JP2013245803A - Pipe joint - Google Patents

Abstract

PROBLEM TO BE SOLVED: To arrange a lock ring in a predetermined position when a holding member is connected to a joint body.SOLUTION: A pipe joint includes a joint body 10, a holding member 16, and a lock ring 12. The joint body 10 has a ring retainer therein. The holding member 16 has a through-hole. The holding member 16 is connected to the joint body 10. The lock ring 12 is housed between the ring retainer and the holding member 16. The holding member 16 also has a guide. The guide is provided at the edge of the through-hole. The guide guides the lock ring 12 to a predetermined position when the lock ring 12 is housed between the ring retainer and the holding member 16.

Description

  The present invention relates to a pipe joint.

  Patent document 1 discloses a coupling. This joint includes a tubular joint body and a tubular push ring. An annular receiving surface, a contact surface, and a female thread portion are provided in the joint body. A plurality of lock rings are engaged with the receiving surface. The lock ring has a plurality of bites. These biting portions protrude inward of the lock ring. A spacer is sandwiched between the lock rings. The spacer is formed in an annular shape. The press ring has a male thread portion. The push ring positions and fixes the lock ring. The male thread part of the press ring meshes with the female thread part in the joint body. A tube made of a soft metal material is inserted through the pusher wheel until it comes into contact with the contact surface. The end of the tube is engaged with the biting portion of the lock ring. The biting portion prevents the tube from coming off.

JP 2000-249268 A

  The joint disclosed in Patent Document 1 has a problem that the lock ring may not be disposed at a predetermined position when the push ring is connected to the joint body. The present invention has been made to solve this problem. The object is to provide a pipe joint in which a lock ring can be arranged at a predetermined position when the holding member is connected to the joint body.

  The pipe joint of the present invention will be described with reference to the drawings. The reason why the symbols in the figure are used in this column is to help understand the content of the invention. The use of the symbols in the figure in this column is not intended to limit the scope of the invention to the scope shown.

  In order to achieve the above-described object, according to one aspect of the present invention, the pipe joint includes the joint main bodies 10, 120, 310, the holding members 16, 126, 326, and the lock rings 12, 322. The joint bodies 10, 120, and 310 have ring receiving portions 34, 134, and 334. The joint bodies 10, 120, and 310 have the entrance portions 30, 130, and 330 of the pipe 200 to the inside. The holding members 16, 126, 326 have through holes 72, 172, 372. The tube 200 passes through the through holes 72, 172, and 372. The holding members 16, 126, 326 are connected to the joint bodies 10, 120, 310. The lock rings 12 and 322 are accommodated between the ring receiving portions 34, 134, and 334 and the holding members 16, 126, and 326. The holding members 16, 126, 326 have guide portions 78, 178, 378 in addition to the through holes 72, 172, 372. When the lock rings 12 and 322 are accommodated between the ring receiving portions 34, 134, and 334 and the holding members 16, 126, and 326, the guide portions 78, 178, and 378 are moved to a predetermined position. Induce.

  When the lock rings 12, 322 are accommodated between the ring receiving portions 34, 134, 334 and the holding members 16, 126, 326, the guide portions 78, 178, 378 guide the lock rings 12, 322 to predetermined positions. By doing so, the lock rings 12 and 322 are arranged at predetermined positions.

  Further, the lock ring 12 described above has an annular portion 60 and a biting portion 62. The annular portion 60 is accommodated between the ring receiving portions 34 and 134 and the holding members 16 and 126. The biting portion 62 protrudes from the annular portion 60. The biting part 62 bites into the surface of the tube 200. The guide portions 78 and 178 enter the annular portion 60. The annular portion 60 is accommodated between the ring receiving portions 34 and 134 and the holding members 16 and 126.

  The guide portions 78 and 178 enter the annular portion 60. Thereby, when the lock ring 12 is accommodated between the ring receiving portions 34 and 134 and the holding members 16 and 126, the lock ring 12 comes into contact with the guide portions 78 and 178 if the position of the lock ring 12 is too biased. The bias of the lock ring 12 is corrected by the contact. Since the bias of the lock ring 12 is corrected, the lock ring 12 can be disposed at a predetermined position when the holding members 16 and 126 are connected to the joint main bodies 10 and 120.

  Alternatively, it is desirable that the guide portions 78 and 178 described above have the guide portion tapered surface 92. The guide portion taper surface 92 is narrowed in the direction of entering the annular portion 60.

