EP1759983A1 - Control or regulation device for the ventilation of persons in a decompression chamber and breathing gas supply apparatus - Google Patents

Abstract

The control device has a connection device (26) for conveying a respiratory gas from a respiratory gas connection to a breathing mask connection (22, 23). The control device is arranged in a fixable suitcase (11) or a bag. A connection (24) is provided for connecting a microphone and a loudspeaker (25). An oxygen supply pressure gauge is provided to indicate pressure quantity in a decomposition chamber to a person.

Description

The invention relates to a control or regulating device for the ventilation of persons in a decompression device and a ventilation gas supply device or a decompression device.

It is now common in overpressure work, the persons who are exposed to the overpressure after overpressure work in a decompression chamber, personal lock or transport chamber, which is needed, for example, during tunneling, a decompression under ventilation with oxygen suspend in order to match the ambient pressure or decompress according to the applicable regulations. For example, such a thing is necessary if a tunnel is driven up by means of a tunnel boring machine and inspects tools of the machine, must be maintained and repaired so that an operator or a compressed air technician must get into the head of the drill to perform the appropriate work. The same applies accordingly for the manual compressed air operation in the tunnel and caisson construction.

The known decompression chambers or locks, which can be carried, for example, on a corresponding tunnel boring machine, have the disadvantage that both these and in the chambers or locks held in stock regulator, respiratory masks, vacuum regulator, connection hoses, connectors, etc. very quickly become polluted, unhygienic and defective as they are in close proximity to the construction equipment. This can cause malfunction and dangerous situations, namely, for example, when exhaled air is directed into an area that does not undergo sufficient mixing, suction or a corresponding exchange with the ambient air. The known decompression chambers also have the disadvantage that the persons located in the decompression chambers with the attached respiratory masks can not talk to each other and also not with operating personnel who operate the same outside the decompression chambers. Finally, conventional decompression chambers or sluices have the disadvantage that no decompression, in particular oxygen decompression, can take place in a range from 0 bar to 0.3 bar overpressure, since the exhalation resistance of the exhaled air is high or the exhaled air is discharged directly into atmospheric pressure ,

It is an object of the present invention to overcome the above disadvantages and to ensure that a dilution of the essential components of a breathing gas system, in particular an oxygen breathing system is prevented in a decompression chamber. In addition, a safe operation in the decompression, especially with oxygen, should be possible. Another object is to allow communication between persons in a decompression chamber and also with an operator outside the chamber or sluice. Finally, medically meaningful decompression should be feasible.

This object is achieved by a control or regulating device for the ventilation of persons in a decompression device with at least one respiratory mask connection, at least one respiratory gas connection and at least one connection device for conveying respiratory gas from the respiratory gas connection to the at least one respiratory mask connection, wherein the control or regulating device, especially for a person who is portable.

The control device according to the invention can be stored while working on the construction equipment or with the construction equipment away from them, so that the control or regulating device is not exposed to Baudreck and debris. As a result, the control or regulation device no longer pollutes, at least not to the same extent as usual. Once the control device is needed, it may be carried in a decompression chamber or a personal lock or the like, in particular by a single person, and there easily connected to a breathing gas tube or breathing gas tube, and also to respiratory masks preferably also be connected during work that lead to the corresponding dirt, stored in a clean environment.

As a result, a safe operation of a decompression chamber and similar devices is already possible.

The control or regulating device is used, in particular, to safely guide respiratory gas to a breathing mask and to safely remove the exhaled air again. For this purpose, preferably a Hauptbeatmungsgasabsperrventil, a Hauptausatemluftabsperrventil and for each connectable respirator according to individual shut-off valves for the breathing gas and the exhaled air are provided. In addition, an adjustment possibility of the respiratory gas with regard to the amount and / or the pressure per respiratory mask or for all breathing masks can be provided simultaneously. In addition, an oxygen supply pressure indicator may be provided by means of which the persons located in the decompression chamber can ascertain that sufficient pressure is present.

