluid into the separating vessel (100) below a free surface (102A) of separated material (102) in proximity to the discharge opening (40A), and flowing said inert fluid upwardly through said separated material collected in said lower region of said separating vessel (100) and out of said separating vessel to displace residual oxygen from said separating vessel, wherein the inert fluid is fed into the separating vessel (100) by means of a line (44, 45) which is valve-controlled (43, 43′) and the inert fluid flows through the separated material before flowing through a filter (50) that is also located in the separating vessel (100), and said inert fluid exits the separating vessel (100) through an outlet opening (100B) of the separating vessel after flowing through said filter, said filter located between said intake opening (38) and said outlet opening (100B);wherein during said inertization step, said method comprises using said vacuum pump device (20) to produce a pressure in said separating vessel (100) that is lower than a pressure of the inert fluid being fed into the separating vessel (100) while said discharge lid (41) is closed. 2. Method for inertization according to claim 1, further comprising switching off said vacuum pump device (20) and feeding the inert fluid under pressure into the separating vessel (100) when the vacuum pump device is switched off after said step of using said vacuum pump device (20) to produce a pressure in said separating vessel (100) that is lower than a pressure of the inert fluid being fed into the separating vessel (100). 3. Method for inertization according to claim 1, wherein said inertization step comprises a continuous feeding of the inert fluid and simultaneous continuous evacuation of the separating vessel (100). 4. Method for inertization according to claim 1, further comprising determining a concentration of oxygen in the fluid (104) present in the separating vessel (100). 5. Method for inertization according to claim 4, further comprising a second inertization step that occurs as part of said discharging step when said discharge lid (41) is in its opened position, said second inertization step comprising conducting a flow of inert fluid through said filter, from the direction of a clean gas side of said filter toward said discharge opening (40A), wherein said second inertization step occurs during discharge of the separated material via said discharge opening (40A). 6. Vacuum conveyor that can be rendered inert, said vacuum conveyor comprising: a separating vessel (100) including a vessel wall (100A), an inlet opening (30) located in the vessel wall (100A) to intake material into the separating vessel, an outlet opening (100B) for exhaust of fluid from said separating vessel, and a discharge opening (40A) for emptying separated particulate material from said separating vessel (100),a filter located inside the separating vessel between the inlet opening and the outlet opening,a discharge device (40) for emptying separated particulate material from said separating vessel through said discharge opening (40A), said discharge device (40) comprising a movable discharge lid (41) that moves between an opened position for opening said discharge opening (40A), and a closed position for closing said discharge opening (40A),a vacuum pump device (20) to establish a vacuum at said outlet opening in order to intake material into the separating vessel via said inlet opening, andmeans for feeding inert fluid into the separating vessel, said means for feeding inert fluid comprising fluidizing nozzles provided in the separating vessel (100) below an anticipated level of a free surface (103) of the material (102) to be separated and located proximate the discharge device, wherein said means for feeding inert fluid are adapted to feed said inert fluid into said separating vessel, through said separating vessel, through said filter, and out of said separating vessel via said outlet opening when the separating vessel has a differential pressure that is lower than a pressure of said inert fluid;wherein at least one of said fluidizing nozzles (45) for feeding inert fluid into the separating vessel is connected to the movable discharge lid (41). 7. Device according to claim 6, further comprising: lines (42, 44) leading to the feeding means; and,valves (43, 43′) that control the lines leading to the feeding means. 8. Device according to claim 6, wherein the feeding means further comprise at least one of said fluidizing nozzles (45,46) connected to said vessel wall (100A) of the separating vessel (100) in proximity to said discharge opening 40A. 9. Device according to claim 8, wherein the vessel wall (100A) in a region proximate said discharge opening (40A) comprises an inclined diagonal progression downward that leads to said discharge opening (40A), and wherein at least one of said fluidizing nozzles (45,46) is connected to said inclined diagonal progression of said vessel wall. 10. Device according to claim 8, wherein the vessel wall (100A) proximate the discharge opening (40A) comprises a cylinder without narrowing, and said fluidizing nozzles (45,46) are connected to said cylinder of said vessel wall (100A) proximate the discharge opening (40A). 11. Device according to claim 8, wherein said feeding means comprise a plurality of said fluidizing nozzles (45,46) arranged in a ring structure around said vessel wall (100A). 12. Method for rendering a vacuum conveyor inert, the conveyor comprising a separating vessel (100), at least one intake opening (38), a discharge device (40) including a discharge opening (40A) and a discharge lid (41) that moves relative to said discharge opening between an opened position and a closed position, and a vacuum pump device (20) to establish a vacuum in order to intake material into said separating vessel, said method comprising: operating said vacuum pump device (20) to intake material entrained in a conveying gas into said separating vessel (100) by way of the intake opening (38) of the separating vessel, separating said material from said conveying gas within said separating vessel, and collecting said separated material in a lower region of said separating vessel when said discharge lid (41) is in its closed position to close said discharge opening (40A);performing a first inertization step within said separating vessel; and,after said first inertization step, performing a discharging step using said discharge device (40) to discharge said separated material from said separating vessel, said discharging step comprising pivoting said discharge lid (41) from its closed position to its opened position relative to said discharge opening (40A) such that said separated material collected in said lower region of said separating vessel (100) exits said separating vessel by falling through said discharge opening (40A),said first inertization step comprising feeding an inert fluid into the separating vessel (100) below a free surface (102A) of separated material (102) while said discharge lid (41) is in its closed position relative to said discharge opening (40A) and flowing said inert fluid through said separated material and out of said separating vessel to displace residual oxygen from said separating vessel, wherein the inert fluid is fed into the separating vessel (100) by means of a line (44, 45) which is valve-controlled (43, 43′) and the inert fluid flows through the separated material before flowing through a filter (50) that is also located in the separating vessel (100), and said inert fluid exits the separating vessel (100) through an outlet opening (100B) of the separating vessel after flowing through said filter, said filter located between said intake opening (38) and said outlet opening (100B);said method further comprising a second inertization step that occurs after completion of said first inertization step and during said discharging step, said second inertization step comprising conducting a flow of inert fluid through said filter from a clean gas side of said filter that is oriented toward said outlet opening (100B) toward said discharge opening (40A) when said discharge lid (41) is in its opened position relative to said discharge opening (40A) and while said separated material is being discharged from said separating vessel through said discharge opening. 13. Method for inertization according to claim 4, wherein said step of determining said concentration of oxygen in the fluid (104) present in the separating vessel (100) comprises determining said concentration of oxygen on a clean gas side of said filter (50). 14. Method for inertization according to claim 13, wherein said method further comprises initiating said discharging step only after said concentration of oxygen indicates completion of said inertization step.
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