US3735382A - Electronic monitoring control and display apparatus for breathing gas system - Google Patents

Electronic monitoring control and display apparatus for breathing gas system Download PDF

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US3735382A
US3735382A US00040891A US3735382DA US3735382A US 3735382 A US3735382 A US 3735382A US 00040891 A US00040891 A US 00040891A US 3735382D A US3735382D A US 3735382DA US 3735382 A US3735382 A US 3735382A
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elongated
lamps
housing
viewing window
lamp
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Ch Soult
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BIOMARINE INCORPORATED A DE CORP
Biomarine Industries Inc
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Assigned to REXNORD INC. reassignment REXNORD INC. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: BIOMARINE INDUSTRIES, INC.
Assigned to BIOMARINE INDUSTRIES, INC. reassignment BIOMARINE INDUSTRIES, INC. CHANGE OF NAME (SEE DOCUMENT FOR DETAILS). EFFECTIVE 6/19/69 Assignors: MARINE SYSTEMS INTERNATIONAL CORPORATION
Assigned to WADE, WILLIAM J., RODNEY SQUARE NORTH, WILMINGTON DELAWARE 19890, TRUSTEE, WILMINGTON TRUST COMPANY, RODNEY SQUARE NORTH, WILMINGTON DELAWARE 19890, A CORP. OF DE. reassignment WADE, WILLIAM J., RODNEY SQUARE NORTH, WILMINGTON DELAWARE 19890, TRUSTEE SECURITY INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: REXNORD INC.
Assigned to BIOMARINE INCORPORATED, A DE CORP. reassignment BIOMARINE INCORPORATED, A DE CORP. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: REXNORD INC.
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/08Detecting, measuring or recording devices for evaluating the respiratory organs
    • A61B5/083Measuring rate of metabolism by using breath test, e.g. measuring rate of oxygen consumption
    • A61B5/0833Measuring rate of oxygen consumption

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  • FIG. 2 is a more simplified block diagram of a digital lamp display circuit as used in the invention
  • this limiting circuitry limits the condition sensor outputs between fixed levels.
  • the circuitry in blocks 24 and 25 is identical to the circuitry shown in for limiting circuitry 23 and is not described in detail.
  • the outputs of the limiting circuitry is coupled through resistors 30, 31 and 32, respectively, to an averaging amplifier 33 which averages the voltage output of limiting circuitry 23, 24 and 25 so that the output of amplifier 33 is a voltage which represents the average voltage of oxygen sensors 10, l1 and 12.
  • a plurality of additional sensors 130 are connected to driver amplifiers 131,
  • connector means for electrically connecting said lamps to an external source of operating current, and for sealing said elongated chamber
  • An underwater display unit for displaying breathing gas condition in underwater diving apparatus comprising;

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Abstract

Apparatus for providing a visual display of sensed conditions in a breathing gas system and including a housing having an elongated viewing window and a plurality of miniature color coded lamps mounted on a carrier member within the housing adjacent the viewing window. The lamps are connected to a source of operating current, through a connector which seals the housing, and means are provided for selectively electrically energizing the lamps in accordance with digital signals applied thereto.

