JP5471235B2 - Pipe joint structure - Google Patents

Description

  The present invention relates to a pipe joint structure for fluid.

  Conventionally, there has been a pipe joint used to connect a faucet that discharges hot water and a water stop cock provided in a water supply pipe and a hot water supply pipe via a flexible hose. A so-called “one-touch coupler type” pipe joint that can be detached is known.

  For example, a female body in which a circumferential groove for fitting a seal material is formed on the inner periphery, a socket and a sleeve that support a lock member that fits in an annular groove on the outer periphery of the male plug, a spring material that biases the sleeve, and a sleeve and a spring material A male plug is provided by arranging a female body, a socket, a spring material and a sleeve in series in order, and providing a moving space for the lock member when the spring material is contracted and when the male plug is detached. There was one that made it possible to bind and detach (see, for example, Patent Document 1).

JP 2002-295767 A

  However, the length of the flexible hose connecting the faucet and the stop cock is not constant, and the positional relationship between the faucet and the stop cock is various. Therefore, when the one-touch coupler type pipe joint described above is used, for example, when a short flexible hose must be bent strongly and inserted into the connection hole of the pipe joint main body, a large reaction force is applied to the hose. Occurs, the nipple at the tip of the hose is in a state of being in strong contact with the inner peripheral surface of the connection hole, and resistance during insertion and withdrawal increases.

  In that case, the seal function by the seal member may be caused even though the lock has not been completed, and it may be used as it is. If it is used in such a state that the lock is not completed, there is a possibility that water leakage such as a fountain may occur suddenly even if it can be used without any problem for a while.

  Especially when connecting the flexible hose in a narrow space such as under the sink of the sink, it must be in an unnatural posture, so the insertion force by hand is not fully applied and the lock is not completed. There is a great risk that

Therefore, an object of the present invention is to provide a pipe joint structure that can reliably connect the pipe members for fluid and can easily confirm that the pipe members are connected.

(1) In the present invention, a hose through which a fluid passes through an inner side in which a male screw part having an outer diameter larger than the outer diameter of the sealing surface and the sealing surface is sequentially formed from the tip opening side, and the male screw part of the hose A pipe fitting body in which a nut member that can be screwed together and the nut member is mounted in a rotatable and non-dropping state, and an insertion port is formed through which the tip of the hose can be inserted via the nut member And a shaft seal member that is disposed on the outer peripheral surface of the hose tip side or the inner peripheral surface of the insertion port of the pipe joint body and seals the sealing surface of the hose and the inner peripheral surface of the insertion port of the pipe joint body , Provided, by rotating the nut member in a hose temporary fitting state in which the tip of the hose is inserted into the insertion port, and screwing the female screw portion of the nut member and the male screw portion of the hose, Through the shaft seal material It said pipe joint body and said hose is a pipe joint structure being connected in a state.

  (2) Moreover, this invention is a pipe joint structure as described in said (1), The said shaft sealing material is the insertion port side of the said hose front end side or the said pipe joint main body, Comprising: It is characterized by being provided at a position where the sealing function cannot be exhibited in the state.

  (3) Further, in the pipe joint structure according to the above (1) or (2), the present invention provides the male screw portion of the hose between the opening start end of the nut member and the start end of the female screw portion. A guide portion having a diameter larger than the outer diameter of the hose, and the guide portion allows the hose to be coaxial with the insertion port of the nut member and the pipe joint body. It is characterized in that it can be regulated.

  (4) Moreover, the present invention provides the pipe joint structure according to any one of (1) to (3) above, wherein an annular elastic member is attached to the hose, and the attachment position of the annular elastic member is A position where the female threaded portion of the nut member and the male threaded portion of the hose are screwed together, and when the connection between the hose and the pipe joint body is completed, the opening of the nut member is flush with the opening start end. Alternatively, it is characterized in that it is a position that has entered from the opening start end.

