DE1126566B - Self-operated ventilator - Google Patents

Description

The invention relates to automatic ventilators for producing an artificially controlled or a artificially assisted breathing. Such ventilators are used, for example, in patients whose respiratory center is paralyzed or disabled, but also to resuscitate drowning people or suffocating, continue to control artificial breathing for long periods of time and finally to anesthetize patients.

In the case of a special type of automatic ventilator of this type, the commonly »pressure-controlled Ventilators are called "ventilators" is the patient from a breathing gas source through a control valve pressurized air or a pressurized gas mixture containing oxygen supplied, wherein the control valve allows the breathing gas supply until in the supply line leading to the patient's breathing system a certain pressure is built up. As soon as this pressure is reached, the control valve blocks the breathing gas supply and allows the patient to exhale freely due to the elastic contraction his lungs. Precautions can be taken to ensure that the natural exhalation process is achieved through the use of suction is supported, this suction effect, if desired, can be large enough to penetrate the lungs to create a negative pressure of the patient. At the end of each exhalation phase, its duration can either be time-controlled or by building up a certain minimum pressure in the Lungs of the patient can be determined, and preferably after one of the breathing pause The control valve directs the control valve through resumption at a time interval corresponding to the patient's natural breathing the respiratory gas supply the next inhalation phase. This automatic work cycle can be continued indefinitely. The most essential part of the overall mechanism of such pressure-controlled ventilator is always a pressure-dependent regulator that responds to a pressure responds that comes as close as possible to the pressure prevailing in the patient's lungs.

Another type of automatic ventilator of this type is called "volume-controlled ventilators" called. With this design, the patient's lungs are used instead of on a specific one Breathing gas pressure to be inflated, each time with each breathing game with a certain, exactly measured respiratory gas volume filled up.

In principle, you can convert a pressure-controlled automatic ventilator into a volume automatic ventilator Ventilator

Applicant:

The British Oxygen Company Limited,
London

Representative: Dipl.-Ing. R. Holzer, patent attorney,
Augsburg, Philippine-Welser-Str. 14th

Claimed priority:
Great Britain dated February 3, 1960 (No. 3823)

lan george baxter, harlow, essex,
and Gerald Alfred White, Lancaster, Lancashire

(Great Britain),
have been named as inventors

Convert controlled automatic ventilator that one of the first-mentioned type of device has a secondary gas flow branch adds, which has a substantially rigid chamber in which an inflatable bag or bellows is housed, which is at a suitable point between the control valve and the patient in the ventilation system is involved, with the interior of the bag in communication with the patient's lungs while the space outside the bag is in communication with the outlet side of the control valve Has. If such an apparatus is used in the context of an open gas cycle, then in a non-return valve is arranged in the secondary gas flow branch between the bag and the patient, which prevents the exhaled breathing gas from being re-inhaled by the patient. If, on the other hand, such an apparatus is used in a closed flow circuit, then in the circuit is switched to a carbonic acid absorber. It is ensured that the volumetric expansion of the inflatable bag is limited, and the pressure control device is further adjusted so that that the control valve is operated at a higher pressure than under normal operating conditions is the case, then with one such

209 557/19

3 4

Device is a volume-controlled activity, since the regulator is now supplied with pressurized gas,

the duration of each inhalation phase through The term »linear throttle« refers to

each of these explanations displaced by the inflatable bag is either a porous disk

Breathing gas volume is determined. dewandung, a line with a honeycomb-like subdivision The purpose of the invention is to create a 5 cross-section, a plug made of fibrous or

improved volume-controlled ventilator, spongy material or any other egg

is based on the volume measurement principle and ment, in which the relationship between the

at which the clumsiness of a secondary gas velocity of the flow through such an element

