DE2502230A1 - DEVICE FOR HEATING THE BREATHING AIR IN A DIVING EQUIPMENT - Google Patents

Description

Device for heating the breathing air free from a diving device

The invention relates to a device for heating the breathing air in a device having a compressed air cylinder Diving device that should be suitable for long diving missions in cold surroundings.

Since diving missions are carried out for longer and longer periods of time and at ever greater depths, the diver must be supplied with warmth · During diving operations, the Hegel some useful work will be done, and a diver will do useful work safely and effectively if he is kept warm and his working conditions are comfortable

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To increase the diver's comfort, many measures are taken today, for example a barrel diving suit is used, which in the general to: · Insulation purposes made of foamed neoprene ■ consists «Furthermore, waterproof, multi-layer dry-diving suits are used has been developed for colder temperatures. Since heat is lost in both wetsuits, it is very important and it is necessary to have a device for deep and longer diving assignments to prevent heat losses replaces · The diving suits known at the moment are only used unable to keep a diver in the right heat condition (25 ° skin temperature) for long periods of time Rather, heat must be supplied from an external source »

It would be an ideal method of maintaining heat for the diver if one were self-contained Heat generator would provide, but the energy and space requirements of such a heat generator lead to a very annoying one Facility, since a free float would be "hindered" by both the weight and the size of the heat generator would need a reliable and accurate temperature monitoring device be provided, which would have to ensure that a diver would not be overheated, let alone there is a risk of burns · In addition, the diving equipment must be of a simple construction so that it can be used can be produced economically and the acquisition and maintenance costs are affordable for the user

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Many heat sources have been tried, including isotopic or electrical ones and chemical heat sources, all of which had the disadvantages of high cost and extremely large weight. In addition, tests with heated wetsuits have shown that although this results in the loss of heat at the Skin can be kept minijjal, but that the temperature im Diver's body is constantly falling. There is agreement that additional warming is not just for the surface of the body of the diver is required, but also for the heat loss through the breathing part.

Since about 1/3 of the total heat loss is accounted for by the heat loss in the "breathing part", it is essential to develop a heating device for the breathing air that can be used in conjunction with the usual diving equipment with a compressed air cylinder. In conjunction with certain better diving equipment available today , especially in conjunction with inflatable dry diving suits, a breathing air ^a would ufheizeinrichtung the entire diving equipment much more comfortable and make more useful.

The invention is based on the object of a suitable device to warm the air you breathe in a diving device. This object is achieved according to the invention by one in the one leading from the compressed air cylinder to the mouthpiece

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Air line intermediate vortex tube (vortex tube) reached, whose cold air pipe is designed as a heat exchanger with the surrounding water and in an adjustable mixing valve opens into which the hot air tube also opens and the outlet of which leads to the mouthpiece air duct

From US-PS 1 952 281 it is known that a compressed air stream can be split into a cold and a warm air stream within a vortex tube »As a compressed air source so the compressed air bottle belonging to the usual diving equipment is used in the invention. The compressed air will reduced by a first stage of the diving regulator to a pressure of approximately 1.05 kp / cm at ambient temperature and then passed through the vortex tube. After the air flow has been divided, the temperature of the cold air flow is clear below ambient temperature, so that the cold air flow rapidly thermal energy is absorbed by the environment when it is exposed to the ambient temperature over a certain length by one Helical tube is passed.

The hot air stream; which passes through a heat exchange fins provided tube within one with an Ifluidum filled container, transfers heat to the fluid.In order to reduce the required initial energy, the pluidum in the container is preheated for a suitable heat transfer · After the cold air stream heats from the

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Has absorbed ambient water, it is fed into the container filled with the fluid, which acts as a heat exchanger acts so that the cold air flow is heated up further · As the container filled with the fluid is designed in the manner of a thermos bottle, its only measurable loss of heat occurs to the cold air flow. This Heat loss is replaced by the flow of warm air passed through the container, which contributes to the thermal Maintain equilibrium for the period of time during which the volume of breathable air is consumed. The cold air flow, which is now fully heated according to the diver's needs, leaves the double-walled container after it has been mixed with the warm air flow · This warmed up gas is taken by the diver immediately through the final stage of the regulator inhaled.

As mentioned earlier, the fluid enclosed in the container is preheated. This makes it necessary Equipment costs are reduced and, for example, a battery-operated immersion heater is saved, or only one with lesser capacity needed · Such equipment can be used in the known manner to achieve a fully enclosed Heat generation system can also be provided, but are not necessary if prior to diving hot fluid is available · The filling of such a Fluidum before each diving process is even advantageous,

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because as a result, the walls of the penetrating the container Keep your ears clean and free of scale and algae "which would impair the heat transfer"

The device according to the invention is sufficient when using hot water at a temperature of 71 ° C Breathing gas with a temperature of 32 ° C to 58 ° C for longer than one hour at an ambient water temperature of 9 ° C · The one from the vortex tube or the vortex chamber exiting cold air flow is reduced from the ambient temperature of 9 ° C to -3 ° C after the separation process and is then heated by the environment to 8 ° C, so that this part acts as a heat pump · Any temperature can be used for the fluid provided, as the vortex tube can be regulated to a breathing gas temperature as long as breathing gas is available stands.

Further features of the invention are set out in the subclaims and the following description of the figures.

