DE282826C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

■ - JVi 282826 CLASS 30 k. GROUP

NEUFELDT & KUHNKE in KIEL.

Device for generating artificial respiration.

Patented in the German Empire on September 17, 1913.

The invention relates to a device for generating artificial respiration, through which Air pushed into the lungs and out. it is sucked out again. Pressing and In this case, suction does not take place, as in the known arrangements, in that the feed line to the lungs is closed and the discharge from the respiratory organ is opened and vice versa, but by the fact that pressure and suction nozzles alternate to act which push the air into the lungs and suck it out again.

There are thus some kind of closure organs in the path between the lungs and the outside air not provided at all. The invention is essentially characterized by a behind the breathing tube mounted membrane, through which the movement of the reversing organ for the alternating generation of the Overpressure and underpressure happens in the breathing tube and their due to the pressure differences caused vibrations automatically cause the switching movements of the control element.

The membrane is connected to a slide, which moves on a hollow cylinder which is used to guide the breathing gas and is provided with passages through which depending on the position of the slide, the gas to the suction or pressure chamber in the slide is fed. The membrane also serves as a carrier for suction and pressure nozzles, the shared chamber, located in the way of the inhaled and exhaled air, acts

A device designed in accordance with the invention is shown in section on the drawing. The two figures show the 'moving parts in their end positions. From the exemplary embodiment shown in FIGS. 1 and 2 it can be seen how easily a device for generating artificial respiration can be implemented using the inventive concept. '. A membrane δ is clamped in at the dividing point within a housing, which is essentially composed of two parts a, a _{x held together by a screwed-on ring c, for example.} In the lid of the chamber α , a pipe d is attached in its longitudinal axis, which is provided on the outside with a connector β for connection to an oxygen bottle, not shown. The flow rate can be changed with the regulating screw f.

At its lower end, the tube d has passages g and h. A slide,, can move axially on the tube, which is provided with a suction and pressure chamber k and /, which through the mediation of the channels g and h and the passages η and 0 provided in the guide sleeve m of the slide with the interior ^ of the pipe d can be connected. From chambers k and I , outlets and pipes j> and q lead to nozzles r and s, which act as suction or pressure nozzles.

These nozzles, like the slide i, are carried by the membrane b . . For this purpose, a sleeve t with passages u is initially provided in the middle of the membrane, in

which the slide is embedded. The passages provide a connection between the two chamber halves a, a _x . At the same point, surrounding the sleeve t , a shell-like body ν is attached to the membrane, the cover of which covers the slide i -w conical and adjoins the suction nozzles r Blowpipes χ which extend almost to the upper end of the chamber a and openings y open in the upper end of the chamber α opposite, which mediate the connection with the outside air. A conical tube ζ is also connected to the pressure nozzle s _and extends down into the chamber a x, from which the connection with the respiratory organs is established. The space enclosed by the shell ν and the lid w is therefore in the way of the inhaled and exhaled air that is transported through the

'20 nozzles is promoted.

The device works as follows:

In the position shown in Fig. 1, the breathing gas flows through the tube d, the passages h and 0 in the pressure chamber I and from there on through the through hole q into the pressure nozzle s, from where it passes through the conical tube ζ into the Respiratory organs and inflate the lungs. At the same time, _{a certain pressure arises in the chamber x} , which also weighs on the diaphragm & and moves it upwards when a certain limit is exceeded, whereby the slide i and the other parts carried by the membrane 5 move upwards until the slide butts against the bottom of the tube d . In this position the passage g communicates with the passage η and the breathing gas now passes into the chamber k and further through the lines ft into the suction nozzles r, under whose effectiveness the lungs are emptied again. The gas flows through z, the openings u, the pipes χ and the outlets y to the outside. As a result of this suction, a negative pressure is created under the membrane b , and this pressure difference, which is created under and over the membrane, finally again switches the membrane into the starting position according to FIG. 1.

The specified game repeats itself when you inhale and exhale and it becomes a causes automatic reversal.

Claims (3)

Patent-to sayings: 1. Device for generating artificial respiration, through which air is pressed into the lungs by means of pressure and suction nozzles and is sucked out of it again, characterized in that the movement of the reversing organ for the alternating generation of the overpressure and underpressure in the breathing tube ( U ₁ ) happens through a diaphragm (δ) mounted behind the latter, the vibrations of which, caused by the pressure differences, automatically cause the switching movements of the control element. 2. Apparatus according to claim 1, characterized in that the switching movement the membrane a connected to her, a suction and pressure chamber containing slide takes part, which on a the breathing gas-conducting hollow cylinder is guided in such a way that the breathing gas in the two end positions of the membrane vibrations is alternately fed to one or the other chamber. 3. Apparatus according to claim 1 and 2, characterized in that the switching movement the membrane also take part in the suction and pressure nozzles carried by the membrane itself. 1 sheet of drawings.