Particularly efficient and easy to transport is the control or regulating device when this is in a suitcase or a bag, in particular fixable, arranged, wherein the suitcase or the bag is preferably also closed and in particular provided with a pressure equalization valve. In this case, both during storage and during transport of the control or regulating device for a clean environment of the control or regulating device can be provided.

An efficient and simple communication option is provided if the control or regulating device has at least one connection for a microphone and / or at least one loudspeaker and / or at least one connection for a loudspeaker. The people in the pressure chamber, for example, can tie a throat microphone and a corresponding connection, for example, with cables of the larynx microphone with the control or regulating device and thus communicate with the other persons in the decompression device, for example via a built-in the control or regulating device speaker or a speaker, which is installed in a decompression device. A further cable connection from the control or regulating device, which leads into the decompression device and from there outwards to an operator, can also be used to communicate with a person outside the decompression device. For this purpose, a loudspeaker and a microphone are expediently also provided outside the decompression device, for example also on the decompression device. As a result, the safety in the decompression for the persons in the decompression device is further increased.

A ventilation gas supply device according to the invention for a decompression device comprises a control device according to the invention, which is described above.

In addition, according to the invention or preferably a respiratory gas supply device is provided, which comprises a negative pressure generating device which can be connected to at least one exhalation air connection, in particular the control or regulating device. By this measure, a particularly good and complete exhalation or discharge of the exhaled air allows, which can be removed very efficiently and safely from the decompression device.

Preferably, the respiratory gas supply device comprises or is an oxygen supply device.

Particularly safe is the ventilation gas supply device when the vacuum supply device is arranged spatially remote from the control or regulating device, so that the exhaled air can be discharged in the vicinity of the vacuum supply device in the ambient air, in particular remote from the control or regulating device and thus also away from the decompression. The outlet of the exhaled air is preferably in the area of the ventilation of a tunnel or in an air supply shaft or on the surface. Particularly quickly, the ventilation gas supply device can be built up, if a device is provided for receiving the vacuum supply device, which is spatially remotely from the control or regulating device and / or the decompression device set up. The device is in particular a frame or a portable device, in particular a suitcase, on or in which the vacuum supply device is mounted.

The vacuum supply device preferably comprises a compressed air injector device, in particular an injector pump. In addition, the vacuum supply device, for example, a compressed air connection, a pressure reducer with, for example, a microfilter and a connection for the negative pressure and a silencer have. An injector pump in this case serves to convey gas or air or exhaled air. It is exploited that when flowing gases with increase in the flow velocity, for example by constrictions in pipes or nozzles, a pressure drop and thus a suction occurs. It is an effect found by the physicist Bernoulli. The theoretical background is described by the Bernoulli energy equation. With sufficient speed increase and thus pressure reduction gases can be sucked in and transported on with the pumped medium. It is a venting of a suction line, which is provided for receiving the exhaled air, achieved.

Preferably, ventilation at a pressure of 0 bar to 0.3 bar above atmospheric pressure or ambient pressure in the decompression device by suction of exhaled air, in particular by means of the vacuum supply device allows.

According to the invention, a decompression device, in particular a decompression chamber, is provided with a connection device for a control and regulating device according to the invention and / or for a ventilation gas supply device according to the invention and described above.

Preferably, the decompression device comprises the control device according to the invention and described above. Preferably, a separate arrangement of a decompression device in which a portable control device is incorporated, and a vacuum supply device are provided.

Fig. 1

eine schematische dreidimensionale Darstellung einer erfindungsgemäßen Steuer- oder Regelvorrichtung in einem Koffer,

Fig. 2

eine schematische dreidimensionale Darstellung eines Rahmens, auf dem eine Unterdruckversorgungsvorrichtung gemäß der Erfindung angebracht ist,

Fig. 3

einen schematischen elektrischen Anschlussplan für eine Kommunikationsvorrichtung und

Fig. 4

eine schematische Darstellung der erfindungsgemäßen. Einrichtung unter Berücksichtigung der pneumatischen Bestandteile.

