JP7266841B2 - Flexible Tube - Google Patents

Description

Application of Article 30, Paragraph 2 of the Patent Law 1. 2. On the date listed in the address list of the published website, it will be published on the website at the address listed in the same list. 2. Submit drawings to the destination listed in the list on the date stated in the list of destinations for submitting drawings. 3. Shipped to the purchaser listed on the list of purchasers on the date listed. Catalog distribution started on December 27, 2017

For example, the present invention can be used for the liquid hazardous materials listed in Appendix 1 of the Fire Service Law (excluding those that may cause fluororesin (PTFE) to flow inside), for vibration absorption, and for displacement due to earthquakes, ground subsidence, etc. It relates to a flexible tube used for absorption of.

Conventionally, as shown in FIG. 3, a flexible tube 500 is known that includes a bellows-shaped inner tube 501 and a bellows-shaped protective cover 502 that covers the inner tube 501 from the outside (see Patent Document 1). This flexible tube 500 has flexibility, and is connected to, for example, a hazardous material storage tank such as a petroleum tank, and absorbs vibration, displacement due to ground subsidence, and the like.

Japanese Patent No. 4386488

In recent years, the flexible tube 500 described above is required to have higher strength.

Then, this invention makes it a subject to provide the flexible tube by which intensity|strength was ensured.

The flexible tube of the present invention is
a tube having an outer peripheral surface including recesses extending along the circumferential direction;
a reinforcing member extending along the recess so as to surround the tube.

In this way, the strength of the flexible tube is ensured by arranging the reinforcing member extending so as to surround the tube on the outer peripheral surface (concave portion) of the tube to ensure the strength of the tube.

Moreover, in the flexible tube 1,
The inner peripheral surface of the tube preferably extends straight or substantially straight along the central axis of the tube.

According to such a configuration, it is possible to suppress the occurrence of liquid pools on the inner peripheral surface when the liquid flows inside.

Moreover, in the flexible tube,
The recess has a helical shape with a central axis of the tube as a helical axis,
The reinforcing member may spirally extend along the recess.

By spirally winding the reinforcing member around the tube in this way, it is possible to secure strength at each position in the central axis direction of the tube (at each position in the range where the reinforcing member is wound).

In the flexible tube,
The tube may be made of synthetic resin and contain a conductive material.

By including a conductive material in the synthetic resin in this way, even if the tube is made of synthetic resin, it is possible to release the static electricity generated by the liquid flowing inside and suppress the charging. It can prevent electric breakdown.

Further, the flexible tube is
a protective cover that covers the tube and the reinforcing member from the outside;
a hole communicating between an internal space formed between the protective cover and the tube and an external space outside the flexible tube;
A plug member that detachably closes the hole may be provided.

According to such a configuration, even if the protective cover is opaque and the tube cannot be seen from the outside, for example, it is possible to check whether or not the liquid leaks from the tube by removing the plug member. That is, if the tube is leaking, the liquid will accumulate in the inner space between the tube and the protective cover, and the liquid will come out from the hole when the plug member is removed. You can check the presence or absence of liquid leakage from the tube. Moreover, by closing the hole with the plug member except when checking for liquid leakage, even if liquid leaks from the tube, the leaked liquid is confined in the internal space and the liquid is prevented from leaking to the outside of the flexible tube. be able to.

As described above, according to the present invention, it is possible to provide a flexible tube whose strength is ensured.

FIG. 1 is a half sectional view showing a flexible tube according to this embodiment. FIG. 2 is a diagram for explaining a tube around which a reinforcing member is wound. FIG. 3 is a half sectional view showing a conventional flexible tube.

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2. FIG.

As shown in FIG. 1, the flexible tube according to the present embodiment includes a tube body 2 which has a multi-layered cylindrical shape through which liquid can flow, and a pair of fastening portions 7 arranged at both ends of the tube body 2. , provided. In addition, the flexible tube 1 has a hole portion 8 communicating between an internal space _S1 formed inside the tube body 2 and an external space _S2 outside the flexible tube 1, and detachably closes the hole portion 8. A plug member 9 is provided.

