EP3406836A1 - Method and device for automatically determining the position of sensors - Google Patents

Abstract

In a method for automatically determining the position of sensors of an automatic door system, in particular an automatic sliding door system, with a plurality of particular security serving sensors comprising at least one transmitting device for emitting light and at least one detector device for detecting light and are each designed so that by reference is detected from the respective detected light, from which side of the transmitting device, the detected light was received, first to determine the positions of the sensors relative to each other, the transmitting devices of the various sensors sequentially controlled with changed clock and / or transmission frequency and / or modified modulation and / or the transmitting devices of the various sensors are switched off one after the other and via the detector device of a respective sensor which is not triggered with a changed clocking or transmitting frequency or not with a changed modulation detects from which side, if necessary, light of the sensor controlled by a modified clock and / or transmission frequency or modified modulation is detected, or detected by the detector device of the sensor with the sensor device switched off, from which side optionally light from another sensor is received. Subsequently, the respective absolute position of the sensors is determined based on the determined positions of the sensors relative to each other.

Description

The invention relates to a method and a device for automatically determining the position of sensors of an automatic door system, in particular an automatic sliding door system, with a plurality of particular security serving sensors comprising at least one transmitting device for emitting light and at least one detector device for detecting light and in each case so are executed, that it can be determined on the basis of the respectively detected light, from which side of the transmitting device, the detected light has been received.

In larger sliding door systems several intended to secure the sliding door sensors are usually provided, which are arranged side by side in the sliding direction of the sliding door and in particular both left and right of the main closing edge can be arranged. For reliable operation of the automatic sliding door system, the respective control system must be informed about the position of a respective sensor on the sliding door system.

While so-called control sensors are used to automatically open the door, the sensors used for the protection are so-called presence sensors which monitor the opening or closing of the door and during a respective activation or detection of a person or object in the door area during closing or Open if necessary, an automatic stop the closing or opening process cause. Depending on the position or installation location of such sensors protecting the door and the parameterization, the controller reacts differently to the activation of a respective sensor. The exact knowledge of the respective position of the sensors The door is therefore essential for reliable operation of the sliding door system.

The respective position of the sensors has hitherto been determined via the wiring of the setter. Each sensor is connected to the controller via a separate cable. The installer must assign the sensors to the correct input on the controller. In addition, the sensors previously often had a switching output such as a relay, a transistor or the like, which changes its level at a respective activation of the sensor.

The commissioning of such previous automatic sliding door systems is relatively expensive and correspondingly expensive. In addition, the risk of incorrect installation is relatively large. Finally, any necessary adjustment of the control to made changes to the sliding door system is relatively difficult.

The invention has for its object to provide a method and an apparatus for the automatic positioning of sensors of an automatic door system, in particular automatic sliding door system, of the type mentioned, with which the aforementioned problems are eliminated. In particular, the commissioning especially larger sliding door systems should be simplified and be more reliable and cheaper feasible.

According to the invention this object is achieved by a method having the features of claim 1 and a device having the features of claim 8. Preferred embodiments of the method according to the invention and the device according to the invention will become apparent from the subclaims, the present description and the drawings.

The inventive method is used for the automatic position determination of sensors of an automatic door system, in particular an automatic sliding door system, with a plurality of particular security serving sensors, each comprising a transmitting device for emitting light and a detector device for detecting light and are each designed so that based of the respectively detected light can be determined from which side of the transmitting device, the detected light has been received. Initially, to determine the positions of the sensors relative to one another, the transmission devices of the various sensors are actuated successively with changed clock and / or transmission frequency and / or modified modulation and / or the transmission devices of the various sensors are switched off one after the other and not changed by the detector device of a respective one Clock or transmission frequency or not controlled with a modified modulation sensor detects from which side, if necessary light of the clock or transmission frequency with changed modulation or controlled sensor is received, or detected by the detector device of the sensor with switched off sensor device, from which side light may be received from another sensor. Subsequently, the respective absolute position of the sensors is determined based on the determined positions of the sensors relative to one another. In this case, the absolute position of a respective sensor is to be understood as meaning its position with respect to the relevant door system.

