DE4340497C2 - Power supply for an electric door opener system - Google Patents

Description

The invention relates to a power supply for an electric door opener system, the door release system both a DC voltage of a certain, rela tiv small size as well as an AC voltage of a certain, relative small size for feeding different assemblies such as bell buttons, Door openers, sounders, intercom units required, with a primary transformer (or an elec tronic AC voltage converter), with a secondary on the Trans Formator connected output AC line with a phase conductor and a neutral conductor, with one with input connections on the secondary side bridge rectifier connected to the transformer and with one on Output connections of the bridge rectifier and thus to a neutral conductor closed DC voltage control circuit, the DC voltage control circuit on the output side a DC voltage output conductor for the regulated DC voltage and only one common for both neutral conductors on the output side samer neutral connection is provided.

Electric door opener systems, which usually include a door intercom, have been known for a long time. You will not usually change networks operating voltage of 220 V, but supplied from a power supply, the output side both a DC voltage of relatively small size as well provides an ac voltage of a relatively small size. Common are the same voltages and AC voltages in the range up to approx. 24 V.

There are different solutions for such a power supply in the prior art Technology known. In a first known solution, the transformer only a secondary winding and only one common output side zero teranschluß for the DC voltage and for the AC voltage, but can therefore do not provide two-way bridge rectification. That has significant circuit and operational disadvantages.

In another solution known from the prior art, the Trans formator two secondary windings and four separate output lines, see above that the DC circuit is completely separated from the AC circuit. Here  you can of course provide a two-way bridge rectifier, but you have to work with four lines and also requires two secondary windings on Transformer.

A third known solution takes a middle course, namely also has two Secondary windings on the transformer, but can because of this separation Use two-way bridge rectifiers without the need for a fourth line (see DE-A 22 10 835). So here is a common neutral in the end possible. From this known power supply for an electric door opener neranlage the invention is based.

Otherwise, a telecommunications system is known (cf. DE 92 08 466 U1), to connect the door intercom with the rest of the telecommunications onsanlage only a two-core connecting line is required. To achieve this Chen, is dependent on the operating state between an AC voltage supplier and a DC voltage supply. The control of the order switching is carried out by a voltage level or phase detection stage, a AC-DC voltage detection stage and two switching units, by which the current type and polarity ratios on the two-wire connection line tion can be recognized sequentially and changed accordingly. Overall, that is Control of the changeover from the AC voltage supply to the DC power supply is relatively complex.

The invention is based, the known power supply for a task electric door opener system taking into account the operational requirements structural changes to such a door opener system simple and to improve in terms of operation.

The above-stated object is achieved in that the Transformer has only one secondary connection to which the phase conductor and the AC neutral and, in parallel, the input terminals of the bridge rectifier are connected, that between the with the neutral connection connected DC neutral conductor on the one hand and the orderly output connection of the bridge rectifier and the alternating voltage on the other hand, a neutral switch contact is provided, that for the AC voltage and for the DC voltage on the output side common output connection is provided that between the output conclusion on the one hand and the phase conductor and the DC voltage output conductor, on the other hand, a phase conductor changeover contact is provided that the Neutral switch contact and the phase switch contact normally close the DC circuit, i.e. to the output connection of the bridge are connected to the DC voltage output conductor that by connecting an AC consumer to the neutral connector and the output connection and the resulting current flow in the DC voltage voltage control circuit of the neutral changeover contact and the phase changeover  switch contact are switchable and close the AC circuit Open the DC circuit and that when the AC power switch is turned off need a reverse switching of the neutral switch contact and the Pha Senleiter switch contact takes place.

According to the invention it has been recognized that in a door opener system, also in the equipment with door intercoms, initially only DC voltage is required, namely for the bell buttons. With previous power supplies AC voltage is always present at the output connection, although it is only then is required when an AC consumer is turned on, for example the door opener or a call signal generator. From this knowledge According to the invention, the AC voltage circuit is initially switched off and only the DC circuit switched on. Only when there is a change AC consumer is connected, the AC voltage circuit is ge closed and the DC voltage circuit opened on the output side. Entrance egg The DC voltage circuit remains closed, only the Two-way bridge rectifier switched off in half, so that the supply of the DC voltage control circuit only via a one-way rectifier follows. By switching off the AC consumer, the overall scarf returns device returns to its previous state.

