Hammerhead CCR Manual v1.01
Contents
1. EAD EAN EANx eCCR END FFM FSW HP LP MAV mCCR MOD MP MSW OC OC DSV OPV OTU PP PSI RMV SC SCR WOB Automatic Diluent addition Valve Bail Out re Breather Bail Out Valve a Dive Surface Valve with an OC integrated second stage aka OC DSV Closed Circuit Dive Surface Valve Demand Valve usually refers to a second stage Equivalent Air Depth Enriched Air Nitrox Electronically controlled CCR Equivalent Narcotic Depth Full Face Mask Feet of Salt Water High Pressure Low Pressure in Europe Frequently referred to as MP Manual Addition Valve Oxygen Diluent Manually or mechanical controlled CCR Maximum Operating Depth Medium Pressure Term used in Europe Equivalent to LP in the USA Meters of Salt Water Open Circuit a Dive Surface Valve with an OC integrated second stage aka BOV Over Pressure Relieve Valve Oxygen Toxicity Unit Partial Pressure Pounds per Square Inch Respiratory Minute Volume Semi Closed Semi Closed Rebreather Work of Breathing Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 1 Pg 4 J uergensen Marine Scuba System Over view The Open Circuit Scuba system is the configuration that is usually associated with scuba diving and the configuration used by the average recreational diver This chapter will introduce the semi closed and closed circuit rebreather designs or more simply SCR and CCR In the past the use of rebreathers were primarily the dom2. two types of electronic CCRs developed constant percentage of Oxygen fO and constant dosage of Oxygen PO Current designs have standardized on constant PO loop The earliest designs required the diver to chose the target PO or FO during setup but current systems allow the diver to vary the gas mixture being breathed during the dive These CCR systems employ an electronically controlled gas mixing system that blends the gas from two Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 1 Pg 7 separate cylinders The first cylinder diluent is usually used to make up the volume of the breathing loop while the second cylinder usually 100 oxygen is used to achieve the desired target PO The original mixed gas CCRs were generally configured with the left side cylinder containing Oxygen and the right side cylinder contains a diluent gas such as Air or a mixture of Helium and Oxygen Heli Ox or Tri Mix Helium Nitrogen Oxygen Most CCR systems today reverse the cylinder placement an go with the adage Rich Right There are also mCCR mechanical rebreathers that are a hybrid design in that they inject a fix flow of gas like many SCR designs but usually do not vent any gas while at a constant depth like a true closed circuit system These systems replace the constant flow of Nitrox with Oxygen When properly configured mCCR Rebreathers behave like an electronically controlled CCR in
3. 01325 bar 1 ata 1013 25 millibars 1 ata 760 mm Hg 1 ata 14 6959 psi 1 ata 33 fsw 33fsw 10 1326 msw 1 bar 14 5037 psi 1 bar 0 98692 ata 1 bar 10 msw 1 kg cm 14 223 psi DISTANCE 1 meter 3 28 feet 1 foot 3048 meter VOLUME 1 000 liters 1 cubic meter 1 cu ft 28 3168 liters 1 cubic inch 0 016387064 liter 1 cubic inch 16 387064 cubic centimeter 1 gallon US liquid 3 7854118 liter Example Conversions fsw 3 2568 msw msw x 3 2568 fsw Copyright J uergensen M arineAll Rights Reserved APPI August 2008
4. 44 3 9 3 1 31 259 1 6 123 0 8 0 6 GEC BC RCRD CO Scrubber Duration At this time scrubber duration testing has not been completed The recommend duration for a diver lightly working is 6 hours CO production can be approximated y tracking oxygen usage Depending on the source of energy proteins carbohydrates fats the ratio of CO to oxygen will be between 7 to 1 0 This is called he respiratory quotient Defined as RQ CO O 2 produced 2 consumed Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 4 Pg 5 Carbohydrates 1 0 0 8 0 Proteins Anaerobic respiration gt gt 1 0 A diver with a normal diet and proper caloric intake will average approximately 91 of CO for every liter of oxygen consumed Juergensen Marine s recommendation is based on the same procedures as the U S Navy At depths beyond recreational limits or near freezing temperatures scrubber duration is significantly shorter The U S Navy testing protocol calls for a CO production rate of 1 35 Ipm at 40F at a series of test depths The fittest divers could not maintain the required level of activity to match the test parameters for more than a few minutes Decompression No Decompression Dive Planning The Hammerhead features a built in dive computer capable of tracking gas loading on a constant PO profile This does not negate the need to pre plan t
5. 90 degrees the mouthpiece to loop is open when the lever is horizontal and the loop is closed with lever in vertical position Located at both ends of the inner tube of the DSV are non return valves The non return valves can be installed on either side permitting left to right or right to left flow but due to the positioning of the sensors the valves should be installed to force left side to right side flow clockwise on the HammerHead rebreather This means that the spider should be visible on the left side as if DSV was in diver s mouth when no hoses are installed and the flapper should be visible on the right side Inhale Side 1 Way Valve Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 3 Part of the pre dive equipment check is checking the direction of gas flow and the proper operation of the non return valves prior to using the rebreather Check for proper operation by alternately covering the inhale and exhale hoses as you inhale and exhale Gas must come from the Left and go out to the Right You must not be able to inhale gas from the exhale side and exhale gas into the inhale side d Routine maintenance needs to be performed on the DSV to insure Exhale Side 1 Way Valve proper functionality Lubrication of the body and center inner tube is necessary to maintain loop integrity and should be performed at least every SIX months Should operation betwe
6. Cylinders that are frequently de pressurized for shipping or exposed to the atmosphere without valves should be examined more frequently In particular if the Oxygen cylinder is contaminated with salt water then it must be Oxygen cleaned without delay otherwise corrosion may occur more rapidly in an Oxygen rich environment The diluent cylinder first stage and components however are NOT Oxygen clean as the diluent used is normally compressed Air If it is intended that this rebreather is to be used with a Tri Mix or Heli Ox diluent and the fill method is by partial pressure blending then it will be mandatory to Oxygen clean both the cylinder and cylinder valve Itis uergensen M arine s very strong recommendation that all components are to be maintained as Oxygen Service equipment to prevent cross contamination of the equipment BC Wing and Harness The HammerHead rebreathers can be ordered with or without a back buoyancy wing system and harness The bolt patterns uses the standard 11 inch spacing as used with most back plates from other manufacturers NOAA examined its EAN cylinders to determine if the increased Oxygen content accelerated the corrosion process The results were negative or inconclusive Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 24 J uergensen Marine CO Scrubber Radial Scrubber ALWAYS use oxygen compatible lubricants on any system where oxygen or an oxygen enriched env
7. Description 0 0 0 0c ee ene Ch 2 Pg 1 MAJOR COMPONENTS of the HammerHead Ch 2 Pg 2 Breathing Hoses and Connectors Ch 2 Pg 2 Mouthpiece Valve Ch 2 Pg 2 T Fitting Ch 2 Pg 14 Hose Ends Ch 2 Pg 15 Counter lungs Ch 2 Pg 15 Oxygen and Diluent Addition Valves Ch 2 Pg 15 Over Pressure Exhaust Valve Ch 2 Pg 16 Automatic Diluent Addition Valve Ch 2 Pg 17 Oxygen Quick Disconnect Ch 2 Pg 18 Cannister Lid Ch 2 Pg 18 Sensor Pod Ch 2 Pg 19 Solenoid Ch 2 Pg 20 Constant Oxygen addition Valve Ch 2 Pg 21 First Stages Ch 2 Pg 21 Gas Cylinders Ch 2 Pg 22 BC Wing and Harness Ch 2 Pg 23 CO Scrubber Ch 2 Pg 24 Important Rules to Live By Ch 2 Pg 28 System Integrity Checks Ch 2 Pg 29 General Pre Dive Checklist Ch 2 Pg 31 Chapter 3 Introduction Ch 3 Pg 1 Set Point Switching Ch 3 Pg 2 HANDSET DISPLAY DETAILS SECC ONDARY a 6 64666 65 64 5 26 6454062640 EGE EGA EREEER GE WEES Ch 3 Pg 4 Classic Mode Ch 3 Pg 4 Depth Timer Mode Ch 3 Pg 5 Depth Timer Stack Mode Ch 3 Pg 5 Display of Deco Information Ch 3 Pg 5 STACK OVERRUN ALARM Ch 3 Pg 6 Handset Operational Overview 0 0c eee ens Ch 3 ee Common Functions Ch 3 Pg 7 Set Point Operation Ch 3 Pg 7 SELECTING DILUENT OC GAS Ch 3 Pg 7 SELECTING CC OC Ch 3 Pg 8 Copyright J uergensen M arineAll Rights Reserved August 2008 J u
8. Failure to confirm action cancels any changes The handset Backlight and LEDs also serve as a CRITICAL ALARM This alarm is disabled on the primary while operating in open circuit mode Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 3 Pg 3 HANDSET DISPLAY DETAILS PRIMARY The Primary handset has several informational screens that vary depending on whether the unit is in surface or dive mode and if decompression stops are required 38 OC 008 000 This is the surface mode screen the top line consists of the surface bee Meshes Es interval selected set point or open circuit indicator maximum depth of previous dive and finally dive time The second line is the current PO reading for each of the three oxygen sensors The display is updated approximately every two seconds 1 0 7 031 1 0 0700 031 The next display is the first of three screens presented while in dive l 11 1 11 1 10 Imode The first line displays current depth selected set point dive time and nE Ge ae Se alternates between maximum depth and measured battery voltage or battery 1 11 1 11 1 10 Jfalarm The second line displays the PO readings of the three sensors If any sensor reading 1s followed by a that sensor has been voted out and is not used in the average PO2 calculation This screen is displayed for approximately 2 seconds 034 The second screen depends on the status of the diver s decompression oblig
9. Over view Before being able to dive the unit it is necessary to understand the conventions used by the handsets calibrate the oxygen sensors and set diver preferences Initially out of the factory some common set points are defined all gas mixes are programmed to AIR and the units are set to imperial The handsets need activation before they will operate This is done by the entry of a PIN which can only be obtained for a specific unit from the manufacturer through a certified instructor The primary handset requires one PIN to enable the handset and another to enable helium based decompression The secondary requires one PIN to activate the handset and has an optional PIN to enable deco functionality Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 2 J uergensen Marine Activation PINS Primary Serial Number User Helium Secondary Serial Number User Deco The primary handset can operate using Imperial or Metric units of depth and temperature but the PO2 on both handsets is ALWAYS displayed in units of ATA not Bar This should be of particular interest because several other CCRs and dive computers use Bar as base unit The use ATA as the base unit conforms to NOAA exposure definitions The European tradition of using NOAA exposure tables but treating the values in units of Bar is slightly more conservative for oxygen exposures Planning the dive with the set point in Bar while set point is actually in ATA wi
10. a thorough and complete working knowledge of the material contained in this manual Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 1 Pg 1 Chapter 1 Common Terms and Diving Systems Objective The purpose of this chapter is to briefly outline the various diving systems in use to discuss the advantages and disadvantages of each and to define common diving terms and acronyms Glossary The following is a list of terms that are frequently used by divers and may be used throughout this manual Automatic Diluent Addition Valve This valve is normally used to automatically maintain loop volume by adding diluent to the breathing loop The addition is accomplished through either a demand valve or plunger arrangement that activated on decreased volume Increasing pressure during descent reduces the loop volume by compression Breathing Bag A flexible container that is used to receive and supply gas during respiration while using a rebreather system Also referred to as a counter lung Closed Circuit Rebreather CCR A type of rebreather where the breathing loop is isolated from the environment During normal operation at a constant depth no gas is vented and only oxygen is added Counter Lung A flexible container that is used to receive and supply gas during respiration while using a rebreather system Also referred to as a Breathing Bag Diluent Additi
