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A diving helmet is a rigid head enclosure with a breathing gas supply used in underwater diving. They are worn mainly by
professional divers A professional is a member of a profession or any person who works in a specified professional activity. The term also describes the standards of education and training that prepare members of the profession with the particular knowledge and skil ...
engaged in
surface-supplied diving Surface-supplied diving is diving using equipment supplied with breathing gas using a diver's umbilical from the surface, either from the shore or from a diving support vessel, sometimes indirectly via a diving bell. This is different from scub ...
, though some models can be used with
scuba equipment Scuba diving is a mode of underwater diving whereby divers use breathing equipment that is completely independent of a surface air supply. The name "scuba", an acronym for " Self-Contained Underwater Breathing Apparatus", was coined by Chri ...
. The upper part of the helmet, known colloquially as the ''hat'' or ''bonnet'', may be sealed directly to the diver using a ''neck dam'', connected to a diving suit by a lower part, known as a ''breastplate'', or ''corselet'', depending on regional language preferences. or simply rest on the diver's shoulders, with an open bottom, for shallow water use. The helmet isolates the diver's head from the water, allows the diver to see clearly underwater, provides the diver with
breathing gas A breathing gas is a mixture of gaseous chemical elements and compounds used for respiration. Air is the most common and only natural breathing gas, but other mixtures of gases, or pure oxygen, are also used in breathing equipment and enclosed ...
, protects the diver's head when doing heavy or dangerous work, and usually provides voice communications with the surface (and possibly other divers). If a helmeted diver becomes
unconscious Unconscious may refer to: Physiology * Unconsciousness, the lack of consciousness or responsiveness to people and other environmental stimuli Psychology * Unconscious mind, the mind operating well outside the attention of the conscious mind a ...
but is still breathing, most helmets will remain in place and continue to deliver breathing gas until the diver can be
rescued "Rescued" is a song by American Rock music, rock band Foo Fighters. Released on April 19, 2023, it is the first single by the band since the death of longtime drummer, Taylor Hawkins, and the first from their eleventh studio album, ''But Here We Ar ...
. In contrast, the scuba regulator typically used by recreational divers must be held in the mouth by bite grips, and it can fall out of an unconscious diver's mouth and result in
drowning Drowning is a type of suffocation induced by the submersion of the mouth and nose in a liquid. Most instances of fatal drowning occur alone or in situations where others present are either unaware of the victim's situation or unable to offer as ...
. Before the invention of the demand regulator, all diving helmets used a free-flow design. Gas was delivered at an approximately constant rate, independent of the diver's breathing, and flowed out through an exhaust valve against a slight over-pressure. Most modern helmets incorporate a demand valve so the helmet only delivers breathing gas when the diver inhales. Free-flow helmets use much larger quantities of gas than demand helmets, which can cause logistical difficulties and is very expensive when special breathing gases (such as
heliox Heliox is a breathing gas mixture of helium (He) and oxygen (O2). It is used as a medical treatment for patients with difficulty breathing because mixture generates less resistance than atmospheric air when passing through the airways of the lung ...
) are used. They also produce a constant noise inside the helmet, which can cause communication difficulties. Free-flow helmets are still preferred for some applications of hazardous materials diving, because their positive-pressure nature can prevent the ingress of hazardous material in case the integrity of the suit or helmet is compromised. They also remain relatively common in shallow-water air diving, where gas consumption is of little concern, and in
nuclear diving Hazmat diving is underwater diving in a known hazardous materials environment. The environment may be contaminated by hazardous materials, the diving medium may be inherently a hazardous material, or the environment in which the diving medium is ...
because they must be disposed of after some period of use due to irradiation; free-flow helmets are significantly less expensive to purchase and maintain than demand types. Most modern helmet designs are sealed to the diver's skin at the neck using a neoprene or latex "neck dam" which is independent of the suit, allowing the diver a choice of suits depending on the dive conditions. When divers must work in contaminated environments such as sewage or dangerous chemicals, the helmet (usually of the free-flow type or using a series exhaust valve system) is directly sealed to a
dry suit A dry suit or drysuit provides the wearer with environmental protection by way of thermal insulation and exclusion of water, and is worn by divers, boaters, water sports enthusiasts, and others who work or play in or near cold or contaminated ...
made of a fabric with a smooth vulcanised rubber outer coating to completely isolate and protect the diver. This equipment is the modern equivalent of the historic "
standard diving dress Standard diving dress, also known as hard-hat or copper hat equipment, deep sea diving suit or heavy gear, is a type of diving suit that was formerly used for all relatively deep underwater work that required more than breath-hold duration, which ...
".