The tube body 2 includes an inner tube (tube) 3, a reinforcing member 4 arranged on the outer peripheral surface of the inner tube 3, a blade 5 covering the inner tube 3 and the reinforcing member 4 from the outside, and a closed heat-resistant material covering the blade 5. a protective cover (protective cover) 6;

The inner tube 3 is made of synthetic resin and has an outer peripheral surface 31 and an inner peripheral surface 32 . This inner tube 3 has flexibility. The inner tube 3 of the present embodiment is made of polytetrafluoroethylene (PTFE) and contains a conductive material (carbon microparticles in the example of the present embodiment). The PTFE of this embodiment contains greater than 0% and less than 2.5% carbon black.

An outer peripheral surface 31 of the inner tube 3 includes a recess 311 extending in the circumferential direction. The recess 311 extends spirally with the central axis C as the spiral axis. As a result, in the cross-sectional shape (longitudinal cross-sectional shape of the inner tube 3 ) including the central axis C of the inner tube 3 , unevenness continues on the outer peripheral surface 31 . The recess 311 of this embodiment is provided continuously from one end to the other end in the longitudinal direction of the inner tube 3 .

On the other hand, the inner peripheral surface 32 of the inner tube 3 extends straight or substantially straight along the central axis (tube axis) C of the inner tube 3 (that is, parallel or substantially parallel to the central axis C). The term "substantially straight" means that the inner tube 3 has some unevenness due to shrinkage (so-called sink marks) during molding.

In addition, the end portion (extending portion) 33 of the inner tube 3 in the direction of the central axis C is located outside the fastening portion 7 (outside in the direction of the central axis C) in a plane perpendicular to the central axis C (outside in the radial direction). ).

The reinforcing member 4 is a wire made of metal and is arranged in the recess 311 of the outer peripheral surface 31 of the inner tube 3 . This reinforcing member 4 extends along the recess 311 so as to surround the inner tube 3 . The reinforcing member 4 of this embodiment extends spirally along the recessed portion 311 inside the recessed portion 311 having a spiral shape.

The diameter of this reinforcing member 4 is smaller than the depth of the recess 311 , ie the reinforcing member 4 does not protrude radially outward of the inner tube 3 from the recess 311 . Thereby, the reinforcing member 4 does not interfere with the blade 5 . Further, the reinforcing member 4 is arranged (wound) over the entire area of the inner tube 3 in the direction of the central axis C except for the connecting portion α with the fastening portion 7 . The reinforcing member 4 of this embodiment is configured by a wire made of stainless steel.

The braid 5 covers and protects the inner tube 3 around which the reinforcing member 4 is wound from the outside. The blade 5 is flexible and has a straight cylindrical shape braided with metal wire, glass fiber, or the like.

The closed heat-resistant protective cover 6 is made of metal and has flexibility. The sealed heat-resistant protective cover 6 of this embodiment is formed in a bellows shape in which unevenness is repeated in the longitudinal direction (the direction of the central axis C).

Each of the pair of fastening portions 7 has a flange 71 for fastening with another member or the like and a joint tool 72 for connecting the flange 71 to the tube body 2 .

The flange 71 has a disc shape extending in a plane perpendicular to the central axis C, and has a connection hole 711 in the center. The inner tube 3 and the joint member 72 (a cylindrical portion 721 to be described later) are inserted through the connection hole 711 .

The joint tool 72 includes a cylindrical portion 721 extending in the direction of the central axis C between the inner peripheral surface of the connection hole 711 of the flange 71 and the outer peripheral surface 31 of the inner tube 3, and the end edge of the cylindrical portion 721 on the flange 71 side (Fig. 1), and a flange portion 722 that extends in a plane direction perpendicular to the central axis C between the flange 71 and the extension portion 33 of the inner tube 3 . In addition, the joint 72 is a ring-shaped pullout that is crimped to the outside of the end of the sealed heat-resistant protective cover 6 that is fitted to the portion of the cylindrical portion 721 opposite to the flange 71 (left side in FIG. 1). It has a stop 723 .