Due to the inventive design of the method, the start-up especially a larger sliding door system with several in particular the hedge serving sensors is much easier, making commissioning not only in a shorter time, but also reliable and cheaper to carry out. Among other things, the invention makes use of the fact that in the case of optical sensors it is possible to determine from the side of the transmitting device or its respective at least one transmitting diode the detected light by means of the respective detected light. So includes For example, the transmitting device of a respective so-called active infrared sensor at least one transmitting diode and the detector device at least one of these transmitting diode associated, left or right of the transmitting diode arranged receiving diode. By means of the information which receiving diode receives light, it can thus be determined from which side, if necessary, light has been received. A respective sensor thus knows whether the light was received from the right or left. By now the various sensors are controlled sequentially with changed clock and / or transmission frequency and / or modified modulation, can be detected via the detector device of a respective not controlled with changed clock or transmit frequency or unmodified modulation sensor from which side, if necessary Light of the sensor controlled by a modified clock and / or transmission frequency or modified modulation is received to first determine the position of the sensors relative to each other. Alternatively, for the preceding determination of the positions of the sensors relative to one another, the transmission devices of the various sensors can also be switched off one after the other. By means of the detector device of the respective sensor with the sensor device switched off, it can then be detected from which side optionally light from another sensor is received. Subsequently, the respective absolute position of the sensors can then be determined relative to one another on the basis of the positions of the sensors determined in this way.

Preferably, the monitoring areas of adjoining sensors partially overlap. A respective sensor can thus also receive light from an adjacent sensor for automatic position determination of the sensors.

According to an expedient practical embodiment of the method according to the invention for determining the position of the sensors relative to each other, the clock and / or transmission frequency of the transmitting devices of the sensors stepwise changed from sensor to sensor from a first clock and / or transmission frequency to a second clock and / or transmission frequency and a respective other sensor with not switched to the second clock or transmission frequency transmitting device automatically queried whether and optionally from which side Receives light of the second clock or transmission frequency. By the clock and / or transmission frequency is changed step by step from sensor to sensor from the first clock or transmission frequency to the second clock or transmission frequency, knows a respective sensor with unconverted clock or transmission frequency that optionally detected light from comes from another sensor. In addition, he knows from which side he optionally receives light of the second clock or transmission frequency.

According to an alternative embodiment, to determine the positions of the sensors relative to one another, the modulation of the transmission devices of the sensors can be changed step by step from sensor to sensor from a first modulation to a second modulation and automatically queried a respective other sensor with not converted to the second modulation sensor device whether and, if so, from which side it receives modulated light according to the second modulation. A respective non-second modulated manner, upon receiving modified modulation light, thus knows that this light originates from another sensor, and also knows from which side the light was received. By a corresponding successive query the sensors thus their position can be determined relative to each other.

As stated, the sensors can be used, in particular, as presence sensors for securing the opening process and / or as presence sensors for ensuring the closing process of the relevant door. In a respective activation of such a presence sensor, in particular, the automatic opening or the automatic closing of the door can be stopped.

At least partially identical sensors can be used. Thus, in particular for the detection of the presence of objects and people in the opening area or for the presence detection of objects and persons in the closing area of the door identical sensors can be used, but the controller must respond differently to an activation of the individual sensors.

In particular so-called active infrared sensors can be used as sensors. Such active infrared sensors use invisible infrared waves, which can be emitted at a certain clock frequency in order to eliminate the possibly disturbing influence of foreign infrared radiation sources.

The inventive device for automatically determining the position of sensors of an automatic door system, in particular an automatic sliding door system, which is particularly suitable for carrying out the method according to the invention, accordingly comprises a plurality of sensors, in particular securing, each comprising a transmitting device for emitting light and a detector device for detecting light are each designed so that it can be determined on the basis of the respective detected light, from which side of the transmitting device, the detected light was received. In addition, the device comprises a control unit. In this case, the sensors and the control unit form participants of a data transmission system, via which they are connected to one another. The control unit is designed so that for determining the position of the sensors initially for determining the positions of the sensors relative to each other, the transmitting devices of the various sensors successively controlled with changed clock and / or transmission frequency and / or modified modulation and / or the transmitting devices of the various sensors sequentially switched off are and about the detector device of a respective can not be detected with changed clock or transmission frequency or not modulated with a changed modulation sensor, from which side, if necessary, light of the controlled clock or transmitter frequency or modified modulation sensor is received, or via the detector device of the sensor switched off Transmitter can be detected from which side, if necessary, light from another sensor is received, and then the respective absolute position of the sensors based on the determined positions of the sensors can be determined relative to each other.

