JP5497225B1 - Piping joint - Google Patents

Abstract

A pipe joint capable of improving the holding force when the pipe joint holds the pipe is obtained by using a confirmation member for confirming the engagement between the spool of the pipe and the restraining member.
When a confirmation member is disposed at an engagement confirmation position, an inner peripheral surface of a bridging portion and an outer peripheral surface of an engaging portion are in surface contact with each other. Accordingly, the deformation of the engaging portion 62 that prevents the opening 62A of the engaging portion 62 from expanding is suppressed, and the engagement between the spool 200A and the engaging portion 62 is prevented from being released. In other words, the holding force when the pipe joint 10 holds the pipe 200 can be improved by using the confirmation member 16 that confirms the engagement between the spool 200 </ b> A of the pipe 200 and the engaging portion 62.
[Selection] Figure 14

Description

  The present invention relates to a pipe joint.

  In the pipe joint described in Patent Literature 1, when a pipe having an annular spool is attached to the pipe joint, the spool and the restraining member of the pipe joint (the retainer leg) are engaged to remove the pipe from the pipe joint. Is to be suppressed.

  Furthermore, when the spool and the restraining member are engaged, the confirmation member (pull tab) can be pulled out from the main body. That is, by pulling out the confirmation member from the main body, the engagement between the spool and the suppression member is confirmed.

JP 2013-32801 A

  Thus, with the conventional confirmation member, it was only possible to confirm the engagement between the spool of the pipe and the suppression member.

  An object of the present invention is to improve a holding force when a pipe joint holds a pipe by using a check member that checks the engagement between the spool of the pipe and the suppression member.

  A pipe joint according to claim 1 of the present invention is a housing in which an insertion hole into which an end of a pipe having an annular spool is inserted is formed, and the spool of the pipe in which the end is inserted into the insertion hole. And a restraining member that suppresses the pipe from being removed from the insertion hole, and an end of the pipe is inserted into the insertion hole in a state of being disposed at the temporary fixing position, and the restraining member is When engaged with the spool, it can move to an engagement confirmation position on one side of the intersecting direction that intersects the insertion direction of the pipe, and contacts the suppression member in a state of being arranged at the engagement confirmation position. And a confirmation restraining member that restrains deformation of the restraining member.

  According to the above configuration, when the end portion of the pipe is inserted into the insertion hole and the suppression member is engaged with the spool in a state where the confirmation suppression member is disposed at the temporary fixing position, the confirmation suppression member is moved in the cross direction from the temporary fixing position. It becomes possible to move to the engagement confirmation position on the side.

  Furthermore, in a state where the confirmation inhibiting member is disposed at the engagement confirmation position, the confirmation inhibiting member comes into contact with the suppressing member and suppresses deformation of the suppressing member. Thereby, it is suppressed that a restraining member deform | transforms and engagement with a restraining member and a spool is cancelled | released.

  In other words, the holding force when the pipe joint holds the pipe can be improved by using the confirmation inhibiting member that confirms the engagement between the spool of the pipe and the suppressing member.

  A pipe joint according to a second aspect of the present invention is the pipe joint according to the first aspect, wherein the confirmation inhibiting member is connected to the other side in the intersecting direction of the confirmation inhibiting member disposed at the engagement confirmation position. A restriction part for restricting the movement of is formed.

  According to the said structure, the control part formed in a confirmation suppression member controls the movement to the other side of the cross direction of the confirmation suppression member arrange | positioned in the engagement confirmation position. Thereby, it can suppress that the confirmation suppression member arrange | positioned in an engagement confirmation position moves to the other side of a cross direction unintentionally, and the holding force at the time of a pipe joint holding piping is reduced.

A pipe joint according to a third aspect of the present invention is the pipe joint according to the first or second aspect, wherein the restraining member is formed in an annular shape in which a part is spaced apart and an opening is formed, and the radial direction of the pipe An engagement part that engages with the spool is formed from the outside, and the confirmation inhibiting member is in contact with the outer peripheral surface of the engagement part in a state where the confirmation inhibiting member is disposed at the engagement confirmation position. A deterrence part that suppresses deformation of the engagement part is formed so that an opening of the engagement part is widened.

According to the above configuration, in a state where the confirmation deterring member is arranged at the engagement confirmation position, the deterring part formed in the confirmation deterring member comes into contact with the outer peripheral surface of the engaging part so that the opening of the engaging part is widened. Suppressing deformation of the engaging portion. Thereby, it is suppressed that engagement with a spool and an engaging part is cancelled | released. Thus, it is possible to suppress the engagement between the spool and the engagement portion from being released with a simple configuration.
A pipe joint according to a fourth aspect of the present invention is the pipe joint according to the third aspect, wherein the engagement part is formed in a curved shape, and the inhibition part contacts the curved outer peripheral surface of the engagement part. It is a deterrent curved surface.

A pipe joint according to a fifth aspect of the present invention is the pipe joint according to the third or fourth aspect , wherein the restraining member is formed with a projecting part projecting outward in the radial direction from the engaging part. The confirmation inhibiting member restrains the engaging portion from being deformed so that the protruding portion is held in the state where the confirmation inhibiting member is disposed at the engagement confirmation position and the opening of the engaging portion is widened. The recessed part position to be formed is formed.

  According to the said structure, the recessed part position formed in the confirmation suppression member holds the protrusion part which protrudes on the outer side of a radial direction from the engagement part in the state in which the confirmation suppression member is arrange | positioned in the engagement confirmation position. Thereby, it is suppressed that engagement with a spool and an engagement part is cancelled | released by suppressing that an engagement part deform | transforms so that opening of an engagement part may spread.

