DE315190C - - Google Patents

Description

ISSUED ON OCTOBER 31, 1919

The invention relates to a device for increasing the pressure of the compressed air for compressed air machines, in particular for torpedoes.
The device consists of the high-pressure and low-pressure boiler, between which there is a fuel gasifier and an explosion chamber, with a pressure reducing valve of the high-pressure boiler for some of the air flowing out through the gasifier

ίο explosion chamber directs while another Part goes directly into the low-pressure boiler. The invention consists in that a Piston of a cylinder connected to the explosion chamber, the one with the mini-cock communicates, the valve closes as soon as in the explosion chamber and in the Low pressure boiler a certain pressure is present, with a valve opening the opening between the explosion chamber and the low-pressure boiler and by expansion of the mixture in the explosion chamber both valves are opened again while they are after Pressure equalization in both rooms close again by themselves, until they can be removed of compressed air from the low-pressure boiler as a result of the overpressure in the explosion room open and new compressed air in the low pressure boiler and combustible mixture in let the explosion room enter.

In the drawing, the device is shown in two figures, namely shows:
Fig. Ι a longitudinal section and
Fig. 2 is a horizontal section.
The compressed air boiler a, a high pressure boiler, has the discharge pipe b with the miniature tap c, a three-way tap, which has a supply line d to the gasifier chamber e and a direct line f to the low pressure boiler g. The carburetor, for example a surface carburetor, with the petrol container h, with its airtight filler opening i and the screw valve k, is connected through the opening / to the explosion chamber m , the opening η of which opens into the low-pressure boiler g. The explosion chamber m is connected to a small cylinder 0 with piston fi , the piston rod q of which engages the lever r of the lower valve, so that the piston p closes the valve when it is pressed down.

The opening η after the low-pressure boiler g is equipped with a valve s which is kept open by a spring t. The valve rod u of the valve s also leads to the reducer c and engages the other end of the lever r ¹ , so that the passage η is blocked by means of the valve s as soon as the reducer c closes. The ignition consists of the high-voltage ignition dynamo v, the spark plug w and the breaker of the primary winding of the armature. The interrupter is formed by the forked lever χ with the contact spring, which is made to swing out by a thumb disk connected to the mini-cock c and causes the ignition in a known manner.

The explosion chamber m is double-walled and is cooled by water, namely

In torpedoes, the seawater can enter the partition wall from the outside and again flow away.

The device works as follows:

The air enters the low-pressure boiler g through the previously opened tap c, partly through pipe f , and partly through pipe d into the gasifier chamber e. Here

ίο the two conical wire sieves y lift out of the fuel and the air flowing through the sieves is enriched with fuel vapor. This flammable mixture now lifts the check valve ζ and flows into the explosion chamber m . As soon as a certain pressure is now present in the boiler g and the explosion chamber m , the piston p is pressed down and this closes the tap c. In addition, the non-return valve ζ closes and the valve c closes the poppet valve s. At this moment the spark plug w ignites. The explosion in chamber m pushes the poppet valve s open, which controls the valve |

til c opens; this allows compressed air to flow into the gasifier chamber e and into the low-pressure boiler g. The influx of compressed air in g increases the pressure in g and m and the piston p is depressed, which causes the valves c and s to close. The valve ζ remains closed during this time. Now reduces the pressure in the boiler g by discharge of compressed air in the compressed air engine, so opens as a result of the excess pressure in the explosion chamber, the valve m s. In this case also the valve opens c and lets air into the low pressure boiler g and the prepared fuel mixture of the Carburetor compartment e

enter the explosion chamber m 40 through the valve ζ until the increasing pressure in the chambers m and g depresses the piston -p again, which in turn closes the valve c again and blocks the output η to the low-pressure boiler g by means of the valve s, in 45 which moments the second ignition takes place in m.

Claims (1)

Patent claim: Device for increasing the pressure of the compressed air intended for introduction into the cylinders of a compressed air machine, characterized in that the action of the air flowing into the low-pressure boiler (g) and the combustible mixture in the explosion chamber (m) causes the piston (P) to lower the tap (c) and the opening (s) between the explosion chamber (m) and the low-pressure boiler (g) blocks, which is after. The valve (s) that opens the explosion in the room (m) opens the valve (c) again to allow air to flow into the gasifier to prepare a new combustible mixture, and after pressure equalization between the explosion = room (m) and the low-pressure boiler (g) the piston (p) closes the valve (c) and the valve (s) between the explosion chamber ( m) and the low-pressure vessel (g) again, while when air is withdrawn from the low-pressure vessel (g) to feed the compressed air machine, the overpressure in the explosion chamber (m ) moves the valve (s), which opens the tap (c) again and allows the fuel mixture to enter the explosion chamber {m) and air to enter the low-pressure boiler (g). 1 sheet of drawings.