Description

United States Patent [191 Soult May 22,1973
[54] ELECTRONIC MONITORING CONTROL AND DISPLAY APPARATUS FOR BREATHING GAS SYSTEM [75] Inventor: Charles J. Soult, Willingboro, NJ.
[73] Assignee: Biomarine Industries, Inc., Devon,
22 Filed: May 27, 1970 21 Appl.No.: 40,891
[52] US. Cl. .,.....340/279, 340/321, 340/379 [51] Int. Cl. ..G08b 21/00, G08b 23/00 [58] Field of Search ..340/32l, 240, 379,
340/237, 279; 128/192, 142.2, 147; 40/129 A, 130 L, 130 N, 132 C, 132 E; 73/300 [56] References Cited UNITED STATES PATENTS 2,378,075 6/1945 Frecska ..340/32l 3,203,244 8/1965 Alinari ..73/300 FOREIGN PATENTS OR APPLICATIONS 558,893 6/1958 Canada ..340/321 Primary Examiner-John W. Caldwell Assistant ExaminerDaniel Myer Attorney--Beveridge and De Grandi [5 7] ABSTRACT 8 Claims, 5 Drawing Figures PATENTEL MY 2 21975 SHEET 2 OF 2 ELECTRONIC MONITORING CONTROL AND DISPLAY APPARATUS FOR BREATHING GAS SYSTEM BACKGROUND OF THE INVENTION:
conventionally, systems for displaying conditions of vital gas parameters in closed and semi-closed breathing systems have been by means of analog meters, usually of the mechanical type but more recently, with the advent of improved partial oxygen pressure sensor and electrical control systems and improvements in batteries for supplying power, electrical meters have been used for presenting to the user the vital oxygen parameters as measured by improved partial oxygen pressure sensors. Other gas parameters, such as pressure of oxygen at the oxygen bottle, pressure of diluent gas at the diluent gas bottle measured by conventional pressure gauges which are suitably located for observation by the user. The present invention is directed to improvements in the display of vital data in breathing gas systems to eliminate ambiguity in such displays; to present all vital data concerning the breathing gas system to a user in a manner such that the user may quickly and easily isolate dangerous conditions for corrective action; to provide an alarm system which is operable when any of a plurality of vital parameters in the breathing gas system may be at a dangerous condition or level or at least when the output signals of sensors or transducers are such as to signify a dangerous condition; to provide the user with such information without the need of any significant interpretation by the user; to provide an improved automatic control system for the makeup oxygen supply to the breathing gas circuit which conserves the use of oxygen and hence extends the uninterrupted time period a user may use the system; and to provide an electrical system for such control which is relatively simple and economical.
The above and other objects, advantages and features of the invention will become more apparent from the following description taken in conjunction with the accompanying drawings wherein:
FIG. 1 is an electrical block diagram incorporating the invention.
FIG. 2 is a more simplified block diagram of a digital lamp display circuit as used in the invention,
FIG. 3 is a top view of a digital wrist display device as embodied in the invention, and I FIGS. 4 and 5 are side and end elevational views, respectively, of the wrist display device as embodied in the invention.
Referring now to FIG. 1 of the drawings, a plurality of sensors, as for example three galvanic partial oxygen pressure ( P0 oxygen sensors 10, 11 and 12 of the type generally disclosed in Rutkowski application, Ser. No. 831,152 filed June 6, 1969 and assigned to the assignee of the present invention, for example, it being understood that any other type of oxygen sensors of the electrochemical cell type may be used in place of the type disclosed in the above-referenced patent application. Such sensors 10, 11 and 12 are shown included within a breathing gas circuit designated generally by the numeral 13 which may, in general, be either a closed or open circuit breathing system, and as an example, will be described in connection with a closed circuit breathing system for underwater breathing apparatus in which the breathing gas circuit includes a carbon dioxide removal unit, (not shown) with a mouthpiece (not shown) for supplying the conditioned gases moving in breathing gas circuit 13 to a user. In addition, such a breathing gas system may include pressure control diaphragm means (not shown) as well as diluent oxygen control and supply means, likewise not shown. Such apparatus, for the purposes of this invention, are deemed to be conventional. Reference, however, is made to the application of Frederick Parker et al., Ser. No. 6,387, filed Jan. 28, 1970 and assigned to the assignee of the present invention for a detailed disclosure of such an underwater breathing system for which the invention is particularly well adapted, such application being incorporated herein in its entirety.
As diagrammatically shown in FIG. 1, the breathing gas circuit 13 has connected thereto a pipe 14 which leads from a normally closed oxygen control valve 16 which, in a manner to be described more fully hereinafter, controls the periodic supply of oxygen, when needed, from oxygen bottle 17 to breathing gas circuit 13 via pipe 14.
