DE3329485A1 - Respirator - Google Patents

Abstract

The invention relates to a respirator comprising a combination of a Venturi tube and an expiration valve. A Venturi tube (826) is displaceably accommodated in a hollow main body (817), the Venturi tube (826) and the main body (817) being designed at one end as an expiration valve (834 to 837), and a nozzle (851) connected to a diaphragm (861) being located on the other end of the Venturi tube (826), so that the expiration valve (834 to 837) closes and opens in connection with the action of a helical spring (841), in correspondence with the gas pulses supplied for the respiration. <IMAGE>

Description

VENTILATION DEVICE

The invention relates to a ventilator with a combination a venturi tube and an exhalation valve.

Previously the venturi devices and exhalation valve devices separate units in ventilators.

However, there is a need for improved separate venturi and exhalation valve devices, and in particular a need for a combination of these two units.

The invention is based on the object of providing a device of the latter Creating a way that enables high oscillation frequencies at maximum stroke volume, the opening and closing of the exhalation port is rapid, and the dead Space is kept as small as possible to avoid repeated inhalation of gas minimize and with the device operated from a single power source, assumes a safe state in the event of a power failure and is relatively quiet during operation is working.

The problem is solved by that in the claims and in the following described ventilator.

The advantages of the invention will become apparent from the following description a preferred embodiment in conjunction with the drawing in appearance step.

The drawing shows a cross section of a pneumatic device according to the invention Device with a combination a venturi tube and an exhalation valve, used in many types of ventilators to ventilate the lungs of mammals Can be found.

The ventilator 816 shown in the drawing with a combination of venturi and exhalation valve includes a generally cylindrical hollow main body 817 having a cylindrical opening 818 extending therein. On the main body 817, an exhalation opening 819 connected to the opening 818 is attached. An additional outlet 821 is also in communication with the opening 818 and is attached to the main body 817 so that it extends diametrically thereto. He will used to check airway pressure in port 818. The outlet shown 821 is screwed into the main body 817, with an O-ring 822 for airtight Sealing on main body 817 is provided. The opening 818 ends in a body side Airway opening 823 adapted to receive a suitable patient adapter, e.g. Mouthpiece or endotracheal tube for insertion into the patient's windpipe is provided. A generally cylindrical venturi body 826 is shaped so that it can be slidably attached in the opening 818 of the main body 817.

The venturi body 826 is fastened in a cylindrical sleeve 827 so that that the sleeve 827 moves with the venturi body 826. The venturi body 826 is provided at its front end with an annular flange 828 which fits into the front end of sleeve 827 engages. It is also at its midsection with one annular flange 829 provided, which engages the sleeve 827 with a force fit.

At its rear end is the Venturi body 826 with another annular flange 831 provided, which is at a cross-section L-shaped approach engages the rear end of the sleeve 827. The venturi body 826 is venturi-shaped Channel 833 provided, which extends axially to Venturi 826 extends and is open at both ends. The forward end of the venturi body 826 is with a beveled edge 834 in which there is a groove 836 with an inserted O-ring 837 is provided. The O-ring 837 serves as a valve device and is provided on one in the main body 817 immediately in front of the exhalation port 819 located conical valve seat 838 to rest.

A device consisting of a helical spring 841, one of which End rests against the extension 832 of the sleeve 827 and the other end against an annular Counter bearing 842 engages the main body 817, holds the Venturi body 826 with the associated Sleeve 827 in a position in which the O-ring 837, which serves as a valve part, is removed from the valve seat 838 is removed.

The venturi body 826 is at a cylindrical end 844 with a Provided thread, whereupon a cylindrical attachment 846 is screwed. At the top 846, parts of the same are cut out to connect with the one on the main body 817- To provide inlet 848 communicating openings 847. The remaining parts of the attachment 846 form L-shaped webs 849 to which a nozzle 851 is attached is that the central throttle bore 852 of the nozzle 851 is axial with the axis of the venturi-shaped Channel 833 of the venturi body 826 is aligned. Aligned with the throttle bore 852 a larger cylindrical bore 853 is made in the nozzle 851. In the hole An annular recess 854 is formed in 853 and carries an O-ring 856. An end cap 858 is screwed into the outer rear end of the main body 817. In the main body 817 is an annular recess 859 for receiving the outer annular edge of a membrane 861 made of suitable material, such as neoprene, exists, provided.

The membrane 861 extends over the inner surface of the connector cap 858 and carries a hollow membrane shaft 862 with a passage 863. The shaft 862 can be inserted into the bore 853 of the nozzle 851, so that with the O-ring 856 an airtight seal between the shaft 862 and the nozzle 851 is formed.

The passage 863 is aligned with an inlet port 864 in the end cap 858 and is related to it. The end cap 858 has a shoulder 866 which is suitable for the connection of source gas under pressure, e.g. periodic Gas pulses from a ventilator, is suitable.

