• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An automatic door and a method for controlling an automatic door, comprising a door controller unit for controlling a door, acting on a door drive; further comprising a monitoring system comprising at least two door sensors, mounted on two opposite sides of the door when viewed in the direction of passage, wherein each of said sensors comprises a scanning unit which monitors a sensor security zone, wherein a security signal is applied to the door controller unit upon detection of an object within the sensor security zones of said sensors. According to the invention, after a predefined period of time without detection, the surveillance system is set to a "restricted mode" in which at least one sensor security zone is set to a restricted zone and, once a detection in the restricted area occurs, the monitoring system is set back to an unrestricted “normal” mode.
    公开号:BE1028378B1
    申请号:E20215449
    申请日:2021-06-04
    公开日:2022-01-10
    发明作者:Mauro Musso;Emmanuel Eubelen
    申请人:Bea;
    IPC主号:
    专利说明:

    Automatic door The invention relates to an automatic door according to the preamble of claim 1 and to a method for controlling an automatic door with two sensors according to the preamble of claim 12. It is commonly known that automatic doors, in particular automatic doors industrial, are monitored by sensors to detect objects near the door.
    These sensors are also intended to prevent people or machines from getting crushed by the door when the door is closing and people or machines are still below or next to the door.
    Therefore, a security zone is defined, preferably on both sides of the door, and when an object is detected inside this security zone, during security monitoring, a security procedure is triggered on the door controller to protect people or machines from being hit by the door.
    Usually this situation occurs while the door is closing.
    The safety procedure leads to a stop or a reversal of the closing movement of the door.
    The movement of the door can preferably be in the vertical or horizontal direction.
    As the safety zone is very close to the door, it happens that, due to a deformation of the door, a "safety situation" is triggered unintentionally.
    Inadvertently, because there is object detection when no object is present near the door, because the sensor is disturbed by the door itself.
    This disturbance can occur due to the wind deforming the door or can be caused by traces of shocks present in the door and which have been created by accident, for example by forklifts.
    The problem is that the sensors cannot distinguish whether the detection was caused by an actual intrusion or by the door itself.
    The object of the invention is to avoid false detection of objects by controlling automatic doors, in particular industrial doors, while maintaining a high level of security.
    This object is solved by the characterizing features of claim 1 in conjunction with features of its preamble. The dependent claims present further advantageous improvements of the invention.
    An automatic door, in known manner, comprises a door controller unit for controlling a door, where the door controller acts on the door drive. The automatic door further comprises a monitoring system comprising at least two door sensors, mounted on two opposite sides of the door when looking in the direction of passage. The door controller unit is connected to the monitoring system. Each of the at least two door sensors includes a scanning unit that monitors a sensor security zone having at least two regions, an interior region and an exterior region, where the exterior region is farther from the door than the interior region. Said two sensor security zones add up to obtain a door security zone. Each of these sensors includes a detection unit to identify the presence of an object inside the inner region and/or the outer region. The inner region is analyzed by the detection unit and first detection information is generated. The outer region is analyzed by the detection unit and second detection information is generated. The detection information is used to determine whether or not an object is detected inside the specific region. The detection unit may preferably be a determination unit of a scanning unit which is a time-of-flight (TOF) laser scanner, where the determination unit judges the time-of-flight of an echo of a generated laser pulse and determines the position of an object relative to it. The inner and outer regions can preferably be scanned by such a laser scanner, where a plurality of echo points are assigned to the inner region and the outer region. The laser scanner can be made to provide subsequent measurements to monitor the inner and outer regions or to provide a parallel measurement where, for example, pixels from a TOF camera are allocated to the inner region and the outer region.