(5) Moreover, in the pipe joint structure according to any one of the above (1) to (4), the present invention provides each other between the tip outer peripheral surface of the hose and the insertion port of the pipe joint body. It is characterized in that a deformed portion to be fitted is formed.

(6) Moreover, the present invention provides the pipe joint structure according to any one of (1) to (5), wherein the nut member and the hose are screwed together, and the pipe joint body and the hose. And a slack preventing mechanism that acts only when the connection is completed. The slack preventing mechanism includes a groove and a polygonal surface formed on the outer peripheral surface of the tip portion of the hose, and a female formed on the nut member. The screw part and the male screw part formed on the hose are screwed together, and the claw part that fits into the groove part only at the position where the rotation of the nut member stops, and the polygonal surface is restricted from rotating. While holding the plate member, a plate member having an elevation surface portion, an elastic plane portion that contracts and expands the claw portion and the elevation surface portion, and a fulcrum portion provided on the elastic plane portion, Cam portion that contacts the outer peripheral end surface of the plate member A holder member formed and engaged with the nut member so as to be rotatable around the nut member; and a concave portion or a convex portion provided on the nut member and fitted to a fulcrum portion of the plate member. When the holder member is rotated when the female screw portion formed on the nut member and the male screw portion formed on the hose are completely screwed together, the cam portion causes the claw portion and the elevation surface of the plate member to be rotated. When the screw portion is contracted in the axial center direction and is reversely rotated when releasing the screwing of the male screw portion and the female screw portion, the claw portion and the elevation portion of the plate member are expanded by the cam portion. Thus, the fitting between the claw portion and the groove portion is released, and the rotation restriction of the polygonal surface is also released.

  According to the first aspect of the present invention, the nut member is rotated with the hose temporarily fitted with the tip of the hose inserted into the insertion port, and the female screw portion of the nut member and the male screw portion of the hose are screwed. Since the hose and the joint body are connected via the shaft seal material, the gripping force of the operator holding the hose until the lock is reached after the hose is inserted. The insertion force can be assisted by a strong propulsive force by screwing. For example, even if a reaction force is generated in the flexible hose, the influence of the reaction force can be reduced and the connection can be made with a small force. . Thus, since the operator rotates the nut member with his / her hand to connect, the connection is not completed in a state in which the hose is temporarily fitted in the insertion hole of the joint body, that is, in an incomplete lock state. . In addition, the nut member can be easily tightened. Furthermore, even when the nut member is not completely tightened, the sealing force is constant, and water leakage due to stress relaxation of the shaft seal material does not occur.

  According to the second invention, since the shaft seal member is provided at a position where the sealing function cannot be exhibited in the state of temporarily fitting the hose, the female screw portion in which the male screw portion of the hose is formed on the nut member. And the shaft seal material will function. Therefore, if water is passed at this point, water will leak from the joint body, so it will be possible to easily find incomplete malfunctions in the pressure test before completion to check the connection status based on the presence or absence of water leakage. .

  Further, according to the third invention, the guide portion can regulate the hose posture in the state of temporary hose fitting so that the hose is coaxial with the insertion port of the nut member and the pipe joint body. When inserted, the hose male threaded portion and the nut member female threaded portion can be smoothly screwed together, and the hose tip is held at two places, the guide portion and the fitting body insertion hole. The hose and the joint body can be connected easily by reducing the resistance at the time.

  According to the fourth invention, the hose is prevented from being pulled out by the frictional force of the annular elastic member attached to the hose, and the connection is completed because the position where the annular elastic member is not visible becomes the connection completion position. This can be easily confirmed visually.

  Further, according to the fifth invention, since the hose is not twisted even when the nut member is screwed by a deformed portion such as knurling or spline processing, for example, the connection work between the joint body and the hose Workability can be improved.