flow branch is avoided. the gas and the throttling of the egg

The invention is accordingly based on a self-io Mentes caused pressure drop is linear. active ventilator, in which the flow of an automatic ventilator according to the invention under 'pressure supplied from a gas source manure is now controlled, for example with reference to breathing gas by means of a control valve, the drawing describes which such a breathing gas is supplied and which itself A respiratory gas source supplies, for example, an acid pressure-dependent regulator which, in the event of a substance under pressure via a channel 1, results in a correct change in the gas mer 2 acting on it, which has an outlet opening 3 which closes the valve with pressure and the same is connected to an injector 4, over which a certain period of time opens again. It is gas is discharged into a channel 5, which is connected to the gas flow in the path of the gas flow connected to the control valve in relation to the control valve in line with the gas flow leading to the patient's lungs. The gas passage is characterized by a flow meter, which in each case causes the injector, that at 6, depending on the dependence of the passage of a certain gas type of application of the device, either air or volume a control pulse of the pressure-dependent anesthetic gas is entrained. A valve for the regulator in the sense of a closure of the control valve 25 controlling the gas supply to the injector 4 has a triggers. elongated valve part 7, which in its center by means of the flow meter can be pivoted about a pin 8 and opened with its control valve, which from an auxiliary s- one end to close the outlet opening 3 gas source pressurized gas to the pressure like. The valve part 7 is magnetically fed to a closed-loop controller, thereby coupling the compressible bellows 9, which on the one hand causes the former to close by means of a fixed magnet 10 and a control valve (primary control valve). On the other hand, by means of a movably arranged device, precautions can be taken to ensure that the flow 11 occurs, the latter being reset on the bellows air flow meter in such a way that the valve is attached. Through this magnetic coupling, the secondary control valve is closed as soon as the primary valve is activated and the secondary control valve closes. prevents premature opening of the same. Furthermore, a device for resetting bellows 9 has an outlet duct 12 which is essentially connected with regard to its cross section of the flow meter to the primary control valve by means of a finely adjustable valve 13 and which is essentially borrowed and is effective simultaneously with this. 40 compression spring 14 loaded via a rocker arm

The pressure-dependent regulator can act in the form of a 15 on the bellows.

Have bellows, which from the auxiliary gas source ago A flow meter to control the at each is inflatable by pressurized gas and valve clearance consists of supplied gas volume with an outlet opening with adjustable cross-section to a linear throttle 16 arranged in channel 5, free atmosphere is equipped, each of which 45 over which the breathing gas mixture to the patient set cross-section the duration of the time span is supplied. From channel 5 lead in front of and determines during which the gas flow below the throttle 16 channels 17 and 18 to one broke is. Volume control chamber, which is divided by a resilient The flow meter can take the form of a vane partition wall 21 into two chambers 19 and 20 wheel meter, a turbine meter or a piston 50 is. In channel 17 there is a second linear throttle 22 counter have and in some way categorized with one. This further linear throttle 22 is used as a counter or an integrating device effectively adjustable outlet channel shown, with the help of which be moderately connected. the gas flow prevailing in the channel changes according to a preferred embodiment which is the same. For some uses of the invented invention If the flow meter has a throttle element, a local device is sufficient element with linear characteristics (linear throttle), narrowing of the cross-section of the channel concerned, at which the with the resilient partition wall 21 generated by the throttling effect is an actuating pressure drop linearly connected in a measurable variable, supply pin 23, which by a corresponding for example a volume, a pressure or a corresponding deflection of the partition is displaced in this way electrical voltage, which can be converted via the 60, that he has another valve 24 (seconds time is integrated, whereby an output signal (the control valve) opens, by means of which the gas flow which the volume of the control valve is controlled in a channel 25, which is controlled by the corresponds to the amount of breathing gas flowing through. Er main gas line 1 leads to a channel 26 which If this signal reaches a certain value, which in turn flows into the bellows 9, corresponds to the breathing gas volume which is for each 65 in the space 19 of the volume control chamber of the breathing game supplied to the patient, a spring-loaded pressure relief valve 27 is arranged, should, it causes the opening of the secondary control valve, which is supplied through a channel 28, with the result that the pressure-dependent th compressed gas jet can be opened. The one