11. and the pod body is necessary on the HammerHead because the cell housing side is exposed to the inlet gas while the cell membrane is exposed to the outlet gas Gas tight integrity of these seal should be periodically checked by blocking the gas outlet port on the lid and gently blowing into the port on the sensor cap If gas escapes isolate and correct leak 3 cells plus dummy plug This design is in contrast to most others where the entire cell is exposed to the scrubbed gas A failure of seal integrity at this point may allow bypass of the CO scrubber The port at the base of the removable sensor pod cap has an o ring that provides a gas tight seal between the sensor pod and an installed scrubber This is necessary to insure isolation between inlet and outlet gases Installation of this cap must be verified during each assembly as it is possible to assemble unit without this cap in place WARNING The absence of this cap will allow complete scrubber bypass Sensor Cap Installed The HammerHead is shipped without any oxygen sensors The user needs to purchase R22d compatible oxygen sensors Molex connector with a nominal 10mv in air at sea level and install them into the sensor pod Remove the oxygen cells from the sealed packaging and thoroughly inspect the o rings It is strongly suggested to inscribe the installation date and the associated cell location The numbering of the cells insures that if during trouble shooting
12. gas cut off valve to prevent gas addition If no cut off is fitted make sure the diluent side is not pressurized but in this case the manual add valve if connected on the dil side can t be tested for a leak An audible gurgling noise originating from the exhale side of the DSV indicates that there is a leak somewhere on in the DSV A likely source is where the mouthpiece attaches to the DSV Check for proper tensioning of the tie wrap and for tears in the mouthpiece itself The hose connections are the next best check point Indications Know your PO at all times Learn how to evaluate the information provided by the Oxygen displays Compare the cell readings While breathing the cell readings should change Bearing in mind that these Oxygen cell readings are shown in real time the ability to see all three sensors simultaneously is a great diagnostic aid If one is failing to react as quickly as the others there may be water on the cell s sensor face The modifications made to the sensors prevent large quantities of moisture reaching the face and affecting the internal circuitry Copyright J uergensen M arineAll Rights Reserved August 2008 0 0 0 0 O0 0O 0O O u g HammerHead CCR Owner s Manual Ch 2 Pg 31 General Pre Dive Checklist for permanent record use J uergensen Marine detailed Checklist Verify sufficient adsorbent time remaining and pack new Scrubber if necessary Analyze diluent an
13. the leaky valve plus a filter check valve and qd combo The second connection would be the 1 4 npt port used for an integrated dive computer A 9 16 18 female to 1 4 npt male adapter is required to use this port The right angle leaky valve is secured to this adapter and a filter check valve and qd combo is connected to the leaky valve If using this port stand alone the Solenoid connection must be sealed connecting oxygen to both the solenoid and leaky valve allows the HammerHead to be used in a hybrid mode Before configuring and using the HammerHead with a constant oxygen bleed additional training and modification of the 1 stage is required First Stages Both the Oxygen and diluent cylinders use a first stage pressure regulator Both are marked accordingly and must not become mixed up 1 e do not use the Oxygen Ist stage on the Air cylinder and vice versa The Oxygen Ist stage has been specially prepared using Oxygen compatible O rings and lubricants the diluent 1 stage has not It is only prepared for use with Norm oxic gas 21 Oxygen Oxygen Ist Stage Manifold and Hoses The Inter stage Pressure is normally 10 bar 145 psi with a range of 9 0 to 10 4 bar 130psi 150psi Under special circumstances the inter stage pressure may be increased above 10 5 bar The normal arrangement is an oxygen feed with a M amp J quick disconnect an oxygen clean LP inflator hose for manual gas additions and a sub
14. the socket and securely tightened do not use any tools in order for a water tight connection Alternate between tightening the locking ring and trying to seat the plug further into the socket Continue until no further tightening is possible The connector on the head and the cable end should be periodically cleaned with a suitable contact cleaner Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 14 J uergensen Marine T Fitting The T fittings on the HammerHead are not fixed to the counter lungs instead they are removable This permits easy cleaning and inspection of the counter lungs Inhale C L T Piece Exhale C L T Piece The hoses are secured to the T Piece using threaded connectors Each T Piece has unique threading for the connecting hose and is engraved INH EXH to help prevent the loop from being assembled backwards The inhale side T Piece should be installed on the diver s LEFT side and the exhale T Piece should be installed on diver s RIGHT side The T Piece to counter lung connection does not have a unique thread pay attention to the proper orientation It is recommended that the engraving on the T Pieces face outward for quick visual confirmation The O rings on the T Piece should be lubricated using Christo lube before use Poorly lubricated O rings can make it difficult to remove the fitting from the counter lung Copyright J uergensen M arineAll Rights Reserved August 2008 Ham
15. 100 Oxygen at sea level Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 3 Pg 11 The HammerHead was designed to be used with 100 oxygen for calibration using oxygen percentages less than this will cause errors in calibration and depending on how long the loop is left to sit the measured PO2 and mV readings will drop since Oxygen is being consumed and there is another gas present The primary and secondary each require calibration The two handsets are independent The calibrate option is disabled while in dive mode to prevent a possible accident by the wet switches sensing water or depth sensor detecting a depth The HammerHead holds a very stable calibration it is not necessary to constantly recalibrate the handsets The sensors should be verified to be within a few percent of expected values by performing a quick loop flush with oxygen and or exposing the sensors to AIR prior to each dive Although not endorsed by the manufacturer alternate procedures for calibration can be found in an article published on WWW REBREATHERWORLD COM entitled Accurate PO2 Calibration This article discusses hardware procedures and warnings necessary to calibrate various types of RB electronics using alternate oxygen concentrations and at altitude when not specifically supported by the electronics Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 12 J uergensen Marine PASSWOR
16. 63 0 50 0 39 7 31 5 25 0 19 8 15 7 12 5 9 9 95 59 8 47 5 37 7 29 9 23 8 18 9 15 0 11 9 94 75 90 Pere a e e a 4 4 3 3 3 2 2 2 EEEECECECECECECECE 85 53 5 42 5 33 7 26 8 21 3 169 13 4 106 84 6 7 80 50 4 40 0 31 7 25 2 20 0 15 9 12 6 10 0 7 9 63 75 47 2 37 5 29 8 23 6 18 8 14 9 11 8 94 l 70 44 1 35 0 27 8 22 0 17 5 13 9 11 0 8 65 40 9 32 5 25 8 20 5 16 3 12 9 10 2 60 37 8 30 0 23 8 18 9 15 0 11 9 9 55 34 6 27 5 21 8 17 3 13 8 10 9 50 ee eo ee ee BECER B 59 E Fes 51 7 4 4 E 5 9 9 45 283 225 17 9 142 113 89 40 252 200 15 9 126 100 7 9 35 22 0 17 5 13 9 11 0 8 8 6 9 30 18 9 15 0 Wiles 9 73 6 0 25 157 125 99 79 63 50 20 126 100 79 63 50 40 15 9 4 7 9 6 0 4 3 8 3 0 10 6 3 5 0 4 0 3 2 5 2 0 5 3 1 2 5 2 0 1 3 1 0 5 0 5 9 5 6 5 3 5 0 4 7 4 4 4 1 3 8 3 4 3 1 2 8 25 5 2 2 1 9 5 1 6 1 3 0 9 0 6 3 9 9 0 0 5 0 0 0 5 0 7 5 7 1 6 6 3 5 9 59 5 1 v 3 9 5 r 8 4 0 1 6 1 2 0 8 0 4 6 6 6 5 5 4 4 3 3 2 2 r r 0 ar EEF Poor 35 Es 2 2 0 EEE E Pa 4 9 3 i r 1 6 NMC oa BONG 8 8 8 1 9 4 T9 8 7 6 9 7 9 6 3 71 56 6 3 5 0 55
17. 9 FAX 1 814 395 9950 Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 2 J uergensen Marine MAJOR COMPONENTS of the Hammer Head Breathing Hoses and Connectors The breathing hoses connectors and DSV can be broken down individually for easy cleaning and maintenance The two hoses and the connected DSV should normally be handled as a single assembly The components should not be separated unnecessarily The hoses used on the HammerHead are heavy duty and are stiffer than those used on many other rebreathers This means the DSV must be orientated correctly to avoid jaw fatigue and negative pressure tests must be performed without relying on the ability to crush the hoses Mouthpiece Valve Anytime the DSV is not in the diver s mouth it should be in the closed position ALWAYS close the DSV prior to removing Failure to es close the loop while in the water either underneath or at the surface will allow water entry and loss of buoyancy The HammerHead rebreather is fairly tolerant to moderate quantities of water entering the loop Loop Open Loop Closed Open Circuit A common source for small quantities of water entering the loop is from loose lips Closer attention may be necessary for new rebreather divers When re inserting into the mouth exhale to remove the water through the OC exhaust and rotate the lever to loop position Opening and closing the valve is accomplished by rotating the lever
18. D MANAGER Passwrd Manager NEXT SELECT Enter UsrEN PW 1234 NEXT SELECT NEXT SELECI Enter HeEN PW 1234 NEXT SELECT NEXT SELECT This option allows the user to enable disable Helium gas usage and to erase all PINs to disable the unit entirely PINs are supplied to certified users through a student s instructor Ere WEL a Ewa Upon the sale of the rebreather electronics to another party the NEXT SELECT handsets should be disabled by clearing all the PINs The PINs can be reissued through the proper channels once the liability waivers releases and training has been completed PRIMARY Handset Options and Programming SOLENOID FIRING Solenoid Firing The solenoid firing function chooses the set point control NEXT SELECT algorithm The modes are scrolled through by use of the LEFT button and E eine selected by the RIGHT button The HammerHead supports two automatic J uergensen control methods Standard Mode and Juergensen Mode plus the non i automatic Manual Mode Standard mode uses the error setting from N FITing Standard Error while Juergensen Mode is an adaptive algorithm that changes firing duration and rate based on error from selected set point en 7 a ing Manual Mode requires the diver to maintain the loop PO2 automatic anua PO2 control is disabled This function would be used to override the master when it is suspected that the controller is basing the PO2 control on ba
19. HammerHead CCR Owner s Manual Version 1 Rev 1 a product of Juergensen Marine I J uergensen Marine HammerHead CCR Owner s Manual Any questions corrections or suggested additions to this manual should be directed to joeradomski yahoo com Juergensen Marine HammerHead Rebreather 2008 J uergensen Marine All Rights Reserved USA Copyright Registration Copyright protection claimed includes all forms and matters of copyrightable material and information now allowed by statutory or judicial law or hereinafter granted including without limitation all charts photos illustrations displays graphics etc This text may only reproduced in whole by those so authorized No text or images may be extracted from this manual and included in any other text or training manual Certain Graphics and text have been reproduced with permission These remain the property of the original owners Juergensen Marine Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual MI Table of Contents INCPOGUCHION sss pecarecapreiine rkr aE EREE AEE E E a a a VI Chapter 1 Common Terms and Diving Systems aaaeeeaa Ch 1 Pg 1 Objective Ch 1 Pg 1 Glossary Ch 1 Pg 1 Common Acronyms Ch 1 Pg 3 Scuba System Overview Ch 1 Pg 4 Open Circuit Systems Ch 1 Pg 4 Semi closed Circuit Rebreathers Ch 1 Pg 5 Closed Circuit Systems Ch 1 Pg 6 Chapter 2 Component