The invention will be described below without limiting the general inventive idea by means of embodiments with reference to the drawings. With respect to all details of the invention not explained in detail, reference is expressly made to the drawings. Show it:

Fig. 1

a schematic three-dimensional representation of a control or regulating device according to the invention in a suitcase,

Fig. 2

a schematic three-dimensional representation of a frame on which a vacuum supply device is mounted according to the invention,

Fig. 3

a schematic electrical connection diagram for a communication device and

Fig. 4

a schematic representation of the invention. Device considering the pneumatic components.

Fig. 1 shows a photograph or a schematic three-dimensional representation of a control or regulating device 10 according to the invention, which is arranged in a case 11, and is fixed there. It can be a releasable fixation. The case 11 is provided with a handle 12 so that the case is very well and easily portable by an operator.

The control device 10 serves to control or regulate the supply of oxygen to masks, not shown, which are connected to a Sauerstoffmaskenzufuhrverbindung 22. The respiratory masks may also be connected to an exhalation air mask discharge connection 23. These may be quick couplings. The control or regulating device 10 according to the embodiment of FIG. 1 has connections for three breathing masks. Oxygen is introduced into the control device 10 via the oxygen supply quick connector 20. There it passes via appropriate lines or pipes to a Sauerstoffversorgungsabschaltventil 18 and then the line branches into the Respective branches to the respiratory masks, wherein on the control panel of the control or regulating device 10 is still a respective Sauerstoffmaskenabschaltventil 15 per Sauerstoffmaskenzufuhrverbindung 22 is provided.

There are also provided breathing gas controls 16 with free flow function to control the amount and pressure of the breathing gas. In addition, an oxygen supply pressure indicator 17 is provided.

The exhaled air passes through the Ausatemluftmaskenabführverbindung 23, which can also be designed as a quick coupling, via lines and corresponding Ausatemluftmaskenabschaltventilen 14 and a Ausatemlufthauptausschaltventil 13 to a Ausatemluftschnellanschluss 19. At this Ausatemluftschnellanschluss a corresponding hose is connected to the vacuum supply device, the in Fig. 1 not shown leads.

The negative pressure supply device or vacuum generating device 31 is shown in FIG. 2. This is mounted on a frame 30. The negative pressure generating device 31 comprises a compressed air connection 35, to which a pipe or a pressure hose to a compressed air cylinder 44, not shown in Fig. 2, which may for example have between 7 bar and 10 bar pressure, is connected. The compressed air is then passed via a pressure reducer 33 with a microfilter to a control valve 32. The pressure reducer has a pressure gauge 34. After the control valve 32, a compressed air hose 36 is provided which leads to the vacuum generator 38, which operates on the principle of Bernoulli. The compressed air is removed via a silencer 37. In addition, with the compressed air according to exhaled air sucked, which rests against the vacuum port 39 and Atemluftansauganschluss 39. The pressure reducer also has a drip hose 40.

To the compressed air connection 35, a compressor may be connected. The frame 30 is preferably located in a ventilation area of, for example, a tunnel. By generating a negative pressure, ie a pressure below 1 bar, it is possible for the first time to allow decompression not only in a pressure range from high pressures to 0.3 bar above the ambient air pressure in a decompression chamber, but also in the range of 0 bar to 0.3 bar above ambient pressure.

For efficient communication of the persons located in the pressure chamber with one another and with an operator outside the pressure chamber, a corresponding communication system according to FIG. 3 is provided. In the control or regulating device 10, two loudspeakers 25 and three microphone connections 24 are provided. There are corresponding microphone plug 42 to which cables are attached, which are connected to a microphone 41, which may be, for example, a larynx microphone inserted into the corresponding microphone ports 24. In this embodiment, three ports are provided for microphones. At the other end of the control or regulating device 10, communication connections are provided which are also possible, for example, with a plug connection, wherein in FIG. 1 a socket 21 or communication connection 21 is shown. About this connector and a cable connection to the pressure chamber is made by means of the corresponding signals can be looped through the pressure chamber wall to the outside to a To allow communication with an operator outside the pressure chamber.