    The monitoring system further includes an evaluation unit which receives information from the detection units. The judging unit is performed to determine that no detection has occurred in either region of the door security area, based on the first detection information and the second detection information. detection of the two sensors. The first detection information and the second detection information may be communicated such that the received information is result information where the first and the second detection information are combined by an OR function. In this case, the evaluation unit may no longer be able to determine in which specific region of the sensor security zone the detection occurred. Alternatively, the first and second detection information may be communicated so that the information can be distinguished. According to the invention, the evaluation unit determines a “no detection” time period within which no detection has occurred in either region of the two sensors. The evaluation unit is made to employ a "restricted mode", when a predefined time limit has elapsed. During "restricted mode", the detection area in the first region is restricted to a restricted area, where the detection information is only transmitted to the door controller unit based on the detection inside the restricted area. This means that an area of the first region which is a detection area in a "normal mode" fades in the "restricted mode". During the "restricted mode", a security signal is provided to the security port of the door controller unit, where the security signal is dependent at least on the second detection information and, if present, also on a first detection information. The second detection information relates to the outer region which can remain the same during the "restricted mode" and the "normal" mode. As the outer region is farther from the door than the inner region, this setting ensures that a person cannot reach the inner region without passing through the outer region.
    The time period that the monitoring system is in "restricted mode" begins when the "no detection" time period exceeds a predefined time limit and can last until any detection unit provides a second positive detection information or a first positive detection information of the restricted area. At this time, the monitoring system is set back to the "normal mode" of security monitoring. There may also be other additional events that may require the monitoring system to be set back to "normal mode".
    According to this setting, the presence of an object inside the dimmed area of the interior region will prevent cases of false triggering of the door controller security procedure, where the setting will always provide a high level of security.
    The restricted mode of the monitoring system is preferably set by placing the detection units in a detection state in which the detection units ignore the first detection information outside the restricted area. Therefore, the detection signal transmitted to the evaluation unit is then only based on the second detection information or based on the second detection information and the first detection information derived from the restricted area.
    The restricted area can be set as part of the inner region or can also be set to zero.
    According to a first embodiment, each sensor comprises an evaluation unit. Each evaluation unit of a sensor is connected to the detection unit of the same sensor and to the detection unit of the other sensor. According to this situation, each sensor knows the detection status of the other sensor and can provide the first and second detection information accordingly.
    According to an improvement of the invention, the transmission of the first detection information in the "normal mode" and the "restricted mode" and the second detection information between the sensors is carried out by a communication port which transfers the first and the second detection information in a coded way, in particular coded in series with a PWM (pulse width modulation). Accordingly, the communications port may include a contact relay that is turned on and off to encode the sensing information.
    The sensors can include an input port that is connected to the communication port of the other sensor.
    Alternatively, communication can be established through a fieldbus port, in particular a CAN port, where a single interface suffices for input and output and, therefore, the input port and the output port can be implemented as a simple physical port. Each sensor can include a specific safety output port which is connected to the safety port of the door controller unit to transfer the safety signal to the door controller in parallel.
    According to another embodiment of the invention, the two sensors are a first and a second sensor which both comprise a security output port where only the security output port of the second sensor is connected to the corresponding security port on the door controller acting on the door controller unit. In this case, the first sensor provides the first detection information and the second detection information through its communication port to the second sensor and the second sensor transfers security to the door controller unit, preferably by combining the detection information of the two sensors by an “OR” combination. Under this setting, two sensors can operate with one door controller providing only one safety input.
    The wiring between the sensors and the door controller can be done through a connector board. The distance between the innermost edges of the inner regions of the two sensors is preferably smaller than the smallest extension of a predefined test body of a dimension given by safety standards. This allows the automatic door to comply with these safety standards. The scanning unit can be realized to generate curtains through a sequence of time-of-flight measurements of reflected light beams, where the beams interpolated along the scanning direction are seen as a curtain. According to another aspect of the invention, the evaluation unit can be realized in the form of a computing device comprising an input port for the at least one detection unit and at least one output port in order to providing at least security detection information to the door controller. In the case where the entire inner region is dimmed and the restricted area of the inner region is reduced to zero, the security signal will be provided by the result of only the second detection information.
    According to this setting, a computing device can collect the standard information of the first detection information and the second detection information and determine the period of time without detection and when the monitoring system is set to the "restricted mode", only the second Detection information is transmitted to the door controller unit which can initiate the security procedure. The "normal mode" is resumed once a detection signal has been received through the second detection information. The computing device may be an additional central processing unit within the sensor.