  In this way, it is possible to effectively prevent the engagement between the spool and the engagement portion from being released.

  ADVANTAGE OF THE INVENTION According to this invention, the retention strength at the time of a piping joint holding piping can be improved using the confirmation member which confirms engagement with the spool of piping, and the suppression member.

It is the disassembled perspective view which showed the pipe joint which concerns on 1st Embodiment of this invention. It is the disassembled perspective view which showed the state which removed the confirmation member in the piping joint which concerns on 1st Embodiment of this invention. In the pipe joint concerning a 1st embodiment of the present invention, it is the perspective view showing the state where the check member was arranged in the temporary stop position. It is the perspective view which showed the state by which the confirmation member was arrange | positioned in the engagement confirmation position in the piping joint which concerns on 1st Embodiment of this invention. In the piping joint concerning a 1st embodiment of the present invention, it is a sectional view showing the state where piping was inserted in the insertion hole. In the piping joint concerning a 1st embodiment of the present invention, it is a sectional view showing the state where piping was inserted in the insertion hole. In the piping joint concerning a 1st embodiment of the present invention, it is a sectional view showing the attachment state of a housing and a retainer. In the piping joint concerning a 1st embodiment of the present invention, it is a sectional view showing the attachment state of a housing and a retainer. (A) (B) In the piping joint which concerns on 1st Embodiment of this invention, it is sectional drawing which showed the state at the time of piping being inserted in an insertion hole. In the piping joint concerning a 1st embodiment of the present invention, it is a sectional view showing the state where the check member was arranged in the temporary stop position. (A) (B) In the piping joint which concerns on 1st Embodiment of this invention, it is sectional drawing which showed the state at the time of a confirmation member moving from a temporary fix position to an engagement confirmation position. (A) (B) In the piping joint which concerns on 1st Embodiment of this invention, it is the rear view which showed the state at the time of lifting a confirmation member from a temporary fix position. In the piping joint concerning a 1st embodiment of the present invention, it is a sectional view showing the state where the check member was arranged in the temporary stop position. (A) (B) In the pipe joint according to the first embodiment of the present invention, a cross section showing a state in which locking between the tip end portion of the confirmation member arranged at the engagement confirmation position and the lower end of the rail is released FIG. (A) (B) In the piping joint which concerns on 1st Embodiment of this invention, it is sectional drawing which showed the state at the time of lifting a confirmation member from a temporary fix position. It is the perspective view which showed the confirmation member used for the piping joint which concerns on 2nd Embodiment of this invention. (A) (B) In the piping joint which concerns on 2nd Embodiment of this invention, it is sectional drawing which showed the state at the time of lifting a confirmation member from a temporary fix position. In the piping joint which concerns on 2nd Embodiment of this invention, it is sectional drawing which showed that the state which lifted the confirmation member from the temporary fix position is maintained.

<First Embodiment>
An example of the pipe joint according to the first embodiment of the present invention will be described with reference to FIGS.

(overall structure)
The pipe joint 10 has a tube (not shown) fixed on one side, and the other end of the pipe 200 having an annular spool 200A on the outer peripheral surface is inserted into an insertion hole 20 described later, whereby the flow of the pipe 200 is increased. The path and the flow path of the tube are communicated with each other.

  As shown in FIG. 1, the pipe joint 10 is attached to the housing 12 extending in the insertion direction (hereinafter referred to as “X direction”) of the pipe 200 inserted into the insertion hole 20, and the pipe 200. And a retainer 14 as an example of a restraining member that restrains the pipe 200 inserted into the insertion hole 20 from being pulled out by engaging with the spool 200A.

  Further, when the pipe 200 is inserted into the insertion hole 20 in a state where the pipe joint 10 is disposed at a temporarily fixed position where the pipe joint 10 is temporarily fixed to the housing 12 and the retainer 14 (see FIG. 3), the pipe joint 10 intersects the X direction. A confirmation member 16 is provided as an example of a confirmation deterring member that can move to the minus side (one side: the lower side in the figure) of the intersecting direction (hereinafter referred to as “Y direction”) that is orthogonal in the present embodiment. Yes.

(housing)
The housing 12 is integrally formed of a resin material. Further, the housing 12 includes a cylindrical portion 22 that extends in the X direction and has an insertion hole 20 into which an end of the pipe 200 is inserted, and an attachment portion 24 to which the retainer 14 is attached.

  Further, the housing 12 is formed symmetrically with respect to a center line (line C shown in each figure) extending in the Y direction of the insertion hole 20 when viewed from the X direction (see FIGS. 12A and 12B). .

[Cylinder part]
On the positive side in the X direction (right side in the figure) on the outer peripheral surface of the cylindrical portion 22, as shown in FIGS. 5 and 6, there are a plurality of tapered portions 26 (three in this embodiment) whose positive side in the X direction is tapered. Formed). Thereby, the plus side in the X direction of the cylindrical part 22 is inserted into a tube (not shown), and the tube is fixed to the cylindrical part 22. In addition, an O-ring (not shown) that seals the outer peripheral surface of the tube portion 22 and the inner peripheral surface of the tube in a state where the tube is fixed to the tube portion 22 is disposed on the outer peripheral surface of the tube portion 22. .

On the other hand, the insertion hole 20 formed in the cylindrical portion 22 is reduced in diameter in a step shape toward the plus side in the X direction. Also, inserted have you in the hole 20, the end portion on the negative side in the X direction (the insertion side of the pipe 200 is inserted), the outer peripheral surface insertion hole 20 in contact with the pipe 200 inserted into the insertion hole 20 An O-ring 28 that seals the inner peripheral surface of the pipe and the outer peripheral surface of the pipe 200 is disposed.

