Pipe fittings with insert retaining seals and related methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16L-037/20
F16L-037/092
F16L-037/091
F16L-037/138
출원번호
US-0465163
(2012-05-07)
등록번호
US-9297486
(2016-03-29)
발명자
/ 주소
King, Thomas A.
Smith, Duane K.
Kirk, Douglas L.
출원인 / 주소
Blazing Products, Inc.
대리인 / 주소
Schroeder & Siegfried, P.A.
인용정보
피인용 횟수 :
0인용 특허 :
63
초록▼
A fitting connectable to an end portion of a pipe generally includes an insert member configured to be received at least partly within the end portion of the pipe, and a retention member coupled to the insert member and configured to be received at least partly within the end portion of the pipe. Th
A fitting connectable to an end portion of a pipe generally includes an insert member configured to be received at least partly within the end portion of the pipe, and a retention member coupled to the insert member and configured to be received at least partly within the end portion of the pipe. The retention member operates in conjunction with the insert member to engage the end portion of the pipe and impart an increased force against an inner wall of the pipe in response to an increase of internal pipe pressure, thereby frictionally securing the end portion of the pipe on the insert member as internal pipe pressure increases during use.
대표청구항▼
1. A fitting connectable to an end portion of a pipe, the fitting comprising: an insert member having a generally cylindrical wall structure formed of a relatively flexible, resilient plastic material, the insert member being configured to be received at least partly within the end portion of the pi
1. A fitting connectable to an end portion of a pipe, the fitting comprising: an insert member having a generally cylindrical wall structure formed of a relatively flexible, resilient plastic material, the insert member being configured to be received at least partly within the end portion of the pipe;an annular channel formed in an exterior surface of the wall structure of the insert member, a thickness of the wall structure within the annular channel being thinner than a thickness of the wall structure adjacent thereto;a retention member seated within the annular channel of the insert member and configured to be received at least partly within the end portion of the pipe, the retention member engaging an inner surface of the end portion of the pipe to help frictionally secure the end portion of the pipe on the insert member when the insert member is received at least partly within the end portion of the pipe;the retention member being comprised of a flexible sealing member which imparts an increased force against the inner surface of the end portion of the pipe in response to an increase of internal fluid pipe pressure which outwardly flexes the thinner wall structure within the annular channel relative to the wall structure adjacent thereto;a plurality of reinforcement ribs formed on an inner surface of the cylindrical wall structure of the insert member; andan additional retention member in the form of a slidably moveable sleeve carried by the insert member and configured to be received at least partly within the end portion of the pipe, the moveable sleeve engaging the inner surface of the end portion of the pipe to help frictionally secure the end portion of the pipe on the insert member when the insert member is received at least partly within the end portion of the pipe. 2. The fitting of claim 1, wherein the retention member is constructed of an elastomeric material, and the plastic material from which the insert member is formed is more rigid than the retention member. 3. The fitting of claim 1, wherein the retention member is comprised of an elastomeric sealing ring. 4. The fitting of claim 1, wherein the thickness of the wall structure of the insert member at the annular channel is within the approximate range of 48 to 61 percent of the thickness of the wall structure adjacent thereto. 5. The fitting of claim 1, wherein the plurality of reinforcement ribs protrude radially inward from the cylindrical wall structure along an axis extending longitudinally therethrough. 6. The fitting of claim 1, wherein the insert member includes a tapered ramp section upon which the sleeve carried. 7. The fitting of claim 1, further comprising a housing coupled to the insert member, the end portion of the pipe being received at least partly within the housing when the insert member is received at least partly within the end portion of the pipe. 8. The fitting of claim 7, including at least one additional retention member coupled to the housing and configured to engage an outer surface of the end portion of the pipe to help resist movement of the fitting relative to the end portion of the pipe. 9. The fitting of claim 7, wherein the end portion of the pipe is received generally between the housing and the insert member when the insert member is received at least partly within the end portion of the pipe, the housing and the insert member being operable to squeeze the end portion of the pipe therebetween to resist movement of the end portion of the pipe off the insert member. 10. A fitting connectable to an end portion of a pipe, the fitting comprising: an insert member having a generally cylindrical wall structure formed of a relatively flexible, resilient material, the insert member being configured to be received at least partly within the end portion of the pipe, and the insert member having an annular channel formed in an exterior surface thereof, wherein a thickness of the wall structure within the annular channel is thinner than a thickness of the wall structure adjacent thereto;a retention member in the form of an elastomeric sealing member being carried within the annular channel of the insert member and configured to be received at least partly within the end portion of the pipe, the sealing member engaging an inner surface of the end portion of the pipe and being operable with the insert member to impart an increased force against the inner surface of the end portion of the pipe in response to outward flexing of the thinner wall structure within the annular channel relative to the wall structure adjacent thereto caused by an increase of internal fluid pipe pressure, thereby automatically increasing frictional retention of the end portion of the pipe on the insert member as internal fluid pipe pressure increases during use;a plurality of reinforcement ribs formed on an inner surface of the cylindrical wall structure of the insert member; andan additional retention member in the form of a slidably moveable sleeve carried by the insert member and configured to be received at least partly within the end portion of the pipe, the moveable sleeve engaging the inner surface of the end portion of the pipe to help frictionally secure the end portion of the pipe on the insert member when the insert member is received at least partly within the end portion of the pipe. 11. The fitting of claim 10, wherein the annular channel includes a base section formed integral with an interior surface of the wall structure such that the base section will flex slightly radially outward in response to an increase in internal fluid pressure within the end portion of the pipe. 12. The fitting of claim 10, wherein the plurality of reinforcement ribs protrude radially inward from the cylindrical wall structure along an axis extending longitudinally therethrough. 13. The fitting of claim 12, wherein the insert member is constructed of a resiliently, flexible plastic material. 14. The fitting of claim 13, wherein the insert member is constructed of acrylonitrile butadiene styrene. 15. The fitting of claim 10, wherein the insert member has a central axis and the moveable sleeve is axially slidable along a diametrically tapered section of the insert member.
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이 특허에 인용된 특허 (63)
Rusche Emil Herman (Nieuwegein NLX) Van Hattem Jan Cornelis (Amerongen NLX) Vroonland Christoffel Anthonius Johannes (Soesterberg NLX), Assembly for providing a passage for liquid between a first member and a second member.
Vitel Jean-Pierre,FRX ; Favier Noel,FRX ; Schneider Andre,FRX ; Lescot Didier,FRX ; Bourgin Rene,FRX, Assembly set up between two pipes, and applied pipe assembles.
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