    Additionally, the computing device may be a separate device connected between the door controller and the two sensors or may be part of the door controller providing the information based on the door controller's door control unit. The computing device will then receive the first detection information and the second detection information from the two sensors. According to another aspect, the invention relates to a method for controlling an automatic door, comprising a door controller unit for controlling a door, acting on a door drive, further comprising a monitoring system. The monitoring system further includes at least two door sensors, a first and a second sensor, which are mounted on two opposite sides of the door when viewed in the direction of passage. Each of said sensors monitors a sensor safe zone, where a safety signal is applied to the door controller unit upon detection of an object within the sensor safe zones of said sensors.
    After a predefined period of time without detection within said sensor safe zones of said sensors, the monitoring system is set to a "restricted mode" in which at least one sensor safe zone is set to a restricted area, wherein the security signal is then provided upon detection of an object within the restricted area, wherein further, once a detection within the restricted area occurs, the monitoring system is reset in a "normal" unrestricted mode.
    According to this method, the zone near the door can be dimmed in this condition and detections in the dimmed zone during the restricted mode do not inadvertently trigger the security procedure. The method can be implemented in an automatic door as previously described.
    In another advantageous embodiment of the method, each sensor security zone comprises an interior region and an exterior region, where the interior region is closer to the door than the exterior region, where during the restricted mode only the interior region is reduced in a restricted area. This allows the outer region to ensure that the inner region cannot be reached from the outside without being detected.
    According to another embodiment, each sensor includes a detection unit which analyzes the data collected by a scanning unit, where the detection unit 1 ignores the data outside the restricted zone of the sensor security zone to generate the detection signal during the restricted mode.
    In another aspect, the two sensors, namely a first sensor and a second sensor, communicate a detection status of the sensor safe zone and the restricted zone to the other sensor, where each sensor is set to a restricted mode taking information from the other sensor into account where only the second sensor transfers the security signal to the door controller unit. Other advantages, characteristics and potential applications of the present invention may result from the description which follows, description made in connection with the embodiments illustrated in the drawings.
    In the description, the claims and the drawings, all the terms and reference signs associated therewith will be used as mentioned in the attached list of reference signs. In the drawings,
    Figure la shows a schematic side view of an automatic door; FIG. 1b represents a schematic view according to section B-B of the automatic door;
    FIG. 2 represents a functional view of a first setting of the monitoring system; FIG. 3 represents a diagram showing the modes of the surveillance system under certain detection conditions; Figure 4 shows a functional view of another monitoring system setting; and Figure 5 shows a functional view of another monitoring system setting.
    Figure la shows a schematic side view of an automatic door 10 according to the invention.
    The automatic door comprises a door element 14 driven by a door drive and a monitoring system 11 comprising two sensors 12, 32, where each of the sensors monitors at least an inner region IR and an outer region OR.
    The two sensors 12, 32 are mounted on opposite sides of the door when viewed in the direction of passage.
    Each of the sensors comprises a scanner 16, 36 which generates two exterior curtains OC and an interior curtain IC.
    The interior curtains IC of the sensors 12, 32 have a distance with respect to the most interior exterior curtains OC which is less than the smallest extension of the test body T which is in particular approximately 10 cm.
    This setting ensures that the unmonitored region below or beside the door is smaller than the required dimension of the test body, as required by safety standards.
    Figure 1b shows a schematic view according to section B-B of the automatic door 10 according to the invention.
    The door element 14 is bent by the wind in the situation shown.
    In this situation, it is seen, according to the invention, that the inner region is set to the "restricted zone" by blurring the central part of the first curtain.
    The corresponding processes and settings are explained in more detail in Figure 2.
    FIG. 2 represents a functional view of the basic setting of the monitoring system 11 according to the invention. The setup represents two sensors 12, 32. Each sensor 12, 32 comprises a scanner 16, 36 which is connected to a detection unit 18, 38 to determine in which IR, OR region of the scanner 16, 36 an object is detected. The detection unit 18, 38 is connected to an evaluation unit 20, 40 of the sensor 12, 32. Each sensor 12, 32 further comprises an input port 50, 60, a communication output port 52, 62, a safety output port 54, 64 and another output port 56, 66 which can be used for detecting the presence of unused curtains, for safety reasons the output ports are not connected in this basic setting. The first detection information relating to the interior region and the second detection information relating to the exterior region are associated with the security signal.
