IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0463675
(2012-05-03)
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등록번호 |
US-8584691
(2013-11-19)
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발명자
/ 주소 |
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출원인 / 주소 |
- Hammonds Technical Services, Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
21 |
초록
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A liquid metering device that dispenses liquid into an adjacent reservoir at a precise ratio relative to the total volume of the adjacent reservoir as the reservoir is filled with liquid. The hydrostatic dispensing system includes an additive reservoir, a calibrated dispensing vessel, a hydrostatic
A liquid metering device that dispenses liquid into an adjacent reservoir at a precise ratio relative to the total volume of the adjacent reservoir as the reservoir is filled with liquid. The hydrostatic dispensing system includes an additive reservoir, a calibrated dispensing vessel, a hydrostatic pressure chamber, a pressure limiter, and a three-way valve that passively arms and dis-arms the system.
대표청구항
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1. A system (99) for proportionally dispensing a liquid comprising: a reservoir (12) for receiving a first liquid (10) into which a proportional dosage of a second liquid (20) is dispensed;said reservoir (12) defining a bottom surface (11) and a top surface (13);a container (22) for storing said sec
1. A system (99) for proportionally dispensing a liquid comprising: a reservoir (12) for receiving a first liquid (10) into which a proportional dosage of a second liquid (20) is dispensed;said reservoir (12) defining a bottom surface (11) and a top surface (13);a container (22) for storing said second liquid (20), said container (22) elevated above said top surface (13) of said reservoir (12);a dispensing vessel (100) for transferring said second liquid (20) from said container (22) into said reservoir (12), said dispensing vessel (100) defining a bottom surface (101) and a top surface (102), said dispensing vessel (100) having a maximum dispensing vessel head when filled to said top surface (102) with said second liquid (20);a first conduit (120) connecting the bottom surface (11) of said reservoir (12) to the top surface (102) of said dispensing vessel (100);a second conduit (124) connecting the bottom surface (101) of said dispensing vessel (100) to said reservoir (12) and said container (22), said second conduit (124) defining first and second mutually exclusive flow paths, said first flow path defined between the bottom surface (101) of said dispensing vessel (100) and the top surface (13) of said reservoir (12) and said second flow path defined between said container (22) and the bottom surface (101) of said dispensing vessel (100); anda pressure limiter (700), said pressure limiter (700) adapted to restrict the pressure of second liquid (20) in said second flow path to not in excess of said maximum dispensing vessel head;whereby an increased head resulting from an addition of said first liquid (10) to said reservoir (12) urges via said first conduit (120) a proportional volume of said second liquid (20) to be dispensed from said dispensing vessel (100) into said reservoir (12) via said first flow path of said second conduit (124), anda decreased head resulting from an evacuation of said reservoir (12) urges via said first conduit (120) said second liquid (20) to flow from said container (22) to said dispensing vessel (100) via said second flow path of said second conduit (124). 2. The system (99) of claim 1 wherein: said reservoir (12) is characterized by a cross-sectional area that varies with height (h); andsaid dispensing vessel (100) has a vertical profile that varies with height (h) so that a fixed volume of said second liquid (20) per unit volume of said first liquid (10) is dispensed into said reservoir (12) at all points between the bottom surface (11) of the reservoir and the top surface (13) of the reservoir. 3. The system (99) of claim 1 wherein: said bottom surface (101) of said dispensing vessel (100) is disposed at the same elevation as the bottom surface (11) of said reservoir (12);said top surface (102) of said dispensing vessel (100) is disposed at the same elevation as the top surface (13) of said reservoir (12); anda portion (134) of said first conduit (120) is elevated above said container (22). 4. The system (99) of claim 1 further comprising: a hydrostatic chamber (130) disposed within said first conduit (120), said chamber (130) defining a bottom surface that is connected to the bottom surface (11) of said reservoir (12) and a top surface that is connected to the top surface (102) of said dispensing vessel (100). 