After the sensors and the control unit form part of an intelligent data transmission system, the automatic position determination according to the invention can be carried out in a simple manner via this data transmission system.

The monitoring areas of adjacent sensors may partially overlap.

According to a preferred practical embodiment of the device according to the invention, the control unit is designed so that for determining the positions of the sensors relative to each other, the clock and / or transmission frequency of the transmitting devices of the sensors stepwise from sensor to sensor from a first clock and / or transmission frequency to a second clock or transmission frequency changeable and a respective other sensor with not on the second clock or. Transmitting frequency converted transmitting device is automatically interrogated, if and optionally from which side it receives light of the second clock or transmission frequency.

Alternatively or additionally, the control unit can also be designed so that for determining the positions of the sensors relative to each other, the modulation of the transmitting devices of the sensors gradually from sensor to sensor from a first modulation to a second modulation changeable and a respective other Sensor is automatically interrogated with non-modulated to the second modulation transmitting device, if and optionally from which side it receives modulated light according to the second modulation.

As already mentioned, the sensors can be provided in particular as presence sensors for securing the opening process and / or as presence sensors for securing the closing process of the relevant door.

The sensors can be designed at least partially identical. As stated, in particular sensors for detecting the presence of objects and persons in the opening area or sensors for detecting the presence of objects and persons in the closing area of the door can each be implemented by identically constructed sensors, wherein the controller must respond differently to an activation of the individual sensors.

Advantageously, the sensors are each designed as an active infrared sensor. Such an active infrared sensor emits infrared waves, which may be clocked at a certain frequency in order to prevent any interfering influences of extraneous light.

It is particularly advantageous if the transmitting device of a respective sensor comprises at least one transmitting diode and the detector device of a respective sensor at least one receiving diode and the control unit is designed so that from which side the light in question was received on the basis of a respective light-detecting receiving diode.

After it has been possible to ascertain via such a sensor from which side the relevant light has been received, it is particularly suitable for carrying out the position determination of the sensors according to the invention.

In particular, the sensors can each be provided in a stationary manner and designed so that they always monitor the same area. In this case, a respective receiving diode of the detector device of a respective sensor is preferably aligned with a spot fixed relative to the sensor.

The data transmission system is advantageously designed at least for a particularly bidirectional communication between a respective sensor and the control unit. In addition, the data transmission system can be designed for communication between the sensors.

According to a preferred practical embodiment of the device according to the invention, a respective sensor as an intelligent unit comprising a microprocessor or the like is designed to transmit a corresponding message, which can also be taken, upon detection of light from another sensor via the data transmission system which receiving diode its detector device or which side of the respective light was received.

Preferably, a respective sensor can be activated, parameterized, addressed and / or the like via the control unit and the data transmission system as a function of its absolute position determined based on the determined positions of the sensors relative to one another. The commissioning of the sliding door system is thus considerably simplified.

The control unit can be designed as a separate unit from the sensors and in particular as a decentralized control unit. Basically, however, such embodiments are conceivable in which the control unit is integrated in at least one sensor.

The data transmission system preferably comprises a bus device. In this case, in particular, the control unit can be designed as a bus master. If the control unit is integrated in a sensor, then the bus master can also be formed by such a sensor.

The inventive solution, the commissioning of larger sliding door systems in particular is considerably simplified and correspondingly less expensive. The previously required complex wiring for a corresponding assignment of the sensors to the inputs of the control is eliminated. The corresponding position determination of the sensors now takes place automatically via a corresponding communication between the controller and the sensors via an intelligent data transmission system. When activating a respective sensor, a corresponding message can be determined via the data transmission system. The assignment of the sensors to the inputs of the controller is automatic. All sensors and the control unit are participants in the same data transmission system. By means of corresponding messages on the data transmission system, the sensors can inform one after the other whether emitted light from other sensors has been received and, if appropriate, from which receiving diode or which side the light has been received. In this case, the sensors can distinguish the received light according to the clock and / or transmission frequency and / or the respective modeling. By means of a respective light-receiving diode, it can be determined whether the light emitting diode is to the left or right of the receiving diode. This information can also be transmitted as a message via the data transmission system. A subscriber on the data transmission system can gather all the information to first determine the positions of the sensors relative to one another. Subsequently, the respective absolute positions of the sensors can be determined from this. Messages on the data transmission system can be communicated to the individual sensors their position. In addition, the controller can change the respective position of a sensor to the corresponding inputs assign. The control of the queries on the data transmission system can be controlled by a subscriber of this data transmission system. The activation of a respective sensor at a certain position can also be used for a partial opening of the door.