[Mounting part]
The attachment part 24 is formed on the negative side of the cylindrical part 22 in the X direction.

  As shown in FIG. 1, the interior of the attachment portion 24 is such that the retainer 14 is attached to the attachment portion 24 by moving the retainer 14 from the outside of the housing 12 to the negative side in the Y direction (lower side in FIG. 1). Furthermore, it is open to the plus side (upper side in FIG. 1) in the Y direction.

  Specifically, the attachment portion 24 includes a pair of side wall portions 30 that are separated in the width direction (hereinafter referred to as “Z direction” direction) orthogonal to the X direction and the Y direction, and the X of the pair of side wall portions 30. An opposing wall portion 32 that connects the negative side of the direction and faces the end of the insertion hole 20, and a bridge portion 34 (see FIG. 10) that spans the negative side of the pair of side wall portions 30 in the Y direction. I have.

[Sidewall]
As shown in FIG. 5, each side wall portion 30 is arranged on the plus side in the X direction and has a plate-like side plate 38 in which the plus side end portion in the X direction is fixed to the cylindrical portion 22. And a rail portion 40 disposed on the negative side in the X direction. The rail portion 40 includes a concave rail 40A extending in the Y direction and a rail 40B disposed on the plus side in the X direction with respect to the rail 40A.

[Opposite wall]
The opposite wall portion 32 has both end portions in the Z direction fixed to the rail portion 40, and has a substantially rectangular shape when viewed from the X direction, as shown in FIGS. Further, the opposing wall portion 32 includes a through hole 42 that is concentric with the insertion hole 20.

  In addition, a pair of guide grooves 44 that are separated in the Z direction are formed on the positive side of the opposing wall portion 32 in the Y direction with respect to the through hole 42.

  The outer side of the pair of guide grooves 44 in the Z direction (the side away from the insertion hole 20 when viewed from the X direction) is opened, and the pair of guide grooves 44 approaches each other toward the plus side in the Y direction. It is inclined with respect to.

[Bridged part]
The bridging portion 34 is bridged on the negative side of the pair of rail portions 40 in the Y direction. As shown in FIG. 10, the bridging portion 34 has a circular arc surface 48A concentric with the insertion hole 20 as viewed from the X direction, and extends from both ends of the circular arc surface 48A in the Z direction to the negative side in the Y direction. A block 48 surrounded by the portion 40 and a pair of side surfaces 48B spaced apart in the Z direction is provided.

  And the top part 48C comprised by the circular arc surface 48A and the side surface 48B meshes with the ditch | groove 84A mentioned later, and the confirmation member 16 is arrange | positioned in a temporary fix | stop position (it mentions later for details).

(Retainer)
As shown in FIGS. 1 and 2, the retainer 14 is integrally formed of a resin material, and as described above, the retainer 14 is moved to the negative side in the Y direction so as to be attached to the mounting portion 24 of the housing 12 from the outside of the housing 12. Can be attached to. Moreover, the retainer 14 is formed symmetrically with respect to a center line (line C shown in each drawing) extending in the Y direction of the insertion hole 20 when viewed from the X direction.

  Furthermore, the retainer 14 is formed on the plus side in the X direction, and a restriction portion 50 that regulates the position in the X direction of the O-ring 28 (see FIG. 5) disposed in the insertion hole 20, and an end portion of the insertion hole 20. It has a suppression part 52 that engages with the spool 200 </ b> A of the inserted pipe 200 and prevents the pipe 200 from being removed from the insertion hole 20.

  In the state where the retainer 14 is attached to the attachment portion 24, the retainer 14 is sandwiched between the opposing wall portion 32 and the tubular portion 22 in the X direction, as shown in FIG. 6.

[Regulated parts]
As shown in FIG. 5, the restriction part 50 faces the positive side in the X direction, contacts the O-ring 28 disposed in the insertion hole 20 in the X direction, and moves the O-ring 28 on the negative side in the X direction. There is a restriction surface 60 for restricting the above. Furthermore, the restriction part 50 includes an insertion hole 54 through which the pipe 200 inserted into the insertion hole 20 is inserted.

  Further, as shown in FIG. 7, the restriction portion 50 is sandwiched between the pair of side plates 38 of the attachment portion 24 in a state where the retainer 14 is attached to the attachment portion 24 of the housing 12.

  Further, a pair of side surfaces 56 facing the outside in the Z direction in the restricting portion 50 are respectively formed with concave concave portions 56A. With the retainer 14 attached to the attachment portion 24, the concave portions 56A are formed on the side plate 38. It is configured to mesh with the formed protrusion 38A. As described above, the concave portion 56A and the projection 38A mesh with each other, so that the movement of the retainer 14 attached to the attachment portion 24 to the plus side in the Y direction is regulated (the attachment state of the retainer 14 is Retained).

  Further, on the plus side in the Y direction of the restricting portion 50, protrusions 50A that protrude outward in the Z direction are formed, and in the state where the retainer 14 is attached to the attachment portion 24, the protrusion 50A is connected to the Y of the side plate 38. It comes in contact with the positive end surface of the direction from the positive side in the Y direction. As described above, the protrusion 50A hits the side plate 38 from the positive side in the Y direction, so that the movement of the retainer 14 attached to the attachment portion 24 to the negative side in the Y direction is restricted (the retainer 14). The mounting state is maintained).