20. OV using the four hex screws M3 14 Inspect the 2 stage diaphragm Carefully inspect the diaphragm body for punctures and inspect the 2 stage cover for damage Verify the proper operation of the one way exhaust valve in the center of the diaphram body Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 11 Seat 2 Stage diaphram Exhaust valve Carefully seat the diaphram assembly Insure that the o ring on the circumference or the diaphram is properly seated Check the positioning of the assembly insuring that the purge button on the 2 stage cover is centered on the diaphram Screw in the 2 stage cover Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 12 J uergensen Marine Insert the one way valves Make sure that the o rings on the circumference of the one way valve body are lightly lubricated and seated properly Always verify that the one way valves are in the correct positions The gas circulation on the HammerHead is LEFT to RIGHT Failure to do so _ can result in serious injury or death Hi The gas travels into the flapper valve where the spokes are visible and out of the valve where flapper hides the spokes Make sure that each valve has the correct orientation Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 13 DIVA The DIVA ships fr
21. acement or valve replacement is necessary There are two o ring internal to the tilt valve The primary valve sealing surface is a 3mm x 1 8mm Shore 90 o ring and a size 7mm x 1 5mm o ring to seal the valve body to valve cap re ON iinnat k il rinl I Should operation of the plunger become problematic inspection and possible replacement of the internal spring is necessary The adv plunger body 1s held in place by a securing pin located in the bottom most closest to plunger o ring groove The pin can be removed by pushing it through the body using a dental pic Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 18 J uergensen Marine Oxygen Quick Disconnect The Oxygen delivery system to the solenoid consists of three parts A quick disconnect plug nipple a quick disconnect socket and aright angle fitting The HammerHead has a filter installed between this fitting and the Oxygen connector on the lid The nipple does not have a built in gas cut off or any other mechanism to prevent water entry The socket will only deliver gas when connected to the nipple The outer ring on the socket rotates and acts as the positive lock mechanism The fittings should be rinsed with fresh water after each use and should NEVER be disconnected underwater as water will enter the solenoid The Oxygen Quick Disconnect QD system is a possible source of corrosion to the solenoid It is important that both fittings are chec
22. ain of the military with some limited use by the scientific and commercial diving communities The recreational and scientific diving communities have traditionally used open circuit scuba systems due to its simplicity low operating cost low initial investment and ease of training The commercial diving community has primarily used a surface supplied configuration that allows for two way communication and unlimited gas supply through an umbilical connection to the surface The use of rebreathers by commercial diving operations has been increasing due to rising costs associated with continuous gas production Over the last decade the use of rebreathers by the recreational diving community has increased significantly due to the advent of user friendly systems increased reliability increased availability of support materials broader choice of rebreathers and reduced cost Continuing growth is expected in the coming years as additional manufacturers enter the market and the technology is exposed to a greater diversity of divers Over the last several years many outspoken opponents to rebreathers have become advocates as they realize that rebreathers are ideal tools and increase safety in many situations Rebreathers are often thought of as new and unproven technology even though rebreathers predate traditional scuba by over 50 years Rebreathers have gained the greatest acceptance in the deep diving exploration communities and those involved with underw
23. aneous functions until OPT is displayed Enter this menu by pressing the RIGHT button Press the left button until Conservatism is displayed press the RIGHT button to select The current conservatism will be displayed GF Now 10 100 NEXT SELECT The user can now scroll through the 6 programmed settings with the LEFT button Each choice will display the associated GF Low and GF High settings GF 1 10 100 GF 2 20 95 GE hs 20a 20105 NEXT SELECT NEXT SELECT NEXT SELECT GF 4 I0 TS GF 5 eT I GF User 95 100 NEXT SELECT NEXT SELECT NEXT SELECT Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 3 Pg 9 Once the desired setting is displayed select it with the RIGHT button then confirm the choice when prompted with the LEFT button All confirmations on the HammerHead are done using the LEFT button This prevents accidental confirmations due to double button presses MILLIVOLT DISPLAY MV Display This option displays the millivolt output for each of the three sensors While in this mode the backlight remains illuminated and does not timeout Pressing either button exits the test This option should be used to record the output of each sensor while in AIR and 100 Oxygen A log with this information can aid in tracking the cells decay over time The mV display is also used to diagnose cell problems Unlike the PO2 display which disables cells that fail calibration the
24. ar symptoms such as difficulty in breathing rigidity and muscle spasms may become evident Symptoms of Hypercapnia may be quickly reversed by flushing the breathing loop with diluent or switching the DSV to the Open Circuit position and breathing directly off the diluent cylinder Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 29 After Every Scrubber Replacement Inspect sensors and sensor harness for corrosion and damage Inspect O rings on sensor Cap for debris and proper lubrication Clean and lubricate if necessary Insure Sensor cap is installed and locked in place Inspect O rings on Lid for debris and proper lubrication Clean and lubricate if necessary Carefully inspect the lid assembly for waterproof integrity and physical damage Install lid into canister scrubber assembly and secure Re install all disconnected hoses System Integrity Checks Leaks It is extremely important to cure any leaks before diving Any loop with an integrity problem should not be used until the problem is identified and corrected Even a small leak is irritating and saps confidence Be aware that a loss of buoyancy or gas from the breathing loop while at constant depth is a sure indicator of something being amiss If there is a constant need to inject diluent to breathe from the bag then it is very likely that there is a leak in the system There is another problem with gas leakage
25. ary deco is enabled and the deco display is enabled the PO information on the second line on the display will replaced with decompression information Depth Timer mode displays the deco information after the depth and time screens and in Depth Timer Stack mode the information is displayed after the depth and time but before the stack time data The first deco screen depends on the status of the diver s decompression obligation The top line is the standard status screen with the change being on the second line Instead of the PO being displayed the oxygen percentage of the selected diluent and No Stop is displayed until the diver enters a required decompression stop This screen is displayed for approximately 2 seconds Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 6 J uergensen Marine lt OK gt 1 0 1 0 If there are any required decompression stops the next screen will one AOAN 12 Ihave the standard status line but the second line now displays the oxygen percentage of the diluent deepest stop depth and stop time followed by the total ascent time The sample screen shows the deepest stop at 20fsw for two minutes and a TTS of 12 minutes This screen is displayed for approximately 2 seconds lt OK gt 1 0 1 0 The final screen may seem like an annoyance but it serves as a Alt 21 reminder to the diver The name of the diluent the diver has selected and the programmed oxygen percentage of the dilu
26. ater video and photography The reduction of bubbles allow a more natural interaction with marine life and a reduced environmental impact The depth independent duration allows longer and deeper dives without compromising safety Open Circuit Systems This is the traditional SCUBA configuration A high pressure gas stored in a cylinder and is reduced in two steps to deliver a breathing gas at ambient pressure The first step reduces the cylinder pressure to a fixed intermediate pressure with respect to ambient pressure and the second step reduces this intermediate pressure to ambient pressure Gas is inspired by means of a demand valve and is expelled into the surrounding environment None of the exhaled gas is reused so the breathing circuit is said to be open hence the term Open Circuit Scuba Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 1 Pg 5 The original open circuit scuba regulator was a two hose style regulator and was based on previous designs of closed circuit Oxygen systems Inhaled gas comes over the right shoulder entering the first of two flexible breathing hoses past a non return or one way valve and into the mouthpiece The exhaled gas travels out the mouthpiece past another non return valve through the other flexible breathing hose and vented to the surrounding water through a final non return valve Eventually this system evolved into a single hose gas supp
27. ation The top line is the same as on the previous screen with the change being on the second line Instead of the PO being displayed the oxygen percentage of the selected diluent and No Stop is displayed until the diver enters a required decompression stop This screen is displayed for approximately 2 seconds jet o gt 79 If there are any required decompression stops the second screen have 20 12 the same first line as the previous two screens but the second line now displays the oxygen percentage of the diluent deepest stop depth and stop time followed by the total ascent time The sample screen shows the deepest stop at 20fsw for two minutes and a TTS of 12 minutes This screen is displayed for approximately 2 seconds 032 0 7 0 00 034 The third screen may seem like an annoyance but it serves as a Air 21 reminder to the diver The name of the diluent the diver has selected and the programmed oxygen percentage of the diluent are displayed on the second line This should help insure that the diver doesn t accidentally use a nitrogen only mix with same oxygen percentage as a mix containing helium This screen is displayed for approximately 2 seconds Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 4 J uergensen Marine HANDSET DISPLAY DETAILS SECONDARY The Secondary handset has three possible display options Classic Classic D Timer Depth Timer and D TandS Depth Timer Stack Ti
28. cell positions are swapped the cell can be returned to its original location Tracking the mV measurements over time is useless unless the values always apply to the same cell Carefully screw each cell into the associated location the positions are marked on the sensor pod A common problem with many rebreathers is corrosion of the sensor wires This usually requires the user to ship the unit back to the factory for repair The HammerHead has taken a modular approach and replacing the wiring only takes minutes Carrying a spare harness in the save a dive kit is highly recommended Wiring Harness Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 20 J uergensen Marine All sensor connections on the HammerHead are color coded simply match up the colors Be aware the certain colors look similar such as orange and red and black and brown The sensor block is numbered with Brown being the color code for sensor 1 Red for sensor 2 and Orange for sensor 3 Using this code as a guide connect the proper molex connector for each cell and slide the black protective cap in place The sensor harness should now be connected to the banana block matching the colors as illustrated above It is very important the black connection on each sensor is correctly installed into the proper jack otherwise the associated oxygen sensor will not work correctly Installed Oxygen Sensors Solenoid The HammerHead uses a low voltag
