AT148437B - Time switch. - Google Patents

Description

  

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    Time keeper.



   Time switches for the near lighting of staircases, etc., which in any way make use of the time-dependent curvature of a bimetal strip due to the heating during current passage to trigger the switch-off process, are known, as is the possibility of alternating the use of several bimetal strips each time you return to the hotel to achieve full duty cycle. However, they have the disadvantage that it is not possible to extend the switch-on time before it has been switched off.



   The purpose of the invention is to remedy the deficiency mentioned.



   The circuit diagram is based on the assumption of three basic cases, which are characterized as follows: a) complete switching off of the staircase lighting and also of the time switch during the day; b) Switching on the staircase lighting in the evening when the timer is inactive; e) sole function of the time switch at night.



   These three basic cases can be brought about alternately by a changeover switch 1, which in the position shown corresponds to basic case a: both the staircase lighting is switched off and actuation of the timer is made impossible by interrupting the corresponding circuits.



   If the switch 1 is set to contact 2, the evening lighting is switched on, the luminous flux flows from the connection point 4 of one power line via the closed contact 2 through the incandescent lamps directly to the connection point 5 of the other power line. The safeguards that are naturally required are not shown here. The circuit for operating the timer is also interrupted in this position of the shift lever 1.



   If the switching lever 1 is finally set to the contact'j, the light line leading through 2 is initially interrupted, but the prerequisite for actuating the timer is created. because at the same time as the contact 3 closes, the contacts 7 and 8 are also bridged by the metal segment 6, which is electrically separated from the shift lever 1.

   If, for example, one of the buttons 9 in the stairwell is pressed, a circuit is closed, which starts from the connection point 4 of the one power line via the auxiliary coil 10, further via the contacts 7 and 8 bridged by the segment 6, via the pressed button 9 on the one hand via the Bulbs leads to connection point 5 of the other power line, but on the other hand via the switching lever 1, the closed contact: 3. via the series resistor 11, which is used to limit the current, to the ratchet wheel 12, further via the slide spring 13 to the bimetal 15 and then via the holding magnet coil 16 and the switching magnet coil 11 leads to connection point 18 to the other power line.



   At the moment when the current passes, the holding magnet coil 16 closes the
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 the circuit leading to the bimetallic strip and the magnetic coils remain closed, although the current conduction, as can be seen from the circuit diagram, is slightly changed. Simultaneously with the closure of the contact 19 caused by the holding magnet 16, the switching magnet 17, which is now also current-carrying, switches the switching wheel 12 by one tooth pitch and thus, as will be explained in more detail, the switchover to the other bimetal strip is carried out .

   When the button 9 is released, the two aforementioned circuits remain, but the current is now carried from connection point 4 to the one power line no longer via auxiliary magnet coil 10, but via contact 19, which is kept closed by holding magnet 16 has the consequence that the earlier

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 open contact 20 is closed and the switching solenoid J! y is short-circuited, so that its iron core with the pawl returns to its starting position under the action of a spring (not shown in the drawing) and thereby prepares the switching wheel to be switched on.



   With a corresponding duration of the passage of current through the bimetallic strip 1.5, the latter has bent to such an extent that it touches a contact 21, whereby the holding magnet coil 16 is short-circuited and consequently the contact 19 is interrupted. This also interrupts the circuit for the stairwell lighting and all parts of the timer are de-energized. If now for example
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The process of extending the switch-on time should now be carried out before switching off. to be discribed. If, for example, the button 9 is activated at the same time as the lighting circuit
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 moderate power distribution is provided.

   The passage of current through the auxiliary magnet coil 10 causes the contact 20 to open, the short circuit of the switching magnet coil 17 is temporarily canceled and, by switching on the switching wheel 12, the other, meanwhile cooled bimetallic strip is activated.



   The toothed ratchet wheel 12 is made of insulating material; The latch of the switching magnet 17 engages in these teeth. There is a cross-shaped metal plate on each of the two end faces of the ratchet wheel, the two crosses being shifted against one another by one tooth pitch; Both crosses are under voltage via the metal shaft on which the disc is attached, when the electrical circuit is closed, but due to the offset, the slide spring rests on only one cross at a time, so that the current only finds its way through the bimetal strip connected to this slide spring can take, while the Sehleiffeder belonging to the other bimetal strip rests on the insulating material of the ratchet wheel.

   These interrelationships are shown by the two cross cracks 12 ′ and jf ″ from the right and left, which can be seen next to the ratchet wheel 12
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   To achieve sufficiently long switch-on times, it is advantageous to use the bimetal in the form of a
Form spiral.



  In summary, it can be said that the subject of the invention has the advantage of a much simpler and therefore cheaper structure compared to the other time switches equipped with their own time switches, despite the fact that it also meets all the requirements.



   PATENT CLAIMS:
1. Time switch, in which the shutdown of the consumer circuit closed by the push button takes place after thermal release by electromagnetic means and in which two or more bimetal strips are alternately brought into effect, characterized in that an extension of the switch-on time by switching to another bimetal strip before the shutdown is enabled.

 

Claims (1)

2. Time switch according to claim l, characterized in that the conversion of the bimetallic strips is effected by a holding wheel which has two or more mutually offset metal crosses or sliding tracks. 3. Time switch according to claims 1 and 2, characterized in that, instead of the switching wheel contacts, the slide springs, which take the current from the handwheel, are offset from one another. 4. Time switch according to claims 1 to 3, characterized in that the pulse for switching the bimetallic strips (13, 14) comes about by canceling the short circuit of the holding magnet coil (17) by an auxiliary magnet coil (10) through which current flows at that moment. 5. Time switch according to claims 1 to 4 with a holding magnet for push-button controlled EMI2.4