THE CONTROL CIRCUIT The output voltages from galvanic oxygen sensors 10, 11 and 12 are amplified by conventional differential amplifiers 10a, 11a, and 12a, respectively, the gain of such amplifiers being fixed at a selected level. Sensors 10, 11 and 12 are each individually calibrated by potentiometer means 100, 11c and respectively, and if it is not possible to calibrate a given sensor, this is an indication that such sensor must be replaced.
The amplified and calibrated signals appearing at the wipers of potentiometers 10c, 11c and 120, respectively, are passed to limiting circuitry 23, 24 and 25, respectively with the details of one such limiting circuitry being shown at 23. The limiting circuitry 23 comprises resistors 26 and 27 and diodes D D D and D As illustrated, the cathode of diode D is connected to a voltage V representing the lowest possible oxygen level voltage. If any of the sensor voltages are lower than the lowest permissible voltage, they are rejected in favor of the lower limit. If any of the voltages are higher than the highest permissible voltage limit, the higher voltage is rejected in favor of the higher limit. In between these two voltage limits, e.g. the high voltage limit as established by V and the low voltage limit as established by V the conditioned sensor voltage output is unchanged. Thus, this limiting circuitry limits the condition sensor outputs between fixed levels. The circuitry in blocks 24 and 25 is identical to the circuitry shown in for limiting circuitry 23 and is not described in detail. The outputs of the limiting circuitry is coupled through resistors 30, 31 and 32, respectively, to an averaging amplifier 33 which averages the voltage output of limiting circuitry 23, 24 and 25 so that the output of amplifier 33 is a voltage which represents the average voltage of oxygen sensors 10, l1 and 12.
The average voltage as appearing at the output of amplifier 33 is sampled periodically. This is done by a free running multivibrator 35 which supplies sampling pulses to sampling circuit which comprises diodes D D and D and resistors 36 and 37 which have applied thereto the relative potentials illustrated in FIG. 1. Functionally the sampler circuit is a gate circuit which is gated on by an output pulse from free running multivibrator 35 and in the absence of a pulse from free running multivibrator 35 the averaged voltage of the P0 sensors appearing at the output of amplifier 33 is blocked. Free running multivibrator may be adjusted to have a rate of one gate pulse output every selected time interval and in the present case, the sampler applies or passes the averaged sensor voltage at the output of amplifier 33 to comparator amplifier every five seconds. It will be appreciated that this time interval may be increased or decreased according to the desired discipline of the oxygen supply system to the breather. In addition, a reference voltage is applied via line 41 to comparator amplifier 40 and constitutes the control point. In the event the average voltage from amplifier 33 is greater than this reference voltage, there is an output voltage from comparator amplifier 40 which is coupled through zener diode 42 and current limiting resistor 43 to driver amplifier 44 which turns on or energizes solenoid 46 which in turn controls solenoid valve 16. The solenoid is designed to remain energized for about one-half a second which admits onehalf a liter slug of oxygen into the breathing mixture in breathing gas circuit 13. The sampling circuitry then turns off a solenoid driver 44, waits another five seconds and then repeats the comparing process. Thus, oxygen is admitted to the breathing gas circuit only if the level of oxygen as measured by sensors 10, 11 and 12 is below a selected level. Moreover, fluctuations in oxygen partial pressure are minimized by use of sample data control e.g., the periodic sampling and introduction of fixed pulses of oxygen when necessary reduces fluctuations by reducing mixing and transportation time relays in the small volume (the pipe 14 being diagrammatic). In addition to providing closer control of oxygen, battery power consumption is greatly reduced.
DIGITIZER AND DISPLAY As shown in FIG. 1, the output from averaging amplifier 33 is applied by lead 50 to selector switch 51 which may be used to select any one of the voltages from the sensor 10, 11, or 12, respectively or the averaged voltage from averaging amplifier 33. Normally, as shown in FIG. 1, the switch 51 is in the position to select the averaged voltage from averaging amplifier 33 which voltage is applied over line 52 as one of the inputs to a plurality of operational or comparator amplifiers 53, 54, 55 and 56. The second input to amplifier 53, 56 is derived from a voltage divider 60. To the top or upper end 60T of voltage divider 60, is applied a calibrated or reference voltage from precision reference voltage source which, as shown, is conventional using a zener diode as a precision reference device. (The reference voltage V is obtained from this source as well as the reference voltage V It will be noted that the precision or calibrated voltage from source 70 that is applied to voltage divider 60 is also applied as one input or one comparison input to comparator 56. Similarly, the voltage from the lower level 60L of the voltage divider 60 is applied through a resistor 61 as a second input to comparator amplifier 53. Similarly, the next highest level 60T-2 on voltage divider 60 is applied as an input to comparator amplifier 55 whereas the intermediate point 65 on the voltage divider is applied on line 41 as an input to comparator amplifier 40 which is used to establish the set point or control point for the admission of oxygen into the breathing gas circuit 13. Finally, the second level from the bottom 60L-2 on voltage divider 60 is applied as a second input to comparator amplifier 54.
