DE2813270A1 - Adjustable lung respiration appts. - has hand pump connected to converter regulating flow controller in inhalation pipe - Google Patents

Abstract

The lung respiration apparatus has inhalation and exhalation pipes, a pressure source for the respiratory gas, and a pressure sensitive converter reacting to the pressure in the system. This controls via an electronic system a flow regulator between source and inhalation pipe, and also one in the exhalation pipe. A hand-operated pump (15) is provided, with a connection (12) to the converter (10). The latter generates a signal proportional to the pressure difference between this connection and that in the system, so as to control the flow regulator (4) in the inhalation pipe.

Description

Lung ventilator

The invention relates to a lung ventilator with a Ventilation system, which has an inhalation tube, an exhalation tube, a pressure source for the ventilation gas and a pressure-sensitive, on the pressure in the ventilation system having responsive converter where between the pressure source and the inhalation tube and one in the exhalation tube each controlled by the converter via an electronic system Flow regulator is arranged.

A lung ventilator of this type is described in DE-AS 17 66 873 known. This device is suitable, for example, for ventilating a patient during a Anesthesia. On the part of the doctor, there is often a desire to change the breathing phases, e.g. in the Set manually during the initial phase or during anesthesia, instead of respirator to control. This can be done by removing the connection lines from the ventilator to be removed from the patient and consisting of the patient being connected to a hand pump consisting of a rubber bladder and a connecting hose. The patient breathing gas can now be supplied by actuating the bladder. Upon termination The manual supply of gas requires the patient to be reconnected to the ventilator will. The process of changing the hose is very annoying for the doctors.

The invention is based on the object of a lung ventilator of the type mentioned to create in which the breathing phases of the patient The doctor's request can be set manually without the patient being informed Ventilator must be disconnected.

This object is achieved according to the invention in that a hand-operated Pump is present and the converter has a connection for this pump and is designed such that it is one of the pressure difference between the pressure at this Connection and corresponding signal in the ventilation system for controlling the flow rate regulator generated in the inhalation tube. Due to the fact that the hand pump is directly on the lung ventilator connected, the patient can also manually control the gas supply remain connected to the ventilator. A hose change is for a manual one Control of ventilation is therefore not necessary.

Further details of the invention emerge from the subclaims. The invention is described below using an exemplary embodiment shown in the drawing explained in more detail.

The figure shows a schematic view, shown partially in section a lung ventilator according to the invention.

In this figure, the reference numeral 1 is a pressurized one Pressure source denotes, for example a motor-driven pump or a storage container for breathing gas that is # supplied to the ventilator under pressure, which is preferably corresponds to the maximum pressure applied to the patient's airways and lungs is compatible. The source 1 is through a flexible pipe 2 or a hose connected to the supply of ventilation gas with the breathing system 3 of the patient. In the tube 2 there is a flow regulator 4 which controls the flow of the ventilation gas regulates the respiratory system 3 of the patient. The patient's respiratory system 3 is next a flexible pipe 5 or a hose connected. A flow valve 6 opens that Tube 5 during the exhalation phase. During the inhalation phase, the flow rate regulator is 4 open and the flow valve 6 closed, during the opposite conditions prevail during the exhalation phase. A ventilation pause can be achieved by simultaneous Closing the controller 4 and the valve 6 can be achieved.

The flow regulator 4 and the flow valve 6 are of one electronic, preferably transistorized system 9 to achieve the desired Flow rate controlled, creating the desired respiratory rate and the desired The relationship between inhalation and exhalation phases is observed. Likewise is one Desired break can be achieved if there is such a break between the phases should be. A converter 10 is connected to the electronic system 9. The implementer 10 delivers via the connection 20, 21 to the electronic system 9 an electrical difference signal for the pressure difference between the pressure in Ventilation system and the pressure at the output-side end 11 of the converter 10.

The invention takes advantage of the fact that said differential pressure signal the control of the flow regulator 4 can be used as a basis.

If you want to set the breathing phases manually, one is on the output side End 11 of the converter 10 arranged connection 12, which is usually into the atmosphere leads, a manually operated pump 13 is connected. The pump 13 has a rubber bladder 14 with a suction valve 15 and is connected to the connection 12 via a line 16 of the converter 10 connected. On line 16 there is a pressure relief valve 17 for limiting of the pressure generated by the rubber bladder 14. Furthermore is on the line 16, a pressure measuring device 18 for measuring the pressure generated by the rubber bladder 14 connected.

When the rubber bladder 14 is actuated, the valve opening 19 closes of the suction valve 15, so that the pressure generated by the rubber bladder 14 via the line 16 reaches the output end 11 of the converter 10.

The converter 10, which is a differential pressure transducer, now generates a the pressure difference between the pressure in the breathing system and the pressure at the connection 12 corresponding signal which is sent via the connections 20,21 to the electronic system 9 is fed. The electronic system 9 controls according to the supplied Signal the flow rate regulator 4 and the flow valve 6, the flow rate regulator 4 in the inhalation tube 2 as a function of the amount of gas flow from the The pressure in the rubber bladder 14 is regulated and the flow valve 6 in the exhalation tube 5 is opened or closed. When the rubber bladder 14 is released, the valve opening opens 19 again so that air can flow in to fill the rubber bladder.

If too much pressure is accidentally created by the rubber bladder, air flows through the opening 23 of the pressure relief valve 17 into the atmosphere.

The gas supply to the patient can be done manually using the device described can be controlled even though the patient is connected to the ventilator.

Claims (4)

Claims Qi lung ventilator with a ventilation system, an inhalation tube, an exhalation tube, a pressure source for the breathing gas and a pressure sensitive transducer responsive to pressure in the ventilation system has, in which between the pressure source and the inhalation tube and in the exhalation tube one flow rate regulator each controlled by the converter via an electronic system is arranged that a hand-operated Pump (13) is present and the converter (10) has a connection (12) for this pump (13) and is designed such that it is one of the pressure difference between signal corresponding to the pressure at this connection (12) and in the ventilation system generated to control the flow regulator (4) in the inhalation tube (2). 2. Lung ventilator according to claim 1, d a d u r c h g e k e n It should be noted that the pump (13) is a rubber bladder (14) which is connected via a line (16) can be connected to the converter (10). 3. Lung ventilator according to claim 1 and 2, d a -d u r c h g e It is not indicated that an overpressure valve (17) is provided on the line (16) for limiting of the pressure is arranged. 4. Lung ventilator according to one of claims 1 to 3, characterized it is noted that a pressure measuring device (18) is attached to the line (16) connected.