JP5873680B2 - Fitting for flexible pipe - Google Patents

Description

  The present invention relates to a flexible pipe joint, and more particularly to a flexible pipe joint that can simplify work.

  Patent document 1 discloses the joint for flexible pipes. This flexible pipe joint includes a joint body, an elastically deformable sealing material, a retaining member, a fireproof packing, and a press ring. The joint body has a receiving portion. The flexible tube is inserted into the joint body from the receiving port. The flexible tube is provided with a peak portion and a valley portion. The peaks and valleys extend over the entire circumference. The crests and troughs are alternately provided along the axial direction of the flexible tube. The sealing material is accommodated in the joint body. The retaining member is also accommodated in the joint body. The retaining member is integrated with the sealing material. The retaining member engages with the valley of the flexible tube. A fireproof packing is also accommodated in the joint body. The pusher wheel is inserted into the joint body through the receiving port. A flexible tube passes through the wheel. The push ring stops the flexible tube from coming off the joint body together with the retaining member. The joint body includes a seal material standby portion, a seal material diameter-reducing guide portion, and a seal material accommodation portion. At least a part of the sealing material is disposed in advance in the sealing material standby portion. The sealing material diameter-reducing guide portion is disposed on the back side of the sealing material standby portion. The sealing material accommodating portion is disposed on the back side of the sealing material diameter-reducing guide portion. The sealing material has a sealing action part and a drawing-in part. The sealing action part is accommodated in the sealing material accommodation part. A sealing action part seals between the outer peripheral surface of a flexible pipe, and the inner peripheral surface of a coupling main body by engaging with the trough part of a flexible pipe. The lead-in part is arranged on the back side of the joint body with respect to the sealing action part. The retracting part is integrated with the sealing action part. The retracting portion moves the sealing action portion to the sealing material accommodating portion by being pushed by the flexible pipe inserted into the receiving portion. The sealing action part moves to the sealing material accommodation part and the retaining member moves into the sealing material standby part. At this time, the retaining member engages with the valley of the flexible tube. The fireproof packing contains an expansion material and a synthetic resin. The inflatable material expands when heated to a temperature exceeding the threshold. The fireproof packing is disposed at a position in the sealing material standby portion that comes into contact with the retaining member that is moving with the movement of the sealing action portion and can expand in the direction of the sealing material diameter reducing guide portion when heated. Yes.

  According to this joint for flexible pipes, a seal-like connection can be achieved by a one-touch operation by simply inserting the flexible pipe. This joint for flexible pipes has little influence on deformation of the flexible pipe and bending after construction. This joint for flexible pipes can improve sealing performance and fire resistance.

JP 2011-7238 A

  The flexible pipe joint disclosed in Patent Document 1 enables a seal-like connection by a one-touch operation only by inserting a flexible pipe. However, it is not possible to prevent the flexible tube from coming off the joint body together with the retaining member as it is. In order to prevent the flexible tube from coming off, an operation is required so that the presser wheel does not fall out of the joint body.

  The present invention has been made to solve this problem, and an object of the present invention is to provide a joint for a flexible pipe that can simplify the work of connecting the flexible pipe.

  The flexible pipe joint of the present invention will be described with reference to the drawings. It should be noted that the reference numerals in the figure are used in this column in order to help understanding of the contents of the invention, and are not intended to limit the contents to the illustrated range.

To achieve the above object, according to an aspect of the present invention, the joint 1 0 for a flexible pipe comprises a joint body 2 0. The joint body 20 has a receiving portion 40. Flexible tube 300 is inserted from the mouth part 40 to the joint body 2 in the 0. In the flexible tube 300, peaks 310 and valleys 312 extending along the entire circumference are arranged alternately in the tube axis direction. Joint 1 0 for a flexible tube, in addition to the joint body 20 includes a sealing member 22, and a junk ring 2 4. Sealing material 22 is accommodated in the joint body 2 in the 0. The sealing material 22 can be elastically deformed. Pressing ring 2 4 is inserted into the joint body 2 in the 0 through the socket portion 40. Pressing ring 2 4, a flexible tube 300 by sealing member 22 stops falling out joint body 2 0 to. At least a portion of the pressing ring 2 4 can be moved along the inner peripheral surface of the joint body 2 0. Flexible tube 300, pass through the inside of the pressing ring 2 4, it is inserted from the mouth part 40 to the joint body 2 in the 0. Joint body 2 0 further includes a sealing member standby section 4 2, and a sealing member accommodation portion 48. Sealant standby section 4 2 communicates with the mouth part 40. Sealant standby section 4 2, at least a portion of the sealing member 22 is arranged in advance. Sealing material accommodation unit 48 is disposed the mouth part 40 viewed from Te sealant standby section 4 2 O Rimooku side. Sealing material accommodation unit 48 communicates with the sealing material standby section 4 2. The sealing material 22 has a sealing action portion 84, a retracting portion 82, and an outer peripheral surface engaging portion 92. The sealing action part 84 is accommodated in the sealing material accommodation part 48 and meshes with the valley 312 of the flexible pipe 300 to seal between the outer peripheral surface of the flexible pipe 300 and the inner peripheral surface of the joint body 20. The drawing-in part 82 is arranged on the back side in the joint body 20 with respect to the sealing part 84 as viewed from the receiving part 40. The lead-in part 82 is connected directly or indirectly to the sealing action part 84. The retracting portion 82 is pushed by the flexible tube 300 inserted into the receiving portion 40, whereby the sealing action portion 84 is retracted into the sealing material accommodating portion 48. The outer peripheral surface engaging portion 92 engages with the outer peripheral surface of the flexible tube 300 when the sealing action portion 84 moves to the sealing material accommodating portion 48 . Further, the above-described push ring 24 includes the interlocking unit 100 and the tubular dropout prevention unit 102. The interlocking unit 100 is disposed in the joint body 20. The interlocking unit 100 is connected to the sealing material 22. The interlocking unit 100 moves as the sealing material 22 moves. The drop prevention part 102 is fixed to the joint body 20. The drop prevention part 102 prevents the interlock part 100 from falling out of the joint body 20 before the interlock part 100 is fixed at a predetermined position. Flexible pipe fitting 1 0 further comprising a position fixing member 26. Position fixing member 26, interlocking portion 100 with the movement of the sealing material 22 secures the interlocking portion 100 and moved to a predetermined position of the joint body 2 in the 0 to a predetermined position.

