EP3045646A1 - Automatic door drive and associated operating method - Google Patents

Abstract

The invention relates to an automatic door drive (1) having a drive unit (20) and an evaluation and control unit (10) which automatically opens and closes a door leaf (3) by means of the drive unit (20), wherein the evaluation and control unit (10 ) automatically closes the door leaf (3) in a first operating mode (BA) after a predetermined hold-open period and moves from the open position to the closed position, and wherein the evaluation and control unit (10) controls the door leaf (3) in a second mode (BD ) permanently in the open position, and an operating method for such an automatic door drive (1). According to the invention, the drive unit (20) has a position transmitter (22) whose output signals the evaluation and control unit (10) evaluates to determine a current position of the door leaf (3), the evaluation and control unit (10) activating the second operating mode (BD) when the evaluation and control unit (10) recognizes in the open position that the door leaf (3) is manually moved further in the opening direction.

Description

The invention relates to an automatic door drive referred to in the preamble of claim 1. Art and an operating method for such an automatic door drive referred to in the preamble of claim 10. Art.

Automatic door drives are known from the prior art, which move the door from a closed position to an open position in automatic mode and close the door automatically after the expiration of a preset hold-open time. If the door is also to remain in the open position, the user must switch the operating mode to a permanent open mode and switch back afterwards. This is particularly cumbersome when the program switch is difficult to access, which is often the case.

From the DE 44 42 948 A1 a device for controlling mobile devices is known, which has a designed as a potentiometer incremental encoder to determine the current position of a rolling shutter.

The invention has for its object to provide an automatic door drive and an associated operating method, which allow a simple and fast switching between two different modes.

This object is achieved by the features of the automatic door drive according to claim 1 and the features of the operating method for an automatic door drive according to claim 13.

Advantageous embodiments and further developments of the invention are specified in the remaining claims.

The automatic door drive according to the invention has a drive unit with a position sensor whose output signals evaluates an evaluation and control unit for determining a current position of a door leaf. The evaluation and control unit activates a second operating mode in which the door leaf is permanently held in an open position when the evaluation and control unit detects in the open position that the door leaf is manually moved further in the opening direction. In a first mode of operation, the evaluation and control unit automatically closes the door leaf after a predetermined hold-open period. As a result, a simple switching over from the first operating mode to the second operating mode is made possible in an advantageous manner.

The operating method for an automatic door drive according to the invention evaluates output signals of a position sensor for determining a current position of the door leaf and activates the second mode in which the door is permanently held in an open position, when it is detected in the open position that the door manually further in the opening direction is moved. In the first operating mode, the door leaf is automatically closed again after a predetermined hold-open period.

The position sensor can be executed, for example, as an incremental encoder or as a proximity sensor.

Embodiments of the automatic door drive according to the invention can preferably be used for designed as a swing-wing door. In the case of such a door leaf designed as a swing leaf, the individual increments of the incremental encoder can correspond to a predefinable angle value. Here, the closed position of the door leaf, a first value can be assigned, which represents an angle of the door leaf in the closed state. The open position of the door leaf can be assigned a second value, which represents an angle of the door leaf in the open state. The evaluation and control unit then knows after how many increments the door leaf has reached its open position. If the user presses the door manually over this open position, the evaluation and control unit switches the mode to the second mode in which the door is held permanently in the open position. An executed as a proximity sensor position sensor can detect the distance of the door leaf to a stop. The proximity sensor can be placed on the door leaf or on the stop. The proximity sensor can be designed for example as an ultrasonic or infrared sensor or as a button or switch.

In a preferred embodiment of the automatic door drive according to the invention, the evaluation and control unit can detect the manual movement in the opening direction in that the value of the output signal of the incremental encoder increases. Alternatively, the evaluation and control unit can detect the manual movement in the opening direction in that the output signal of the proximity sensor represents a decreasing distance.

In an advantageous embodiment of the automatic door drive according to the invention, the evaluation and control unit can activate the first mode and shoot the door again when the evaluation and control unit recognizes in the open position that the door is moved manually in the closing direction. By this measure, the door can be closed both in the first mode and in the second mode and moved from the open position to the closed position when a manual operation in the closing direction is detected.

Alternatively, the evaluation and control unit can activate the first operating mode and shoot the door leaf if the evaluation and control unit detects during the second operating mode in the open position that the door leaf is manually moved in the closing direction. By this measure, the door can be closed only in the second mode and moved from the open position to the closed position when a manual operation in the closing direction is detected.

