JPH0212387Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a bellows-type expansion pipe joint used for absorbing thermal expansion and contraction of geothermal fluid flow piping, etc. in geothermal power plants.

[Prior art]

In geothermal fluid flow piping and the like, scales such as CaCO ₃ and SiO ₂ adhere to the inner surfaces of the piping and containers due to temperature changes, pressure changes, etc. during fluid flow depending on the fluid components. Various measures have been proposed to prevent this scale from adhering, but no complete anti-adhesion measure has yet been developed.

In general, scale is hard and does not have a natural peeling effect, so the effective inner diameter of the piping portion gradually decreases and the flow rate gradually decreases, so it is necessary to periodically remove scale from inside the piping.

On the other hand, bellows-type expansion pipe joints to be inserted in piping include (1) bellows with annular end connecting fittings fixed to both ends, as shown in the "JIS Bellows-type expansion joints" published by the Japanese Standards Association; (2) Annular end fittings are fixed to both ends of the bellows, and one end of a sleeve tube covering the inside of the bellows is fixed to one of the annular end connecting fittings.

If scale adheres to the inner surface of the bellows in this bellows-type expansion joint, the expansion and contraction movement of the bellows will be restricted and the expansion joint will no longer fulfill its original role, potentially leading to destruction of plant equipment. As a countermeasure to this, scale adhering to the inner surface of the bellows must be removed as soon as possible, but in the case of the bellows-type expansion joint described in (2) above, the scale adhering to the inner surface of the bellows is located on the outside of the sleeve pipe. Therefore, the scale cannot be removed mechanically. Furthermore, in the case of the bellows-type telescopic pipe described in (1) above, which has problems with flow turbulence, erosion, etc., mechanical removal of scale is difficult due to the shape, strength, thickness, etc. of the bellows.

For this reason, conventionally, bellows-type expansion pipe joints are replaced with new ones at an early stage, but this is uneconomical and requires a large number of complicated replacement operations.Furthermore, each time a replacement is performed, the flow of fluid is stopped. The problem is that it has to be done.

The purpose of this invention is to provide a bellows-type expansion pipe joint that can advantageously solve the above-mentioned problems. A bellows-type expansion pipe joint is characterized in that a covering sleeve pipe is fitted into the bellows, and an annular gap between the sleeve pipe and the bellows is filled with a liquid agent for preventing scale formation.

〔Example〕

Next, this invention will be explained in detail using illustrated examples.

1 and 2 show an axial bellows type expansion pipe joint according to a first embodiment of this invention, in which one ends of annular connecting fittings 2 and 3 are welded to both ends of a metal bellows 1. A sleeve pipe 5, which is fixedly fixed to the ring and has a connecting flange 4 at one end thereof, is inserted from one annular connecting fitting 2 to the other annular connecting fitting 3, and one end of the sleeve tube 5 is attached to one of the annular connecting fittings. It is fixed to the metal fitting 2 by welding, and an annular holding fitting 6 for holding a seal ring is fitted to the other end of the sleeve tube 5 and detachably fixed with a bolt 7.
A seal ring 8 made of an O-ring is fitted into an annular groove formed by the other end and the annular holding fitting 6.

An injection valve 9 is attached to the upper part of the cylindrical part of one annular connecting fitting 2, and an injection hole 10 communicating with the injection valve 9 is provided. A valve 11 is attached and a discharge hole 12 communicating with the discharge valve 11 is provided.

A scale formation prevention liquid 13 having anti-corrosion properties for metals such as an oil or a lubricant is injected from the injection valve 9 into the annular filling chamber between the sleeve pipe 5, the bellows 1, and each of the annular connecting fittings 2 and 3. The liquid agent 13 prevents a large amount of liquid in the piping, such as hot water in the piping, from entering into the annular filling chamber, thereby preventing the formation of scale on the inner surface of the bellows 1.

As the liquid agent for preventing scale formation, a basic hydroxide such as NaOH, KOH or a basic carbonate such as NaHCO ₃ or NaCO ₃ is used.
may be increased. It is known that the solubility of silica, which is the main component of scale, increases as the pH increases, and in this way, even if some liquid in the piping enters the annular filling chamber, the liquid will not enter the annular filling chamber. The solubility of generated scale can be increased, and scale formation on the inner surface of the bellows can be prevented.

FIG. 3 shows a hinged bellows type expansion pipe joint according to a second embodiment of the invention, in which one end of annular connecting fittings 2 and 3 are fixed to both ends of a metal bellows 1 by welding. Each annular connecting fitting 2,
Arms 14 and 15 protruding toward each other are fixed to the upper and lower parts of the bellows 1, and the tips of the arms 14 and 15 are pivotally connected to a pivot 16 disposed on the diameter line of the center of the bellows 1. , and a sleeve tube 18 having a connecting flange 17 at the base end and having a small diameter on the outer surface on the distal end side is fitted into one of the annular connecting fittings 2 and fixed by welding, and the other annular connecting fitting 2 is fixed by welding. A sleeve tube 20 having a connecting flange 19 at the base end and having a large diameter inner surface on the distal end is fitted into the sleeve tube 3 and fixed by welding, and an annular groove on the outer surface of the distal end of the sleeve tube 18 The seal ring 8 fitted into the sleeve tube 20 is in contact with the inner surface of the distal end of the sleeve tube 20, and the bellows-type expansion joint is configured so that it can be bent slightly around the central extension line of the pivot shaft 16, and the annular connecting fitting An injection valve 9 and a discharge valve 11 are attached to the upper and lower parts of the cylindrical part at 3, and the annular filling chamber between the sleeve pipes 18, 20 and the bellows 1 and each annular connecting fitting 2, 3 is provided with the above-mentioned A liquid agent 13 for preventing scale formation is injected and filled.