Fig. 1

eine schematische Darstellung einer beispielhaften Ausführungsform einer erfindungsgemäßen Vorrichtung zur automatischen Positionsbestimmung von Sensoren einer automatischen Schiebetüranlage und

Fig. 2

eine schematische Darstellung einer beispielhaften Ausführungsform eines zur Verwendung bei der erfindungsgemäßen Vorrichtung geeigneten Sensors.

The invention will be explained in more detail below with reference to exemplary embodiments with reference to the drawing; in this show:

Fig. 1

a schematic representation of an exemplary embodiment of an inventive device for automatic positioning of sensors of an automatic sliding door system and

Fig. 2

a schematic representation of an exemplary embodiment of a suitable for use in the inventive device sensor.

Fig. 1 shows a schematic representation of an exemplary embodiment of an inventive device 10 for automatic position determination of sensors 10 - 20; 22-26 of an automatic sliding door system 28 with a plurality of sensors, in particular serving as protection, 12-20; 22 - 26, wherein the sensors 12 - 20 in the present case, for example, inside and the sensors 22 - 26 are arranged outside the closable by the sliding door system 28 space.

The sensors 12-20; 22-26 each comprise a transmitting device 30 for emitting light and a detector device 32 (cf. Fig. 2 ) for detecting light. The sensors 12 - 20; FIGS. 22-26 are each configured in such a way that it can be determined from which side of the transmitting device 30 the detected light has been received on the basis of the respectively detected light.

In addition, a control unit 34 is provided for controlling the sliding door system 28. In this case, the sensors 12 - 20; 22-26 and the control unit 34 subscribers of an intelligent data transmission system through which they are interconnected.

The control unit 34 is designed such that for determining the position of the sensors 12 - 20 or 22 - 26 first of all for determining the positions of the sensors 12 - 20 or 22 - 26 relative to each other, the transmitting devices 30 of the various sensors 12 - 20 or 22 - 26 can be controlled successively with a changed clock and / or transmission frequency and / or modified modulation and detected by the detector device 32 of a respective sensor not controlled by a modified clock or transmission frequency or not with a changed modulation, from which side optionally light of the changed clock -respectively. Transmission frequency or modified modulation sensor is received.

Alternatively or additionally, the control unit 34 may also be designed such that the various sensors 12-20 or 22-26 can be switched off one after the other for the first determination of the positions of the sensors 12-20 or 22-26 relative to one another and via the detector device 32 of the sensor with switched off transmitter 30 can be detected, from which side, if necessary light is received by another sensor.

In addition, the control unit 34 is designed so that subsequently the respective absolute position of the sensors 12-20 or 22-26 can be determined relative to one another on the basis of the previously determined positions of the sensors 12-20 or 22-26. As based on the Fig. 1 can be seen, the monitoring areas of adjacent sensors 12 - 20 or 22 - 26 overlap partially.

The control unit 34 can thus be designed, for example, such that the clock and / or transmission frequency of the transmitting devices 30 of the sensors 12-20 or 22-26 are incrementally determined by the sensor in order to determine the position of the sensors 12-20 or 22-26 relative to each other Sensor from a first clock and / or transmission frequency A to a second clock or transmission frequency B changeable and a respective other sensor with not switched to the second clock or transmission frequency B transmitting device 30 is automatically interrogated, and if so from which side he light the second clock or Transmitting frequency B receives.

As an alternative or in addition, the control unit 34 may also be designed such that the position of the sensors 12 - 20 or 22 - 26 relative to each other is modulated by the modulation of the transmitting devices 30 of the sensors 12 - 20 or 22 - 26 step by step from sensor to sensor a first modulation to a second modulation changeable and a respective other sensor with not switched to the second modulation sensor device 30 is automatically queried whether and optionally from which side it receives modulated light according to the second modulation.

The sensors 12-20; 22-26 may be provided in particular as presence sensors for securing the opening process and / or as occupancy sensors for securing the closing operation of the automatic sliding door system 28.

