GB1578016A - Exhaust valve - Google Patents

Description

(54) EXHAUST VALVE (71) 1, ALEXANDER GEORGE COPSON, a British subject, of 52 High Street, Yaddlethorpe, Scunthorpe, do hereby declare the invention. for which I pray that a patent may be granted to me, and the method by which it is to be performed, to be particularly described in and by the following statement: This invention relates to valves for use in exhausting gases used underwater, e.g. exhalations by a diver. fouled or used gas from a diving bell or submersible vessel or underwater installation.The invention provides a gas exhaust valve connected to a submarine housing supplied with a gaseous atmosphere, the exhaust valve comprising a valve body, a valve chamber, a diaphragm carrying a valve member and forming a wall portion of the valve chamber, at least one inlet duct for admitting into the chamber gas from the housing. and at least one exhaust duct in the valve body for exhausting the said gas from the valve chamber, the diaphragm being subject on one face solely to the ambient external water pressure and on the other face to the pressures in the inlet and exhaust ducts and moving according to the pressure drop thereacross between an open position in which there is communication between inlet and exhaust ducts for the exhaustion of gas from the housing through the valve and a closed normal rest position in which the valve member cuts off such communication.

When. for example. the exhaust valve is in operation in conjunction with a diver's helmet or mask. the inlet duct will communicate with the interior of the diver's helmet or mask and so be at about the same pressure as the external water and the outlet of the exhaust duct can communicate with a line from which the exhaust gases can be collected. With the valve member in the closed position. the pressure in the exhaust duct will be lower than that in the inlet duct.

and these pressures and the dimensions of the ducts and valve member will be such that the external ambient pressure (i.e. the water pressure) maintains the valve member in the closed position until sufficient counter-pressure is generated (e.g. by the diver exhaling) to move the valve member temporarily to its open position with consequent exhaustion of the excess (e.g. exhaled) gases via the low pressure exhaust duct: on exhaustion of the gases, the water pressure returns the valve member to its closed position. The exhaust valve will operate correspondingly when used in a corresponding manner for exhaustion of used gas from a bell or other submerged unit, craft or installation.

It will be evident that the principle of the invention, balancing inlet and exhaust line pressure against external water pressure so that exhalation or other build-up of exhaust gas pressure opens and valve for exhaustion of gases. can be put in operation in a number of ways. The valve body may have a plurality of inlet ducts. and inlet and outlet ducts may be arranged relative to one another in a variety of different ways. The arrangement and dimensions of the inlet and exhaust ducts and valve member will be chosen to provide opening of the valve at the appropriate excess inlet duct pressure (over external pressure). In operation the required inlet duct pressure excess can be controlled by a pressure release valve controlling the pressure in the exhaust line.The exhaust valve will of course open to relieve any excess pressure on the inlet side (e.g. in the diver's helmet), whether due to admission of excess fresh gas or to generation of exhaust or exhaled gas.

In a particularly preferred embodiment the exhaust valve has a pair of diaphragms each carrying a valve member and each forming a different wall portion of the chamber, each diaphragm being subject on one face solely to the ambient external water pressure and on the other face to the pressure in the inlet and outlet ducts and each moving accordingly to the pressure drop thereacross between said open and closed positions. In this embodiment it can be of practical advantage for one valve member to be more readily openable than the other, due e.g. at least in part to difference in exhaust orifice sizes.

The mentioned pressure release valve, preferably provided in an exhaust line communicating with the exhaust duct of the exhaust valve, can be of conventional type but is preferably essentially according to the above definition for the exhaust valve except that the diaphragm is subject on one face not to the ambient external pressure but solely to a predetermined fluid pressure maintained (e.g. in a closed chamber of which the diaphragm can form a wall portion) at the valve required for the equilibrium pressure in the exhaust line, this predetermined pressure preferably being adjustable: the valve member will thus normally close communication between the release valve inlet duct (communicating with the said exhaust line) and its own outlet or exhaust duct until the exhaust line pressure is increased bv exhaustion of gas thereinto from the exhaust valve.The invention thus also provides an exhaust valve and submarine housing according to the inventors an exhaust line connected to the exhaust duct. and a pressure release valve in the exhaust line which permits escape of gas from the exhaust line only when the pressure therein exceeds a predetermined value, the pressure release valve preferably comprising a valve body. a valve chamber. a diaphragm carrying a valve member and forming a wall portion of the valve chamber, at least one inlet duct for admitting into the chamber gas from the exhaust line. and at least one exhaust duct in the valve body for exhausting the said gas from the valve chamber. the diaphragm being subject on one face solely to a predetermined maintained fluid pressure and on the other face to the pressures in the inlet and exhaust ducts and moving according to the pressure drop thereacross between an open position and in which there is communication between the inlet and exhaust ducts for the passage of gas from the exhaust line through the valve and a closed normal rest position in which the valve member cuts off such communication.

