DE1910979A1 - Valve device, especially for use in anesthetic gas delivery systems - Google Patents

Description

4 MD7

Ruth Lea Η ···· Copenhagenj Denmark

/.ν

Valve device, especially for use in narcotics "egaa" ufuhr "yatemen

The present invention relates to valve devices, intended for use in connection with gas circulation systems, for example systems for supplying anesthetic gas are, i.e. those systems in which anesthetic gas and / or oxygen are supplied to the lungs of a patient. Especially if not even exclusively, the invention relates to valve devices for the temporary opening and closing of a connection between a so-called semi-closed anesthetic gas supply device and the atmosphere.

During anesthesia, it is of the greatest importance in many cases to support natural breathing or to supply artificial breathing, which functions can be carried out with the aid of a supply device for anesthetic gas of the type shown in Fig. 1. Such a system comprises a semi-closed circle , which is continuously fed with gas from a gas source 2 '. The installation also comprises an expandable bag a bladder 3 ₍ which is filled with gas from the gas source 2 by making the gas pressure in the installation somewhat higher

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is al9 the atmospheric pressure. In addition, the facility usually includes a connection 4, which leads to the patient's airways, directional valves 5 »6, which the gas flow in the correct Direction through the system, and an absorber 7, which removes impurities such as carbon dioxide from the system. The gas is forced into the patient's lungs by that the bag or the bladder 3 is compressed, whereby an overpressure condition is caused in the system. Will the Bag is then released, the pressure falls again essentially to the atmospheric bridge or below, whereby the overpressure then prevailing in the lungs pushes the gas back into the Supply system for anesthetic gas presses. Since oxygen and / or anesthetic gas is continuously supplied during the entire process, and since the amount of air exhaled is essentially the same, wit the inhaled, it is evidently necessary to create a valve connection between the gas system 1 and the atmosphere, so that the excess gas can be removed from the system.

The valve devices in conventional, semi-closed rebreathing systems of the type described above usually work in such a way that a valve disc in an outlet valve 8 is lifted from its seat as soon as the excess pressure in the system as a result of spontaneous exhalation or gas supply in excess. ßchusB exceeds a predetermined value, for example about 0.5 cm HgO, whereby excess gas is removed from the system. If the Di ¹ UCk prevailing in the system has a lower value than the one specified above, the valve disc will rest against its seat due to its normal preload, for example by a spring or by gravity, whereby the connection between the Eüekatiaungsanlage © and the atmosphere is interrupted.

The so-called regulated ventilation of the patient, i.e. the inevitable supply of gas into the patient's lungs by compressing the bag or the bladder, makes it necessary that a significantly higher excess pressure is built up in the system, with this excess pressure, for example, of the order of magnitude of 30 cm H ₉ O. In many previously known systems, the overpressure required for properly regulated ventilation of the patient is obtained from the fact that, on the one hand, the gas discharge capacity of the outlet valve is kept sufficiently small, so that the overpressure known as the overpressure remains during

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of the bag in the system, and on the other hand, sufficiently large so that excess gas and / or breathing gases can be "blown off" into the atmosphere without that an unacceptably high pressure occurs in the system.

A major disadvantage of such valve devices can be attributed to the fact that there is no direct Determine the amount of gas actually introduced into the lungs by the degree of compression of the bag or bladder can. Consequently, this factor is generally assessed by considering the expansion of the chest during the inhalation phase, although such an assessment is more qualitative as a quantitative kind.

Another disadvantage of the aforementioned valve devices is that a significant amount of air flow during each Compression of the bag is lost, this disadvantage being particularly evident in those cases in which the plant is continuously fed with expensive anesthetic gas.

It has been suggested to solve this problem by that the resistance of the exhaust valve against opening or, in other words, the closing pre-load on the valve disc enlarged by manual operation. However, this means one serious discomfort from the fact that as a result of the enlargement the preloading of the valve disk the exhaust valve during the The recovery phase is only calibrated in the event of an impermissibly high overpressure Open. This can have an adverse effect on the patient's blood circulation, as the pressure in the lungs is consistently excessive counteracts the flow of blood to the heart. This condition worsens in proportion to the level of the anesthetic system Led gas.

