JP2019138379A - Pipe joint member - Google Patents

Abstract

To provide a pipe joint member having a valve mechanism which makes breakage of a seal member less likely to occur even if the seal member is repeatedly compressed with large force.SOLUTION: A male type pipe joint member 2 includes: a male type pipe joint body 10 defining a fluid passage 12; a valve member 14 disposed in the fluid passage 12; and a seal member 20 attached to the valve member 14. A valve seat surface 18 which expands its diameter to the rear side is formed on an inner peripheral surface 10a of the male type pipe joint body 10. The valve member 14 has an attachment outer peripheral surface which expands its diameter to the rear side and the seal member 20 is disposed on the attachment outer peripheral surface. When the valve member 14 is in a closed position, the valve seat surface 18 faces the attachment outer peripheral surface and the seal member 20 is compressed between the attachment outer peripheral surface and the valve seat surface 18.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a pipe joint member configured to open and close a fluid passage by a valve member.

  In a pipe joint composed of a female pipe joint member and a male pipe joint member connected to each other, one or both pipe joint members have a valve mechanism, and the valve mechanism is released when the connection is released and separated from each other. In some cases, the internal fluid does not leak. For example, in Patent Document 1, a male pipe joint member has a valve member in a fluid passage of the pipe joint body, and the valve member is pressed against a valve seat surface formed on the inner peripheral surface of the pipe joint body. A pipe joint adapted to close the fluid passage is shown. An annular groove is formed on the outer peripheral surface of the valve member, and a ring-shaped seal member is attached to the annular groove. When the valve member is in the closed position, the seal member is sealingly engaged with the valve seat surface, so that the fluid passage is more reliably closed.

International Publication No. 2016/208681

  When the male pipe coupling member having the above valve mechanism is connected to a high-pressure fluid source, the valve member receives a large fluid pressure and is pressed against the valve seat surface of the pipe coupling body when the coupling is released. It will be. Therefore, the seal member attached to the valve member is compressed between the valve member and the valve seat surface and greatly deformed. As a result, the greatly deformed seal member partially protrudes from the groove of the valve member and is sandwiched between the edge of the groove and the valve seat surface, and stress is concentrated on that portion and receives a large shearing force. When the attachment and detachment of the pipe joint members is repeated, such a large shearing force repeatedly acts on the seal member, and there is a possibility that the portion protruding from the groove of the seal member is broken.

  In view of the above, an object of the present invention is to provide a pipe joint member having a valve mechanism in which the seal member is not easily broken even when the seal member is repeatedly compressed with a large force.

That is, the present invention
A tubular fitting body having an inner peripheral surface defining a fluid passage extending rearward from the tip opening, and a valve seat surface formed on the inner peripheral surface and having a diameter increased toward the rear;
A valve member disposed in the fluid passage and displaceable between a closed position that closes the fluid passage and an open position that is displaced rearward from the closed position and opens the fluid passage;
A seal member attached to the valve member;
With
The valve member has a mounting outer peripheral surface whose diameter is increased rearward, the seal member is disposed on the mounting outer peripheral surface, and when the valve member is in the closed position, Provided is a pipe joint member which faces the mounting outer peripheral surface and is configured such that the seal member is compressed between the mounting outer peripheral surface and the valve seat surface.

  In the pipe joint member, the seal member is compressed between the valve seat surface expanded in the rearward direction and the mounting outer peripheral surface expanded in the rearward direction. The stress is not concentrated on a part of the valve member, and a shearing force in the displacement direction of the valve member is hardly generated. Thereby, even when the seal member is repeatedly compressed, it is possible to make it difficult for the seal member to break.

  Preferably, when the valve member is in the closed position, the valve seat surface and the mounting outer peripheral surface can be substantially parallel to each other.

  Further, the valve seat surface and the mounting outer peripheral surface can be conical inclined surfaces inclined at a constant angle with respect to the longitudinal axis of the fluid passage.

  With such a configuration, the seal member is more uniformly stressed between the valve seat surface and the mounting outer peripheral surface, and the seal member can be more reliably prevented from breaking.