Function and structure

The usual meaning of ''diving helmet'' is a piece of diving equipment that encases the user's head and delivers breathing gas to the diver, but the term "diving helmet", or "cave diving helmet" may also refer to a safety helmet like a
climbing helmet A wide range of equipment is used during rock or any other type of climbing that includes equipment commonly used to protect a climber against the consequences of a fall. Rope, cord and webbing Climbing ropes are typically of kernmantle c ...
or
caving helmet Caving equipment is equipment used by Caving, cavers and Speleology, speleologists to aid and protect them while exploring caves. The term may also be used to refer to equipment used to document caves, such as photographic and surveying equipment ...
that covers the top and back of the head, but is not sealed. These may be worn with a full-face mask or half mask to provide impact protection when diving under an overhead, and may also be used to mount lights and video cameras. An alternative to the diving helmet that allows communication with the surface is the full-face diving mask. These cover most of the diver's face, specifically including eyes, nose and mouth, and are held onto their head by adjustable straps. Like the diving helmet, the full-face mask is part of the breathing apparatus. Basic components and their functions: *Helmet casing or shell – A rigid watertight structure that encloses the diver's head and supports most of the other components. *Lower seal – Most deep-water helmets have a means of excluding water from the helmet regardless of the posture of the diver. Shallow water helmets rely on the diver keeping the helmet approximately upright, and the flow of breathing air keeps the water level lower than the diver's nose and mouth, and excess air escapes at the bottom of the helmet. **Direct to dry suit – The helmet may be sealed directly to the neck opening of the dry suit, making the helmet and suit a single watertight unit. The weight of the helmet may be carried by the head and neck, so it must be nearly neutrally buoyant, or can be supported by a breastplate or corselet, in which case it may be negatively buoyant, or positively buoyant and held down by jocking straps. **Neck dam – The more recent development is for the helmet to clamp to a neck dam, supported by a rigid ring. The neck dam seals against the skin of the divers neck in the same way that the neck seal of a dry suit works, making the helmet a sealed unit independent of the suit, which may be a dry suit, wet suit or hot-water suit, or even just a pair of overalls in warm water. The weight of the helmet is carried by the head and neck, so it must be nearly neutrally buoyant, and is generally slightly heavy in the water so that it rests on the head and does not have a tendency to float off. When the helmet is buoyant, it is held down by a jocking strap. **Breastplate/corselet – An alternative system is for the helmet to seal to a corselet or breastplate, which in turn is sealed to the dry suit. The helmet and suit become a single sealed unit, somewhat more complex than with a direct seal, but easier to put on and take off. The weight of the helmet is carried on the shoulders via the breastplate, so it does not have to be neutrally buoyant, and can be directly weighted or held down by a jocking strap. *Faceplate (or viewport, in older helmets also called a light) – The diver's window to the world. A transparent window in the front of the helmet. If the helmet is light and carried directly on the head and neck, and can move with the head, it is usually relatively small, and the helmet too is compact and relatively light. If the helmet is supported by the shoulders it cannot turn with the head, and must have a larger volume with a larger viewport or more than one viewport to give an adequate field of vision. A four-light helmet was a common design, with a front port which could be opened when out of the water, two side-lights, to the left and right, and an upper light above the front light to give an upward view. *Gas supply – The breathing gas supply is connected to the helmet. This is usually a low pressure surface supply hose attached through a non-return valve to a gas block with a bailout gas supply connected to the bailout valve on the gas block, but other systems have been used. **Inlet valve or demand valve – The primary gas supply may be free-flow or demand controlled. If it is demand controlled there is usually a free-flow bypass, which may also serve as a defogging system, by blowing air over the inner face of the front viewport. ** An internal
oro-nasal mask An orinasal mask, oro-nasal mask or oral-nasal mask is a breathing mask that covers the mouth and the nose only. It may be a complete independent item, as an oxygen mask, or on some anaesthetic apparatuses, or it may be fitted as a component in ...
is used in demand supplied helmets to minimise
dead space ''Dead Space'' is a science fiction/ horror media franchise created by Glen Schofield and Michael Condrey, developed by Visceral Games, and published and owned by Electronic Arts. The franchise's chronology is not presented in a linear format; ...
. The oro-nasal mask seals around the nose and mouth, forming a small volume gas space through which the breathing gas normally flows from demand valve to nose or mouth, and from nose or mouth to the exhaust valves. There are also one-way valves from the main helmet space into the oro-nasal mask, to allow flow into it while breathing from the free-flow supply, or from a pneumo-hose for emergency supply. * Gas exhaust system – Exhaled gas is exhausted from the helmet through non-return valves, either directly to the surrounding water, or via a reclaim regulator system through a hose to the surface. There may be two or more sets of non-return valves in series to reduce the risk of back-flow of contaminated water * Voice communications microphone and headphone speakers connected to the surface via copper conductors in the umbilical cable. * Nose blocker – A device is provided which the diver can use to block the nose for ear equalising maneuvers. * Other accessories may be present, such as a lifting handle, ballast weights, light and video camera brackets, a welding visor, spitcock and internal padding. ** A lifting handle allows the attendant to lift the helmet with one hand, without it swinging or tilting excessively. ** Ballast weights provide neutral or slightly negative buoyancy, and place the centre of gravity where it will not cause off-centre loads on the diver's neck. ** Brackets allow easy mounting of lights and video cameras so that the diver can see in dark conditions, and the supervisor can see what the diver is doing. ** A welding visor is fitted on a hinge to protect the diver from bright light and ultraviolet light produced by welding arcs or cutting flames. It is flipped down over the faceplate for use when needed. ** A spitcock was provided on some standard helmets to allow the diver to suck in a mouthful of water which would then be spat onto the inner surface of a viewport to wash off condensation fogging. The water would then usually be trapped between the outside of the suit and the inside of the breastplate. The spitcock could also be opened as an auxiliary exhaust port when the diver was working in some non-upright positions. ** Internal padding is fitted to lightweight helmets to cushion the diver's head against shock loads, to support the helmet more comfortably and so that it will closely follow the head movement. A chin strap can be used to help with these functions. ** A jocking strap can be used to transfer excess buoyancy forces of the helmet to the diver's weighting system, or part of the weighting system can be directly attached to the helmet.