29. cells can always be measured Senl Sen2 Sen3 CALIBRATION Calibrate 02 Once the calibrate option is selected the next menu 1s presented that ee SELECT lallows the selection of standard calibration P02 set to 1 00 regardless of Eu me pressure or calibration for altitude which is based on measured a ee pressure If altitude calibration is selected the measured pressure ae oe will be displayed and the PO2 will be set to this value converted to ATA ee m next screen for both modes will show Fill Loop w o2 with prompts ee prata et lia Cancel and Ready The calibration techniques used with the 1019 mBar HammerHead electronics are the same as many other CCRs Fill loop w 02 Cancel Ready Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 10 J uergensen Marine Recommended Calibration Sequence 1 2 3 4 5 6 7 8 Connect ALL regulators leave DILUENT Valve off On systems equipped with an ADV and cut off valve make sure the valve is in the off position Turn on Oxygen and Activate handsets Make sure that the solenoid fires for several seconds to flush Oxygen through the solenoid This is easily accomplished by setting the set point to 1 0 then setting it to a 0 4 once the purge is completed Evacuate all the gas from the loop flush with oxygen and repeat at least FOUR times This is accomplished by inhaling off the loop and exhaling through the nose The counte
30. ck Time option is to allow the diver to wo SELECT lbecome familiar with the alarms generated on the secondary display the flash protocol on the DIVA coupled with the vibrating of the DIVA This option sets the stack time to one minute with one minute remaining This allows the diver to periodically familiarize him herself with the alarms without having to play with programming the stack time Once the alarms are confirmed the diver just has to select Reset Stack Time and all the previous limits are restored This option uses the actual stack timer so this alarm can only be generated while in dive mode DECOMPRESS MODE Decompress Mode The Decompress mode function turns the secondary dive computer NEXT SELECT joptions on or off This option is only available when the proper secondary Deco PIN has been entered Decompress Mode Decompress Mode OF F SELECT ON SELECT Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 3 Pg 15 DISPLAY OPTIONS Display Options The Display Options explanation is detailed in the section on display NEXT SELECT ldetails earlier in the manual The Three supported display modes are Classic Classic D Timer Depth plus Bottom Timer D TandS Depth Bottom Timer plus Stack Timer Display Options Display Options Display Options Classic SELECT D Ti mer SELLEGI D TandS SELECT After selecting a display mode and if the Decomp
31. common SCR design is replaced by means of a flow control valve that continually bleeds a constant flow of replacement gas usually nitrox into the loop This valve is set and matched to a specific oxygen concentration maximum depth of the dive and to the oxygen requirements of the user Most systems require this to be determined before the dive however there are designs that allow adjustments on the fly The second type of SCR dumps a fixed percentage of gas on each exhale and refills the loop from a demand valve with fresh oxygen rich gas Since there is venting of used or excess gas while at a constant depth the descriptive name of semi closed circuit is appropriate The amount Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 1 Pg 6 J uergensen Marine and quantity of exhaled gas will depend on the flow rate of the replacement gas source whether its fixed or tied to the diver s respiration rate The main limitation of SCRs is that the system usually has to be setup for a specific target depth using a specific gas and predefined flow rate prior to the dive The current configuration limits the dive to the gas s physiological limits Current designs have become more user friendly but the basic breathing loop remains unchanged from the earliest units Closed Circuit Systems The closed circuit system operates on the same concept as a I semi but does not inject gas at a fixed rate nor does it lose any gas to amb
32. d O cylinder and record Check the DSV for proper operation and verify the direction of the gas flow Mount Diluent and Oxygen Cylinders onto unit Switch on Primary and Secondary Handsets Record cell mV readings on both handsets in Air Install and Secure Lid If calibration was not completed perform Oxygen calibration and record cell mV readings Check over pressure relief valve Carry out positive and negative pressure tests Check battery health by battery voltage display on each handset Turn on gas supplies and check function of valves bailout regulator systems and ADV Check LP inflators for buoyancy system and dry suit if in use are properly attached Record diluent and Oxygen cylinder pressures shut off valves Verify that there is no pressure drop in either cylinder after TWO minutes Verify proper computer function Turn on Oxygen supply and Diluent supply Verify correct calibration of O sensors Pre breathe for 2 minutes to check proper scrubber function Verify operation of ADV by dumping gas from the loop and taking a breathe deep enough to trigger gas addition and observing a PO reading decrease Verify operation of Manual Oxygen Addition valve by depressing the button and observing a PO reading increase Copyright J uergensen M arineAll Rights Reserved August 2008 J uergensen Marine PET l 7 i oa an a a o er ee am 6 o E l 4 Copyright J uergensen M ar
33. d data An example of this would be two cells agreeing while a third cell does not agree and the diver determined that the third cell is the correct one The handset will override the manual setting and fire the solenoid if the loop PO2 drops to a 0 19 Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 3 Pg 13 SECONDARY Handset Options and Programming The secondary handset has many of the same options as the primary handset The notable differences are the lack of functions supporting the deco computer and set point control options The secondary has FOUR additional options Stack Time Opt Decompress Mode Display Options and Set DIVA Mode STACK TIME OPT Stack Time Opt The stack timer is convenience reminder and should not be counted NEXT SELECT jon as a life support feature How useful this option is to the diver is dependent on how faithfully the diver remembers to reset the counter after each scrubber change The stack timer cannot be disabled but the user has the freedom to set their own limits and can reset the timer at any time Selecting Stack Time Opt under the OPT menu allows the user to scroll through several options relating to the stack timer function VIEW STACK TIME Vee a eee The View Stack Time option can be used at any time to view the NEXT SELECT timer limits and how much UNDERWATER time has been put on the scrubber This
34. diver wishes to see PO2 ERROR this will be indicated if the average PO reaches 1 8 or is 0 19 and below the RED LED and the backlight are illuminated lt BAT gt 1 0 1 0 lt 3 0 gt 1 0 1 0 1 00 1 00 1 00 1 00 1 00 1 00 Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 3 Pg 5 Depth Timer Mode This mode cycles between THREE different screens The PO for all cells is displayed on the second line of all screens The first screen is identical to classic mode and is the main status screen The second screen displays current depth Temperature and maximum depth The third screen displays the current depth and the total dive time in the format hours minutes seconds lt WARN gt 0 8 0 7 25 6 68F gt 28 6 24 0 T 22 40 1 1 0 86 0 81 1 00 1 00 1 00 1 00 1 00 1 00 Depth Timer Stack Mode This mode cycles between FOUR different screens The PO for all cells is displayed on the second line of all screens The first three screens are the same as in Depth Timer mode The fourth and final screen displays the remaining stack time The stack time display is simply a countdown timer based on a user programmed limit This timer counts once the diver submerges An alarm will be generated once this time is exceeded and the remaining stack time will now show a negative time Stk Left 129 Min Stk Left 13 Min 1 00 1 00 1 00 1 00 1 00 1 00 Display of Deco Infor mation ig io 7 m 1 0 When the second
35. e Common Functions Set Point Operation One of the main features of the HammerHead is the ability for the diver to select a new set point based on a user programmed set of five choices The HammerHead comes pre programmed with set points of 0 4 0 7 1 0 1 2 and 1 4 Regardless of the current operating set point pressing the left button will cycle through the set point choices in sequence Once the desired set point 1s displayed it is selected by pressing the right button and confirming once prompted with the left button 1 38 0 4 008 000 1 38 0 7 008 000 1 39 1 0 008 000 0 73 0 73 0 73 0 73 0 73 0 73 0 73 0 73 0 73 1 39 1 2 008 000 1 39 1 4 008 000 0 73 0 73 0 73 Oe Ohta WT SELECTING DILUENT OC GAS GAS NEXT SELECT On the primary the first option available is the gas selection prompt Pressing the right button will select this function Each press of the left button scrolls to the next programmed gas mix until all 10 are displayed Air 21 0 NEXT SELECT Eventually returning to first mix Once the desired mix is displayed pressing the right button will select it The diver will then be prompted to confirm or cancel the mix change Pressing the left button confirms the selection while the right button or no action for 10 seconds cancels the switch Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 8 J uergensen Marine SELECTING CC O0C OC The next option allows the diver to put the handset in eithe
36. e Snaptite solenoid that is prepped for Oxygen service The exposed metal components are brass and are resistant to corrosion while the less resistant metals are encapsulated for protection The blue tube directs the injected oxygen into the exhale inlet fitting to aid mixing The solenoid and fittings connecting the solenoid into the Lid must be checked for leaks Most leaks can be detected during the pre dive checks by pressurizing the Oxygen regulator with the set point control in manual mode or with the electronics in sleep mode recording the pressure and then shutting down the valve The pressure should be compared several minutes later to the pre recorded value Any pressure drop indicates a leak The leak must be identified and corrected before diving the rebreather again Oxygen leaks into the loop can cause a dangerous rise in PO and must not be ignored Normally a soapy water solution can be used to isolate leaks but for slow leaks a commercial leak detecting solution may be necessary Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 21 Constant Oxygen addition Valve The Hammerhead can be optionally configured with a constant oxygen wars bleed The fitting can be fitted in two possible locations The first location is as areplacement for a failed Oxygen solenoid The solenoid needs to be disconnected inside the lid and the right angle and QD nipple replaced with
37. e presented in succession with a short pause between sensors There is an extended Pause about 3 flash periods between displaying the sensor 3 and starting again with sensor 1 The duration of the RED and GREEN blinks are the same duration while the duration of the blink for ORANGE is about 50 longer The PO benchmark value is 1 0 and is indicated by a short in ORANGE Each cell is displayed by one blink Three blinks in ORANGE will indicate that each cell is reading 1 0 PO Each individual cell reading will be indicated by blinking once in GREEN for every 0 1 above the benchmark or by blinking RED for each 0 1 below the benchmark There will be a short pause between each cell announcement and a long pause after the last cell When the PO for a cell is lt 0 25 or gt 1 75 the DIVA will display several rapid flashes consisting of GREEN followed by a RED with a pause between the current sensor and the next Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 4 Pg 1 Chapter 4 Dive Planning and Procedures Oxygen Oxygen is the gas that sustains life but the oxygen dosage must fall within a specific range in order to sustain life Too little leads to unconsciousness and eventually death and too much causes respiratory and central nervous system issues The term used to describe the amount of Oxygen present in the breathing mixture is partial pressure dosage or PO The PO va
38. e the loop closed This is a generic term referring to breathing system that re uses exhaled gas A totally independent breathing system of sufficient volume for the working depth Sometimes called a Pony System carried for emergency bailout situations This is the valve that would be operated by the diver using his her right hand based on a set twin cylinders with a manifold This is the traditional valve arrangement This designation is NOT universal with all valve manufacturers consult the appropriate product catalog when ordering valves A chamber filled with a CO absorbent chemical through which the exhaled gas is channeled to remove the expired Carbon Dioxide This can be in the form of either user packed loose granules or a disposable cartridge There are two main types Radial and Axial Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 1 Pg 3 Semi Closed Rebreather SCR Work Of Breathing A type of rebreather where the breathing loop is isolated from the environment During normal operation some percentage of the gas is periodically or continually vented and replaced with fresh gas usually Nitrox The most common SCR is one with a constant preset gas flow but SCRs keyed to the diver s respiratory rate do exist The amount of effort required by the diaphragm to move breathing gases in and out of the lungs Common Acronyms ADV BOB BOV CC DSV DV