  Further, as shown in FIG. 1, the restricting portion 50 includes a hooking portion 58 disposed on the minus side in the X direction with respect to the concave portion 56 </ b> A. As shown in FIG. 8, the hook 58 extends in the Y direction and is formed on the negative side of the support bar 58A in the Y direction, and is formed on the negative side of the support bar 58A in the Y direction. And a protrusion 58B protruding outward.

  The protrusion 58 </ b> B is hooked on the edge of the side plate 38 with the retainer 14 attached to the housing 12. This further restricts the movement of the retainer 14 attached to the attachment site 24 to the plus side in the Y direction (the attachment state of the retainer 14 is maintained).

[Inhibition site]
As shown in FIG. 1, the suppression part 52 is arranged on the negative side in the X direction with respect to the restriction part 50, and the positive side in the Y direction of the restriction part 52 and the positive side in the Y direction of the restriction part 50 are connected. Has been.

  The suppression portion 52 includes an engagement portion 62 as an example of an engagement portion that engages with the spool 200A from the outside in the radial direction of the pipe 200 inserted into the insertion hole 20, and the diameter of the pipe 200 from the engagement portion 62. And a protruding portion 64 as an example of a protruding portion protruding outward in the direction.

[Engagement part]
As shown in FIG. 13, the engaging portion 62 has an annular shape with an opening 62 </ b> A in which a part on the minus side in the Y direction is spaced, and has a curved shape (curved shape). Furthermore, the engagement portion 62 has a pair of tapered surfaces 62B that are pressed against the spool 200A of the pipe 200 when the pipe 200 is inserted into the insertion hole 20, as shown in FIGS. Is formed.

  The taper surface 62B is inclined so as to incline inward in the Z direction (side approaching the insertion hole 20 as viewed from the X direction) toward the plus side in the X direction. Thus, when the pipe 200 is inserted into the insertion hole 20, when the spool 200A of the pipe 200 presses the tapered surface 62B to the plus side in the X direction, the opening 62A (see FIG. 13) of the engaging portion 62 is expanded. It is designed to be elastically deformed.

  Then, movement of the spool 200A to the plus side in the X direction is allowed, and as shown in FIG. 9B, the spool 200A that has moved to the plus side in the X direction hits the end surface of the restriction portion 50 and stops. It is like that. In this state, the engaging portion 62 is elastically restored to engage with the spool 200A (engaged state), and the removal of the pipe 200 from the insertion hole 20 is suppressed.

[Protrusion]
As shown in FIG. 13, two protrusions 64 (a pair) are formed so as to protrude outward in the radial direction of the pipe 200 inserted into the insertion hole 20 from the outer peripheral surface of the engaging part 62. .

  The pair of protrusions 64 are formed symmetrically with respect to the line C when viewed from the X direction, and each protrusion 64 is inclined so that the tip is disposed on the plus side in the Y direction with respect to the Z direction. An inclined member 64A, an intermediate member 64B extending from the tip of the inclined member 64A to the plus side in the Y direction, and a protrusion 64C extending outward from the tip of the intermediate member 64B in the Z direction.

(Confirmation member)
The confirmation member 16 is integrally formed of a resin material, and is formed symmetrically with respect to the line C when viewed from the X direction. Further, the pipe joint 10 is shipped in a state where the confirmation member 16 is disposed at a temporary fixing position where the confirmation member 16 is temporarily fixed to the housing 12 and the retainer 14 (see FIG. 3). The details of the temporary fixing position will be described later.

  Further, as shown in FIG. 3, the confirmation member 16 contacts the spool 200 </ b> A in an engaged state and moves the confirmation member 16 to the negative side in the Y direction with the confirmation member 16 disposed at the temporary fixing position. Is provided (see FIG. 9B). Further, when the confirmation member 16 is moved from the temporary fixing position to the plus side in the Y direction, the confirmation member 16 is deformed to deform the engagement portion 62 of the retainer 14 and release the engagement between the engagement portion 62 and the spool 200A. A region 72 is provided (see FIG. 15B). The release site 72 is arranged on the minus side in the X direction with respect to the confirmation site 70, and the release site 72 and the check site 70 are connected on the plus side in the Y direction.

[Confirmation site]
As shown in FIG. 10, the confirmation site 70 extends in the Y direction, is fitted in the rail 40 </ b> B, is guided in the Y direction, and has a pair of guide portions 76 having a negative end in the Y direction as a free end, and a pair of guide portions. And a bridging portion 78 spanning the positive side of 76 in the Y direction.

  Further, the confirmation member 16 includes a pair of confirmation portions 80 arranged on the inner side in the Z direction with respect to the guide portion 76. The confirmation portion 80 has a base end portion fixed to the bridging portion 78, an extension member 82 extending on the negative side in the Y direction, and formed at the distal end of the extension member 82 and in the Z direction with respect to the extension member 82. A tip member 84 that is widened inward is provided.

  A concave groove 84A is formed at the negative end of the tip member 84 in the Y direction, and the top portion 48C of the bridge portion 34 described above is a concave groove in the Y direction in a state where the confirmation member 16 is disposed at the temporary fixing position. It is designed to fit with 84A. Thereby, the movement to the negative | minus side of the Y direction of the confirmation member 16 arrange | positioned in the temporary fix position is controlled.

  Further, as viewed from the X direction, an inclined surface 84B that is inclined toward the plus side in the Y direction is formed on the inner side in the Z direction with respect to the concave groove 84A in the tip member 84.

  Further, as shown in FIG. 9B, the tip member 84 is formed with a tapered surface 84C that is pressed against the engaging portion 62 and the spool 200A in the engaged state. The tapered surface 84C is inclined so as to be inclined inward in the Z direction as it goes toward the plus side in the X direction.