History


Deane brothers

The first successful diving helmets were produced by the brothers Charles and John Deane in the 1820s. Inspired by a fire accident he witnessed in a stable in England, he designed and patented a "Smoke Helmet" to be used by firemen in smoke-filled areas in 1823. The apparatus comprised a copper helmet with an attached flexible collar and garment. A long leather hose attached to the rear of the helmet was to be used to supply air - the original concept being that it would be pumped using a double bellows. A short pipe allowed breathed air to escape. The garment was made of leather or airtight cloth, secured by straps. The brothers lacked money to build the equipment themselves, so they sold the patent to their employer, Edward Barnard. In 1827, the first smoke helmets were built, by German-born British engineer Augustus Siebe. In 1828 the brothers decided to find another application for their device and converted it into a diving helmet. They marketed the helmet with a loosely attached "diving suit" so that a diver could perform salvage work, but only in a mainly vertical position (otherwise water entered the suit). In 1829 the Deane brothers sailed from
Whitstable Whitstable () is a town on the north coast of Kent adjoining the convergence of the Swale Estuary and the Greater Thames Estuary in southeastern England, north of Canterbury and west of Herne Bay. The 2011 Census reported a population of ...
for trials of their new underwater apparatus, establishing the diving industry in the town. In 1834 Charles used his diving helmet and suit in a successful attempt on the wreck of ''Royal George'' at
Spithead Spithead is an area of the Solent and a roadstead off Gilkicker Point in Hampshire, England. It is protected from all winds except those from the southeast. It receives its name from the Spit, a sandbank stretching south from the Hampshire ...
, during which he recovered 28 of the ship's cannon. In 1836, John Deane recovered from the discovered ''
Mary Rose The ''Mary Rose'' (launched 1511) is a carrack-type warship of the English Tudor navy of King Henry VIII. She served for 33 years in several wars against France, Scotland, and Brittany. After being substantially rebuilt in 1536, she saw her ...
'' shipwreck timbers, guns, longbows, and other items. By 1836 the Deane brothers had produced the world's first diving manual, ''Method of Using Deane's Patent Diving Apparatus'', which explained in detail the workings of the apparatus and pump, and safety precautions.