    The evaluation unit 20 of the first sensor 12 is connected to the input port 50 of the first sensor
    12.
    The input port 50 of the first sensor 12 is connected to the communication port of the second sensor
    32. The evaluation unit 40 of the second sensor 32 is connected to the communication port 62 of the second sensor 32. The evaluation unit 40 applies a signal with respect to the communication port 62 containing the first detection information and the second detection information from the detection unit 38. In this way, the evaluation unit 20 of the first sensor 12 is supplied with information of the first detection information and the second detection information from the second sensor 32. The transmission via the communication port is preferably carried out by pulse width modulation (PWM). The signal may be a combined information of the first detection information and the second detection information.
    The evaluation unit 40 of the second sensor 32 is connected to the input port 60 of the sensor 32.
    The input port 60 of the second sensor 32 is connected to the communication port 52 of the first sensor 12. The evaluation unit 20 of the first sensor 12 is connected to the communication port 52 of the first sensor 12. The evaluation unit evaluation 20 applies a signal to the communication port 52 containing the first information and the second information of the detection unit 18. In this way, the evaluation unit 40 of the second sensor 32 is supplied with information of the first information and the second information from the first sensor 12.
    Since the two evaluation units 20, 40 receive the information of the first information and the second information from the first sensor and the second sensor, each evaluation unit 20, 40 can independently determine the "no detection" time period. continuously in all the relevant IR, OR regions of the two sensors 12, 32.
    As soon as the “no detection” time period exceeds a predefined time limit, the sensor 12, 32 is set to the “restricted mode” whereby part of the interior region, in particular the central part of the first curtain, is dimmed. . Therefore, the safety signal is then generated based on a detection in the remaining restricted detection area of the interior region and no longer on the basis of the entire interior region. The security signal can then be transferred to the control unit 70. The security signal always takes into account detection in the outer region.
    Since the evaluation unit of the second sensor, for example, is aware of the detection status of the safety zone of the two sensors 12, 32, a signal can be transmitted to the door control unit 70 by the second sensor 32 through its security port by combining the detection information of the inner region IR & the outer region OR of the two sensors. According to this setting, the wiring effort can be reduced.
    This means that, as long as the sensor 12, 32 is in this "restricted" mode, no false positive information is acquired in the dimmed area so as to trigger a security procedure in the door controller unit 70. In such a case, no security signal is submitted to the door controller unit 70. The evaluation unit 20, 40 is furthermore implemented in such a way that the monitoring system is set to back to the "normal" mode when a positive detection is determined by the detection unit 18, 38 in the restricted detection zone of the inner region IR or in the outer region OR. In “normal” mode, a security signal is submitted upon detection inside the door security zone.
    This leads to the effect that, as long as the sensor 12, 32 is in the "restricted mode", the signals which are generated as a result of the deformation of the door element are ignored in this way and are taken again taken into account when the monitored security zone is interrupted for example from the outer region OR.
    The pre-set time limit, when the sensor activates “restricted mode”, is preferably set to approximately 2 seconds.
    The wiring between the two sensors, as described above, and the door controller is preferably done through a wiring board 68. Figure 3 shows the behavior of the monitoring system with respect to its operational modes.
    The upper part of the diagram represents the mode of the monitoring system.
    The modes are “N” for “normal mode” and “R” for “restricted” mode. In the example of Figure 3, "restricted mode" is set so that the dimmed area is set to the entire interior curtain and therefore covers the entire interior region, and no restricted monitoring area remains in the inner curtain IC and inner region respectively.
    Alternatively, detection information from the restricted zone of the interior region could be considered as an exterior region signal (C_O) of the door security zone. “S1” and “S2” are the oppositely mounted sensors on the automatic door. "C_I" and "C O" are the signals corresponding to a detection state of the scanners.
