DE102006014658A1 - Avalanche-buried humans rescuing method, involves equipping humans with respiratory gas source, which supplies cavity around buried humans with respirator gas in case of burying of humans in avalanche - Google Patents

Abstract

The method involves equipping humans with a respiratory gas source, which supplies a cavity around the buried humans with respirator gas in case of burying of the humans in an avalanche. The respirator gas from the respirator gas source is guided into an upper part, head and/or face area of humans, where the buried humans inhale the supplied respirator gas over the cavity. The respirator gas is supplied to the cavity in dependence of release variables depending upon carbon-di-oxide consumption. An independent claim is also included for a rescue device for avalanche-buried humans.

Description

The The present invention relates to both a rescue method a person buried in avalanches as well as a rescue facility for avalanche victims.

each Hundreds of people die in an avalanche year. At the same time takes the trend among skiers and snowboarders away from the groomed Piste to drive steadily. Statistics show that about ¾ of all Avalanche victims die of suffocation. If spilled longer than 15 minutes in an avalanche cavity their survival rate decreases 92% to 35%. The survival hangs then in the first place on how big the avalanche cavity around the buried is formed around. Often the place is in an avalanche narrow that the avalanche victims only move their fingers can.

to Rescue of avalanche victims are known as avalanche pagers, send out the signals for tracking permanently. In an emergency, these are Avalanche beeper switchable from a send to a receive state, so that did not spill Persons e.g. a ski tour can locate a victim. often but passes to the location considerable time due to lack of Experience of avalanche beeper users, shock states etc. In certain circumstances All participants of a ski tour are also spilled.

Of There is also a rescue system according to the buoyancy principle, which involves balloons to be launched by the skier in case of an avalanche that lead to it should be that the avalanche skier through the Buoyancy of the balloon conditionally possible on the surface the avalanche is kept without going deep into the avalanche. Often, however, the person buried by an avalanche is no longer able to the trigger for the To press balloon.

Of There is also a snow filter ventilation system, in which over Filter system that gets vital oxygen out of the snow. The spent breathing air is over a hose on the back the avalanche victim directed. The user has to make it in time, a breathing tube to get in the mouth. In it, however, experts see the problem. For rarely is there still time in an avalanche accident, the mouthpiece between the teeth to pinch.

The The object of the present invention is a method to rescue an avalanche victim Menschens and a corresponding rescue facility to create with the or the chance of survival due to an avalanche Stifling increased considerably can be.

The The above object is achieved by a method for rescuing a person buried in avalanches solved, in which the person is equipped with a breathing gas source, the in case of burial of man in an avalanche surrounding the spilled human around forming cavity supplied with breathing gas. Thus, the user in the event of triggering a Avalanche no handles, such. Inserting a mouthpiece or the like, perform. Rather, he is in the cavity the avalanche over the feeder of breathing gas into the cavity supplied with breathing gas. Because the cavity of the avalanche for a certain time for the buried an available, but represents limited breathing gas volume, it is recognized according to the invention have been "replenished" this limited breathing gas volume The advantage is that no active measures of the user in the case of spilled becoming have to be hit in an avalanche. So it can not be individual uncertainties give.

Conveniently, is the breathing gas starting from the respiratory gas source via suitable Management equipment targeted in the upper body, especially head, preferably passed into the face area of the victim. Thus, will at the smallest cavities Ensures that the respiratory gas quickly reaches the respiratory system of the buried can get.

Conveniently, the spilled breathes that supplied Breathing gas alone over the cavity, i.e. without another breathing gas supply.

As already mentioned at the beginning, If necessary, the respiratory gas is the spill without the action of the same fed.

According to a particular embodiment of the method according to the invention, the respiratory gas of the cavity in response to at least one trigger variable, which depends on the O ₂ consumption of the buried supplied.

For this purpose, the O ₂ content, for example by O ₂ partial pressure measurement, can be detected within the cavity as a triggering variable.

According to a particular embodiment of the present method is in particular respiratory gas of the cavity then supplied when the O content falls within the cavity ₂ under a predetermined threshold value X _O2.

