GB2137282A - Pressure regulating devices - Google Patents

Abstract

A fluidtight body disposed in ambient medium which varies in pressure and temperature, e.g. a fluid-filled body 17 surrounding an electric connector 11, 12 disposed "downhole" in an oil well, has its internal pressure regulated in order to minimise the pressure difference between the inside and the outside thereof. To this end a shallow recess 24 in the outer surface of the body is enclosed by a flexible diaphragm 26 having its exterior exposed to the high ambient pressure. A narrow passage 25, preferably of capillary dimensions, connects the recess 24 to free spaces within the body 17 which are filled with an electrically insulating fluid e.g. silicone grease and a certain amount of air. The diaphragm is flexible enough to be deformed without injury so as to enter the recess and reduce its volume substantially and preferably practically to zero. The recess 24 contains a volume of air which for optimum performance should be equal to the amount by which the volume can be reduced by movement of the diaphragm and also equal to the volume expansion of the fluid from atmospheric conditions to mean working temperature. By this means, the diaphragm is substantially unstressed both under atmospheric conditions and under mean working conditions, since the air will be compressed to a negligible volume. <IMAGE>

Description

SPECIFICATION Pressure regulating devices This invention relates to devices for regulating the pressure of a fluid within a fluidtight vessel or other fluidtight apparatus and more especially for avoiding, or at least reducing, pressure differences between the inside of the apparatus and the surrounding ambient medium. The term "fluid" as used herein means any liquids, greases, and pasty materials.

More specifically, it relates to devices for use on apparatus exposed to an ambient medium at high pressure and elevated temperature and especially (though not exclusively) when it is subject under such conditions to temperature and/or pressure cycling.

An important application of the invention is to apparatus for use "downhole" in an oil well, and an important example of such apparatus is a fluid-filled electric connector.

Under such conditions, the integrity of sealing of the apparatus is liable to be at risk, and the most acceptable way of avoiding leakage is usually to maintain the seal(s) pressure-free or nearly so, and this entails provision for accommodating changes in the volume of fluid as temperature and/or pressure change.

Sliding pistons are unsatisfactory when the ambient medium contains particles that are liable to be caught between the sliding surfaces and simple bellows arrangements are liable to fatigue failure or the like.

In accordance with the invention, a piessure regulating device for fluidtight, fluid-filed apparatus comprises a solid body with a shallow recess in a surface thereof, a diaphragm sealed peripherally to the recess to partition it from the ambient medium, and a narrow passage connecting the recess to the interior of the apparatus, the diaphragm being so flexible that it can be deformed without injury by application of a sufficiently high ambient pressure to enter the recess and reduce its volume by a substantial amount.

The invention includes a fluidtight, fluidffilled devices fitted with one or more such devices.

Preferably the narrow passage is of capillary dimensions, by which is meant dimensions so small that the particular fluid with which the apparatus is filled will not flow from the passage unless subject to a difference in pressure. A multiplicity of small holes or a plug of porous material can be used to form a passage of capillary dimensions if appropriate.

Preferably the diaphragm is flexible enough for the volume of the recess to be reduced to zero (or practically so) at the maximum ambient pressure.

The outside of the diaphragm may be exposed directly to the ambient medium or it may be protected by a body of any suitable fluid that is subject to the ambient pressure.

The diaphragm may be of any resilient material that withstands the conditions of use; in most cases. fluid- and heat-resistant synthetic rubbers such as the fluorocarbon rubbers (such as that sold by E. I. Du Pont de Nemours s Co. under the trade mark VITON) and fluorosilicone rubbers are preferred. For very high temperature service a metal diaphragm may be desirable.

At least when the diaphragm is of a synthetic rubber, preferably the surface in which the recess is formed is the curved surface of a cylindrical body, such as a tubular part of the housing of the apparatus, and the diaphragm is tubular. Usually, but not necessarily, the recess will then be annular. The peripheral seal can then be ensured simply and efficiently by the use of a pair of band clamps and/or adhesive bonding of the diaphragm to the housing.