Since breathing and blood circulation are vital functions, their change during critical situations with a risk of death for the Patients can be connected, θβ is advantageous, even necessary, the β operated a system but supply of anesthetic gas in this way is that the exhalation phase under normal pressure conditions ■ can find tttt »while, on the other hand, the system is still in the Heise can be operated that with each compression A ·· bag a lot of gas is pressed into the lungs, which is the out of the The amount expelled from the pouch corresponds essentially to the same.

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The present invention seeks the problems identified above in connection with the opening and closing of the connection between the rebreathing system and the atmosphere in the Way to solve that this connection for the discharge of excess gas and exhaled air is kept open while it is closed when the bag or the bladder is compressed, i.e. when the uas is to be pressed into the patient's lungs, the connection opening again as soon as the compression of the bag ceases · Under these conditions the pressure in the anesthetic gas supply system during the exhalation phase is limited to a minimum value that is required, so that the bag or the bladder will certainly expand again under the uninterrupted supply of gas, whereby the

the character of the bag or bladder as a gas supply container is retained.

According to the invention, this problem is solved by that on the one hand an outlet valve of the usual type, i.e. a disc valve, a poppet valve, a diaphragm valve ο.dg?., used as the connection between the rebreathing system and the atmosphere to a relatively low pressure keeps closed, but this opens this connection as soon as there is excess gas and / or exhalation takes place, whereby an arrangement is also provided which reacts to the pressure prevailing in the system and which reacts to the valve disc Valve disk ο. The like acts on the exhaust valve in such a way that the Valve is closed again as soon as the pouch or bladder

\ is compressed, ie as soon as there is an overpressure in the system which is significantly greater than the pressure at which the pre-loading force of the valve element is overcome. According to the invention, this result is achieved in that the pressure generated there acts on a movable element at some point in the system, this element in turn developing a pressure-dependent force which is transferred to the valve disc or the like of the outlet valve and the valve closes as soon as the bag is compressed. Closing the valve when compressing the bag presupposes that the valve disc or the like from the movable element during the compression of the bag is greater than the compressive force

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ts * d

Difference between, on the one hand, * the compressive force that occurs as a result of the in the pressure prevailing in the system acts on the valve disc or the like and seeks to open the valve, "" and on the other hand the preload force, which keeps the valve closed against slight excess pressures in the system. Without any special measures, it essentially works the same pressure on both the movable element and the valve disc, and in this case means the The above requirement that either the pressure in the system to act on the movable element with a greater Effective area as the area of the valve head exposed to pressure must be brought, or that a suitable conversion ratio into the transmission of force from the movable one Element must be introduced onto the valve disc. Of course, you can use these two means to achieve a predominant one Closing force against the outlet valve when pressed together of the bag with each other.

Another prerequisite for the correct mode of operation of the valve device according to the invention is that the ▼ The force generated by the movable element in the case of slight overpressures in the system does not fully affect the valve disc may be transferred, as this would result in the exhaust valve after filling the bag or during the exhalation phase would not open to release excess gas. In this case, the system would work as a completely closed system. The desirable mode of operation is achieved according to the invention either with the help of organs that have a certain pre- «Generate constant and pressure-independent force that the counteracts the closing force developed by the movable element * or with the help of organs that the closing force only then to act on the valve disc o Let the outlet valve come when this force has reached a certain value, i.e. when the pressure in the system has reached a certain level Has taken a value higher than that at which the biasing force of the exhaust valve is overcome.

An essential object of the invention is therefore a valve device for use in gas circulation systems, such as access systems for anesthetic gas, "in which a connection between the plant and the atmosphere depends on the prevailing in the plant Pressure should be opened or closed, whereby

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this system includes an outlet valve that connects the system to the The atmosphere connects and that is provided with preload organs which keep the valve closed at low overpressures in the system, but which open the valve at slightly higher pressures Allow overpressure by supplying excess gas and / or during exhalation, and a movable element that is connected to the system and that is influenced by the pressure prevailing in the system, whereby it is under the action This pressure develops a force which is transferred to the valve disc via a transmission to the outlet valve to close as soon as the bag is compressed, and to open it, or to allow its opening, when the clenching of the mouth of the bag stops.

The invention is explained in more detail in the following description of preferred embodiments of the subject matter of the invention, as shown in the accompanying drawings.