If the applied signal voltage from averaging amplifier 33 is lower than the step voltage applied to comparator amplifier 53, the output of comparator amplifier 53 is positive. The output of each of the comparator amplifiers is applied via series resistors 71-78 to AND logic circuits which are comprised of alternate NPN, PNP transistor units, with the alternate PNP or NPN transistor driving output indicator lamps 100, 101, 102, 103, 104, respectively.
If the applied signal voltage from averaging circuit 33, for example, or from any one of sensors 10, 11 and 12 as determined by the position of switch 51, is lower than the step voltage level applied to comparator amplifier 53, the output of this amplifier is positive so that the NPN transistor is turned on or rendered conductive and the PNP transistor 81 is turned off. Thus, the low light is is turned on or illuminated. The AND circuits formed by transistors 81, 82, 83, 84, 85, 86 and 87, in the examples shown, keep the remaining lights 101-104 ofi'.
When the signal level just exceeds this low step value, the output of comparator amplifier 53 becomes negative which turns off transistor 80 and turns on transistor 81. Since the output of comparator amplifier 54 is also negative, the transistors 81 and 82 (both of which are PNP) are on so that lamp 101 (intermediate low) is on and the remaining lights 100, 102-104 are off. When the signal level reaches the step value applied to comparator 54 (the voltage at point 60-L-2), the output thereof becomes positive and transistor 81 and transistor 82 turn off and transistor 83 then turns on because of the positive potential on its base, to energize or illuminate the lamp 102 (the desired level) turns on tand transistor 82 turns off thus extinguishing the lamp 101. In between this value of set voltage and the next highest level is the control point voltage as applied to comparator 40. Thus, the control point is exactly in the middle of the desired level band.
The meter-light electronics continues to sequence the lights as the signal voltage increases with the same control as exercised by the AND logic circuitry as de scribed above. Electrical energy to operate the circuitry may derive from battery packs, not shown, which may constitute both positive and negative powers supplies.
ALARM CIRCUITS The sixth lamp 107 illustrated in FIG. 1 is an alarm lamp. As illustrated, the output voltages from the P0 sensors 10, 11, and 12 are coupled through coupling diode set 112 and coupling diode set 113 (connected in opposite polarity to diode set 112) to limit selection circuitry 114 and 116 which, in turn, select the highest and lowest oxygen sensor readings and applies same to comparators 118 and 119, respectively, and which, in turn, operate driver amplifiers 120 and 121 respectively. These amplifiers 120 and 121 are simply switches which operate or energize alarm lamp 107 and alarm buzzer 160 as illustrated. The circuitry comparator consisting of diodes 113 and limiting low level selecting diode circuitry 116 operate in a similar manner, it being noted that the high level comparison voltage is selected from the upper end 60T of voltage divider 60 whereas the low level is selected from the lower end 60L of the voltage divider 60.
As illustrated, a plurality of additional sensors 130, and are connected to driver amplifiers 131,
means on said lamp carrying member for mounting a plurality of miniature color coded electrical indicator lamps spaced along the length of said chamber and along said side wall viewing window;
connector means for electrically connecting said lamps to an external source of operating current, and for sealing said elongated chamber;
and means for releasably securing said housing on the body of a user.
di i whenever i i necessary to warn h user of 10 2. The invention defined in claim 1 wherein there are a dangerous or impending dangerous situation. At the same time that the alarm light is 107 is illuminated or energized, an audible alarm or buzzer 160 may be energized to provide both simultaneous visual alarm by the illumination of lamp 107 audible alarm by buzzer 160.
DIGITAL WRIST DISPLAY ASSEMBLY The digital wrist display assembly (FIGS. 3-5) includes a main elongated body or housing member 170, one or more wrist straps or fastening assemblies 171, 172 (which may be velcro. snap fasteners, buckles, etc.) secured to the base by plate 173. Body member 170 is preferably made of a transparent plastic material (Lexan, for example) and has a transparent elongated viewing window, 174 which may be separate, but is preferably formed integral with body member 170 so as to avoid the necessity of forming a water tight seal for the window. An elongated chamber 176 is formed in body member 170 and chamber 176 is sized so as to snugly receive miniature lamp carrier member 177.