When the flexible tube 300 is inserted into the joint body 2 in 0 pass through the inside of the pressing ring 2 4, the flexible tube 300 pushes the pull portion 82 of the sealing member 22. The retracting portion 82 pushed by the flexible tube 300 retracts the sealing action portion 84 into the sealing material accommodating portion 48. Sealing action portion 84 engages the valley portion 312 of the flexible tube 300 while moving the sealing member standby section 4 2 or al sealing material container 48. Thereby, the sealing action part 84 seals between the outer peripheral surface of the flexible tube 300 and the inner peripheral surface of the joint body 20. The outer peripheral surface engaging portion 92 engages with the outer peripheral surface of the flexible tube 300 when the sealing action portion 84 moves to the sealing material accommodating portion 48 and moves. Since it is connected to the sealing material 22, the interlocking unit 100 also moves as the sealing material 22 moves. Position fixing member 26, interlocking portion 100 with the movement of the sealing material 22 secures the interlocking portion 100 and moved to a predetermined position of the joint body 2 in the 0 to a predetermined position. Pressing ring 2 4, a flexible tube 300 by sealing member 22 stops falling out joint body 2 0 to. Thus, when the retracted sealing action portion 84 by inserting a flexible tube 300 to the joint body 2 in 0 to seal member accommodating portion 48, between the outer peripheral surface and the fitting body 2 0 the inner peripheral surface of the flexible tube 300 There are sealed, and the flexible tube 300 can not escape the joint body 2 0 to. Because interlocking portion 100 is fixed to a predetermined position of the joint body 2 in 0, pressing ring 2 4 so as not come off the joint body 2 0 to operation is not required. Since such an operation is unnecessary, the work of connecting the flexible tube 300 can be simplified.

  The interlocking unit 100 is disposed in the joint body 20. The interlocking portion 100 that has moved along with the movement of the sealing material 22 is fixed at a predetermined position by the position fixing member 26. On the other hand, the drop-off prevention unit 102 prevents the interlocking unit 100 from falling out of the joint body 20 before the interlocking unit 100 is fixed at a predetermined position. Thereby, the operation | work which confirms whether the press ring 24 has fallen out from the inside of the coupling main body 20 becomes unnecessary. Since the work is unnecessary, the work of connecting the flexible pipe 300 can be simplified as compared with the case where the work is necessary.

  Alternatively, it is desirable that the above-described interlocking unit 100 includes the connection unit 142 and the inhibition unit 140. The connecting portion 142 is connected to the sealing material 22. The inhibiting part 140 inhibits the outer peripheral surface engaging part 92 from moving in the direction of the receiving part 40.

  Since the inhibiting part 140 inhibits the outer peripheral surface engaging part 92 from moving toward the receiving part 40, the movement of the sealing action part 84 is also inhibited. Since the connecting portion 142 is connected to the sealing material 22, the blocking portion 140 moves as the sealing material 22 moves. When the inhibition part 140 moves, the movement distance of the outer peripheral surface engaging part 92 until it is inhibited by the inhibition part 140 becomes shorter than when the inhibition part 140 does not move. When the moving distance is shortened, the possibility that the seal between the outer peripheral surface of the flexible tube 300 and the inner peripheral surface of the joint body 20 is eliminated is lower than when the moving distance is not shortened. Since the possibility that the seal is eliminated is reduced, the work of connecting the flexible tube 300 can be simplified and the reliability of the seal can be improved.

  According to the present invention, the work of connecting a flexible pipe can be simplified.