39. en the OC and CC positions become difficult immediate service is recommended The replacement of the flapper on each non return valve body should be performed yearly or whenever directional integrity is compromised The following service procedures are courtesy of Golem Gear These procedures assume the standard Golem BOV but can be used as a guide for servicing the Golem Vario BOV The major difference is the BOV body that reverses the ball valve securing plate and the mouthpiece interface Tools needed 2 5mm hex key Needle nose pliers or C Clip tool Brass or plastic hook f Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 4 J uergensen Marine Remove one way valves INHALE SIDE Using a brass hook gently remove the one way valve holder by sequentially pulling on each spoke Pay careful attention to the hook placement to avoid damaging the soft valve EXHALE SIDE Lift the flapper valve to reach the holder spokes and remove using the same procedure as on the inhale side Remove retaining washers Preferred Method Insert needle nose pliers or C Clip tool into the two retaining washer holes Gently squeeze pliers while pulling the washer out of the groove Repeat on other side Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 5 Alternative Method The retaining washer can also be removed by using a hook to pull
40. ent are displayed on the second line This should help insure that the diver doesn t accidentally use a nitrogen only mix with same oxygen percentage as a mix containing helium This screen is displayed for approximately 2 seconds STACK OVERRUN ALARM ALL MODES Once the programmed max stack time is exceeded the secondary will turn on the backlight for 5 seconds indicate STACK OVERRUN on the display flash the DIVA Red Green Red Green and operate the buzzer in the DIVA twice This alarm will recycle every TWO MINUTES until it is cleared by reprogramming the max stack time to a greater value STACK OVERRUN 1 02 1 00 1 01 Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 3 Pg 7 Handset Operational Over view The options available in the primary handset are grouped into two main menus The first grouping contains the functions most likely to be used during a dive while the second grouping under the options menu OPT is used to gain access to additional functions including handset configuration For safety reasons several functions in the second grouping are unavailable while in dive mode The secondary handset has a similar arrangement where the first grouping scrolls through the user Set points and the second grouping under the options menu OPT is the configuration functions For safety reasons several functions in the second grouping are unavailable while in dive mod
41. ergensen Marine CONSERVATISM Ch 3 Pg 8 MILLIVOLT DISPLAY Ch 3 Pg 9 CALIBRATION Ch 3 Pg 9 Recommended Calibration Sequence Ch 3 Pg 10 PASSWORD MANAGER Ch 3 Pg 12 PRIMARY Handset Options and Programming 0 000 ee aes Ch 3 Pg 12 SOLENOID FIRING Ch 3 Pg 12 SECONDARY Handset Options and Programming 4 Ch 3 Pg 13 STACK TIME OPT Ch 3 Pg 13 VIEW STACK TIME Ch 3 Pg 13 SET STACK TIME Ch 3 Pg 13 RESET STACK TIME Ch 3 Pg 14 TEST STACK TIME Ch 3 Pg 14 DECOMPRESS MODE Ch 3 Pg 14 DISPLAY OPTIONS Ch 3 Pg 15 SET DIVA MODE Ch 3 Pg 15 User Set Point Ch 3 Pg 16 PPO2 mode Flash Protocol Ch 3 Pg 16 Chapter 4 Dive Planning and Procedures 0 0 0 0 cece Ch 4 Pg 1 Oxygen Ch 4 Pg 1 Percentage of Oxygen Toxicity Ch 4 Pg 3 Residual Oxygen Toxicity Ch 4 Pg 3 CO Scrubber Duration Ch 4 Pg 4 Decompression No Decompression Dive Planning Ch 4 Pg 5 Important Cautionary Notes Ch 4 Pg 5 APPENDIX Metric Imperial Conversions ccc ecw c ccc c eee e rere reece eens APP 1 Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual V Copyright J uergensen M arineAll Rights Reserved August 2008 vI J uergensen Marine Introduction The Hammerhead CCR is a fully closed mixed gas capable closed circuit rebreather Unlike other products both past and
42. he dive nor does it negate the recommendation that some form of backup planning tracking being employed Alternate planning tracking is essential should the tissue loading in the HammerHead become lost or corrupted Rebreather dive planning can be realized without any special tables or computers by determining the Oxygen percentage in the breathing loop This allows an Equivalent Air Depth to be calculated and used in exactly the same manner as in Nitrox diving The fO is calculated by dividing the set point s PO at the maximum depth total pressure in ata s or bars This value can be used on your favorite tables or standard nitrox dive computer By using the lowest oxygen percentage achieved at the deepest part of the dive a good margin of safety can be realized as there is more Oxygen and less inert gas in the breathing mix at all other depths when diving a constant PO There are constant PO tables various dive planning software and dive computers that allow planning of constant PO profiles Important Cautionary Notes Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 4 Pg 6 DO DO DO DO DO DO DO DO DO DO DO DO DO DO DO NOT DO NOT DO NOT DO NOT DO NOT DO NOT DO NOT DO NOT DO NOT DO NOT DO NOT J uergensen Marine Know your PO at all times Always open Oxygen and Decompression gas valves very slowly as a prevention against Oxygen fires Understand all
43. hese facts Warning DO NOT RELY ON COLOR CHANGE Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 28 J uergensen Marine Important Rules to Live By Avoid leaving the adsorbent open to the atmosphere The material can become contaminated If you intend to use the adsorbent again be certain that the scrubber chemical is dry and the assembly dried Seal up the scrubber using the assembled rebreather NEVER Remove the scrubber chemical from the cannister and attempt to re pack it at a later date Anytime the material has been removed it should be discarded and not reused Once the packing order of the chemical has been disturbed there is no way to predict how the used chemical will end up in are packed scrubber It is possible that paths of used chemical will form allowing premature breakthrough of the scrubber Question How do I know when the CO adsorbent can no longer adsorb CO Answer Record the time used and stay within manufacturer recommendations Warning Hypercapnia an excess of CO at cellular level can become a problem in any form of closed circuit rebreather diving Channeling of breathing gas through the adsorbent due to poor packing during refill or wet adsorbent can lead to reduced efficiency and increased CO levels Always be vigilant and aware of the common signs and symptoms of hypercapnia most notably increased breathing rate confusion and drowsiness If the CO exceeds 0 10 b
44. ht hand DIN valve this is the traditional arrangement with the valve face towards the diver when mounted Cylinders are mounted to the cannister using MetalSub brackets This allows easy mounting and removal of the cylinders The bracket locks unlocks by a spring loaded pin The receiving brackets come installed on the cannister while the cylinder side mounts must be installed by the user The cylinder side bracket is normally secured using stainless steel hose clamps but can also be secured using cam bands It is preferred to install either heat shring tubing or some other protective covering on the hose clamps to prevent damage to the cylinder surface The brackets should be loosely installed on each cylinder then the cylinders mounted and regulators connected The height of the cylinder should be adjusted so that the 1 stages will not be able to hit the surface when the rebreather is standing up and the Ip hose between the 1 stage and the manifold is fully extended The valve knobs should be turned slight in to allow easy manipulation Once the positioning is correct the hose clamps should be tightened to prevent movement Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 23 Warning It is the manufacturer s recommendation that the condition of the Oxygen cylinder and valve be assessed at 6 month intervals Both cylinders should be internally inspected at least on an annual basis
45. ient except during ascents There are many variations of closed circuit design that have evolved over the years There are rebreathers that are being sold as closed systems that continually inject a very small amount of oxygen These systems in reality are J a hybrid system because while the diver is breathing off the loop they normally act the same as what is traditionally called a closed circuit system but when the diver is off the loop they will 7 continually vent gas The first CCR systems used a single gas supply that was usually 100 Oxygen and were generally called Oxygen Rebreathers These are the simplest form of all rebreathers and have a very limited maximum working depth due to the inability to vary the breathing mix The limited depth and dangers associated with the use of oxygen underwater have restricted the use of oxygen rebreathers to military and scientific applications The oxygen rebreather is special in that itis the only rebreather type that can be truly bubble less As the diver ascends the gas in the breathing loop expands and normally requires excess gas to be vented but on an Oxygen rebreather gas addition can be prevented and the loop can be reduced by metabolizing the oxygen prior to ascent Oxygen rebreathers are still used by most militaries and find considerable use in non diving life support systems fire mine rescue space ect With the advent of electronic control and monitoring of the breathing loop
46. ineAll Rights Reserved August 2008 Tame w a HammerHead CCR Owner s Manual Ch 3 Pg 1 Chapter 3 Hammer Head Electronics Introduction This chapter is a basic overview of the electronics used on the HammerHead CCR This chapter is meant as a quick introduction rather than a detailed manual documenting all the features and their uses A separate document HammerHead Electronics User Manual that is meant as a complete documention is available from Juergensen Marine and several sources on the internet The electronics user manual is continually updated as features are added and improved The HammerHead electronic package consists of two handsets called the primary and secondary and the DIVA Heads Up display The primary is responsible for maintaining the selected set point displaying the measured PO2 for the three main oxygen sensors time depth and decompression information The secondary is a backup display for the main Oxygen sensors secondary depth gauge timer DIVA Heads Up display controller and OPTIONAL decompression information The secondary DOES NOT CONTROL the solenoid it is meant to allow the diver to manually maintain the breathing loop in the event of a primary failure The only common point between the primary and secondary is the oxygen sensors Each handset is fully independent and does not communicate with the other in any way All set point changes and calibration must be independently performed System
47. ironment is in use It is not a good practice to mix silicon and oxygen compatible lubricants in the same system even on surfaces not exposed to oxygen This helps to prevent cross contamination A B C D E F G H D Remove breathing hoses and Oxygen supply Quick disconnect hose Rotate securing ring and remove head Allow sensors to dry in ambient air Remove scrubber assembly spacer and absorbent pads from bottom of canister Inspect bottom of main housing and absorbent pads for water and dry if necessary Remove the canister cover by removing the retaining nut and pulling on the two handles located on the top of the lid Empty the used chemical into a suitable container for disposal following manufacturer recommended disposal guidelines Cover the top of the inner tube with an appropriately sized piece of tape or with some other sort of cover Fill canister about one third full While in an upright orientation agitate and tap lightly on a solid but not hard surface until the absorbent material settles and 1s level Fill canister another third and repeat agitating and tapping Top off canister and fill to the top of the outside screen fill line of center tube Tap and agitate adding additional sorb as necessary until the sorb is level and no longer settles below the fill line Replace canister cover and loosely install locking ring Hold the canister horizontally and lightly tap while rotating al