As pointed out in the introduction, Pig illustrates. 1 a conventional, semi-closed rebreathing system;

2a and 2b illustrate a preferred embodiment the valve device according to the invention during different pressure states;

Fig. 3 shows another embodiment, the movable one KLwoentes;

Pig. 4 shows another embodiment of the force transmission;

Pig. 5 and 6 illustrate another embodiment the power transmission and

7 shows a further embodiment of the invention Valve device.

2a and 2b illustrate a preferred embodiment Approximate shape of the valve device according to the invention, FIG. 2a shows the inhalation phase when the bag or the bladder is compressed; and FIG. 2b shows the exhalation phase when the bag is released or the bubble shows. In this embodiment, the invention is ^ Bgenäsee The valve device is extremely compact and comprises an Oekäuse 15 with an inlet port 16, an outlet port t? and a bag connector, 18. A gas line 19 connecting the inlet connector 16 connects with the outlet 17, becomes indefinite.

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7 1310979

burst with oxygen and / or narcotic gas from a gas source 2 fed. The line 19 is also provided with a branch line, which leads to the patient, and with an absorber 7 which removes impurities such as carbon dioxide 'from the gas circulating in the line 19. The line is also available with one-way valves such as * ε, 8 «5, which inevitably bring about a gas flow in the correct direction in the gas line 19.

The housing 15 is provided with an outlet valve 8, through which the interior of the housing is in communication with the atmosphere and preferably a valve disc 14 and a corresponding valve seat 20, the valve disk 14 is preloaded, for example in that a spring presses the valve disk against the seat and / or that the valve disk of the Is subject to gravity. The preload force is set so that the outlet valve opens as soon as the overpressure in the system has reached a relatively low value of, for example, 0.5 cm HgO, i.e. the pressure required to fill the bag with gas after compression.

According to the invention, the housing 15 is also provided with a connection to a movable element 9 which, in the embodiment of FIGS. 2a and 2b, is designed as a bellows. The bellows 9 expands and looks together according to the pressure. Fluctuations in the system. The pressure-dependent force developed by the bellows as it expands is applied to the valve disc 14 Transferred via a force transfer 23 in the direction that the outlet valve 8 is subjected to a closing force. The power transmission 23 can be implemented in various ways, with FIGS. 2a and 2b in a preferred embodiment illustrate. According to this embodiment, the bellows 9 works on the end of a lever 13, the other end of which acts on the valve disc 14 in the closing direction.

The lever 13 has two arms and is rotatably mounted in a holder 26 which in turn is fastened to the valve housing 15 is. To achieve a good transfer of force from the bellows 9 on the power arm 25 of the lever, the end of the arm is preferably designed as a thin plate, the surface of which is the upper one Area of the bellows 9 connects. When using this embodiment of the force transmission, it is possible to match the one in the system surface of the movable element exposed to the prevailing pressure

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tes 9, the corresponding surface of the valve disc 14 and the length ratio between the force arm 25 and the load arm 24 of the Lever 13 to adapt to each other so that the pressure-dependent force, which is transmitted by the bellows 9 and which acts in the closing direction on the outlet valve, is greater than the pressure-dependent Force which the outlet valve acts on valve disk 14 in the sense of opening.

The valve device shown in Figures 2a and 2b is illustrated also a preferred solution to the problem of preventing the exhaust valve from being blocked during the exhalation phase, i.e. at a time when there is a relatively low overpressure in the system. For this purpose, according to the invention a magnet 21 is arranged, which attracts an iron part 22 in the power transmission 23. This iron part 22 has one Position in relation to the magnet 21 that the attraction force of the magnet 21 of the generated by the movable element 9, ver · -; Closing force counteracts, so that the load arm 24 the outlet valve 8 only closes when the force of attraction of the magnet has been overcome. Because the attraction between the magnet and the iron part with increasing distance between them. Sharing decreases rapidly, a quick and effective closing occurs on as soon as the closing force, which comes from the movable element, overcomes the force of attraction. Gravity is adjustable by means of organs that displace the magnet 21 in relation to the egg part 22 in the force transmission 23 enable. In the embodiment of FIGS. 2a and 2b, the magnet 21 is above the one provided with the iron part 22 Load arm 24 attached to lever 13, but it is natural quite possible to attach the magnet below the power arm 25, in this case the egg part is attached to the power arm is. A simple means of changing the attraction between the iron part 22 and the magnet, which is preferably carried by a holder 27 attached to the housing 15, consists in screw threading the magnet for engagement with a corresponding internal thread on the holder 27, wherein the force of attraction by screwing in the Magnets in the holder can be changed. The holder can of course be fitted with a scale according to the marking

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interacts on the magnet and for each setting position for example the flow velocity or the excess pressure at which the blowout will be blocked.

