DE627963C - Safety lamp powered by a compressed air dynamo with automatic switching device - Google Patents

Description

Safety lamp powered by a compressed air dynamo with automatic Switching device The invention relates to safety lamps, in particular mine lamps with compressed air drive, d. H. Lamps with a built-in compressed air motor that controls the generator for the current of the lamp drives directly. It is known in such lamps the exhaust air of the drive motor to control a safety switching device use. For this purpose, the exhaust air is drawn in through a bell jar to the outside directed towards an enclosed space in which the incandescent lamp is located. From here , from the exhaust air flows through narrow openings into the open, so that inside the bell jar a pressure on the liver against the ambient air arises. This overpressure acts in the Act on a switching device so that the incandescent lamp receives electricity as long as the There is overpressure. If the overpressure disappears as a result of a break in the bell jar, so the switching device comes into action and interrupts the power supply to Incandescent lamp, for example due to a short circuit. To operate the switching device one used z. B. a spring-loaded baffle plate that forms the outlet opening the exhaust air considerably and thereby the amount required for switching on the lamp Generated overpressure, or - a membrane through which the increased outlet air pressure Lamp room is closed off from the outside air.

According to the invention, such a membrane is used as a switching device having, by means of a compressed air dynamo powered safety lamp thereby even further improved that a regulating member is controlled by the membrane, which the size of the Allowed to adjust the exhaust air pressure and then keep it constant. This achieves that the exhaust air pressure can be adjusted to a minimum of overpressure, so that the greatest possible pressure gradient is available for the compressed air motor.

An embodiment of the invention is shown in the figure. The figure shows a safety lamp in the upper part in view and in the lower part Part in cut. In the upper part there is a power generator and a compressed air motor. In the lower part there is an incandescent lamp marked a, which is from a glass bell b- is surrounded. The bell b is by means of the union nut c and under an intermediate layer the rubber sealing rings and e attached to the housing part f. Via channel g, through which the power supply line h is also passed, the one enclosed by the bell jar stands Space with the space i filled with the exhaust air of the compressed air motor in connection.

The lamp a receives its current through their middle base contact and the supply line h from the power generator located in the upper part of the housing. the Power supply line h @ is also connected to the fixed contact h of the safety switching device in electrical connection. The lamp's current is diverted via the lamp socket.

The space enclosed by the bell b is largely due to one at the edge elastic leather membrane stiffened in the middle w against the room n completed, which is in connection with the ambient air via the duct. On the membrane there is a movable contact p, the one with the current discharge connected to the light bulb. As soon as the contacts p and k touch, the Incandescent lamp short-circuited.

A valve disk is connected to the membrane m via a connecting bolt r s connected, the edge of which is conical, so that it is when lifting or Lowering an opening releases more or less. This from, that. Valve disc s controlled The opening connects the exhaust air room i directly with the channel o, and thus with the Ambient air. Depending on the size of the opening exposed by the valve disk more or less air comes from the exhaust air room i into the open air. Through appropriate Adjustment of the valve disk can consequently reduce the overpressure in the exhaust air space and it can also be regulated in the room enclosed by the bell jar b.

During normal operation, the overpressure is high. in the light bulb room the membrane m. against the force of the spring q upwards, so that the contacts p and k are open and the incandescent lamp a receives power. In this open position, the Carry out slight movements of the diaphragm to regulate the valve setting without this closes the contacts. Only then. If through a break of the Bell jar the pressure in the space below the membrane m on the pressure of the ambient air .sinks, the membrane moves down so far that it contacts the contacts p and k shorts.

If the exhaust air pressure is a little too high during operation, for example by increasing the pressure in the supply line, the membrane then presses against it more strongly . the spring g and lifts the. Valve head s off a little so that the valve opening is enlarged. As a result, the exhaust air pressure drops again. If the exhaust air pressure is too low the diaphragm reduces the valve opening: in this way it is achieved that the Exhaust air pressure in the incandescent lamp room is approximately constant. He can as a result A very slight overpressure should be set, because an unexpected drop the pressure at which the membrane contacts close is due to the valve control avoided. The existing pressure gradient can as a result largely in the compressed air motor be exploited.

The fact that in the example described, the control device of the same organ is actuated that also acts on the switching device, there is a clear connection between the regulation and the closing or opening movement of the switch. It can therefore not happen that when controlling for very small exhaust air overpressures the switching device comes into action unintentionally.

Claims (1)

PATENT CLAIMS: i. Safety lamp powered by a compressed air dynamo, in particular miner's lamp, in which a switching device is actuated by a membrane is, which the .erhöhtem pressure exhibiting lamp space with respect to the outside air closes, characterized in that a regulating member is controlled by the membrane that allows the size of the exhaust air pressure to be adjusted and then keeps it constant. z. Safety lamp fed by a compressed air dynamo according to claim i, characterized in that that the membrane acts on a valve: that acts with its movement and depending on the setting a more: or less large opening between the exhaust air room and the outside air. 3. By means of a compressed air dynamo powered safety lamp according to claim i or z, characterized characterized in that the membrane is largely elastic at the edge, but in the middle is stiffened, and that engages the stiffened part of the valve linkage. q .. means Compressed air dynamo-fed safety lamp according to Claims i to 3, characterized in that that the valve linkage consists of: a single one on your part on the membrane and on the other there is a connecting bolt attached to the valve. 5. Fed by means of a compressed air dynamo Safety lamp according to Claims i to q., Characterized in that the membrane a spring-loaded dermis is used.