5. The system (99) of claim 4 wherein: said hydrostatic chamber (130) is characterized by an average horizontal cross-sectional area that is greater than an average horizontal cross-sectional area of said dispensing vessel (100). 6. The system (99) of claim 5 wherein: a ratio of the average horizontal cross-sectional area of said hydrostatic chamber (130) to the average horizontal cross-sectional area of said dispensing vessel (100) ranges between 10:1 and 16:1. 7. The system (99) of claim 1 further comprising: a displacement member (160) disposed in said dispensing vessel (100), whereby the presence of said displacement member (160) in said dispensing vessel (100) lowers the dosage rate of said second liquid (20) per unit volume of said first liquid (10). 8. The system (99) of claim 7 wherein: said reservoir (12) is characterized by a cross-sectional area that varies with height (h); andsaid displacement member (160) has a vertical profile that varies with height (h) so that a fixed volume of said second liquid (20) per unit volume of said first liquid (10) is dispensed from said dispensing vessel (100) containing said displacement member (160) at all points between the bottom surface (11) of the reservoir and the top surface (13) of the reservoir. 9. The system (99) of claim 1 further comprising: a three-way valve (150) disposed in said second conduit (124) so as to selectively enable said first or second flow path. 10. The system (99) of claim 9 wherein: said three-way valve (150) has a first port (152) connected to the bottom surface (101) of said dispensing vessel (100), a second port (151) connected to said reservoir (12) and a third port (153) in communication with said container (22);said three-way valve (150) includes an operator (159) to position said three-way valve (150) in a one of a first flow path position, in which said first port (152) is in fluid communication with said second port (151) and said third port (153) is isolated, and a second flow path position, in which said second port (151) is isolated and said first port (152) is in fluid communication with said third port (153). 11. The system (99) of claim 10 wherein: said reservoir (12) includes a fill opening (19) near said top surface (13) of said reservoir (12) for filling said reservoir (12) with said first liquid (10); andsaid three-way valve (150) is coupled to said reservoir (12) so that said operator (159) obstructs access to said fill opening (19) when said operator (159) is positioned in said second flow path position and said operator (159) is clear of said fill opening (19) when said operator (159) is positioned in said first flow path position. 12. The system (99) of claim 1 wherein: said dispensing vessel (100) is a calibrated vertical column. 13. The system (99) of claim 12 wherein said pressure limiter (700) comprises: a pressure column (706), said pressure column in fluid communication with said container (22) and said dispensing vessel (100);a level switch (708) positioned in said pressure column at a minimum fluid level in said pressure column;a valve (710) intermediate said pressure column (706) and said container (22) adapted to be activated by said level switch to permit flow of said second fluid (20) to said pressure column (706); anda vent (712), said vent (712) adapted to vent said pressure column (706) at atmospheric pressure at a height the maximum level of said second liquid (20) in said container (22). 14. A system (99) for dispensing a second liquid (20) proportionally into a first liquid (10), the system (99) comprising: a reservoir (12) defining a top surface (13) and a bottom surface (11) and having an opening (19) at the top surface of said reservoir (12) for receiving said first liquid (10);a container (22) for holding said second liquid (20), said container (22) defining a top and a bottom, the bottom of said container (22) elevated above the top surface (13) of said reservoir (12);a dispensing vessel (100) defining a top surface (102) and a bottom surface (101), said dispensing vessel (100) equal to the height (h) of said reservoir (12) and disposed elevationally level therewith, said dispensing vessel (100) having a maximum dispensing vessel head when filled to said top surface (102) with said second liquid (20);a hydrostatic chamber (130) defining a top and a bottom, the bottom of said hydrostatic chamber (130) fluidly coupled to the bottom surface (11) of said reservoir (12), the top of said hydrostatic chamber (130) fluidly coupled to the top surface (102) of said dispensing vessel (100);a three-way valve (150) having first, second and third ports (152, 151, 153), said container (22) fluidly coupled to said third port (153), said bottom surface (101) of said dispensing vessel (100) fluidly coupled to said first port (152), and the top surface (13) of said reservoir (12) fluidly coupled to said second port (151), a first valve position connecting said first port (152) and said second port (151) while isolating said third port (153) and a second valve position connecting said first port (152) and said third port (153) while isolating said second port (151); anda pressure limiter (700), said pressure limiter (700) adapted to restrict the pressure of second liquid (20) intermediate said container (22) and said third port (153) to not in excess of said maximum dispensing vessel head. 15. The system (99) of claim 14 wherein: said three-way valve (150) is mounted to said reservoir (12); andsaid three-way valve (150) includes an operator (159) that selectively covers a fill opening (19) of said reservoir (12). 16. The system (99) of claim 14 wherein: said dispensing vessel (100) is a calibrated vertical column. 17. The system (99) of claim 14 further comprising: a calibrated displacement member (160) removably installed in said dispensing vessel (100). 18. The system (99) of claim 14 wherein said pressure limiter (700) comprises: a pressure column (706), said pressure column in fluid communication with said container (22) and said dispensing vessel (100);a level switch (708) positioned in said pressure column at a minimum fluid level in said pressure column;a valve (710) intermediate said pressure column (706) and said container (22) adapted to be activated by said level switch to permit flow of said second fluid (20) to said pressure column (706); anda vent (712), said vent (712) adapted to vent said pressure column (706) at atmospheric pressure at a height the maximum level of said second liquid (20) in said container (22). 19. A method for proportionally dispensing a second liquid (20) into a first liquid (10) comprising the steps of: providing a reservoir (12) containing said first liquid (10);providing a dispensing vessel (100) having a height and elevation equal to that of said reservoir (12);coupling a top of said dispensing vessel (100) to a bottom of said reservoir (12) so that fluid head in said reservoir (12) pressurizes said dispensing vessel (100), said dispensing vessel (100) having a maximum dispensing vessel head when filled to said top surface (102) with said second liquid (20);fluidly coupling a bottom (101) of said dispensing vessel (100) to a pressure limiter (700), said pressure limiter (700) adapted to restrict the pressure of said second liquid (20) intermediate a container (22) and a valve (150) in communication with said container (22) to not in excess of said maximum dispensing vessel head;fluidly coupling the pressure limiter (700) to said container (22) having said second liquid (20) stored therein;filling said dispensing vessel (100) with said second liquid (20) from said container (22) by lowering the pressure in said dispensing vessel (100) by draining said reservoir (12);fluidly coupling said bottom (101) of said dispensing vessel to the top (13) of said reservoir (12); anddispensing said second liquid (20) from said dispensing vessel (100) into said reservoir (12) by raising the pressure in said dispensing vessel (100) by filling said reservoir (12) with said first liquid (10). 20. The method of claim 19 further comprising the steps of: installing a solid displacement member (160) into said dispensing vessel (100) to reduce a dosage rate. 21. The method of claim 19 wherein said pressure limiter (700) comprises: a pressure column (706), said pressure column in fluid communication with said container (22) and said dispensing vessel (100);a level switch (708) positioned in said pressure column at a minimum fluid level in said pressure column;a valve (710) intermediate said pressure column (706) and said container (22) adapted to be activated by said level switch to permit flow of said second fluid (20) to said pressure column (706); anda vent (712), said vent (712) adapted to vent said pressure column (706) at atmospheric pressure at a height the maximum level of said second liquid (20) in said container (22). 22. The method of claim 19 further comprising the steps of: before filling said reservoir (12) with said first liquid (10), fluidly coupling the bottom (101) of said dispensing vessel to the top (13) of said reservoir (12) by actuating an operator (159) of a three-way valve (150) to expose a fill opening (19) of said reservoir (12). 23. The method of claim 22 further comprising the step of: after filling said reservoir (12) with said first liquid (10), fluidly coupling the bottom (101) of said dispensing vessel (100) to said container (22) by actuating said operator (159) of said three-way valve (150) to cover said fill opening (19) of said reservoir (12).
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