It is also possible without further ado to use the power supply according to the invention on the output side with an additional non-switching DC voltage connection to be provided, since the voltage supply of the DC voltage rule circuit continues even while the AC circuit is closed.

Overall, the power supply unit according to the invention has only one transformer a secondary winding (a corresponding electronic AC voltage accordingly, it is simply constructed) is a two-way bridge can be used by a judge, only a common neutral connection is provided and is in the idle state of the door opener system and during a conversation a possibly existing door intercom no AC voltage on the Lei switched.

There are various ways of embodying the teaching of the invention ten and further, for which to the subordinate to claim 1 Claims can be referenced. Otherwise preferred execution tion examples of the invention with reference to the drawing. In the Drawing shows

Fig. 1 is a circuit diagram of a circuit arrangement for a first exemplary embodiment of a power supply unit according to the invention and

Fig. 2 is a circuit diagram of a circuit arrangement for a second exemplary embodiment of a power supply unit according to the invention.

It has already been explained above that the power supply unit according to the invention for an electric door opener system especially with integrated door intercom facilities is determined and suitable. To explain such a door opening system may generally be referred to DE-A 22 10 835. The through such a door release system to a power supply in question Art requirements require the provision of a DC voltage a certain, relatively small size, for example from 4 to 8 V, and an AC voltage of a certain, also relatively small size, at for example from 12 V at the output of the power supply. This can make a difference Assemblies of the door release system such as bell buttons, door opener, sound signal encoder, intercom units, etc. are fed.

A power supply unit of the type in question regularly has a transformer that can be connected to the mains AC voltage on the primary side or a corresponding AC voltage converter; A transformer is still common today. Connected to the transformer on the secondary side is an output AC voltage line with a phase conductor 1 and an AC voltage neutral conductor 2 . With its input connections 3 , a bridge rectifier 4 is connected on the secondary side to the transformer. A DC voltage control circuit 8 , which has a DC voltage output conductor 9 for the regulated DC voltage on the output side, is connected to output connections 5 , 6 of the bridge rectifier 4 and thus to a neutral conductor 7 . For the AC neutral conductor 2 and the DC neutral conductor 7 , only one common terminal 10 is provided on the output side.

It is now essential that the transformer - not shown - has only one - not shown - secondary winding, that is, only one secondary connection 11 , to which the phase conductor 1 and the AC voltage neutral conductor 2 and, in parallel, the input connections 3 of the bridge rectifier 4 are connected are that gear connection between the connected to the neutral terminal 10 DC neutral conductor 7 on the one hand and the associated from 6 of the bridge rectifier 4 and the AC neutral conductor 2 on the other hand, a neutral mode switchover 12 is provided, that on the output side for alternating voltage and for the DC voltage, a ge common output terminal 13 is provided that between the output circuit 13 on the one hand and the phase conductor 1 and the DC output conductor 9 on the other hand a phase conductor switch contact 14 is provided that the neutral switch contact 12 and the phase conductor Umschaltkon clock 14 normal Close the DC circuit, that is to the output circuit 6 of the bridge rectifier 4 or to the DC voltage output terminal 9 are switched through that by connecting an AC consumer to the neutral conductor 10 and the output terminal 13 and thereby causing current flow in the DC control circuit 8 of the neutral conductor -Shift contact 12 and the phase conductor changeover switch can be switched over and closing the AC circuit, but open the dc circuit and in that a return takes place to-neutral switching of the changeover switch 12 and the phase conductor changeover switch 14 for switching off the AC load. The operation of the circuit can be seen from the description given in FIG. 1 given before.

So far, nothing has been said about how the current flow in the DC voltage control circuit 8 is determined. The DC voltage control circuit 8 has a voltage regulator 15 in the exemplary embodiment. Between the output of the voltage regulator 15 and the phase conductor changeover contact 14 is a current sensor element, which is a current sensor resistor 16 in the illustrated embodiment. Current sensor elements are also known in their design, it is about determining the current flow via the phase conductor changeover contact 14 . The output signal of the current sensor resistor 16 , namely the voltage drop across it when the current flows accordingly, can be used to trigger the changeover of the neutral conductor changeover contact 12 and of the phase conductor changeover contact 14 . In the illustrated embodiment, the neutral switch contact 12 and the phase switch contact 14 can be actuated by means of a switch transmitter 17 . This could be a transistor, a thyristor, a triac or an integrated circuit. In the exemplary embodiment shown, it is a relay that is still common today in door opening systems.