  Further, according to the sixth invention, the connection between the joint body and the hose is completed by the loosening prevention mechanism which acts only when the screw connection between the nut member and the hose is completed and the connection between the joint body and the hose is completed. After that, the hose does not come off and safety is improved. In addition, in a state where the screwing of the nut member and the hose is not completed, the claw portion of the plate member does not fit in the groove formed on the outer peripheral surface of the tip portion of the hose, so that the hose connection is not completed. It can be easily recognized. Further, by stopping the relative movement between the nut member and the hose on the polygonal surface, it is possible to prevent screw loosening regardless of friction caused by the screw portion.

It is explanatory drawing of the faucet provided with the pipe joint structure concerning one embodiment of the present invention. It is explanatory drawing by the cross sectional view of the pipe joint structure. It is explanatory drawing of the guide part in the pipe joint structure. It is explanatory drawing which shows the connection procedure of the hose in the pipe joint structure. It is explanatory drawing which shows the pipe joint structure which concerns on the modification of this invention. It is explanatory drawing which shows the pipe joint structure which concerns on other embodiment of this invention. It is explanatory drawing which shows the release state of a slack prevention mechanism. It is explanatory drawing which shows the locked state of a slack prevention mechanism. It is explanatory drawing of a holder plate. It is explanatory drawing of a holder plate.

  As shown in FIG. 1, the pipe joint 1 according to the present embodiment includes a faucet 50 that can discharge hot water or water in response to an operation of an operation lever 51, and a stopper provided in a water supply pipe 52 and a hot water supply pipe 53. It is used to connect the faucets 54, 54 via the flexible hoses 2, 2, and is interposed between one end of the flexible hose 2 and the stop cock 54. In the figure, reference numeral 55 denotes a faucet body, which includes a spout 56 provided with a water outlet at the tip.

  As shown in FIGS. 2 and 3, the pipe joint 1 is substantially composed of a pipe joint body 4 and a nut member 3 attached to the pipe joint body 4, but the pipe joint structure is a connection target. A male screw portion 21 formed at the distal end portion of the flexible hose 2 (hereinafter simply referred to as “hose 2”), and an outer peripheral surface on the distal end side of the hose 2 or an inner peripheral surface of the insertion port 41 of the pipe joint main body 4. The presence of the first O-ring (O-ring) 5 as a shaft seal material is important.

  That is, as shown in the drawing, the pipe joint structure according to the present embodiment is capable of screwing with the above-described hose 2 in which the male threaded portion 21 is formed on the nipple 20 serving as the tip, and the male threaded portion 21 of the hose 2. A nut member 3 and a pipe joint main body 4 in which the nut member 3 is mounted so as to be rotatable and not dropped off, and an insertion port 41 into which the tip of the hose 2 can be inserted through the nut member 3 is formed. And a first O-ring 5 that is a shaft seal member disposed on the inner peripheral surface of the insertion port 41 of the pipe joint body 4.

  Then, the nut member 3 is rotated in a state where the end of the hose 2 is inserted into the insertion port 41 of the pipe joint body 4 while being inserted into the nut member 3, that is, in a state where the hose is temporarily fitted. By screwing the screw part 31 and the male screw part 21 of the hose 2, the hose 2 and the pipe joint body 4 are connected to each other via the first O-ring 5.

  Hereinafter, each component which comprises a pipe joint structure is explained in full detail. The hose 2 has flexibility, can be freely bent in a three-dimensional direction, and a cylindrical nipple 20 is attached to an end portion. The nipple 20 is formed with a predetermined length of a seal surface 23 slidably contacting the two first O-rings 5, 5 provided on the pipe joint body 4 from the tip opening side where the tapered portion 22 is formed. A male screw portion 21 is formed following the seal surface 23, and a second O-ring 24, which is an annular elastic member, is attached adjacent to the male screw portion 21. The second O-ring 24 is also a feature of this embodiment, which will be described in detail later.

