JP3105768U - Separation prevention type rotary flexible pipe fitting - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flexible pipe joint in which a nipple, which is a joint fitting, and a base ring are not separated by a tensile load.
An end of a flexible pipe having a bellows (21) and a blade (22) is connected to a nipple (23), and the end of the blade is connected to a base ring (24). The base ring is partially connected to the enlarged diameter portion 23B of the nipple, and annular concave grooves 23C and 24C are formed on the outer peripheral surface of the base ring and the inner peripheral surface of the enlarged diameter portion of the nipple, respectively. A directly connected ring R is provided inside the storage hole formed by the annular concave groove.
[Selection] Figure 2

Description

  The present invention relates to an improvement in a flexible pipe joint, and in particular, features a novel structure in a joint portion between a flexible pipe and a fitting.

The structure of a conventionally known flexible pipe joint will be described with reference to FIGS.
3 and 4 are explanatory views showing a partial cross section of a main part of a conventionally known flexible pipe joint. As shown in FIG. 3, such a conventional general flexible pipe joint 10 comprises a flexible pipe portion comprising a bellows 11 and a blade 12, and a nipple 13 and a base ring 14 which are joint fittings connected thereto. ing.

  In the flexible pipe joint 10 of this type, the bellows 11 constituting the flexible pipe has a straight pipe portion 11B formed following the bellows portion 11A, and the straight pipe portion 11B passes through the inner surface of the base ring 14. The nipple 13 extends to a connection end thereof, and an enlarged portion 11C is provided at the end, and is fixed to the connection end surface of the nipple 13 by bending. Reference numeral 13D denotes a thread provided on the connection end side of the nipple 13, and in such a type of pipe joint, the target pipe diameter is φ = 80 mm or less.

  On the other hand, an annular concave groove 14A is provided on the outer peripheral surface of the base ring 14, and a fixing ring 16 is connected to an end of the blade 12 of the flexible pipe by welding or the like. For example, the flexible pipe and the joint fitting are connected by fastening to the annular groove 14A by means such as caulking.

By the way, in a pipe using such a conventionally known flexible pipe joint, for example, when a tensile load is applied to the buried pipe due to an earthquake or the like, the joint itself is deformed as shown in FIG. There were drawbacks.
That is, as described with reference to FIG. 3, the nipple 13, which is one member of the joint fitting, is connected to the end 11 </ b> C of the straight pipe portion 11 </ b> B of the bellows 11 of the flexible pipe, and forms the fitting. A base ring 14, which is another member, is also fixed to the blade 12 of the flexible tube via a fixing ring 16.

For this reason, when a tensile load acts on the buried pipe, as shown in FIG. 4, the nipple 13 connected to the other pipe by the screw portion 13D and the straight pipe portion 11B of the bellows 11 connected thereto are flexible. The blade 12 of the pipe joint and the base ring 14 connected thereto receive a tensile load F so as to be separated as shown in the figure. In this case, in the conventional flexible pipe joint 10, the nipple 13 and the base ring 14 constituting the joint fitting part are merely in a state of abutting with each other. 14 is pulled to the right side of the drawing, and the end of the bellows portion 11A of the bellows 11 is deformed. For this reason, as shown in FIG. 4, the gap between the nipple 13 and the base ring 14 has come off, causing a problem of impairing the function as a pipe joint.
JP 2001-289379 A

  The present invention solves such a drawback and provides a flexible pipe joint in which a nipple, which is a fitting, and a base ring are not separated by a tensile load.

  The present invention is a structure of a flexible pipe joint, wherein at the end of a flexible pipe having a bellows and a blade, the end of the bellows is connected to a nipple, and the end of the blade is connected to a base ring. A part of the base ring is inserted into the enlarged diameter portion of the nipple, and annular grooves are formed on the outer peripheral surface of the base ring and the inner peripheral surface of the enlarged diameter portion of the nipple, respectively, and are formed by these annular grooves. A direct connection ring is provided inside the storage hole.

  According to the flexible pipe joint according to the invention of the present application, even when a tensile force due to an earthquake or the like acts in a piping state such as burial, the nipple and the base ring, which are the joint metal parts, are integrally connected to each other, and both metal fittings are formed. Since there is no risk of detachment, the problem of the conventional product could be solved with an extremely simple structure.

An embodiment of the present invention will be described with reference to FIGS.
FIG. 1 shows a partial cross section of the flexible pipe joint 20 according to the present invention, particularly in a state where only a fitting metal part is disassembled. FIG. 2 is a completed view of a flexible pipe joint 20 having the joint fitting shown in FIG. 1, and shows a partial cross section thereof.

