IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0136899
(2002-04-30)
|
발명자
/ 주소 |
- Barinaga, Louis C.
- Dowell, Daniel D.
|
출원인 / 주소 |
- Hewlett-Packard Development Company, L.P.
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
15 |
초록
▼
An over-molded fluid control value for use in fluid delivery systems. An embodiment of the fluid control valve includes a rigid substrate having a opening defined therein, and a valve structure fabricated of an elastomeric material. The valve structure is over-molded over at least a portion of the r
An over-molded fluid control value for use in fluid delivery systems. An embodiment of the fluid control valve includes a rigid substrate having a opening defined therein, and a valve structure fabricated of an elastomeric material. The valve structure is over-molded over at least a portion of the rigid substrate and including a valve portion extending over the opening, the valve portion movable in response to a differential fluid pressure to allow fluid flow.
대표청구항
▼
1. An over-molded fluid control valve, comprising:a rigid substrate having an opening defined therein;a unitary valve structure fabricated of an elastomeric material, said elastomeric material over-molded onto arid over at feast a portion of the rigid substrate during a molding process to define the
1. An over-molded fluid control valve, comprising:a rigid substrate having an opening defined therein;a unitary valve structure fabricated of an elastomeric material, said elastomeric material over-molded onto arid over at feast a portion of the rigid substrate during a molding process to define the unitary valve structure including at least one valve portion extending over said opening, the valve portion normally closed to prevent fluid flow, the valve portion movable in response to a differential fluid pressure to allow fluid flow, wherein said valve structure includes a tapered duckbill portion having a slit formed at a distal end, and wherein the slit is normally closed against fluid flow, said slit opening in response to said differential fluid pressure, and wherein the rigid substrate has first and second opposed surfaces, and first end second layers of said elastomeric material are over-molded over said first and second opposed surfaces. 2. The valve of claim 1, wherein the first and second opposed layers are joined through the opening. 3. The valve of claim 1, wherein the elastomeric material is EPDM or a thermoplastic elastomer. 4. The valve of claim 1, wherein said differential pressure exceeds a break pressure of said valve. 5. A host part having a boss formed therein about a fluid port, further comprising a fluid control valve disposed in said fluid port to control fluid flow through said fluid port, said fluid control valve comprising an over-molded fluid control valve, comprising:a rigid substrate having a opening defined therein:a valve structure fabricated of an elastomeric material, said valve structure over-molded over at least a portion of the rigid substrate and including at least one valve portion extending over said opening, the valve portion normally closed to prevent fluid flow, the valve portion movable in response to a differential fluid pressure to allow fluid flow. 6. An over-molded fluid control valve, comprising:a rigid substrate having a opening defined therein:a unitary valve structure fabricated of an elastomeric material, said elastomeric material over-molded onto and over at least a portion of the rigid substrate during a molding process to define the unitary valve structure and including at least one valve portion extending oversaid opening, the valve portion normally closed to prevent fluid flow, the valve portion movable in response to a differential fluid pressure to allow fluid flow, wherein said valve portion comprises a membrane portion which extends over said opening, and said membrane includes a web portion which resiliently moves in response to said differential pressure and a disk portion of increased thickness; anda valve seat structure against which said disk portion seals in the absence of the differential pressure, preventing fluid flow, wherein said valve seat structure includes a seat member defining a half-toroidal shape. 7. An over-molded fluid control valve, comprising:a rigid substrate having a opening defined therein;a unitary valve structure fabricated of an elastomeric material, said elastomeric material over-molded onto and over at least a portion of the rigid substrate during a molding process to define the unitary valve structure including at least one valve portion extending over said opening, the valve portion normally closed to prevent fluid flow, the valve portion movable in response to a differential fluid pressure to allow fluid flow, further comprising a gland seal disposed about an outer peripheral surface of said rigid substrate. 8. The valve of claim 7, wherein the gland seal is a unitary over-molded structure formed with said valve portion of said elastomeric material. 9. A fluid control assembly, comprising:a host part having a fluid port and a circumferential boss;an over-molded fluid control valve disposed in said circumferential boss to control fluid flow through said fluid port, the valve comprising:a rigid substrate having a opening defined therein ;a valve structure fabricated of an elastomeric material, said valve structure over-molded over at least a portion of the rigid substrate and including at least one valve portion extending over said opening and normally preventing fluid flow, the valve portion movable in response to a differential fluid pressure to allow fluid flow. 10. The assembly of claim 9, further including a gland seal formed of said elastomeric material about a periphery of said rigid substrate to sealingly engage an inner surface of said circumferential boss. 11. The assembly of claim 9, wherein said gland seal forms a unitary over-molded structure with said valve portion. 12. The assembly of claim 9, wherein said valve structure includes a tapered duckbill portion having a slit formed at a distal end, and wherein the slit is normally closed against fluid flow, said silt opening in response to said differential fluid pressure. 13. An over-molded disk valve for fluid flow control, comprising:a rigid substrate having a opening defined therein;a valve seat structure defining a valve seal, the valve seat structure disposed in or adjacent the opening;a valve structure fabricated of an elastomeric material, said valve structure over-molded over at least a portion of the rigid substrate and including a membrane portion extending over said opening, the membrane portion normally in sealing contact against said valve seal, the membrane portion movable in response to a differential fluid pressure to allow fluid flow. 14. The disk valve of claim 13, wherein said valve seat structure includes a fluid conduit having a fluid port circumscribed by said valve seal, the fluid portion normally closed by said membrane portion in the absence of said differential pressure. 15. The disk valve of claim 14, wherein the membrane portion includes one or more openings formed therein, and wherein fluid flows through said one or more openings when said membrane portion is moved to open said fluid portion by said differential pressure. 16. A ganged set of fluid control valves, comprising:a rigid substrate having a plurality of openings defined therein:a valve structure fabricated of an elastomeric material, said valve structure over-molded over at least a portion of the rigid substrate and including at least one valve portion extending over each of said plurality of openings, each valve portion normally closed to prevent fluid flow, the valve portion movable in response to a differential fluid pressure to allow fluid flow. 17. The set of claim 16, wherein each said valve portion includes a tapered duckbill portion having a slit formed at a distal end, and wherein the slit is normally closed against fluid flow, said slit opening In response to said differential fluid pressure. 18. The set of claim 17, wherein the rigid substrate has first and second opposed surfaces, and first and second layers of said elastomeric material are over-molded over said first and second opposed surfaces. 19. The set of claim 18, wherein the first and second opposed layers are joined through each of said plurality of openings. 20. The set of claim 16, wherein the elastomeric material is EPDM or a thermoplastic elastomer.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.