  The pipe joint body 4 is made of metal, and an insertion port 41 for inserting the hose 2 is formed in the upper end surface, and first O-rings 5 and 5 are provided in two upper and lower stages on the inner peripheral surface. The upper cylinder part 4a, the lower cylinder part 4b having a diameter larger than that of the upper cylinder part 4a and having a screw part 42 to be connected to the stop cock 54 side, the upper cylinder part 4a and the lower cylinder It is comprised from the intermediate cylinder part 4c which connects the part 4b and accommodates the check valve etc. which are not shown in figure inside. Here, two first O-rings 5 are provided, but the number is not limited as long as the sealing performance can be sufficiently exhibited.

  Further, the nut member 3 is also made of metal, has a cylindrical body having an inner diameter capable of enclosing the upper cylindrical portion 4a of the pipe joint body 4 with a minute gap, and having an outer shape capable of being turned by hand. It is formed of a part 3a and a threaded part 3b that is connected to the body part 3a and has an internal threaded part 31 that is threadedly engaged with the male threaded part 21 of the hose 2. Further, a drop-off prevention fitting 43 having elasticity formed in a substantially C shape is fitted into a groove portion 4d provided in the vicinity of the lower end of the upper cylindrical portion 4a of the pipe joint body 4 so that the nut member 3 is separated from the pipe joint body 4. When the nut member 3 is moved in the direction, the drop-off prevention metal fitting 43 abuts against a counterbore groove 3d provided in the vicinity of the lower end of the trunk portion 3a, thereby preventing the nut member 3 from dropping off. The periphery of the main body 4 is rotatable (see FIG. 2).

  A guide portion 32 for guiding the hose 2 is formed on the opening side formed on the distal end surface of the screw portion 3 b of the nut member 3.

  That is, as shown in FIG. 3, the inner peripheral surface formed between the opening start end 33 of the nut member 3 and the start end 31 a of the female screw portion 31 is smaller than the outer diameter d of the male screw portion 21 of the hose 2. The guide portion 32 has a large diameter. In the figure, the symbol D indicates the diameter of the guide portion 32.

  That is, the internal thread portion 31 is formed by engraving screws from the opening start end 33 at a predetermined interval enough to form the guide portion 32. The hose 2 is coaxial with the nut member 3 and the insertion port 41 of the pipe coupling body 4 when the hose is temporarily fitted by the guide portion 32 so that the tip of the hose 2 is inserted into the insertion port 41 of the pipe coupling body 4. The attitude is regulated so that

  The procedure for connecting the hose 2 to the pipe joint 1 is shown in FIG. 4, and the procedure for actually connecting the hose 2 to the pipe joint 1 according to this embodiment will be described below.

  That is, as shown in FIG. 4A, first, the tip of the hose 2 is inserted into the insertion port 41 of the pipe joint body 4 while being inserted from the opening start end 33 side of the nut member 3, and the hose is temporarily fitted. To do. At this time, since the guide portion 32 described above is formed between the opening start end 33 of the nut member 3 and the start end 31a of the female screw portion 31, the screw is suddenly cut from the opening start end like a general nut. Compared with the structure currently used, it can insert straightly, without the front-end | tip of the hose 2 becoming diagonally.

  In addition, when the hose 2 is inserted and the starting end 21a of the male threaded portion 21 of the hose 2 comes into contact with the starting end 31a of the female threaded portion 31 of the nut member 3, the tip of the hose 2 is shown in FIG. It is supported by the opening start end of the insertion port 41. That is, the nipple 20 that forms the tip of the hose 2 is held in a stable posture with the tip supported by the insertion port 41 of the pipe joint body 4 and the middle part by the guide part 32 of the nut member 3.

  In this posture, the hose 2 is coaxial with the nut member 3 and the insertion port 41 of the pipe joint body 4, and when the nut member 3 is turned by hand, the screw tightening resistance is reduced and the hose 2 is male. The screw portion 21 and the female screw portion 31 of the nut member 3 are screwed very smoothly.

  In this way, the nut member 3 can be easily tightened, so that it is possible to make an error that the connection is completed in a state where the hose 2 is temporarily fitted to the insertion port 41 of the pipe joint body 4 and is not yet locked. Can be reduced.