As a result, when the pipe 200 is inserted into the insertion hole 20 and the spool 200A and the engaging portion 62 are engaged, the spool 200A presses the tapered surface 84C, as shown in FIG. The free end of the extending member 82 is elastically deformed outward in the Z direction. Then, the fitting between the concave groove 84A and the top 48C is released, and the confirmation member 16 disposed at the temporary fixing position can be moved to the negative side in the Y direction. The state of being arranged at the stop position is a state in which the pipe 200 can be inserted into the insertion hole 20 and the engaging portion 62 can be engaged with the spool 200A, and the confirmation member 16 is moved to the negative side in the Y direction. The movement is restricted. This is a delivery state (initial state) of the so-called piping joint 10.

[Release site]
As shown in FIG. 13, the release portion 72 extends in the Y direction and is fitted in the rail 40 </ b> A and guided in the Y direction, and a pair of guide portions 88 having a negative end in the Y direction as a free end, and a pair of guide portions. And a bridging portion 90 that spans the positive side of 88 in the Y direction. The bridging portion 90 is coupled to the bridging portion 78 (see FIG. 10) of the confirmation site 70 in the X direction.

  At the tip of the guide portion 88, a tip portion 96 is formed as an example of a restriction portion that protrudes inward in the Z direction and outward in the Z direction with respect to the guide portion 88. In a state in which the confirmation member 16 is disposed at the temporary fixing position, a portion of the distal end portion 96 that protrudes inward in the Z direction comes into contact with the protrusion 64C of the suppression portion 52 from the negative side in the Y direction. Thereby, the movement to the plus side of the Y direction of the confirmation member 16 arrange | positioned at the temporary fix position is controlled. Further, the portion of the tip 96 that protrudes outward in the Z direction protrudes outward in the Z direction from the attachment site 24 as viewed from the X direction (see FIG. 12A).

  On the other hand, as described above, the spool 200A and the engaging portion 62 are engaged, and the confirmation member 16 in which the fitting between the concave groove 84A and the top portion 48C is released can be moved to the minus side in the Y direction. (See FIG. 11A). Therefore, when the confirmation member 16 is moved to the negative side in the Y direction, as shown in FIG. 14A, the inner peripheral surface 90A (an example of a restraining curved surface) of the bridging portion 90 and the outer peripheral surface of the engaging portion 62 are obtained. 62C is in surface contact with the Y direction, and the confirmation member 16 is arranged at the engagement confirmation position (see FIG. 4).

  Further, the release portion 72 includes two concave portions 92 as an example of concave portions that respectively hold the intermediate member 64B and the protrusion 64C of the protruding portion 64 in a state where the confirmation member 16 is disposed at the engagement confirmation position.

  Further, in a state where the confirmation member 16 is disposed at the engagement confirmation position, a portion protruding inward in the Z direction at the distal end portion 96 is locked to the lower end of the rail 40A.

  On the other hand, the confirmation member 16 arranged at the engagement confirmation position is moved to the positive side in the Y direction and arranged at the temporary fixing position (see FIG. 15A), and further, the confirmation member 16 is arranged in the Y direction. When moved to the plus side, as shown in FIG. 15B, the tip end portion 96 pulls up the protruding portion 64 to the plus side in the Y direction.

  At this time, a cylindrical projection 94 used for restricting the movement of the distal end portion 96 is formed on the opposing wall portion 32 so as to protrude from the distal end portion 96 to the minus side in the X direction, as shown in FIG. The guide groove 44 is disposed (see FIG. 12A).

  With this configuration, in a state where the confirmation member 16 is disposed at the temporary fixing position, a portion of the tip 96 that protrudes outward in the Z direction is pressed inward in the Z direction, or the confirmation member 16 is positively added in the Y direction. When lifted to the side, the projection 94 moves from one end of the guide groove 44 to the other end, as shown in FIGS. Thereby, the movement of the front-end | tip part 96 is controlled. Then, the front end portion 96 pulls up the protruding portion 64 to the plus side in the Y direction, and as shown in FIG. 15B, the opening 62A of the engaging portion 62 widens, and the engagement between the spool 200A and the engaging portion 62 occurs. Is to be canceled.

  As described above, when the confirmation member 16 is moved to the plus side in the Y direction, the guide portion 46 that guides the protruding portion 64 so that the opening 62A of the engaging portion 62 is widened includes the guide groove 44 and the protrusion 94. (See FIGS. 12A and 12B).

(Function)
Next, the operation of the pipe joint 10 according to the first embodiment includes a pipe insertion work for attaching the pipe 200 to the pipe joint 10, a confirmation work for confirming that the pipe 200 is attached to the pipe joint 10, and the pipe 200. Will be described separately for the pipe removal work for removing the pipe joint 10 from the pipe joint 10.

[Piping insertion work]
In the pipe insertion work, the confirmation member 16 of the pipe joint 10 is disposed at a temporary fixing position where it is temporarily fixed to the housing 12 and the retainer 14 as shown in FIG. Then, a tube (not shown) is attached to the outer peripheral surface of the tubular portion 22 of the pipe joint 10.

  In the state where the confirmation member 16 is disposed at the temporary fixing position, as shown in FIG. 10, the concave groove 84A of the confirmation portion 80 and the top portion 48C of the bridging portion 34 are fitted, and the negative direction of the confirmation member 16 in the Y direction Movement to the side is restricted. Further, as shown in FIG. 13, the inner portion in the Z direction of the distal end portion 96 of the release portion 72 contacts the protrusion 64C from the minus side in the Y direction, and the movement of the confirmation member 16 to the plus side in the Y direction is performed. It is regulated.