Another means of preventing the outlet valve from blocking in the event of relatively low excess pressures or Flow velocities consists in that the force transfer only takes effect when the pressure in the system is certain Has reached value. Such an arrangement has the advantage that the valve does not gradually close Force is exposed, but a locking force that suddenly goes from zero to a relative when the force transfer is actuated high value increases. This gives a more effective course when closing the valve. · When using a bellows as a movable element, the arrangement can, for example be taken in such a way that the bellows only affects the power transmission if a certain degree of expansion of the bellows is reached. In the case of a construction which comprises a piston movable in a cylinder, a corresponding arrangement can consist in the fact that the piston only transfers the force triggers after retracting a certain stroke length in the cylinder.

The closing effect of the valve assembly according to the invention can be improved by installing a check valve in Built into the system in the form of a butterfly valve or flap valve is between the point where the exhaust valve is provided and the place where the movable element is connected to the system let. In this way it is possible to control the gas flow in the system 80 so that on the one hand a more effective closure is achieved of the exhaust valve and, on the other hand, a delayed closing effect under the influence of pressure changes during the exhalation phase.

As shown in Figs. 2a and 2b, the check valve 28 is preferably in the vicinity of the movable element 9 or in attached to the branch pipe leading to the movable element, the check valve 28 being directed to prevent the flow of gas generated by the compression of the bag from entering the take the shortest route in the circuit to the outlet valve 8. When the movable member 9 is arranged close to the bag 3

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and the exhaust valve 8 close to the movable member while at the same time the check valve 28 prevents the gas from being on the shortest path between the movable element 9 and the outlet valve 8 to flow, the pressure wave is when squeezing of the bag 3 actuate the movable element 9 practically immediately, while the valve disc 14 of the outlet valve 8 © rat after a port planting of the pressure wave through practicoh the whole System is acted upon.

In this way the pressure increase is due to the compression of the bag directly onto the movable element 9 act, with a wear force dependent on the pressure is generated, but this increase in pressure becomes the valve disc of the

k Only reach the outlet valve after a certain time. Consequently becomes the one acting on the movable element 9. Pressure during compression of the bag 3 -sain higher than the pressure that acts on the valve disk 14 and therefore opens the valve 8 anyway seeks.

On the other hand, pressure increases due to exhaustion or supply of oxygen or anesthetic gas in excess first act on the valve disc 14 and only then on the * movable element 9. In those cases in which it is not desirable is that the exhaust valve is closed, the pressure acting on the movable member 9 becomes equal to or closer be slightly lower than the pressure on the Yentilacheib® 14 acts, which prevents blockage of the discharge valve

> will.

The propagation of the pressure increase as a result of the compression of the bag can also be delayed by installing a constriction in the system. An extremely simple and effective embodiment of such a constriction is shown in FIG. 2a. In this embodiment, the constriction device consists of a disk 29 with a central opening 30 with a reduced cross-section. The disk 29 shown in Fig. 2a is attached between the inlet end of the housing 15 and the outlet valve δ "but it is also possible to build an outlet valve somewhere else in the system and upstream in the valve. Other known constriction devices such as

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ne types of mouthpieces and nozzles can be used instead of the disc 29 can be used to reduce the opening force on the valve disc of the outlet valve during the compression of the bag and to decrease during exhalation.

Another suitable embodiment is the movable one Element is shown in FIG. 3. In this case, the movable element is in the form of a piston 10 sliding in a cylinder 11. The cylinder 11 is in communication with the main line of the semi-closed rebreathing system, and the displacement of the piston let depends on the pressure acting on one surface of the piston 10. The piston knows under the action of a spring 1? which counteracts the force to which the piston is subjected due to overpressure in the system, so that the spring only allows the latter force to be transmitted to the valve disc when this force has become greater than the spring force, i.e. when there is a relatively high overpressure in the system as a result of the compression of the bag or the Bladder 3 · The piston 1? Can be mechanically connected to one end of a lever 13, the other end of which can come into contact with the valve disk 14 of the Auslpssventils or through • A suitable transmission actuates this disk, as shown in Connection with Fig. 2a and 2b is described. Instead of the spring 12, the magnetic device above can also be used.