48. is a VERY important concept to remember time spent on the Max Stk Time 180 jloop but not at depth is NOT counted towards stack time Scrubber durations Used 53 Left 127 Jin excess of the limits stack overrun will be displayed as a negative time remaining SET STACK TIME Set Stack Time The Set Stack Time option allows the user to set the scrubber NEXT SELECT duration timer in 60 minute intervals ranging from 60 to 600 minutes Upon entering this function the stack time is set to 60 minutes the diver now must set the timer limit by using the left button to increment by 60 minutes at a time with the right button programming the displayed time WARNING Even if the right button is not pressed once the programming screen times out the scrubber limit will be set to whatever is currently displayed as the new limit Time previously counted as on the stack is also reset This function can be seen as setting the scrubber stack time limit and resetting the counter to the new limit Set Stack Ti me 60 Mi nutes Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 14 J uergensen Marine RESET STACK TIME Reset Stack Time The Reset Stack Time option resets the current stack time to the a SELECT Jlimitas set in the Set Stack Time option Choosing this option with the RIGHT button will prompt the diver to confirm with a LEFT button press TEST STACK TIME Test Stack Time The purpose of the Test Sta
49. ked and cleared of any residual water before connecting This can be accomplished on the QD receiver by direct directing dry gas towards the opening while the QD socket can be cleared by depressing the tip while the oxygen supply is pressurized Cannister Lid The cannister Lid is the heart of the HammerHead It is composed neta of the wiring for the handset displays Primary and Secondary the wiring and bulkhead connector for the DIVA Heads up Display a an 4 blank port for connecting an independent computer or constant J QO 7 flow oxygen addition solenoid and ERGENSEN MARINE ERS four Oxygen sensors The hose connections to the counter lungs are on the top of the Lid The gas inlet port is located next to the solenoid output on diver s right side which maximizes mixing of exhaled gas with injected Oxygen The center of the lid contains the sensor pod and the port at the base of the sensor pod to connect to the scrubber The gas outlet port is on the diver s left side Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 19 Sensor Pod The sensor pod is composed of the permanently mounted pod body and a removable locking cap The body houses the four Oxygen Cells three for the HammerHead electronics and an optional cell for a 3 party computer The oxygen cells must be installed with the supplied O ring A gas tight seal between the cells
50. ll result in a slightly more conservative profile The HammerHead features automatic set point switching and set point maintenance manual set point switching with automatic set point maintenance and fully manual PO control The control mode is chosen by the diver and can be changed at anytime Closed circuit rebreather divers typically use more than a one set point during a dive the Hammehead allows for 5 preprogrammed and editable set points Set Point Switching The HammerHead determines manual or automatic set point switching based on the selected Set point Manual mode is selected on the surface by choosing any set point 1 0 ATA or less If the diver chooses a set point greater than 1 0 ATA the electronics will start the dive with a set point of 0 4 ATA transition to 1 0 ATA at Im 3fsw and finally the chosen set point at 3m 10fsw Automatic set point switching is performed in reverse on ascent if the selected set point is greater than 1 0 ATA and the depth is less than 3m 10fsw Each handset has two buttons which are used for programming and control Pressing either button will activate the backlight for the user chosen time and will wake up a handset that 1s in sleep mode The left button scrolls through menu selections and values while the right button selects the current value The handsets will timeout after a 10 second period of inactivity and return to the normal operation mode Several options will require confirmation
51. lue is obtained by multiplying the O in the mixture by the total pressure The units of pressure quantifying the dosage are ata or bar The percentage of oxygen in a breathing mix is not the critical factor the critical factor is the partial pressure of oxygen that is being inspired It 1s imperative that the concept of partial pressure be well understood in order to safely use rebreathers If you are unsure about any aspects of this concept please review with your instructor before continuing At standard atmospheric pressure it is possible to have partial pressures of Oxygen range between 0 and 1 0 ata because we could vary the of O between 0 and 100 The percentage of oxygen in the atmosphere is approximately 21 and does not vary with altitude but the PO does change with altitude At sea level that means the normal exposure is 0 2lata this is called normoxic exposure Our bodies can still perform work with a PO down to about 0 16ata this occurs at approximately 7500 feet 2300m above sea level below this our bodies enter a hypoxic state Hypoxia is the condition where there is insufficient Oxygen to sustain normal activity If asleep or at rest life could continue Around 0 1 ata there is not enough Oxygen to sustain life death is the eventual result from anoxia Anoxia Is the condition where there is insufficient Oxygen at the cellular level to sustain life The opposite of hypoxia is hyperoxia where there is a greater oxyge
52. ly with a single non return located in the mouthpiece This design change significantly increased regulator performance Today even budget regulator systems outperform the best early regulator designs Open circuit systems have many limitations the most notable are Gas selection must be chosen prior to the dive and with one gas mix per open circuit system additional gases require additional open circuit systems Gas supply is limited with low efficiency and poor weight to duration ratios Breathing gas is inspired at ambient temperature reducing the diver s body temperature and is dry leading towards dehydration However due to low cost simplicity and ease of use the Open Circuit breathing systems 1s the most widespread breathing system in the world Semi closed Circuit Rebreathers The breathing circuit is similar to the previously described two hose open circuit types except exhaled gas is retained in the system by means of acounter lung or breathing bag The exhaled gas contains less Oxygen and increase Carbon Dioxide CO The gas need to pass through a chamber containing a chemical compound to remove the CO before being inspired once again This chamber is commonly called a scrubber and may be made up of packed granules or a manufactured cartridge Since this is a continual process oxygen is being slowly depleted along with a decreasing breathing volume Metabolized Oxygen and lost volume in the most
53. mer Classic Mode This mode displays system status warnings and PO on a single screen All warnings and alarms are based on the deviation from the target set point The secondary must be set to the desired set point in the same manner as the primary a T a i T The top line of the display shows the system status or the battery status voltage lt OK gt lt WARN gt ALERT PO2 ERROR or lt BAT gt This is followed by the calculated average PO2 and the selected set point The second line displays the PO2 measurements for each sensor If any sensor reading is followed by a that sensor has been voted out and is not used in the average PO calculation All sensors that fail calibration less than 40mV in 100 oxygen will be disabled until successfully calibrating the disabled cells will show FAIL and not be used in any calculation lt WARN gt 0 8 0 7 ALERT 1 0 0 7 PO2 ERROR 0 0 decal 0 86 081l lt Ogo 02 99 0 1 0 0 FAIL The voting logic used in both the primary and secondary handsets is identical Any sensor that is 15 out of range from the average of the remaining two sensors will be voted out The three screenshots above show sensor one voted out The second screenshot shows system status of lt WARNS this is indicated if any sensor is voted out or the average PO is at least 15 from selected set point The next screen shot shows an error of at least 25 so ALERT is indicated The last screen shows a Status that no
54. merHead CCR Owner s Manual Ch 2 Pg 15 Hose Ends The securing ring on the hose fittings all have unique threads This arrangement insures that only the correct hose can be connected to a specific T fitting DSV side and port on top of the lid This is to prevent incorrect connection of the breathing hoses and insuring the proper gas flow through the scrubber The hoses are secured to the fittings using stainless steel hose clamps Even with all these measures itis still important to verify proper operation before each dive The O rings should be lubricated using Christo lube before use Counter lungs The standard counter lungs are a chest mounted over the shoulder OTS design This orientation allows the best work of breathing in all possible positions The counter lungs must be properly secured and flush with the diver s body The HammerHead can be ordered with optional rear mounted counter lungs These optional counter lungs allow freeing up of the diver s chest at the cost of an increased Work of Breathing The OTS counter lungs feature two pockets on the rear of each to facilitate easy attachment of trim weights Oxygen and Diluent Addition Valves The manual gas addition valves are similar in design to Dry suit style valves and use standard LP inflator hose connectors These valves allow the manual addition of diluent or Oxygen and permit the use of off board gas supplies Unlike the valves used on many other
55. mersible pressure gauge Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 22 J uergensen Marine Diluent Ist Stage Manifold and Hoses The Inter stage Pressure is normally 10 bar 145 psi with a range of 9 0 to 10 4 bar 130psi 150psi The inter stage pressure of the diluent cylinder may be altered to suit an open circuit 2nd stage if fitted with a maximum pressure of 12 5 bar 165psi The normal configuration from the factory is a LP regulator feed connected to a gas cut off valve for the ADV a LP inflator that can be used for a BCD or for the manual diluent addition valve a submersible pressure gauge and a first stage Over pressure Valve OPV Additional LP whips and a second stage can be fitted Gas Cylinders The Oxygen cylinder is located on the right hand side of the diver and the diluent cylinder on the left Both cylinders should be marked according to their contents following industry standards The Oxygen cylinder and Oxygen components such as the first stage hoses contents gauge and addition valve are Oxygen service rated when shipped from the factory Proper maintenance is required The first task is to mount the valves to the cylinders Inspect the valves and tank neck O rings Lubricate the tank neck O ring and threads with Christolube MCG 129 or equivalent The Oxygen cylinder uses a left hand DIN valve with the valve face towards the diver when mounted The Diluent cylinder uses a rig
56. n exposure than normal Hyperoxia can result in a condition called Oxygen toxicity which results from breathing a hyperoxic gas for an excessive period of time By exceeding the limits of Oxygen the bodies compensating mechanisms have been exhausted This results in several symptoms that may occur in any order and without progressively increasing severity Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 4 Pg 2 J uergensen Marine These exposure limits have been determined over time The greater the dosage the lower the allowable duration Due to the length of the dives typically performed on rebreathers and the typical scrubber duration most rebreather divers limit the working exposure to a max 3ata The following chart lists the limits as established by NOAA 1 6 4 5 0 75 150 120 2 0 180 i 150 25 180 180 3 0 210 210 3 5 240 240 4 0 270 300 5 0 300 360 6 0 360 450 7 5 450 570 9 5 570 720 12 0 720 12 0 a3 p N p QO IN In A A A O n v jn J d Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 4 Pg 3 Percentage of Oxygen Toxicity The Percentage of Oxygen Toxicity concept was developed to permit a simple application of the Oxygen partial pressure limits chart To calculate the percentage of Oxygen toxicity look up the partial pressure of Oxygen on the Oxygen Partial Pressure Limit