Lamp carrier member 177 has a plurality of spaced transverse bores 178, each bore 178 ending in a conically or parabollically shaped opening or bore 179, the bores 178 being adapted to receive the base of miniature lamps 100, 101 104, 107, with the filament portion of the lamp bulbs being in the conically enlarged bore portion 179 and opposite the viewing window 174. The individual lamps may be frictionally secured in the bores 178 and wired by means of wires seated in longitudinal grooves 181 to a connector member 182 at the end of flexible conductor cabling 184 which is supplied with operating current by digitizer and alarm circuitry as described above.
Connector 182 is provided with a threaded portion 186 for threadably engaging internal threads 187 on the interior of housing member 170. Sealing washers or 0-rings (not shown) provide a water tight seal for the chamber. After assembling the lamp carrier 177 and connector 182 with body member 170, the chamber is filled with a non-conductive liquid, such as mineral oil, through a filing port 190 which is sealed by a sealing screw 191.
Various modifications may be made to the invention as disclosed herein and still be within the scope of the claims appended hereto.
What is claimed is:
1. An underwater display unit for displaying breathing gas condition in underwater diving apparatus, comprising;
an elongated rigid, fluid-tight housing having an elongated viewing window in a side wall thereof and an elongated chamber in said housing;
a miniature indicator lamp carrying member, said larnp carrying member having a length corresponding to the length of said elongated chamber and received therein;
at least five of said miniature indicator lamps, in said row, the center lamp of which indicates a normal condition with the lamps to each side thereof indicating unsafe condition with the greatest degree of unsafety being indicated by lamps most remote from the lamp indicating said normal condition.
3. The invention defined in claim 1, including a lighttransmissive non-conductive liquid filling the voids in said elongated housing.
4. The invention defined in claim 1, wherein said means for securing said unit on the body of a user comprises a wrist strap means securing said unit in position wherein said viewing window is in a plane parallel to the back of the users wrist.
5. An underwater display unit for displaying breathing gas conditions in underwater diving apparatus, comprising, an elongated housing having an elongated viewing window in a side wall thereof and an elongated chamber in said housing, a miniature indicator length carrying member, said length carrying member having a length corresponding to the length of said elongated chamber and received therein, said lamp carrying member having a plurality of spaced bores in a single row and extending normal to the longitudinal axis thereof and to said elongated side wall viewing window, each said bore having a lamp base securing portion and a conically shaped lamp bulb receiving portion, said conically shaped bulb portion being adjacent said viewing window, a plurality of miniature electrical indicator lamps mounted in said bores, and connector means for electrically connecting said lamps to a source of operating current and for sealing said elongated chamber, and means for releasably securing said housing on the body of a user.
6. The invention defined in claim 1 including at least one further lamp in said row and at an end thereof for providing an alarm indication in addition to and independent of any indication by the other of said lamps.
7. Apparatus for digitally displaying breathing gas condition in a breathing gas system comprising,
an elongated housing having an elongated substantially transparent viewing window portion in a side wall thereof and an elongated chamber in said housing aligned with said viewing window,
an indicator lamp carrying member having a length corresponding to the length of said elongated viewing window and received in said elongated chamber in said housing,
a plurality of electric lamps carried by said lamp carrying member and spaced therealong and in contiguous relation with said elongated viewing window,
connector means for electrically connecting said lamps to their source of operating current and for sealing said chamber, and
means for selectively electrically energizing said lamps in accordance to digital signals applied thereto.
7 8 8. A method of unambiguously displaying vital projecting red light from the spaces at the extreme breathing gas system conditions to a diver underwater, it sid of the center of said display indicatwherein said system includes means for sensing the oxing dangerous conditions, and
ygen levels and supply therein and producing a control signal for each range of conditions, said method of display comprising, said center of said display and said extreme oppoestablishing a viewing line for said range of condi site sides of the center to indicate a degree of uni safe conditions intermediate said dangerous condiprojecting green light from the center of said display tiOH and Said al Condition.
for a normal condition, 10
projecting amber light from the side spaces adjacent

