Dual-chamber syringe and methods
First Claim
1. A medical syringe, includinga plunger having at one end a resilient seal,a barrel having a central longitudinal axis and a pair of opposed ends,said barrel having at a distal end an ejection port and at a proximal end an opening,a back flow seal disposed in said ejection port preventing fluid from entering or leaving said barrel through said ejection port, said back flow seal forming a distal boundary of a refill chamber within said barrel,outer and inner telescopic tubular elements seated inside the barrel to be coaxial with said longitudinal axis,the outer tubular element being mounted in a stationary position while disposed in the barrel and the inner tubular element being movable axially within the outer tubular element,said outer tubular element and barrel forming a reservoir chamber, with the outer tubular element having a fluid passageway therein that allows the liquid to flow from the reservoir chamber into said refill chamber,the inner tubular element having a distal end with a needle having a distal tip, said inner tubular element receiving the end of the plunger with the resilient seal thereon,said resilient seal fitting snug within the inner tubular element to grip said inner tubular element and, in response to axial movement of the plunger, to move the inner tubular element between a first position where said distal tip is located within said refill chamber allowing fluid to be drawn through the distal tip into the inner tubular element by proximal movement of the plunger relative to the inner tubular element, and a second position where said distal tip extends through said back flow seal into the ejection port allowing fluid to be expelled through said ejection port upon distal movement of the plunger relative to the inner tubular element.
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Abstract
A dual-chamber syringe has a plunger within an inner delivery chamber in fluid communication with an ejection port. The deliver chamber is formed within a tubular element axially slidable within a tubular guide. The tubular guide and the syringe outer barrel form an outer reservoir chamber. The outer reservoir chamber is sealed from the delivery chamber while the tubular element is in a first position within the guide. Upon withdrawal of the plunger, frictional contact imparted by the plunger seal causes the tubular element to slide away from sealing engagement with the barrel into a second position within the guide. In the second position of the tubular element, a fluid passageway is opened from the reservoir to the delivery chamber allowing fluid to be drawn into the delivery chamber. A porous seal between the plunger rod and barrel allows air into the reservoir during transfer of fluid to the delivery chamber. Pressing the plunger inward first moves the tubular element from the second position back to the first position to close the fluid passageway and then expels fluid from the delivery chamber through the ejection port.
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Citations
17 Claims
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1. A medical syringe, including
a plunger having at one end a resilient seal, a barrel having a central longitudinal axis and a pair of opposed ends, said barrel having at a distal end an ejection port and at a proximal end an opening, a back flow seal disposed in said ejection port preventing fluid from entering or leaving said barrel through said ejection port, said back flow seal forming a distal boundary of a refill chamber within said barrel, outer and inner telescopic tubular elements seated inside the barrel to be coaxial with said longitudinal axis, the outer tubular element being mounted in a stationary position while disposed in the barrel and the inner tubular element being movable axially within the outer tubular element, said outer tubular element and barrel forming a reservoir chamber, with the outer tubular element having a fluid passageway therein that allows the liquid to flow from the reservoir chamber into said refill chamber, the inner tubular element having a distal end with a needle having a distal tip, said inner tubular element receiving the end of the plunger with the resilient seal thereon, said resilient seal fitting snug within the inner tubular element to grip said inner tubular element and, in response to axial movement of the plunger, to move the inner tubular element between a first position where said distal tip is located within said refill chamber allowing fluid to be drawn through the distal tip into the inner tubular element by proximal movement of the plunger relative to the inner tubular element, and a second position where said distal tip extends through said back flow seal into the ejection port allowing fluid to be expelled through said ejection port upon distal movement of the plunger relative to the inner tubular element.
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6. A medical syringe, including
a plunger having at one end a resilient seal, a barrel having a central longitudinal axis and a pair of opposed ends, said barrel having at one end an ejection port and at the other end an opening, a back flow seal disposed in said ejection port preventing fluid from entering or leaving said barrel through said ejection port, said back flow seal forming a distal boundary of a refill chamber within said barrel, outer and inner telescopic tubular elements seated inside the barrel to be coaxial with said longitudinal axis, the outer tubular element being mounted in a stationary position while disposed in the barrel and the inner tubular element being movable axially within the outer tubular element, said outer tubular element and barrel forming a chamber holding a reservoir of liquid, with the outer tubular element having a fluid passageway therein that allows the liquid to flow from the chamber into said refill chamber, the inner tubular element having a distal end with a cannula thereon that has a needle having a distal tip, said inner tubular element receiving the end of the plunger with the resilient seal thereon, the plunger being initially in a forward position that forces the seal with the orifice therein into engagement with the injection port to seal this port, and said resilient seal fitting snug within the inner tubular element to grip said inner tubular element and, in response to axial movement of the plunger, to move the inner tubular element between a first position where said distal tip is located within said refill chamber allowing fluid to be drawn through the distal tip into the inner tubular element by proximal movement of the plunger relative to the inner tubular element, and a second position where said distal tip extends through said back flow seal into the ejection port allowing fluid to be expelled through said ejection port upon distal movement of the plunger relative to the inner tubular element, a safety seal on the plunger which must be broken before the plunger may move with respect to the barrel.