In FIG. 1, a joint fitting part is basically constituted by a nipple and a base ring as in the conventional one.
Each of the nipples 23 of the present invention has a cylindrical base tube portion 23A and an enlarged-diameter tube portion 23B, and forms a pair with a base ring 24 fitted into the enlarged-diameter tube portion 23B. The direct coupling ring R is interposed at the fitting portion between the nipple 23 and the base ring 24 so as to resist the tensile force therebetween.

More specifically, the nipple 23 has a screw portion 23D on the outer periphery of the base tube portion 23A, which is connected to another pipe by a screw. The straight pipe portion of the bellows (see FIG. 2) of the flexible pipe is inserted through the inner peripheral surface of the base cylinder portion 23A in the same manner as in the conventional example shown in FIGS. The open portion is connected to the end of the base tube portion 23A.
An enlarged diameter cylindrical portion 23B is provided following the base cylindrical portion 23A, and an annular concave groove 23C is provided on an inner peripheral side thereof.

  On the other hand, the outer diameter of the base ring 24 is formed slightly smaller than the inner diameter of the enlarged-diameter cylindrical portion 23B of the nipple 23, and an annular concave groove 24C is provided on the outer peripheral side. As shown in FIG. 2, the installation positions of the annular grooves 23C and 24C are set in a state where the base ring 24 is fitted into the enlarged-diameter tube portion 23B of the nipple 23 and the two annular grooves 23C are inserted. , 24C are provided at opposing positions, thereby forming an annular storage hole for the directly connected ring R as described later.

  In FIG. 1, reference symbol R indicates a directly connected ring made of, for example, a copper wire, and is first set in an annular groove 24 </ b> C of a base ring 24 in a state of R <b> 1 in the drawing. Next, when the base ring 24 is inserted into the enlarged diameter portion 23B of the nipple 23 in a state where the directly connected ring R is pushed from the position R1 to the position R2 in the annular concave groove 24C of the base ring 24, the positional relationship between the two is obtained. As shown in FIG. The base ring 24 is provided with an annular groove 24A for fixing the blade on the outer periphery thereof, as in the conventional example.

  Then, as shown in FIG. 2, the flexible pipe is connected to the annular groove 24A of the base ring 24 by caulking a fixing ring 26 fixed to the blade 22, and the straight pipe portion 21B of the bellows 21 of the flexible pipe is also joined. The nipple 23 is inserted through the base tube portion 23B to the end, and the end of the straight pipe portion is formed as an enlarged portion 21C and is fixed to the end surface of the base tube portion 23B.

The flexible pipe joint 20 of the present invention formed as described above and shown in FIG. 2 has a storage hole in which a nipple 23 and a base ring 24, which are pipe fittings, are formed by respective annular concave grooves 23C and 24C. Is formed in a state in which the direct connection ring R is stored therein, even when a tensile force similar to that of the conventional example is applied as indicated by an arrow F in FIG. , The movement between the nipple 23 and the base ring 24 is restricted.
Therefore, the function of the flexible pipe joint is not impaired even when a tensile force is applied due to an earthquake or the like.

FIG. 3 is an explanatory view showing only a metal part of the flexible pipe joint according to the present invention and showing a partial cross section thereof. FIG. 2 is a partial sectional view of a finished product of a flexible pipe joint having the fitting shown in FIG. 1. It is a structural explanatory view showing a partial cross section of a conventionally known flexible pipe joint. It is a structural explanatory view showing a partial cross section of a conventionally known flexible pipe joint.

Explanation of reference numerals

DESCRIPTION OF SYMBOLS 20 Flexible pipe joint 21 Bellows 22 Blade 23 Nipple 23A Tube part 23B Enlarged diameter tube part 23C Annular groove 23D Screw part 24 Base ring 24A Outer annular groove 24C Annular groove R Direct connection ring

Claims (4)

At the end of the flexible tube having a bellows and a blade, the end of the bellows is connected to a nipple, the end of the blade is connected to a base ring, and a part of the base ring fits in the enlarged portion of the nipple. The annular groove is formed on the outer peripheral surface of the base ring and the inner peripheral surface of the enlarged diameter portion of the nipple, and the direct connection ring is housed in the storage hole formed by the annular groove. A flexible pipe joint characterized in that the nipple and the base ring do not separate even when a tensile load is applied. 2. The flexible pipe joint according to claim 1, wherein a blade end of the flexible pipe is swaged and fixed to another annular groove provided on an outer peripheral surface of the base ring by a fixing ring. Fittings. 2. The flexible pipe joint according to claim 1, wherein the nipple has a connection thread and is suitable for a pipe joint having a diameter of φ = 80 mm or less. 3. The flexible pipe joint according to claim 1, wherein the nipple is made of a synthetic resin and prevents corrosion of the pipe joint portion due to contact with dissimilar metals.

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