A semi missing transverse section view showing a flexible pipe joint according to the implementation embodiments of the present invention. It is a cross-sectional view of the joint body according to the implementation embodiments of the present invention. (A) is a front view of a sealing member in the implementation form of the present invention, (B) is a rear view of the sealing member, (C) is a sectional view of the sealing member. A semi missing transverse section view of the interlocking portion of the junk ring according to implementation embodiments of the present invention. A semi missing transverse section view of抜落prevention of the junk ring according to implementation embodiments of the present invention. Is a cross-sectional view of a flexible pipe joint according to the implementation embodiments of the present invention in the middle of the flexible tube is inserted. Is a cross-sectional view of a flexible pipe joint according to the implementation embodiments of the present invention at the time of insertion of the flexible tube has been completed. It is a half notched sectional view showing a joint for flexible pipe according to a reference form. It is sectional drawing of the coupling main body concerning a reference form. It is a half notched cross-sectional view of a push ring according to a reference form. It is sectional drawing of the joint for flexible tubes concerning the reference form in the middle of the flexible tube being inserted. It is sectional drawing of the joint for flexible pipes concerning the reference form at the time of completion of insertion of a flexible pipe.

Hereinafter, embodiments and reference 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.

<Description of implementation form>
It will be described below with reference to implementation embodiments of the present invention with reference to the drawings. FIG. 1 is a half-broken cross-sectional view showing a flexible pipe joint 10 according to the present embodiment in a state where a metal flexible pipe 300 is not inserted. The configuration of the flexible pipe joint 10 according to the present embodiment will be described with reference to FIG.

[Description of structure]
The flexible pipe joint 10 according to this embodiment is connected to the flexible pipe 300. As shown in FIG. 6 and the like which will be described later, the flexible tube 300 includes a peak portion 310 and a valley portion 312. The surface of the peak portion 310 and the surface of the valley portion 312 constitute the outer peripheral surface of the flexible tube 300. As illustrated in FIG. 1, the flexible pipe joint 10 according to the present embodiment includes a joint body 20, a seal material 22, a push ring 24, a snap ring 26, a waterproof packing 28, and a lock ring 30. A connecting male screw 58 is formed on the outer periphery of one end of the joint body 20. The sealing material 22 is accommodated in the joint body 20. The pusher wheel 24 is inserted into the joint body 20. The push ring 24 is disposed on the side opposite to the connecting male screw 58 when viewed from the sealing material 22. The pusher wheel 24 includes an interlocking unit 100 and a drop-off preventing unit 102. The snap ring 26 is also accommodated in the joint body 20. The snap ring 26 is a position fixing member that can expand and contract in the radial direction. The waterproof packing 28 seals between the inner peripheral surface of the joint body 20 and the outer peripheral surface of the press ring 24 (more specifically, in the case of the present embodiment, the outer peripheral surface of the drop-off preventing portion 102). The lock ring 30 fixes the drop prevention unit 102 to the joint body 220.

  FIG. 2 is a sectional view of the joint body 20. The structure of the joint body 20 according to the present embodiment will be described with reference to FIG. Outlet portion 40 is provided at the opposite end of joint body 20 to the end on which connection male screw 58 is provided. The receiving port 40 is a port that receives the tip of the flexible tube 300. As apparent from FIG. 2, the inside of the joint body 20 communicates with the outside of the joint body 20 via the receiving port 40. In the description of the present invention, “communication” means that two spaces are made continuous through a passage. The “passage” here includes not only a tubular shape but also a simple hole. As will be apparent from the description to be described later, the distal end portion of the flexible tube 300 enters the joint body 20 from the receiving portion 40 in a state in which the pusher wheel 24 is inserted.

  Inside the joint body 20, a sealing material standby part 42, a sealing material guide part 44, and a sealing material accommodation part 48 are provided. Among these, the seal material standby part 42 is closest to the receiving port 40 side. Among these, the seal material accommodating portion 48 is closest to the connecting male screw 58 side. The sealing material standby part 42 is formed in the back of the receiving part 40 and communicates with the receiving part 40. The seal material guide part 44 is formed in the back of the seal material standby part 42 and communicates with the seal material standby part 42. The seal material accommodating portion 48 is formed in the back of the seal material guide portion 44 and communicates with the seal material guide portion 44. The inner diameter of the sealing material accommodating portion 48 is smaller than the inner diameter of the sealing material standby portion 42. As will be apparent from the description below, the sealing material standby section 42 accommodates a part of the sealing material 22 when the flexible pipe 300 is not yet in the joint body 20. When the flexible tube 300 enters the joint body 20, the seal material guide portion 44 guides the flexible tube 300 and the seal material 22 to the seal material accommodation portion 48. The sealing material accommodating portion 48 accommodates the distal end portion of the flexible tube 300 and the sealing material 22 on the outer periphery of the distal end portion.

  The seal material standby portion 42 is provided with a snap ring retaining groove 50 and a lock ring retaining groove 52. The snap ring retaining groove 50 is provided so as to surround the outer peripheral surface of the interlocking portion 100 when the pusher wheel 24 is inserted into the joint body 20. The lock ring retaining groove 52 is provided so as to surround the outer peripheral surface of the drop preventing portion 102 when the push ring 24 is inserted.

