Injection port valves are generally discussed herein and more particularly to port valves that have a valve housing with a nozzle having an inlet opening, a body section, a skirt section, an interior cavity, and a valve seat at an intersection of the first nozzle and the body section in the interior
Injection port valves are generally discussed herein and more particularly to port valves that have a valve housing with a nozzle having an inlet opening, a body section, a skirt section, an interior cavity, and a valve seat at an intersection of the first nozzle and the body section in the interior cavity. A piston may be positioned within the interior cavity of the valve housing having a body section having an exterior surface, an upper piston section, a seal surface, and a piston cavity, and wherein the body section includes a wall layer that emits lubricant from within the wall layer to the exterior surface. A nut, which may be a Luer nut, having a flow passage in communication with a discharge nozzle having a discharge lumen may be attached to an end of the skirt section of the valve housing to thereafter connect to an infusion line. A spring can be positioned within the piston cavity and abutting against the nut, wherein when used, the spring being in a first position when the seal surface of the piston is abutted against the valve seat of the valve housing, and the spring being in a second position when the seal surface of the piston is separated from the valve seat.
대표청구항▼
1. An injection port valve comprising:a valve housing comprising a first nozzle having an inlet opening, a body section, a skirt section, an interior cavity, and a valve seat located in the interior cavity; a piston positioned within the interior cavity of the valve housing, the piston comprising a
1. An injection port valve comprising:a valve housing comprising a first nozzle having an inlet opening, a body section, a skirt section, an interior cavity, and a valve seat located in the interior cavity; a piston positioned within the interior cavity of the valve housing, the piston comprising a body section having an exterior surface, a seal surface, and a piston cavity, wherein the body section comprises a wall layer that emits liquid silicone from within the wall layer to the exterior surface, and wherein the seal surface is abutted against the valve seat of the valve housing; a nut comprising a flow passage in communication with a discharge nozzle comprising a discharge lumen attached to an end of the skirt section of the valve housing; and wherein the inlet opening of the first nozzle is in fluid communication with the discharge lumen of the discharge nozzle when the seal surface is spaced apart from the valve seat. 2. The valve of claim 1, wherein the first nozzle comprises male threads.3. The valve of claim 1, further comprising a plug and a spirng positioned in the piston cavity of the piston.4. The valve of claim 3, wherein the plug comprises a head section and wherein the head section comprises a plurality of flow channels.5. The valve of claim 1, wherein the nut is a Luer nut.6. The valve of claim 1, wherein the nut comprises a skirt section, and wherein the skirt section and the discharge nozzle cooperate to engage an infusion line.7. The valve of claim 1, further comprising a second nozzle having a second inlet opening and a second nozzle axis, and wherein the second nozzle axis is positioned at angle of about 25 degrees to about 65 degrees from a first axis of the first nozzle.8. The valve of claim 7, wherein the second nozzle defines a second lumen and wherein the second lumen is in liquid communication with the discharge lumen of the discharge nozzle.9. The valve of claim 1, wherein the nut further comprises a radially extending flange, and wherein the radially extending flange is welded to the end of the skirt section.10. The valve of claim 1, wherein the interior cavity of the valve housing comprises a plurality of flow channels.11. The valve of claim 1, further comprising a resilient member positioned within the piston cavity, and wherein the resilient member biases the seal surface of the piston against the valve seat of the valve housing.12. The valve of claim 1, wherein the piston comprises an interior surface and wherein the wall layer emits liquid silicone from within the wall layer to the interior surface.13. An injection port valve comprising:a piston positioned inside a valve housing, the piston comprises a wall having a wall surface that emits medical lubricant from within the wall to the wall surface when the piston is compressed; a Luer nut attached to an opening of the valve housing, the Luer nut comprising a flow passage and a discharge nozzle defining a port; and wherein the valve housing further comprises a first nozzle defining an inlet opening, and wherein the inlet opening, the flow passage, and the port of the discharge nozzle are in fluid communication when a syringe tip is inserted into the inlet opening. 14. The valve of claim 13, wherein the piston is made by injection molding a two-part liquid silicone rubber material into a mold.15. The valve of claim 13, wherein the piston is made by the process of forming a homogeneous sheet silicone and then cutting and forming a section of the homogeneous sheet that can be fed into a heated compression or a transfer mold.16. The valve of claim 13, wherein the first nozzle comprises male threads.17. The valve of claim 13, wherein the Luer nut comprises a threaded skirt section.18. The valve of claim 13, further comprising a second nozzle positioned at an angle relative to the first nozzle.19. The valve of claim 18, wherein the second nozzle is in constant fluid communication with the port of the discharge nozzle.20. The valve of claim 13, wherein the inside of the valve housing comprises a plurality of flow channels.21. The valve of claim 13, wherein the inside of the valve housing comprises a first set of upper flow channels and a second different set of lower flow channels.22. The valve of claim 13, further comprising a spring positioned within an interior piston cavity.23. The valve of claim 13, wherein the medical lubricant comprises liquid silicone.24. The valve of claim 13, wherein the Luer nut comprises a second flow passage.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (98)
Meloul Raphael F. ; Rosen Jonathan J., Automatic fluid control valve.
