DED0019966MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: March 5, 1955. Advertised on June 7, 1956

GERMAN PATENT OFFICE

Withdrawal signal devices for breathing apparatus operated with compressed gas are known. At a Group of such devices, the warning device is acted upon by a high-pressure gas Membrane controlled. This has the disadvantage that the membrane is constantly under heavy strain and is therefore prone to failure.

The invention aims at a retreat signal device simple design. The invention consists in that a nozzle in the gas supply line or a control element that is acted upon by the pressures on both sides of the nozzle is installed, when a certain pressure difference is exceeded, a valve connected in parallel to the nozzle opens. According to the invention, the nozzle is used to initiate the signal output. The usage A nozzle has the advantage that it is insensitive to high pressures and is less prone to failure is. As long as there is still a sufficient gas supply in the compressed gas tank and consequently If there is still sufficient pressure, the pressure drop across the nozzle is relatively small. Sinks on the other hand, the pressure in the compressed gas tank, the pre-pressure of the nozzle also decreases accordingly. Below A certain pressure in the gas supply line or in the reservoir then increases the pressure difference between the pressure upstream and downstream of the nozzle is so considerable in certain cases indicates that the control member acted upon by the two pressures responds and one of the nozzle

609 529/107

D 19966 V161a

valve connected in parallel is opened. In other words, the nozzle is so according to the invention built into the supply line so that when the supply pressure falls below a certain minimum value, especially in the inhalation phase, a pressure drop occurs behind the nozzle. The control element responds to this and opens the valve connected in parallel to the nozzle. Since now compressed gas through the Valve flows, the pressure difference is equalized, so that the valve is closed again. As soon as the pressure difference exceeds a certain level, the valve is opened again. The device can now be designed and dimensioned in such a way that within one inhalation the valve is opened several times. This creates a knocking sound that can be heard by the device user indicates - that the pressurized gas is running out.

A membrane or a piston displaceable in a cylinder can serve as the control element.

The nozzle can be built into the device at any desired point. A simple design consists in that the nozzle is arranged in the control member. If the control element is a piston is used, this can be performed in the cylinder with such a game that this function the nozzle exerts. However, the nozzle can also be arranged in the valve.

In all cases, it can. still appropriate be to arrange an acoustic signal emitting device behind the valve. That from the Gas escaping from the valve generates short whistling tones in this device, for example.

In the drawing, three embodiments of the invention are shown schematically in section in FIG. 1 to 3 shown.

In the embodiment according to FIG. 1, the breathing gas line is connected to the bore 1 of the housing 2 connected. From this hole 1, a bypass line 3 leads to space 4, which is through a Membrane 5 is complete. This is under the action of a compression spring 6 and is with a Valve tappet 7 is provided, which can act on the valve 8 which rests against the valve seat 9. The Valve S is under the action of the spring 10. The Line 3 is connected to space 12 via a nozzle 11 connected, from which a line 13 leads to the lung-controlled valve or to a pressure reducer. After opening the shut-off valve of the compressed gas container, the compressed gas flows through the lines ι and 3 in, room 4 and there lifts the Diaphragm 5 against the pressure of the spring 6. The valve 8 is above the valve tappet 7 lifted from its seat 9, so that pressurized gas through the open valve into the space 12 and from can flow off here to the lung-controlled valve or to a pressure reducer. If after a short time Time the downstream fittings are filled with pressurized gas and a sufficiently high pressure in the Space 12 is created, the valve 8, 9 is closed again.

As long as the pressure in the storage container is high enough and is, for example, over 40 Atm:, there is a flow enough gas through the. Nozzle 11 for discharge 13 after. If the supply pressure drops further, however, not enough gas will flow in, see above that there is a pressure difference between spaces 4 and 12, especially in the inhalation phase, as a result of which the membrane 5 opens the valve 8, 9. By the gas flowing in through this valve the pressure difference is compensated. The valve closes again immediately. Immediately afterwards the pressure difference between rooms 4 and 12 can in turn exceed the set level, so that the valve 8, 9 is opened again to close again shortly thereafter. This creates Knocking noises that warn the wearer of the device. -The embodiment according to Fig. 2 differs differs from that according to Fig. 1 essentially in that a piston 14 takes the place of a diaphragm, which slides in the cylinder 15.

The embodiment of Fig. 3 differs from that of Fig. 2 once in that the Nozzle 16 in the piston. 14 is arranged so that a There is no need for a separate hole within the housing 2 for inserting the nozzle.

Furthermore, a device 17 emitting an acoustic signal is switched on behind the valve 8, 9, through which the gas flowing out of the valve 8, 9 must pass. With every opening go the valve emits a short whistle signal.

Claims (6)

PATENT CLAIMS: 1. Retraction signal device for with press 95 " gas-operated breathing apparatus, characterized in that in the gas supply line (3) a nozzle (11) and one through both sides the nozzle prevailing pressures acted upon control member (5, 14) is installed, which when exceeded At a certain pressure difference, a valve (8, 9) connected in parallel to the nozzle opens. 2. Device according to claim 1, characterized in that that as a control member a membrane (5) or a displaceable in a cylinder Piston (14) is used. 3. Apparatus according to claim 1 or 2, characterized in that the nozzle (16) in the Control member (14) is arranged (Fig. 3). 4. Apparatus according to claim 1 or 2 with a piston displaceable in a cylinder, characterized in that the piston in a cylinder with such a. Game is performed that this exercises the function of the nozzle. 5. Apparatus according to claim 1 or 2, characterized in that the nozzle in the valve closure body (8) is arranged. 6. Device according to one of claims 1 to S, characterized in that an acoustic signal emitting an acoustic signal behind the valve Device (17) is arranged. For this purpose ι sheet of drawings