Thus, the Umschaltgeber not back 17 turns on after the switching of the neutral changeover switch 12 and the phase conductor changeover switch 14 again, in this case, the relay does not decrease again, it is provided that the changeover timer 17 connected to a switched into the phase conductors 1 of the AC circuit hold circuit 18 is. This makes the relay self-holding here. If the current flow in the AC circuit is interrupted because the AC consumer is switched off, the self-holding is ended, the relay drops out, that is, the switch 17 switches off and the neutral switch contact 12 and the phase switch switch 14 , here the relay contacts, switch into theirs Starting position back.

The illustrated embodiment of a power supply according to the invention is also characterized in that the DC voltage control circuit 8 has a second DC voltage output terminal 19 provided only for DC voltage and the DC voltage output terminal 19 is connected directly to the output of the voltage regulator 15 .

The mode of operation of the power supply unit shown in its circuit arrangement in FIG. 1 is explained again in more detail below; the components that are still missing are additionally explained in the circuit arrangement.

In the idle state, a filter capacitor 20 is charged via the bridge rectifier 4 via the neutral switch order 12 . At the output of the downstream voltage regulator 15 is a by the forward voltage of a decoupling diode 21 compared to the DC neutral 7 increased DC voltage. This can be tapped between the second direct voltage output connection 19 and the neutral connection 10 and used for dining purposes ver different assemblies of the door opener system.

About the current sensor resistor 16 , an electronic component with a threshold value, here a Zener diode 22 , and the phase conductor switch contact 14 is a compared to the DC voltage at the second DC voltage output terminal 19 by the Zener voltage of the Zener diode 22 reduced DC voltage at the output terminal 13 . For example, this is 4 V versus 8 V at the DC voltage output terminal 19 . A voltage of 4 V prevents corrosion through electrolysis on the bell contacts.

If an alternating current consumer, for example a door opener or a signal transmitter, is now switched on or connected between the output connection 13 and the neutral conductor connection 10 , the current flow that is set in causes a voltage drop at the current sensor resistor 16 . About a base resistor 23 , a switching element, here a transistor 24 (pnp transistor) is switched to ge. Via a diode 25 , direct current flows from the output of the voltage regulator 15 through the switchover transmitter 17 to the direct voltage neutral conductor 7 . The relay coil of the switching transmitter 17 , which is designed as a relay, is excited and the neutral switch contact 12 and the phase switch contact 14 are switched over to, on the one hand, the AC neutral conductor 2 and , on the other hand, the phase conductor 1 . The bridge rectifier 4 is thereby rectified for one-way rectification, and the AC voltage present at the secondary connection 11 is switched through to the neutral connection 10 and to the output connection 13 .

Via the holding circuit 18 , the current flow through the changeover transmitter 17 is maintained . In the exemplary embodiment, the holding circuit 18 has diodes 26 , 27 , 28 connected to one another, a current sensor resistor 29 , a base series resistor 30 and a switching element, here in turn a transistor 31 (pnp transistor). The transistor 31 turns on when alternating current flows through the holding circuit 18 , since a corresponding voltage drop then occurs at the current sensor resistor 29 . Via a diode 32 , the current flows through the relay coil of the switching transmitter 17 designed as a relay. A capacitor 33 is used for smoothing and prevents the neutral conductor changeover contact 12 and the phase conductor changeover contact 14 from fluttering during the transition from the current via the diode 25 to the current via the diode 32 .

The previously described state is maintained as long as the current flows through the phase conductor 1 and via the holding circuit 18 . If the AC consumer is switched off, the switchover switch 17 switches over and the neutral switch switch contact 12 and the phase switch switch contact 14 switch back to their previous switching position.

A varistor 34 provided on the secondary connection 11 eliminates inductive voltage peaks on the secondary side of the transformer, and a diode 35 provided on the output side protects the voltage regulator 15 against AC voltage coupled backwards. Finally, a series resistor 36 together with the Zener diode 22 and the current sensor resistor 16 holds the output voltage to the desired value at or below 4 V.

Fig. 2 shows a circuit arrangement which corresponds in principle to the circuit arrangement of Fig. 1, but is further completed and has additional functions.

