Re-breather diving unit with oxygen adjustment for decompression optimization
First Claim
1. A re-breather diving unit, comprisinga closed circuit breathing loop having a carbon dioxide scrubber for absorbing carbon dioxide exhaled by a diver,oxygen storage means,inert gas storage means,pressure measuring means indicating dive depth,means arranged to supply inert gas into said breathing loop from said inert gas storage means and to allow gas to escape from said breathing loop to maintain the volume of said loop substantially constant,calibratable oxygen measuring means for measuring the partial pressure of oxygen in said breathing loop,manual means for setting a threshold level for the partial pressure of oxygen in said breathing loop after calibration of said oxygen measuring means,means connected for supplying oxygen into said breathing loop from said oxygen storage means to replace oxygen consumed by a diver while, in response to said oxygen measuring means connected thereto, maintaining the partial pressure of oxygen below said pre-set threshold level,and a computer programmed to produce a real-time decompression schedule in response to time, dive table data and inputs from said pressure measuring means and said oxygen measuring means.
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Accused Products
Abstract
A mixed-gas, closed circuit, re-breather diving unit (11), and associated diving system and method, having separate supplies (21, 22) of oxygen and inert gas, arranged to feed a breathing loop (23, 25, 26) in such a manner that, in use, oxygen is fed into the loop (23, 25, 26) as it is consumed by a diver, while inert gas is fed into the loop (23, 25, 26) by a water-pressure-sensitive valve (37) to maintain the loop volume, the unit (11) having oxygen partial pressure (ppO2) monitoring sensors (41) whereby the ppO2 is continuously monitored and maintained at a pre-set level below that of the oxygen toxicity threshold, having a depth gauge diaphragm (43) and having carbon dioxide (CO2) scrubber means (23) within the breathing loop (23, 25, 26), and the pre-set level of the ppO2 can, once the ppO2 monitor has been calibrated initially, be reset instantly to another ppO2 pre-set level prior to a dive, and the carbon dioxide level in the breathing loop (23, 25, 26) can be monitored continuously by optional CO2 level sensors (45), and outputs of the ppO2 and CO2 monitoring sensors and of the depth sensor (46) are transmitted via a telemetry link to a surface-located computer programmed to use such output information, together with time information and dive table data, to produce, in real time, a decomposition schedule.
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Citations
7 Claims
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1. A re-breather diving unit, comprising
a closed circuit breathing loop having a carbon dioxide scrubber for absorbing carbon dioxide exhaled by a diver, oxygen storage means, inert gas storage means, pressure measuring means indicating dive depth, means arranged to supply inert gas into said breathing loop from said inert gas storage means and to allow gas to escape from said breathing loop to maintain the volume of said loop substantially constant, calibratable oxygen measuring means for measuring the partial pressure of oxygen in said breathing loop, manual means for setting a threshold level for the partial pressure of oxygen in said breathing loop after calibration of said oxygen measuring means, means connected for supplying oxygen into said breathing loop from said oxygen storage means to replace oxygen consumed by a diver while, in response to said oxygen measuring means connected thereto, maintaining the partial pressure of oxygen below said pre-set threshold level, and a computer programmed to produce a real-time decompression schedule in response to time, dive table data and inputs from said pressure measuring means and said oxygen measuring means.
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3. A method of diving, using a re-breather diving unit having a closed circuit breathing loop with a carbon dioxide scrubber for removing exhaled carbon dioxide, oxygen storage means, inert gas storage means, pressure measuring means for measuring dive depth, calibratable means responsive to oxygen partial pressure and a computer programmed to produce real-time decompression-schedule-data, comprising the steps of
setting said calibratable means to a desired oxygen partial pressure threshold for a dive, supplying inert gas into said breathing loop during dive descent and allowing gas to escape from said breathing loop during dive ascent, to maintain the volume of said loop substantially constant, supplying oxygen into said loop to replace oxygen consumed by said diver, while maintaining the partial pressure of oxygen below said threshold, and during dive ascent, supplying said measurement of dive depth from said pressure measuring means to said computer, which in turn supplies decompression-schedule-data to the diver.
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5. A re-breather diving unit, comprising
a closed circuit breathing loop having a carbon dioxide scrubber for absorbing carbon dioxide exhaled by a diver, oxygen storage means, inert gas storage means, pressure measuring means indicating dive depth, means arranged to supply inert gas into said breathing loop from said inert gas storage means and to allow gas to escape from said breathing loop to maintain the volume of said loop substantially constant, calibratable oxygen measuring means for measuring the partial pressure of oxygen in said breathing loop, manual means for setting a threshold level for the partial pressure of oxygen in said breathing loop after calibration of said oxygen measuring means, means connected for supplying oxygen into said breathing loop from said oxygen storage means to replace oxygen consumed by a diver while, in response to said oxygen measuring means connected thereto, maintaining the partial pressure of oxygen below said pre-set threshold level, a surface located computer programmed to produce a real-time decompression schedule in response to time, dive table data and inputs from said pressure measuring means and said oxygen measuring means, and telemetry means connected between said computer and said pressure measuring means and said oxygen measuring means, wherein during operation under water, the computer is located above the surface of said water and receives inputs from said pressure measuring means and said oxygen measuring means via said telemetry means.
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6. A method of diving, using a re-breather diving unit having a closed circuit breathing loop with a carbon dioxide scrubber for removing exhaled carbon dioxide, oxygen storage means, inert gas storage means, pressure measuring means for measuring dive depth, calibratable means responsive to oxygen partial pressure and a surface located computer programmed to produce real-time decompression-schedule-data, comprising the steps of
setting said calibratable means to a desired oxygen partial pressure threshold for a dive, supplying inert gas into said breathing loop during dive descent and allowing gas to escape from said breathing loop during dive ascent, to maintain the volume of said loop substantially constant, supplying oxygen into said loop to replace oxygen consumed by said diver, while maintaining the partial pressure of oxygen below said threshold, during dive ascent, supplying said measurement of dive depth from said pressure measuring means to said computer, which in turn supplies decompression-schedule-data to the diver, and supplying said decompression-schedule-data to the diver via a telemetry link from said computer.
Specification
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- Resources
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Current AssigneeCarmellan Research Limited
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Original AssigneeCarmellan Research Limited
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InventorsClough, Stuart J., Cave, Neil M. J.
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Primary Examiner(s)Jablon, Clark A.
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Application NumberUS07/215,472Time in Patent Office728 DaysField of Search364/413.31, 73/865.1, 128/201.27US Class Current128/201.27CPC Class CodesB63C 11/24 in closed circulationB63C 2011/021 Diving computers, i.e. port...Y10S 128/904 Telephone telemetry