  In this state, first, the end portion of the pipe 200 is inserted into the insertion hole 20 through the through hole 42 of the opposing wall portion 32 and the insertion hole 54 of the restriction portion 50.

  When the end portion of the pipe 200 is inserted into the insertion hole 20, the spool 200 </ b> A of the pipe 200 comes into contact with the tapered surface 62 </ b> B of the engaging portion 62 from the negative side in the X direction, as shown in FIG. 9A. Furthermore, when the pipe 200 is moved to the plus side in the X direction, the spool 200A presses the taper surface 62B to the plus side in the X direction, so that the opening 62A (see FIG. 13) of the engaging portion 62 is expanded. It is elastically deformed.

  Then, the movement of the spool 200A to the plus side in the X direction is allowed, and when the pipe 200 is further moved to the plus side in the X direction, as shown in FIG. The taper surface 84C is pressed to the plus side in the X direction. As a result, as shown in FIG. 11A, the free end of the extending member 82 is elastically deformed outward in the Z direction. Then, the fitting between the concave groove 84A and the top portion 48C is released, and the confirmation member 16 disposed at the temporary fixing position can be moved to the minus side in the Y direction, and the spool 200A moved to the plus side in the X direction is regulated. It stops against the end surface of the part 50 (see FIG. 9B). In this state, as shown in FIG. 9B, the engaging portion 62 is elastically restored to engage with the spool 200A (engaged state), and the removal of the pipe 200 from the insertion hole 20 is suppressed. .

  In this engaged state, the O-ring 28 disposed in the insertion hole 20 comes into contact with the outer peripheral surface of the pipe 200 inserted into the insertion hole 20, and the inner peripheral surface of the insertion hole 20 and the outer peripheral surface of the pipe 200 Is sealed.

  In this manner, the pipe 200 is inserted into the insertion hole 20 and attached to the pipe joint 10, and the flow path of the pipe 200 and the flow path of the tube are communicated.

〔Confirmation work〕
As described above, the confirmation work is a work for confirming that the pipe 200 is attached to the pipe joint 10, in other words, confirms that the spool 200 </ b> A and the engaging portion 62 are in an engaged state. Work.

  As described above, in the engaged state of the spool 200A and the engaging portion 62, the fitting between the concave groove 84A of the confirmation portion 80 and the top portion 48C of the bridging portion 34 is released as shown in FIG. Then, the confirmation member 16 arranged at the temporary fixing position can be moved to the minus side in the Y direction.

  Then, when the confirmation member 16 is moved to the negative side in the Y direction, as shown in FIGS. 11B and 14A, the inner peripheral surface 90A of the bridging portion 90 and the outer peripheral surface of the engaging portion 62 are displayed. 62C comes into surface contact in the Y direction, and movement of the confirmation member 16 to the minus side in the Y direction is restricted. Thereby, the confirmation member 16 is arrange | positioned to an engagement confirmation position.

  Further, when the confirmation member 16 is disposed at the engagement confirmation position, as shown in FIG. 14A, the respective concave portions 92 formed in the release portion 72 are formed by the intermediate member 64B and the protrusion 64C of the protrusion 64. Respectively. Furthermore, the portion of the tip 96 that protrudes inward in the Z direction is locked to the lower end of the rail 40A. Thereby, the movement to the plus side of the Y direction of the confirmation member 16 is controlled.

  In this manner, the engagement state between the spool 200A and the engagement portion 62 is confirmed by moving the confirmation member 16 to the engagement confirmation position.

[Piping removal work]
The pipe removing operation is an operation for removing the pipe 200 from the pipe joint 10 as described above.

  When the end of the pipe 200 is removed from the insertion hole 20 and the pipe 200 is removed from the pipe joint 10 from the state where the confirmation member 16 is disposed at the engagement confirmation position, first, as shown in FIG. As described above, the tip portion 96 is extended outward in the Z direction using a portion of the tip portion 96 that protrudes outward in the Z direction. As a result, the engagement between the portion protruding inward in the Z direction at the distal end portion 96 and the lower end of the rail 40A is released.

  In a state where the engagement between the distal end portion 96 and the lower end of the rail 40A is released, the confirmation member 16 is moved to the plus side in the Y direction, and the confirmation member 16 is temporarily fixed as shown in FIG. Move to.

  Then, in a state where the confirmation member 16 is disposed at the temporary fixing position, a portion protruding outward in the Z direction of the tip portion 96 is pressed inward in the Z direction, or the confirmation member 16 is moved to the positive side in the Y direction. When lifted, the protrusion 94 moves from one end of the guide groove 44 to the other end, as shown in FIGS. As a result, as shown in FIG. 15B, the distal end portion 96 pulls up the protruding portion 64 to the plus side in the Y direction, so that the opening 62A of the engaging portion 62 expands (see the arrow in the figure), and the spool 200A And the engagement part 62 are disengaged.

  Further, when the pipe 200 is moved to the minus side in the X direction in a state where the engagement between the spool 200A and the engaging portion 62 is released, the end of the pipe 200 is removed from the insertion hole 20, and the pipe 200 is connected to the pipe 200. It is removed from the joint 10.

  In addition, after removing the pipe 20 from the pipe joint 10, the pressing force (an example of the holding force) of the portion protruding outward in the Z direction of the distal end portion 96 or the positive side of the confirmation member 16 in the Y direction is lifted. When the force (an example of the holding force) is released, as shown in FIGS. 10 and 13, the engaging portion 62 is elastically restored, and the confirmation member 16 is moved (arranged) to the temporary fixing position.