First of all, the DC voltage control circuit 8 reaches a targeted zero switching of the DC voltage at the second DC voltage output terminal 19 under certain conditions. This circuit takes into account the fact that in door opener systems with door intercoms before the switching on of a new subscriber the previously called subscriber or his or her hearing lock is to be deleted. For this purpose, in known door intercoms, the operating DC voltage is switched off during the time when a bell button is pressed. The DC voltage control circuit 8 achieves this by switching the DC voltage to zero at the DC voltage output terminal 19 .

There are various ways of achieving zero switching of the DC voltage. The exemplary embodiment shown in FIG. 2 is characterized in that a zero control circuit 37 is connected in the phase conductor 1 of the AC circuit and the DC voltage control circuit 8 is driven to zero the DC voltage when the current flows through the zero control circuit 37 . In order to be able to distinguish between AC consumers with or without influencing the operating DC voltage, it is further provided that the zero control circuit 37 is switched between the phase conductor changeover contact 14 and a parallel to the output terminal 13 wide ren output terminal 38 .

In order to be permeable to alternating current, the zero control circuit 37 has diodes and a parallel resistor which are connected to one another in two parallel branches and are not provided with separate reference numerals here.

The coupling of the zero control circuit 37 with the DC voltage control circuit 8 can be done in various ways, for example similar to the hold circuit 18th However, the exemplary embodiment shown is distinguished by a non-galvanic coupling via an optocoupler 39 . In detail, the zero control circuit 37 operates as follows:

When a current flows through the current sensor resistor 16 , the Umschaltge about 17 is activated and the neutral switch contact 12 and the phase conductor switch contact 14 are switched. Via the neutral switch contact 12 on the one hand and a decoupling diode 40 and a tuning resistor 41 on the other hand, a storage capacitor 42 is charged to a negative voltage, the amount of which is greater than or equal to the output voltage of the voltage regulator 15 . This tension is initially ineffective. It also remains when an AC consumer is connected to the output terminal 13 .

If an AC consumer is connected to the further output terminal 38 , the current flow after switching the phase conductor switch contact 14 causes a voltage drop across the three series-connected diodes and the parallel resistor. This voltage drop drives a sufficiently large current through a series resistor 43 through the light-emitting diode of the optocoupler 39 present here . The associated phototransistor of the optocoupler 39 in the DC voltage control circuit 8 is switched through and pulls the reference voltage of the voltage regulator 15 to the low potential specified by the storage capacitor 42 . The voltage between the output and reference terminal of the voltage regulator 15 is unchanged, but the output voltage is correspondingly reduced overall and the desired DC voltage of practically 0 V is present at the DC voltage output terminal 19 . Another storage capacitor 44 ensures that the reference voltage of the voltage regulator 15 is maintained even during the half-wave of the AC voltage, which does not drive any current in the zero control circuit 37 via the light-emitting diode of the optocoupler 39 .

Alternatives would of course be a direct activation of the bridge rectifier 4 or a short circuit of the DC voltage output connection 19 to the neutral connection 10 .

If you want to use an electronic tone generator 45 for a call signal instead of an electromechanical signal generator, you can easily integrate it into the power supply according to the invention, namely switch between the DC voltage output connection 19 and the neutral connection 10 . Triggering of a sound signal can be effected for example by the derkehr As the operating voltage at the tone signal generator 45, or by loading of the tone generator 45 at an output terminal 46 to a speaker.

The power supply unit according to the invention can also be used for combined systems if it is equipped with an amplifier for internal speech (see also DE-A 22 10 835). In order for a door opener system equipped in this way switch off the intercom during an internal call so that the internal ge conducted conversation outside cannot be overheard, one has to be between one Distinguish the ringing current from the door and a ringing current for internal signal delivery. The call current from the door can, as previously explained, be detected inter ner call current can be recorded separately and used to the door intercom switch off.

Claims (12)