The apparatus preferably contains a small volume of air or other gas which can be compressed to limit volume changes arising from thermal expansion. When the working temperature and pressure are both high, the contained volume of gas (at atmospheric ambient) is preferably substantially equal to the volume expansion of the fluid (less the volume expansion, if significant, of the solid components containing it) on heating from atmospheric ambient to working temperature: since the volume of the gas at working pressure will be negligible, the volume of fluid plus gas will then be substantially the same under atmospheric ambient and working conditions (or at least will be substantially the same under both sets of conditibns as the volume of the containing solid components) so that the diaphragm can be unstressed under working conditions without needing to be pre-stressed during assembly.

A preferred way of regulating the volume of contained air is to locate all of it, or at least as much of it as possible, in the recess (or recesses) of the pressure regulating device (or devices) and to choose the volume of the recess (or each recess) to be equal to the volume of air to be contained. Provided that the passage connecting the recess to the interior of the apparatus is of capillary dimensions, there is no difficulty in assembling the apparatus with the interior (and the passage) fluid-filled and the whole recess air-filled.

The invention will be further described by way of example with reference to the accompanying drawing which is a longitudinal crosssection (divided for convenience of presentation) of an electrical connector incorporating a pressure regulating device in accordance with the invention.

The connector is for use in making one of the phase connections for the supply of power to a "downwell" pump in oil extraction. Current is carried through the casing 1 by a copper terminal stem 2 insulated by a moulded sleeve 3 and is retained by a flange 4 bearing on the inside of the casing and a moulded retaining sleeve 5 secured by a circlip 6 and bearing on the outside of the housing. O-ring seals 7 ensure a substantially fluid-tight seal.

Inside the pump housing, cable conductors 8 are connected to the stem 2 by a conventional crimped joint which is guarded by a protective moulded sleeve 9 secured by any suitable form of clamp 10 (the clamp shown in the drawing is of the kind sold by our subsidiary BICC Vantrunk Limited under the trade mark 'Strap X').

Outside the enclosure, the stem 2 is shaped to form a pin 11 which is fitted with laminated contact bands and receives a socket 12 crimped to the supply cable conductor 1 3.

The socket 1 2 is sealed to the insulating covering of the cable conductor using a quantity of cold-setting insulating putty 1 9 (such as that sold by our subsidiary BICC Components Limited under the trade mark BICA SEAL) pressurised during setting to ensure good adhesion by screwing together a pair of enclosing tapered ferrules 15, 16.

The main structure of the connector is completed by a moulded insulating body 1 7 and a moulded end cap 18 for the socket part.

These are secured together and to the conductor 1 3 and sealed to them using band clamps 18, 1 9 (for example Strap-X clamps, Jubilee clips or Hepworth band clamps) and O-rings 20, 20. The body 1 7 has a non-circular flange 21 by means of which it is bolted (outside the plane of the cross-section) to the pump enclosure 1, further O-rings 22 ensuring a fluid-tight seal.

Free spaces within the body 1 7 have a volume of about 3600 mm3 and are filled as far as possible with an electrically insulating compound such as the silicone grease sold by Dow Corning Limited as MS4 silicone compound; experience has shown that about 1 50 mm3 of air is inevitably occluded.

In accordance with the invention, a cylindrical part of the body 1 7 is formed with a peripheral recess 24 which communicates with the compound filled space by capillary passages 25 each having a diameter of 1 mm which is sufficiently small to inhibit the compound from flowing through these passages under its own hydrostatic head at all temperatures in the working range.

The recess 24 is enclosed by a tubular membrane 26 made of VITON fluorocarbon rubber and secured at both its peripheral edges by band clamps 27, 27 (similar to 18 and 19). The outside of the membrane 26 is protected by a moulded sleeve 28, which is not fluid-tight; and another moulded sleeve 29, inside the body, ensures that the capillary passages 25 do not provide a short electrical breakdown path.