(effect)
Next, the effect of the pipe joint 10 according to the first embodiment will be described.

  In the pipe joint 10 according to the first embodiment, as shown in FIG. 1, the retainer 14 includes a regulation part 50 that regulates the position of the O-ring 28 (see FIG. 5) disposed in the insertion hole 20, and a pipe. 200 is provided with a restraining portion 52 that engages with the 200 spool 200A and suppresses the piping 200 from being removed from the insertion hole 20. Further, by moving the retainer 14 to the negative side in the Y direction and attaching the retainer 14 to the attachment portion 24, the retainer 14 is moved to the opposing wall portion 32 and the cylindrical portion 22 in the X direction as shown in FIG. Sandwiched. That is, the movement of the retainer 14 in the X direction is restricted by the facing wall portion 32 and the cylindrical portion 22.

  Thereby, after reducing the number of parts, it can suppress that the retainer 14 which controls the position of the O-ring 28 moves in the X direction by the pressure of the fluid flowing in the X direction in the pipe joint 10. .

  The retainer 14 is integrally formed of a resin material. For this reason, it can be set as a cheap structure compared with the case where a retainer is comprised combining a some member. Further, by devising the shape, the undercut can be eliminated and a simple mold structure can be obtained.

  In the pipe insertion confirmation operation described above, when the confirmation member 16 is disposed at the engagement confirmation position, the inner peripheral surface 90A of the bridging portion 90 and the outer peripheral surface 62C of the engagement portion 62 are in surface contact. Accordingly, the deformation of the engaging portion 62 that prevents the opening 62A of the engaging portion 62 from expanding is suppressed, and the engagement between the spool 200A and the engaging portion 62 is prevented from being released. In other words, the holding force when the pipe joint 10 holds the pipe 200 can be improved by using the confirmation member 16 that confirms the engagement between the spool 200 </ b> A of the pipe 200 and the engaging portion 62.

  Further, in the above-described pipe insertion confirmation work, when the confirmation member 16 is disposed at the engagement confirmation position, the concave portions 92 formed in the release portion 72 respectively hold the intermediate member 64B and the protrusion 64C of the protrusion 64. Accordingly, the deformation of the engaging portion 62 that prevents the opening 62A of the engaging portion 62 from expanding is suppressed, and the engagement between the spool 200A and the engaging portion 62 is prevented from being released. In this way, it is possible to effectively prevent the engagement between the spool 200A and the engaging portion 62 from being released.

  Further, in the above-described pipe insertion confirmation work, when the confirmation member 16 is disposed at the engagement confirmation position, the portion protruding inward in the Z direction at the distal end portion 96 is locked to the lower end of the rail 40A. And the movement to the plus side of the Y direction of the confirmation member 16 is controlled. As a result, it is possible to prevent the confirmation member 16 disposed at the engagement confirmation position from unintentionally moving to the plus side in the Y direction and reducing the holding force when the pipe joint 10 holds the pipe 200. it can.

  Further, in the above-described piping removal operation, when the portion protruding outward in the Z direction of the distal end portion 96 of the confirmation member 16 is pressed inward in the Z direction, or when the confirmation member 16 is lifted to the positive side in the Y direction, FIG. 12 (A) and 12 (B), the protrusion 94 moves from one end of the guide groove 44 to the other end. As a result, as shown in FIG. 15B, the distal end portion 96 raises the protruding portion 64 to the plus side in the Y direction, and the opening 62A of the engaging portion 62 expands, and the engagement between the spool 200A and the engaging portion 62 is increased. The match is released. Thus, the engagement between the spool 200A of the pipe 200 and the engaging portion 62 can be released using the confirmation member 16 that confirms the engagement between the spool 200A of the pipe 200 and the engaging portion 62. In other words, the engagement between the spool 200A and the engaging portion 62 can be released with a simple configuration without using a dedicated tool.

  Further, in the above-described piping removal operation, when the portion protruding outward in the Z direction of the distal end portion 96 of the confirmation member 16 is pressed inward in the Z direction, or when the confirmation member 16 is lifted to the positive side in the Y direction, FIG. 12 (A) and 12 (B), the protrusion 94 moves from one end of the guide groove 44 to the other end. That is, when the guide part 46 presses a portion of the distal end portion 96 of the confirmation member 16 that protrudes outward in the Z direction toward the inside in the Z direction, or lifts the confirmation member 16 toward the positive side in the Y direction, The distal end portion 96 is guided so that the opening 62A of 62 expands. Therefore, as compared with the case where the guide portion 46 is not provided, the engagement portion 62 is easily deformed so that the opening 62A of the engagement portion 62 is widened, and the engagement between the spool 200A and the engagement portion 62 is achieved. It can be canceled.

Second Embodiment
Next, an example of the pipe joint according to the second embodiment of the present invention will be described with reference to FIGS. In addition, about the same member as 1st Embodiment, the same code | symbol is attached | subjected, the description is abbreviate | omitted, and a different part from 1st Embodiment is mainly demonstrated.

  As shown in FIG. 16, the confirmation portion 108 of the confirmation member 106 in the pipe joint 100 according to the second embodiment includes an extending member 110 that is wider in the X direction than the tip member 84.

  Each extending member 110 is integrally formed with a regulation claw 112 that extends to the plus side in the Y direction and whose tip protrudes outward in the Z direction. Specifically, the regulation claw 112 includes a bar 112A whose base end is fixed to the extending member 110 and a positive tip in the Y direction is a free end, and an outer side in the Z direction from the tip of the bar 112A. And a protrusion 112 </ b> B that protrudes from the surface.