According to another embodiment of the invention illustrated in FIG. 4, the power transfer guide is provided with a divisible counterweight 31, which is arranged so that which the valve plate mediated through the power transfer 23 The force is not large enough to close the exhaust valve / 8, before the overdraft in the plant does not reach a certain value has, in which the on the movable element, for example the Bellows 9 or the piston 10 acting force is greater than that generated by the counterweight 31, in the opposite Direction of A force acting. In this case the power transmission 23 be designed in the form of a lever 13 on which the counterweight is displaceable. The one generated by the counterweight 31 Force "which counteracts the force generated by the movable element 9 is in this case dependent on the position of the counterweight in relation to the moment zero point of the lever 13. Also In this case, a scale can be provided that can be used for different

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dene positions of the counterweight 8 on the lever indicates different flow velocities and / or overpressures.

As in the Pig. 5 and 6, the force transfer can also be designed as a direct connection between the valve disc and the movable element 9, in which case the forces acting on the valve disc or the movable element in different directions are dependent on the pressure in the anesthesia system are directed substantially along a common axis. According to FIG. 6, this connection can be a rigid force transfer element 32 or, as shown in FIG. 6, a flexible element 33, whereby cords, straps, chains or rubber bands can be named as examples of elements of the latter type. Care should be taken that such a displacement of the movable element; as it occurs in the case of slight overpressure in the system (gas supply in excess, exhalation), does not act in a concluding direction on the vexitile sole. For this reason, a play nw is arranged which causes this force to act on the valve plate 14 only when higher pressures occur in the system (compression of the bag). When using stiff, Madungeelettente a telescopic connection 34 or similar connection with play is required to absorb small misalignment movements of the movable element 9 as a result of small overpressures in the system and to open the outlet valve 8 to let out excess gas. or to allow exhalation air without the valve disc being acted upon by the movable element under these conditions in a flowing direction.

As shown in Fig. 7, the force transfer can also be performed in be carried out in such a way that the movable element acts directly on the valve plate 14 of the outlet valve 8 or a Berlihnmesfl & ohe thereon. According to Fig. 7 is a bellows or • in a movable piston or any other Auführungeform • Ines expandable element 9 to a first Ansohlues one f-8tücke 35 connected in relation to the exhaust valve β is stationary. The bag 3 is attached to the second connection of the T-Stüoks 35 connected, during its third connection with the gas supply system is connected via a branch line 36. at

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a fine expansion of the bellows or a displacement of the piston as a result of the compression of the bag 3, the element 9 comes out in direct contact with the valve disc 14 in such a way that the outlet valve 8 is closed. It matters that This direct contact does not occur even with slight excess pressures in the system, one or more of them being used for this purpose May use magnets 21 which attract an iron part 22 on the expandable element 9. As in the embodiments described earlier, it is advantageous to have a one-way valve 28 between the outlet valve 8 and the branch line 36 and a constriction device 29, 30 upstream of the outlet valve.

The fact that the valve device according to the invention is connected to a manually operated deblookator 37 (FIGS. 2a and 2b) equipped, e.g. with a push button that can be locked in two positions, it is possible to unblock the outlet valve to be brought about if a blocking condition has occurred as a result of incorrect handling or setting. In the first position 2a and 2b indicated by solid lines, the push button 37 does not act on the transfer of force, but In the other position shown with dashed lines in Fig. 2b, the push button engages in the force transfer that a Transfer of the force generated by the movable element to the outlet valve is prevented. The valve device can also include organs that make it possible to manually block or switch off the outlet valve, which may be desirable in connection with certain types of anesthesia, especially when small amounts of gas are supplied that do not have a connection between the system and the surrounding atmosphere require.