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9. A medical syringe, including
a barrel with an ejection port at one end, a plug being mounted in said ejection port, an opening at the other end, and an internal partition member extending lengthwise between the opening and ejection port to provide a channel running between the ejection port and the opening and a chamber holding a reservoir of liquid, a moveable tubular element seated within the channel and having an end nearby the ejection port with a needle with a distal tip, a fluid passageway in the partition which allows the liquid to flow from the chamber into a space adjacent said plug, a plunger seated within the tubular element having one end that extends through the opening and another end in the tubular element to which is attached a resilient seal, said resilient seal fitting snug against the tubular element to grip said tubular element and, in response to movement of the plunger, to move the tubular element between a first position where said distal tip is located within said space allowing fluid to be drawn into the moveable tubular element by proximal movement of the plunger relative to the moveable tubular element, and a second position where said distal tip extends through said plug into the ejection port allowing fluid to be expelled through said ejection port upon distal movement of the plunger relative to the moveable tubular element.
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11. A method of giving an injection of a medication into the body of a patient, including the steps of
(a) providing a syringe with a reservoir that contains the medication and an inner tube defining a delivery channel, said tube having a needle on one end and a plunger received in the opposite end, said plunger placing the needle in communication with the reservoir when moved in one direction and discontinuing the communication and ejecting medication from the channel when moved in another direction, and (b) using the syringe initially to introduce the medication into the body of the patient, and (c) introducing a second dosage of the medication by moving the plunger in the one direction to place the reservoir into communication with the needle and refill the channel with medication and then moving the plunger in the other direction to discontinue the communication and eject medication from the channel.
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13. A dual-chamber syringe having a tubular outer barrel with an ejection port on a distal end and an aperture on a proximal end, said syringe comprising
a plunger having a rod fitting through said aperture and a resilient seal on a distal end, a tubular guide disposed in a fixed position within said barrel and defining a reservoir outside of the guide and within the barrel, a tubular element slidably received within said guide and having an inner channel which snugly receives said resilient seal, a back flow seal positioned in said ejection port preventing ingress or egress of fluid therethrough, a needle mounted on the distal end of said tubular element, the needle being disposed proximal from said back flow seal and in communication with said reservoir when said tubular element is in a first position within said guide, and having a sufficient length to pierce said back flow seal when said tubular element is in a second position within said guide, said frictional contact between said plunger seal and said tubular element causing the tubular element to move between said first and second positions when said rod is displaced, and said plunger seal adapted to slide within said tubular element to draw fluid into said needle from said reservoir in said first position, or expel fluid into said ejection port in said second position.
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17. A method of injecting fluid from a syringe, including the steps of
withdrawing a plunger to displace an inner tubular element into a first position within said syringe, said tubular element having a needle thereon, the needle reversing out of a back flow seal mounted in an ejection port by movement of the tubular element into said first position, withdrawing said plunger to displace an inner resilient seal with respect to the tubular element creating a reduced pressure within said tubular element and drawing fluid therein through said needle from a reservoir formed outside of said tubular element, depressing said plunger to displace the inner tubular element into a second position within said syringe, said needle piercing said back flow seal to reach said ejection port by movement of the tubular element into said second position, and depressing said plunger to displace said inner resilient seal with respect to the tubular element creating an elevated pressure within said tubular element and expelling fluid therein through said needle into said ejection port.
Specification
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Current AssigneeWaldenburg, Ottfried
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Original AssigneeWaldenburg, Ottfried
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InventorsWaldenburg, Ottfried
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Primary Examiner(s)YASKO JR, JOHN D
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Application NumberUS08/983,557Time in Patent Office1,302 DaysField of Search604/191, 604/187, 604/218, 604/181, 604/183, 604/184, 604/222, 604/89-92US Class Current604/191CPC Class CodesA61M 2005/3128 Incorporating one-way valve...A61M 2005/31508 provided on the piston-rodA61M 5/19 having more than one chambe...A61M 5/204 connected to external reser...A61M 5/3137 Specially designed finger g...A61M 5/31525 Dosing burettes, pipettes B...A61M 5/31563 interacting with a displace...