  By the way, in such a hose temporary fitting state, as shown in FIG. 4A, the sealing function is never exhibited. That is, the first O-ring 5 is attached in the vicinity of the insertion port 41 of the pipe joint main body 4 at a position where it does not come into contact with the seal surface 23 of the hose 2 in the temporarily hose-fitted state.

  Therefore, if the hose is connected in such a temporary hose connection state, if the water is passed at this point in the pressure test before completion to confirm the connection state by the presence or absence of water leakage, etc. Since water always leaks from 4 (refer to the broken line), it is possible to easily find the incomplete lock. In other words, the locked state can be detected by intentionally leaking water.

  Next, when the nut member 3 is turned by hand, as shown in FIG. 4 (b), the hose 2 and the nut member 3 are screwed together. However, in this state, the sealing is not yet complete. In other words, the tip of the nipple 20 that forms the tip of the hose 2 is formed with a tapered portion 22 so as not to damage the first O-ring 5 or cause a large resistance during sliding. This is because one O-ring 5 is only in contact with the tapered portion 22 and is not sufficiently in contact with the seal surface 23 of the hose 2. Therefore, in this case as well, as in FIG. 4A, water leaks in the pressure resistance test or the like, so that it is possible to find a problem that the lock is not completed (see broken line).

  Further, when the hose 2 and the nut member 3 are further screwed together to reach the state shown in FIG. 4C, the two first O-rings 5 and 5 are firmly in contact with the sealing surface 23 of the hose 2. A sufficient sealing function is exhibited. Therefore, even if it is as it is, there is no particular problem if only the current sealing property is considered.

  However, in this state, since there is still a possibility of screw loosening, in the present embodiment, it is possible for the operator to visually recognize that the connection has been reliably completed.

  That is, the second O-ring 24 provided adjacent to the male screw portion 21 of the hose 2 is made to function as a mark that serves as a standard for completion of connection. That is, when the connection between the hose 2 and the pipe joint body 4 is completed, the second O-ring 24 is in a position where it is flush with the opening start end 33 of the nut member 3 or a position where the second O-ring 24 is recessed from the opening start end 33. It is provided.

  Therefore, in the state of FIG. 4C, it can be seen that the second O-ring 24 is still peeping from the upper end of the nut member 3, so that the connection is not yet completed. On the other hand, the female screw portion 31 of the nut member 3 and the male screw portion 21 of the hose 2 are screwed together, and the second O-ring 24 is hidden by the nut member 3 as shown in FIG. When it disappears, it turns out that the connection with the pipe joint main body 4 of the hose 2 is completed. 4D, the elastic force of the second O-ring 24 causes a frictional force to be generated on both the O-ring groove bottom surface 25 and the guide portion 32 of the hose 2, so that the female screw portion 31 of the nut member 3 is formed. And slack between the male screw portion 21 of the hose 2 can be prevented.

  By the way, the hose connection work is often performed, for example, in a dark place under a sink such as a kitchen. Therefore, here, as the second O-ring 24, for example, a combination of a pink fluorescent material is used. Used. Therefore, the worker can visually recognize that the connection is complete even in a dark place.

  Next, a modified example of the present invention and a pipe joint structure according to another embodiment will be described with reference to FIGS. In the following description, the same components as those in the above-described embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In the modification shown in FIG. 5, deformed portions 9 that are fitted to each other are formed between the distal end portion of the hose 2 and the insertion port 41 of the pipe joint body 4. Here, spline processing in which a plurality of grooves are formed is applied as the deformed portion 9. Accordingly, when the nut member 3 is tightened with the screw, the groove of the hose 2 meshes with each other and goes straight, so that the hose 2 is not twisted and the hose 2 and the pipe joint body 4 are connected. Workability can be improved. Note that knurling may be performed instead of spline processing.