In a further advantageous embodiment of the automatic door drive according to the invention, the evaluation and control unit can detect the manual movement in the closing direction in that the value of the output signal of the incremental encoder decreases. Alternatively, the evaluation and control unit can detect the manual movement in the closing direction in that the output signal of the proximity sensor represents an increasing distance.

In a further advantageous embodiment of the automatic door drive according to the invention, the evaluation and control unit can close the open door in the second mode after a predetermined safety period, which is longer than the hold-open period. This can be ensured in an advantageous manner that the door is not inadvertently open.

In a further advantageous embodiment of the automatic door drive according to the invention, a resilient Öffnungsbegrenzer pretend the open position of the door leaf to avoid unwanted change of mode, for example by wind influence.

An exemplary embodiment of the invention will be explained in more detail below with reference to drawings.

Fig. 1

ein schematisches Blockdiagramm eines Ausführungsbeispiels eines erfindungsgemäßen automatischen Türantriebs,

Fig. 2 und 3

ein schematisches Ablaufdiagramm, welches eine Auswerte- und Steuereinheit des erfindungsgemäßen automatischen Türantriebs gemäß Fig. 1 ausführt.

Showing:

Fig. 1

a schematic block diagram of an embodiment of an automatic door drive according to the invention,

FIGS. 2 and 3

a schematic flow diagram, which is an evaluation and control unit of the automatic door drive according to the invention Fig. 1 performs.

How out Fig. 1 it can be seen, the automatic door drive 1 in the illustrated embodiment comprises a drive unit 20 and an evaluation and control unit 10, which automatically opens and closes a door 3 by means of the drive unit 20. In a first operating mode BA, the evaluation and control unit 10 automatically closes the door leaf 3 again after a predetermined hold-open period and moves the door leaf 3 from the open position to the closed position. In a second operating mode BD, the evaluation and control unit 10 keeps the door leaf 3 permanently in the open position. According to the invention, the drive unit 20 has a position transmitter 22, the output signals of which are the evaluation and control unit 10 for determining a current position of the door leaf 3, the evaluation and control unit 10 activating the second operating mode BD when the evaluation and control unit 10 recognizes in the open position that the door leaf 3 is manually moved further in the opening direction.

The position sensor 22 can be executed, for example, as an incremental encoder or as a proximity sensor.

In the illustrated embodiment, the door 3 are designed as swivel wings and the position sensor 22 as an incremental encoder. The individual increments of the incremental encoder each correspond to a predetermined angle value. For example, the closed position of the door leaf 3 corresponds to a first value and the open position of the door leaf corresponds to a second value. If the door leaf 3 now moves in the opening direction from the closed position to the open position, the current value of the incremental encoder 22 increases. If the door leaf 3 moves in the closing direction from the open position to the closed position, the current value of the incremental encoder 22 decreases. The evaluation and control unit knows after how many increments the door leaf has reached its open position. If the user presses the door leaf 3 manually over this open position, then the evaluation and control unit detects the corresponding increase of the current value of the incremental encoder 22 over the second value and switches the operating mode of the automatic door drive 1 to the second operating mode BD, in which the door leaf 3 is permanently held in the open position.

In the illustrated embodiment, the evaluation and control unit 10 activates the first operating mode 14 and closes the door leaf 3 when the evaluation and control unit 10 during the second operating mode 14 in the open position detects that the door leaf 3 is manually moved in the closing direction. Alternatively, the evaluation and control unit 10 can be designed so that regardless of the current mode, the first mode BA is activated and the door closed when the evaluation and control unit 10 detects in the open position that the door leaf 3 is moved manually in the closing direction ,

In addition, in the illustrated embodiment, a safety period of, for example, about 2 minutes is given, which is longer than the hold-open period. This means that the evaluation and control unit 10 closes the open door 3 in the second operating mode 14 again after the expiry of the safety period in order to ensure that the door leaf 3 is not unintentionally open.

In order to avoid an unwanted change of the operating mode, for example due to the influence of wind, a resilient opening limiter can be used, which predefines the open position of the door leaf 3.