  Since the guide portion taper surfaces 92 and 192 are narrowed in the direction of entering the annular portion 60, when the holding members 16 and 126 are connected to the joint main bodies 10 and 120, the guide portions 78 and 178 are connected to the annular portion. It becomes easy to enter into 60. Thereby, the position adjustment of the lock ring 12 becomes easy.

  Alternatively, it is desirable that the ring receiving portion 34 described above is disposed inside the joint body 10. In this case, the holding member 16 further includes a space forming portion 70. The space forming portion 70 enters the inside of the joint body 10 and faces the ring receiving portion 34 to form a space in which the annular portion 60 is accommodated. The guide portion 78 is provided on the edge side of the through hole 72 when viewed from the space forming portion 70. The guide part 78 surrounds the edge of the through hole 72. The guide portion 78 projects in the direction of entering the annular portion 60.

  When the guide portion 78 surrounds the edge of the through-hole 72 and the guide portion 78 protrudes in the direction of entry into the annular portion 60, the guide portion 78 enters the annular portion 60, so that the annular portion 60 is It encloses the space through which 200 passes. This facilitates the position adjustment of the lock ring 12 such that the annular portion 60 surrounds the space through which the tube 200 passes.

  Alternatively, it is desirable that the above-described pipe joint further includes a guide ring 18. The guide ring 18 is accommodated in advance in the joint body 10 or the holding member 16. The guide ring 18 is pushed by the pipe 200 and advances inside the joint body 10.

  Further, it is desirable that the ring receiving portion 334 described above surrounds the edge of the entry portion 330 of the joint main body 310. In this case, the lock ring 322 has an annular portion 360 and a biting portion 362. The annular portion 360 is accommodated between the ring receiving portion 334 and the holding member 326. The biting portion 362 protrudes from the annular portion 360. The biting portion 362 bites into the surface of the tube 200. The guide portion 378 has a tapered surface. The annular portion 360 contacts the tapered surface.

  Since the annular portion 360 contacts the tapered surface of the guide portion 378, the lock ring 322 is guided to a predetermined position as compared with the case where the guide portion 378 contacts the biting portion 362 and the bias of the lock ring 322 is corrected. It becomes easy.

  Alternatively, it is desirable that the above-described pipe joint further includes a guide ring 18. The guide ring 18 is accommodated in advance inside the holding member 326 so as to penetrate the lock ring 322. The guide ring 18 is pushed by the pipe 200 and advances inside the joint body 310.

  The lock ring 322 is penetrated by the guide ring 18. The guide ring 18 is accommodated in the holding member 326 in advance. Accordingly, the position of the lock ring 322 is adjusted by the tapered surface of the guide portion 378 and the guide ring 18. As a result, it becomes easy to arrange the lock ring 322 at an appropriate position.

  According to the present invention, the lock ring can be disposed at a predetermined position when the holding member is connected to the joint body.

It is sectional drawing of the pipe joint concerning 1st Embodiment of this invention. It is sectional drawing of the coupling main body concerning 1st Embodiment of this invention. It is a perspective view of the lock ring concerning a 1st embodiment of the present invention. It is sectional drawing of the holding member concerning 1st Embodiment of this invention. It is sectional drawing of the guide ring concerning 1st Embodiment of this invention. It is sectional drawing after the pipe | tube of the pipe joint concerning the 1st Embodiment of this invention is inserted. It is sectional drawing of the pipe joint concerning 2nd Embodiment of this invention. It is sectional drawing of the coupling main body concerning 2nd Embodiment of this invention. It is sectional drawing of the holding member concerning 2nd Embodiment of this invention. It is sectional drawing of the pipe joint concerning 3rd Embodiment of this invention. It is sectional drawing of the coupling main body concerning 3rd Embodiment of this invention. It is sectional drawing of the holding member concerning 3rd Embodiment of this invention. It is a perspective view of the lock ring concerning a 3rd embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