1. Power supply unit for an electric door opener system, the door opener system requiring both a DC voltage of a certain, relatively small size and an AC voltage of a specific, relatively small size for feeding different modules such as bell buttons, door openers, sound signal transmitters, intercom units, with a primary side transformer (or an electronic AC voltage converter) that can be connected to mains AC voltage, with an output AC voltage line with a phase conductor ( 1 ) and an AC neutral conductor ( 2 ) connected to the transformer on the secondary side, with one with input connections ( 3 ) on the secondary side of the transformer connected bridge rectifier ( 4 ) and with one of the output connections ( 5 , 6 ) of the bridge rectifier ( 4 ) and thus connected to a DC neutral conductor ( 7 ) DC voltage control circuit ( 8 ), the DC voltage control scarf device ( 8 ) on the output side has a DC voltage output conductor ( 9 ) for the regulated DC voltage and for the AC voltage neutral conductor ( 2 ) and the DC voltage neutral conductor ( 7 ) on the output side only a common neutral conductor connection ( 10 ) is provided, characterized in that the transformer has only one secondary connection ( 11 ), to which the phase conductor ( 1 ) and the AC voltage neutral conductor ( 2 ) and, in parallel, the input connections ( 3 ) of the bridge rectifier ( 4 ) are connected, that between the one with the neutral conductor connection ( 10 ) connected DC voltage neutral ( 7 ) on the one hand and the associated output connection ( 6 ) of the bridge rectifier ( 4 ) and the AC voltage neutral ( 2 ) on the other hand, a neutral switch contact ( 12 ) is provided that for the AC voltage and for the DC voltage on the output side, a common output connection ( 13 ) is provided between the output flange luß ( 13 ) on the one hand and the phase conductor ( 1 ) and the DC voltage output conductor ( 9 ) on the other hand, a phase conductor switch contact ( 14 ) is provided that the neutral switch contact ( 12 ) and the phase conductor switch contact ( 14 ) normally close the DC circuit , So to the output terminal ( 6 ) of the bridge rectifier ( 4 ) or to the DC voltage output conductor ( 9 ) are switched through that by switching on an AC consumer to the neutral conductor connection ( 10 ) and the output connection ( 13 ) and thereby caused current flow in the DC voltage Control circuit ( 8 ) of the neutral switch contact ( 12 ) and the phase switch contact ( 14 ) are switchable and close the AC circuit, but open the DC circuit and that when the AC consumer is switched off, the neutral switch switch contact ( 12 ) and the Phase conductor changeover contact ( 14 ) takes place. 2. Power supply according to claim 1, characterized in that the DC voltage control circuit ( 8 ) has a voltage regulator ( 15 ) and between the output of the voltage regulator ( 15 ) and the phase conductor switch contact ( 14 ), a current sensor element, in particular a current sensor resistor ( 16 ), is switched by its output signal to switch the neutral switch contact ( 12 ) and the phase switch contact ( 14 ) can be triggered. 3. Power supply unit according to claim 1 or 2, characterized in that the neutral switch contact ( 12 ) and the phase switch contact ( 14 ) can be actuated by means of a switch transmitter ( 17 ), in particular a relay. 4. Power supply according to claim 3, characterized in that the Umschaltge ber ( 17 ) with a in the phase conductor ( 1 ) of the AC circuit switched scarf holding circuit ( 18 ) is connected. 5. Power supply according to one of claims 1 to 4, characterized in that the DC voltage control circuit ( 8 ) has a second DC voltage output connection ( 19 ) provided only for DC voltage and preferably the DC voltage output connection ( 19 ) directly to the output of Voltage regulator ( 15 ) is connected. 6. Power supply according to one of claims 1 to 5, characterized in that the DC voltage control circuit ( 8 ) reaches a targeted zero switching of the DC voltage at the second DC voltage output terminal ( 19 ) under certain conditions. 7. Power supply according to claim 6, characterized in that in the phasing line ter ( 1 ) of the AC circuit, a zero control circuit ( 37 ) is connected and when current flows through the zero control circuit ( 37 ) the direct voltage control circuit ( 8 ) for zero switching the DC voltage is driven. 8. Power supply according to claim 7, characterized in that the zero control circuit ( 37 ) between the phase conductor changeover contact ( 14 ) and an output terminal ( 13 ) in parallel, further output terminal ( 38 ) is connected. 9. Power supply according to claim 7 or 8, characterized in that the zero control circuit ( 37 ) and the DC voltage control circuit ( 8 ) are coupled via an optocoupler ( 39 ). 10. Power supply according to one of claims 6 to 9, characterized in that for switching the DC voltage to zero at the second DC voltage output finally the bridge rectifier is unlockable. 11. Power supply according to one of claims 6 to 9, characterized in that for zero switching of the DC voltage at the second DC voltage output connection ( 19 ), the reference voltage of the voltage regulator ( 15 ) can be reduced accordingly. 12. Power supply according to one of claims 5 to 11, characterized in that between the neutral connection ( 10 ) and the second DC voltage output connection ( 19 ), a sound signal generator with an output terminal ( 46 ) is connected.