57. o assume a conservative approach towards scrubber duration CO effects can come on quickly and have potentially deadly consequences 2 The design of the scrubber not just the weight of Sodalime is a major factor in the duration Performance figures from one product cannot be used for determining the duration of another brand or scrubber design 3 At the time of publication the performance of the various HammerHead scrubbers have not been independently certified All durations are based on manufacture recommendations Do not assume that the reports from other users are more accurate than the manufacturer s 4 Material that has been left exposed to the atmosphere can appear to be satisfactory but in reality may not be fully effective working for a much shorter period Never leave your adsorbant chemical or scrubber cannister assembly exposed to atmosphere unnecessarily 5 Replace the Sodalime if the material is soaked do not attempt to dry it out 6 The efficiency of the material may vary slightly from batch to batch Certain brands of Sodalime have an optional color indicator that changes color usually violet purple as itis used This is useful as a guide to see which portions of the scrubber were most active but should not be used to determine if the scrubber is still usable The material returns to the natural color after a time and is also temperature dependent In cold condition there may be no color change at all Considering t
58. om the factory as an assembled unit The DIVA needs to be mounted to the DSV using the supplied DIVA bracket The DIVA can be positioned so that it can be viewed by either the diver s right or left eye To install line up the screw hole on the DIVA and use the supplied screws to secure to the mount The proper locking ring for the desired side needs to be properly positioned The DSV locking ring for the DIVA has a channel that the DIVA ring will rotate within A hood can be installed to improve the visibility in bright conditions The hood is a cap that fits over the LED end of the DIVA And can be made out of a hose protector or similar material For optimum results it should have an opening on one side only which should face the diver This hood shields the DIVA from ambient light allowing the diver to see the LED even in very bright conditions The hood is only recommended for use in bright conditions because it also prevents the diver s buddy from seeing the LED in the DIVA The visual indicator in the DIVA under low light conditions is easily visible to all the diver s around and may alert a buddy to a trouble even before the diver realizes there may be a problem Once the DIVA is mounted and the hoses are all connected the diva cable should be wrapped around the breathing hose and routed up to the DIVA connector on the head The HammerHead must NEVER be used with the DIVA connector on the head exposed The cable must be fully plugged into
59. on Valve This valve is normally used to manually add diluent to a CCR in order to increase volume due to compression on decent or to flush the loop with a known gas Left Hand Valve This is the valve that would be operated by the diver using his her left hand based on a set twin cylinders with Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 1 Pg 2 J uergensen Marine Over Pressure Valve Oxygen Addition Valve Mouthpiece Rebreather Redundant Breathing System Right Hand Valve Scrubber Canister a manifold The knob is on the opposite side when compared to a normal valve This designation is NOT universal with all valve manufacturers consult the appropriate product catalog when ordering valves This valve is used to automatically vent excess gas from the loop during ascent This helps prevent excess buoyancy changes and potentially dangerous loop over pressure This valve is used to MANUALLY add oxygen ona CCR This is used to manually raise the PO due to a drop caused by metabolism or to raise the PO above the selected set point The mouthpiece on a rebreather always incorporates some type of valve to isolate the breathing loop from the environment The mouthpiece is frequently called a DSV And depending on who you ask it means either dive select valve or dive surface valve A variation of the DSV sometimes called a BOV incorporates an integrated demand valve as an alternate gas source whil
60. on one of the holes and twisting it out of the groove Repeat on other side Remove the ball valve Unscrew the four hex screws M3 16 from the ball valve cover Pull the ball cover and the ball valve out of the BOV body Make sure that BOTH retaining washers from the inhalation and exhalation ports are removed otherwise you will not be able to remove the ball valve and might damage the BOV Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 6 J uergensen Marine Remove the ball valve handle Unscrew the two hex screws M4 20 on the valve handle Separate the ball valve from the valve cover Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 7 Inspect o ring on the valve cover Inspect the o rings on the ball valve Remove 2 stage Unscrew the diaphragm cover Locate four hex screws M3 14 inside the 2 stage case Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 8 J uergensen Marine Unscrew all four screws Remove the 2 stage case After removing the 2nd stage body take care not to damage or lose the o ring between the BOV and 2 Stage f Remove ball valve seats The BOV body uses two removeable convex valve seats One is located on each of the rebreather loop ports Carefully push each seat towards the center of the BOV body through each port using your th
61. ong its axis Complete at least two rotations then stand the canister upright and tap several times Copyright J uergensen M arineAll Rights Reserved August 2008 J K L M N O P Q HammerHead CCR Owner s Manual Ch 2 Pg 25 Gently tighten securing nut Repeat above until securing ring is flush with center tube Shake canister and listen for rattling of Sorb In the event of rattling remove cover add a small amount of chemical and repeat steps I through K Repeat procedure until no rattling is present Replace dry absorbent pads into main housing Insert the spacer and scrubber assembly Inspect sensors and sensor wires Inspect CO canister mating O rings on sensor carriage Inspect lid assembly for waterproof integrity O rings and all fixed components Instal lid into canister scrubber assembly and Secure head Re install all disconnected hoses Mini and Standard Radial Scrubbers Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 26 J uergensen Marine MicroPore Scrubber Future Option ALWAYS use oxygen compatible lubricants on any system where oxygen or an oxygen enriched environment is in use Itis not a good practice to mix silicon and oxygen compatible lubricants in the same system even on surfaces not exposed to oxygen This helps to prevent cross contamination A B C E F G H D J K L M Remove breathing h
62. oses and Oxygen supply Quick disconnect hose Rotate securing ring and remove head Allow sensors to dry in ambient air Remove scrubber assembly spacer and absorbent pads from bottom of canister Inspect bottom of main housing and absorbent pads for water and dry if necessary Fold scrubber seals onto top and bottom adapters and remove adapters from cartridge Dispose of used chemical following manufacturer recommended guidelines Remove new cartridge from SEALED packaging and inspect for any damage Install both cartridge adapters and fold top and bottom seals onto new cartridge Lightly lubricate inside of top ring on scrubber assembly with Cristo lube Replace spacer and pads into canister insuring the proper orientation Bottom side is completely flat while top has 2 notches to accept scrubber assembly Replace dry absorbent pads into main housing Insert the spacer and scrubber assembly Inspect sensors and sensor wires Inspect CO canister mating O rings on sensor carriage Inspect lid assembly for waterproof integrity O rings and all fixed components Instal lid into canister scrubber assembly and Secure head Re install all disconnected hoses Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 27 Important information regarding Scrubber Duration 1 Never expect the Sodalime to last longer because the dives are conducted in warmer water It is always best t
63. present this design represents the collaboration of several manufacturers within the diving and safety industries Each company was able to bring their strengths to this product increasing safety and reliability While many designs have needed to evolve over the years the Hammerhead at its release represented some of the best technology available Juergensen Marine has been supplying the rebreather industry with service and products for nearly a decade The company s products have been used on a wide variety of equipment and have an installed worldwide user base The company is dedicated in continual development of new products and upgrades of existing offerings MicroPore was founded in 1997 and specializes in reactive plastics Using patented technology various powders are molded into a plastic matrix Micropore s products are used for life support in the fire fighting medical dive submarine and military markets Golem Gear although a relatively new company has been supplying cutting edge quality gear to the cave and rebreather communities Golem Gears products are responsible for increasing safety and creating specialty products that fit many needs War ning The HammerHead is a fully closed circuit diving apparatus which functions in a manner distinctly different from traditional open circuit scuba Do not attempt to use the Hammer Head without proper professional instruction from an authorized HammerHead Instructor and without
64. r lungs should be bottomed out before adding Oxygen The hose on the exhale side of the DSV will not be flushed by inhaling only make sure that you blow Oxygen rich gas around the loop once or twice best performed during the second and third flushes before exhaling out the nose On final flush add Oxygen until OPV vents gas Go to the MV display screen and take note of the values exit this screen to prevent the unit from remaining on Let the unit sit for at least FIVE minutes Top with oxygen if there is any loss of volume and go to the MV display screen again If the sensor values have decreased the flush was incomplete so flush again and repeat until readings are stable Once mV readings are stable vent excess gas until the loop is at ambient pressure the BEST way is to force excess gas through the OPV opening the DSV BOV risks contamination Record mV readings any cell under 40mV will be rejected the minimum mV will be adjusted for altitude when in altitude calibrate mode enter the Calibrate O2 screen select the calibration method and select ready Any sensor that fails to meet minimum mV values will be rejected and the user alerted to the specific cell number Immediately go to the Calibrate O2 screen on the secondary select the calibration method Altitude or Standard and select ready The typical mV reading for good sensor is between 8 4mV and 13mV in AIR at sea level and between 40mV and 62mV in
65. r open NEXT SELECT circuit or close circuit mode In open circuit mode solenoid control is disabled unless the PO2 falls to 0 19Ata This function allows the diver to bail onto open circuit and still have decompression obligations calculated Switching to open circuit mode also prevents the display from flashing A e eeu while the system is being worked on or disconnected from the rest of the rebreather The left button toggles between modes while the right button selects the displayed mode The system has a short cut out of open circuit and into closed circuit If the diver chooses a set point while the handset is operating in open circuit the handset immediately switches to closed circuit mode with the selected set point OC Open Circuit CONSERVATISM The next option is setting the level of conservatism for the decompression model Upon selecting the Conservatism function the current Gradient Factors are displayed The HammerHead is a true gradient factors implementation with separate limits determining where the stops begin and when to proceed to the next level There are five preprogrammed gradient factor sets and one user programmable setting The selected gradient factor can be changed during the dive allowing full control over the dive profile The user programmable selection can even be reprogrammed while in dive mode Changing the conservatism requires entering the OPT menu by scrolling past the set point changes and other miscell