<First Embodiment>
[Description of structure]
FIG. 1 is a cross-sectional view of a pipe joint according to the present embodiment. In FIG. 1, a part of the pipe joint according to the present embodiment is omitted. Based on FIG. 1, the structure of the pipe joint of this embodiment is demonstrated. The pipe joint includes a joint main body 10, a lock ring 12, a washer 14, a holding member 16, a guide ring 18, a main body seal ring 20, and a holding member seal ring 22. The shape of the joint body 10 is cylindrical. In the case of this embodiment, the male screw is provided in the part which is omitted in FIG. Since the structure is well known, detailed description thereof will not be repeated here. The pipe 200 enters the inside of the joint body 10. The lock ring 12 is accommodated in the joint body 10. The pipe joint according to this embodiment includes two lock rings 12. These two lock rings 12 are accommodated in the joint body 10. The washer 14 is sandwiched between the two lock rings 12. In the case of the present embodiment, the washer 14 is provided with a hole in the central portion of the disk. The holding member 16 is connected to the joint body 10. The guide ring 18 is accommodated in the holding member 16 until the pipe 200 enters. As the pipe 200 enters, the guide ring 18 enters the inside of the joint body 10. The main body seal ring 20 is accommodated in the joint main body 10. The main body seal ring 20 seals between the joint main body 10 and the pipe 200. The holding member seal ring 22 is housed inside the holding member 16. The holding member seal ring 22 seals between the holding member 16 and the tube 200.

  FIG. 2 is a cross-sectional view of the joint body 10 according to the present embodiment. In FIG. 2, a part of the joint body 10 is omitted. Based on FIG. 2, the structure of the coupling main body 10 of this embodiment is demonstrated. The joint body 10 is in contact with the entry portion 30, the recessed portion 32 in the body, the ring receiving portion 34, the biting accommodation portion 36, the mouth side seal groove 38, the back side seal groove 40, and the tube accommodation portion 42. Surface 44. The entry portion 30 corresponds to an end portion of the joint body 10. The entry portion 30 is an opening that communicates the inside and the outside of the joint body 10. The in-body recess 32 is provided on the inner peripheral surface of the joint body 10. The holding member 16 is connected to the joint body 10 by the main body recess 32. Accordingly, the in-body recess 32 is a connection part on the body side according to the present embodiment. As is apparent from FIG. 2, the in-body recessed portion 32 is disposed closer to the entry portion 30 than the ring receiving portion 34. The ring receiving part 34 faces the space forming part 70 (the space forming part 70 will be described later). As apparent from FIG. 2, the ring receiving portion 34 is a boundary between a portion on the entry portion 30 side and a portion on the tube accommodating portion 42 side therefrom. Further, the inner diameter is different between the ring receiving portion 34 on the entry portion 30 side and the ring receiving portion 34 on the tube accommodating portion 42 side. Therefore, it can be said that the ring receiving portion 34 according to the present embodiment is a step formed in a boundary portion between portions having different inner diameters inside the joint body 10. An annular portion 60 (the annular portion 60 will be described later) of the lock ring 12 is accommodated between the ring receiving portion 34 and the space forming portion 70. The biting accommodation part 36 is a part in which a biting part 62 described later is accommodated when the pipe 200 enters the joint body 10. The mouth side seal groove 38 is a groove into which one of the main body seal rings 20 is fitted. The back seal groove 40 is a groove in which the other of the main body seal rings 20 is accommodated. The tube accommodating portion 42 is a portion in which the tip portion of the tube 200 is accommodated. The contact surface 44 is a portion where the tip of the guide ring 18 contacts. By providing the contact surface 44, the guide ring 18 and the pipe 200 can not go further into the joint body 10.

  FIG. 3 is a perspective view of the lock ring 12 according to the present embodiment. Based on FIG. 3, the structure of the lock ring 12 concerning this embodiment is demonstrated. The lock ring 12 has an annular portion 60 and a biting portion 62. The annular portion 60 is a ring-shaped portion. The biting part 62 protrudes from the annular part 60. The biting portion 62 is composed of a plurality (32 in the case of this embodiment) of small pieces. The biting part 62 bites into the surface of the tube 200. When the lock ring 12 is housed inside the joint body 10, the biting portion 62 faces in the depth direction of the joint body 10 as viewed from the end portion (entry portion 30) of the joint body 10.