4 shows a schematic representation of a ventilation gas supply device according to the invention, which is arranged partially in a compression chamber 51 and partially outside the compression chamber 51, wherein the ventilation gas supply device comprises in particular a control or regulating device and a frame 30 comprising a vacuum generating device 38 and an oxygen supply device. The oxygen supply device may be disposed on the frame as shown in FIG. 4. However, this can also be arranged elsewhere. The oxygen supply device comprises a pressure port 45 for connecting oxygen cylinders with a pressure of preferably 30 bar to 200 bar. There is also provided a pressure reducer 46 which includes a pressure gauge 34 'and corresponding pressure reducing valves which are not referenced. It is also a quick coupling 43 'provided for connection to a further quick coupling 43' and an oxygen line 47 is provided.

On the frame 30, a negative pressure generating device is also provided, which in this embodiment comprises a compressed air connection 35 and a quick coupling 43, and a pressure reducer 33 with microfilter 50 and a pressure gauge 34 and a pressure reducing valve, which has no reference numeral. There is also a shut-off valve 63 is provided. The pressure reducer 33 is connected via the shut-off valve 63 to the vacuum generator 38, which works on the Bernoulli effect. At the vacuum generator 38 is followed on the one hand for discharging the compressed air, a silencer 37 and on the On the other side to the suction a quick coupling 43, which can be connected to another quick coupling 43 and leads to the vacuum line 48.

The vacuum line 48 can be connected via quick couplings 43 and a shut-off valve 13 "to a compression chamber 51 with another stop valve 13 'which is an exhalation air main shut-off valve 13. On the inside of the compression chamber 51 is provided a quick-action coupling 43 connected to a flexible conduit 56 and another quick coupling 43 can be connected to a quick coupling of the control or regulating device 10. Correspondingly, the oxygen line 47 is also connected to the compression chamber 51 via corresponding quick couplings 43 'and oxygen supply shutoff valves 18 "and 18' and within the compression chamber with a flexible line 57 over-quick couplings 43 'connected to the oxygen line 47 and a corresponding connecting pipe 26 of the control or regulating device 10. For the exhaled air and a connecting tube 26 'is provided.

The control device 10 comprises, on the oxygen supply side, a connection pipe 26 in communication with a pressure limiter 53, and also in communication with an oxygen supply pressure gauge 17. From the connection pipe 26, pipes pass through oxygen mask shut-off valves 15 to one of three breathing regulators 54, respectively. can be guided by means of oxygen to breathing air masks. Accordingly, the exhaled air is also guided via the respiratory regulator 54, a connecting tube and in each case an exhalation air mask shut-off valve 14 to the connecting tube 26 '.

On the connecting pipe 26 'is still a check valve 52nd and also an exhalation regulator valve 55 (BIBS vacuum controller, BIBS being a build in breathing system). The respiratory regulator 54 is also called Duo BIBS regulator and may be referred to as a built-in adjustable respiratory regulator. When aspirated by an operator, a first valve is opened, substantially simultaneously closing a second valve communicating with an exhalation air connection tube 26. It is then admitted breathing air or oxygen at a pressure which corresponds approximately to the pressure in the compression chamber. In addition, it is preferably controlled to a constant amount of breath. When exhaling, the first valve is closed and the exhalation valve is opened.

Indicated at 55 is an exhalation regulator valve which serves, irrespective of the pressure in the compression chamber 51, that the backpressure on the exhalation side of the oxygen masks does not exceed 0.3 bar above the pressure prevailing in the compression chamber. In addition, the exhalation regulator valve 55 ensures that the person in the pressure chamber does not come into direct contact with the pressure prevailing outside the pressure chamber 51, which is a very dangerous negative pressure for the person compared to the pressure in the compression chamber.