Through the valve construction described above, it is thus possible to use the Ufczuträglichkeiten of the previously known valve constructions, especially those in the so-called semi-closed Avoid valves used in buccal-munge systems. When using the valve device according to the present invention if you get an attachment for the supply of Narkoeegae, Oils on the one hand with relatively small excess pressure in the System (high enough to supply the exhaust valves

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overcome) in connection with the atmosphere, which can be done by exhaling and releasing excess gas under favorable conditions, and on the other hand is closed from the connection with the atmosphere if a higher pressure is generated in the system by compressing the ventilation bag , the amount of gas introduced in this way into the patient's airways being monitored more easily and gas losses being reduced. By setting the various adjustable preload arrangements, such as when they are used in connection with the invention, for example a sliding counterweight or a magnet, the anesthesia system can be conveniently used under various loads. be adapted to conditions of continuous gas supply, so that 'the valve will open at a suitable pressure, for example a pressure from 0.5 to 1.0 cm H ^ O.

By suitable dimensioning of the movable element and a suitable choice of the force transfer and its preload, can you can achieve that when you squeeze the bag, the which comes out of the system before the valve disc is closed, has the value zero or any other value due to the action of the movable element.

While the invention in connection with rebreathing systems to support natural breathing or the supply artificial ventilation would be described, a valve device according to the invention can be used in connection with all types of pressure) regulated. Gas cycle systems are used in which a Connection to another system is to be opened or closed depending on the pressure prevailing in the first system.

The valve device can be modified in various ways within the scope of the basic concept of the invention. For example, the transfer of force from the movable element is brought about the outlet valve should not be carried out with the help of the devices specifically described above, but common, mechanical, hydraulic, pneumatic or electrical transmissions can be used instead. While preferably the movable Element and the outlet valve side by side in a crowded one Unit are arranged, the invention is not limited to this arrangement, rather a valve device according to the invention

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direction exert a satisfactory locking effect regardless of the position of the movable element in relation IU the exhaust valve and the order of these parts in Relation to the direction of radiation of the gas.

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Claims (1)

