DE568887C - Compressed gas switch - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
January 27, 1933

REICH PATENT OFFICE

PATENT LETTERING

JVl 568887 CLASS 21c GROUP 35 ω

21 C ² S $ 59.

Gas pressure switch

Patented in the German Empire on May 4, 1930

Compressed gas switches have already become known in which to turn off If explosive substances are ignited, strong pressure is generated in the blower chamber of the switch, which separates the hollow contact pieces. As a result of the overpressure in the blow chamber, the flow During the explosion, gases developed through the hollow contact pieces into the open air and blow in the process the arc drawn between the contact pieces. As an explosive substance in particular Powder used, filled with cartridges, like a drum revolver are arranged in a drum. The drum is turned on again when the switch is turned on each time rotated by one division, so that a full cartridge when the switch is switched on is available, the initiation and implementation of the disconnection process for discharge is brought. The cartridge is ignited by a firing pin, which by means of an overcurrent relay is operated.

Such a pressure gas switch does not meet the requirement of a perfect one Operational safety. The switch fails if the cartridge fails when turned off is caused to ignite, whereby the switch does not turn off and an existing short circuit is not interrupted. With the small number of cartridges in a Have the drum accommodated, you have to check more often whether there are still loaded cartridges are present, and the fired cartridges must be timed through loaded cartridges be replaced. If the cartridges fired are replaced as a result of carelessness of the operating staff, it can be switched on again as if a When the cartridge is full, do not turn off the switch and interrupt the circuit in the event of a short circuit.

The invention consists in a compressed gas switch, in which explosive by ignition Substances that cause contact separation and by escaping the substances developed during the explosion Gases the arc is blown out, thereby making it operationally safe when switching off at least two cartridges filled with explosive or highly expandable substances have been used one of which, if the other fails, the operational 5 " Switching off the switch guaranteed. To increase the cartridge supply and thus To reduce the maintenance of the switch, a long charging strip instead of a drum becomes at the same time used, from which it automatically resembles a self-loading rifle for a Switch off the required cartridges. To finally prevent that as a result of carelessness of the operating staff, the switch after consumption of the the last cartridge is switched on again without a new loading strip being drawn in

*) The patent seeker stated as the inventor:

Anton Spitzer in Madrid.

according to the invention, a mechanical or electrical lock is also provided, which prevents the switch from being switched on again without a new charging strip. the Simultaneous application of the three specified measures offers a guarantee that the switch is always in a state in which it can be switched off in the desired manner he follows.

ίο Another embodiment of the invention that aims to improve a pressure gas switch in which the arc is caused by explosion gases is extinguished is that the explosive or highly expandable Substances that are in the blowing chamber of the switch ignited or released, act on a piston that is in a cylinder Compressed air, which flushes the explosion gases out of the blowing chamber. It becomes through it prevents the gases from precipitating on the wall of the blow chamber and by bridging insulating distances flashovers bring about. A particularly expedient embodiment of the switch results from the fact that, according to the invention, the entry openings for the compressed air from the compression cylinder into the blow chamber of the switch can be controlled by the piston on the the explosion gases work.

In Figs. 1 to 3 embodiments according to the invention are shown.

In Fig. 1 there is a cylinder 2 on post insulators 3 and 4 placed in isolation. Above the one drawn in the on position of the switch The piston 3, which sits on a shift rod 4 and slides downwards in the cylinder 2 when it is switched off, forms the Z-shape curved cylinder wall e, inen space which is closed by the cover 5. Of the The lid has a central round flange 6 around which a drum 7 rotates on the lid with twelve cartridges 8 is arranged. Of the twelve cartridges, two always stand through openings 9 in the cover with the cylinder space above the piston 3 in connection. Are these cartridges when switched off, the drum 7 is divided when switched on again turned further and thereby brought two new cartridges in front of the lid openings. The cartridges 8 complement each other automatically from a loading strip.

A hollow insulating body 10 is placed on the flange 6. Sitting on the insulating body 10 the annular contact piece 11 with the power connection 12. The expanding blowpipe 13 connects to the hollow contact piece 11. When the switch is switched on, the one at the top is in the conical bore of the contact piece Ii The end of the correspondingly conical counter-switch piece 14 is inserted, which is attached to the switch rod 4 is attached. At the lower end of the shift rod 4, which extends from the cylinder 2 extends out, the power supply line 15 is connected.

Are when switching off, for example in the event of overcurrent by means of an overcurrent relay, the two cartridges standing in front of the lid openings 9 are ignited, the explosion gases press the piston 3 in the cylinder 2 against the closing spring 16 down. The lower one slides cylindrical part of the contact piece 14 as a piston in the cylindrical bore of the insulator body 10 and the decker flange 6 sealing until it reaches the rounded lower Edge of the flange hole. Then he gives one up to the full exit cross-section increasing ring-shaped cross-section for the outflow of the switching gases freely, through a additional compressed air blowing can be flushed out of the cylinder space above the piston 3.

The compressed air blowing comes about that through the piston 3, the air into the Cylinder 2 is compressed below the piston. The mouth of the channels 17 in the lower When the cylinder wall is switched off, the piston 3 is moved downward in this way controlled that the passage of the compressed air from the space below the piston in the Space above the piston simultaneously with the release of the outlet opening for the switching gases by the contact piece 14 takes place. The compressed air flow is at the outlet from the duct mouths aimed at the arc.

The piston 3 is held in the position by locking the shift rod 4, in which he completely releases the mouth of the channels 17. The locking of the shift rod 4 also makes it impossible to switch the switch on again as long as the overcurrent is present consists. A magnetic coil 18 is excited by a key current and pulls its Iron core 19 as long as the overcurrent exists. This is the hinged to the iron core double-armed crank 20 rotated so that the locking rod 21 rotatably attached to the other arm of the crank over pushes the nose 22 on the switching rod 4 and prevents the switch from being switched on again. The interlock for switching the switch back on after the last cartridge has been used up is not shown.

The compressed gas switch, which is only partially shown in Fig. 3, differs from that Switch in Fig. 1 only through a different design of the cartridge feed and supplement. On the cover 5 nozzle 23 are placed, the holes through the cover 5 in the Space of cylinder 2 open above piston 3. Pipes 24 are connected to the connecting pieces 23 on, into which cartridges 8 are pushed out of a magazine 25, as in the case of the self-loading rifle, and to switch off with ignition needles 26 ignited

be det. The empty cartridge cases are ejected and reloaded by the Reaction of the explosion gases in the manner known from self-loading rifles.

Claims (3)

Patent claims: i. Compressed gas switch, in which the switching off of the switch and the deletion of the Interrupting arc by igniting explosive substances or by releasing it strongly expandable substances is effected, characterized in that when switched off at least two cartridges filled with explosive or highly expandable substances are consumed, which is from a loading strip in the manner of a self-loading rifle supplement automatically, and that a mechanical one after the last cartridge has been used up or electrical interlock prevents the switch from being switched on again. 2. Compressed gas switch according to claim 1, characterized in that the explosive or highly expandable substances that are in the blow chamber of the switch to ignite brought or released, act on a piston that is in a cylinder Compressed air that flushes the explosion gases out of the blowing chamber. 3. Compressed gas switch according to claim 2, characterized in that the inlet openings for the compressed air from the compression cylinder into the blow chamber of the switch of the compression piston be controlled by yourself. 1 sheet of drawings