How out Fig. 2 and 3 As can be seen, the drive device 20 receives in the closed position Z1 of the door leaf 2 in step S100 an opening signal from the evaluation and control unit 10. Thus, the drive device 20 opens in step S110 the door leaf 3 and moves the door leaf 3 from the closed position Z1 in the open position Z2. In step S120, the evaluation and control unit 10 monitors the opening movement and compares the current door angle with the predetermined angle of the open position Z2. If the door leaf 3 reaches the open position Z2, the evaluation and control unit 10 starts a stopwatch in step S200 to detect when the hold-open period has expired. For this purpose, the evaluation and control unit 10 continuously compares the elapsed time of the stopwatch with the value of the hold-open period. In addition, the evaluation and control unit 10 continuously checks the current door angle to detect whether the door leaf 3 is moved. If the evaluation and control unit 10 detects in step S210 that the current value of the incremental encoder 22 representing the current door angle is greater than the second value representing the open position, then the evaluation and control unit 10 branches to step S300. If the evaluation and control unit 10 detects no movement of the door leaf 3, then the evaluation and control unit 10 checks in step S220 whether the hold-open period has expired. If the hold-open time has expired, the evaluation and control unit 10 controls the drive device 20 which closes the door leaf 3 in step S230 until the closed position Z1 is reached and the automatic opening and closing operation of the door leaf 3 initiated by the opening signal is completed.

In step S300, the evaluation and control unit 10 switches the mode from the first mode DA "automatic" to the second mode BD "continuous open" and starts the stopwatch in step S310 to detect when the safety period has expired. For this purpose, the evaluation and control unit 10 continuously compares the elapsed time of the stopwatch with the value of the safety period of about 2 minutes. In addition, the evaluation and control unit 10 continuously checks the current door angle to detect whether the door leaf 3 is moved. If the evaluation and control unit 10 recognizes in step S320 that the current value of the incremental encoder 22 representing the current door angle is smaller than the second value representing the open position, then the evaluation and control unit 10 branches to step S360. If the evaluation and control unit 10 detects no movement of the door leaf 3, then the evaluation and control unit 10 checks in step S330 whether the safety period has expired. If the safety period has expired, then the evaluation and control unit 10 switches the operating mode in step S340 from the second operating mode BD "permanently open" to the first operating mode DA "automatic". In addition, the evaluation and control unit 10 checks the current door angle to detect whether the door leaf 3 is moved again. If the evaluation and control unit 10 detects in step S350 that the current value of the incremental encoder 22 representing the current door angle is greater than the second value representing the open position, then the evaluation and control unit 10 branches to step S300 and repeats steps S300 to S340 , If the evaluation and control unit 10 has detected no movement of the door leaf 3 in step S350, the evaluation and control unit 10 branches to step S230 and controls the drive device 20, which closes the door leaf 3 in step S230 until reaching the closed position Z1.

In step S360, the evaluation and control unit 10 switches the operating mode from the second operating mode BD "permanently open" to the first operating mode DA "automatic". Subsequently, the evaluation and control unit 10 branches to step S230 and controls the drive device 20, which closes the door leaf 3 in step S230 until reaching the closed position Z1.

In an alternative embodiment, not shown, the position sensor 22 is designed as a proximity sensor, which detects a distance of the door leaf 3 to a stop. The position sensor 22 designed as a proximity sensor can be arranged on the door leaf 3 or on the stop. In contrast to the embodiment of the position sensor 22 as an incremental encoder, the closed position of the door leaf 3 is assigned a first distance value which represents an angle of the door leaf in the closed state. The open position of the door leaf 3 is assigned a second distance value which represents an angle of the door leaf 3 in the open state. The evaluation and control unit 10 then knows when the door leaf 3 is approaching its open position and when the door leaf 3 has moved away from the open position or has reached the open position. The proximity sensor may for example be designed as an ultrasonic or infrared sensor. In the embodiment of the position sensor 22 as a proximity sensor, the evaluation and control unit 10 detects the manual movement of the door leaf 3 in the opening direction in that the output signal of the proximity sensor represents a decreasing distance. The manual movement of the door leaf 3 in the closing direction recognizes the evaluation and control unit 10 in that the output signal of the proximity sensor represents an increasing distance. Therefore, the evaluation and control unit 10 perform the switching operations described above between the various modes of the automatic door drive 1.

The automatic door drive according to the invention advantageously allows a door-angle-controlled mode change function ("push and keep" function).