The operation of a ventilator according to the invention is briefly described below described with a combination of venturi tube and exhalation valve. After manufacture the necessary connections to the 816 ventilator, source gas, e.g. air, Oxygen or a mixture of air and oxygen to the inlet port 866 of the End cap 858 connected. The outlet 821 can to ensure the pressure used in the patient's windpipe. It is now assumed that, for example Gas is pulsed to the inlet port 866 is supplied. These gas pulses get through the flow opening 864, the passage 863, the nozzle 851 and through the attachment 846 into the venturi-shaped channel 833 and thus into the patient's windpipe.

Since the gas pressure introduced through inlet port 864 only occurs at the Throttle bore 852 of the nozzle 851 drops, a pressure is built up behind the diaphragm 861, the membrane 861 with the hollow shaft 862 and thus the Venturi body 826 the associated sleeve 827 in the main body 817 is moved forward until the O-ring 837 rests against the valve seat 838 of the main body 817 and the exhalation port 819 locks. In this way the exhalation opening is closed in the same way in which an exhalation valve unit by the supply of air under pressure into the closed state is brought. The advantage of that shown in the drawing The arrangement is that as soon as no more gas is passed to the device 816 is, the spring 841 the slidable Venturi body 826 in its through the outermost Position of the shaft 862 of the membrane 861 brings back certain extreme position.

It has been shown that the inventive combination of a Venturi tube and an exhalation valve have numerous advantages over a summary of the separate venturi unit and the exhalation valve unit of the known ventilators having. These advantages include quick opening and closing of the exhalation port 819, which is carried out in such a way that the displaceable Venturi body 826 reacts very quickly to changes in the gas pressure behind the membrane 861.

As a result, immediately after the gas arrives in the nozzle 851 is actuated, the diaphragm is actuated and the slidable venturi 826 is advanced and the exhalation port 819 closed. Conversely, when the Gas supply to the nozzle 851 the spring 841 the displaceable venturi body 826 quickly back to the starting position. This creates a much higher oscillation frequency at maximum stroke volume. Due to the low inertia of the invention Ventilator molding parts could run without frequencies of 30 Hz that the device went out of phase.

Claims (6)

VENTILATION DEVICE Claims: Ventilation device with a venturi tube and an exhalation valve, characterized in that - the Venturi tube and the exhalation valve are combined, the ventilator including: a Main body (817) having an opening (818) extending axially therein and with a body-side airway opening (823), - a venturi body (826), - devices for slidably receiving the venturi body (826) in the opening (818) of the main body (817), - the main body (817) being provided with an exhalation opening (819), connected to port (818) and from the body side airway port (823) is spatially separated and - the main body also having an inlet (848) is provided for entrainment of air or gas, which is connected to the opening (818) and is spatially separated from the exhalation opening (819), - the venturi body (826) a venturi-shaped channel (833) extending axially therein and one attached to it nozzle (851) with an axially with the venturi-shaped channel (833) has aligned bore (852), - a membrane (861), which on the main body (817) is attached and extends transversely to the opening (818), - an end cap (858) on the main body (817) with an inlet port (864) that connects to one side of the diaphragm (861) is in connection, - devices for connection between the membrane (861) and the nozzle (851), - devices for establishing a connection between the Inlet port (864) on end cap (858) and nozzle (851) through the membrane (861), so that when gas is supplied to the inlet (864) of the cap (858) the gas reaches the nozzle (851) and acts on the membrane (861) and the venturi body (826) moved from a first to a second position, wherein the nozzle (851) on the venturi body (826) containing device the admission of air from the inlet (848) to the venturi-shaped canal (833). 2. A ventilator according to claim 1, characterized in that it k e n n z e i c h n e t that - the one between the venturi body (826) and the main body (817) Occlusion forming device attached to the front end of the venturi body (826) Contains valve means (837). 3. Ventilator according to claim 1, characterized in that it is e k e n n z e i c h n e t that - the venturi body (826) extends essentially over its entire length includes extending sleeve (827). 4. A ventilator according to claim 1, characterized in that it k e n n z e i c h n e t that - the device for fastening the nozzle (851) contains an attachment (846), the one on the venturi body (826) is attached and has openings (847) that connect between the channel (833) of the venturi body (826) and the inlet (848). 5. A ventilator according to claim 1, characterized in that it k e n n z e i c h n e t that - with the inlet (848) a fail-safe overpressure safety valve connected is. 6. A ventilator according to claim 1, characterized in that it k e n n z e i c h n e t that - a fail-safe pulse regulator is connected to the exhalation opening (819) is the one with the environment related opening and device for closing this opening during the supply of gas to the nozzle (851).