JPS62255698A - Attaching of accessary to container made of composite material - Google Patents

Abstract

PURPOSE:To facilitate attachment of an accessary such as a valve and a voltmeter by using an adapter comprising a screw for fitting the accessary and a flange to be engaged with an opening of a container. CONSTITUTION:A container has an FRP liner 11 covered with an FRP coating layer 15. At a container opening 12, filament is wound within a flange portion 13 formed in U-shaped section by the end of the liner 11 to form an FRP layer 14. A metal adapter 20 is composed of a body portion 22 to be inserted into the opening 12 and a flange 21 integral with the body portion 22 and adapted to be engaged with the flange portion 13. The body portion 22 of the adapter 20 is inserted into the opening 12 with a packing 40 being interposed between the flange 21 and the flange portion 13, and a support member 30 is bolted to the body portion of the adapter so as to fix it to the container. Then, a fixing screw 23 of an accessary is screwed into the adapter 20 so as to fix the accessary to the container.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] This invention relates to a method for attaching accessories to a container made of composite material.

[Conventional technology]

Conventional high-pressure gas filling containers are mostly made of steel or aluminum alloy, are heavy, and have some problems in handling. Recently, containers made of composite materials have been studied for the purpose of reducing weight, and compressed air-filled containers are now in practical use. It is necessary to attach accessories such as valves and pressure gauges to these filling containers.

Conventionally, there are two methods for attaching accessories to composite material containers:
There are two ways.

・■ Machining screws for attaching accessories to the container liner.

For example, as shown in FIG.
;: In the container in which the F RP coating layers 2 and 3 are formed, the liner around the opening is thickened, and screws 1a for attaching accessories are machined there.

■ Machining screws for attaching accessories directly to the composite material that makes up the container.

[Problem to be solved by the invention]

However, the mounting methods (2) and (2) above each have the following problems.

Method (■) - Tapered screws commonly used in high-pressure equipment cannot be used with aluminum alloy liners, so it is necessary to use specially shaped accessories.

2) Since special shaped accessories are used, there is no gas seal.
It must be attached to a ring, etc., and great care must be taken when attaching the accessories.

3) Stress analysis becomes complicated due to stress concentration in the threaded portion, difference in wall thickness between the liner body and opening, etc.

Method 1) Since the fatigue life of the threaded joint is significantly shorter than that of the container body, there is a risk of gas leakage due to fatigue flaking.

2) Threaded parts deteriorate due to regular replacement of accessories.

3) Stress analysis of the threaded part becomes extremely complicated.

It is an object of the present invention to provide a method for attaching accessories that can solve the above-mentioned problems.

[Means and effects for solving the problem] Inserting the main body of a metal adapter having an accessory mounting screw and a flange that engages into the container opening into the container opening,
The adapter is fixed by screwing the end of the adapter body into a receiving member provided in the container, and accessories are attached to the adapter.

Accessories are attached to the adapter using conventional screws. The adapter is fixed to the container body without threading or the like.

〔Example〕

An embodiment of the present invention will be explained with reference to FIG. The container is constructed by covering an FRPid liner 11 having approximately the same wall thickness throughout with an FRP coating layer 15. The container opening 12 has a flange portion 1 having a U-shaped cross section at the end of the liner 11.
3, and an FRP layer 14 is provided inside this flange portion 13 by winding a filament. The adapter 20 made of metal, for example, brass, is formed by integrally providing a flange 21 that engages with the flange portion 13 on a main body portion 22 that is inserted into the upper opening 12 . The main body portion 22 is provided with a tapered acid screw 28 for attaching accessories, and a male screw 24 is formed at the lower end. Further, a hole 25 for venting gas is provided at the lower end of the main body. Receiving member 30
is a ring-shaped screw 31 that is screwed into the male screw 24.
is provided.

Then, insert the main body 22 of the adapter 20 into the opening 12)
The bolt 40 is inserted between the flange 21 and the flange portion 13. And the receiving part provided inside the container? By threadably engaging the material 30 with the adapter body,
The adapter 20 is fixed to the container while holding the flange portion 13 between them. In this case, F is placed inside the U-shaped flange portion 13.
Since the RP layer 14 is provided, the flange portion has sufficient compressive strength and rigidity. The attachment screw of the accessory is screwed into the adapter 20 fixed in this way, and the accessory is attached to the container.

