DE195978C - - Google Patents

Description

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IMPERIAL

PATENT OFFICE

March 20, 1883

the priority

There are already trigger valves for torpedo ejection robots known in which the Compressed air inlet into the pipe shut-off valve is firmly connected to a piston of larger diameter, which is in a is arranged on the opposite side of the valve closed cylinder. These Side of the cylinder can both with the known device by a multi-way valve can be connected to the compressed air space of the valve as well as to the outside air. When deploying the valve to eject the torpedo, the compressed air acts on the valve disc and the two Piston sides. Then, for the purpose of ejecting the torpedo, the cylinder space with the External air is connected, so the valve is due to the pressure on the other side of the piston, the pressure on the smaller one Valve disc overcoming air pressure opened and the torpedo ejected. That The valve is therefore only opened by the difference in surface pressures, i.e. slowly, because all the air pressure does not have an effect.

But there must also be a special one between the valve and the discharge tube Check valve can be arranged, which allows the entry of the water into the valve after Ejection of the torpedo prevented.

According to the present invention, 35

45

all the air pressure acting on the valve head is used to push the valve open and also avoid a special check valve will.

For this purpose, the valve space between the piston and the valve disk is used divided into two parts by a partition, one of which acts as a cylinder for the one with the valve disk connected piston is formed. The cylinder stands with the valve chamber through a channel with multi-way valve in connection, so that the compressed air only from the side facing the valve acts on the piston. The valve itself opens after the discharge tube so that it is released from the one entering the discharge tube Water is pressed on its seat and thus acts as a check valve.

In addition, to keep the valve in the closed position usually a spring is arranged between the piston and the septum.

Will the cylinder space with the outside air after providing the exhaust valve connected, the valve becomes fast with all of the air pressure on it pushed open as the piston is relieved of any pressure.

In the drawing, an embodiment of the trigger valve in Fig. 1 is in Longitudinal section shown; Fig. 2 shows the

bumper in the front part of a submarine.

The valve housing α is provided with an inlet connection b for the pipe leading to the compressed air tank u (FIG. 2). The outlet opening c of the valve housing is in direct connection with the discharge tube d, to which the housing is attached by a connecting flange e. The valve disk / opening towards the ejection tube carries a packing g which rests on the seat h when the valve is closed and effects a tight seal. The valve disk f sits on a spindle i which is passed through a partition j dividing the valve housing α into two spaces. The upper space forms a cylinder k in which a piston m seated at the upper end of the spindle i plays. The spindle i is guided in a stuffing box η arranged in the wall j and is under the action of a helical spring 0 located between the piston m and the partition wall, which always tries to pull the valve disk f onto its seat.

The upper end of the cylinder k is open so that the outside of the piston m is under the influence of atmospheric pressure. A channel ρ with a three-way valve r is provided in the housing α , through which the cylinder k can be connected either to the valve housing or to a channel q leading to the outside.

The device works as follows:

After the torpedo is inserted into the ejection tube d and the cover provided at the outer end of the tube is removed, water enters the tube d and surrounds the torpedo. The compressed air is then admitted, enters the housing α and presses against the valve disk f. Since the cock r is in the position shown here, the compressed air passes through the channel ρ into the cylinder k under the piston m, its surface is larger than that of the valve disk f, so that the valve disk f is retained on its seat.

When the torpedo is to be ejected from the tube d, the tap r is turned by means of the handle s until the connection between the cylinder k and the outside air is established through the channels ρ and q . The compressed air contained in the cylinder k escapes to the outside through the channel q , so that the valve is now quickly pushed open by the air pressure acting on the valve plate alone and the compressed air can pass into the discharge tube d. As soon as the torpedo is ejected, the cock r is turned back into the position shown, whereby the connection between the cylinder k and the valve housing α is restored. The compressed air entering the cylinder k acts immediately on the piston m and pulls the valve disk f onto its seat. When the inflow of the compressed air coming from the container u is interrupted, the helical spring 0 comes into effect and closes the valve f.

Claims (1)

Patent claim: Trigger valve for torpedo underwater discharge tubes operated with compressed air, in which the inlet valve for the compressed air into the tube is connected to a piston which, when the trigger valve is provided, is exposed to the pressure of the compressed air at the same time as the inlet valve, so that the inlet valve is opened by relieving the piston, characterized in that the housing (a) of the trigger valve is divided by a partition (jj into two spaces, which are connected in a known manner by channels (p, q) and a multi-way valve (r) to each other and to the outside air, and that the upper of the two spaces forms the cylinder (k) for the piston (m) , while the valve ff), in order to also act as a check valve, is arranged so that it opens after the discharge tube, so that when compressed air is let into the valve housing , is pulled by the piston (m) onto its seat (h) and when the piston is relieved from the compressed air acting on the valve alone will come across. 1 sheet of drawings.