  FIG. 4 is a cross-sectional view of the holding member 16 according to the present embodiment. Based on FIG. 4, the structure of the holding member 16 of this embodiment is demonstrated. In the present embodiment, the material of the holding member 16 is a synthetic resin. The holding member 16 includes a space forming part 70, a through hole 72, a member outer convex part 74, a holding member seal groove part 76, a guide part 78, and an inner surface step part 80. The space forming portion 70 and the guide portion 78 enter the inside of the joint body 10 from the end portion (the entry portion 30) of the joint body 10. The space forming part 70 forms a space by facing the ring receiving part 34 of the joint body 10. The annular portion 60 of the lock ring 12 is accommodated in the space. The tube 200 passes through the through hole 72. The member outer convex portion 74 fits into the main body inner concave portion 32 of the joint main body 10. Thereby, the holding member 16 is connected to the in-body recess 32 of the joint body 10. The holding member seal groove 76 is provided on the inner peripheral surface of the holding member 16. The holding member seal groove 76 is disposed at a position on the back side when viewed from the member outer protrusion 74. The holding member seal ring 22 is fitted into the holding member seal groove 76. The guide portion 78 is provided on the edge side of the through hole 72 when viewed from the space forming portion 70. The guide portion 78 surrounds the edge of the through hole 72. The guide part 78 projects in the direction of entering the annular part 60. The guide part 78 enters the annular part 60. The annular portion 60 is accommodated between the ring receiving portion 34 and the space forming portion 70. The guide part 78 has a guide part tapered surface 92. The guide portion taper surface 92 is narrowed in the direction of entering the annular portion 60. A retaining protrusion 102 of the guide ring 18 to be described later is caught on the inner surface stepped portion 80. This makes it difficult for the guide ring 18 to fall off the holding member 16.

  FIG. 5 is a cross-sectional view of the guide ring 18 according to the present embodiment. Based on FIG. 5, the structure of the guide ring 18 of this embodiment is demonstrated. The guide ring 18 includes a ring main body 100 and a retaining protrusion 102. The ring main body 100 is pushed into the joint main body 10 from the holding member 16 by being pushed by the pipe 200. The retaining protrusion 102 protrudes from the ring main body 100. The retaining protrusion 102 is a protrusion for preventing the guide ring 18 from falling off from the inside due to the inner surface stepped portion 80 of the holding member 16.

[Description of connection method]
FIG. 6 is a cross-sectional view after the pipe 200 of the pipe joint according to the present embodiment is inserted. Based on FIG. 1 and FIG. 6, the usage method of the pipe joint of this embodiment is demonstrated. When using the pipe joint according to the present embodiment, first, the operator accommodates the main body seal ring 20, the lock ring 12, and the washer 14 in the joint main body 10 as shown in FIG. When they are accommodated, the operator fits the holding member seal ring 22 into the holding member seal groove 76. The operator accommodates the guide ring 18 inside the holding member 16. When they are accommodated, the operator connects the holding member 16 to the joint body 10. At this time, if the position of the lock ring 12 is too biased, the guide portion 78 contacts the lock ring 12. The lock ring 12 is pushed by the guide portion 78 by the contact of the guide portion 78. By being pushed by the guiding portion 78, the lock ring 12 is guided to a predetermined position. When the lock ring 12 is guided to a predetermined position, the operator causes the tube 200 to enter the through hole 72 of the holding member 16. The pipe 200 that has entered the through hole 72 pushes the guide ring 18. Along with this, the guide ring 18 enters the joint body 10. The pipe 200 also enters the inside of the joint body 10. With the approach, the main body seal ring 20 and the holding member seal ring 22 are expanded. The biting portion 62 of the lock ring 12 is also expanded. When the tip portion of the guide ring 18 comes into contact with the contact surface 44, the tube 200 can no longer advance to the back of the joint body 10. FIG. 6 is a cross-sectional view showing the joint body 10 and the pipe 200 at this time. In this state, when the operator tries to pull out the tube 200, the biting portion 62 that has already bitten into the surface of the tube 200 bites into the tube 200 further deeply. The annular portion 60 of the lock ring 12 is accommodated between the ring receiving portion 34 of the joint body 10 and the space forming portion 70 of the holding member 16. The holding member 16 is connected to a predetermined position by fitting the member outer convex portion 74 into the main body concave portion 32. As a result, the tube 200 does not come off. As a result, the connection between the pipe joint according to the present embodiment and the pipe 200 is completed.

[Effect of pipe joint according to this embodiment]
According to the pipe joint according to the present embodiment, when the annular portion 60 is accommodated between the ring receiving portion 34 and the space forming portion 70, if the position of the annular portion 60 is too biased, the annular portion 60 becomes the guide portion 78. Contact. When there is contact, the lock ring 12 moves. Thereby, the deviation of the annular portion 60 is corrected. Since the deviation of the annular portion 60 is corrected, the lock ring 12 can be disposed at a predetermined position when the holding member 16 is connected to the joint body 10.