  The sealing material guide portion 44 includes a spot facing portion 54 and a reduced diameter guide portion 56. The spot facing portion 54 communicates with the sealing material standby portion 42. The reduced diameter guide part 56 is provided in the back of the spot facing part 54. The reduced diameter guide portion 56 becomes narrower as the distance from the receiving portion 40 increases.

  A fireproof packing groove 60 is provided on the inner periphery of the sealing material accommodating portion 48. The position of the fireproof packing groove 60 is a position that surrounds the outer periphery of the sealing material 22 when the sealing material 22 enters the sealing material accommodating portion 48. A fireproof packing 70 is fitted in the fireproof packing groove 60. In the present embodiment, the fireproof packing 70 is made of rubber with thermally expandable graphite.

  FIG. 3A is a front view of the sealing material 22. FIG. 3B is a rear view of the sealing material 22. FIG. 3C is a cross-sectional view of the sealing material 22. The configuration of the sealing material 22 will be described with reference to FIG. The sealing material 22 according to the present embodiment is cylindrical. The sealing material 22 according to the present embodiment includes a body portion 80, a retracting portion 82, a sealing action portion 84, and a plurality of blocking portions 86. The trunk | drum 80 is cylindrical. The inner diameter of the trunk portion 80 is substantially the same as the outer diameter of the peak portion 310 of the flexible tube 300. A flexible tube 300 is inserted into the body portion 80. The lead-in part 82 projects inward from the front end part of the trunk part 80. The retracting portion 82 is a portion that moves the sealing material 22 to the insertion completion position of the joint body 20 (the sealing material accommodating portion 48 in the present embodiment) by being pushed by the flexible pipe 300 inserted into the body portion 80. The seal action part 84 projects outward from the rear end part of the body part 80. When the sealing action part 84 meshes with the valley 312 of the flexible tube 300, the inner peripheral surface of the joint body 20 and the outer peripheral surface of the flexible tube 300 are sealed. The obstruction part 86 is provided on the rear side of the sealing material 22, that is, on the receiving part 40 side as viewed from the retracting part 82. These disturbing portions 86 are arranged in a circumferential direction. The disturbing parts 86 are separated from each other by a predetermined interval. When the sealing material 22 is accommodated in the joint body 20, the diameter of the space surrounded by the obstruction part 86 is larger than the outer diameter of the peak part 310 of the flexible pipe 300. While the blocking portion 86 is located at a position before the sealing material 22 reaches the insertion completion position of the joint body 20 (in this embodiment, the position shown in FIG. 1), the interlocking portion 100 is in the sealing material. When approaching 22, it stands in front of the interlocking unit 100.

  In the case of this embodiment, the trunk | drum 80, the drawing-in part 82, and the sealing effect | action part 84 are rubber. Examples of rubbers used as these materials include NBR (Acrylonitrile-Butadiene Rubber), SBR (Styrene-butadiene rubber), and EPDM (ethylene propylene rubber).

  An annular reinforcing metal core 90 is embedded in the drawing-in portion 82. In the case of this embodiment, the material of the reinforcing metal core 90 is a brass washer. However, the material of the drawing-in part 82 may be formed of the same material as that of the body part 80 and the sealing action part 84, or may be formed of a different material.

  As shown in FIG. 3, an outer peripheral surface engaging portion 92 is provided at the tip of the obstructing portion 86. The outer peripheral surface engaging portion 92 moves as the sealing action portion 84 moves to the sealing material accommodating portion 48. The outer peripheral surface engaging portion 92 engages with the outer peripheral surface of the flexible tube 300 when the sealing action portion 84 moves (more specifically, in the case of the present embodiment, the outer peripheral surface engaging portion 92 at this time is the valley portion 312. To engage). The outer peripheral surface engaging part 92 is formed of a material harder than the body part 80 and the sealing action part 84. Examples of such materials include metal materials such as brass and hard resins.

  The sealing material 22 is arranged as shown in FIG. 1 before the flexible tube 300 is inserted (initial state). Thereby, in the initial state, the body portion 80 is located in the seal material accommodating portion 48, the seal action portion 84 is located in the section from the seal material guide portion 44 to the seal material standby portion 42, and the obstruction portion 86. The sealing material 22 is arranged so that is positioned closer to the receiving port 40 than the sealing action portion 84.

  FIG. 4 is a half cutaway cross-sectional view of the interlocking unit 100. FIG. 5 is a half-broken cross-sectional view of the drop-out preventing portion 102. The push ring 24 according to the present embodiment will be described with reference to FIGS. 4 and 5.

  As described above, the pusher wheel 24 includes the interlocking unit 100 and the drop prevention unit 102. As shown in FIG. 4, the interlocking unit 100 is cylindrical. The flexible tube 300 can penetrate through the interlocking unit 100. An inhibition unit 140 is provided inside the interlocking unit 100. A connecting portion 142 and a snap ring holding groove 144 are provided outside the push wheel 224.