  Moreover, as shown in FIGS. 6-8, as the pipe joint structure which concerns on other embodiment, the screwing of the nut member 3 and the hose 2 was completed, and the pipe joint main body 4 and the hose 2 were connected. It can be set as the structure provided with the slack prevention mechanism 6 which acts only occasionally. 7 is a cross-sectional view taken along the line II of FIG. 6A, and FIG. 8 is a cross-sectional view taken along the line JJ of FIG. 6B. 6A and 7 show the released state (unlocked state) of the slack preventing mechanism 6, and FIGS. 6B and 8 show the locked state of the slack preventing mechanism 6. FIG.

  The loosening prevention mechanism 6 includes a plate member 7, a convex portion 74 provided at the center of the plate member 7 as a fulcrum portion when the plate member 7 is contracted and expanded due to elasticity, and the convex portion provided on the nut member 3. 74, a recess 34 that fits with the plate 74, a holder member 8 that holds the plate member 7, and a groove 61 and a hexagonal surface 62 formed on the outer peripheral surface of the tip of the hose 2. The plate member 7 having the convex portion 74 fitted to 34 is held by the holder member 8 and is mounted on the upper portion of the nut member 3 so as to be rotatable around the hose 2. The hexagonal surface 62 is presented as an example of the polygonal surface. Further, in this embodiment, the fulcrum portion is a convex portion, and the portion fitted to the fulcrum portion is a concave portion. However, the fulcrum portion may be a concave portion and the portion fitted to the fulcrum portion may be a convex portion.

  The plate member 7 is formed of a metal material having elasticity, and has elastic flat portions 71 and 71 as shown in FIGS. 7 and 8. The plate member 7 has elastic deformation at the center of the elastic flat portion 71. A convex portion 74 is provided as a fulcrum at the time, and an elevating surface portion 73 is erected on each of the portions following the elastic flat surface portions 71 and 71, and further, claw portions 72 and 72 like a thread trimming scissors are provided on the further ends. Is provided. Then, in a state where the screwing of the hose 2 and the nut member 3 is completed and the rotation of the nut member 3 is stopped (FIGS. 6B and 8), the cam portion 82 of the holder member 8 moves from the outside to the inside. When an external force is applied, the plate member 7 that places a fulcrum on the nut member 3 abuts the pair of left and right standing surfaces 73 and 73 from the left and right of the hexagonal surface 62 so that the hose 2 does not rotate. regulate. (FIG. 8). In addition, each claw 72 has the groove portion only at a position where the female screw portion 31 formed on the nut member 3 and the male screw portion 21 formed on the hose 2 are screwed together to stop the rotation of the nut member 3. 61 and the position in the height direction are matched and fitted.

  On the other hand, the holder member 8 is formed of a synthetic resin material, and is formed so as to be able to rotate around the nut member 3, that is, around the hose 2 by engaging with the nut member 3. In addition, a plate holding space 81 is formed inside the holder member 8 so that the plate member 7 can be stored and held. A peripheral wall that forms the plate holding space 81 is formed on the outer peripheral end surface 75 of the plate member 7 from the outside. The abutting crescent-shaped cam portions 82, 82 are formed in an opposing state.

  That is, in the present embodiment, the groove 61 and the hexagonal surface 62 formed on the outer peripheral surface of the tip portion of the hose 2, the female screw portion 31 formed on the nut member 3, and the male screw portion 21 formed on the hose 2, Are engaged with each other, and the plate member 7 has claw portions 72, 72 that engage with the groove portion 61 only at a position where the rotation of the nut member 3 stops, and elevating surface portions 73, 73 that restrict the hexagonal surface 62 from rotating. And a holder member that holds the plate member 7 and is formed with cam portions 82 and 82 that come into contact with the outer peripheral end faces 75 and 75 and engages with the nut member 3 to rotate around the nut member 3. When the holder member 8 is rotated when the female screw portion 31 formed on the nut member 3 and the male screw portion 21 formed on the hose 2 are completely screwed together, the cam portions 82 and 82 Of member 7 While the elastic flat surface portions 71 and 71 accumulate elastic energy, the outer peripheral end surface 75 is pushed to contract the claw portion 72 and the vertical surface portion 73 in the axial center direction, while the screwing of the male screw portion 21 and the female screw portion 31 is released. When the reverse rotation is performed, the cam portions 82 and 82 release the elastic energy of the elastic plane portions 71 and 71 to expand the claw portion 72 and the elevation surface portion 73 of the plate member 7, thereby expanding the claw portion 72, The fitting between the groove 72 and the groove 61 is released, and the rotation restriction of the hexagonal surface 62 is also released.