In the drawing show:

Fig. 1 shows a diver with a back diving device, which is equipped with a device for warming up the breathing air according to the invention;

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FIG. 2 shows the diving device in a top view, seen from the plane 2-2 in FIG. 1,

3 shows the diving device according to FIG. 2, seen from the rear, 4 shows the diving device, seen from the right in FIG. 3,

. 5 on an enlarged scale and in longitudinal section according to the line 5-5 in Fig. 2, the device for Warming of the air we breathe and

6 in a vertical section along the line 6-6 in FIG. 5, an end view of the device to warm the air we breathe

^ he diver carries a compressed air cylinder 8 on his back, from which compressed air passes via a pressure regulator 10 and a line 16 to a container 12 in which the breathing air is heated and from which it is passed via line 18 to the mouthpiece. The container 12 is above the Bottle 8 arranged in the area of the diver's neck, where on the one hand it does not "hinder the diver, on the other hand but its temperature adjuster 22 is easily accessible to the diver.

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FIGS. 5 ″ and 6 show the container on an enlarged scale 12, the one with a connection piece for the one coming from the tank Compressed air line 16 and is provided with a connection piece for the hose 18 leading to the mouthpiece, so that the Lines, such as hoses, can be attached and the air heating device in conjunction with the usual Diving equipment can be used

The air flowing in via the line 16 is divided into two air streams in the chamber 36 according to the principle of the vortex tube divided up. The warm air pipe 38, which is provided with heat exchange fins 4-0, runs through the interior of the double-walled, thermally insulated container 12 and gives heat to the interior 29 of this container Fluidum from · The cold air flow, the temperature of which is lower than the ambient temperature, passes through a coiled tubing 34 arranged outside the container 12 and takes heat from the surrounding water, which through the protective cage 14 flows.

From this external, a heat exchanger with the water environment forming the coiled tubing, the cold air tube runs through the wall of the container 12. Inside the Container 12 is the cold air pipe also as a coiled tubing formed, which encloses the hot air pipe 38. The interior walls 36 of the container 12 are highly reflective in order to be as possible

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Avoid heat loss through radiation. Furthermore the inner walls 36 are separated from the outer wall of the double-walled container 12 by an insulation 28 to Reduce heat losses through convexion to a minimum.

The cold air stream fully warmed up in the container 12 leaves the interior space 29 of the container 12 after passing through the coiled tubing designed as a heat exchanger 30, together with the original hot air flow via the mixing valve 20, to which the two air streams flow via the outlets 44, 48. The mixing valve can be controlled via the valve rod 46 and adjusted · The heated gas passes through the channel 42 to the line 18, so that the diver can inhale this air according to the setting of the last stage of the air regulator <>

The thermal energy extracted from this breathing air is replaced by the warm air flow, which transfers its heat the exchanger fins 40 gives off. The one on the valve stem arranged O-rings 5Oj 54- ensure a perfect seal the sealing valve to the outside. A stopper 52 arranged in the wall of the container 12 allows the container to fill or to empty again with a hot fluid. The initial warming up of this fluid can be due to different types not explained in detail here take place, z. B. by chemical, electrical, mechanical or on

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Isotope-based facilities that are already known as possible heat generators. In view of the desired simplicity, however, it is preferable if a heated fluid is available for filling the container 12 before each immersion, _{or the like}

The entire container 12, which in the exemplary embodiment shown consists of an outer wall which is provided with a protective jacket 24 is, an insulating layer 28 and an inner, reflective wall 26, can also be made in one piece Foamed plastic can be produced, with the inner surface to achieve the required reflectivity is provided with a metal coating. The foamed plastic guarantees both good thermal and acoustic Insulation as well as sufficient stability.

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Claims (8)

Dipl.-Phys. Rudolf Peerbooms 250 2 Wuppertal-Barmen - 11 - Friedrich-Engels-Allee 349/351 Ruf 556147 ^ ^ 00 / ncpee / B claims 1. J device for heating, the breathing air "at one, one A diving device with a compressed air cylinder, characterized by an in the compressed air cylinder (8) to the mouthpiece leading air line (16, 18) interposed vortex tube, the cold air tube (34-) as Heat exchanger is designed with the surrounding water and opens into an adjustable mixing valve (22), into which the hot air tube (38) also opens and its outlet (42) to the mouthpiece air line (18) leads. 2. Apparatus according to claim 1, characterized in that the hot air pipe (38) and the ambient water heat exchanger (34) following pipe section (32) of the Cold air pipe together a closed, thermally insulated container (12) filled with a heat exchange fluid 3. Device according to claims 1 and 2, characterized in that the hot air pipe (38) is provided on its outer circumference with heat exchange fins (40) and that the pipe section (32) of the cold air pipe located in the container (12) as a one surrounding the hot air pipe coiled tubing (32) is formed · 509843/0246 4. Device according to claims 1 to 3, characterized in that that the vortex chamber (36) of the vortex tube is arranged in an end wall of the container (12), from which he keeps the hot air pipe (38) directed inwards is, while the cold air pipe initially runs outwards, there designed as a helix (34-) and from a water-permeable cage (14-) is enclosed and then through the end wall into the container interior (29) is introduced 5 · Device according to claim 2, characterized in that the container (12) is double-walled and that its Inner walls (26) designed as thermal reflection surfaces are. 6 · Device according to claims 2 and 5 »characterized in that that the container wall is made of foamed plastic, at least in the core area 7. Device according to claim 2, characterized in that the container (12) has a connecting piece for one of the compressed air cylinder and is provided for a hose leading to the mouthpiece " 509843/0246 8. The device according to claim 2, characterized in that the container (12) with fresh water, sea water or Ethylene glycol is filled. 9 · Device according to claim 2, characterized in that the container with a heat generator such as a Immersion heater or a chemical or mechanical or isotope-based heat generator is ο 509843/0246