The invention also provides diving gas recoverv equipment in which exhaust gas.

e.g. from a diver. is collected. scrubbed and recompressed for further use. This comprises an exhaust valve. submarine housing and pressure release valve according to the invention. a compressor having a low pressure intake for receiving gas from the pressure release valve outlet and a high pressure outlet, a reservoir for receiving and storing high pressure gas from the compressor outlet, and at least one unit for scrubbing CO2 from the gas before and/or after the compressor. The main interest here is in recovering helium used in helium/oxygen breathing mixtures for deep dives. The pressure release valve, compressor, scrubber and the line connecting them are conveniently combined as a recyle module.In practice the equipment will normally be applied to a diver operating from a chamber, e.g. a bell or submerisible, and the exhaust line from the helmet exhaust valve will preferably have a first section extending to a manifold in the chamber. and a second section extending from the manifold to the pressure release valve, the bell manifold preferably having a trap for condensed liquids. Provision may also be made for exhausting the chamber atmosphere, when the chamber is depressurised, through the said or another pressure release valve into the low pressure side of the module for scrubbing, recompression. and recycle to storage for re-use.

Embodiments of the invention will now be described by way of example only, with reference to Figures l to 4 of the drawings accompanying the Provisional Specification of Application No. 6ü42/76. Figures 1 and 2 of the drawings accompanying the Provisional Specifications of Application No.

7671/76 and Figures 7 to 9 of the accompanying drawings. In the said Figures 1 to 4: Figure 1 is a side elevation view. partly in section, of one exhaust valve for use according to the invention; Figure 2 is a section along the lines 2-2 of Figure 1: Figure 3 is a side elevation view. partly in section, of another exhaust valve for use according to the invention: and Figure 4 is a side elevation view. partly in section of a third exhaust valve for use according to the invention: In the said Figures 1 and 2: Figure 1 is a side elevation view. partlv in section, of a fourth valve for use according to the invention; and Figure 2 is a secton along lies 2-2 of Figure 1; and in the said accompanying drawings: Figure 7 is a plan view. with parts broken away, of a fifth valve for use according to the invention: Figure 8 is a section of Figure 7: and Figure 9 is an elevation view. in section.

of a pressure release valve for use according to the invention for controlling gas flow from in exhaust line connected to an exhaust valve.

In the drawings. like features are indi cated by like reference numerals.

The valve illustrated in Figures 1 and 2 of the drawings accompanying the provisional specification of application No. 6042/76 has a valve body 2; an exhaust duct 4 extends axially through the valve body from one face 3 partially towards the other and then radially to its surface. The outlet 6 of the exhaust duct is adapted for connection (e.g.

by a screw thread as shown) to a hose (not shown) for exhaust gases. Three inlet ducts 8 are disposed parallel to and symmetrically around t e axial part of exhaust duct 4 and extend from the same face 3 of the valve body 2 to a common inlet 10 through the opposite face of the valve body. The projecting portion 12 of the inlet 10 is adapted for connection directly to and through the wall of diver's helmet (not shown). A diaphragm 14 incorporating a central valve plate or member 18 is secured around its rim between the face 3 of valve body 2 and a protective cap 20; the cap 20 has apertures 22, so that the face 24 of the valve member 18 is exposed to the external ambient pressure, e.g. to the water pressure when in use. The valve plate 18 normally seats over and closes inlet ducts 8 and exhaust duct 4, cutting off communication therebetween.

When in use at a given depth. with the inlet communicating with the interior of a diver's helmet and the exhaust duct outlet connected to an exhaust hose. the helmet pressure is maintained at an appropriate breathing pressure and the exhaust duct at a reduced pressure such that the external water pressure will normally maintained the valve plate in this closed seated position. but that increase in the inlet duct pressure (e.g.

due to exhalation by the diver) moves the valve plate to an open position as shown in Figure 1 against the external water pressure until gas has been e;xhausted via the exhaust duct. Movement of the valve plate 18 can be guided by three pins 25 which slide in bores 26 in the valve body 2. but these are not usually needed and are preferably omitted to leave no parts which move or slide in contact in operation of the valve.