  Further, in the case of the present embodiment, since the guide portion taper surface 92 is narrowed toward the approach direction to the annular portion 60, when the space forming portion 70 enters the inside of the joint body 10, the guide portion 78 is A force in a direction to correct the bias is applied to the annular portion 60. Thereby, the position adjustment of the lock ring 12 becomes easy.

  In the case of the present embodiment, the guide portion 78 surrounds the edge of the through hole 72 and the guide portion 78 protrudes in the direction of entering the annular portion 60, so that the guide portion 78 enters the annular portion 60. When entering, the annular portion 60 surrounds the space through which the tube 200 passes. This facilitates the position adjustment of the lock ring 12 such that the annular portion 60 surrounds the space through which the tube 200 passes.

Second Embodiment
[Description of structure]
FIG. 7 is a cross-sectional view of the pipe joint according to the present embodiment. In FIG. 7, a part of the pipe joint according to the present embodiment is omitted. Based on FIG. 7, the structure of the pipe joint of this embodiment is demonstrated. The pipe joint includes a joint main body 120, a lock ring 12, a washer 14, a holding member 126, a guide ring 18, a main body seal ring 20, and a holding member seal ring 22. The joint body 120 has a cylindrical shape. In the case of this embodiment, a male screw is provided in a portion of the joint body 120 that is omitted in FIG. Since the structure is well known, detailed description thereof will not be repeated here. The pipe 200 enters the inside of the joint body 120. The lock ring 12 is accommodated in the joint body 120. The pipe joint according to this embodiment includes two lock rings 12. These two lock rings 12 are accommodated in the joint body 120. The washer 14 is sandwiched between the two lock rings 12. The holding member 126 is connected to the joint body 120. The guide ring 18 is accommodated in the holding member 126 until the pipe 200 enters. As the pipe 200 enters, the guide ring 18 enters the inside of the joint body 120. The main body seal ring 20 is accommodated in the joint main body 120. The main body seal ring 20 seals between the joint main body 120 and the pipe 200. The holding member seal ring 22 is housed inside the holding member 126. The holding member seal ring 22 seals between the holding member 126 and the tube 200.

  FIG. 8 is a cross-sectional view of the joint body 120 according to the present embodiment. In FIG. 8, a part of the joint body 120 is omitted. Based on FIG. 8, the structure of the coupling main body 120 of this embodiment is demonstrated. The joint main body 120 includes an entry portion 130, a main body outer convex portion 132, a ring receiving portion 134, a biting storage portion 136, a mouth side seal groove 38, a back side seal groove 40, a pipe storage portion 42, And a contact surface 44. The entry portion 130 corresponds to an end portion of the joint main body 120. The entry portion 130 is an opening that allows the inside and outside of the joint body 120 to communicate with each other. The main body outer convex portion 132 is provided on the outer peripheral surface of the joint main body 120. The holding member 126 is connected by the main body outer convex portion 132. Therefore, the main body outer convex portion 132 is a main body side connection portion according to the present embodiment. The ring receiving part 134 faces a space forming part 170 described later. The annular portion 60 of the lock ring 12 is accommodated between the ring receiving portion 134 and the space forming portion 170. The biting accommodating portion 136 is a portion in which the biting portion 62 of the lock ring 12 is accommodated when the pipe 200 enters the joint main body 120.

  FIG. 9 is a cross-sectional view of the holding member 126 according to the present embodiment. Based on FIG. 9, the structure of the holding member 126 of this embodiment is demonstrated. In the present embodiment, the material of the holding member 126 is a synthetic resin. The holding member 126 includes a space forming portion 170, a through-hole 172, a member indentation 174, a holding member seal groove 176, a guide portion 178, and an inner surface stepped portion 180. The space forming part 170 forms a space by facing the ring receiving part 134 of the joint body 120. The annular portion 60 of the lock ring 12 is accommodated in the space. The tube 200 passes through the through hole 172. The main body outer convex portion 132 of the joint main body 120 is fitted into the member inner concave portion 174. Thereby, the holding member 126 is connected to the main body outer convex portion 132 of the joint main body 120. The holding member seal groove 176 is provided on the inner peripheral surface of the holding member 126. The holding member seal ring 22 is fitted into the holding member seal groove 176. The guide portion 178 enters the annular portion 60. The annular portion 60 is accommodated between the ring receiving portion 134 and the holding member 126. The guide portion 178 has a guide portion tapered surface 192. The guiding portion taper surface 192 is narrowed in the direction of entering the annular portion 60. The retaining protrusion 102 of the guide ring 18 is caught on the inner surface stepped portion 180. This makes it difficult for the guide ring 18 to fall off the holding member 16.

