DE3907082A1 - Ventilator for resuscitation and short-term ventilation - Google Patents

Abstract

The invention relates to a ventilator for resuscitation and short-term ventilation, which is particularly used in the event of a large number of injured people in disasters where there is a limited supply of compressed air and compressed oxygen. In controlled or assisted ventilation the oxygen is exclusively used as respiratory gas. On connection of several ventilators in parallel, several injured people can be ventilated by a single therapist. According to the invention, one or more O2 connections supply the suction side of the injector via self-locking quick-action coupling, a supply line and a directional control valve. At the outlet side, the injector is connected to a non-return breathing valve with patient connection and expiration connection via a cough valve, a pressure relief valve and a tube, to a control unit via a trigger, to a horn via an amplifier and an AND gate, and to a directional valve via a breathing pressure meter and a second directional control valve.

Description

The invention relates to a ventilator for the reanima tion and short-term ventilation with a breathing gas product line, consisting of a check valve, a filter, a Directional control valve, a flow control valve and an injector. The users The invention takes place in particular in the case of mass accumulation of Damaged in disaster situations with limited pressure air and pressure oxygen supply.

A pneumatically controlled respirator is known which the control a calibrated setting of the respiratory and the breathing time ratio. The sizes for the breathing rhythm must be set independently of one another. This solution is implemented by a control system ordered directional valve that can be operated by hand and a an injector circuit auxiliary valve, the pneu is to be actuated matically by their mutual and to an OR gate continued signal link and through the formation of a superimposed and separable tax stretch. The one with the hand-controlled directional valve first control section is in between a pressure reducer and the control system as well as the pneumatically controlled Wegeven til and the OR gate existing signal links ge switches. The ver with the pneumatically controlled directional valve The second control section is in the one between Wegeven til for pressurized oxygen and an adjustable throttle as well the hand-operated directional control valve and the OR gate Signal links switched. One of the pneumatically controlled Directional valve via an adjustable throttle third control section joins the inspiration line, which in turn with one connected to the controller Threshold switch and a signal linked to it another directional control valve with manual operation and one after it connected respiratory pressure meter is connected (DD-WP 1 30 309).  

The disadvantage of this solution is that in the event of a disaster the operation of several ventilators by just one beat mung therapists a considerable operating effort, caused by the number of manually controlled directional valves is available. Furthermore the operator is required to do harm to everyone set the respiratory rate according to the requirements len must what a ventilation therapist of medium qualifi cation is difficult.

The aim of the invention is to provide a ventilator for creating resuscitation and short-term ventilation is easy in its structure, light, economically favorable, with low gas consumption and with few requirements for operation rer ventilators of the inventive construction for ventilation of several victims by only one respiratory therapist medium qualification at different respiratory gas concentrations of the adjustable tidal volume.

The object of the invention is to develop a ventilator for resuscitation and short-term ventilation, which uses the limited oxygen available in controlled or assisted ventilation only for breathing gas purposes, but without an uneven oxygen distribution due to different breathing gas consumption values of the injured person when several ventilators are operated in parallel to allow the injured. According to the invention the object is achieved in that one or more O ₂ connections are optionally fed via a self-closing quick coupling, a feed line and a first directional valve to the suction side of an injector. The injector has at its second output a first connection via a trigger with a controller, a second connection via an amplifier with a horn via an AND gate, the second input of which is linked to the controller via a parallel connection of a delay element and a diode and a third connection via a respiratory pressure meter to a directional valve via a second directional valve, which has a direct connection to the control. The first outlet of the injector is connected to a patient connection and expiration connection via a cough valve, a pressure relief valve and a corrugated hose with a non-rebreathing valve. The cough valve is also connected to a buffer vessel and via a check valve and a filter to the atmosphere and also to the first directional valve, which also has a direct connection to the control.

It is appropriate that the check valve is a first connection for control and has a second connection to the filter and that the directional valve of the breathing gas product line with the control connected is.

Control is via the check valve and the injector via the check valve, the filter, the directional control valve and the flow valve with the same pressure level of the drive medium compressed air provided.

In addition to adjusting the tidal volume on the flow valve, its oxygen content can be influenced. Depending on the total amount of O ₂ available, the number of injuries to be supplied and the assignment of the 1 to n O ₂ connections for the injured person, the necessary and possible oxygen content is entered into the suction side of the injector the coupling of 1 to n supply lines in the order of magnitude of 3 l / min of O ₂ each is continuously initiated via self-closing quick couplings, stored in a buffer vessel and supplied to the injured person in the rhythm of ventilation. In this way, concentration levels of close to 21, 40, 60 and 80% O ₂ , which are sufficient for resuscitation and short-term ventilation, are possible. The difference between the amount of O ₂ fed in and the breath volume is drawn from the atmosphere via the filter and the check valve by the injector.

In the inspiration phase, oxygen is released in the first way valve sucked in by the injector and via the single-tube patient connection to the non-rebreathing valve using a corrugated hose Patient connection forwarded. Ensure fixed valves for the basic function and do not require any setting decisions of the respiratory therapist. So the cough valve enables the Ge damage the intake of a larger amount of breathing gas, the over  pressure relief valve secures the breathing circuit against impermissible Overpressure off and the trigger automatically enables the assi constant ventilation.