The control device can not only control but also regulate the amount of oxygen supplied, depending on, for example, the pressure in the pressure chamber or the condition of the person to undergo decompression. For this purpose, for example, the heart rate of the person can be recorded or a continuous measurement of the amount of nitrogen in the person's blood or amount of oxygen and / or the temperature of the person.

Bezuaszeichenliste

10

Control or regulating device

11

suitcase

12

Handle

13, 13 ', 13 "

Ausatemlufthauptabschaltventil

14

Ausatemluftmaskenabschaltventil

15

Sauerstoffmaskenabschaltventil

16

Breathing gas control with free flow function

17

Oxygen supply pressure gauge

18, 18 ', 18 "

Sauerstoffversorgungsabschaltventil

19

Ausatemluftschnellanschluss

20

Oxygenation Quick Connect

21

communication link

22

Oxygen mask supply connection

23

Ausatemluftmaskenabführverbindung

24

microphone connector

25

speaker

26, 26 '

Connecting tube display

30

frame

31

Under pressure generating device

32

control valve

33

pressure reducer

34, 34 '

pressure indicator

35

Compressed air connection

36

Compressed air hose

37

silencer

38

vacuum generator

39

Vacuum port / Atemluftansauganschluss

40

drip hose

41

microphone

42

microphone plug

43, 43 '

quick coupling

44

Compressed air cylinder (7 bar to 10 bar)

45

pressure connection
(for oxygen cylinder 30 bar to 200 bar)

46

pressure reducer

47

oxygen line

48

Vacuum line

50

microfilter

51

compression chamber

52

check valve

53

pressure limiter

54

breathing regulator

55

Ausatemregulatorventil
(BIBS vacuum controller)

56

flexible line

57

flexible line

63

shut-off valve

Claims (12)

Control or regulating device (10) for the ventilation of persons in a decompression device (51) with at least one respiratory mask connection (22, 23), at least one respiratory gas connection (43 ') and at least one connection device (26) for conveying respiratory gas from the respiratory gas connection ( 43 ') to the at least one breathing mask connection (22, 23), characterized in that the control or regulating device (10), in particular for a person, is designed to be portable. Control or regulating device (10) according to claim 1, characterized in that it is arranged in a case (11) or a pocket, in particular fixable. Control or regulating device (10) according to claim 1 or 2, characterized in that at least one connection (24) for a microphone (41) and / or at least one loudspeaker (25) and / or at least one connection for a loudspeaker (25). is provided. Ventilation gas supply device (10, 30) for a decompression device (51), characterized in that a control or regulating device (10) according to one of claims 1 to 3 is provided. Ventilation gas supply device (10, 30) according to claim 4 or the preamble of claim 1, characterized in that a negative pressure generating device (38) is provided, which is connectable to at least one exhalation air connection (43), in particular the control or regulating device (10). A respiratory gas supply device (10, 30) according to claim 4 or 5, characterized in that it comprises or is an oxygen supply device (45, 46). Ventilation gas supply device (10, 30) according to one of claims 4 to 6, characterized in that the vacuum supply device (38) is arranged spatially remote from the control or regulating device (10). Ventilation gas supply device (10, 30) according to claim 7, characterized in that a device (30) for receiving the vacuum supply device (38) is provided, which is spatially remote from the control or regulating device (10) and / or the decompression device (51) can be set up. Ventilation gas supply device (10, 30) according to claim 7 or 8, characterized in that the vacuum supply device (38) comprises a Druckluftinjektorvorrichtung (38), in particular an injector pump. Ventilation gas supply device (10, 30) according to any one of claims 4 to 9, characterized in that a ventilation at a pressure of 0 bar to 0.3 bar above atmospheric pressure or ambient pressure in the decompression device (51) by suction of exhaled air, in particular by means of the vacuum supply device (38). Decompression device (51), in particular decompression chamber, with a connecting device (43, 43 ') for a control or regulating device (10) according to one of claims 1 to 3 and / or for a respiratory gas supply device (10, 30) according to one of claims 4 to 10th A decompression device (51) according to claim 11, comprising the control device according to any one of claims 1 to 3.

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