  Preferably, the seal member has a protrusion protruding toward the valve seat surface, and the seal member contacts the valve seat surface from the protrusion when the valve member is displaced to the closed position. You can make it go.

  By causing the seal member to gradually contact the valve seat surface from the protrusion, the fluid passage can be reliably closed even when a large force is not applied to the valve member.

Preferably,
The inner peripheral surface of the pipe joint body has a distal end side inner peripheral surface extending in the distal direction from the valve seat surface substantially parallel to the longitudinal axis of the fluid passage,
When the valve member is in the closed position, a distal end outer peripheral surface that is close to the distal end inner peripheral surface on the radially inner side of the distal end inner peripheral surface, the distal end outer peripheral surface, and the mounting outer peripheral surface A fixing groove that is provided between the front end side outer peripheral surface and the mounting outer peripheral surface, and has a smaller diameter than the mounting outer peripheral surface;
The seal member may have an extended distal end portion disposed in the fixed groove and substantially flush with the outer peripheral surface on the distal end side.

  The seal member is often made of a rubber material, and is formed by insert molding with a mold fitted to the valve member. In such a case, the sealing member molded due to the dimensional tolerance between the valve member and the mold slightly protrudes from the outer peripheral surface of the valve member, and the sealing member may interfere with the pipe joint body and hinder displacement of the valve member. There is. On the other hand, in the pipe joint member, the valve member has a fixed groove, and the extended distal end portion of the seal member that is flush with the outer peripheral surface of the distal end side of the valve member is formed in the fixed groove. . As a result, it is possible to increase the radial thickness of the extended distal end portion and increase the amount of contraction in the radial direction of the extended distal end portion when the seal member is cooled after molding, so that the extended distal end portion is molded. Immediately after that, even if the protrusion protrudes from the outer peripheral surface of the front end side, the protrusion can be sufficiently reduced in the radial direction after cooling to eliminate the protrusion.

  Further, the present invention is a pipe joint comprising any one of the pipe joint members described above and a corresponding pipe joint member detachably connected to the pipe joint member, wherein the pipe joint member is a male pipe joint member. And the corresponding pipe joint member is a female pipe joint member, and when the pipe joint member is connected to the corresponding pipe joint member, the valve member of the pipe joint member is pushed by the corresponding pipe joint member. A pipe coupling adapted to be displaced to the open position is provided.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a pipe joint according to the present invention will be described with reference to the accompanying drawings.

It is side surface sectional drawing in the connection cancellation | release state of the pipe joint which concerns on one Embodiment of this invention. It is side surface sectional drawing in the connection state of the pipe joint of FIG. It is an enlarged view of the periphery of the seal member of the male pipe joint member, showing the state where the valve member is in the closed position and the seal member is sealingly engaged with the valve seat surface. FIG. 4 is a view showing a state in which a large fluid pressure acts on the valve member of the male pipe joint member and the valve member is pressed against the valve seat surface from the position of FIG. 3 and compressed. It is an enlarged view of the periphery of the seal member of the female pipe joint member, and shows the state where the seal member is not in contact with the seal groove of the male pipe joint member. It is an enlarged view around the seal member of a female pipe joint member, and is a figure showing the state where the projection of the seal member contacted the outer peripheral surface of the seal groove of the male pipe joint member, and was deformed radially inward. It is an enlarged view around the seal member of a female pipe joint member, and is a figure showing the state where the projection of the seal member was sealingly engaged with the outer peripheral surface and inner peripheral surface of the seal groove of the male pipe joint member.

  As shown in FIGS. 1 and 2, a pipe joint 1 according to an embodiment of the present invention includes a male pipe joint member (pipe joint member) 2 and a female pipe joint member (corresponding pipes) that are detachably connected to each other. (Joint member) 3.