The supply of breathing gas from the respiratory gas source into the cavity is advantageously dis continuously. Respiratory gas is therefore not permanently supplied but at defined times (eg as needed). This results in the advantage that with the available amount of breathing gas from the respiratory gas source, a particularly long supply of the buried in the cavity can be achieved.

According to an advantageous embodiment of the present invention, each time the switching condition of the tripping variable is reached, a constant volume of breathing gas is supplied. This can be done in such a way that the thereby formed within the cavity O ₂ content is maintained in a range that ensures survival of the buried, while ensuring the longest possible supply of breathing gas from the breathing gas source. The victim is thus supplied with a breathing gas atmosphere, which, for example, has a lower O ₂ content than breathing air, but a longer ventilation is thereby ensured.

Alternatively, the supply of breathing gas can also be controlled by supplying breathing gas until an upper threshold value Y _O2 at which the breathing gas supply is terminated is reached.

Expediently, an O ₂ source is used as the respiratory gas source.

The breathing gas in the respiratory gas source is expediently under a pressure in the range of 150 bar to 250 bar. As a result, the size of the container for the respiratory gas or the size of the O ₂ container can be kept small. Particularly suitable for this purpose are bottles of fiber-reinforced, in particular carbon-fiber-reinforced plastic with a volume in the range from 0.25 to 1 liter, preferably 0.35 to 0.75 liter.

The Invention relates - sibling claimed - too a rescue facility for avalanche spilled People who are on the body of the user is to wear. The rescue facility includes a Respiratory gas source, e.g. an oxygen cylinder, by means of emergency Breathing gas in the spilled people surrounding cavity can be introduced.

Conveniently, The device comprises such a sensor, wherein the supply of respiratory gas dependent on the value determined by the sensor takes place. The sensor is located this expediently in the upper body area, Head, especially facial area, so that in which the respiratory system directly assigned area of the cavity measured the oxygen content can be.

The same applies to the feeder of the breathing gas. For this purpose, a breathing gas line is provided with openings, which also in the upper body area, head, in particular facial area, for example in the form of a neck cuff or part of a backpack.

Expediently, the device comprises a switching valve for switching the supply of breathing gas from the respiratory gas source, which can be controlled by a control device. In the control device, the necessary information, such as the threshold value X _O2 or Y _O2, for example, deposited as a suitably programmed chip. Furthermore, an energy source for supplying the switching valve and the control device is provided.

to Fixation of the respiratory gas source is expediently a holding frame intended. This includes at the same time a fixation of Breathing gas supply in the upper body area, Head or face area.

Of the Holding frame can simultaneously, for example, as a back protector be educated.

alternative or additionally For this purpose, the holding frame can be part of a backpack.

A expedient embodiment The present invention will be explained in more detail with reference to drawing figures.

It demonstrate:

1 a graph of survival versus percent survival versus time in minutes;

2 a schematic diagram of the inventive device comprehensive functional units;

3 shows an avalanche victim in a highly simplified representation with a rescue device according to the invention in the avalanche cavity.

4 a representation of the avalanche rescue device according to the invention housed in a backpack on the user in different directions and

5 a highly simplified, schematic representation of the supply of O ₂ as a function of the measured oxygen threshold X _O2 in the cavity.

In 1 is the survival rate in percent (y-axis) over time in minutes (x-axis) of an in an avalanche buried. Within the first 15 minutes, the victim has a survival rate of 92%. Within a period of 15 to 30 minutes, the survival rate drops from 92% to about 34%. The reason for this lies in a decrease in the oxygen content in the cavity of the avalanche available to the victim as source of respiratory air. The cause of death is suffocation.

The present invention relates to a rescue device for avalanche victims, whose functional units in 2 are roughly shown schematically. The rescue unit is carried by the user and includes a breathing gas container 4 for example, in the form of an O ₂ bottle filled with high pressure oxygen. For example, such an O ₂ bottle has a comparatively small volume of, for example, 0.25 or 0.35 liter at a comparatively high pressure of eg 150 bar. The O ₂ bottle consists for example of steel or (for reasons of weight) made of fiber, in particular carbon fiber reinforced plastic. Also, a type O ₂ cartridge with sufficient filling would be as breathing gas container 4 used.

