EP2775080B1 - Control device for a drive of a window or the like - Google Patents

Description

The invention relates to a control device for driving a window or the like according to the preamble of claim 1.

From the DE 295 13 905 U1 An electric actuator for a wing of a window is known, comprising an electric drive, an actuating button and a self-holding module, which is connected between the actuating button and the drive. In the self-holding module two relays with up to three changeover contacts for switching the drive for electrically controlled opening and closing of the wing are used.

The DE 42 12 473 A1 discloses a drive for window clutches or the like, having a drive housing in which a DC motor is present, which drives a rack acting on the window dome. The drive has a power supply device for the engine. The power supply device in the drive housing has a low-voltage generating transformer and a rectification circuit that converts the low-voltage voltage. To switch the direction of rotation of the drive also relays are used.

From the DE 195 07 407 A1 a device for operation and monitoring of smoke and heat exhaust openings is known, which comprises motor drives, control and operating units, such as control device for the drive, buttons and a common display and control center. The device has a BUS system for controlling the drives.

Disadvantageously, the devices known from the prior art are complex and, in particular, too costly for simple systems.

The invention has for its object to provide a simple, inexpensive control device for driving a window or the like.

The object is solved by the features of claim 1.

The subclaims form advantageous embodiments of the invention.

According to the prior art, the direction control of a drive of a window or the like takes place either via serial bus signals or by changing the polarity of the supply voltage. For simple applications in ventilation mode, in particular in conjunction with power supplies, a pushbutton interface for the key unit is used according to the invention. Advantageously, the polarity of the supply voltage for the drive does not have to be reversed in order to effect a change in the actuation direction of the drive for opening or closing the window, whereby inexpensive standard power supplies can be used.

The button interface converts the switching signals of the button unit into analog voltage levels, which can be read in via the signal input for each connected drive. The switching commands OPEN, CLOSE and the quiescent level for the drive shutdown are evaluated via three different voltage levels. The button interface is usually installed in an electrical box, which can be designed as a flush or surface-mounted box, between the drive, the power supply and the button unit. Alternatively, the probe interface can be arranged, for example, in the housing of the power supply.

In order for the conversion of the switching unit of the switch unit into voltage levels largely independent of fluctuations in the supply voltage, a combination of resistor and zener diode is used for each voltage level. Due to the different zener voltages of the zener diodes, the associated resistors are each adapted.

The voltage levels are output as a signal level to a signal line via a wired-OR connection constructed of diodes. As long as none of the keys are pressed, the signal level is at idle level. When the button is pressed open or closed, the corresponding voltage level is output via the respective diode as signal level to the drive, whereby the highest voltage is prioritized.

The circuit is designed so that no damage to the board occurs due to a wrong connection. For this purpose, PTC, poly-switch fuses or protective diodes are provided on the board. The lines can be advantageously connected via a so-called wire-to-board connector pluggable with board.

In the following an embodiment in the drawing with reference to the figures will be explained in more detail.

Fig. 1

eine Prinzipdarstellung einer Anordnung der Steuerungsvorrichtung;

Fig. 2

eine Schaltbild der Steuerungsvorrichtung.

Showing:

Fig. 1

a schematic diagram of an arrangement of the control device;

Fig. 2

a circuit diagram of the control device.

In the FIG. 1 the control device 1 for a drive 2 of a window 3 is shown. The control device comprises a power supply unit 5, a key unit 6 and a pushbutton interface 7, which are arranged in electrical boxes 4, for example, flush-mounted or surface-mounted boxes. Furthermore, a drive control 8 is arranged in the drive 2. The aforementioned elements of the control device 1 are electrically connected to each other via lines 9, which have a plurality of wires.

For opening and closing the window 3, it is provided that the button unit 6 has a push-button 6.1 and a push-button 6.2 to effect the actuation of the drive 2 for opening and closing the window 3.

In the FIG. 2 a circuit diagram of the control device 1 is shown. The power supply 5 is the input side with the country-specific common AC voltage of the mains, here 230V supplied. On the output side, the power supply provides a DC voltage of 24 V here, as is frequently used in such drives 2. Other output voltages are of course also possible. The DC voltage is connected to the drive 2 and the button interface 7. Furthermore, the button unit 6 is connected to the button interface 7.