Let 29 of this channel 28 is located in the chamber 2 and cooperates with the valve part 7.
The mode of operation of the arrangement is as follows:
At the beginning of the inhalation phase, when the bellows 9 is compressed, that end of the valve part 7 which cooperates with the outlet 3 is attracted by the magnet 11, so that the primary valve is opened. The pressurized oxygen then flows from the chamber 2 to the injector 4 and from there via the linear throttle 16 into the duct 5 leading to the patient's respiratory system. whereby, in turn, the flexible partition wall 21 is bulged. Since this partition has an essentially invariable effective area of action, it moves at a speed corresponding to the primary flow velocity of the gas flowing in the channel 5, and for this reason the distance by which the flexible partition is bulged in a certain period of time is proportional the volume of gas flowing through the channel 5 during this period of time. After the partition 21 has bulged by a certain amount, the actuating pin 23 causes the secondary control valve 24 to open, as a result of which gas can now enter the bellows 9. As the bellows is inflated, the force of attraction between the magnet 11 and the end of the valve part 7 cooperating with the outlet opening 3 decreases until the force of attraction between the fixed magnet 10 and the other end of the valve part has increased. Now the valve part swings abruptly around the pin 8 and closes the outlet 3, whereby the inhalation phase is ended. The duration of the exhalation phase is determined by the period of time which the bellows 9 needs to be compressed again. This period of time can therefore be determined by setting the valve 13 accordingly.

At the end of the inhalation phase, the valve part 7 moves back into the position in which it is closes the outlet 3, whereby the inlet 29 is automatically opened and consequently the one under pressure standing oxygen can flow through the channel 28 and the pressure relief valve 27 opens. The oxygen jet flows out via the valve 27 and at the same time effects this valve as a result of the ejector effect the suction of breathing gas from the space 19 of the volume control chamber, so that the flexible Partition 21 can return to its original position, which is the beginning of each corresponds to the next inhalation phase.

Claims (8)

PATENT CLAIMS:
1.Automatic ventilator in which the flow of a breathing gas supplied under pressure from a gas source is controlled by means of a control valve to which the breathing gas is supplied and which in turn is under the control of a pressure-dependent regulator coupled to it, which, when there is a certain change in the pressure on it acting gas pressure closes the valve and opens it again after a certain period of time, characterized by a flow meter (16, 17, 18, 19) connected to the control valve (primary control valve 7, 3) in the direction of the gas flow in its path (5) , 20, 21, 22, 23) which, depending on the passage of a certain gas volume, triggers a control pulse of the pressure-dependent regulator in the sense of closing the control valve. 2. Ventilator according to claim 1, characterized by a further one with the flow meter (16, 17, 18, 19, 20, 21, 22, 23) functionally connected control valve (secondary control valve 24), which controls the flow of a pressurized fluid, the in turn the pressure-dependent regulator in the sense of closing the primary control valve (7, 3) influenced. 3. Ventilator according to claim 2, characterized in that the secondary control valve (24) also pressurized fluid supplied from the breathing gas source is related. 4. Ventilator according to claim 2 or 3, characterized in that the flow meter (16, 17, 18, 19, 20, 21, 22, 23) is equipped with a control element (21, 23), which respectively an opening after a certain volume of gas has passed through the flow meter of the secondary control valve (24) causes. 5. Ventilator according to claim 4, characterized by one when the primary control valve closes (7, 3) effective reset mechanism (27, 28, 29, 7) for resetting the control member (21, 23) in the starting position, so that the secondary control valve (24) is also closed will. 6. Ventilator according to claim 5, characterized in that the reset mechanism (27, 28, 29, 7) is operatively connected to the primary control valve (3, 7) and essentially is operated simultaneously with this. 7. Ventilator according to one of claims 1 to 6, characterized in that the pressure-dependent Regulator in the form of an outlet opening (12, 13) with adjustable cross-section provided bellows (9). 8. Ventilator according to one of claims 1 to 7, characterized in that the flow meter (16, 17, 18, 19, 20, 21, 22, 23) contains a throttle (16) with a linear characteristic, which with respect to the primary control valve (3, 7) in the flow direction in the path (5) of the gas flow is switched. 1 sheet of drawings 1 209 557/19 3.