  With this configuration, when the female screw portion 31 formed on the nut member 3 and the male screw portion 21 formed on the hose 2 are completely screwed together, the holder member 8 is turned to the locked position rotated 90 degrees. While the claw portion 72 and the elevation surface portion 73 of the plate member 7 are contracted in the axial center direction by the portions 82, 82, when the screwing of the male screw portion 21 and the female screw portion 31 is released, the claw portion 72 and the vertical surface portion 73 are also reversely rotated by 90 degrees. When the unlocked position is set, the claw portions 72 and the elevation surface portions 73 of the plate member 7 are expanded by the cam portions 82 and 82 to release the fitting between the claw portions 72 and the groove portions 61 of the hose 2, and By releasing also the rotation restriction of the surface 62, the screw can be unscrewed.

  As described above, since the slack prevention mechanism 6 is provided, the safety of the hose 2 is improved because the hose 2 is not detached after the pipe joint body 4 and the hose 2 are completely connected. On the other hand, in the state where the screwing of the nut member and the hose is not completed, even if the holder member 8 is rotated in the locking direction, the groove 61 formed on the outer peripheral surface of the tip portion of the hose 2 has a claw portion of the plate member 7. Since 72 and 72 do not fit, the holder member 8 does not reach the lock position, and it can be easily recognized that the hose connection is incomplete. Furthermore, since the relative movement between the nut member 3 and the hose 2 is stopped by the hexagonal surface 62, it is possible to prevent loosening of the screw without friction caused by the male screw portion 21 of the hose 2 and the female screw portion 31 of the nut member 3. It becomes.

  As shown in FIGS. 7 to 10, on the peripheral wall of the holder member 8, a nail body 84 that is cantilevered and has a protrusion 83 formed at the tip is formed, while the upper outer peripheral surface of the nut member 3 is formed. In this case, at least two or more concave portions 34 into which the convex portions 83 enter are formed at the locked position and the unlocked position. Therefore, when the holder member 8 is rotated by hand, it can be easily recognized that the holder member 8 is rotated 90 degrees with the click feeling.

  In addition, here, when the shallow concave portion 34a and the deep concave portion 34b are provided by being shifted by 90 degrees, and the connection work of the hose 2 to the pipe joint body 4 is completed and the holder member 8 is rotated to the locked position, the holder member 8 The convex portion 83 of the claw body 84 formed on the peripheral wall enters the shallow concave portion 34a of the nut member 3, while entering the deep concave portion 34b at the unlock position.

  Therefore, as shown in FIG. 8, the convex portion 83 protrudes from the peripheral wall by a predetermined height at the locked position. When the holder member 8 is at the unlocked position, as shown in FIG. Enters the deep recess 34b of the nut member 3, and therefore does not protrude from the peripheral wall. Therefore, the operator can confirm the completion of the hose connection work by recognizing whether or not the nail body 84 protrudes from the outer peripheral surface of the holder member 8 by a tactile sense with a fingertip or visually.

  The correspondence relationship between the depth of the recess 34 and the lock position and unlock position of the holder member 8 is not necessarily limited as described above, and the deep recess 34b corresponds to the lock position and the shallow recess 34a corresponds to the unlock position. You may let them. In addition, when the click feeling is not necessarily required, the concave portion 34 is not divided into a shallow portion and a deep portion, and the convex portion 83 of the claw body 84 enters the concave portion 34 at either the locked position or the unlocked position. It may be.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to each embodiment mentioned above, In the range of the summary of this invention described in the claim, various deformation | transformation are carried out.・ Change is possible.