  The inhibition part 140 faces the outer peripheral surface engaging part 92 of the sealing material 22. When the flexible tube 300 is pulled out from the joint body 20 with the outer peripheral surface engaging portion 92 engaged with the outer peripheral surface of the flexible tube 300, the inhibition portion 140 causes the outer peripheral surface engaging portion 92 to move toward the receiving portion 40. Inhibits movement. Thereby, the flexible tube 300 cannot be removed. Since the flexible tube 300 cannot be removed, the push ring 24 according to the present embodiment can stop the flexible tube 300 from being detached from the joint body 20 together with the sealing material 22.

  The connecting portion 142 is connected to the outer peripheral surface engaging portion 92 (and consequently the sealing material 22) of the blocking portion 86. More specifically, in the case of the present embodiment, the connecting portion 142 is caught by the outer peripheral surface engaging portion 92 (and thus the sealing material 22). As a result, the interlocking portion 100 moves as the outer peripheral surface engaging portion 92 moves.

  The snap ring holding groove 144 is formed so as to surround the interlocking portion 100. As shown in FIG. 1, the snap ring 26 is fitted into the snap ring holding groove 144.

  One end of the push wheel 224 is a coating layer abutting portion 146. When the distal end portion of the flexible tube 300 penetrates the pusher wheel 24, the distal end portion of the flexible tube 300 passes through the space surrounded by the coating layer abutting portion 146. The covering layer 314 of the flexible tube 300 abuts against the covering layer abutting portion 146.

  As shown in FIG. 5, the dropout prevention part 102 is also cylindrical. The flexible tube 300 can penetrate through the drop prevention unit 102. A packing groove 148 is provided inside the dropout prevention portion 102. The packing groove 148 is provided so as to surround the flexible tube 300 when the distal end portion of the flexible tube 300 penetrates the pusher wheel 24. A waterproof packing 160 is fitted in the packing groove 148. The waterproof packing 160 is made of EPDM or the like. The cross section of the waterproof packing 160 is T-shaped. Pin-shaped selectively permeable members 162 are embedded in several places in the circumferential direction of the waterproof packing 160. The selectively permeable member 162 transmits gas but does not transmit solid or liquid. Thereby, a gas leak test | inspection is possible. The selectively permeable member 162 is, for example, a member including a continuous porous membrane or a porous body having continuous pores. The former continuous porous membrane is obtained by molding tetrafluoroethylene resin powder. The latter porous body can be obtained by molding from thermoplastic resin powder such as polyethylene, polypropylene, polymethyl acrylate and the like.

  A lock ring holding groove 150 and a waterproof packing groove 152 are provided outside the drop prevention portion 102. Both the lock ring holding groove 150 and the waterproof packing groove 152 are formed so as to surround the outer peripheral surface of the drop prevention portion 102. The inner peripheral portion of the lock ring 30 is fitted into the lock ring holding groove 150. The outer peripheral portion of the lock ring 30 is fitted into the lock ring retaining groove 52 described above. The waterproof packing 28 is fitted into the waterproof packing groove 152.

  At the time of assembling the flexible pipe joint 10 according to the present embodiment, the assembly worker inserts the push ring 24 into the joint body 20. With this insertion, the snap ring 26 slides on the inner peripheral surface of the joint main body 20 while the inner peripheral portion is fitted in the snap ring holding groove 144. Since the inner peripheral surface of the joint body 20 is slid, the snap ring 26 is elastically deformed to reduce the diameter. At this time, the disturbing part 86 stands in front of the interlocking part 100. For this reason, the position of the interlocking unit 100 is not fixed at this time (a mechanism for fixing the position of the interlocking unit 100 will be described later). The snap ring 26 remains in this state until the flexible pipe 300 is connected to the flexible pipe joint 10. Further, the assembly operator inserts the drop prevention portion 102 (in which the inner peripheral portion of the lock ring 30 is fitted into the lock ring holding groove 150 in advance) into the joint body 20. To do. With this insertion, the lock ring 30 slides on the inner peripheral surface of the joint body 20 while the inner peripheral portion is fitted in the lock ring holding groove 150. Since the inner peripheral surface of the joint body 20 is slid, the lock ring 30 is elastically deformed to reduce the diameter. The outer periphery of the lock ring 30 is fitted into the lock ring retaining groove 52. When the outer peripheral portion of the lock ring 30 is fitted in the lock ring retaining groove 52, the diameter of the lock ring 30 that has been reduced in diameter is increased. When the diameter of the lock ring 30 is increased, the position of the drop-off prevention unit 102 is fixed. FIG. 1 shows this state.

[Description of connection method]
Next, a method for connecting the flexible pipe 300 to the flexible pipe joint 10 described above will be described with reference to FIGS. 6 and 7. FIG. 6 is a cross-sectional view of the flexible pipe joint 10 according to the present embodiment while the flexible pipe 300 is being inserted. FIG. 7 is a cross-sectional view of the flexible pipe joint 10 according to the present embodiment at the time when the insertion of the flexible pipe 300 is completed.

  When connecting the flexible pipe 300, first, the flexible pipe 300 is inserted into the joint body 20 from the inlet side of the pusher wheel 24 (more specifically, the inlet side of the drop-off preventing portion 102). Note that the coating layer 314 at the distal end portion of the flexible tube 300 is peeled off in advance so that six crests 310 are exposed. However, how many peak portions 310 are exposed is determined according to the size of the joint body 20 and the like. How many peak portions 310 are exposed is not limited to that of the present embodiment.

