IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0941225
(2004-09-15)
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등록번호 |
US-7306566
(2007-12-11)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Cardinal Health 303, Inc.
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
47 인용 특허 :
130 |
초록
▼
A needle free vacuumized blood collection device includes a male connector having a valve element disposed within the internal bore of the male connector that opens or closes a flow passage into the blood collection vial. The valve element includes an activation arm extending outwardly through the m
A needle free vacuumized blood collection device includes a male connector having a valve element disposed within the internal bore of the male connector that opens or closes a flow passage into the blood collection vial. The valve element includes an activation arm extending outwardly through the male connector that contacts a female connector when the male and female connector are engaged. The activation arm shifts the valve element in the proximal direction to open a naturally open flow opening in the valve element to permit flow into the vial. A spring device biases the valve element to the non-flow configuration.
대표청구항
▼
I claim: 1. A blood collection device for collecting blood from a patient through an I.V. line having a female connector, the blood collection device comprising: a body member having distal and proximal ends; a distally projecting male connector formed on the body member with an internal bore, the
I claim: 1. A blood collection device for collecting blood from a patient through an I.V. line having a female connector, the blood collection device comprising: a body member having distal and proximal ends; a distally projecting male connector formed on the body member with an internal bore, the outer shape of the male connector configured to engage an inner shape of the female connector, the male connector having at least one lateral opening; a collection vial sealingly attached to the proximal end of the body member; and a valve element disposed within the internal bore of the male connector, the valve element having a first and a second end and including a flow passage connecting the first and second ends, the valve element also includes a flow opening disposed in the first end and the flow opening being in fluid communication with the flow passage, wherein the flow passage includes: a cross-hole formed substantially at the second end of the valve element, and an axial through-hole in fluid communication with the first end of the valve element and the cross-hole the valve element including at least one activation arm extending beyond the lateral opening of the male connector; and a spring device disposed at the second end of the valve element to bias the valve element toward the distal end of the male connector; wherein engagement of the male connector with the female connector causes the female connector to push the activation arm and the valve element toward the proximal end of the male connector thereby causing the flow opening of the valve element to open and allow fluid flow between the female connector and the collection vial, and upon disengagement of the female and male connectors, the spring device forces the valve element toward the distal end of the male connector such that the flow opening of the valve element closes when the female connector is disengaged from the male connector. 2. The blood collection device of claim 1 wherein the male connector further includes a support device disposed at its proximal end for receiving the spring device so that the spring device may bias the valve element towards the distal end of the male connector. 3. The blood collection device of claim 2 wherein: the spring device is configured with two spaced-apart proximally-projecting legs; the support device includes a spreader bar positioned between the legs; and the legs flexibly straddle the spreader to bias the valve element towards the distal end of the in male connector. 4. The blood collection device of claim 1 wherein the valve element includes: a tube having a distal end and proximal end; and and end cap disposed on the distal end of the tube and configured to sealingly engage the internal bore of the male connector, and the end cap having the flow opening disposed therein. 5. The blood collection device of claim 4 wherein: the internal bore of the valve tube includes a distal portion having a distal taper from a first inside diameter to a second inside diameter at the distal end of the body, the second inside diameter being smaller than the first inside diameter; the end cap includes an outside diameter substantially equivalent to the first inside diameter, so that when the valve element is biased distally within the internal bore the end cap is compressed radially inward to the second inside diameter, thereby closing the flow opening. 6. The blood collection device of claim 5 wherein the flow opening is elliptical. 7. The blood collection device of claim 1 wherein: the male connector includes two lateral openings disposed in the tubular body located opposite each other; and the valve element includes two activation arms that extend through the respective lateral openings. 8. The blood collection device of claim 1 wherein the cross-hole is positioned in the valve element at its proximal end such that when the valve element is biased towards the distal end of the male connector, the cross-hole is sealed and when the valve element is shifted towards the proximal end of the male connector upon insertion of the male connector within the female connector, the cross-hole is exposed to allow fluid flow laterally therethrough. 9. The blood collection device of claim 1 wherein: the male connector includes a proximally-projecting body member flange about its perimeter having an interior surface defining an inside diameter; and the collection vial is attached to the male connector through radial engagement with the body member flange. 10. The blood collection device of claim 9 further comprising a stopper configured with a distal annular flange having an exterior surface defining an outside diameter larger than the inside diameter of the body member flange, and the stopper includes a central portion projecting proximally from the annular flange and circumferentially inset from the exterior surface of the annular flange so as to form a proximally-facing annular cavity between the central portion and the interior surface of the body member flange for sealing receipt of the collection vial, and the central portion of the stopper includes a central hole so as to be substantially aligned with the internal bore of the tubular body to allow axial movement of the valve element therethrough. 