  The male pipe joint member 2 includes a cylindrical male pipe main body 10 having a fluid passage 12 and a valve member 14 disposed in the fluid passage 12. The male pipe joint body 10 has an inner peripheral surface 10a that defines a fluid passage 12 extending rearward (rightward in the drawing) from the tip opening 16, and an inner peripheral surface 10a that is formed on the inner peripheral surface 10a and has a diameter that increases toward the rear. And the valve seat surface 18. The valve seat surface 18 is a conical inclined surface inclined at a constant angle with respect to the longitudinal axis L of the fluid passage 12. The valve member 14 is provided with a seal member 20 made of a rubber material. The valve member 14 can be displaced between a closed position (FIG. 1) for closing the fluid passage 12 and an open position (FIG. 2) for opening the fluid passage 12. The male pipe coupling member 2 further includes a spring 22 set between the male pipe coupling body 10 and the valve member 14, and the valve member 14 is biased toward the closed position by the spring 22.

  As shown in FIG. 3, the male pipe fitting body 10 has a distal inner circumferential surface 10 b extending from the valve seat surface 18 in the distal direction (leftward in the drawing) parallel to the longitudinal axis L of the fluid passage 12. Is formed. Further, the outer peripheral surface 14a of the valve member 14 has a mounting outer peripheral surface 14b whose diameter increases toward the rear, and a radial direction toward the distal end side inner peripheral surface 10b of the male fitting body 10 when the valve member 14 is in the closed position. A front end side outer peripheral surface 14c that is close to the inside and a fixing groove 14d provided between the front end side outer peripheral surface 14c and the mounting outer peripheral surface 14b are formed. The mounting outer peripheral surface 14 b is a conical inclined surface inclined at a constant angle, and is parallel to the valve seat surface 18. Further, the fixed groove 14d has a smaller diameter than the distal end side outer peripheral surface 14c and the mounting outer peripheral surface 14b. The seal member 20 is mainly disposed on the mounting outer peripheral surface 14b and the fixing groove 14d of the outer peripheral surface 14a of the valve member 14, and includes a seal portion 24 disposed on the mounting outer peripheral surface 14b, and the seal portion 24. It consists of the extended front-end | tip part 26 extended in the front end side and arrange | positioned in the fixed groove 14d. The extended distal end portion 26 is formed so as to be substantially flush with the distal end side outer peripheral surface 14 c of the valve member 14. The seal portion 24 is formed with a protruding portion 28 that protrudes toward the valve seat surface 18. The projecting portion 28 is constituted by a first surface 28b on the tip side of the top portion 28a and a second surface 28c on the rear side, and the first surface 28b is valved radially outward from the extended tip portion 26 toward the rear. It inclines at a steeper angle than the seat surface 18 and extends so as to gradually approach the valve seat surface 18, and the second surface 28 c is substantially parallel to the longitudinal axis L of the fluid passage 12 and gradually from the valve seat surface 18. It stretches away.

  In the disconnected state shown in FIG. 1, the valve member 14 of the male pipe joint member 2 is held in the closed position by the urging force of the spring 22. When the valve member 14 is in the closed position, as shown in FIG. 3, the valve seat surface 18 and the mounting outer peripheral surface 14b are opposed to each other, and the seal portion 24 of the seal member 20 is connected to the valve seat surface 18 and the mounting outer peripheral surface. 14b. When there is no high-pressure fluid in the fluid passage 12, the valve member 14 is pressed against the valve seat surface 18 mainly by the biasing force of the spring 22, and the seal member 20 is sealingly engaged with the valve seat surface 18 only near the top portion 28 a of the protrusion 28. To do. Thus, when only a relatively small urging force is applied by the spring 22 and the seal member 20 is pressed against the valve seat surface 18 with a small force, the seal member 20 is relatively near the top portion 28 a of the protrusion 28. The valve seat surface 18 is contacted with a small area. As a result, the surface pressure between the seal member 20 and the valve seat surface 18 is increased even with a relatively small force, and the sealing performance between the valve seat surface 18 is enhanced. When the male pipe joint member 2 is connected to a high-pressure fluid source and the fluid passage 12 is filled with the high-pressure fluid, the valve member 14 is strongly against the valve seat surface 18 by the pressure received from the high-pressure fluid. Pressed. Then, the seal portion 24 of the seal member 20 is further compressed between the valve seat surface 18 and the mounting outer peripheral surface 14b as shown in FIG. In contact with each other and sealingly engaged. Since the seal member 20 is compressed between the valve seat surface 18 and the mounting outer peripheral surface 14b facing and parallel to each other, the stress acting on the seal member 20 is widely dispersed without being concentrated in a specific place. The Further, due to the compression between the parallel surfaces, the shear force in the displacement direction of the valve member 14 does not act much on the seal member 20. Further, since the valve seat surface 18 and the mounting outer peripheral surface 14b are parallel to each other, a sufficient space is formed on the radially outer side of the seal member 20, and the compressed seal member 20 is prevented from being deformed radially outward. For this reason, when the seal member 20 is greatly compressed, an excessive force does not act on the portion that expands radially outward. Therefore, even when the sealing member 20 is compressed with a relatively large force, a local compressive stress or a shearing force is not easily generated, so that the sealing member 20 is not easily broken.