  The flexible tube 300 inserted into the joint body 20 passes through the sealing material 22 in the order of the obstruction part 86, the sealing action part 84, and the body part 80. Thereafter, as shown in FIG. 6, the distal end portion of the flexible tube 300 abuts against the drawing portion 82 of the sealing material 22. The sealing action part 84 of the sealing material 22 is formed in a shape projecting outward from the body part 80. Thereby, the sealing action part 84 does not become an obstacle when the flexible tube 300 is inserted. The distal end portion of the flexible tube 300 can be smoothly inserted into the sealing material 22.

  When the flexible tube 300 is inserted until it comes into contact with the drawing-in portion 82 of the sealing material 22, the trunk portion 80 of the sealing material 22 is pushed into the back of the sealing material accommodation portion 48. Along with this pushing, the sealing action portion 84 of the sealing material 22 moves to the constricted side of the sealing material guide portion 44. The sealing action portion 84 is pressed by the sealing material guide portion 44 and deformed in a reduced diameter inward. As soon as the sealing action part 84 passes through the sealing material guide part 44 and is drawn into the sealing material accommodating part 48, it engages with the valley 312 of the flexible tube 300. Thereby, the sealing material 22 reliably seals the gap between the outer peripheral surface of the distal end portion of the flexible tube 300 and the inner peripheral surface of the sealing material accommodating portion 48 of the joint body 20. By sealing hermetically there, it is possible to prevent the fluid flowing in the flexible tube 300 from leaking from the joint body 20. Even if the flexible tube 300 is slightly deformed, the effect is hardly lowered.

  As the sealing action part 84 of the sealing material 22 is drawn into the sealing material accommodating part 48, the interlocking part 100 is also drawn into the depth of the joint body 20. This is because the connecting portion 142 of the interlocking portion 100 is connected to the outer peripheral surface engaging portion 92 of the sealing material 22. As shown in FIG. 7, the outer peripheral portion of the snap ring 26 fits into the snap ring retaining groove 50 when the sealing action portion 84 is completely drawn into the sealing material accommodating portion 48. When the outer periphery of the snap ring 26 fits into the snap ring retaining groove 50, the diameter of the snap ring 26 that has been reduced in diameter is increased. As the snap ring 26 expands in diameter, the interlocking portion 100 is fixed at that position. As a result, the snap ring 26 is moved to a predetermined position in the joint body 20 (the position where the snap ring 26 faces the snap ring retaining groove 50 in this embodiment) as the seal member 22 moves. ), The interlocking portion 100 of the push wheel 24 is fixed thereto. When the interlocking unit 100 is fixed, the operation of connecting the flexible pipe 300 to the flexible pipe joint 10 is completed. If the flexible tube 300 is to be pulled out in this state, the outer peripheral surface engaging portion 92 is obstructed by the inhibition portion 140. Since the movement is hindered, the flexible pipe 300 cannot be removed from the flexible pipe joint 10 as shown in FIG.

[Effects of flexible pipe joint according to this embodiment]
As is clear from the above description, according to the flexible pipe joint 10 according to the present embodiment, when the flexible pipe 300 is inserted to the back of the joint body 20, the connection of the flexible pipe 300 is completed. As a result, the work of connecting the flexible tube 300 can be simplified.

  Further, according to the flexible pipe joint 10 according to the present embodiment, it is not necessary to check whether the presser wheel 24 has fallen out of the joint body 20. The confirmation work is unnecessary because the interlocking portion 100 is fixed at a predetermined position (this “predetermined position” in the present embodiment is a position where the outer peripheral portion of the snap ring 26 fits into the snap ring retaining groove 50). This is because the drop prevention portion 102 prevents the interlocking portion 100 from falling out of the joint body 20 before the removal. As a result, according to the flexible pipe joint 10 according to the present embodiment, the work of connecting the flexible pipe 300 can be simplified as compared with the case where the above-described confirmation work is required.

  Moreover, according to the joint 10 for flexible pipes concerning this embodiment, the reliability of the seal between the outer peripheral surface of the flexible pipe 300 and the inner peripheral surface of the joint main body 20 can be improved. The reason why the reliability of the seal can be improved is that the possibility that the seal between the outer peripheral surface of the flexible tube 300 and the inner peripheral surface of the joint body 20 is eliminated can be suppressed. The reason that the possibility of the seal being eliminated can be suppressed because the inhibition unit 140 inhibits the outer peripheral surface engagement portion 92 from moving toward the receiving port 40.

<Description of reference form>
Hereinafter, reference embodiments will be described with reference to the drawings. 8, the flexible pipe joint 210 according to this preferred embodiment, a semi missing transverse section view showing a state in which the flexible tube 300 made of metal is not inserted. With reference to FIG. 8, the configuration of the flexible pipe joint 210 according to this preferred embodiment.