The valve shown in Figure 3 of the drawings accompanying the provisional specification of Application No. 6042/76 is similar but has wider inlet ducts and a narrower exhaust duct to decrease the inlet duct pressure required. for a given external pressure. to open the valve.

The valve of Figure 4 of the drawings accompanying the provisional specification of Application No. 6042/76 is also similar.

but the valve plate 18 in its closed position seats on valve seat 30 constituted bv an extension of duct 4 integral with and projecting from face 3 of the valve body 2. This increases the area of the valve member exposed to the inlet duct pressure and reduces the value of this pressure required to open the valve.

In the valve of Figures 1 and 2 of the drawings accompanying the provisional specification of Application 7671/76 face 3 is re-entrant and the pins 25 carry a valve disc or plate 23 which normally seats over valve seat 30 in face 3 to close exhaust duct 4. The pins 25 are in fact not essential and are preferably omitted. Valve disc 23 may instead be mounted on legs extending only from itself to the plate 18; it may for example be formed from a disc with a plurality of radially projecting tabs which are bent at right angles to the disc to form legs which are affixed (e.g. by silver soldering) to the plate 18. Figures 7 and 8 shown an improved exhaust valve in which a pair of diaphragms 14 with respective central valve plates 18, 18' for seating on respective valve seats 30, 30'. control the exhaustion of gas to a common exhaust duct 4.Exhaust gas enters the valve body 2 by inlet ducts 8 and channels 9 and lifts each valve plate 18 from its seat 30 against the ambient water pressure acting on the external face 24 of the valve plate to which the water has access via apertures 22 in each protective cap 2(); the gas is thus exhausted via the lower pressure exhaust duct 4 until the water pressure returns the valve plates to close the valve.

Valve seat 30 is narrower, e.g. 2 mm internal diameter, than 30', e.g. 5 mm internal diameter, the two halves of the valve being otherwise substantially identical. This is advantageous, member 18 moving most readily from seat 30 on increase in inlet duct pressure and the resulting increase in outlet duct pressure due to the exhaust gas facilitating unseating of member 18'. The valve will be attached, e.g. to a diver's helmet, by screw-threaded boss 13.

The illustrated valves are simple but effective and reliable in operation, and can be machined for the most part from a single block of metal. A distinct advantage of the preferred valves is the absense of moving or mechanical parts which are liable to jam.

wear or fail so as to endanger the user: the only moving or mechanical part needed is the diaphragm with its valve member.

Figure 9 illustrates a valve for an exhaust line. e.g. at the surface, for controlling the exhaust duct pressure and the release of exhaust gas. e.g. to the intake of a compressor. It has an inlet 4() connectable to an exhaust line for communication with the exhaust duct of an exhaust valve according to the invention: outlet 42 may be connected to the intake. low pressure. side of a compressor which compresses the exhaust gas for scrubbing and storage for re-use.

Passage of exhaust gas from inlet 40 to outlet 42 is controlled bv a valve plate 44 supported in a diaphragm 46 for movement into and out of seating engagement with a valve seat 48. The face 50 of the valve plate is exposed to the fluid pressure maintained in a closed cylinder 52; this predetermined pressure may be selected and adjusted at will. This control valve is thus essentially the same in structure and operation as the exhaust valves except for face 50 being subject to a predetermined. maintained pressure; when the exhaust line pressure exceeds this, on receipt of exhaust or exhaled gas, plate 44 is unseated to allow the release of the exhaust gas.In a preferred operation the whole gas supply and exhaust system. including the exhaust line, is pressurised up to the appropriate working pressure, cylinder 52 being brought to this pressure by opening by-pass 53; valve 54 is then shut to isolate cylinder 52 and needle valve 56 operated to reduce the pressure therein by a required amount, e.g. 1, 2 or 3 bar, as monitored on gauge 58; some gas accordingly exhausts from the exhaust line until the inlet 40 and selected cylinder 52 pressures substantially equalise, and the system is then set ready for use. This preferred control valve can be used with exhaust valves other than those according to the invention.