To reduce the in the breathing gas container 4 prevailing pressure is with the breathing gas container 4 a pressure reducer 5 in connection. A switching valve ensures opening or closing of the breathing gas supply from the breathing gas container 4 , The switching valve 6 is via a breathing gas line 11 with a Atemgaszuführöffnung 10 in connection. The breathing gas supply opening 10 is conveniently located within the cavity 2 the avalanche, preferably in the area of the upper body, the head or the face of the spilled person.

Furthermore, the rescue device comprises a control device 7 that with a signal from an O ₂ sensor 8th that is also inside the cavity 2 the avalanche is located, is controlled. The control device advantageously comprises an integrated circuit in which an O ₂ threshold is stored which is permanently connected to that of the O ₂ sensor 8th O ₂ content of respiratory air within the cavity measured within the avalanche cavity 2 the avalanche is compared. Falls inside the cavity 2 from the O ₂ sensor 8th measured value below a threshold causes the controller 7 a control signal to the switching valve 6 , so that the switching valve 6 the supply line between respiratory gas container 4 and breathing gas supply port 10 switches freely.

The O ₂ content can be carried out, for example, via an O ₂ partial pressure measurement. But other methods for its determination can be used.

Conveniently, the control device 7 with a power source, such as a battery or a battery connected.

How out 3 becomes clear, is usually the victim 1 around a cavity 2 within the snow piled up by the avalanche 3 , The mobility of the victim is very limited. Shock is the inside of the cavity 2 Existing respiratory air usually from the victim 1 quickly used up. If he is not found within the remaining time or found but not salvaged, threatens a quick suffocation. On the other hand, if the buried person wears the rescue device according to the invention, the respiratory air inside the cavity falls below a predetermined O ₂ content 2 an automatic supply of oxygen into the cavity 2 so inside the cavity 2 due to this supply of buried people can continue to breathe. In particular, the buried breathes the breathing gas from the cavity. So it is not necessary that he uses any mouthpiece or the like. The oxygen flows in the area of the head into the cavity 2 the avalanche, since the Atemgaszuführöffnung is located in this area. In this area is also the O ₂ sensor for controlling the control device 7 ,

According to 4 the rescue device can be integrated into a conventional backpack. The source of breathing gas 4 in the form of eg an O ₂ bottle is in a holding frame 12 For example, an anatomically shaped back plate of a backpack used. The support frame 12 can additionally assume a back protector function. From the source of breathing gas 4 runs a breathing gas line 11 towards the head of the user and ends there with at least one breathing gas outlet 10 , Likewise, the O ₂ sensor is also located in this area 8th , The switching valve 6 and the control device 7 In contrast, conveniently located within the backpack-shaped part. The backpack-shaped part is securely fastened to the user's body via tether and cross straps.

alternative can the rescue unit as such but also with its own Fastening system e.g. Fastening strap can be attached to the user, so the rescue unit as a separate unit in addition to a backpack or the like can be used.

5 shows the supply of O ₂ in an emergency in a highly simplified schematic representation. As soon as a person has been spilled by an avalanche, the O ₂ content of the air within the cavity will decrease 2 due to the respiratory activity of the buried steadily. After a while, the O ₂ concentration reaches within the cavity within the control device 7 (see. 2 ) predetermined threshold X _O2 . At this threshold, the controller transmits 7 a control signal to the switching valve 6 , leaving O ₂ in the cavity 2 the avalanche in the head area of the victim through the Atemgasauslassöffnung 10 flows.

The control device 7 the rescue device is set according to an embodiment of the invention so that each time the threshold value X _{O2 reaches} a predetermined amount of O ₂ from the respiratory gas container 4 via the switching valve 6 the avalanche cavity 2 is supplied. This results in the 5 apparent course, which is only greatly simplified and shown schematically for clarity. Due to the constant, discontinuous supply of O ₂ , the respiratory air within the cavity 2 in terms of O ₂ content kept at a level that allows the victim to survive. Due to the discontinuous supply of O ₂ from the breathing gas container 4 For example, the avalanche cavity can be supplied with breathing gas over a very long period of time, and consequently the spilled person can spend a much longer period in the cavity 2 spend as was the case so far. The survival rate as a function of time is thus considerably improved.