The Siebe helmet

In the 1830s the Deane brothers asked Siebe to apply his skill to improve their underwater helmet design. Expanding on improvements already made by another engineer, George Edwards, Siebe produced his own design; a helmet fitted to a full length watertight canvas
diving suit A diving suit is a garment or device designed to protect a diver from the underwater environment. A diving suit may also incorporate a breathing gas supply (such as for a standard diving dress or atmospheric diving suit). but in most cases the te ...
. The equipment included an exhaust
valve A valve is a device or natural object that regulates, directs or controls the flow of a fluid (gases, liquids, fluidized solids, or slurries) by opening, closing, or partially obstructing various passageways. Valves are technically fitting ...
in the helmet, which allowed excess air to escape without allowing water to flow in. The closed diving suit, connected to an air pump on the surface, became the first effective
standard diving dress Standard diving dress, also known as hard-hat or copper hat equipment, deep sea diving suit or heavy gear, is a type of diving suit that was formerly used for all relatively deep underwater work that required more than breath-hold duration, which ...
, and the prototype of hard-hat rigs still in use today. Siebe introduced various modifications on his diving dress design to accommodate the requirements of the salvage team on the wreck of , including making the helmet detachable from the corselet; his improved design gave rise to the typical
standard diving dress Standard diving dress, also known as hard-hat or copper hat equipment, deep sea diving suit or heavy gear, is a type of diving suit that was formerly used for all relatively deep underwater work that required more than breath-hold duration, which ...
which revolutionised underwater
civil engineering Civil engineering is a professional engineering discipline that deals with the design, construction, and maintenance of the physical and naturally built environment, including public works such as roads, bridges, canals, dams, airports, sewage ...
, underwater salvage,
commercial diving Commercial diving may be considered an application of professional diving where the diver engages in underwater work for industrial, construction, engineering, maintenance or other commercial purposes which are similar to work done out of the wate ...
and
naval diving Professional diving is underwater diving where the divers are paid for their work. The procedures are often regulated by legislation and codes of practice as it is an inherently hazardous occupation and the diver works as a member of a team. D ...
.


Lightweight helmets

Commercial diver and inventor Joe Savoie is credited with inventing the neck dam in the 1960s, which made possible a new era of lightweight helmets, including the Kirby Morgan Superlite series (an adaption of Morgan's existing "Band Mask" into a full helmet.) Savoie did not patent his invention, which allowed widespread development of the concept by other manufacturers. The neck dam seals the helmet around the diver's neck in the same way that a dry suit neck seal works, using similar materials. This allows the helmet to be carried on the head and not on a corselet, so the helmet can turn with the head and can therefore be a much closer fit, which considerably reduces the volume, and as the helmet must be ballasted for neutral buoyancy, the overall weight is reduced.


Types


Standard diving helmets (Copper hats)