[Description of structure]
Flexible pipe joint 210 according to this preferred embodiment is intended to be connected to the flexible tube 300. As shown in FIG. 8, the flexible pipe joint 210 according to this preferred embodiment includes a joint body 220, a sealing member 22, a pressing ring 224, a snap ring 26, and a waterproof packing 28. A connection male screw 58 is formed on the outer periphery of one end of the joint body 220. The pusher wheel 224 is connected to the joint body 220 in a temporarily inserted state that leaves a pushing allowance. The pusher wheel 224 can move along the inner peripheral surface of the joint body 220. The pusher wheel 224 stops the flexible pipe 300 from being detached from the joint body 220 together with the sealing material 22.

FIG. 9 is a cross-sectional view of the joint body 220. The structure of the joint body 220 according to the present embodiment will be described with reference to FIG. Inside the joint body 220, a sealing material standby part 242, a sealing material guide part 44, and a sealing material accommodation part 48 are provided. Among these, the seal material standby part 242 is closest to the receiving port 40 side. Among these, the seal material accommodating portion 48 is closest to the connecting male screw 58 side. The sealing material standby part 242 is formed at the back of the receiving part 40 and communicates with the receiving part 40. As will be apparent from the description below, the sealing material standby portion 242 accommodates a part of the sealing material 22 when the flexible pipe 300 is not yet in the joint body 220.

  The seal material standby portion 242 is provided with a snap ring retaining groove 250. The snap ring retaining groove 250 is provided so as to surround the outer peripheral surface of the push wheel 224.

FIG. 10 is a half-cut cross-sectional view of the push wheel 224. The push wheel 224 according to the present embodiment will be described with reference to FIG. As shown in FIG. 10, the pusher wheel 224 is cylindrical. One end of the pusher wheel 224 is inserted into the joint body 220. The flexible tube 300 can pass through the pusher wheel 224.

Inside the push wheel 224, an inhibition portion 140, a packing groove 148, and a coating layer abutting portion 154 are provided. The covering layer abutting portion 154 protrudes from the inner peripheral surface of the pusher wheel 224. Coating layer abutting portions 154 has the same function as the coating layer abutting portions 146 according to the implementation embodiments. That is, when the distal end portion of the flexible tube 300 passes through the presser wheel 224, the distal end portion of the flexible tube 300 passes through the space surrounded by the coating layer abutting portion 154. The covering layer 314 of the flexible tube 300 abuts against the covering layer abutting portion 154. A waterproof packing 160 is fitted in the packing groove 148. Pin-shaped selectively permeable members 162 are embedded in several places in the circumferential direction of the waterproof packing 160.

  A connecting portion 142, a snap ring holding groove 144, and a waterproof packing groove 152 are provided outside the push wheel 224.

According to the time of assembly of the flexible pipe joint 210 in this preferred embodiment, the assembly worker inserts the pressing ring 224 into the fitting body 220. With this insertion, the snap ring 26 operates in the same manner as described in implementation form. The snap ring 26 remains in this state until the flexible pipe 300 is connected to the flexible pipe joint 210. FIG. 8 shows this state. This state is the above-described “temporary insertion state that leaves a pushing allowance”.

Incidentally, the other points, the same as the implementation form, the detailed description thereof will not be repeated.

[Description of connection method]
Next, a method for connecting the flexible pipe 300 to the above-described flexible pipe joint 210 will be described with reference to FIGS. 11 and 12. Figure 11 is a cross-sectional view of a flexible pipe joint 210 according to this preferred embodiment in the middle of the flexible tube 300 is inserted. Figure 12 is a cross-sectional view of a flexible pipe joint 210 according to this preferred embodiment at the time of insertion of the flexible tube 300 is completed.

When connecting the flexible tube 300, first, the flexible tube 300 is inserted into the joint body 220 from the inlet side of the pusher wheel 224. Note that the coating layer 314 at the distal end portion of the flexible tube 300 is peeled off in advance so that six crests 310 are exposed. However, how many peak portions 310 are exposed is determined according to the size of the joint body 220 and the like. Some expose crest 310 is not limited to those of this preferred embodiment.

  The flexible tube 300 inserted into the joint main body 220 passes through the sealing material 22. Thereafter, the distal end portion of the flexible tube 300 abuts against the drawing portion 82 of the sealing material 22. When the flexible tube 300 is inserted until it comes into contact with the drawing-in portion 82 of the sealing material 22, the trunk portion 80 of the sealing material 22 is pushed into the back of the sealing material accommodation portion 48. Along with this pushing, the sealing action part 84 passes through the sealing material guide part 44 and is drawn into the sealing material accommodation part 48. Thereby, the sealing material 22 reliably seals the gap between the outer peripheral surface of the distal end portion of the flexible tube 300 and the inner peripheral surface of the sealing material accommodating portion 48 of the joint body 20.