    During period A, there is an object detected by the scanners which is evaluated by the detection unit accordingly in an outer curtain OC of the sensor "S1". The monitoring system is in the “normal” detection mode. At the start of period B, the object is no longer present in this outer curtain where then the detection state C_O of S1 is set to no detection.
    Since no further detection occurs, the “no detection” time period begins when the end of the time period is set to a predefined length of TL.
    After TL expires in period C, the monitoring system is set to “restricted mode”. In period D, the scanning unit recognizes a detection event in the inner curtain where the detection state C_I changes accordingly.
    As the monitoring system is in “restricted mode”, this event is ignored by the detection unit and not forwarded to the evaluation unit.
    As a result of this event, neither the mode of the monitoring system is changed nor the signal is transmitted to the security port of the door controller.
    Thus, the door controller unit does not trigger the safety procedure, for example to reopen the door.
    The surveillance system remains in this “restricted mode” during period D and E. In period F, the scanning unit of sensor S2 detects an object in its outer curtain OC and the detection state C_O is set to “ 1”. Although the monitoring system is in the "restricted mode", the detection unit transmits the second detection information to the evaluation unit. The monitoring system is set back to “normal” mode. The second detection information is also transmitted to the door controller unit. Figure 4 shows another example of the invention, in the case where there is an inner IR region dedicated to the first detection information near the door and the whole inner region is dimmed during the "restricted mode". In this example of the invention, the evaluation unit 140 is implemented within a separate computing device 150, comprising the evaluation unit 140 and having connection ports which are connected to the detection unit 118 and the detection unit 138. Accordingly, the evaluation unit receives the signals containing the first detection information and the second detection information from the first sensor 112 and the second sensor 132.
    In this case, the door security zone in the "restricted" mode only covers the outer region which is dedicated to the second detection information.
    Therefore, the evaluation unit 140 can prevent the transfer of the first detection information to the door controller unit 170 which is part of the door controller 190 during the "restricted" mode. Detection of an object in the inner IR region during restricted mode therefore does not lead to untimely triggering of the safety procedure.
    The evaluation unit 140 operates in the same manner as described in connection with Figures 2 and 3.
    Figure 5 shows another embodiment of the invention. The monitoring system includes two sensors 112, 132 having a scanner 116, 136 and a detection unit 118, 138, where the detection unit analyzes the signals from the scanner 116, 136 and transfers first detection information to the monitoring unit. 240 which in this case is part of the gate controller 290.
    After a predefined time period of preferably 2 seconds, when the evaluation unit does not receive a detection signal of either the first or the second detection information, the monitoring system is set to "restricted mode". .
    In this case, the door security zone is implemented as in the example of Fig. 4. In this case, the door controller unit 270 of the door controller 290 is only provided with the second detection information .
    Once an object is detected in the outer region OR, the surveillance system is again set to the "normal" mode by again taking into account the first and the second detection information.
    LIST OF REFERENCE SIGNS 10 automatic door 11 monitoring system 12 sensor 14 door element 16 scanner 18 detection unit 20 evaluation unit 32 sensor 36 scanner 38 detection unit 40 evaluation unit 50 input port 52 communication 54 security information output port 56 additional information output port 60 input port 62 communication port 64 security information output port 66 additional information output port 68 wiring board 70 unit door controller 112 sensor 116 scanner 118 sensing unit 132 sensor 136 scanner 138 sensing unit 140 evaluation unit 150 computing device 170 door controller unit 240 evaluation unit
    270 gate controller unit 290 gate controller A period B period C period
    CI detection state CO detection state D period E period
    F period IC inner curtain IR inner region OC outer curtain OR outer region
    S1 sensor s2 sensor
    权利要求:
    Claims (15)
    [1]
    1. Automatic door (10), comprising a door controller unit (70) for controlling a door, acting on a door drive; further comprising a monitoring system (11) comprising at least two door sensors (12, 32), mounted on two opposite sides of the door when viewed in the direction of passage, wherein each of said sensors (12, 32) comprises a scanning unit (16, 36) which monitors a sensor safe area, comprising an inner region (IR) and an outer region (OR), and each sensor (12, 32) comprises a detection unit (18, 38 ) connected to the scanning unit (16, 36) where the inner region (IR) is scanned and first detection information is generated, and where the outer region (OR) is scanned and second detection information is generated, wherein the monitoring system (11) comprises at least one evaluation unit (20, 40) which is connected to the detection units (18, 38) and to the door controller unit (70), characterized in that the evaluation unit (20, 40) determines, based on the first detection information and the second information on detection of both sensors, that within a predefined period of time (TL) no detection occurs within any sensor safe zone, or after this predefined period of time ( TL) without detection, the monitoring system (11) is set to a "restricted mode" in which the first detection information is taken into account only from a restricted area of the inner region (IR); wherein a security signal is supplied to the door controller unit (70) based on the second detection information or the first detection information of the restricted area of the interior region (IR) and the second information of detection, wherein further, once a detection in the outer region (OR) or the restricted area of the inner region (IR) occurs, the monitoring system is set back to the non-restricted "normal" mode .