The original standard diving equipment was a copper helmet or "bonnet" (British English) clamped onto a copper breastplate or "corselet", which transferred the weight to the diver's shoulders. This assembly was clamped to a rubber gasket on the dry suit to make a watertight seal. Breathing air and later sometimes helium based gas mixtures were pumped through a hose to a non-return inlet valve on the helmet or breastplate, and released to the surroundings through an exhaust valve. Historically, deep sea diving helmets were described by the number of bolts used to clamp them to the rubber gasket of the diving suit, and where applicable, the number of bolts used to secure the bonnet (helmet) to the corselet (breastplate). This ranged from the no bolt, two, three, and four bolt helmets; corselets with six, eight, or 12 bolts; and Two-Three, Twelve-Four, and Twelve-Six bolt helmets. For example, the US twelve-four helmets used 12 bolts to clamp the breastplate to the suit, and four bolts to seal the helmet to the breastplate. The no-bolt helmet used a spring-loaded clamp to secure the helmet to corselet over the suit gasket, and many helmets were sealed to the breastplate by a 1/8 turn interrupted screw thread. Swedish helmets were distinctive for using a neck ring instead of a corselet, a precursor of more modern diving equipment, but cumbersome and uncomfortable for the diver. A further distinction is the number of viewports, or "lights", usually one, three or four. The front light could be opened for air and communications when the diver was out of the water. This equipment is commonly referred to as Standard diving dress and "heavy gear." Occasionally, divers would lose consciousness while working at 120 feet in standard helmets. The English physiologist
J.S. Haldane John Scott Haldane (; 2 May 1860 – 14/15 March 1936) was a British physician and physiologist famous for intrepid self-experimentation which led to many important discoveries about the human body and the nature of gases. He also experimen ...
found by experiment that this was partly due to a buildup of carbon dioxide in the helmet caused by insufficient ventilation and a large dead space, and established a minimum flow rate of per minute at ambient pressure. A small number of copper Heliox helmets were made by the US Navy for the Second World War. These helmets were Mk Vs modified by the addition of a bulky brass
carbon dioxide scrubber A carbon dioxide scrubber is a piece of equipment that absorbs carbon dioxide (CO2). It is used to treat exhaust gases from industrial plants or from exhaled air in life support systems such as rebreathers or in spacecraft, submersible craft or ...
chamber at the rear, and are easily distinguished from the standard model. The Mk V Helium weighs about complete (bonnet, scrubber canister and corselet) These helmets and similar models manufactured by
Kirby Morgan A diving helmet is a rigid head enclosure with a breathing gas supply used in underwater diving. They are worn mainly by professional divers engaged in surface-supplied diving, though some models can be used with scuba equipment. The upper part ...
, Yokohama Diving Apparatus Company and
DESCO DESCO is an underwater diving equipment maker which was first organized in 1937 in Milwaukee, Wisconsin as Diving Equipment and Salvage Co. It was founded by: * Max Eugene Nohl, a diver who lived in Milwaukee. In the early 1930s he had national ...
used the scrubber as a gas extender, a form of semi-closed rebreather system, where breathing gas was recirculated through the scrubber by entraining the helmet gas in the flow from an injector supplying fresh gas, a system pioneered by Dräger in 1912.


Shallow-water helmets

The shallow water helmet is a very simple concept: a helmet with viewports which is fitted by lowering over the diver's head to rest on the shoulders. It must be slightly negatively buoyant when filled with air so that it does not float off the diver in use. Air is supplied through a low pressure hose and escapes at the bottom of the helmet, which is not sealed to the suit, and can be lifted off by the diver in an emergency. The helmet will flood if the diver leans over or falls over. The shallow water helmet generally has a handle on top to help the tender lift it onto and off the diver when out of the water. The structure is variable, and ranges from relatively heavy metal castings to lighter sheet metal shells with additional ballast. The concept has been used for recreational diving as a breathing system for use by untrained tourists in the direct care of a dive leader in a benign diving environment, marketed as the Sea Trek diving system.


Lightweight demand helmets

The lightweight diving helmet is a type which is fitted more closely to the diver's head, reducing the interior volume, and thereby reducing the displaced volume of the helmet, so less mass is required to make the helmet's buoyancy neutral. The consequence is a reduced overall mass for the equipment carried by the diver, who must not be buoyant in the water. This reduction in volume and mass allows the diver to more safely support the helmet on the head and neck when out of the water, so when it is immersed and neutrally buoyant, it is comfortable to move around with the head, allowing the diver to use neck movement to change the direction of view, which in turn increases the diver's total field of vision while working. Since the lightweight helmet can be supported by the head and neck, it can be sealed to the neck, using a neck dam, independent of the diving suit, making operations equally convenient with dry suits and wetsuits, including hot water suits. Some models can be sealed directly to a dry suit for maximum isolation from the environment. The foam neoprene or latex neck dam of many of the popular Kirby-Morgan helmets is fitted to an oval metal neck ring which hooks onto the bottom of the helmet in front. A folding locking collar at the back of the helmet swings forward and up to push the back of the neck ring up into the base of the helmet, and also prevents the helmet from lifting off the head by partly occluding the neck ring opening at the back. The locking collar is secured in the locked position by two spring loaded pull-pin latches. The helmet seals over the neck ring with a barrel seal O-ring. Other arrangements may be used with similar effect on other models, such as the KMSL 17B, where the seal is made on the outside of the helmet to an O-ring seated in a groove in the fibreglass rim. A lever operated clamp with a yoke is mounted on the neck dam and seals to the helmet rim, or a moulded rubber seal bonded to a dry suit is clamped to the helmet using a similar clamp system.


