DE346928C - Electrical safety system that works with alternating current as closed current - Google Patents

Description

electrical safety system that works with alternating current as quiescent current. Fuse systems operating with alternating current as the quiescent current are known. These but require sensitive instruments, such as differential relays, as well. Commutator or circuit breakers. Such devices require a careful one Operation and monitoring, if they are to remain intact, and are also expensive in the purchase and maintenance. These disadvantages are with the safety device according to the present Invention avoided. Although they are also a quiescent current device concerns, it does not flow in either of the two branches of the line that are under current a current that can be measured or registered with the usual electricity meters. This has been achieved according to the invention in that to feed the two parallel Circuits of the no-load current of two very small transformers (like the Bell transformers) is used. By the secondary coils of these two transformers are connected in series so that the secondary currents generated in them are opposite Have direction and as a result cancel each other out as if they weren't at all present, comes the high self-induction of the primary coils of both transformers to its full potential and effect. The self-induction has a throttling effect and leaves one with the usual electricity meters detectable current strength does not arise. The operation is therefore almost free for the owner of such a facility from. Maintenance costs.

For the construction of the whole facility, apart from the line material and the bells only need two very small transformers of the type Bell transformers. ' both transformers must be in their magnetic and electrical properties must be precisely matched to each other, so that the in them Induced currents generated are equal in every respect, especially Have phase equality.

The circuit of the system can be seen in the drawing.

The mains current coming from the alternating current source Dy splits at the vertex Sch. Half of the current flows through the primary coil A of the transformer Trl and goes back to the mains (or to the power source Dy), the other half goes through the primary coil B of the transformer Tr2 via any door contact T and also goes back to the mains. The two secondary coils a and b, wound for about 6 volts, are connected in series with the bell W, but in such a way that the secondary currents generated are directed opposite one another and consequently cancel each other out.

The process in the rest position is as follows: The primary coils of both transformers Trl and Tr 'are traversed by currents of equal strength. (Since the resistance of the primary coils A, B is quite high compared to the very low resistance of the supply line, the latter can be neglected.) Low-voltage induction currents that are 'equally' strong are generated in the associated secondary coils a, b.

By appropriately connecting the two secondary coils a, b against one another, the induced currents cancel each other out; this has firstly the consequence that the bell W does not respond, and secondly that the mains alternating current in the two primary coils A, B is throttled by the high self-induction effect. So there is no load in both transformers, although the secondary circuit is closed.

The process when the door contact is open is as follows: If the current path of the monitoring line is opened at any point, e.g. B. by cutting off the wire or opening the door contact T, the primary coil B of the transformer Tr = no more current, but the primary coil A of the transformer TYl. Induction current that could counteract that of the secondary coil a can no longer arise in the secondary coil b. The one-sided induction current of the coil a then sets the bell W into action.

Claims (1)

PATENT CLAIM: With alternating current as quiescent current working electrical safety system with two parallel circuits with the same resistance, one of which contains the safety break contact in question, characterized in that the no-load current of two small transformers (Trl, Tr2), whose secondary coils are used as the feed current in both current paths (A, b) are connected in series in the opposite sense, so that the secondary currents generated cancel each other out, while the same primary coils (A, B) can exert their throttling effect with an undisturbed system in the sense of an extremely low no-load current consumption Disturbance of the monitoring line of one (Tr =) of the two transformers is put out of operation due to the lack of current, so that the one-sided secondary current of the other transformer (Trl) activates the ringing mechanism (W) which is in series with the two secondary coils (a, b).