  With the above configuration, when the pipe 200 is inserted into the pipe joint 100 in a state in which the confirmation member 106 is disposed at the temporary fixing position, as shown in FIGS. The portion is elastically deformed outward in the Z direction. Then, the fitting between the recessed groove 84A and the top portion 48C is released, and the confirmation member 106 arranged at the temporary fixing position can be moved to the minus side in the Y direction. In this state, the protrusion 112B of the restricting claw 112 comes into contact with the inner wall of the rail 40B, and the tip of the bar 112A is elastically deformed and bent inward in the Z direction. Further, the spool 200A of the pipe 200 and the engaging portion 62 are in an engaged state.

  In order to release the engagement between the spool 200A and the engaging portion 62, the portion of the front end portion 96 of the confirmation member 106 that protrudes outward in the Z direction is pressed inward in the Z direction, or the confirmation member 106 is moved in the Y direction. When lifted to the plus side, as shown in FIG. 18, the protrusion 112B of the restricting claw 112 also moves to the plus side in the Y direction. When the projection 112B reaches the plus side in the Y direction with respect to the rail 40B, the restricting claw 112 is elastically restored, and the projection 112B is locked to the end of the rail 40B.

  In the state where the projection 112B is locked to the end of the rail 40B, as described with reference to FIG. 15B in the first embodiment, the tip 96 lifts the protrusion 64 to the plus side in the Y direction, The opening 62A of the engaging portion 62 is widened, and the engagement between the spool 200A and the engaging portion 62 is released. Then, the confirmation member 106 tries to move to the minus side in the Y direction as the engaging portion 62 whose opening 62A has been widened returns elastically.

  However, as shown in FIG. 18, since the protrusion 112B is locked to the end of the rail 40B, the movement of the confirmation member 106 in the negative direction in the Y direction is restricted, and the spool 200A, the engaging portion 62, The state in which the engagement is released is maintained.

  Thereby, in order to maintain the state where the engaging portion 62 is deformed, a pressing force (an example of a holding force) that presses a portion of the distal end portion 96 that protrudes outward in the Z direction, or the confirmation member 106 is added in the Y direction. Even if lifting force (an example of holding force) lifted to the side is released, the pipe 200 can be removed from the insertion hole 20.

  Although the present invention has been described in detail with respect to specific embodiments, the present invention is not limited to such embodiments, and various other embodiments are possible within the scope of the present invention. It is clear to the contractor. For example, in the above embodiment, the retainer 14 is moved to the negative side in the Y direction and attached to the attachment portion 24 so that the retainer 14 is sandwiched between the opposing wall portion 32 and the cylindrical portion 22 in the X direction. The movement of the retainer 14 in the X direction is suppressed. However, the present invention is not particularly limited to this, and the retainer 14 is moved to the negative side in the Y direction and attached to the attachment portion 24 to suppress the movement of the retainer 14 in the X direction. Other configurations may be used as long as they are configured.

  In the above embodiment, the pair of recesses 56A (see FIG. 7) and the pair of hooking portions 58 (see FIG. 8) are used to fix the retainer 14 to the housing 12. Good.

  Although not specifically described in the second embodiment, the confirmation is performed after the confirmation member 106 is moved to the engagement confirmation position after the spool 200A of the pipe 200 and the engagement portion 62 are engaged. The member 106 may be moved to the plus side in the Y direction.

10 Piping joint 12 Housing 14 Retainer (an example of a restraining member)
16 Confirmation member (example of confirmation deterrence member)
20 insertion hole 62 engaging part (an example of engaging part)
62A Opening 62C Outer peripheral surface 64 Protruding part (an example of a protruding part)
90A Inner circumferential surface (an example of a deterrent curved surface)
92 Concave portion 96 Tip portion (an example of a restriction part)
200 Piping 200A Spool

Claims (5)

A housing having an insertion hole into which an end of a pipe having an annular spool is inserted;
An inhibiting member that engages with the spool of the pipe inserted into the insertion hole and suppresses the pipe from being removed from the insertion hole;
When the end of the pipe is inserted into the insertion hole with the restraining member engaged with the spool in a state where the pipe is disposed at the temporary fixing position, the engagement on one side in the intersecting direction intersecting the insertion direction of the pipe is performed. A check restraining member that is movable to a joint confirmation position and that is in contact with the restraining member in a state of being arranged at the engagement confirmation position, and restrains deformation of the restraining member;
Piping joint comprising.   The piping joint according to claim 1, wherein a restriction portion that restricts movement of the confirmation inhibition member disposed at the engagement confirmation position to the other side in the intersecting direction is formed on the confirmation inhibition member. The restraining member is formed in an annular shape in which an opening is formed at a part of the restraining member, and an engaging portion that engages with the spool from the outside in the radial direction of the pipe is formed.
In the confirmation inhibiting member, the engagement part is deformed so that the opening of the engagement part is expanded by contacting the outer peripheral surface of the engagement part in a state where the confirmation inhibiting member is disposed at the engagement confirmation position. The piping joint according to claim 1 or 2, wherein a deterring portion for inhibiting the formation is formed. The engagement site is a curved shape,
The pipe joint according to claim 3, wherein the inhibition portion is a inhibition curved surface that contacts the curved outer peripheral surface of the engagement portion. The suppressing member is formed with a protruding portion that protrudes outward in the radial direction from the engaging portion,
The confirmation restraining member restrains the engagement portion from being deformed so that the projecting portion is held in a state where the confirmation restraining member is disposed at the engagement confirmation position and the opening of the engagement portion is widened. The pipe joint according to claim 3 or 4 , wherein a recessed portion is formed.