  The seal member 20 in the embodiment is directly molded on the outer peripheral surface 14a of the valve member 14 by insert molding. When insert molding is performed, the valve member 14 is disposed in the molding die, and a rubber material is injected into the space between the valve member 14 and the molding die. At this time, the extended distal end portion 26 of the seal member 20 may slightly protrude outward in the radial direction from the distal end side outer peripheral surface 14c of the valve member 14 due to a dimensional tolerance. As shown in the figure, the distal end side inner peripheral surface 10b of the male pipe joint member 2 and the distal end side outer peripheral surface 14c of the valve member 14 are close to each other. Therefore, when the bulge of the seal member 20 increases, the seal member 20 The displacement of the valve member 14 is hindered by interference with the peripheral surface 10b. In the present embodiment, in order to prevent such a problem, the fixed groove 14d is formed in the valve member 14 as described above, and the extended distal end portion 26 of the seal member 20 is disposed in the fixed groove 14d so as to extend. The distal end portion 26 has a large thickness in the radial direction. As a result, the amount of contraction in the radial direction of the extended distal end portion 26 when the seal member 20 is cooled after molding increases, and the extended distal end portion 26 protrudes from the distal end side outer peripheral surface 14c of the valve member 14 immediately after molding. Even after cooling, it is possible to prevent shrinkage after cooling and not protruding from the outer peripheral surface 14c.

  As shown in FIGS. 1 and 2, the female pipe joint member 3 includes a cylindrical female pipe joint body 30 having a fluid passage 34 extending rearward (leftward in the drawing) from the tip opening 32, and a fluid. The slide valve 36 disposed in the passage 34, the fixed valve seat member 37 disposed in the fluid passage 34 so as to extend along the longitudinal axis L of the fluid passage 34, and the outer peripheral surface of the female pipe fitting body 30 And a sleeve 38 disposed on 30a. The fixed valve seat member 37 has a valve seat portion 40 having an enlarged diameter at the tip thereof, and the valve seat portion 40 has an annular valve opening 42 between the inner peripheral surface 30 b of the female pipe fitting body 30. Defined. The slide valve 36 can be displaced in the direction of the longitudinal axis L between a front end side position (FIG. 1) for closing the valve opening 42 and a rear end side position (FIG. 2) for opening the valve opening 42. Yes. The female pipe joint member 3 further includes a spring 44 set between the female pipe joint body 30 and the slide valve 36, and the slide valve 36 is urged toward the distal end side position by the spring 44. .

  An end face seal member 46 and a sliding seal member 48 are attached to the slide valve 36. The end face seal member 46 has a protruding portion 50 that protrudes in an annular shape toward the distal end direction (right side in the drawing) of the female pipe joint member 3. A plurality of sliding seal members 48 are formed on the slide valve 36, the outer portion 52 formed on the outer peripheral surface 36 a of the slide valve 36, the inner portion 54 formed on the inner peripheral surface 36 b of the slide valve 36, and the slide valve 36. The connecting portion 56 connects the outer portion 52 and the inner portion 54 through the through hole 36c. The outer portion 52 slides in a state of sealing engagement with the inner peripheral surface 30b of the female pipe joint member 3 when the slide valve 36 is displaced between the front end side position and the rear end side position. The inner portion 54 is sealingly engaged with the valve seat portion 40 of the fixed valve seat member 37 when the slide valve 36 is in the distal end side position. In the disengaged state of FIG. 1, the slide valve 36 is held at the distal end position by the spring 44, and the sliding seal member 48 is connected to the inner peripheral surface 30 b of the female pipe fitting body 30 and the valve seat portion of the fixed valve seat member 37. The valve opening 42 is closed and the fluid passage 34 is closed by sealingly engaging with each other.