Pat entana claims _O 1. Valve device for use in such Gaskrsislaufs system in which a connection between the system and its environment is closed or opened depending on the in the System prevailing pressure, with one in the compound mentioned provided outlet valve with a valve seat, a cooperating valve closure element and preload organs, the closing element in a position that closes the valve hold against the seat when the overpressure in the system falls below a first pressure value, characterized by'ein movable element, which is exposed to the pressure prevailing in the gas circulation system with a surface, and by force transfer organs, which the said surface The force acting on the valve closure element of the outlet valve is transmitted in such a way that this valve is closed again as soon as the overpressure in the system has a second pressure value above » increases, which is higher than the first pressure value 2. Valve device according to claim 1, characterized in that the force transfer organs are provided with arrangements are the one of said closing force counteracting force generate that is greater than the pressure-dependent closing force at overpressures below the second value mentioned, but less than the closing force for overpressure but below the mentioned second value. 3. Valve device according to claim 2, characterized in that said arrangement comprises a magnet, the one on a lever in the iron part arranged in the force transmission organs attracts. 4ο valve device according to claim 3, characterized in that the magnet is arranged on the opposite side of the load arm of the lever in relation to the outlet valve, while the iron part is attached to the load arm 5. Valve device according to claim 4, characterized in that the magnet is mounted on the same side of the power arm of the lever as the movable element and that the iron part is attached to the power arm. 6. Valve device according to claim 3, characterized in that the distance between the magnet and the iron part is 909842/03 1: is adjustable. ** 7. Valve device according to claim 2, characterized in that that said arrangement has a counterweight on the force arm of the lever. 8. Valve device according to claim 7, characterized in that that the counterweight is slidably mounted on the force arm of the lever. 9. Valve device according to one of the preceding claims, characterized in that the force transfer organs have a include two-armed lever, on the force arm of which the movable element acts, while the load arm on the valve disk of the Exhaust valve acts in the valve closing direction. 10. Valve device according to claim 1, characterized in that that the movable element and the outlet valve are arranged opposite each other and that the power transmission organs a A flexible element, e.g. a cord, a belt, a chain or a rubber band, which connects the movable element with the valve disc of the outlet valve, the element having a length such that the displacement of the movable element the • The outlet valve only closes when the pressure in the system exceeds the second value mentioned. 11. Valve device according to claim 1, characterized in that that the movable element and the exhaust valve face each other are arranged and that the force transfer organs comprise a rigid force transfer element, which is the movable element and the valve head connects the outlet valve and that with organs for generating dead gear in the power transmission organs provided under the mentioned second value in the event of overdriven is. 12. Valve device according to claim 11, characterized in that that the dead gear is achieved by a telescopic connection. 13. Ventilvorriohtung according to one of the preceding claims, characterized in that the movable element is an ausweifcarer and is contractible bellows. 14. Valve device according to one of claims 1-12, characterized in that the movable element is a piston, which slides in a cylinder connected to the Gasaysi ^. 90984 2/03 1: 15J rebreathing system for anesthetic οαΐίΓ artificial respiration with a circuit line, of which guides a first connection to the patient, Oine second connecting continuously a treatment gas, oxygen and / o ^r liarkosegas, the system supplies, and a third connection to a compressible bag a Bladder is connected, one-way valves that allow the gas to flow in the right direction in the line, an outlet valve provided with a valve seat and a valve closure element that interacts with it, preloading elements that hold the valve closure element in a position against the valve seat that closes the valve , when the Ueberdrue.k in the system falls below a first pressure value, which is required to fill the bag or the bladder with gas after the compression, and an absorber to remove impurities such as carbon dioxide, characterized by a movable element that with a surface the pressure in the system is exposed to ₀ and by force transfer organs for such a transfer of the force acting on the surface mentioned to the encoding of the outlet valve that the valve is closed again when the excess pressure in the system increases a second, by squeezing the bag or the bladder exceeds the sucked pressure value, which is higher than that called ei. first Dr & skwert. 16. rebreathing system according to claim 15 wherein _t gekenasaicnet that the movable member is downstream angeodmet in relation to the exhaust · 17 · The respiratory system according to claim 16, characterized in that that the bag or bladder is connected to the circulation line downstream in relation to the outlet valve. 18. rebreathing system according to claim 17, characterized in that " net that a one-way valve in the circuit line downstream la Relative to the outlet valve and located upstream in relation to the movable element and the bag or bladder let and that the one-way valve expelled from the bag or bladder Prevents gas from being on the shortest route to the exhaust valve to fliease. 19 · rebreathing system according to claim 18, characterized in that the bag or the bladder and the movable element are arranged n & hi the outlet valve, whereby the out of the bag or 909842/03 12 BATH ORIGINAL gas expelled from the bladder when the bag is compressed or the bladder is forced to go through almost the entire cycle flow before it reaches the outlet valve. 20. HÜekatmungssytem according to claim 18 or 19, characterized in that a constriction organ in the circulation line between the patient connection and the outlet valve is provided according to the Zweoji, the transfer of the by the compression ' of the bag or bladder generated pressure wave from the bag or bladder to the outlet valve. 21. HÜckatmungssytem according to claim 20, characterized in that the constriction organ is a disc which is provided with a central opening with a reduced cross-section. 22. The rebreathing system according to claim 20, characterized in that the constriction element comprises a nozzle or a mouthpiece. 23. Valve unit for use in a rebreathing system for supplying a patient with treatment gas, with a valve housing an inlet connection, an outlet connection and • has a bag connection, an outlet valve with a valve seat and a valve closure element cooperating therewith, and Preloading organs that keep the outlet valve closed when the pressure acting on the closure element from inside the valve housing is lower than a first overpressure value, characterized in that the valve unit additionally • has a connection to a »movable element, which can expand and contract under the influence of pressure changes in the valve housing, and a two-armed lever the force arm of which acts a force generated by the expansion of the movable element, while the load arm acts on the closing element to close the outlet valve when the pressure is applied in the valve housing a second pressure value, which is higher than the said first pressure value, exceeds » 24. Valve unit according to claim 23, characterized in that that the Laätarm of the lever is provided with an iron part, the is attracted by a magnet placed on the opposite suite of the load arm in relation to the exhaust valve, whereby a such attraction between the magnet and the iron part acts that the load arm only acts on the locking part when the Overpressure in the valve housing higher than the mentioned second pressure 909842 / 03i: is worth »W 25. Valve unit according to claim 23 »characterized in that the valve housing is divided into two separate chambers with the aid of a one-way valve that allows the grass to flow only from a first of the chambers that are in communication with the outlet valve is allowed into the second chamber, in which the Beufcelan3chschluss and the connection open to the movable element. 26. Valve unit according to claim 23, characterized in that das8 a constriction element in the valve housing between the inlet3 ~ connection and the outlet valve is provided. 27. Valve unit according to claim 26, characterized in that that the constriction organ is a partition with an opening of limited width. 3OE / 03U BATH Blank page