Open circuit helmets

Notable modern commercial helmets include the
Kirby Morgan A diving helmet is a rigid head enclosure with a breathing gas supply used in underwater diving. They are worn mainly by professional divers engaged in surface-supplied diving, though some models can be used with scuba equipment. The upper part ...
Superlite-17 from 1975 and developments from that model. These helmets are of the demand type, usually built on a fiberglass shell with chrome-plated brass fittings, and are considered the standard in modern commercial diving for most operations. Kirby Morgan dominates the new helmet market, but there have been other notable manufacturers including Savoie, Miller, Gorski, and Swindell. Many of these are still in use; a new helmet represents an investment of several thousand dollars, and most divers purchase their own or rent one from their employer. Oceaneering bought out the Ratcliffe helmet, often known by its nickname "Rat Hat". It can function in either free-flow or demand mode.


Reclaim helmets

Reclaim helmets use a surface supply system to provide breathing gas to the diver in the same way as in the open circuit helmets, but also have a return system to reclaim and recycle the exhaled gas to save the expensive helium diluent, which would be discharged to the surrounding water and lost in an open circuit system. The reclaimed gas is discharged from the helmet through a back-pressure regulator and returned to the surface through a hose in the umbilical which is provided for this purpose, passed through a scrubber to remove carbon dioxide, blended with oxygen to the required mix and repressurised for immediate re-use or stored for later use. In order to allow the exhaust gas to be discharged from the helmet safely, it must pass through an exhaust back-pressure regulator, which works on the same principle to a
built-in breathing system A built-in breathing system is a source of breathing gas installed in a confined space where an alternative to the ambient gas may be required for medical treatment, emergency use, or to minimise a hazard. They are found in diving chambers, hype ...
exhaust valve, activated by the pressure difference between the interior of the helmet and the ambient pressure. The reclaim exhaust valve may be a two-stage valve for lower resistance, and will generally have a manual bypass valve which allows exhaust to the ambient water. The helmet will have an emergency flood valve to prevent possible exhaust regulator failure from causing a helmet squeeze before the diver can bypass it manually.


Free-flow helmets

The
DESCO DESCO is an underwater diving equipment maker which was first organized in 1937 in Milwaukee, Wisconsin as Diving Equipment and Salvage Co. It was founded by: * Max Eugene Nohl, a diver who lived in Milwaukee. In the early 1930s he had national ...
"air hat" is a metal free-flow helmet, designed in 1968 and still in production. Although it has been updated several times, the basic design has remained constant and all upgrades can be retrofitted to older helmets. Its robust and simple design (it can be completely disassembled in the field with only a screwdriver and wrench) makes it popular for shallow-water operations and hazardous materials diving. The helmet is secured to the diving suit by a neck ring, and held in place on the diver against buoyancy by means of a "jocking strap" which runs between the legs. Buoyancy can be fine-tuned by adjusting intake and exhaust valves to control the internal pressure, which will control the volume of gas in the attached dry suit. Concept and operation are very similar to the standard diving helmet. Noise level can be high and can interfere with communications ad affect diver hearing. The US Navy replaced the Mark V helmet in 1980 with the Morse Engineering Mark 12 deep water helmet which has a fibreglass shell with a distinctive large rectangular front faceplate for a better field of vision for work. It also has side and top viewports for peripheral vision. This helmet can also be used for mixed gas either for open circuit or as part of a modular semi-closed circuit system, which uses a back mounted recirculating scrubber unit connected to the lower back of the helmet by flexible breathing hoses. The helmet uses a neck dam or can be connected directly to a dry suit, and uses a jocking harness to keep the helmet in position, but is ballasted to provide neutral buoyancy and a centre of gravity at the centre of buoyancy for stability. Airflow is directed over the faceplate to prevent fogging. Both the Mk V and the Mk 12 were in use in 1981. The noise level in the Mk 12 in open circuit mode can have adverse effects on diver hearing. Sound intensity levels have been measured at 97.3 dB(A) at 30.5 msw depth. The Mk 12 was phased out in 1993. Other manufacturers include Dräger and Ratcliffe/
Oceaneering Oceaneering International, Inc. is a subsea engineering and applied technology company based in Houston, Texas, U.S. that provides engineered services and hardware to customers who operate in marine, space, and other environments. Oceaneering's ...
. Light-weight transparent dome type helmets have also been used. For example, the Sea Trek surface supplied system, developed in 1998 by Sub Sea Systems, is used for recreational diving. Also the Lama, developed by Yves Le Masson in the 1970s, has been used in
television Television, sometimes shortened to TV, is a telecommunication medium for transmitting moving images and sound. The term can refer to a television set, or the medium of television transmission. Television is a mass medium for advertisin ...
to let viewers see the face and hear the voice of the presenter speaking underwater. File:AH3 free flow helmet front viewDSC01101.jpg, Front view of an AH3 free flow diving helmet File:AH3 free flowhelmet side view DSC01102.jpg, Side view of an AH3 free flow diving helmet File:Dräger DM 220.jpg, Dräger DM 220