To actuate the drive 2, the pushbutton interface 7 and the drive control 8 have a connection which represents a signal output at the push-button interface 7 and a signal input for the signal S at the drive control.

Depending on the actuation of the push-button 6.1 or button 6.2, the push-button interface 7 provides a signal S with a different signal level, which is dependent on the selected components, in particular the Zener diodes ZD1, ZD2, ZD3 and which is tuned to the available DC voltage is. Depending on the signal level of the signal S, the drive controller 8 effects an actuation of the drive 2 of the window 3 for opening or closing or stopping or the resting state of the drive 2.

On the board of the button interface 7, the PTC thermistor PTC1, PTC2 are provided as a protective circuit, which prevent damage caused by a wrong connection during installation. To generate the three signal levels provided in different voltage levels for the opening, closing and stopping or the idle state of the drive 2, in each case a Zener diode ZD1, ZD2, ZD3 with associated series resistor R1, R2, R3 are present. The three signal levels can be, for example, 6V, 12V and 18V and are available as signal S at the push-button interface 7. The drive controller 8 converts the applied signal S in accordance with the signal level in the associated operation of the drive 2. The three signal levels, which at the Zener diodes ZD1, ZD2, ZD3 are present, are connected through the diodes D1, D2, D3 as a wired-or - link.

To actuate the drive 2, the push-button OPEN 6.1 or the push-button CLOSE 6.2 is actuated, each push-button 6.1, 6.2 being connected on one side to the + pole of the DC voltage. Furthermore, the Zener diode ZD1 is also connected directly to the + pole of the DC voltage via its series resistor R1. If the push-buttons 6.1, 6.2 are not actuated, therefore, a first signal level 6V determined by the zener diode ZD1 is ready via the diode D1 as signal S, which causes a stop or the idle state of the drive 2. If the pushbutton is closed 6.1, is due to the Zener diode ZD2 certain, second, higher signal level 12V via the diode D2 as a signal S, which is provided here for driving the drive 2 to open the window 3. Closing the push-button CLOSE 6.2 causes a third signal level of 18 V of the Zener diode ZD3 to be provided as signal S, which causes a triggering of the drive 2 in the closing direction of the window 3.

By controlling the drive 2 with different signal levels, a simple and cost-effective control device 1 is provided according to the invention.

List of reference characters

1

control device

2

drive

3

window

4

electrical box

5

power adapter

6

probe unit

6.1

Push-button OPEN

6.2

Button CLOSE

7

Button interface

8th

drive control

9

management

S

signal

D1, D2, D3

diode

PTC1, PTC2

PTC

R1, R2, R3

resistance

ZD1, ZD2, ZD3

Zener diode

Claims (5)

1. Control apparatus (1) for a drive (2) for a window (3) or the like, having a power supply unit (5) and a pushbutton switch unit (6) for actuating the drive (2) to open and close the window (3), characterized
   in that switching signals from the pushbutton switch unit (6) are converted into three signal levels, wherein a first signal level brings about stopping or the idle state of the drive (2), a second signal level brings about operation of the drive (2) to open the window (3) and a third signal level brings about operation of the drive (2) to close the window (3).
2. Control apparatus according to Claim 1, characterized in that the signal levels are produced by means of Zener diodes (ZD1, ZD2, ZD3), wherein a signal S is output to the drive (2).
3. Control apparatus according to Claim 2, characterized in that the signal levels from the Zener diodes (ZD1, ZD2, ZD3) are logically combined by means of a wired-OR function formed with the diodes (Dl, D2, D3).
4. Control apparatus according to one of the preceding claims,
   characterized in that the signal level having the highest voltage is prioritized.
5. Control apparatus according to one of the preceding claims,
   characterized in that the drive (2) contains a drive controller (8) that converts the signal level of the signal S into associated operation of the drive (2) to open or close the window (3) or to stop or for the idle state of the drive (2).

Images