Collinson Michael (Goleta CA) Plyley Alan K. (Goleta CA) Redmond Russell J. (Goleta CA) Vidal Claude (Santa Barbara CA), Capless medical backcheck valve.
Thomas Joseph J. (Berwyn PA) Thomas Robert W. (Wayne PA) Catlin David G. (West Chester PA) Armour Andrew W. (Springfield PA), Catheter introducer with lubrication means.
Deem Mark E. (Pembroke Pines FL) Slater Andrea T. (Pembroke Pines FL), Medical instrument valve with foam partition member having vapor permeable skin.
Jepson Steven C. ; Dudar Thomas E. ; Montanez Rodrigo A. ; Bindokas Algirdas J. ; Finley Michael J. ; White Jason J. ; Summer Camille ; Ding Samuel ; Daniels Lewis E., Needleless connector.
Jepson Steven C. ; Dudar Thomas E. ; Montanez Rodrigo A. ; Bindokas Algirdas J. ; Finley Michael J. ; White Jason J. ; Summers Camille, Needleless connector.
Jepson, Steven C.; Dudar, Thomas E.; Montanez, Rodrigo A.; Bindokas, Algirdas J.; Finley, Michael J.; White, Jason J.; Summers, Camille, Needleless connector.
Steven C. Jepson ; Thomas E. Dudar ; Rodrigo A. Montanez ; Algirdas J. Bindokas ; Michael J. Finley ; Jason J. White ; Camille Summer ; Samuel Ding ; Lewis E. Daniels, Needleless connector.
Thomas Joseph J. (Berwyn PA) Catlin David G. (West Chester PA) Armour Andrew (Delaware County PA) Thomas Robert W. (Wayne PA), Needleless introducer with hemostatic valve.
Tomisaka Dennis M. (Dublin OH) McGinniss Vincent D. (Sunbury OH) Masterson David C. (Grove City OH), Needleless valve having a covalently bonded lubricious coating.
George A. Lopez ; Thomas F. Fangrow, Jr. ; David C. Arnold ; Bruce M. Hubrecht ; Alison D. Brummett ; Thomas J. Gustus ; Dennis M. Bui, Positive-flow valve.
Franetzki Manfred (Uttenreuth DEX) Geisselbrecht Georg (Erlangen DEX) Buchholtz Gerhard (Erlangen DEX) Fickweller Werner (Erlangen DEX) Obermann Peter (Erlangen DEX), Reciprocating pump for an implantable medication dosage device.
Garfield, Jared Michael; Koplin, Randall Scott; Kallsen, Kent Jeffrey; Lee, Daniel Juhyung; Mitchell, Stephen R.; Slump, John R., Closed fluid transfer system.
Garfield, Jared Michael; Koplin, Randall Scott; Kallsen, Kent Jeffrey; Lee, Daniel Juhyung; Mitchell, Stephen R.; Slump, John R., Closed fluid transfer system.
Garfield, Jared Michael; Koplin, Randall Scott; Kallsen, Kent Jeffrey; Lee, Daniel Juhyung; Mitchell, Stephen R.; Slump, John R., Closed fluid transfer system with syringe adapter.
Garfield, Jared Michael; Koplin, Randall Scott; Kallsen, Kent Jeffrey; Lee, Daniel Juhyung; Mitchell, Stephen R.; Slump, John R., Closed fluid transfer system with syringe adapter.
Garfield, Jared Michael; Koplin, Randall Scott; Kallsen, Kent Jeffrey; Lee, Daniel Juhyung; Mitchell, Stephen R.; Slump, John R., Closed fluid transfer system with syringe adapter.
Garfield, Jared Michael; Koplin, Randall Scott; Kallsen, Kent Jeffrey; Lee, Daniel Juhyung; Mitchell, Stephen R.; Slump, John R., Closed fluid transfer system with syringe adapter.
Garfield, Jared Michael; Koplin, Randall Scott; Kallsen, Kent Jeffrey; Lee, Daniel Juhyung; Mitchell, Stephen R.; Slump, John R., Closed fluid transfer system with syringe adapter.
Hogard, Michael Edward; Lingam, Gopi; Hu, Dean; Maniam, Balaji M.; Ritson, James; Uchida, Andy H.; Stienmier, John David; McGregor, Paul David, Dialysis system and methods.
Hogard, Michael Edward; Lingam, Gopi; Hu, Dean; Maniam, Balaji M.; Ritson, James; Uchida, Andy H.; Stienmier, John David; McGregor, Paul David, Dialysis system and methods.
Hogard, Michael Edward; Lingam, Gopi; Hu, Dean; Maniam, Balaji M.; Ritson, James; Uchida, Andy H.; Stienmier, John David; McGregor, Paul David, Dialysis system and methods.
Ruschke, Ricky R.; Kandel, Edward; Leonhard, Michael G.; Kinsley, Mark A.; Leahey, John A.; Mijers, Jan W. M.; Kay, Ronald J., Fluid handling device and method of making same.
Ruschke, Ricky R.; Kandel, Edward; Leonhard, Michael G.; Kinsley, Mark A.; Leahey, John A.; Mijers, Jan W. M.; Kay, Ronald J., Fluid handling device and method of making same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.