DE234891C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- Yes 234891 - CLASS 74 a. GROUP

ALBERIC MARCHAND in PARIS.

. Patented in the German Empire on March 24, 1910.

There are already facilities for the protection of inhabited and uninhabited spaces, z. B. museums, magazines, banks, industrial establishments, castles, villas and the like which burglary or fire are automatically reported by a signal. Such facilities but can often easily be disturbed in their effectiveness by a person; even they can easily come out of service as a result of physical influences, such as B. by breakage one or more lines, exhaustion or polarization of the power source as a result of Loss of current or short circuit, as well as accidental contact through which the normal course of the circuit is counteracted.

To remedy such inconveniences and to create a reliable security system is now the purpose of the invention presented below, which is characterized by a peculiar circuit excels.

Means on the accompanying drawing
Fig. Ι a schematic illustration of the device in the standby state and Fig. 2 shows the same representation of the device in the signaling position.

The system has two batteries O and L, an automatic connection relay G, a relay R, an on-button M, a bell S, all of which are connected to a double circuit of lines A, B , in which circuits also three pairs of safety contacts X, X, X "are. such contact pair X changes from affecting the power connection of its four contacts, z. B. a! b ', c' d '(Fig. 2) in such a way that the connection between a! and c', and between b ' and d' is interrupted, while at the same time the contacts c 'd' come into contact with one another.

The current from the battery O flows to contact G ² , and since the armature U of the relay G ^{is applied to its contacts G 2} and G ¹ in the standby position of the system (FIG. 1), the current flows from G ² to G ¹ , then after the contact parts B and goes via the contacts d "b", d 'b', db of the circuit B to the relay R, through which the current to the current connector E and from this to the armature T arrives. The circuit is closed via armature T at E because the system is in the standby position. For this purpose of the probe tip K must first "'constantly connected button M depressed This was the button M out of the normal position., Ie the position in which he at the contact piece K''is present, brought and lay down in the contact piece K ' an. At this moment, therefore, the aforementioned circuit runs from relay R through K, K ', K "+ L ₁ -L, line A through contacts c" a ", c' a ', c α in the second circuit, via A to H- poles of battery 0 back, and the two batteries 0 and L act in series. If, on the other hand, the circuit at E and T is followed further, the current passes from armature T to A by continuously passing through the contacts of the second circuit flows until it closes at + O.

Once the armature T is in contact with E and as a result the readiness

Shaft position is present (Fig. I), so j you no longer need to press the button M , and then only the circuit of the battery O alone remains closed. If now this battery O is either destroyed or exhausted, it would no longer supply the relay R with sufficient current to keep the armature T attracted, and as a result, the

ίο contacts £ T set the bell S by means of the relay G and the battery L in motion.

It can therefore easily be seen that the circuit of the battery L is not closed as soon as the system is in the safety position. If one starts from 4- L (Fig. 1), the current path leads via m, K ", M, IC" to the coils of relay G, then to contact V. There, however, the circuit of battery L is interrupted if the armature T is obtained attracted by the relay R (Fig. 1).

If one now assumes that the contact X ' , designed as a pedal contact, for example, is influenced by a break-in, as shown in FIG. 2, the circuit of the battery O is now interrupted at two points, namely at the contact pieces b' and d ' on the one hand and ti and a! on the other hand, while at the same time a connection is established between ti and d ' . The current no longer flows through the relay R. The armature T, which is resiliently arranged in a known manner and which is released by the relay R , therefore lies against the contact V, and the circuit of the battery L is closed via - L, I, V , T, V, G, IC ", M, K", m and + L. The winding of the connecting relay G now attracts the armature U , and the circuit of the bell S is continuously closed via 4- L, m, S, F ² , U, F ¹ , n, I and - L.

If the button M is now pressed, the circuit of the connection relay G at IC "is interrupted and consequently also that of the bell S, but as long as the previous circuit for the standby position of the battery is not closed again by the return of the triggered contact X ' in its normal position, as soon as the button M is released , the circuit of the connection relay G and the bell S will immediately close again, since it is not interrupted in V by the return of the armature T , and the bell 5 will be in again Activity set.

