IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0947555
(2007-11-29)
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등록번호 |
US-7739907
(2010-07-12)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Tarolli, Sundheim, Covell & Tummino LLP
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
40 |
초록
▼
A container includes a chamber for containing fluid. At least one sensor is disposed within the chamber for sensing a property of fluid in the container. A unit that receives a signal from the sensor communicates with a device that displays the property of the fluid in the container. The container m
A container includes a chamber for containing fluid. At least one sensor is disposed within the chamber for sensing a property of fluid in the container. A unit that receives a signal from the sensor communicates with a device that displays the property of the fluid in the container. The container may include first and second chambers. A first sensor is disposed within the first chamber. The first sensor is in contact with fluid in the first chamber. The first sensor senses a volume of fluid in the first chamber. A second sensor is disposed within the second chamber. The second sensor is in contact with fluid in the second chamber. The second sensor senses a volume of fluid in the second chamber. A diverter may direct fluid from an inlet to a bottom portion of the chamber and prevents the fluid from contacting the sensor. A releasable device may prevent fluid from flowing from the first chamber to the second chamber. The releasable device permits fluid to flow from the first chamber into the second chamber upon release of the releasable device. An element of the sensor may have a first portion with an electrical resistance per unit length greater than an electrical resistance per unit length of a second portion of the element. A shunt resistor extending between lower portions of first and second elements of the sensor may have a resistance equal to approximately 0.08 times a resistance of the sensor when the chamber is empty.
대표청구항
▼
Having described the invention, the following is claimed: 1. A container for fluid comprising: a chamber for containing fluid; a sensor disposed within the chamber for sensing a property of fluid in the container; a unit that receives a signal from the sensor and communicates with a device that dis
Having described the invention, the following is claimed: 1. A container for fluid comprising: a chamber for containing fluid; a sensor disposed within the chamber for sensing a property of fluid in the container; a unit that receives a signal from the sensor and communicates with a device that displays the property of the fluid in the container, the sensor including a conductive element and a resistive element, the conductive element being made of a silver-particle-based material and the resistive element being made of a carbon-particle-based material. 2. A container for fluid comprising: a chamber for containing fluid; a sensor disposed within the chamber for sensing a property of fluid in the container; a unit that receives a signal from the sensor and communicates with a device that displays the property of the fluid in the container, said container including a plurality of chambers having different volumes, the plurality of chambers being arranged so that fluid flows into the smallest chamber first and then fills subsequent larger volume chambers, a plurality of different length sensors sense the volume of fluid in each of the chambers, the fluid interacting with a shortest sensor of the plurality of sensors first and interacting with subsequent longer length sensors of the plurality of sensors in the subsequent larger volume chambers. 3. The container as set forth in claim 2 wherein the unit communicates wirelessly with the device that displays the property of the fluid. 4. The container as set forth in claim 2 wherein each sensor includes an element, the element including a resistive element. 5. The container as set forth in claim 4 wherein the resistive element is made of a carbon-particle-based material. 6. The container as set forth in claim 2 wherein the plurality of sensors sense the volume of fluid in the plurality of chambers independently of each other, each of the plurality of sensors having a conductive element and a resistive element. 7. The container as set forth in claim 2 wherein the sensor is being-formed by one of screen printing and ink-jet printing. 8. The container as set forth in claim 7 wherein the sensor is connected to a strip that is placed within the chamber of the container. 9. The container as set forth in claim 2 wherein the sensor is connected to an inner surface of a wall of the container. 10. The container as set forth in claim 2 the plurality of different volume chambers are stacked inside each other such that fluid fills a smallest chamber of the plurality of chambers first then overflows to fill a subsequent larger volume chamber through a flow passage, a plurality of different length sensors sensing the volume of fluid in each of the plurality of chambers, the fluid interacting with a shortest sensor of the plurality of sensors in the smallest volume chamber first, then interacting with a subsequent longer length sensor in a larger volume chamber. 11. The container as set forth in claim 2 wherein a diverter directs fluid flowing into the container and prevents the fluid from interacting with at least one of the sensors when the fluid flows into the container. 12. The container as set forth in claim 11 wherein the diverter includes a tube directing inlet fluid to a bottom of the container. 13. The container as set forth in claim 11 wherein the diverter includes a flow deflector inside that directs flow around the sensor. 14. The container as set forth in claim 11 wherein the diverter includes a channel formed in the container to direct fluid to the bottom of the container. 15. The container as set forth in claim 2 wherein said container includes a device to prevent fluid in the container from initially coming in contact with at least one of the sensors in such a way as to result in possible contamination of the fluid due to leaching of material from the sensor. 16. The container as set forth in claim 15 wherein the device is releasable prior to fluid delivery from the container to causes the fluid to interact with the sensor so that the sensor substrate can determine a property of the fluid. 17. The container as set forth in claim 16 wherein the device includes a valve in a wall between first and second chambers at a bottom of said container. 18. The container as set forth in claim 16 wherein the device includes a linear device extending along a length of first and second chambers. 19. The container as set forth in claim 2 wherein a catheter-tip sensor is connected to the unit. 20. The container as set forth in claim 19 wherein the catheter-tip sensor senses core body temperature. 