In the expiratory phase, the function of the not relief valve necessary relief of the breathing gas supply line secured from breathing pressure by the second directional valve, which a directional valve connects and the gas entry into the Breathing circuit prevented and thus enables assisted ventilation light. The directional valve on the injector is also used for this sealing necessary, which is closed during expiration.

The control functions for the Wegeven reduced to a minimum Tiles are initiated from a controller. In this tax The signals for assisted ventilation and the only important warning condition in the context of resuscitation and short-term ventilation - the acoustic warning when you are not traveling ventilation pressure - processed logically. For this The warning state is the respiratory pressure on the by means of an amplifier Control signal level raised and with a delay control control signal negated in time to an AND Given gates. If there is no breathing pressure, it sounds during the Inspiration phase a pneumatic horn that detaches a Pa client connection or falling drive pressure than the ent outgoing, life-threatening conditions.

The warning condition is reprocessed from breath to breath. The control signal is activated during the expiratory phase Diode removed without delay.

The solution of the ventilator for the reani according to the invention Mation and short-term ventilation should be based on an execution game will be explained in more detail.

As shown in the drawing, the compressed air is supplied via a check valve 1 , a filter 2 , a directional control valve 3 and a flow valve 4 to an injector 5 . This line of respiratory gas products is known. It is connected to a control 6 . One or more O ₂ connections are connected to the suction side of the injector 5 via a feed line 7 and self-closing quick couplings 8 . The O ₂ supply is stored in a buffer vessel 9 . The injector 5 also has a connection to the atmosphere on its suction side with a filter 10 via a check valve 11 .

A non-rebreathing valve 13 with a patient connection 14 and an expiration connection 15 is connected via a corrugated hose 12 .

The injector 5 is connected at its first outlet with a cough valve 16 and a pressure relief valve 17 . The second output of the injector 5 has a connection to a trigger 18 , which is linked to the controller 6 , a further connection via a directional valve 19 to a directional valve 20 and another connection via an amplifier 22 and an AND gate 24 to one Horn 25 . The AND gate 24 is connected on the input side to a parallel connection of a delay element 23 and a diode 26 , which has a direct connection to the controller 6 .

On the output side, the injector 5 is also connected to a respiratory pressure meter 27 .

A directional control valve 21 is arranged on the suction side of the injector 5 and also has a connection to the controller 6 .

The advantage of this invention is that the low loading a respiratory therapist up to three ventilators can operate at the same time.

When several ventilators are operated in parallel, it is possible to continuously supply the available oxygen to three victims in the order of 3 l / min O ₂ supply. If necessary, the respiratory therapist can redistribute the valuable oxygen in a variety of ways, with concentration levels of close to 21, 40, 60 and 80% O _2, and control it at a glance due to the routing of the lines.

In addition, the failure to achieve the desired ventilation pressure, e.g. B. in drive gas pressure drop or in leaks in Pa system, signaled by an acoustic warning.  

List of the reference symbols used:

1 check valve
2 filters
3-way valve
4 flow valve
5 injector
6 control
7 supply line
8 Quick coupling
9 buffer vessel
10 filters
11 check valve
12 corrugated hose
13 Non-rebreathing valve
14 patient connection
15 Expiratory connection
16 cough valve
17 Overpressure relief valve
18 triggers
19 way valve
20 directional valve
21 way valve
22 amplifiers
23 delay element
24 AND gates
25 horn
26 diode
27 respiratory volumeter

Claims (2)

1. Respirator for resuscitation and short-term ventilation with a breathing gas product line, consisting of a check valve, a filter, a directional control valve, a current valve and an injector and with a controller, characterized in that one or more O ₂ connections via a self-closing quick coupling ( 8 ), a feed line ( 7 ) and a first directional valve ( 21 ) are fed to the suction side of the injector ( 5 ), which at its second output has a first connection via a trigger ( 18 ) to the controller ( 6 ) , A second connection via an amplifier ( 22 ) with a horn ( 25 ) via an AND gate ( 24 ), the second input of which is linked to the controller ( 6 ) via a parallel circuit of a delay element ( 23 ) and a diode ( 26 ) and has a third connection via a breathing diameter ( 27 ) with a directional valve ( 20 ) via a second directional valve ( 19 ), which has a direct connection to the control ung ( 6 ) and that the injector ( 5 ) at its first outlet via a cough valve ( 16 ), a pressure relief valve ( 17 ) and a corrugated hose ( 12 ) with a non-rebreathing valve ( 13 ) with patient connection ( 14 ) and expiration connection ( 15 ) and that the cough valve ( 16 ) with a buffer vessel ( 9 ) via a check valve ( 11 ) and a filter ( 10 ) is connected to the atmosphere and to the directional control valve ( 21 ), which is a direct connection to the controller ( 6 ). 2. Ventilator for resuscitation and short-term ventilation according to claim 1, characterized in that the check valve ( 1 ) has a first connection to the controller ( 6 ) and a second connection to the filter ( 2 ) and that the directional valve ( 3 ) with the controller ( 6 ) is connected.