Safety

Use of a sealed helmet for diving is generally safer than a full-face or half mask, as the airway is relatively well protected, and the diver can survive a loss of consciousness until rescued in most circumstances, provided the breathing gas supply is not interrupted. There are hazards associated with helmet use, but the risks are relatively low. A helmet is also substantial protection against the environment. It protects against impact to the head and neck, external noise, and heat loss from the head. If sealed to a dry suit, and fitted with a suitable exhaust systen, it is also effective against contaminated ambient water. Shallow-water helmets which are open at the bottom do not protect the airway if the diver does not remain upright. One of the more obvious hazards is the potential for flooding, but as long as an adequate breathing gas supply is available, the helmet can be purged of water that gets into it. A helmet sealed by a neck dam can be purged without affecting the diving suit, and water will drain from the exhaust ports if there is no major structural damage to the shell, view-ports or neck dam. The shell and view-ports are tough and not easily penetrated. The neck dam is more vulnerable, but even a major tear can be managed by keeping the head upright to prevent flooding up against the gas inside. There have been cases of a helmet separating from the yoke, due to locking cam or locking pin failure, but safety clips on the cam levers and locking pin redesign make the risk extremely low on more recent designs. Helmet squeeze occurs when the internal pressure of the helmet is lower than the ambient pressure. In the early days of surface supplied diving this could occur if the diver descended so fast the manually powered air supply pump could not keep up with the compression due to hydrostatic pressure increase. This is no longer a problem as gas supply systems have been upgraded. The other cause of catastrophic pressure reduction in the helmet was when the air supply hose ruptured much shallower than the diver, and air would flow out of the damaged hose, reducing helmet internal pressure to the pressure at the depth of the rupture, which could be several atmospheres. Since the standard diving helmet is sealed to a watertight dry suit, all the air from inside the suit would rapidly be lost, after which the external pressure would squeeze as much of the diver as possible into the helmet. Crushing injuries caused by helmet squeeze could be severe and sometimes fatal. An accident of this type is recorded from Pasley's salvage work on
HMS Royal George (1756) HMS ''Royal George'' was a ship of the line of the Royal Navy. A first-rate with 100 guns on three decks, she was the largest warship in the world at the time of her launch on 18 February 1756. Construction at Woolwich Dockyard had taken ten ...
in 1839. Helmet squeeze due to air hose failure is prevented by fitting a non-return valve in the line at the connection to the helmet. Testing of this valve is an essential daily pre-use check. A similar mechanism is possible in the
helium reclaim system Saturation diving is diving for periods long enough to bring all tissues into equilibrium with the partial pressures of the inert components of the breathing gas used. It is a diving mode that reduces the number of decompressions divers working ...
s used for heliox diving, where a failure of the reclaim regulator can cause loss of gas through the return hose. This risk is mitigated by the capacity of the neck dam or an emergency flood valve to allow the helmet to temporarily flood, relieving the pressure difference, until the diver can switch to open circuit and purge the helmet of water.


See also

* * *


References


External links


Modern helmet photo collection





St Maarten Helmet Dive photo collection
{{DEFAULTSORT:Diving Helmet Diving environmental protection equipment Underwater breathing apparatus Helmets es:Escafandra fr:Scaphandre à casque it:Scafandro