The hole portion 8 is arranged in the cylindrical portion 721 of the joint tool 72 . The hole portion 8 communicates the internal space _S1 and the external space _S2 by penetrating the cylindrical portion 721 in the radial direction of the cylindrical portion 721 . Moreover, the hole part 8 has a female screw on the inner peripheral surface.

The plug member 9 closes the hole 8 by being inserted into the hole 8 . The plug member 9 of the present embodiment is a cylindrical member, and has a male thread that engages with the female thread of the hole portion 8 on its outer peripheral surface.

According to the flexible tube 1 described above, the strength of the inner tube 3 is ensured by arranging the reinforcing member 4 extending so as to surround the inner tube 3 on the outer peripheral surface 31 (recess 311) of the inner tube 3, so that the flexible tube can be The strength of 1 is also ensured.

In addition, since the reinforcing member 4 made of metal is wound around the outer peripheral surface 31 of the inner tube 3, when the tube body 2 is bent (curved), the inner tube 3 is less likely to be crushed at the bent portion. .

Further, in the flexible tube 1 of the present embodiment, the recess 311 has a spiral shape with the central axis C of the inner tube 3 as a spiral axis, and the reinforcing member 4 spirally extends along the recess 311 . By spirally winding the reinforcing member 4 around the inner tube 3 in this way, strength is ensured at each position in the direction of the central axis C of the inner tube 3 (at each position within the range where the reinforcing member 4 is wound). be able to.

In addition, in the flexible tube 1 of this embodiment, the inner peripheral surface 32 extends straight or substantially straight along the central axis C of the inner tube 3 . For this reason, compared to a bellows-shaped tube (a structure in which unevenness is continuously repeated in the central axis direction on the inner peripheral surface as well as on the outer peripheral surface), the inner peripheral surface 32 when the liquid flows inside The occurrence of liquid pools is suppressed. As a result, the occurrence of contamination and the like caused by the liquid pool can be suppressed.

In addition, the flexible tube 1 of this embodiment has a hole that communicates an internal space _S1 formed between the sealed heat-resistant protective cover 6 and the inner tube 3 and an external space _S2 outside the flexible tube 1. 8 and a plug member 9 that detachably closes the hole portion 8. - 特許庁

For this reason, for example, even if the sealed heat-resistant protective cover 6 is opaque or otherwise configured such that the inner tube 3 cannot be seen from the outside, the presence or absence of liquid leakage from the inner tube 3 can be checked by removing the plug member 9 . can be confirmed. That is, if the liquid is leaking from the inner tube 3, the liquid will accumulate in the internal space _S1 between the inner tube 3 and the sealed heat-resistant protective cover 6, and the liquid will leak when the plug member 9 is removed. Since it comes out from the portion 8, it is possible to check whether or not the inner tube 3 is leaking by removing the plug member 9. - 特許庁

Moreover, by plugging the hole 8 with the plug member 9 except when checking for liquid leakage, the leaked liquid is confined in the internal space _S1 even if the liquid leaks from the inner tube 3. Liquid leakage to the outside can be prevented.

Further, in the flexible tube 1 of the present embodiment, the synthetic resin (PTFE in the example of the present embodiment) forming the inner tube 3 contains a conductive material (carbon in the example of the present embodiment). By including carbon in the synthetic resin in this way, even if the inner tube 3 is made of a synthetic resin, it is possible to release the static electricity generated by the liquid flowing inside and suppress the charging. It is possible to prevent electrostatic breakdown in

In addition, the flexible tube of the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the gist of the present invention. For example, the configuration of one embodiment can be added to the configuration of another embodiment, and part of the configuration of one embodiment can be replaced with the configuration of another embodiment. Furthermore, some of the configurations of certain embodiments can be deleted.

In the flexible tube 1 of the above embodiment, the reinforcing member 4 is made of stainless steel, but is not limited to this configuration. The reinforcing member 4 may be made of other metals such as Hastelloy (registered trademark), Monel, and titanium. Further, the reinforcing member 4 may be made of a material other than metal, such as Kevlar (registered trademark).

Further, in the flexible tube 1 of the above embodiment, one reinforcing member 4 is arranged in the concave portion 311, but the configuration is not limited to this. A plurality of reinforcing members 4 may be arranged in the recess 311 .