  Other points are the same as in the first embodiment described above. Therefore, detailed description thereof will not be repeated.

[Description of connection method]
When using the pipe joint according to the present embodiment, the operator first houses the main body seal ring 20, the lock ring 12, and the washer 14 in the joint main body 120 as shown in FIG. When they are accommodated, the operator fits the holding member seal ring 22 into the holding member seal groove 176. The operator houses the guide ring 18 inside the holding member 126. When they are accommodated, the operator connects the holding member 126 to the joint body 120. At this time, if the position of the lock ring 12 is too biased, the guide portion 178 contacts the lock ring 12. The lock ring 12 is pushed by the guide portion 178 due to the contact of the guide portion 178. By being pushed by the guide portion 178, the lock ring 12 is guided to a predetermined position. When the holding member 126 is connected to the joint main body 120, the operator causes the tube 200 to enter the through hole 172 of the holding member 126. The pipe 200 that has entered the through hole 172 pushes the guide ring 18. Along with this, the guide ring 18 enters the joint body 120. The pipe 200 also enters the inside of the joint body 120. With the approach, the main body seal ring 20 and the holding member seal ring 22 are expanded. The biting portion 62 of the lock ring 12 is also expanded. When the distal end portion of the guide ring 18 comes into contact with the contact surface 44 of the joint main body 120, the tube 200 can not advance further into the joint main body 120. In this state, when the operator tries to pull out the tube 200, the biting portion 62 that has already bitten into the surface of the tube 200 bites into the tube 200 further deeply. The annular portion 60 of the lock ring 12 is accommodated between the ring receiving portion 134 of the joint body 120 and the space forming portion 170 of the holding member 16. The holding member 126 is connected to a predetermined position by fitting the in-member concave portion 174 to the main body outer convex portion 132. As a result, the tube 200 does not come off. As a result, the connection between the pipe joint according to the present embodiment and the pipe 200 is completed.

[Effect of pipe joint according to this embodiment]
According to the pipe joint according to the present embodiment, when the annular part 60 is accommodated between the ring receiving part 134 and the space forming part 170, if the position of the annular part 60 is too biased, the annular part 60 becomes the guide part 178. Contact. When there is contact, the lock ring 12 moves. Thereby, the deviation of the annular portion 60 is corrected. Since the deviation of the annular portion 60 is corrected, the lock ring 12 can be disposed at an appropriate position when the holding member 126 is connected to the joint main body 120.

  In the case of this embodiment, since the guide portion taper surface 92 is narrowed as it advances in the direction of entering the annular portion 60, the guide portion 178 is annular when the joint body 120 and the holding member 126 are connected. It becomes easy to enter the portion 60. Thereby, the position adjustment of the lock ring 12 becomes easy.

<Third Embodiment>
[Description of structure]
FIG. 10 is a cross-sectional view of the pipe joint according to the present embodiment. In FIG. 10, a part of the pipe joint according to the present embodiment is omitted. Based on FIG. 10, the structure of the pipe joint of this embodiment is demonstrated. The pipe joint includes a joint body 310, a lock ring 322, a holding member 326, a guide ring 18, and a body seal ring 20. The joint body 310 has a cylindrical shape. In the case of this embodiment, a male screw is provided in a portion of the joint body 310 that is omitted in FIG. Since the structure is well known, detailed description thereof will not be repeated here. The pipe 200 enters the inside of the joint body 310. The lock ring 322 is accommodated between the joint body 310 and the holding member 326. The holding member 326 is connected to the joint main body 310. The guide ring 18 is accommodated in the holding member 326 until the pipe 200 enters. As the pipe 200 enters, the guide ring 18 enters the inside of the joint body 310. The main body seal ring 20 is accommodated in the joint main body 310. The main body seal ring 20 seals between the joint main body 310 and the pipe 200.