  The female pipe joint member 3 is further provided with a sleeve locker 58 for holding the sleeve 38 and a connection locker 60 for holding the male pipe joint member 2. The slide valve 36 has a locker support portion 62 extending in the distal direction along the inner peripheral surface 30b of the female pipe fitting main body 30. In the disengaged state of FIG. 1, the locker support portion 62 is a sleeve locker. 58 is supported from the radially inner side. The sleeve locker 58 supported by the locker support part 62 protrudes radially outward from the outer peripheral surface 30 a of the female pipe fitting main body 30 and engages with a rear side locking groove 68 provided in the sleeve 38. As a result, the sleeve 38 is locked by the sleeve locker 58 and held in the connection release position (FIG. 1). At this time, the distal end side locking groove 70 of the sleeve 38 is located on the radially outer side of the connecting lock 60, and the connecting lock 60 can be displaced radially outward.

  When the male pipe coupling member 2 is inserted into the fluid passage 34 of the female pipe coupling member 3 from the coupled release state of FIG. 1, the distal end portion 66 of the male pipe coupling body 10 abuts on the coupling lock 60 and the coupling locking is performed. The child 60 is displaced radially outward. A part of the connection locker 60 protrudes radially outward from the outer peripheral surface 30 a of the female pipe fitting body 30 and is accommodated in the distal end side locking groove 70 of the sleeve 38. When the male fitting member 2 is further inserted, the distal end portion 66 of the male fitting main body 10 comes into contact with the end face seal member 46 and compresses the spring 44 while moving the slide valve 36 from the distal end side to the rear end side. While being displaced toward the position, the distal end surface 37a of the fixed valve seat member 37 abuts on the valve member 14 of the male pipe joint member 2 to displace the valve member 14 from the closed position toward the open position. When the slide valve 36 is displaced toward the rear end side position, the support of the slide lock 36 from the radially inner side to the sleeve locker 58 by the locker support portion 62 is released, and the engagement of the sleeve locker 58 with respect to the sleeve 38 is released. The stop is released. However, at this time, the sleeve 38 is locked in the distal end side locking groove 70 by the connecting lock 60 and is continuously held in the connection release position. When the male pipe coupling member 2 is further inserted and the locking element locking groove 64 formed in the outer peripheral surface 30a of the male pipe coupling main body 10 reaches the radially inner position of the connection locking element 60, the connection locking element is obtained. 60 is pushed inward in the radial direction by the sleeve 38 and is partially accommodated in the locking element locking groove 64, and the locking to the sleeve 38 by the connecting locking element 60 is released. Then, the sleeve 38 is pushed by the spring 71 and displaced in the distal direction (rightward in the drawing) of the female pipe joint member 3 to be in the coupling position. Thereby, the said pipe joint 1 will be in the connection state with which the male type pipe joint member 2 and the female type pipe joint member 3 were connected, as shown in FIG.

  As shown in FIG. 5, the male pipe fitting main body 10 has an annular shape that faces the protrusion 50 of the end face seal member 46 when the tip portion 66 is inserted into the fluid passage 34 of the female pipe fitting member 3. A seal groove 72 is provided in the tip portion 66. The seal groove 72 includes an outer surface 72a that is inclined radially outward toward the distal end direction (leftward in the drawing) of the male pipe joint member 2, and an inner surface that is inclined radially inward toward the distal end direction. 72b, and a bottom surface 72c that connects the outer surface 72a and the inner surface 72b. The outer side surface 72a extends longer than the inner side surface 72b in the distal direction and has a larger area.