    [2]
    2. Automatic door according to claim 1, characterized in that the restricted area is part of the inner region (IR) or no part of the inner region (IR).
    [3]
    3. Automatic door according to claim 1 or 2, characterized in that each sensor comprises a communication output port (52, 62), where the detection unit (18, 38) is connected to the communication output port ( 52, 62) to transfer the combined information relating to the first detection information and the second detection information.
    [4]
    4. Automatic door according to claim 3, characterized in that each of said sensors (12, 32) comprises an evaluation unit (18, 38) which is connected to the communication output port (52, 62) of the other sensor (32, 12) and to the detection unit (18, 38) of the same sensor (12, 32).
    [5]
    5. Automatic door according to claim 4, characterized in that each of said sensors (12, 32) comprises a communication input port (50, 60) connected to the communication output port (52, 62) of said other sensor ( 12, 32).
    [6]
    6. Automatic door according to claim 5, characterized in that the communication input ports (50, 60) and the communication output ports (52, 62) are serial ports supplying the information relating to the presence detection and serially coded motion detection.
    [7]
    7. Automatic door according to claim 1 or 2, characterized in that the monitoring system (11) comprises a computing device (150), where the computing device (150) comprises the evaluation unit (140), where the first detection information and the second detection information are fed to the computer device (150) and the evaluation unit (140) where during the "restricted mode" only a security signal, depending on the second detection information and the first detection information on the "restricted area", is transmitted to the door controller unit (170).
    [8]
    8. Automatic door according to one of the preceding claims, characterized in that the scanning unit (16, 36) comprises a laser scanner, operating by a time-of-flight measurement by pulse-echo, sampling the interior region (IR) and the outer region (OR).
    [9]
    9. Automatic door according to claim 8, characterized in that the scanning unit (16, 36) generates subsequent measurements along a scanning curve so that an inner curtain and a plurality of outer curtains are formed .
    [10]
    10. Automatic door according to any one of the preceding claims, characterized in that the time period "without detection" (TL) is set to 1 to 3 seconds, preferably 2 seconds.
    [11]
    11. Automatic door according to any one of the preceding claims, characterized in that the door is an industrial door or a pedestrian door.
    [12]
    12. A method for controlling an automatic door (10), comprising a door controller unit (70) for controlling a door, acting on a door drive; further comprising a monitoring system (11) comprising at least two door sensors (12, 32), mounted on two opposite sides of the door when viewed in the direction of passage, where each of said sensors (12, 32) monitors a sensor safe zone, where a safety signal is applied to the door controller unit upon detection of an object within the sensor safe zones of said sensors, characterized in that, after a predefined period of time (TL) without detection within said sensor safe zones of said sensors, the monitoring system (11) is set to a "restricted mode" in which at least one sensor safe zone is set to a restricted area, where the security signal is then provided upon detection of an object within the restricted area, wherein further, once a detection within the restricted area occurs, the monitoring system is set again to a "no rmal” unrestricted.
    [13]
    13. A method for controlling an automatic door (10) according to claim 12, characterized in that each sensor security zone comprises an inner region (IR) and an outer region (OR), where the inner region (IR) is closer to the gate than the outer region (OR), where during restricted mode only the inner region (IR) is reduced to a restricted area.