  FIG. 11 is a cross-sectional view of the joint body 310 according to the present embodiment. In FIG. 11, a part of the joint body 310 is omitted. Based on FIG. 11, the structure of the coupling main body 310 of this embodiment is demonstrated. The joint main body 310 includes an entry portion 330, a main body outer convex portion 332, a ring receiving portion 334, a mouth side seal groove 338, a back side seal groove 340, a tube housing portion 342, and a contact surface 344. . The entry portion 330 corresponds to an end portion of the joint main body 310. The entry portion 330 is an opening that allows the inside and the outside of the joint body 310 to communicate with each other. The main body outer convex portion 332 is provided on the outer peripheral surface of the joint main body 310. The holding member 326 is connected by the main body outer convex portion 332. Therefore, the main body outer convex portion 332 is a main body side connection portion according to the present embodiment. The ring receiving portion 334 surrounds the edge of the entry portion 330. The ring receiving portion 334 faces a guide portion 378 described later. A lock ring 322 is accommodated between the ring receiving portion 334 and the guide portion 378.

  FIG. 12 is a cross-sectional view of the holding member 326 according to the present embodiment. Based on FIG. 12, the structure of the holding member 326 of this embodiment is demonstrated. In the present embodiment, the material of the holding member 326 is a synthetic resin. The holding member 326 includes a through-hole 372, a member inner recess 374, and a guide portion 378. A lock ring 322 is accommodated between the ring receiving portion 334 and the guide portion 378. The tube 200 passes through the through hole 372. The main body outer convex portion 332 of the joint main body 310 is fitted into the member inner concave portion 374. Thereby, the holding member 326 is connected to the main body outer convex portion 332 of the joint main body 310. The guide portion 378 has a tapered surface that surrounds the through hole 372. The lock ring 322 contacts this tapered surface.

  FIG. 13 is a perspective view of the lock ring 322 according to the present embodiment. In FIG. 13, a part of the lock ring 322 is cut away. Based on FIG. 13, the structure of the lock ring 322 of this embodiment is demonstrated. The lock ring 322 has an annular portion 360 and a biting portion 362. The annular portion 360 is a ring-shaped portion. The biting part 362 protrudes from the inner peripheral part of the annular part 360. The biting portion 362 bites into the surface of the tube 200.

  Other points are the same as in the first embodiment described above. Therefore, detailed description thereof will not be repeated.

[Description of connection method]
When using the pipe joint according to the present embodiment, first, the operator houses the main body seal ring 20 inside the joint main body 310 as shown in FIG. When the main body seal ring 20 is accommodated, the operator accommodates the guide ring 18 inside the holding member 326. When the guide ring 18 is accommodated, the operator accommodates the lock ring 322 in the holding member 126. At this time, the operator causes the guide ring 18 to penetrate the inner periphery of the lock ring 322. When the guide ring 18 penetrates the inner periphery of the lock ring 322, the operator connects the holding member 326 to the joint body 310. At this time, the lock ring 322 is guided to a predetermined position when the tapered surface of the guide portion 378 contacts the annular portion 360. The position of the lock ring 322 is also adjusted by the guide ring 18. When the holding member 326 is connected to the joint body 310, the operator causes the tube 200 to enter the through hole 372 of the holding member 326. The pipe 200 that has entered the through hole 372 pushes the guide ring 18. Along with this, the guide ring 18 enters the inside of the joint body 310. The pipe 200 also enters the inside of the joint body 310. With the approach, the main body seal ring 20 is expanded. The biting part 362 of the lock ring 322 is also spread. When the distal end portion of the guide ring 18 comes into contact with the contact surface 344 of the joint body 310, the tube 200 can no longer advance to the back of the joint body 310. When the operator tries to pull out the tube 200 in this state, the biting portion 362 that has already bited into the surface of the tube 200 bites into the tube 200 further deeply. The annular portion 360 of the lock ring 322 is accommodated between the ring receiving portion 334 of the joint body 310 and the guide portion 378 of the holding member 326. The holding member 326 is connected to a predetermined position by fitting the in-member concave portion 374 to the main body outer convex portion 332. As a result, the tube 200 does not come off. As a result, the connection between the pipe joint according to the present embodiment and the pipe 200 is completed.

[Effect of pipe joint according to this embodiment]
According to the pipe joint according to the present embodiment, when the lock ring 322 is accommodated between the ring receiving portion 334 and the guide portion 378 of the holding member 326, the guide portion 378 guides the lock ring 322 to a predetermined position. Thus, the lock ring 322 is disposed at a predetermined position. At this time, since the annular portion 360 contacts the tapered surface of the guide portion 378, the lock ring 322 is positioned at a predetermined position as compared with the case where the bias of the lock ring 322 is corrected by the guide portion 378 contacting the biting portion 362. It is easy to be guided to.