LIST OF REFERENCE NUMBERS

1

Automatic door drive

3

door

10

Evaluation and control unit

BA

first operating mode "automatic"

BD

second operating mode "permanently open"

20

driving device

22

locator

Z1

door closed

Z2

door open

S110 to S360

step

Claims (19)

Automatic door drive (1) with a drive unit (20) and an evaluation and control unit (10) which automatically opens and closes a door leaf (3) by means of the drive unit (20), wherein the evaluation and control unit (10) controls the door leaf (20). 3) in a first operating mode (BA) automatically closes again after a predetermined hold-open period and moves from the open position to the closed position, and wherein the evaluation and control unit (10) the door (3) in a second mode (BD) permanently in the Holding open position,
characterized,
in that the drive unit (20) has a position transmitter (22) whose output signals evaluate the evaluation and control unit (10) for determining a current position of the door leaf (3), wherein the evaluation and control unit (10) controls the second operating mode (BD). activated when the evaluation and control unit (10) detects in the open position that the door leaf (3) is manually moved further in the opening direction. Automatic door drive according to claim 1,
characterized,
that the position sensor (22) is designed as an incremental encoder or as a proximity sensor. Automatic door drive according to claim 2,
characterized,
in that the evaluation and control unit (10) recognizes the manual movement in the opening direction in that the value of the incremental encoder output signal increases. Automatic door drive according to claim 2,
characterized,
that the evaluation and control unit (10) characterized detects the manual movement in the opening direction, that the output signal of the proximity sensor represents a decreasing distance. Automatic door drive according to one of claims 1 to 4,
characterized,
that the evaluation and control unit (10) activates the first mode of operation (BA) and closes the door leaf (3) when the evaluation and control unit (10) recognizes in the open position so that the door leaf (3) is manually moved in the closing direction. Automatic door drive according to one of claims 1 to 4,
characterized,
that the evaluation and control unit (10) activates the first mode of operation (BA) and closes the door leaf (3) when the evaluation and control unit (10) during the second operating mode (BD) recognizes in the open position so that the door leaf (3 ) is moved manually in the closing direction. Automatic door drive according to claim 5 or 6,
characterized,
that the evaluation and control unit (10) detects the manual movement in the closing direction by the fact that the value of the output signal of the incremental encoder decreases. Automatic door drive according to claim 5 or 6,
characterized,
that the evaluation and control unit (10) characterized detects the manual movement in the closing direction, that the output signal of the proximity sensor represents an increasing distance. Automatic door drive according to one of claims 1 to 8,
characterized,
in that the evaluation and control unit (10) closes the open door leaf (3) in the second operating mode (BD) after a predetermined safety period, which is longer than the hold-open period. Automatic door drive according to one of claims 1 to 9,
characterized,
that a resilient Öffnungsbegrenzer the open position of the door leaf (3) pretends. Automatic door drive according to one of claims 1 to 10,
characterized,
that the door leaf (3) is designed as a pivoting wing. Automatic door drive according to claim 11,
characterized,
that the individual increments of the incremental encoder correspond to a predefinable angle value. Operating method for an automatic door drive (1) which automatically opens and closes a door leaf (3) by means of a drive unit (20), wherein the door leaf (3) automatically closes again in a first operating mode (BA) after a predetermined hold-open period and from an open position is moved to a closed position, and wherein the door leaf (3) in a second mode (BD) is held permanently in the open position,
characterized,
that output signals of a position sensor (22) for determining a current position of the door leaf (3) are evaluated and the second mode (BD) is activated when it is detected in the open position that the door leaf (3) is manually moved further in the opening direction. Method according to claim 13,
characterized,
that the position sensor (22) is designed as an incremental encoder or as a proximity sensor. Method according to claim 14,
characterized,
in that the manual movement in the opening direction is recognized by the fact that the value of the incremental encoder output signal increases or the output signal of the proximity sensor represents a decreasing distance. Method according to one of claims 13 to 15,
characterized,
that the first operating mode (BA) is activated and the door leaf (3) is closed when, in the open position, a manual movement of the door leaf (3) in the closing direction is detected. Method according to one of claims 13 to 15,
characterized,
in that the first operating mode (BA) is activated and the door leaf (3) is closed if during the second operating mode (BD) in the open position a manual movement of the door leaf (3) in the closing direction is detected. Method according to claim 16 or 17,
characterized,
that the manual movement in the closing direction is detected by the fact that the value of the output signal of the incremental encoder (22) decreases or the output signal of the proximity sensor represents an increasing distance. Method according to one of claims 13 to 18,
characterized,
that the open door (3) in the second operating mode (BD) is closed again after a predetermined safety period, which is longer than the hold-open time period.

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