DE886421C - Electrically operated bell - Google Patents

Description

Electrically operated bell The invention relates to a bell or a buzzers who both fall below and exceed responds to a certain temperature.

The advantage of the relay bell according to the invention is in its simple Structure as well as in their high operational precision. It is characterized by that the working winding in the circuit is controlled by the bell armature Interrupter and the one compensation winding via a resistor on the power source lies, with this compensation winding in the permitted temperature range two contacts of a contact thermometer is short-circuited, while the other Compensation winding when the overtemperature contact of the contact thermometer is reached is traversed by the current and causes the cancellation of the remanence and under periodic Activation of the breaker and the work winding the bell in action sets, while d when falling below the lower value of the normal temperature range on the contact thermometer the short circuit of the first compensation winding was canceled and ring the bell in the same way.

In the drawing is the circuit diagram of the relay bell. for example shown.

The relay bell consists of the magnet armature I with three windings a, b, c, the pole piece 2., the armature 3, the clapper 4, the bell 5 and the contacts 6, 7. 8 is a resistor, 9 is a power source and IO is a contact thermometer with the contacts k I, k 2 and k 3. The winding a is a compensation winding, the is constant across the resistor 8 to the power source g. b is the working current winding, the one over the linterrupter contacts 6, 7 with the power source 9 Connection has when the contacts 6, 7 are closed by the armature 3 falling are. In the position shown, the contacts 6, 7 are interrupted and will the armature 3 held by the pole piece 21 as a result of the residual magnetism (remanence), d. H. the armature sticks to pole piece 2 due to the remanence.

The winding c is also a compensation winding, the direction of the winding is the same as that of the compensation winding a.

In the visible contact position of the thermometer Ioi is through the mercury column as a result of bridging against contacts k 1, k 2 the compensation winding a short-circuited and thus the winding ineffective.

Increases z. B. the mercury column of the thermometer 10 until contact k 3, the current g flows through the contacts k 2 (--Pol) and k 3 in the winding c, which is on the other hand at the + pole.

As a result of the current flowing through the winding c g removes the remanence of the relay and causes the armature 3 to drop.

When the anchor falls off, contact is made between 6, 7 come about, so that the current in its full strength via the working winding b i flows and the anchor is tightened again. As long as the compensation current is still is effective, the armature drops again immediately, the contacts 6, 7 are again closed, so that the armature 3 swings back and forth in a certain rhythm. The armature 3 swings back and forth until the temperature drops the mercury column has left contact k 3 again. The compensation windings a and c are high resistance to the winding b and dimensioned so that over this Winding tightening of the armature 3 is not possible. Rather, they are chosen that the small current which flows through the windings a or c, just barely sufficient to cancel the remanence so that the armature 3 can fall off. The temperature drops further down and the mercury column also separates from the contact k 2, so it becomes at the same moment the compensation current of the winding a becomes effective, d. H. The current 9 now flows directly through the series resistor 8 to winding a, so that the previously described process, d. H. the tightening and falling of the anchor are repeated for so long until the contacts k I, kls are closed again and the one flowing through the winding a Current g becomes ineffective.

So that when the winding a is short-circuited via the contacts k 1, k2 the power source g is not completely short-circuited, a game booth 8 is provided, which is dimensioned so that only a low power consumption in the short-circuited Condition of winding a occurs.

When the anchor 3 is tightened and dropped, the clapper 4 strikes the Rhythm of the vibrations against the bell 5.

The device can be made so that one is in the working circuit the winding switched relay with and without delay a power consumer on and off.

The RelaiskIingel can also be used for all kinds of security systems as a bell for idle and working current systems. In that case would the contacts k I, k2; with closed-circuit contacts and k 2, k 3 with open-circuit contacts are connected so that the bell rings when the contacts k 1, k2 or when the working contacts k 2, k 3 are connected.

In this case, the bell would also ring if the line was interrupted kI, k 2 or, if the line is bridged, k i, k 3 or k 2, k 3. At Alternating current can also be used instead of the direct current source 9. It can of course, each a separate power source for the working winding as also to be provided for in the compensation windings.

PATENT CLAIM: I. Electrically operated bell that can be used with both Falling below as well as exceeding, z. B. a certain temperature range, responds, I characterized in that the armature of a magnetic circuit with a Working and two compensation windings (b, a, c) is provided that the working winding (b) in the circuit of a bell armature controlled breaker and the one Kompensationswicaklung (a) via a resistor (8) on the power source (9), with this compensation winding in the permitted temperature range two contacts (k I, k 2) of a contact thermometer is short-circuited, whereas the other compensation winding (c) when the overtemperature contact is reached (k 3) of the contact thermometer is traversed by current g and the removal of remanence causes and with periodic switching on of the breaker and the working winding sets the bell to work, while if the lower value falls below Ides normal temperature range on the contact thermometer the short circuit of the first compensation winding and ring the bell in the same way.

Claims (1)

2. Bell according to claim I, characterized in that the one End of the working winding (b) with the breaker contact (6) and the other end the winding (b) with one end of the first compensation winding (a) and with the contact that determines the lower limit of the permitted temperature range (kla) as well as with the --Pol of the power source (9) has connection that the + -E'ol with one interrupter contact (7) and with one end of the second compensation winding (c) and via a resistor (8) to the other winding end of the first compensation winding (a) as well as with the lowest contact of the contact thermometer (k I) in connection and that the temperature range permitted for the maximum temperature Ides corresponding contact (k 3) of the contact thermometer with the second Compensation winding (c) is connected on the other hand. 3. Bell according to claim I, characterized in that when used the relay bell for signaling purposes (room protection systems) instead of the lower one Value of the permitted temperature range corresponding to the contact of the contact thermometer (k 1, k 2) one or more series-connected break contacts and in place the contacts of the contact thermometer that determine the permitted temperature range (k 2 and k 3) any number of normally open contacts are arranged. 4. Bell according to claim I, characterized in that for actuation z. B. a staff horn or other current; consumer in the circuit the work winding (b) a switching relay switched on with or without delay is.