DE296257C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The object of the invention has the purpose of preventing losses from torpedoes, submarines and the like by making the sink point visible. This happens in contrast to other known descent position display devices in that the ejection a light buoy is only effected when the float (torpedo or the like) for a long time below a certain set diving position, swims or aground stores. This is achieved according to the invention in that as a result of direct action a control element that is activated by changing a piston valve position under tension a return spring is set to the relevant release depths when the float (torpedo) goes deeper a piston is moved by the water pressure, the rod of which is a resilient one Contact closes, in its circuit a glow wire (iron wire) for a powder charge is switched, so that the wire gradually glows and with a prolonged current connection then causes the powder mixture to explode.

This moves a gate valve piston that has a pressure channel for passage of compressed air, for the purpose of expelling those used in the floating body (torpedo, etc.) Light buoy, open. In the accompanying drawing the device for a torpedo is shown. It consists of the following Share:

i. the descent control element 1,

2. the electrical adjustable spring contact Io with circuit 11, battery 12 and Regulating resistor 13,

3. the glow wire 15 with powder cartridge ι S for the valve piston 17,

4. the light buoy 20-21 with light container 21 with the housing 22 for receiving the float indicator with unwinding drum 26 together with rope 25.

These parts are common in one of the rear chambers of the torpedo arranged and affect its buoyancy due to the relatively low weight insignificant.

The control element 1 is composed in a known manner from the cylinder body 2, the piston 3 with a fixed and movable piston rod 4, 4 ' and a spring 5 and is fastened in the lower part of the torpedo.

As a result of the open cylinder, the respective water pressure is constantly on the piston 3. The spring 5 located on the inside effects a pressure equalization and can be tensioned according to the varying pressure depths. For this purpose, the lower piston rod 4 'can be screwed to the piston, so that when the rod 4' is rotated, the piston 3 can only advance in the longitudinal grooves 5 'of the cylinder, but cannot rotate with it. A pointer 6, which runs along on the screw spindle 4 ', and a scale 7 located above it, serve to identify the various shot depths

Piston rod 4 is firmly connected to the piston head and is secured by a stuffing box seal led out of the cylinder interior. At its end it is on contact pin 9 of the electrical contactor 10 articulated. The electrical contactor 10 consists of the two resilient contacts 9, 9 ', which are adjustable in a split insulated frame 10 '. To the terminals of the Frame halves a circuit 11 is connected to a battery 12, a regulating resistor 13, an off switch 14 and the filament igniter 15 for the powder cartridge 15 'connected in series.

Depending on whether the torpedo runs directly into the ground or only depth fluctuations makes, d. H. temporarily goes below the set depth of shot. the piston 3 keep the contact device 10 closed permanently or only temporarily. In the first case Then the ignition wire 15 gradually heats up as a result of the permanent current short and the powder cartridge explode. In the latter case, on the other hand, there is no explosion one, since there is no effective heat as a result of the temporary power interruptions can form. On the amperage in relation to the fuse wire resistance eiregulated, must of course be observed, and with very easily ignitable powder mixture It is best to maintain an effective delay that you can either the amperage is reduced, or that the throttling of the heat generation is effected by placing the glow wire in an insulating sleeve, which is placed inside the powder pack, keeps trapped.

The powder cartridge 15 'with filament 15 is screwed into the air shut-off cylinder 16 as a cover in the example given. By doing The cylinder is the piston 17, which is held in the blocking position by the spring 18 while it is in the open position for the purpose of passage of the compressed air with two connecting pipes i8 ', i8' an air passage channel manufactures. So that the used powder gases escape after the cartridge explodes can, are below the piston 17 in the cylinder jacket in the highest blocking position several small openings 19 are provided.

The buoy itself is made up of the actual floating body in a known manner 20, which is provided with cork rings 20 ', and the luminous container filled with calcium, etc. 21 together. It is in a cylindrical housing 22, which is within the Torpeclo chamber is attached, inserted and held in place by spring pawls 22 '. The feathers cause at the same time that the head piece. 60 is pressed firmly onto the container wall 23 and a ring cana with her! forms into which the compressed air required to expel the float enters. After the buoy has floated up, the glued holes 24 'make it possible to ter way created an access of the water to the inflammation of the calcium. At the bottom Sleeve part 24 are several cork rings 20 'to increase the buoyancy of the buoy attached, and inside the sleeve, the cord 25 is attached in the upper lid, the Maintain communication with the sunken torpedo when the float is ejected target. A part of the cord is stored unrolled in the sleeve space so as not to tear when ejected by the sudden pressure. The other part of the cord is wound on a cable drum 26 which is attached to the housing 22. The mode of action of the electrical descent indicator device is as follows:

Should z. B. at 15 to 20 m water depth torpedoes are shot in, so on the control element 1 is a at about 12 m depth triggering electrical current circuit set. Here one takes at 15 m maxi- painting depth still 3 m to lock the current, so that if the torpedo goes into the ground the float release is guaranteed on a shallower place.

As soon as the torpedo remains below 12 m depth according to the example or aground is, the piston 3 in the cylinder, which is influenced according to the water pressure, becomes the circuit Keep 11 permanently closed, whereby the fuse wire gradually heats up and causes the powder cartridge to explode when heated accordingly. Through the expansion the powder gases, the piston 17 is thrown against its spring force upwards, so that the compressed air coming from the torpedo vessel or from a regulator can pass through to the annular channel, the flows under the buoy. This pushes the buoy out of its spring lock and arises automatically on the surface of the water as the rope unwinds due to its buoyancy a. At the same time 'is in a known manner through the water connection the calcium ignite and light up so that it is easy to find during the night the buoy and thus the torpedo is made possible.

Instead of the electrical ignition, z. B. on submarines by means of a firing pin mechanical ignition of the powder cartridge. The control unit 1 is set to a certain depth in this case. As soon as the vehicle is sinking has reached this depth, the piston rod releases a spring pawl that secures the resilient Releases firing pin, which in turn now causes the powder cartridge to explode.

Instead of the compressed air for the buoy expulsion, the powder gases can also be used directly, whereby the locking device 16 is then omitted.
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Claims (3)

Patent Claims: ι. Device for displaying the position of sunken or other floating bodies, submarines, torpedoes moving in different water depths by means of a buoy connected to the body by a line, provided with a light device and the like the specific depth appealing apparatus is released by means of an electric current connection and rises to the surface of the water, characterized in that the release of the buoy occurs indirectly or directly by the explosion of a powder charge, which is ignited by the electric current only when the body is during a a certain time below the certain water depth.
• 2. Apparatus according to claim 1, characterized in that a glow wire (15) is used for igniting the powder mass, which glowing wire gradually glows only after a longer duration of the current circuit. 3. Apparatus according to claim 1 and 2, characterized in that by the Pulyergase ■ a slide (17) moved is, the one to the holding space (22) of the buoy (21) leading compressed air line (18) for the passage of the compressed air causing the ejection of the buoy releases. 1 sheet of drawings.