1 Fitting 2 Flexible hose 3 Nut member 4 Fitting body 5 First O-ring (shaft seal material)
6 Loosening prevention mechanism 7 Plate member 8 Holder member 21 Male screw portion 24 Second O-ring (annular elastic member)
31 Female thread portion 32 Guide portion 61 Groove portion 62 Hexagonal surface 71 Elastic flat surface portion 72 Claw portion 73 Elevated surface portion 75 Outer peripheral end surface 82 Cam portion

Claims (6)

A hose through which fluid passes from the front end opening side to the inside where a male thread portion having an outer diameter larger than the outer diameter of the sealing surface and the sealing surface is sequentially formed;
A nut member that can be screwed with the male screw portion of the hose;
A fitting body in which the nut member is rotatably and mounted in a state where it does not fall off, and an insertion port is formed through which the tip of the hose can be inserted through the nut member;
A shaft seal member that is disposed on the outer peripheral surface of the hose tip side or the inner peripheral surface of the insertion port of the pipe joint body and seals the seal surface of the hose and the inner peripheral surface of the insertion port of the pipe joint body ,
With
By rotating the nut member with the hose temporarily fitted with the tip of the hose inserted into the insertion port, and screwing the female screw portion of the nut member and the male screw portion of the hose, the shaft A pipe joint structure, wherein the hose and the pipe joint body are connected via a sealing material.   The shaft seal material is provided at a position where the seal function cannot be exhibited in the state of the hose provisional fitting state, on the tip end side of the hose or the insertion port side of the pipe joint main body. The pipe joint structure described in 1.   Between the opening start end of the nut member and the start end of the female screw portion, a guide portion having a diameter larger than the outer diameter of the male screw portion of the hose is formed, and the hose is connected to the nut member by the guide portion. The pipe joint structure according to claim 1 or 2, wherein a hose posture in the state of temporary fitting of the hose can be regulated so as to be coaxial with an insertion port of the pipe joint main body.   An annular elastic member is attached to the hose, and the attachment position of the annular elastic member is screwed between the female screw portion of the nut member and the male screw portion of the hose, and the hose and the pipe joint 4. The position according to claim 1, wherein when the connection with the main body is completed, the nut member has a position that is flush with the opening start end of the nut member, or a position that is recessed from the opening start end. Pipe joint structure. The pipe joint according to any one of claims 1 to 4, wherein a deformed part that fits to each other is formed between the outer peripheral surface of the tip of the hose and the insertion port of the pipe joint main body. Construction. And screwing is completed between the nut member and the hose, provided with a slack preventing mechanism which acts only when said fitting body and said hose is connected completed,
This loosening prevention mechanism
A groove and a polygonal surface formed on the outer peripheral surface of the tip portion of the hose;
A claw portion that engages with the groove portion only at a position where rotation of the nut member stops when a female screw portion formed on the nut member and a male screw portion formed on the hose are screwed together, and the polygon A plate member having an elevating portion that restricts the surface of the plate from rotating, an elastic plane portion that contracts and expands the claw portion and the elevating portion, and a fulcrum portion provided on the elastic plane portion,
A holder member that holds the plate member and is formed with a cam portion that contacts the outer peripheral end surface of the plate member, and that engages with the nut member and is rotatable around the nut member;
A concave or convex portion provided on the nut member and fitted to a fulcrum portion of the plate member;
When the holder member is rotated when the female screw portion formed on the nut member and the male screw portion formed on the hose are completely screwed together, the claw portion and the vertical surface portion of the plate member are rotated by the cam portion. Is retracted in the axial center direction, and when the screw is reversely rotated when releasing the threaded engagement between the male screw portion and the female screw portion, the cam portion causes the claw portion and the elevation portion of the plate member to expand. The pipe joint structure according to any one of claims 1 to 5, wherein the fitting between the claw portion and the groove portion is released, and the rotation restriction of the polygonal surface is also released.

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