Claims (8)

1. An underwater display unit for displaying breathing gas condition in underwater diving apparatus, comprising; an elongated rigid, fluid-tight housing having an elongated viewing window in a side wall thereof and an elongated chamber in said housing; a miniature indicator lamp carrying member, said lamp carrying member having a length corresponding to the length of said elongated chamber and received therein; means on said lamp carrying member for mounting a plurality of miniature color coded electrical indicator lamps spaced along the length of said chamber and along said side wall viewing window; connector means for electrically connecting said lamps to an external source of operating current, and for sealing said elongated chamber; and means for releasably securing said housing on the body of a user.
2. The invention defined in claim 1 wherein there are at least five of said miniature indicator lamps, in said row, the center lamp of which indicates a normal condition with the lamps to each side thereof indicating unsafe condition with the greatest degree of unsafety being indicated by lamps most remote from the lamp indicating said normal condition.
3. The invention defined in claim 1, including a light-transmissive non-conductive liquid filling the voids in said elongated housing.
4. The invention defined in claim 1, wherein said means for securing said unit on the body of a user comprises a wrist strap means securing said unit in position wherein said viewing window is in a plane parallel to the back of the user''s wrist.
5. An underwater display unit for displaying breathing gas conditions in underwater diving apparatus, comprising, an elongated housing having an elongated viewing window in a side wall thereof and an elongated chamber in said housing, a miniature indicator length carrying member, said length carrying member having a length corresponding to the length of said elongated chamber and received therein, said lamp carrying member having a plurality of spaced bores in a single row and extending normal to the longitudinal axis thereof and to said elongated side wall viewing window, each saId bore having a lamp base securing portion and a conically shaped lamp bulb receiving portion, said conically shaped bulb portion being adjacent said viewing window, a plurality of miniature electrical indicator lamps mounted in said bores, and connector means for electrically connecting said lamps to a source of operating current and for sealing said elongated chamber, and means for releasably securing said housing on the body of a user.
6. The invention defined in claim 1 including at least one further lamp in said row and at an end thereof for providing an alarm indication in addition to and independent of any indication by the other of said lamps.
7. Apparatus for digitally displaying breathing gas condition in a breathing gas system comprising, an elongated housing having an elongated substantially transparent viewing window portion in a side wall thereof and an elongated chamber in said housing aligned with said viewing window, an indicator lamp carrying member having a length corresponding to the length of said elongated viewing window and received in said elongated chamber in said housing, a plurality of electric lamps carried by said lamp carrying member and spaced therealong and in contiguous relation with said elongated viewing window, connector means for electrically connecting said lamps to their source of operating current and for sealing said chamber, and means for selectively electrically energizing said lamps in accordance to digital signals applied thereto.
8. A method of unambiguously displaying vital breathing gas system conditions to a diver underwater, wherein said system includes means for sensing the oxygen levels and supply therein and producing a control signal for each range of conditions, said method of display comprising, establishing a viewing line for said range of conditions, projecting green light from the center of said display for a normal condition, projecting red light from the spaces at the extreme opposite sides of the center of said display indicating dangerous conditions, and projecting amber light from the side spaces adjacent said center of said display and said extreme opposite sides of the center to indicate a degree of unsafe conditions intermediate said dangerous condition and said normal condition.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4499377A (en) * 1982-09-29 1985-02-12 Acme Engineering Products Ltd. Detection and control system based on ambient air quality
US20140345608A1 (en) * 2013-05-24 2014-11-27 Shearwater Research Inc. Heads-up display for displaying a partial pressure of oxygen to a diver
US10921597B2 (en) 2018-08-22 2021-02-16 Shearwater Research Inc. Heads-up display for use in underwater applications

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2378075A (en) * 1943-09-18 1945-06-12 Zigmond E Frecska Safety traffic signal belt
CA558893A (en) * 1958-06-17 Schwartz Sidney Wrist carrying signal light construction
US3203244A (en) * 1961-11-10 1965-08-31 Alinari Carlo Depth meter for diving purposes

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA558893A (en) * 1958-06-17 Schwartz Sidney Wrist carrying signal light construction
US2378075A (en) * 1943-09-18 1945-06-12 Zigmond E Frecska Safety traffic signal belt
US3203244A (en) * 1961-11-10 1965-08-31 Alinari Carlo Depth meter for diving purposes

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4499377A (en) * 1982-09-29 1985-02-12 Acme Engineering Products Ltd. Detection and control system based on ambient air quality
US20140345608A1 (en) * 2013-05-24 2014-11-27 Shearwater Research Inc. Heads-up display for displaying a partial pressure of oxygen to a diver
US9908599B2 (en) * 2013-05-24 2018-03-06 Shearwater Research Inc. Heads-up display for displaying a partial pressure of oxygen to a diver
US10921597B2 (en) 2018-08-22 2021-02-16 Shearwater Research Inc. Heads-up display for use in underwater applications

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