11. The blood collection device of claim 10 wherein: the central hole of the stopper is counterbored so as to have a distal hole diameter substantially equivalent to the inside diameter of the internal bore of the tubular body and a proximal hole diameter greater than the distal hole diameter and the cross-hole is positioned along the valve element such that when the valve element is biased towards the distal end of the male connector, the cross-hole is sealed within the distal hole of the stopper and when the valve element is shifted towards the proximal end of the male connector the cross-hole is substantially within the proximal hole diameter so as to be unsealed and allow fluid flow therethrough. 12. The blood collection device of claim 1 wherein the male connector includes a male threaded collar positioned about the tubular body for receipt of female connector. 13. A blood collection device comprising: a male connector having proximal and distal ends, a distally projecting tubular body formed with an internal bore and at least one lateral opening, the male connector further includes a proximally-projecting support arm and a body member flange thereabout; a stopper disposed within the body member flange so as to form a proximally-facing annular cavity between at least a portion of the stopper and the body member flange, the stopper further includes a central portion formed with a central counterbored hole so as to be substantially aligned with the internal bore of the tubular body; a collection vial sealingly attached to the male connector through receipt in the proximally-facing annular cavity; and a valve element installed within the internal bore of the tubular body and configured to move axially therein, the valve element including an axially extending through-hole and a proximal laterally extending cross-hole that are in fluid communication with one another, the valve element also includes at least one activation arm extending through the at least one lateral opening, and the valve element includes a proximally-projecting spring device configured to engage the support arm to bias the valve element distally within the internal bore; wherein the proximal cross-hole is sealed by the internal bore when the valve element is biased toward the distal end of the male connector, and the proximal cross-hole is un-sealed and allows fluid to flow therethrough and into the collection vial when the valve element is moved towards the proximal end of the male connector. 14. The blood collection device of claim 13, wherein: the spring device is configured with two adjacent proximally-projecting legs; the support arm is positioned offset from the central axis of the body and configured with a radially-inwardly extending spreader positioned substantially adjacent the internal bore; and the legs flexibly straddle the spreader to bias the valve element distally. 15. The blood collection device of claim 13 wherein the valve element includes: a central post; and a distal end cap configured to sealingly engage the internal bore and having a flow opening therein for selective fluid communication with the through-hole, the end cap being further configured such that when the valve element is biased distally within the internal bore, the end cap and internal bore cooperate to close the flow opening. 16. The blood collection device of claim 15 wherein: the male connector includes two lateral openings; and the valve element includes two activation arms to extend through the respective lateral openings. 17. The blood collection device of claim 15 wherein: a distal portion of the internal bore is configured with a distal taper from a first inside diameter to a second inside diameter at the distal end of the tubular body, the second inside diameter being smaller than the first inside diameter; the end cap is configured having an outside diameter substantially equivalent to the first inside diameter, so that when the valve element is biased distally within the internal bore the end cap is compressed radially inward to the second inside diameter, thereby closing the flow opening. 18. A method for collecting blood from a patient through an I.V. line having a female connector configured with a tubular band of a predetermined interior cross-section, including: providing a needle free vacuumized blood collection device comprising: a male connector having a distally-projecting tubular body including an internal bore, an exterior cross-section configured to sealingly engage the interior cross-section of the female connector and at least one lateral opening, the male connector further including a proximally-projecting support arm; a collection vial sealingly attached to the male connector; and a valve element having a first end and a second end and a selectively sealed flow passage therethrough installed within the internal core and configured to move axially therein, the flow passage including a laterally extending cross-hole formed substantially at the second end of the valve element and an axial through-hole in fluid communication with the first end of the valve element and the cross-hole, the valve element including a flow opening at the first end in fluid communication with the flow passage and further including at least one activation arm extending through the at least one lateral opening, the valve element including a proximally-projecting spring member disposed at the second end and configured to engage the support arm to bias the valve element distally within the internal bore; inserting the blood collection device into the female connector causing the female connector to engage the at least one activation arm and to shift the valve element proximally upon further insertion of the blood collection device, thereby opening the flow opening and exposing a portion of the flow passage to allow blood flow therethrough into the collection vial; and removing the blood collection from the female connector when the desired quantity of blood has been collected so as to disengage the activation arm and allow the spring member to shift the valve element distally, the flow opening being operative in response to the distal movement of the valve element to close, thereby preventing further flow therethrough and sealing the collected blood within the device. 