    [14]
    14. Method for controlling an automatic door according to any one of claims 12 or 13, characterized in that each sensor comprises a detection unit (18, 38) which analyzes the data collected by the scanning unit (16, 36) , wherein the detection unit (18, 38) ignores the data outside the restricted area of the sensor safe zone to generate the detection signal during the restricted mode.
    [15]
    15. Method for controlling an automatic door according to any one of claims 12 to 14, characterized in that the two sensors (12, 32), namely a first sensor (12) and a second sensor (32), communicate a state detection of the sensor safe zone and the zone restricted to the other sensor, where each sensor (12, 32) is set to a restricted mode taking into account information from the other sensor (12, 32), where only the second sensor (32) transfers the security signal to the door controller unit.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP2160501B1|2012-11-28|Secure method for automatically closing a motor vehicle tailgate
    US7253898B2|2007-08-07|System for detecting droplets on a translucent surface
    US7697030B2|2010-04-13|Control device and method
    CA2421354A1|2003-09-11|Door state monitoring by means of three-dimensional sensor
    EP1484466A3|2006-04-19|Method and apparatus for monitoring an aperture for an object disposed within said aperture
    US5900598A|1999-05-04|Lift sensor
    FR2936546A1|2010-04-02|DEVICE FOR AUTOMATICALLY UNLOCKING AN AUTOMATIC VEHICLE OPENING.
    GB2509491A|2014-07-09|Determining an open state of a garage door by means of vehicle sensors and communicating an open state to an owner or operator of the vehicle.
    FR2855548A1|2004-12-03|APPARATUS AND METHOD FOR MOBILE BARRIER ACTUATOR RESPONDING TO AN OBSTACLE DETECTOR
    US20040130285A1|2004-07-08|Obstruction detector for movable vehicle members
    JP2004136871A|2004-05-13|Automobile with multi-functional optical detection
    EP1100050A1|2001-05-16|System and method of counting passengers for buses
    BE1028378B1|2022-01-10|Automatic door
    FR2948436A1|2011-01-28|Optoelectronic sensor e.g. camera, for e.g. swimming pool basin, has evaluation unit recognizing potential objects as parasites when position, value or direction of speed of potential objects is incompatible with following of objects
    WO2008043931A1|2008-04-17|Method and device for controlling the powered opening of an automotive vehicle
    EP0017547B1|1984-07-04|Proximity detector and use thereof
    EP2195795B1|2012-02-15|Device for controlling a driven movement element, particularly a door or a gate
    FR3078035A1|2019-08-23|VEHICLE ENVIRONMENT DETECTION SYSTEM
    EP0182699A1|1986-05-28|Antisqueeze safety device for automatic doors and windows, especially for a public transport vehicle
    US6437528B1|2002-08-20|Method for standardizing the pane position of a vehicle window lifter actuated by external force
    EP3528224B1|2021-03-31|Device and method for detecting presence and/or movement by infrared measurement
    JP2871122B2|1999-03-17|Human body detection device
    FR3112726A1|2022-01-28|Vehicle with motorized rear flap opening system integrating a mobile obstacle detection means and implementation method
    KR101739343B1|2017-05-24|Video trespass detection system and method with power saving function
    JPH116361A|1999-01-12|Preventive device of power window from catching foreign material
    同族专利:
    公开号 | 公开日
    EP3919713A4|2021-12-08|
    WO2021245258A1|2021-12-09|
    BE1028378A1|2022-01-06|
    EP3919713A1|2021-12-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US7064666B2|2003-02-06|2006-06-20|Nabco Limited|Composite sensor for door|
    JP6006521B2|2012-04-27|2016-10-12|三和シヤッター工業株式会社|Opening and closing body control system|
    JP6518872B2|2013-08-29|2019-05-29|オプテックス株式会社|Automatic door sensor device|
    法律状态:
    2022-02-09| FG| Patent granted|Effective date: 20220110 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP20178362.8A|EP3919713A4|2020-06-04|2020-06-04|Automatic door|
    [返回顶部]