As in this example, by using FRP as the liner material, the container can be made even lighter.

Furthermore, by using the same material for the liner and the coating layer, stress analysis becomes easy, adhesion to the liner is good, and the rigidity of the container can be controlled as desired.

Next, a modification of FIG. 1 is shown in FIG. 2. This is receiving member 3
The flange portion 13a of the container body has a shape that matches the circular arc portion 82a of the receiving member. Then, the receiving member 32 is adhered to the flange portion 13a so that the lower surface of the receiving member 32 is aligned with the inner surface of the container body. In this case, there is no need to make a vent hole in the main body 22 of the adapter.

Next, another embodiment will be explained with reference to FIG. This is applied to a container in which the container is cylindrical and has openings 12 at both ends. The receiving member 33 has a rod shape,
A male screw 34 is provided at both ends thereof to be screwed into a female screw 2B provided at the lower end of the adapter main body 22. Then, the main body 22 of the adapter is inserted through the openings 12 at both ends and screwed into both ends of the receiving member 33, whereby the adapter 20 is fixed to both ends of the container with tension acting on the receiving member 33. In this way, accessories can be attached to both ends of the container.

FIG. 4 shows a modified example. This is a pipe-shaped receiving member 35, and the male threads 2 of the adapter body are attached to both ends.
4 is provided with a female screw 3G that is screwed into the hole. Receiving member 35
A gas vent hole 37 is made in the side wall.

Next, another modification will be explained with reference to FIG. 5. adapter 2
7 is formed by integrally providing a flange 21 on a large diameter concave main body portion 28. A plurality of acid screws 23 for attaching accessories are provided on the bottom surface 28a of the main body, and a male thread 24 is provided on the end of the main body. The large-diameter pipe-shaped receiving member 38 is provided at both ends with female threads 36 that are screwed into the male threads 24 described above.

When the diameter of the adapter body is made large as in this example, a plurality of accessories can be attached to each adapter at both ends of the container. Furthermore, by setting the depth of the concave main body portion 2-8 to a depth that does not protrude beyond the top surface of the flange 2I when accessories are attached, it is possible to prevent the accessories from being damaged during container transportation. .

In the above embodiment, the material of the liner 11 is FRP, but the liner material may be a conventional aluminum alloy or a plastic having gas barrier properties.

〔Effect of the invention〕

The method of attaching accessories to a composite material container according to the present invention is as described above, and since the accessories are screwed to the metal adapter, general-purpose accessories can be attached without using specially shaped accessories. can be used. Furthermore, since the adapter is fixed to the container via the receiving member without threading the container itself, the range of materials that can be used for the container is expanded.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram showing one embodiment of the method of the present invention, FIG. 2 is an explanatory diagram of a modification of the method shown in FIG. 1, FIG. 3 is an explanatory diagram of another embodiment, and FIGS. Although the figures are shown in FIG. 3, they are explanatory diagrams of different modifications, and FIG. 6 is an explanatory diagram of a conventional composite material container. 27.12...Container opening, 20.27...Adapter, 21...Fla, t2 I? , 22.28... Main body, 23... Accessory mounting screw, 3.9.J32.33, 35.38... Receiving member. Patent applicant Industrial Technology M'J: 7. Q. Engraving of Todoroki En drawings (no change in content) Engraving of drawings in Figure 1 and Figure 2 (no change in content) Figure 5. Figure 6. Procedural amendment format) Showa Q'/July 23, 1999 Patent Office Director Kuro 1) Mr. Yu Akihiro 1, Indication of the case, Patent Application No. 1988-94648, 2, Name of the invention, Method for attaching accessories to composite material containers 36. Person making the amendment June 24, 1986 5, Amendment. Target drawing

Claims (1)

[Claims] A main body of a metal adapter that is equipped with accessory mounting screws and has a flange that engages with the opening of the container is inserted into the opening of the container, and the end of the adapter main body is threadedly engaged with a receiving member provided inside the container. A method for attaching an accessory to a composite material container, comprising: fixing an adapter by fixing the adapter, and attaching the accessory to the adapter.