  As the sealing action portion 84 of the sealing material 22 is drawn into the sealing material accommodation portion 48, the pusher wheel 224 is also drawn into the depth of the joint body 220. This is because the connecting portion 142 of the push wheel 224 is connected to the outer peripheral surface engaging portion 92 of the sealing material 22 (more specifically, the connecting portion 142 is hooked on the outer peripheral surface engaging portion 92). Then, the outer peripheral portion of the snap ring 26 is fitted into the snap ring retaining groove 50 when the sealing action portion 84 is completely drawn into the sealing material accommodating portion 48. When the outer periphery of the snap ring 26 is fitted into the snap ring retaining groove 50, the position of the push wheel 224 is fixed. Thereby, the operation | work which connects the flexible pipe 300 to the joint 210 for flexible pipes is complete | finished. Even if the flexible tube 300 is to be pulled out in this state, the flexible tube 300 cannot be removed from the flexible tube joint 210. FIG. 12 shows the flexible pipe joint 210 in this state.

[Effect of the flexible pipe joint according to this preferred embodiment]
As apparent from the above description, according to the flexible pipe joint 210 according to this preferred embodiment, inserting a flexible tube 300 to the back of the fitting body 220 completes the connection of the flexible tube 300. As a result, the work of connecting the flexible tube 300 can be simplified.

<Description of modification>
The embodiment and reference form disclosed this time are examples 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 retracting portion of the sealing material 22 may not be integrated with the sealing action portion. The lead-in part may be connected to the sealing action part by any connecting member (not shown).

  Further, the position fixing member is not limited to the snap ring 26 described above. A well-known member other than the snap ring may be used to fix the push wheels 24 and 224 at predetermined positions in the joint main bodies 20 and 220.

  Further, where the push wheels 24 and 224 are connected to the seal material 22 is not particularly limited. The push wheels 24 and 224 may be connected to the sealing material 22 at locations other than the outer peripheral surface engaging portion 92 in the sealing material 22.

10, 210 ... Fittings for flexible pipes,
20, 220 ... Fitting body,
22 ... sealing material,
24, 224 ... push wheel,
26 ... Snap ring,
28, 160 ... waterproof packing,
30 ... Lock ring,
40 ... receiving part,
42,242 ... sealing material standby part,
44. Sealing material guide,
48 ... sealing material container,
50, 250 ... snap ring retaining groove,
52. Lock ring retaining groove,
54 ... Spot facing part,
56 ... Reduced diameter guide,
58 ... male screw for connection,
60 ... Refractory packing groove,
70: Fireproof packing,
80 ... trunk,
82 ... Retraction part,
84 ... Sealing action part,
86 ... Interfering part,
90 ... Reinforcing bar,
92 ... outer peripheral surface engaging portion,
100 ... interlocking part,
102 ... drop-off prevention part,
140: inhibition part,
142 ... connecting part,
144 ... Snap ring retaining groove,
146,154 ... coating layer abutting part,
148 ... packing groove,
150: Lock ring retaining groove,
152 ... Waterproof packing groove,
162 ... a selectively permeable member,
300 ... Flexible tube,
310 ... Yamabe,
312 ... Tanibe,
314 ... coating layer,

Claims (2)

A joint body having a receiving portion;
A flexible tube is inserted into the joint body from the receiving port,
In the flexible pipe, ridges and valleys extending over the entire circumference in the circumferential direction are alternately arranged in the pipe axis direction,
An elastically deformable sealing material housed in the joint body;
A push ring that is inserted into the joint body through the receptacle and that stops the flexible pipe from coming off the joint body together with the sealing material;
At least a portion of the pusher wheel can move along the inner peripheral surface of the joint body;
The flexible pipe passes through the push ring and is inserted into the joint body from the receiving port.
The joint body is
A sealing material standby portion that communicates with the receiving portion and at least a part of the sealing material is disposed in advance;
A seal material receiving portion that is disposed on the back side of the seal material standby portion as viewed from the receiving portion and communicates with the seal material standby portion;
The sealing material is
A sealing portion that seals between the outer peripheral surface of the flexible tube and the inner peripheral surface of the joint body by being accommodated in the sealing material accommodating portion and meshing with a valley portion of the flexible tube;
It is arranged on the back side in the joint main body with respect to the receiving port as viewed from the receiving port, is directly or indirectly connected to the sealing operating unit, and is pushed by the flexible pipe inserted into the receiving port. A retracting part for drawing the sealing action part into the sealing material accommodating part,
A flexible pipe joint having an outer peripheral surface engaging part that engages with an outer peripheral surface of the flexible pipe when the sealing action part moves to the sealing material accommodation part,
The press ring is
An interlocking portion arranged in the joint body, connected to the sealing material, and moved along with the movement of the sealing material;
A cylindrical drop-off preventing portion that is fixed to the joint body and prevents the interlocking portion from falling out of the joint body before the interlocking portion is fixed at the predetermined position ;
The flexible pipe joint, to further comprising said Rukoto the position fixing member for fixing the interlocking portion to the predetermined position and moves to the predetermined position of the interlocking portion with the movement of the sealing material in the joint body that full Rekishiburu pipe fittings. The interlocking unit is
A connecting portion connected to the sealing material;
The joint for flexible pipes according to claim 1 , further comprising an inhibition portion that inhibits the outer peripheral surface engaging portion from moving toward the receiving portion.

Images