  When the male pipe joint member 2 and the female pipe joint member 3 are connected as described above, the protrusion 50 of the end face seal member 46 is first formed on the outer surface of the seal groove 72 of the male pipe joint member 2. 72a abuts. As the male pipe fitting member 2 is inserted into the fluid passage 34 of the female pipe fitting member 3, the protrusion 50 is strongly pressed by the outer surface 72a of the seal groove 72 and is inclined as shown in FIG. It deforms radially inward along the outer side surface 72a. Further, when the male pipe joint member 2 is inserted, finally, the male pipe joint member 2 also comes into contact with the inner side surface 72b and the bottom surface 72c of the seal groove 72 as shown in FIG. As a result, the protrusion 50 of the end face seal member 46 is in a state of sealingly engaging with the outer side surface 72a, the inner side surface 72b, and the bottom surface 72c of the seal groove 72. In the process of inserting the male pipe coupling member 2, the slide valve 36 is pushed by the male pipe coupling member 2 and compressed from the spring 44 toward the rear end side position while compressing the spring 44 as described above. Therefore, the urging force of the spring 44 increases as the male pipe joint member 2 is inserted. Therefore, the protrusion 50 of the end face seal member 46 urged by the spring 44 via the slide valve 36 is strongly pressed by the seal groove 72 by the spring 44 as the male pipe joint member 2 is inserted. become. The position of the slide valve 36 when the projection 50 of the end face seal member 46 is in sealing engagement with the outer side surface 72a and the inner side surface 72b of the seal groove 72 is the spring constant of the spring 44 and the hardness of the end face seal member 46. For example, when the spring constant of the spring 44 is sufficiently large, the protruding portion 28 of the end face seal member 46 is sealingly engaged with the seal groove 72 in a state where the slide valve 36 is at the distal end side position. .

  As described above, the protruding portion 50 of the end face seal member 46 is in sealing engagement with the outer side surface 72a and the inner side surface 72b of the seal groove 72 in the connected state, so that the gap between the slide valve 36 and the male pipe joint member 2 is increased. Sealability can be improved. The protrusion 50 of the end face seal member 46 is pushed outward in the radial direction when receiving fluid pressure from the internal fluid, but is not displaced outward in the radial direction because it is supported by the outer surface 72a of the seal groove 72. Is strongly pressed against the outer surface 72a. As a result, the protrusion 50 of the end surface seal member 46 and the outer surface 72a of the seal groove 72, particularly the outer surface 72a, are more strongly sealed and engaged, so that the higher the fluid pressure, the higher the sealing performance. Therefore, even when the high-pressure fluid flows in the fluid passage 34, the fluid leakage from the end face seal member 46 hardly occurs. When the male pipe joint member 2 is tilted with respect to the female pipe joint member 3 in the connected state, the protruding portion 50 of the end face seal member 46 is sandwiched between the outer side surface 72a and the inner side surface 72b of the seal groove 72. Therefore, it deforms following the relative displacement of the male pipe joint member 2. In particular, when the pipe joint 1 is cooled by flowing a low-temperature fluid or the like, the end face seal member 46 formed mainly of a rubber material is also cooled and becomes hard and difficult to be deformed. Since the portion 50 is deformed by the seal groove 72, it becomes possible to maintain the sealing performance without generating a gap between the end face seal member 46 and the male pipe joint member 2.

  The female pipe joint member 3 is not necessarily provided with a valve mechanism, and the end face seal member 46 of the female pipe joint member 3 may be attached to a slide member that does not have a valve function. Further, the shape of the seal groove 72 of the male pipe joint member 2 can be variously changed. For example, only one of the outer surface 72a and the inner surface 72b of the seal groove 72 may be inclined, or both may not be inclined. The projecting portion 50 of the end face seal member 46 may abut first on the inner surface of the seal groove 72 and deform toward the outer side in the radial direction so as to abut on the outer surface. They may be brought into contact at the same time so as not to deform in the radial direction.

