DE345002C - Howling signal device - Google Patents

Description

ISSUED ON DECEMBER 2, 1921

The subject of the invention is a simple, easy-to-use and reliable switching device for emitting a larger number of mutually different howling signals.
S The howling signal device is designed according to the invention in such a way that its circuit has a plurality of parallel current branches, and also a switch common to these, which automatically individually switches the current branches

ίο temporarily closes and also contains a manual switch for each branch, with which the individual Branch can be closed permanently.

This device makes it possible to give signals consisting of as many individual tones as Current branches are present on the signaling device, the number of which are to be output with it Signals through into the tone series of the

Signals inserted pauses, which arise when your handset overflows unclosed branches, can be increased.
A further increase in the number of signals is achieved in that contacts are provided on the manual switches to which adjacent current branches are bridged in the rest position of the switch of one of the two branches. This further development makes it possible to combine two or more individual tones into a continuous, correspondingly long tone and thus to be able to give signals only as long tones or from short and long tones »

An exemplary embodiment of the invention is shown in the drawing.

A switching mechanism designed as a rotary switch with nine contacts is designated by K. A branch 11, 19, 25, 33 and 41 is connected to each of the contacts 1, 3, S, 7 and 9. Each of these branches leads to the switching lever of a changeover contact of a manual switch, which is designed, for example, as a toggle switch and in the working position switches its branch through to the common feed 14 to howler Su and its battery B , in the rest position, however, its own branch is connected to the neighboring branch holds. The contacts 2, 4, 6 and 8 are connected via lines 15, 22, 31 and 37 with normally closed contacts each to one of the switches T ¹ ibis T ^ , which when switched to their working position their line or the corresponding contact on switch 6 " isolate.

The contacts 1 to 9 of the switch K are overrun individually one after the other by a switching arm S , whose part e touching the contacts bridges two consecutive contacts.

The switch K is driven by a clockwork mechanism which, after each winding, causes the switching arm S to revolve once, if necessary several times, in continuous motion. With each revolution, the switch 5 "performs two operations, each of which causes a signal."

The mode of operation of the switching device

is as follows: When the switches T ^1, T ^s and T ⁵ folded into their working position, the switching arm set by the movement in passage closes automatically one after the other: via the contacts ι to 9 leading electricity \ circles. On contact 1 thereby folgen- \ is the circuit concluded: Arm S, Contact 1, line 11, contact lead battery B ₁ line 'io j 12, 13 and 14, Summer Su, battery, j In this circuits generates the sum j mer su a tone. As it continues to rotate, the arm "S" j comes into contact with the contact 2 of K before it has left the contact 1. The line connected to the contact 2 is, however, when the switch T is flipped ¹ in its working position at contacts 16 and 17, so that arm S opens the circuit and thus interrupts the buzzer when it leaves contact 1. There is now a pause until arm S reaches contact 3, via which then the following circuit is closed: B, 10, S, 3, 19, normally closed contacts 42 and 23 of the switch T ^z in the rest position, line 24, contact 26 of the switch T ³ in the working position, line 27, 14, Su, B. In this circuit, the buzzer generates a second signal tone, which is only interrupted when \ Arm 5 "leaves contact S. Until then ■ the following switching processes occur: As soon as! the arm 6 "reaches the contact 4 during its run, in addition to the aforementioned circuit via the contact 3, the following current path is created: B ₃ 10, S, 4, 22, 23, 24, 26, 27, j - 14, Su, B. This circuit will already exist when arm 6 ″ closes contact 3; leaves and the current path leading through this opens, so that the buzzer sound generated in this in the latter circuits without; Interruption is maintained, but the same tone is also maintained. ten when the arm 6 ″ leaves the contact 4. Because before that the arm S reaches the j contact S, via which the following circuit i is closed: B ₁ 10, S, 5, 25, 26, 27, 14,! Su, B. Only when arm S leaves contact 5 j is there no further circuit for ' Su, and the buzzer tone Ϊ is then interrupted. contact 3 until leaving the Kontak- _t tes 5 continues, di about twice as long as the arm S overflowing the contact ι required. thus, it has been a short and a long buzz generated. Another long tone will be generated as soon as the arm 6 ″. reaches contact 7 during its travel. Until then, however, arises there; the arm finds the contact 6 isolated as a result of the key T * not being turned on , a pause equal to that which occurred when the contact 2 overflowed. The following circuit is created at contact 7: B, 10, S, 7, 33, 35. 36. 38, 40, 39 »Η» Su, B. Before this circuit is interrupted when leaving contact 7, the arm has 5 "on Contact 8 already closed the following current: B, xo, S, 8, 37, 36, 38, 40, 39, 14, Su, B, and before this is then interrupted when leaving contact 8, it was already on Kontakfc.9 following current path closed: B, 10, S, 9, 41, 40, 39, 14, Su, B. The buzzer tone generated in these three circuits thus lasts as long as arm 5 ¹ moves from reaching contact 7 ibis to leave of contact 9 moves.

By flipping the switches T ¹ , T ³ and T ⁵ , a signal is produced which is composed of one short and two long tones.

When the switches T ² and T ^A folded, so the switch 6 "is created at each work underway a signal that consists of two long tones. So a larger number You can issued easily and reliably distinguishable signals by moving the corresponding buttons as switches T are available and thus has a simple and convenient aid in larger factories to call a large number of certain gentlemen back from their office or to a telephone set when they are absent.

Claims (4)

Patent-to sayings: 1. Howling signal device, characterized in that its circuit contains a plurality of parallel branches, a common switch (S) which automatically passes through the contacts of the circuits one after the other and a manual switch (T) for each branch, with which the individual branch can be permanently closed . 2. Howling signal device according to claim i, characterized in that contacts are provided on the hand switches (T) to which adjacent branches are bridged in order to combine several no single tones into a continuous longer tone. 3. Howling signal device according to claim 2, characterized in that on the common switch (S) with the connection contacts (1, 3, 5, 7, 9) for the branches (ii, 19, 25, 33, 41) further contacts for lines (15, 22, 31, 37) are provided, which are isolated from the current branches on both sides when the corresponding manual switch is turned into its working position The common switch (S) \ continuously overflows the contacts of the common switch arm (S) overflowing arbitrarily via the relevant contacts' switch (K) To let pauses arise. at its .contact part (s) two consecutive 4. Howling signal device bridged after other contacts to one Spruch ι to 3, characterized, ■ interruption within the Langandau- that the z. B. to prevent a clockwork ' ernden beeps. 1 sheet of drawings. BERLIN. PRINTED IN THE REICHSDRUCKEREI.