1

spilled

2

cavity

3

snow

4

Breathing gas container

5

pressure reducer

6

switching valve

7

control device

8th

O ₂ sensor

9

energy

10

Atemgasauslassöffnung

11

Breathing gas line

12

holding frame

13

safety belt

Claims (23)

Method for rescuing a person buried in avalanches, characterized in that the human being is equipped with a breathing gas source which, in the event of human being being buried in an avalanche, exposes the cavity around the buried human being ( 2 ) supplied with breathing gas. A method according to claim 1, characterized in that the respiratory gas from the respiratory gas source ( 4 ) is guided starting in the upper body, head or facial area of the person. A method according to claim 1 or 2, characterized in that the spilled person, the supplied breathing gas through the cavity ( 2 ) inhales. Method according to at least one of the preceding Claims, characterized in that the breathing gas people in case of need supplied without human intervention. Method according to claim 4, characterized in that the respiratory gas of the cavity ( 2 ) is supplied as a function of at least one of the O ₂ consumption dependent tripping variable. A method according to claim 5, characterized in that as a trigger variable, the O ₂ content within the cavity ( 2 ) is detected. A method according to claim 6, characterized in that breathing gas of the cavity ( 2 ) is supplied when the O ₂ content within the cavity ( 2 ) falls below a predetermined threshold X _O2 . Method according to at least one of the preceding claims, characterized in that the supply of respiratory gas from the respiratory gas source ( 4 ) into the cavity ( 2 ) is discontinuous. A method according to claim 5-8, characterized in that when supplying breathing gas in each case a constant amount of breathing gas of the cavity ( 2 ) is supplied. A method according to claim 5-8, characterized in that breathing gas is supplied until an upper threshold Y _{O2 is} reached at which the breathing gas supply is terminated. Method according to at least one of the preceding claims, characterized in that as respiratory gas source ( 4 ) an O ₂ source is used. Method according to one of the preceding claims, characterized in that the respiratory gas in the respiratory gas source ( 4 ) is under a pressure of 150 bar to 250 bar. Rescue device for avalanche victims, which is to be worn on the body of the user, characterized in that a breathing gas source ( 4 ) is provided by means of the breathing gas in an emergency in the surrounding the spilled cavity ( 2 ) can be introduced. Rescue device according to claim 13, characterized in that by means of a breathing gas line ( 11 ) the respiratory gas can be supplied to the upper body, head or face area of the victim. Rescue device according to claim 13 or 14, characterized in that a sensor of the O ₂ consumption-dependent variables is provided and the supply of breathing gas takes place in dependence of the value determined by the sensor. Rescue device according to claim 15, characterized in that an O ₂ sensor ( 8th ) Is provided by means of which ₂ content of the breathing air in the cavity is determined, the O and the supply of respiratory gas depending on the detected O ₂ value is carried out. Rescue device according to at least one of the preceding claims 13 or 14, characterized in that the supply of breathing gas dependent on a predetermined characteristic takes place. Rescue device according to at least one of the preceding claims 13-17, characterized in that a switching valve ( 6 ) provided by a control device ( 7 ) is controllable. Rescue device according to at least one of the preceding claims 13-18, characterized in that an energy source ( 9 ) is provided. Rescue device according to at least one of the preceding claims 13-19, characterized in that a holding frame ( 12 ) for fixing the respiratory gas source ( 4 ) is provided. Rescue device according to at least one of claims 13-20, characterized in that the holding frame ( 12 ) simultaneously serves as a back protector. Rescue device according to at least one of claims 11-18, characterized in that the O ₂ sensor ( 8th ) is positioned in the upper body, in particular in the head area of the user. Rescue device according to one of claims 13-22, characterized in that at least one Atemgaszuführöffnung ( 10 ) is positioned in the upper body, in particular in the head area of the user.