DE410793C - Device for feeding lamps or glow threads by means of periodic charging of capacitors from a power source and discharge through the luminous bodies - Google Patents

Description

(C33349

The purpose of the arrangement is to light up filaments, and also to save electricity Energy and finally avoidance of sparks can be achieved with the help of thin cables and without the luminous bodies burning up.

A principle is used in which; by alternately charging capacitors and discharging them through filaments or lamps these are made to glow.

This principle is also known per se.

In the known arrangements, however, there is a special switching apparatus. That is a special one Driving force required, provided. 'In another arrangement, in which a simple relay the periodic sub-; causes the filament circle to break, are still provided for self-inductions, with the help of which an alternating charge and Discharge of the capacitors is achieved.

According to the invention, a simple polarized relay is provided by the Charging battery operated by means of a capacitor as a switching device via a A swinging arm between two contacts maintains itself in operation and as a result special interconnection with other capacitors operating the luminous bodies causes the periodic feeding of the luminous bodies with energy of alternating current direction.

The subject of the invention is shown in the drawing.

From one pole of the direct current source, e.g. B. a battery GQ, a wire 2 goes to the connection 3 of the capacitor C and at the same time by means of the one line L to the connections 4, 5, 6, 7 ... of all the capacitors C ¹ , C ² , C ^{3 provided for the luminous bodies} , O, C ⁵ .

The terminal 15 on the capacitor C is connected to one end of the winding of the polarized relay U. There are also connections 17, 18, 19, 20 ... on the capacitors C ¹ , C ' ² ... C ⁵ , each with one end of the filaments 21, 22, 23 ... of the respective lamps B, B ¹ , B ² , £? ⁴ connected. Like the second end 25 of the winding of U, so is the second end 26, 27, 28 ... of all filaments by means of the line /. ¹ permanently connected to the pivot point of armature A of relay U.

The latter oscillates between two adjustable ■ contact pieces M, N, of which M is connected to the second pole of QQ via line 30 and N to connection 3 via line 31.

If the hand switch is closed at SCH , the armature oscillates at a high frequency,

and all lamps B to B ¹ get into a calm, sustained glow, because the charge and discharge currents flow through the winding of the relay U as well as through the filaments of all lamps, which through the oscillating armature A at the contacts M, N are alternately closed and opened.

The circuit through U, which indicates the cycle ίο, flows as follows: GQ, 2, 3, 15, 16, 25, A, M, 30, GQ (charge circuit); 3, N, A, 25, 16, 15 (discharge). The cycle of charges and discharges of all lamps is exactly the same. That for lamp B is t _5, for example: 2, L, 4, C ¹ , 17 ', 21, 26, ΖΛ A, M, 30 ,, GQ (charge); 4, L, N, A, U-, 26, 21, 17 ,! C ¹ (discharge). The fact that these charges and discharges or the reversals of A repeat themselves at high frequency as long as the switch is closed at SCH is known to be due to the fact that the direction of the discharge is opposite to that of the charge and the polarized relay accordingly is excited in the direction of continuously changing current. The essence of the process will become clearer if one considers a) that if the armature of a polarized overturning magnet is inclined to one side, right or left, towards one or the other magnetic core, it 'remains immovable in this inclined position as long as the permanent magnetic force. continues unchanged or un- effect: exercise disturbed and does not tilt it drag environmentally]; b) that when an electric current flows around the winding of the polarized electromagnet, the armature either! overturns or remains attracted, depending on the current lines of force of unequal direction! or generated in the same direction as the one from; j are effluent from the permanent magnet; c) that after, as assumed, | at the moment of closure at SCH the j anchor is inclined to the left and the resulting direction of force is opposite, the anchor is now probably following _; to the right, but also immediately to the left again, because the stop against N results in the discharge of the capacitor, in whose circle the turns of the same polarized magnet are enclosed and whose lines of force are opposite to those of the charge, thus in the same direction as those from the steel magnet ; d) Finally, as long as the SCH remains closed, as already mentioned, and the voltage from the electrical energy sources does not decrease, the oscillation of the armature and consequently the lighting of the lamps is continuous without fluctuations.

If the oscillator U is mounted in such a way that no shaking can occur on it, the rest position of the armature need only be such that it rests against the contact M , because the last blow as a result of the interruption comes from the discharge and not from the cargo, and the former is therefore crucial for the location. Nevertheless, it should also be ensured that the armature should always be in the rest position at contact M, even if the apparatus is moved somehow. For this purpose, the two magnetic cores are arranged opposite the armature so that when the armature strikes against N, the lower armature surface protrudes further from the right core than from the left and consequently the armature can only finally lie down to the left. If the manual switch SCH is closed, such a current surge is always provided that the relay U can start to work.

As already indicated, what is essential in comparison to known arrangements is that to accomplish the loading and unloading closings none specially driven p Organ needs.

Claims (2)

Patent Claims:. 1. Device for feeding lamps and filament by means of periodic charging of capacitors from a jellyfish and discharge through the luminous body, characterized in that the contact body (^ 4) of a polarized relay (U) by means of capacitor charge and discharge to the mutual stop on two contacts (M, N) is brought through which electrical circuits Capacitors (C ¹ , C ² C ⁵ ) for the Luminous bodies are periodically charged and discharged. 2. Apparatus according to claim 1, characterized in that the capacitors (C ¹ , C * ... C ' ^D ) für.die luminous bodies (B, B ¹ ... B ¹ ) parallel to which the. Vibrations of the relay armature causing capacitor (C) and are connected to the relay itself, so that the armature of the relay also serves as a charge and discharge contact for the filament capacitors. 1 sheet of drawings.