WHAT I CLAIM IS: 1. A gas exhaust valve connected to a submarine housing supplied with a gaseous atmosphere, the exhaust valve comprising a valve body. a valve chamber, a diaphragm carrying a valve member and forming a wall portion of the valve chamber. at least one inlet duct for admitting into the chamber gas from the housing, and at least one exhaust duct in the valve body for exhausting the said gas from the valve chamber, the diaphragm being subject on one face solely to the ambient external water pressure and on the other face to the pressures in the inlet and exhaust ducts and moving according to the pressure drop thereacross between an open position in which there is communication between inlet and exhaust ducts for the exhaustion of gas from the housing through the valve and a closed normal rest position in which the valve member cuts off such communication.

2. An exhaust valve according to claim I having a pair of diaphragms each carrying a valve member and each forming a different wall portion of the chamber. each diaphragm being subject on one face solely to the ambient external water pressure and on the other face to the pressure in the inlet and outlet ducts and each moving according to the pressure drop thereacross between said open and closed positions.

3. An exhaust valve according to claim 2 wherein one valve member opens more readily than the other.

4. An exhaust valve according to claim 3 wherein, in the closed normal rest positions of the diaphragms, the valve members seat on respective exhaust duct orifices, and wherein unseating of the more readily openable valve member from its exhaust duct orifice leads to increase in the exhaust duct pressure at the other exhaust duct orifice to facilitate unseating of the other valve member.

5. An exhaust valve according to claim 4 wherein the exhaust duct orifice of the more readily openable valve member is of smaller cross-sectional area than the other exhaust duct orifice.

6. An exhaust valve and submarine housing according to claim 1, the exhaust valve being substantially as hereinbefore described with reference to Figures 1 and 2 or to Figure 3 or to Figure 4 of the drawings accompanying the Provisional specification of Application No. 6042/76.

7. An exhaust valve and submarine housing according to claim 1, the exhaust valve being substantialy as hereinbefore described with reference to Figures 1 and 2 of the drawings accompanying the Provisional specification of Application No. 7671/ 76.

8. An exhaust valve and submarine housing according to claim 2, the exhaust valve being substantially as hereinbefore described with reference to Figures 7 and 8 of the accompanying drawings.

9. An exhaust valve and submarine housing according to any preceding claim.

wherein the submarine housing is a divers helmet or mask or a diving bell.

10. An exhaust valve and submarine housing according to any of claims 1 to 9, an exhaust line connected to the exhaust duct.

and a pressure release valve in the exhaust line which permits escape of gas from the exhaust line only when the pressure therein exceeds a predetermined value.

11. An exhaust valve, submarine housing and pressure release valve according to claim 10, the pressure release valve comprising a valve body, a valve chamber. a diaphragm carrying a valve member and forming a wall portion of the valve chamber, at least one inlet duct for admitting into the chamber gas from the exhaust line. and at least one exhaust duct in the valve body for exhausting the said gas from the valve chamber. the diaphragm being subject on one face solely to a predetermined maintained fluid pressure and on the other face to the pressures in the inlet and exhaust ducts and moving according to the pressure drop thereacross between an open position in which there is communication between the inlet and exhaust ducts for the passage of gas from the exhaust line through the valve and a closed normal rest position in which the valve member cuts off such

**WARNING** end of DESC field may overlap start of CLMS **.

Claims (16)

**WARNING** start of CLMS field may overlap end of DESC **. into and out of seating engagement with a valve seat 48. The face 50 of the valve plate is exposed to the fluid pressure maintained in a closed cylinder 52; this predetermined pressure may be selected and adjusted at will. This control valve is thus essentially the same in structure and operation as the exhaust valves except for face 50 being subject to a predetermined. maintained pressure; when the exhaust line pressure exceeds this, on receipt of exhaust or exhaled gas, plate 44 is unseated to allow the release of the exhaust gas.In a preferred operation the whole gas supply and exhaust system. including the exhaust line, is pressurised up to the appropriate working pressure, cylinder 52 being brought to this pressure by opening by-pass 53; valve 54 is then shut to isolate cylinder 52 and needle valve 56 operated to reduce the pressure therein by a required amount, e.g. 1, 2 or 3 bar, as monitored on gauge 58; some gas accordingly exhausts from the exhaust line until the inlet 40 and selected cylinder 52 pressures substantially equalise, and the system is then set ready for use. This preferred control valve can be used with exhaust valves other than those according to the invention. WHAT I CLAIM IS:

1. A gas exhaust valve connected to a submarine housing supplied with a gaseous atmosphere, the exhaust valve comprising a valve body. a valve chamber, a diaphragm carrying a valve member and forming a wall portion of the valve chamber. at least one inlet duct for admitting into the chamber gas from the housing, and at least one exhaust duct in the valve body for exhausting the said gas from the valve chamber, the diaphragm being subject on one face solely to the ambient external water pressure and on the other face to the pressures in the inlet and exhaust ducts and moving according to the pressure drop thereacross between an open position in which there is communication between inlet and exhaust ducts for the exhaustion of gas from the housing through the valve and a closed normal rest position in which the valve member cuts off such communication.

2. An exhaust valve according to claim I having a pair of diaphragms each carrying a valve member and each forming a different wall portion of the chamber. each diaphragm being subject on one face solely to the ambient external water pressure and on the other face to the pressure in the inlet and outlet ducts and each moving according to the pressure drop thereacross between said open and closed positions.

3. An exhaust valve according to claim 2 wherein one valve member opens more readily than the other.

4. An exhaust valve according to claim 3 wherein, in the closed normal rest positions of the diaphragms, the valve members seat on respective exhaust duct orifices, and wherein unseating of the more readily openable valve member from its exhaust duct orifice leads to increase in the exhaust duct pressure at the other exhaust duct orifice to facilitate unseating of the other valve member.

5. An exhaust valve according to claim 4 wherein the exhaust duct orifice of the more readily openable valve member is of smaller cross-sectional area than the other exhaust duct orifice.

6. An exhaust valve and submarine housing according to claim 1, the exhaust valve being substantially as hereinbefore described with reference to Figures 1 and 2 or to Figure 3 or to Figure 4 of the drawings accompanying the Provisional specification of Application No. 6042/76.

7. An exhaust valve and submarine housing according to claim 1, the exhaust valve being substantialy as hereinbefore described with reference to Figures 1 and 2 of the drawings accompanying the Provisional specification of Application No. 7671/ 76.

8. An exhaust valve and submarine housing according to claim 2, the exhaust valve being substantially as hereinbefore described with reference to Figures 7 and 8 of the accompanying drawings.

9. An exhaust valve and submarine housing according to any preceding claim.

wherein the submarine housing is a divers helmet or mask or a diving bell.

10. An exhaust valve and submarine housing according to any of claims 1 to 9, an exhaust line connected to the exhaust duct.

and a pressure release valve in the exhaust line which permits escape of gas from the exhaust line only when the pressure therein exceeds a predetermined value.

11. An exhaust valve, submarine housing and pressure release valve according to claim 10, the pressure release valve comprising a valve body, a valve chamber. a diaphragm carrying a valve member and forming a wall portion of the valve chamber, at least one inlet duct for admitting into the chamber gas from the exhaust line. and at least one exhaust duct in the valve body for exhausting the said gas from the valve chamber. the diaphragm being subject on one face solely to a predetermined maintained fluid pressure and on the other face to the pressures in the inlet and exhaust ducts and moving according to the pressure drop thereacross between an open position in which there is communication between the inlet and exhaust ducts for the passage of gas from the exhaust line through the valve and a closed normal rest position in which the valve member cuts off such

communication.

12. An exhaust valve, submarine housing and pressure release valve according to claim II wherein the diaphragm of the pressure release valve forms a wall portion of a further chamber in which the predetermined fluid pressure is maintained.

13. An exhaust valve, submarine housing and pressure release valve according to claim 12 having a duct connecting the exhaust line and the further chamber, means for closing the duct. and means for bleeding pressurized gas from the further chamber.

14. An exhaust valve, submarine housing and pressure release valve according to claim 11 wherein the pressure release valve is substantially as hereinbefore described with reference to Figure 9 of the accompanying drawins.

15. Diving gas recovery equipment comprising an exhaust valve. submarine housing and pressure release valve according to any of claims 10 to 14. a compressor having a low pressure intake for receiving gas from the pressure release valve outlet and a high pressure output. a reservoir for receiving and storing high pressure gas from the compressor output. and at least one unit for scrubbing CO2 from the gas before and/or after the compressor.

16. Diving gas recovery equipment substantially as hereinbefore described.