The various moulded parts may be made of any suitable plastics material that will with stand the thermal, mechanical and chemical stresses of the use environment; our present preference is for the polyphenylene ether ketone sold by Imperial Chemical Industries plc under the trade mark "PEEK"; even with the best available materials, service life may be fairly short.

The enclosed volume of the recess 24 is 1 50 mm3 when the membrane 26 is un stressed.

The connector is designed for use at a mean ambient pressure of 28 MN/m2 and a mean working temperature of 150"C. The capillary passages 5 are filled with the com pound prior to assembly but the recess 4 remains air-filled when the connector is assembled under ordinary atmospheric conditions. The thermal expansion of the com pound (about 7 x 10-4/"C) is large compared both to its compressibility and to the thermal expansion of the connector body, so that the volume expansion of the compound on going from atmospheric temperature and pressure to mean working pressure and temperature is about 300 mm3, substantially the same as the total volume of air contained in the recess 4 and elsewhere.The air remaining in the connector is compressed to a negligible volume at working pressure, and so at working temperature and pressure the recess 9 becomes filled with compound, the net effect of the pressure and temperature changes therefore being to - bring the diaphragm back to a substantially unstressed condition.

It will be understood that if the device is brought back after service to atmospheric pressure and temperature, or indeed to any pressure significantly below the working pressure, some compound or other fluid is likely to remain in the recess 4 and some air therefore to pass through the capillary passage 5; this is immaterial provided the air is contained within the apparatus; if on the other hand there is any possibility that the apparatus as a whole no longer contains the correct volume of air it is advisable for the device to be cleaned out and refilled before re-use, and the diaphragm may in such cases be replaced.

For some apparatus that will be used in only one orientation, the recess might be arranged to face upwardly so that the air or other gas cannot escape from it until all the fluid has been displaced.

Claims (9)

1. A pressure-regulating device for fluidtight, fluid-filled apparatus comprising a solid body with a shallow recess in a surface thereof, a diaphragm sealed peripherally to the recess to partition it from the ambient medium, and a narrow passage connecting the recess to the interior of the apparatus, the diaphragm being so flexible that it can be deformed without injury by application of a sufficiently high ambient pressure to enter the recess and reduce is volume by a substantial amount.

2. A pressure-regulating device for fluidtight, fluid-filled apparatus comprising a solid body with a shallow recess in a surface thereof, a diaphragm sealed peripherally to the recess to partition it from the ambient medium, and a passage of capillary dimensions connecting the recess to the interior of the apparatus, the diaphragm being so flexible that it can be deformed without injury by application of a sufficiently high ambient pressure to enter the recess and reduce is volume by a substantial amount.

3. A pressure regulating device for fluidtight, fluid-filled apparatus designed for operation at predetermined temperature and pressure both of which are high compared with atmospheric pressures and temperatures, the device comprising a solid body with a shallow recess in a surface thereof, a diaphragm sealed peripherally to the recess to partition it from the ambient medium, and a passage of capillary dimensions connecting the recess to the interior of the apparatus, the diaphragm being so flexible that it can be deformed without injury by application of a sufficiently high ambient pressure to enter the recess and reduce its volume by a substantial amount which is substantially the same as the volume of gas contained within the recess.

4. Fluidtight, fluid-filled apparatus incorporating at least one of the devices claimed in Claim 3, the total volume of gas enclosed in the recess or recesses of the or all of the devices and elsewhere in the apparatus, measured under atmospheric ambient conditions, being substantially equal to the volume expansion of the fluid contained within the apparatus from ambient atmospheric temperature to the working temperature of the apparatus.

5. A device as claimed in any one of Claims 1 to 3 or apparatus as claimed in Claim 4 in which the diaphragm is of a fluid- and heatresistant synthetic rubber.

6. A device or apparatus as claimed in Claim 5 in which the recess is formed in the curved surface of a cylindrical body and the diaphragm is tubular.

7. A pressure regulating device substantially as described with reference to and as shown in the drawing.

8. An electric connector incorporating a pressure-regulating device as claimed in any one of Claims 1 to 3 or 5 to 7.

9. An electric connector substantially as described with reference to and as shown in the drawings.