The automatic sliding door system 28 comprises in the present case, for example, two sliding sash 36 and two fixed wings 38, wherein it is designed for example as a sliding door system. The sensors 12 - 20 arranged inside comprise two sensors 12, 14 arranged to the left of the main closing edge viewed from the outside inwards, two sensors 18, 20 arranged to the right of the main closing edge and a sensor 16 arranged in the region of the main closing edge Fig. 1 moreover can be seen, the transmitting means 30 of the two sensors 12 and 20 respectively in the left and right sensor area and the transmitting means 30 of the two sensors 14 and 18 are respectively arranged in the right and left sensor area, while the sensor 16 is arranged with one in the central sensor area Transmitting device 30 is provided.

About the detector means 32 (see also again Fig. 2 ) of the two sensors 12, 18 is thus determined in each case whether light was received to the right of the associated transmitting device 30 and optionally right of the relevant sensor, while on the detector means 32 of the two sensors 14, 20 is determined in each case whether light left of the associated Transmitter 30 and optionally received left of the sensor. By contrast, it can be determined via the detector device 32 of the central sensor 16 whether light was received on the right or left of the transmitting device 30 or on the right or left of the sensor.

The sensors arranged on the outside comprise a sensor 22 arranged to the left of the main closing edge, a sensor 26 arranged to the right of the main closing edge and a sensor 24 arranged in the region of the main closing edge. The transmitting device 30 of the sensor 22 is in a right-hand sensor region and the transmitting device 30 of the sensor 26 arranged in a left sensor area, while the transmitting means 30 of the intermediate sensor 24 is arranged in a central sensor area. While it can only be determined via the detector device 32 of the sensor 22 whether light has been received to the left of the transmitting device 30 and whether it is merely detectable via the detector device 32 of the sensor 26 whether light has been received to the right of the transmitting device 30, the detector device 32 of FIG interposed sensor 24 are again distinguished whether received light was received to the left of the transmitting device 30 and to the left of the sensor or to the right of the transmitting device 30 and to the right of the sensor.

The sensors 12-20; 22-26 may be at least partially identical. In particular, they can each be designed as an active infrared sensor.

Fig. 2 shows a schematic representation of an exemplary embodiment of a sensor 40 suitable for use in the device according to the invention Fig. 2 can be seen, the transmitting device 30 of such a sensor, a plurality of transmitting diodes 30 _i and its detector device 32 include a plurality of receiving diodes 32 _i , in the present case, each transmitting diode 30 _i is assigned a respective receive diode 32 _i . The control unit 34 can now be configured so that it can be determined from which side the relevant light was received by means of a respective light-detecting receiving diode 30 _i . So can the Fig. 2 For example, it can be seen that the leftmost receiver diode 32 _{i of} the detector device 32 of the sensor 40 receives light from the extreme left transmitter diode 30 _{i of} the transmitter 30 of the sensor 40. In the present case, the transmitting device 30 is arranged to the right of the detector device 32. On the information which receive diode 32 _i receives a signal can therefore be closed to the position of the light emitting transmitter diode 30 _i . In addition, the sensor 40, which may receive light from another sensor, knows from which side the light has been received and correspondingly also on which side the other sensor has to be arranged. By appropriate control via the data transmission system, the individual sensors can be sequentially controlled to emit light, for example, with changed clock and / or transmission frequency or other modulation to first determine their position relative to each other, then their absolute position to their relative position determine.

The sensors 12-20; 22-26; or 40 may each be provided in particular stationary and designed so that they always monitor the same area. In this case, a respective receiving diode 32 _{i of} the detector device 32 of a respective sensor 12 - 20; 22-26; or 40 be aligned with respect to the sensor fixed spot.

The relevant data transmission system can, at least for a particularly bidirectional communication between a respective sensor 12 - 20; 22-26; 40 and the control unit 24 executed. In addition, the data transmission system can also be used for communication between the sensors 12-20; 22-26; 40 executed.

A respective sensor 12-20; 22-26; 40 may be configured as a smart unit comprising a microprocessor or the like so that it transmits a corresponding message on detection of light from another sensor via the data transmission system, which can also be taken from which receiving diode 32 _i its detector device 32 or which side the light was received.