19. A blood collection device for collecting blood from a patient through an I.V. line having a female connector, the blood collection device comprising: a body member having distal and proximal ends; a distally projecting male connector formed on the body member with an internal bore, the outer shape of the male connector configured to engage an inner shape of the female connector, the male connector having at least one lateral opening; a collection vial sealingly attached to the proximal end of the body member; and a valve element disposed within the internal bore of the male connector, the valve element having a first and a second end and including a flow passage connecting the first and second end, the valve element also includes a flow opening disposed in the first end and the flow opening being in fluid communication with the flow passage, the valve element including at least one activation arm extending beyond the lateral opening of the male connector; and a spring device disposed at the second end of the valve element to bias the valve element toward the distal end of the male connector; wherein engagement of the male connector with the female connector causes the female connector to push the activation arm and the valve element toward the proximal end of the male connector thereby causing the flow opening of the valve element to open and allow fluid flow between the female connector and the collection vial, and upon disengagement of the female and male connectors, the spring device forces the valve element toward the distal end of the male connector such that the flow opening of the valve element closes when the female connector is disengaged from the male connector; wherein the male connector further includes a support device disposed at its proximal end for receiving the spring device so that the spring device may bias the valve element towards the distal end of the male connector; wherein the spring device is configured with two spaced-apart proximally-projecting legs; the support device includes a spreader bar positioned between the legs; and the legs flexibly straddle the spreader to bias the valve element towards the distal end of the male connector. 20. A blood collection device for collecting blood from a patient through an I.V. line having a female connector, the blood collection device comprising: a body member having distal and proximal ends; a distally protecting male connector formed on the body member with an internal bore, the outer shape of the male connector configured to engage an inner shape of the female connector, the male connector having at least one lateral opening; a collection vial sealingly attached to the proximal end of the body member; and a valve element disposed within the internal bore of the male connector, the valve element having a first and a second end and including a flow passage connecting the first and second ends, the valve element also includes a flow opening disposed in the first end and the flow opening being in fluid communication with the flow passage, the valve element including at least one activation arm extending beyond the lateral opening of the male connector; and a spring device disposed at the second end of the value element to bias the valve element toward the distal end of the male connector; wherein engagement of the male connector with the female connector causes the female connector to push the activation and the valve element toward the proximal end of the male connector thereby causing the flow opening of the valve element to open and allow fluid flow between the female connector and the collection vial, and upon disengagement of the female and male connectors, the spring device forces the valve element toward the distal end of the male connector such that the flow opening of the valve element closes when the female connector is disengaged from the male connector; wherein the male connector includes a proximally-projecting body member flange about its perimeter having an interior surface defining an inside diameter; and the collection vial is attached to the male connector through radial engagement with the body member flange; and further comprising a stopper configured with a distal annular flange having an exterior surface defining an outside diameter larger than the inside diameter of the body member flange, and the stopper includes a central portion projecting proximally from the annular flange and circumferentially inset from the exterior surface of the annular flange so as to form a proximally-facing annular cavity between the central portion and the interior surface of the body member flange for sealing receipt of the collection vial, and the central portion of the stopper includes a central hole so as to be substantially aligned with the internal bore of the tubular body to allow axial movement of the valve element therethrough; wherein the central hole of the stopper is counterbored so as to have a distal hole diameter substantially equivalent to the inside diameter of the internal bore of the tubular body and a proximal hole diameter greater than the distal hole diameter; the flow passage through the valve element includes: a cross-hole formed substantially at the second end of the valve element; and an axial through-hole in fluid communication with the first end of the valve element and the cross-hole; and the cross-hole is positioned along the valve element such that when the valve element is biased towards the distal end of the male connector, the cross-hole is sealed within the distal hole of the stopper and when the valve element is shifted towards the proximal end of the male connector the cross-hole is substantially within the proximal hole diameter so as to be unsealed and allow fluid flow therethrough. 21. A blood collection device comprising: a male connector having proximal and distal ends, a distally projecting tubular body formed with an internal bore and at least one lateral opening, the male connector further includes a proximally-projecting support arm and a body member flange thereabout; a stopper disposed within the body member flange so as to form a proximally-facing annular cavity between at least a portion of the stopper and the body member flange, the stopper further includes a central portion formed with a central counterbored hole so as to be substantially aligned with the internal bore of the tubular body; a collection vial sealingly attached to the male connector through receipt in the proximally-facing annular cavity; and a valve element installed within the internal bore of the tubular body and configured to move axially therein, the valve element including an extending through-hole and a proximal cross-hole that are in fluid communication with one another, the valve element also includes at least one activation arm extending through the at least one lateral opening, and the valve element includes a proximally-projecting spring device configured to engage the support arm to bias the valve element distally within the internal bore; wherein the proximal cross-hole is sealed by the internal bore when the valve element is biased toward the distal end of the male connector, and the proximal cross-hole is in-sealed and allows fluid to flow therethrough and into the collection vial when the valve element is moved towards the proximal end of the male connector; wherein the spring device is configured with two adjacent proximally-projecting legs; the support arm is positioned offset from the central axis of the body and configured with a radially-inwardly extending spreader positioned substantially adjacent the internal bore; and the legs flexibly straddle the spreader to bias the valve element distally.
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