  In addition, since the pipe joint described above includes the guide ring 18 and the lock ring 322 is penetrated by the guide ring 18, the position of the lock ring 322 is adjusted by the tapered surface of the guide portion 378 and the guide ring 18. It will be. As a result, it becomes easy to arrange the lock ring 322 at an appropriate position.

<Description of modification>
The embodiments disclosed herein are illustrative in all respects. The scope of the present invention is not limited based on the above-described embodiment, and various design changes may be made without departing from the spirit of the present invention.

  For example, the structure of the part which is not illustrated among the joint main bodies mentioned above is not specifically limited. This portion may be provided with a known female screw instead of the aforementioned known male screw. In this portion, for example, as shown in FIG. 2, the entry portion 30, the in-body recessed portion 32, the ring receiving portion 34, the biting storage portion 36, the mouth-side seal groove 38, and the back-side seal groove 40. And the tube accommodating part 42 and the contact surface 44 may be provided. In this case, the lock ring 12, the washer 14, the holding member 16, and the guide ring 18 may be accommodated in a portion that is not illustrated.

  Further, the shapes of the in-body concave portion 32, the member outer convex portion 74, the main body outer convex portions 132, 322, and the member inner concave portions 174, 674 are not particularly limited. Further, the holding members 16, 126, and 326 may be connected to the joint bodies 10, 120, and 310 by meshing male and female screws instead of the convex portions and the concave portions.

  Further, the number of lock rings 12, the number of main body seal rings 20 accommodated in the joint main bodies 10 and 120, and the number of holding member seal rings 22 accommodated in the holding members 16 and 126 are not particularly limited.

  Further, the guide ring 18 may be stored in advance in the joint body 10 (for example, between the biting storage portion 36 and the mouth-side seal groove 38).

10, 120, 310: Joint body 12, 322: Lock ring 14: Washer 16, 126, 326: Holding member 18: Guide ring 20: Main body seal ring 22: Holding member seal ring 30, 130, 330: Entry part 32: Recesses 34, 134, 334 in the main body: ring receiving portions 36, 136: biting accommodation portions 38, 338: mouth side seal grooves 40, 340: back side seal grooves 42, 342: tube accommodation portions 44, 344: contact surface 60 , 360: annular portions 62, 362: biting portions 70, 170: space forming portions 72, 172, 372: through holes 74: member outer convex portions 76, 176: holding member seal groove portions 78, 178, 378: guide portion 80, 180: inner surface stepped portions 92, 192: guide portion tapered surface 100: ring main body portion 102: retaining projections 132, 332: book Outer protrusions 174,374: member recess 200: tube

Claims (7)

A joint body having a ring receiving part and a pipe entry part to the inside;
A holding member having a through-hole through which the pipe passes and connected to the joint body;
A pipe joint comprising a lock ring housed between the ring receiver and the holding member,
The holding member has a guide portion that guides the lock ring to a predetermined position when the lock ring is accommodated between the ring receiving portion and the holding member, in addition to the through hole. Pipe fittings. The lock ring is
An annular portion accommodated between the ring receiving portion and the holding member;
A biting portion protruding from the annular portion and biting into the surface of the tube;
The pipe joint according to claim 1, wherein the guide portion enters the annular portion that is accommodated between the ring receiving portion and the holding member.   The pipe joint according to claim 2, wherein the guide portion has a guide portion tapered surface that narrows in a direction in which the guide portion enters the annular portion. The ring receiving portion is disposed inside the joint body;
The holding member further includes a space forming portion that forms a space in which the annular portion is accommodated by entering the inside of the joint body and facing the ring receiving portion;
The guide part is provided on an edge side of the through hole as viewed from the space forming part, surrounds the edge of the through hole, and projects in an entry direction to the annular part. 2. The pipe joint according to 2.   The pipe joint is further accommodated in advance in the joint main body or in the holding member, and further includes a guide ring that is pushed by the pipe and advances through the joint main body. 2. The pipe joint according to 2. The ring receiving portion surrounds an edge of the entry portion of the joint body;
The lock ring is
An annular portion accommodated between the ring receiving portion and the holding member;
A biting portion protruding from the annular portion and biting into the surface of the tube;
The pipe joint according to claim 1, wherein the guide portion has a tapered surface with which the annular portion comes into contact.   The pipe joint is further accommodated in advance in the holding member so as to penetrate the lock ring, and further includes a guide ring that is pushed by the pipe and advances inside the joint body. Item 7. The pipe joint according to Item 6.

Images