A respective sensor 12-20; 22-26; 40 can be activated, parameterizable, addressable and / or the like via the control unit 34 and the data transmission system as a function of its absolute position determined relative to one another based on the determined position of the sensor.

The control unit 34 may be considered by the sensors 12-20; 22-26; 40 separate unit and in particular be designed as a decentralized control unit. In principle, however, such embodiments are conceivable in which the control unit 34 in at least one sensor 12 - 20; 22-26; 40 is integrated.

The data transmission system may include a bus device. In this case, in particular, the control unit can be designed as a bus master.

LIST OF REFERENCE NUMBERS

10

contraption

12

sensor

14

sensor

16

sensor

18

sensor

20

sensor

22

sensor

24

sensor

26

sensor

28

automatic sliding door system

30

transmitting device

30 _i

transmitting diode

32

detector device

32 _i

receiver diode

34

control unit

36

sliding panel

38

fixed wing

40

sensor

Claims (25)

Method for automatically determining the position of sensors (12 - 20, 22 - 26, 40) of an automatic door system, in particular an automatic sliding door system (28), comprising a plurality of sensors (12 - 20; 22 - 26; a transmitting device (30) for emitting light and at least one detector device (32) for detecting light and are each designed so that it can be determined from the respective detected light from which side of the transmitting device (30) the detected light was received, firstly for determining the positions of the sensors (12-20; 22-26; 40) relative to one another, the transmitting devices (30) of the various sensors (12-20; 22-26; 40) successively with changed clocking and / or transmitting frequency and / or modified modulation is controlled and / or the transmission devices (30) of the various sensors (12-20; 22-26; 40) are switched off one after the other and are sent via the Det ektoreinrichtung (32) of a respective not controlled by a modified clock or transmission frequency or not modulated with a changed modulation sensor is detected from which side, if necessary, light of the controlled clock and / or transmission frequency or modified modulation sensor is received, or is detected via the detector device (32) of the sensor with switched off transmitting device (30), from which side optionally light from another sensor is received, and then the respective absolute position of the sensors (12 - 20; 22-26; 40) is determined relative to one another on the basis of the determined positions of the sensors (12-20; 22-26; 40). Method according to claim 1,
characterized in that the monitoring areas of adjoining sensors (12-20; 22-26; 40) partially overlap. Method according to claim 1 or 2,
characterized in that for determining the positions of the sensors (12-20; 22-26; 40) relative to each other, the clock and / or transmission frequency of the transmitting means (30) of the sensors (12-20; 22-26; Sensor to sensor from a first clock and / or transmission frequency (A) to a second clock or. Transmission frequency (B) is changed and a respective other sensor with not on the second clock or transmission frequency (A) converted transmitting device (30) is automatically queried, and optionally from which side of the light of the second clock or transmission frequency (B ) receives. Method according to one of the preceding claims,
characterized in that for determining the positions of the sensors (12-20; 22-26; 40) relative to each other, the modulation of the transmitter means (30) of the sensors (12-20; 22-26; 40) stepwise from sensor to sensor of one first modulation is changed to a second modulation and a respective other sensor is automatically queried with not converted to the second modulation transmitting device, and optionally from which side it receives modulated light according to the second modulation. Method according to one of the preceding claims,
characterized in that the sensors (12-20; 22-26; 40) are used as occupancy sensors to secure the opening process and / or as occupancy sensors to ensure the closing of the relevant door. Method according to one of the preceding claims,
characterized in that at least partially identical sensors are used. Method according to one of the preceding claims,
characterized in that active infrared sensors are used as sensors (12-20; 22-26; 40). Device (10) for automatically determining the position of sensors (12-20; 22-26; 40) of an automatic door system, in particular an automatic sliding door system (28), with a plurality of sensors (12-20; 22-26; 40) , each comprising a transmitting device (30) for emitting light and a detector device (32) for detecting light and are each designed so that it can be determined from the respective detected light from which side of the transmitting device (30) receive the detected light and a control unit (34), in particular for carrying out the method according to one of the preceding claims, wherein the sensors (12-20; 22-26; 40) and the control unit (34) form subscribers of a data transmission system and are interconnected therewith , and the control unit (34) is designed such that for determining the position of the sensors (12-20; 22-26; 40) first for determining the Positions of the sensors (12-20; 22-26; 40) relative to each other, the transmitting means (30) of the various sensors (12 - 20, 22 - 26, 40) in