66. rebreathers the addition valves are specifically designed for use in a rebreather Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 16 J uergensen Marine These valves are removable to aid in the cleaning of the counter lungs efficient pre dive leak checks and service The male QD nipple should be removed using a 8 spanner bit rather than pliers or the like as they can damage the sealing surface The sealing nipple o ring is size 6mm x 2mm The face button and stem can be removed by securing the stem from the underside and using a pin spanner to loosen the button The stem o ring is a size 3mm x 2mm The main body o ring is a size 22mm x 2 5mm The threaded locking ring is secured in plcae by a plastic c clip Important note Itis essential not to confuse the Oxygen components with their diluent counterparts The entire Oxygen delivery system should be maintained in an Oxygen clean state It is the manufacturer s opinion that the entire system should be maintained in an oxygen clean state to prevent potential cross contamination Over Pressure Exhaust Valve The HammerHead rebreathers use a dry suit type valve as a loop over pressure relief This valve will normally be operated in the open position turned fully counter clockwise If the diver is frequently head down in orientation it may be required to close the OPV slightly to maintain the proper loop volume During the ascent the gas in the loop
67. ress mode is enabled the handset will prompt whether or not the deco information should be displayed The Left button toggles On OFF and the right button selects the displayed mode Display Deco Display Deco OFF SELECT ON SELECT SET DIVA MODE Set DIVA Mode This option controls the function of the DIVA HUD The two NEXT SELECT selections are User Set Point and PPO2 Mode Once the function is selected the current mode is displayed the LEFT button toggles the function while the RIGHT button selects the desired mode Set DI VA Mode Set DI VA Mode PPO2 Mode User Setpoint Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 3 Pg 16 J uergensen Marine DIVA DISPLAY MODES User Set Point The secondary uses the 3 available colors within the DIVA to signal alarm conditions The flash rate and color is dependent on the error percentage from the user selected set point 1 Set point error is less than 15 the secondary blinks the DIVA GREEN LED every 8 seconds 2 Set point error is 15 to 24 or a sensor voted out the secondary blinks the DIVA ORANGE LED every 5 seconds 3 Set point error is 25 or more the secondary blinks the DIVA RED LED every 2 seconds PPO2 mode Flash Protocol The DIVA uses the 3 available colors RED ORANGE and GREEN The sensor values are rounded to the nearest integer for example 0 75 becomes 0 80 while a 0 74 is rounded to a 0 70 The values for all three sensors ar
68. s chart and divide 100 by the maximum number of minutes allowable at that dosage This will give the percentage of the total limit each minute is worth This procedure can be performed for either a fixed fO or a fixed PO Open Circuit divers need to calculate their exposure at multiple depths and add up the individual exposures because the PO varies with depth but CCR divers generally use a single set point for bottom portion of a dive so only total time needs to be considered Lets examine a dive for 20 minutes at 100fsw and 30 minutes at 60fsw using a setpoint of 3ata 20 minutes 30 minutes X 100 180 minutes CNS 50 minutes X 0 56 minute 28 CNS Residual Oxygen Toxicity cns While on the surface your Percentage of Oxygen Toxicity 1s reduced in a similar fashion to the way Nitrogen out gases from the body Essentially after 90 minutes the Oxygen loading is reduced by half and again by another half after the next 90 minutes This is the definition of a half time Residual Toxicity Starting Toxicity X 5 surface interval 90 The above formula is implemented in the chart below simple look up the starting CNS and find the appropriate surface interval for added conservatism use the closest SHORTER interval if exact interval is not on the chart to determine the divers residual CNS Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 4 Pg 4 J uergensen Marine 79 6 3 100
69. that is often overlooked by inexperienced CCR divers The constant injection of diluent lowers the PO in the loop making your decompression schedule invalid In addition the frequent and wasteful addition of Oxygen required to return the PO to the set point To check for leaks first insure that the OPV exhaust valve is in the highest resistance setting by rotating it fully clockwise and then inflate This can be done by mouth the manual add valve or by pressing down on the ADV The DSV should then be closed while gas is still being added to ensure Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 30 J uergensen Marine the counter lungs are inflated fully Make sure the tank valve is then shut off and purged of all gas Make sure gas is added until the OPV operates The rebreather should then be allowed to sit for 30 minutes and checked to see if the counter lungs have remained firm Test with negative pressure by sucking a vacuum on the apparatus the convoluted hoses will contract and close the mouthpiece while still pulling vacuum Gently allow the DSV to hang supported by the hoses If air leaks into the system the hoses will stretch and the DSV will sag lower It is extremely important to find any small leaks and rectify them before diving Water will ingress into the apparatus through the smallest of leaks This test should be run with the Oxygen and diluent regulators pressurized The ADV needs to be disabled with a
70. that no gas is vented except on ascent The DIVER is the controller for this design and is responsible for maintaining the target PO by manually injecting additional oxygen when needed The HammerHead 1s an electronically controlled CCR that can operate using Air Heliox or Tri Mix as a diluent Helium based diluents are the easiest for divers to breathe especially at depths greater than 130fsw 40 meters Although the HammerHead has been designed to use gases with Helium the programming of these gases needs to be enabled by a entering a special PIN Additional training is required to receive this PIN to allow the use of the HammerHead with Helium based diluents Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 1 Chapter 2 Component Description Hammer Head Specifications 4 gt gt gt gt gt gt gt Duration for the standard radial scrubber is 6 hours using 8 12 mesh Sofnolime in a cold water environment Recommended maximum operating depth is 100m 326 fsw Multiple user selectable set points Integrated Decompression Computer DIVA Heads Up display Dual independent handsets Manual and automatic gas addition of Diluent and Oxygen Multiple scrubber canister counter lung options available Tri Mix Capable Manufactured with pride in the USA by Juergensen Marine Inc 1448 Polk Hill Road Addison Pennsylvania USA 15411 PH 1 814 395 950
71. topics presented in this manual Always dive within manufacturer and certification limits The pre dive checks prior to each dive Use diving quality gasses Always use a fresh scrubber for deep dives Always dive with an independent Bailout System Follow Post Dive Checklist after every dive Annual service should be performed by a Juergensen Marine approved service center Maintain a record or the Pre and Post Dive Checklists Dispose used Sorb responsibly Use the recommended batteries and dispose of them in responsible manner Take a complete spares kit when traveling Spare oxygen cells and batteries should always be carried Allow non certified HammerHead divers to dive the rig Attempt to dive without supervision until certified Ascend too rapidly Descend too rapidly The PO may increase to dangerous levels Mix up the diluent and oxygen fittings Use silicone grease or oil on the system Use only oxygen compatible grease Do not use chemicals to clean the handset lenses especially those containing alcohol Use only water Try to extend the life of the oxygen cells by storing in a sealed bag or inert gas Recharge the batteries Fill the oxygen cylinder with Nitrox Fill the diluent cylinder with pure gasses such as Helium Nitrogen Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual METRIC IMPERIAL CONVERSIONS PRESSURE 1 msw 1 10 bar 1 msw 3 2568 fsw 1 ata 1
72. ual gas addition valves which have a restricted gas flow The ADV can be manually operated by simply pressing down on the valve The location and high gas flow make it the first choice when having to perform a loop flush This valve should never be used without the addition of a trombone style gas shutoff valve Most divers will start the dive with the gas shut off valve in the open position which allows the ADV to function normally during descent Once at depth the ADV may be disabled by sliding the gas shut off valve to the closed position In the event a diluent flush is needed the sliding action of the shut off valve allows it to be opened and the ADV operated in one quick motion The ADV requires very little maintenance other than rinsing with fresh water and lubricating the O rings The main ADV body o rings are a size 26mm x 2 5mm The ADV should be checked periodically for leaks by pressurizing the valve and submerging it in a container of water The normal pre dive checks will catch any significant leaks but very small leaks may not be detected A defective o ring between the gas inlet fitting and the ADV body size 10mm x 2mm is a possible leak location The fitting can be removed with a wrench and the o ring replaced Do Not over tighten the fitting when re installing as this may strip the threads in the ADV body Another possible leak location is the Tilt valve the condition of the valve will determine if a simple o ring repl
73. umb Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 9 Inspect replace all o rings All O rings should be carefully inspected for wear and debris Ix ball valve handle Ix ball valve to mouthpiece Ix ball valve cover 4x ball valve seat two each 1x BOV box to 2 stage body 2x one way valves one each Lightly lubricate with O compatible grease Assemble the BOV in reverse order Insert a valve seat on each side of hose ports Do not pinch the o rings Take extreme care when inserting the ball valve seats into the BOV body Close attention must be paid to insure the proper O ring placement A pinched o ring will render the BOV inoperative Attach ball valve to valve cover and to valve handle with two hex screws M4 20 Insert ball valve into the BOV body Make sure that the o rings in the valve seats are in proper place Insert the retaining washers E pir Screw in the four hex screws M3 16 into the ball valve cover FF Copyright J uergensen M arineAll Rights Reserved August 2008 Ch 2 Pg 10 J uergensen Marine Attach OC Pod to BOV Body Make sure that the o ring around the 2 stage port on the BOV body is properly positioned and lubricated Seat the body of the OC Pod and insure that the captured o ring is properly seated between the OC Pod and the BOV body Secure the 2 stage body to the B
74. will expand increasing buoyancy and increasing the breathing effort slightly Properly sized and adjusted counter lungs will keep buoyancy shifts to a minimum Excess gas can be vented by exhaling around the outside of the mouthpiece through the nose by positioning the body with the right side down and the exhale counter lung slightly elevated or exhaling more deeply into the loop forcing the OPV to operate Exhaling around the outside of the mouthpiece is the preferred method of manually dumping the loop as this dumps gas from the diver s lungs and the counter lungs simultaneously and is easily controlled The positioning of the exhaust valve on the HammerHead permits the removal of water from the exhale counter lung This requires that the diver assume a position head up allowing the water to collect at the bottom of the counter lung and flushing the loop with diluent The diver must be aware of potential buoyancy issues and take the necessary steps to prevent an unwanted ascent This skill will be practiced at the end of confined water training Copyright J uergensen M arineAll Rights Reserved August 2008 HammerHead CCR Owner s Manual Ch 2 Pg 17 Automatic Diluent Addition Valve The automatic diluent addition valve is a simple plunger arrangement The valve is operated when the counter lung is collapsed on an inhalation forcing the plunger to press an upstream valve The flow through the valve is quite high compared to the man
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