  Although the embodiments of the present invention have been described above, the present invention is not limited to these embodiments. The valve seat surface and the mounting outer peripheral surface are preferably parallel to each other. However, the valve seat surface and the mounting outer peripheral surface do not necessarily have to be parallel to each other. can get. Further, the valve seat surface and the mounting outer peripheral surface do not necessarily have to be inclined at a constant angle, and may be curved while expanding in diameter toward the rear as a whole.

1 Pipe Fitting 2 Male Pipe Fitting Member (Fitting Fitting Member)
3 Female pipe fittings (corresponding pipe fittings)
DESCRIPTION OF SYMBOLS 10 Male pipe main body 10a Inner peripheral surface 10b Tip side inner peripheral surface 12 Fluid passage 14 Valve member 14a Outer peripheral surface 14b Mounting outer peripheral surface 14c Tip side outer peripheral surface 14d Fixing groove 16 Tip opening 18 Valve seat surface 20 Seal member 22 Spring 24 Seal portion 26 Extension tip portion 28 Projection portion 28a Top portion 28b First surface 28c Second surface 30 Female pipe fitting body 30a Outer peripheral surface 30b Inner peripheral surface 32 End opening 34 Fluid passage 36 Slide valve 36a Outer peripheral surface 36b Inner peripheral surface 36c Through Hole 37 Fixed valve seat member 37a Front end surface 38 Sleeve 40 Valve seat portion 42 Valve opening 44 Spring 46 End surface seal member 48 Sliding seal member 50 Projection portion 52 Outer portion 54 Inner portion 56 Connection portion 58 Sleeve locker 60 Connection locker 62 Locking element support portion 64 Locking element locking groove 66 Tip portion 68 Rear side locking groove 70 Tip side locking groove 71 Sp Ring 72 seal groove 72a outer surface 72b inner surface 72c bottom L longitudinal axis

Claims (6)

A tubular fitting body having an inner peripheral surface defining a fluid passage extending rearward from the tip opening, and a valve seat surface formed on the inner peripheral surface and having a diameter increased toward the rear;
A valve member disposed in the fluid passage and displaceable between a closed position that closes the fluid passage and an open position that is displaced rearward from the closed position and opens the fluid passage;
A seal member attached to the valve member;
With
The valve member has a mounting outer peripheral surface whose diameter is increased rearward, the seal member is disposed on the mounting outer peripheral surface, and when the valve member is in the closed position, A pipe joint member which is opposed to the mounting outer peripheral surface and is compressed between the mounting outer peripheral surface and the valve seat surface.   The pipe joint member according to claim 1, wherein when the valve member is in the closed position, the valve seat surface and the mounting outer peripheral surface are substantially parallel to each other.   The pipe joint member according to claim 1 or 2, wherein the valve seat surface and the mounting outer peripheral surface are conical inclined surfaces inclined at a constant angle with respect to a longitudinal axis of the fluid passage.   The seal member has a protrusion protruding toward the valve seat surface, and the seal member comes into contact with the valve seat surface from the protrusion when the valve member is displaced to the closed position. The pipe joint member according to any one of claims 1 to 3. The inner peripheral surface of the pipe joint body has a distal end side inner peripheral surface extending in the distal direction from the valve seat surface substantially parallel to the longitudinal axis of the fluid passage,
When the valve member is in the closed position, a distal end outer peripheral surface that is close to the distal end inner peripheral surface on the radially inner side of the distal end inner peripheral surface, the distal end outer peripheral surface, and the mounting outer peripheral surface A fixing groove that is provided between the front end side outer peripheral surface and the mounting outer peripheral surface, and has a smaller diameter than the mounting outer peripheral surface;
The pipe joint member according to any one of claims 1 to 4, wherein the seal member has an extended distal end portion disposed in the fixed groove and substantially flush with the outer peripheral surface on the distal end side. .   A pipe joint comprising the pipe joint member according to any one of claims 1 to 5 and a corresponding pipe joint member detachably connected to the pipe joint member, wherein the pipe joint member is a male pipe. A joint member, the corresponding pipe joint member is a female pipe joint member, and when the pipe joint member is coupled to the corresponding pipe joint member, the valve member of the pipe joint member becomes the corresponding pipe joint member. A pipe joint that is pushed and displaced into the open position.

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