21. The container as set forth in claim 19 wherein the catheter tip sensor senses fluctuations in internal pressure that may give an indication of one of patient heart rate and blood pressure. 22. The container as set forth in claim 2 wherein a temperature sensor is placed within the container to sense temperature of fluid within the container. 23. The container as set forth in claim 2 wherein a device is disposed within the container to communicate information to another device outside the container through a wall of the container. 24. The container as set forth in claim 23 wherein the device is an RFID tag. 25. The container as set forth in claim 23 wherein a loop of wire outside the container acts as an antenna to transmit and collect electronic signals from the device. 26. The container as set forth in claim 25 wherein the loop of wire is placed in at least one physical area of interest to determine where the container is physically located. 27. The container as set forth in claim 23 wherein an optical device is used to transmit light signals through a wall of the container that are received by an output device containing an optical detector. 28. The container as set forth in claim 2 wherein the container is a flexible bag. 29. The container as set forth in claim 2 wherein the container is a rigid container. 30. The container as set forth in claim 2 wherein a hydrophobic coating is located between first and second sensor elements of one of the sensors. 31. The container as set forth in claim 30 wherein the hydrophobic coating is one of a moisture-cured and ultraviolet-cured silicone rubber. 32. The container as set forth in claim 30 wherein the hydrophobic coating is a wax material. 33. A container for fluid comprising: a chamber for containing fluid; a sensor disposed within the chamber for sensing a property of fluid in the container; a unit that receives a signal from the sensor and communicates with a device that displays the property of the fluid in the container, including a plurality of different volume chambers that are adjacent to each other such that fluid fills a smallest chamber of the plurality of chambers first, then overflows to fill a subsequent larger volume chamber through a flow passage, a plurality of different length sensors sensing the volume of fluid in each of the plurality of chambers, the fluid interacting with a shortest sensor of the plurality of sensors in the smallest volume chamber first, then interacting with a subsequent longer length sensor in a larger volume chamber. 34. A container for fluid comprising: a chamber for containing fluid; a sensor disposed within the chamber for sensing a property of fluid in the container; a unit that receives a signal from the sensor and communicates with a device that displays the property of the fluid in the container, the sensor including an electrode trace with a smaller width at the bottom of the container to provide increased measurement sensitivity for low volumes of fluid entering the container, a shunt resistor having an optimum resistance connecting first and second electrode traces at a bottom of the sensor substrate to provide increased measurement sensitivity for very low volumes of fluid entering the container. 35. The container as set forth in claim 34 wherein the optimum resistance of the shunt resistor is determined by varying the shunt resistance relative to the overall sensor resistance to determine the optimum value that provides optimum sensor response at very low collection volumes. 36. The container as set forth in claim 35 wherein the optimum resistance is approximately 8 percent of the overall resistance of the sensor. 37. A container for fluid comprising: a first chamber within the container for containing fluid; a second chamber within the container for containing fluid; a first sensor disposed within the first chamber, the first sensor being in contact with fluid in the first chamber, the first sensor sensing a volume of fluid in the first chamber; and a second sensor disposed within the second chamber, the second sensor being in contact with fluid in the second chamber, the second sensor sensing a volume of fluid in the second chamber. 38. The container as set forth in claim 37 wherein the first chamber is smaller than the second chamber. 39. The container as set forth in claim 38 wherein the first chamber fills with fluid prior to the second chamber filling with fluid. 40. The container as set forth in claim 39 wherein the first chamber is below the second chamber when the container receives fluid. 41. The container as set forth in claim 37 wherein said first chamber is located within said second chamber, an orifice at the top portions of the first and second chambers connecting the first and second chambers. 42. A container for fluid comprising: a first chamber for containing fluid; a second chamber for containing fluid; a first sensor disposed within the first chamber, the first sensor being in contact with fluid in the first chamber, the first sensor sensing a volume of fluid in the first chamber; and a second sensor disposed within the second chamber, the second sensor being in contact with fluid in the second chamber, the second sensor sensing a volume of fluid in the second chamber, the first chamber being smaller than the second chamber, the first sensor extending along a length of the first chamber and the second sensor extending along a length of the second chamber, the first chamber and the first sensor being shorter than the second chamber and the second sensor. 43. A container for fluid comprising: a first chamber for containing fluid; a second chamber for containing fluid; a first sensor disposed within the first chamber, the first sensor being in contact with fluid in the first chamber, the first sensor sensing a volume of fluid in the first chamber; and a second sensor disposed within the second chamber, the second sensor being in contact with fluid in the second chamber, the second sensor sensing a volume of fluid in the second chamber, the first chamber being smaller than the second chamber. 44. A container for fluid comprising: a first chamber for containing fluid; a second chamber for containing fluid; a first sensor disposed within the first chamber, the first sensor being in contact with fluid in the first chamber, the first sensor sensing a volume of fluid in the first chamber; and a second sensor disposed within the second chamber, the second sensor being in contact with fluid in the second chamber, the second sensor sensing a volume of fluid in the second chamber, the first and second chambers being located adjacent each other, an orifice at top portions of the first and second chambers connecting the first and second chambers.
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