IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0767587
(2013-02-14)
|
등록번호 |
US-8814849
(2014-08-26)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
8 |
초록
▼
An intravascular valve assembly having a valve case and a flexible pressure-actuated flow control valve. The valve case includes attached proximal and distal case portions that present respective spaced apart fluid ports and a fluid passageway extending between the ports. The flexible pressure-actua
An intravascular valve assembly having a valve case and a flexible pressure-actuated flow control valve. The valve case includes attached proximal and distal case portions that present respective spaced apart fluid ports and a fluid passageway extending between the ports. The flexible pressure-actuated flow control valve is disposed within the fluid passageway and includes a slitted central valve wall. The proximal case portion includes an axially-extending boss that projects distally, with a portion of a distal end of the boss contacting the flow control valve. The valve permits fluid flowing in a distal direction to pass through the slit. Fluid flowing in a proximal direction, however, causes the valve to compresses against the boss and the slit to close, thus restricting fluid flow in a proximal direction.
대표청구항
▼
1. An intravascular check valve assembly to control fluid flow through the assembly in opposite distal and proximal directions, said valve assembly comprising: a valve case including attached proximal and distal case portions,said case portions presenting respective spaced apart fluid ports and a fl
1. An intravascular check valve assembly to control fluid flow through the assembly in opposite distal and proximal directions, said valve assembly comprising: a valve case including attached proximal and distal case portions,said case portions presenting respective spaced apart fluid ports and a fluid passageway extending between the ports; anda flexible pressure-actuated flow control valve disposed along the fluid passageway to control fluid flow therethrough,said valve including a valve wall having a slit at a distal end of the wall,said valve wall presenting distal-facing and proximal-facing surfaces,said proximal case portion of the valve case including an axially-extending boss that distally projects from the proximal case,said axially-extending boss having an exterior surface and a distal end, wherein said exterior surface at said distal end of the boss terminates at a closed-ended apex to present a closed surface for contacting a portion of the proximal-facing surface of the valve wall, wherein said closed surface prevents said valve from flexing to open the slit in the proximal direction upon the closed surface contacting said portion of the proximal-facing surface of the valve wall,said axially-extending boss including one or more channels positioned adjacent to a radial-most edge of the boss, wherein the channels fluidly connect the fluid port of the proximal case to the proximal-facing surface of the valve wall,said valve wall flexing to open the slit in response to a fluid flowing in a distal direction through the channels,said valve wall compressing against the boss and closing the slit in response to fluid flowing in a proximal direction, thereby preventing fluid flow through the valve assembly in the proximal direction. 2. The intravascular check valve assembly as claimed in claim 1, wherein the axially-extending boss is generally hemispherical in shape. 3. The intravascular check valve assembly as claimed in claim 1, wherein said closed-ended apex of the axially-extending boss is flat, thereby presenting a distal-facing surface that is orthogonal to the valve assembly's axial direction. 4. The intravascular check valve assembly as claimed in claim 1, wherein the one or more channels of the axially-extending boss includes three channels equally spaced around the radial-most edge of said boss. 5. The intravascular check valve assembly as claimed in claim 1, wherein longitudinal axes of the one or more channels of the axially-extending boss are generally parallel with a longitudinal axis of the check valve assembly. 6. The intravascular check valve assembly as claimed in claim 1, wherein the one or more channels of the axially-extending boss have a generally cylindrical shape, such that a proximal most width of the channels are of generally the same size as a distal most width. 7. The intravascular check valve assembly as claimed in claim 1, wherein the one or more channels of the axially-extending boss have a generally tear drop shape, such that a proximal most width of the channels are wider than a distal most width. 8. An intravascular check valve assembly to control fluid flow through the assembly in opposite distal and proximal directions, said valve assembly comprising: a valve case including attached proximal and distal case portions,said case portions presenting respective spaced apart fluid ports and a fluid passageway extending between the ports; anda flexible pressure-actuated flow control valve disposed along the fluid passageway to control fluid flow therethrough,said valve including a central valve wall having a slit at a distal end of the wall,said valve wall presenting distal-facing and proximal-facing surfaces,said proximal case portion of the valve case including an axially-extending boss that distally projects from the proximal case,said axially-extending boss having an exterior surface and a distal end, wherein said exterior surface at said distal end of the boss terminates at a closed-ended apex to present a closed surface for contacting a portion of the proximal-facing surface of the valve wall, wherein said closed surface prevents said valve from flexing to open the slit in the proximal direction upon the closed surface contacting said portion of the proximal-facing surface of the valve wall,said axially-extending boss including one or more channels positioned adjacent to a radial-most edge of the boss, wherein the channels fluidly connect the fluid port of the proximal case to the proximal-facing surface of the valve wall,wherein a proximal most edge of the proximal-facing surface of the valve wall presents a circular ring, and the proximal most surface of the axially-extending boss presents a generally circular surface,wherein a radius of the circular ring is larger than a radius of the circular surface, such that except for the portion of the distal end of the boss that contacts the proximal-facing surface of the valve, a fluidic chamber exists between the boss and the proximal-facing surface,said valve wall flexing to open the slit in response to a fluid flowing in a distal direction through the channels and into the fluidic chamber between the boss and the proximal-facing surface,said valve wall compressing against the boss and closing the slit in response to fluid flowing in a proximal direction, thereby preventing fluid flow through the valve assembly in the proximal direction. 9. The intravascular check valve assembly as claimed in claim 8, wherein the axially-extending boss is generally hemispherical in shape. 10. The intravascular check valve assembly as claimed in claim 8, wherein said closed-ended apex of the axially-extending boss is flat, thereby presenting a distal-facing surface that is orthogonal to the valve assembly's axial direction. 11. The intravascular check valve assembly as claimed in claim 8, wherein the one or more channels of the axially-extending boss includes three channels equally spaced around the radial-most edge of said boss. 12. The intravascular check valve assembly as claimed in claim 8, wherein longitudinal axes of the one or more channels of the axially-extending boss are generally parallel with a longitudinal axis of the check valve assembly. 13. The intravascular check valve assembly as claimed in claim 8, wherein the one or more channels of the axially-extending boss have a generally cylindrical shape, such that a proximal most width of the channels are of generally the same size as a distal most width. 14. The intravascular check valve assembly as claimed in claim 8, wherein the one or more channels of the axially-extending boss have a generally tear drop shape, such that a proximal most width of the channels are wider than a distal most width.
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