succession with changed clock and / or transmission frequency and / or modified modulation can be controlled and / or the transmitting devices (30) of the various sensors (12 - 20; 22-26; 40) are successively switched off and the detector means (32) of a respective not changed Clock and / or transmission frequency or not controlled by a modified modulation sensor is detected from which side, if necessary, light of the controlled clock and / or transmission frequency or modified modulation sensor is received or via the detector device (32) of the sensor switched off transmitting device (30) is detectable, from which side optionally light from another sensor is received, and then the respective absolute position of the sensors (12-20; 22-26; 40) on the basis of the determined positions of the sensors (12-20; 22-26, 40) can be determined relative to one another. Device according to claim 8,
characterized in that the monitoring areas of adjoining sensors (12-20; 22-26; 40) partially overlap. Device according to claim 8 or 9,
characterized in that the control unit (34) is designed such that the clock and / or transmission frequency of the transmitting devices (30) of the sensors (12- 20; 22-26; 40) relative to one another determine the positions of the sensors (12-20). 20, 22-26, 40) can be changed stepwise from sensor to sensor from a first clock and / or transmission frequency (A) to a second clock and / or transmission frequency (B) and a respective other sensor with not the second clock. or transmission frequency (B) converted transmitting device (30) is automatically queried whether and, if appropriate, from which side it receives light of the second clock or transmission frequency (B). Device according to one of claims 8 to 10,
characterized in that the control unit (34) is designed such that for determining the positions of the sensors (12-20; 22-26; 40) relative to each other, the modulation of the transmitting devices (30) of the sensors (12-20; 22-26 ; 40) is gradually changeable from sensor to sensor from a first modulation to a second modulation and a respective other sensor with non-modulated to the second modulation transmitter (30) is automatically interrogated, and optionally from which side he modulated according to the second modulation light receives. Device according to one of claims 8 to 11,
characterized in that the sensors (12-20; 22-26; 40) are provided as occupancy sensors for securing the opening operation and / or as occupancy sensors for ensuring the closing operation of the relevant door. Device according to one of claims 8 to 12,
characterized in that the sensors (12-20; 22-26; 40) are at least partially constructed in the same way. Device according to one of claims 8 to 13,
characterized in that the sensors (12-20; 22-26; 40) are each designed as an active infrared sensor. Device according to one of claims 8 to 14,
characterized in that the transmitting device (30) of a respective sensor (40) comprises at least one transmitting diode (30i) and the detector device (32) of a respective sensor at least one receiving diode (32i) and the control unit (34) is designed so that Detecting respective light detecting receiving diode (30i) can be determined, from which side the light in question was received. Device according to one of claims 8 to 15,
characterized in that the sensors (12-20; 22-26; 40) are respectively fixed in position and designed to always monitor the same area. Device according to claim 16,
characterized in that a respective receiving diode (32i) of the detector means (32) of a respective sensor (12-20; 22-26; 40) is aligned with a spot fixed relative to the sensor. Device according to one of claims 8 to 17,
characterized in that the data transmission system is designed at least for a particularly bidirectional communication between a respective sensor (12-20; 22-26; 40) and the control unit (34). Device according to claim 18,
characterized in that the data transmission system is also adapted for communication between the sensors (12-20; 22-26; 40). Device according to one of claims 8 to 19,
characterized in that a respective sensor (12-20; 22-26; 40) is implemented as an intelligent unit comprising a microprocessor or the like for transmitting a corresponding message upon detection of light from another sensor via the data transmission system, from which receiver diode (32i) of its detector device (32) or which side the light in question was received. Device according to one of claims 8 to 20,
characterized in that a respective sensor (12-20; 22-26; 40) can be activated, parameterized, addressed and / or activated via the control unit (34) and the data transmission system as a function of its absolute position determined relative to one another based on the determined positions of the sensors like that. Device according to one of claims 8 to 21,
characterized in that the control unit (34) is designed as a separate unit from the sensors (12-20; 22-26; 40) and in particular as a decentralized control unit. Device according to one of claims 8 to 21,
characterized in that the control unit (34) is integrated in at least one sensor (12-20; 22-26; 40). Device according to one of claims 8 to 23,
characterized in that the data transmission system comprises a bus device. Device according to claim 24,
characterized in that the control unit is designed as a bus master.

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