FIG. 4 shows an axial bellows type expansion pipe joint according to a third embodiment of this invention, in which one annular connecting fitting 2 is provided with a connecting flange 17,
The sleeve pipe 5, which has a locking flange 21 at one end, is inserted in and out from one annular connecting fitting 2 to the other annular connecting fitting 3, and is inserted between the locking flange 21 and the one annular connecting fitting 2. An annular seal packing 22 is interposed between the two, but the other structure is the same as that of the first embodiment.

FIG. 5 shows a hinged bellows type expansion joint according to a fourth embodiment of this invention, in which a connecting flange 17 is provided on each annular connecting fitting 2, 3,
A locking flange 21 is provided at the base end of the sleeve pipes 18, 20 which are removably inserted into each of the annular connecting fittings 2, 3, and an annular sealing piece is provided between the locking flange 21 and the annular connecting fitting. Although a king 22 is interposed, the other configuration is the same as that of the second embodiment.

The seal ring 8 in each of the embodiments described above is not intended for complete sealing, but for balancing the pressure inside and outside the sleeve tube. Also, if the sealing material between the bellows and the inner tube wears out or ages,
The seal becomes incomplete. Therefore, when the bellows-type expansion pipe joint expands and contracts, the scale generation prevention liquid 13 filled in the annular gap is slightly discharged, and over a long period of time, the scale generation prevention liquid 13 in the annular filling chamber becomes diluted. However, in this case, the discharge valve 11 is opened to sample the scale generation prevention liquid, and if the concentration is below the specified concentration, a new scale generation prevention liquid is injected from the injection valve 9 to remove the scale with a thin concentration. The generation preventing liquid agent may be discharged from the discharge valve 11 or the seal ring 8, for example.

Since the inner surface shape of the sleeve tube is almost the same as the inner surface shape of the front and rear piping 23, the scale adhering to the inner surface of the sleeve tube can be easily removed by a mechanical removal operation in the same way as in the case of removing scale from the inner surface of the piping. be able to.

In the first embodiment, the annular connecting fitting 3 is constructed by welding two members together, and in the third and fourth embodiments, each annular connecting fitting 2,
3 is constructed by welding two members together, but these annular connecting members may be constructed from one member.

In addition, in the second embodiment and the fourth embodiment,
Although the sleeve tube 18 is constructed by welding together two members, the sleeve tube 18 may also be constructed from one member.

In the third and fourth embodiments, the sleeve tube is removably inserted into the annular connecting fitting of the bellows-type expansion joint, so that the sleeve tube can be pulled out as necessary. The scale attached to the inner surface of the sleeve pipe can be easily removed, and the inside of the bellows can also be inspected.

This invention can also be applied to conventionally known pressure balance type bellows type, universal type and universal balance type expansion pipe joints in the same manner as described above.

[Effect of idea]

According to this invention, a sleeve pipe for covering the inside of the bellows is fitted into an annular connecting fitting in a bellows-type expansion pipe joint, and a scale formation prevention liquid 13 is filled in an annular gap between the sleeve pipe and the bellows. Therefore, it is possible to prevent the liquid flowing inside the piping from entering the inside of the bellows.Also, even if some liquid inside the piping enters the inside of the bellows, the scale formation prevention liquid prevents scale from entering the inside of the bellows. This prevents the adhesion of
The effect of solving the above-mentioned problem when scale adheres to the inner surface of the bellows is obtained.

[Brief explanation of drawings]

FIG. 1 is a longitudinal cross-sectional side view of an axial bellows type expansion pipe joint according to the first embodiment of this invention, and FIG.
FIG. 3 is a vertical side view of a hinged bellows type expansion pipe joint according to a second embodiment of this invention, and FIG. 4 is a longitudinal side view of a third embodiment of this invention.
FIG. 5 is a longitudinal sectional side view of the axial bellows type expansion pipe joint according to the embodiment. FIG. 5 is a longitudinal sectional side view of the hinge type bellows type expansion pipe joint according to the fourth embodiment of the invention. In the figure, 1 is a metal bellows, 2 and 3
is an annular connecting fitting, 5 is a sleeve pipe, 6 is an annular holding fitting for holding a seal ring, 7 is a bolt, 8 is a seal ring, 9 is an injection valve, 11 is a discharge valve,
13 is a liquid agent for preventing scale formation, 14 and 15
16 is an arm, 16 is a pivot, 18 and 20 are sleeve tubes, 21 is a locking flange, and 22 is an annular seal packing.

Claims (1)

[Scope of utility model registration request] A bellows-type expansion joint characterized in that a sleeve tube for covering the inside of the bellows is fitted into the annular connecting fitting, and a liquid agent for preventing scale formation is filled in the annular gap between the sleeve tube and the bellows. Expansion pipe joint.