One could try to prevent the apparatus from working if one wants to cross the contact point X ' (Fig. 2), which is designed as a step contact, by first connecting a' to ti on the one hand and b ' to d' on the other hand using suitable conductors. But then the connection shown between ti and d ' (FIG. 2) will nevertheless occur. As a result, the current then flows from 4- O, A, a, c, a ', ti via d', V, d ", B, G ¹ , U, G ² and -O (Fig. 2) a shunt for the battery O , so that the relay R no longer receives enough current to attract the armature? T and its armature T rests against contact V. As a result, the bell S comes into effect, as in the previous case. Connecting the lines in any way between a !, V, ti and d ' causes a short circuit in the battery O and immediately makes the bell sound, even if the pedal contact X' , which is expediently designed as a self-contained whole, is not yet fully Furthermore, every break in a wire in the circuit AA and BB at any point causes the signaling apparatus to act immediately by influencing the relay R.

Whatever attempt may be made to disable the system, it will always bring about a success opposite to that which one wishes to achieve, be it that in spite of the attempt the apparatus remains in readiness for its effect, as if nothing would have happened, or it was that the signaling apparatus 5 is set into action immediately by any attempt to make the system ineffective. The same will take place in the event of any physical influences, for example if the battery O is exhausted or if a corroded wire breaks, or in the event of a short circuit due to moisture or for any other reason; in any case, such influences would always trigger the effect of the signaling apparatus.

The two batteries O, L each have a different activity to perform. The battery O continuously supplies quiescent current and the battery L supplies working current with interruptions. For the battery O , special elements of large capacity and low internal resistance are expediently used. The battery L, on the other hand, which only gives the warning signs, can consist of ordinary, useful elements.

Instead of signaling by a chime, it is of course also possible to use incandescent lamps switched on by relays or one or more repeating chimes, which can be arranged close to or at any distance from the panel. The relay for the incandescent lamp or the like would then be activated by the battery L in the same way as the bell S.

The system described above can be used for the protection of floors, Make walls, etc. usable or for automatic fire alarms.

Claims (1)

Patent claim: Electrical security system against burglary and fire hazard, which are automatic issues a message as soon as the potential ίο a battery is changed at the terminals of a relay, be it through the influence in a double monitoring circuit of safety contacts connected in series, through opening. of the double circuit as a result of breaking or cutting through one of the lines, or by closing the double circuit as a result of power losses or a short circuit between the lines or finally through exhaustion or switching off the battery, whereby the alarm continues even after its cause has been eliminated until it is caused by a authorized person is turned off, characterized in that a switching relay (G), which is excited in a known manner when the armature (T) of the primary relay (R) is released, the circuit of the battery (O) via the double monitoring circuit ( AA, BB) is kept closed by means of its armature (U) lying normally against the terminals (G ¹ , G ² ) , the circuit of the alarm battery (L) via the signal apparatus (S) is open due to the lack of connection between the contact terminals (F ¹ , F ² ) , while this switching relay (G) when the system is in the signal position (influencing the safety contacts X, Fig. 2) the circuit of the battery (O) over twice Monitoring circuit (AA, BB) gets open because the armature (U) leaves the contact terminals (G ¹ , G ² ) when the relay (G) is energized and now the circuit of the alarm battery (L) with the signal (S) via the contacts (F ¹ , F ² ) can be closed in that the armature (T) of the relay (R) , which is de-energized in the reporting position of the system, is applied to the terminal (V) , with a button (M) in both the standby and reporting position the device, as long as it is not depressed, connects one of the poles of the alarm battery (L) to the winding of the switching relay (G) (via + L, m, K " and M), so that the battery (L) in the circuit of the relay (G) is switched on and the continuous response of the signal (S) at the moment when the A nker (T) of the relay (R) has placed itself against the contact terminal (V) , while the button (M), when pressed, interrupts the supply of the switching relay (G) and consequently the signal (S) by interrupting it (M ) rests against contact (K ') and is brought out of contact with contact (K'") , at which moment the entire system (provided that the safety contacts are in the rest position again) returns to the standby position by the two Batteries (O and L) as a result of the restoration of the circuit ^ tJ- L, nt, K ", K ', K, R, B, b, ä, b', d ', b", d ", B, G' , U, G ² , --Ό, + O, A, a, c, a ', c', a ", c", A, - L) are connected in series so that the armature (T) controls the relay (R) is tightened again against the clamp (E). 1 sheet of drawings.