In addition, in the flexible tube 1 of the above embodiment, the reinforcing member 4 is spirally wound around the inner tube 3, but the configuration is not limited to this. For example, a plurality of annular reinforcing members 4 surrounding the inner tube 3 may be arranged at intervals in the central axis C direction.

Further, in the flexible tube 1 of the above-described embodiment, the reinforcing member 4 is continuously wound over the entire area of the inner tube 3 excluding the connection area α in the direction of the central axis C, but is intermittently wound. may Further, the reinforcing member 4 may be partially wound (that is, part of the inner tube 3) in the central axis C direction.

In addition, in the flexible tube 1 of the above embodiment, the inner peripheral surface 32 of the inner tube 3 is straight or substantially straight in the direction of the central axis C, but is not limited to this configuration. The inner peripheral surface 32 may have, for example, a shape in which unevenness is repeated in the direction of the central axis C corresponding to the outer peripheral surface 31, that is, the inner tube 3 may have a bellows shape.

In the inner tube 3 of the above embodiment, the synthetic resin (PTFE) forming the inner tube 3 contains a conductive material (carbon in the example of the above embodiment), but the configuration is not limited to this. That is, the synthetic resin forming the inner tube 3 does not have to contain a conductive material. Also, the conductive material contained in the synthetic resin is not limited to carbon.

Moreover, in the flexible tube 1 of the above-described embodiment, the fastening portion 7 is configured by the flange 71, but the configuration is not limited to this. For example, the fastening portion 7 may be configured by a ferrule joint, a quick coupling, or the like. That is, the fastening portion 7 may be configured to be fastened to a device or the like to which the flexible tube 1 is connected, and the specific configuration is not limited.

Further, in the flexible tube 1 of the above-described embodiment, the hole 8 and the plug member 9 closing the hole 8 are located at the end of the flexible tube 1 in the direction of the central axis C (more specifically, the joint tool 72 constituting the fastening portion 7). , but not limited to this configuration. For example, the hole 8 and plug member 9 may be provided in the closed heat-resistant protective cover 6 . That is, the hole 8 and the plug member 9 can be provided at any position in the direction of the central axis C of the flexible tube 1 as long as the hole 8 can communicate with the internal space _S1 and the external space _S2 . good.

In addition, in the flexible tube 1 of the above-described embodiment, the sealed heat-resistant protective cover 6 has a bellows shape, but is not limited to this configuration. The sealed heat-resistant protective cover 6 may be a straight tube, that is, both the outer peripheral surface 31 and the inner peripheral surface 32 may extend straight along the central axis C or substantially straight. Also, the sealed heat-resistant protective cover 6 is not limited to being made of metal, and may be made of other materials such as rubber, silicon, and polypropylene.

DESCRIPTION OF SYMBOLS 1... Flexible tube, 2... Main body, 3... Inner tube, 31... Outer peripheral surface, 311... Recessed part, 32... Inner peripheral surface, 33... Extension part, 4... Reinforcement member, 5... Blade, 6... Sealed heat resistance Protective cover 7 Fastening part 71 Flange 711 Connection hole 72 Joint tool 721 Cylinder part 722 Flange part 723 Stopper 8 Hole part 9 Plug member 500 Flexible tube 501 Inner tube 502 Protective cover C Central axis S1 Internal space S2 External space α Connection part

Claims (3)

a tube having an outer peripheral surface including recesses extending along the circumferential direction;
a reinforcing member extending along the recess so as to surround the tube;
a protective cover that covers the tube and the reinforcing member from the outside;
a hole communicating between an internal space formed between the protective cover and the tube and an external space outside the flexible tube;
a plug member that detachably closes the hole,
The inner peripheral surface of the tube extends straight or substantially straight along the central axis of the tube,
A flexible tube, wherein the tube is integrally formed from the outer peripheral surface to the inner peripheral surface. The recess has a helical shape with a central axis of the tube as a helical axis,
The flexible tube according to claim 1, wherein the reinforcing member spirally extends along the recess. The flexible tube according to claim 1 or 2, wherein the tube is made of synthetic resin and contains a conductive material.

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