1. Field of the Invention
The present invention relates to automatic swinging doors and, more particularly, to a system and method for controlling the opening and closing of automatic swinging doors.
2. Description of Related Art
Systems and methods are well-known in the art for controlling the opening and closing the automatic swinging doors to permit pedestrians to enter and exit buildings, facilities, hallways, and the like without having to open and close the doors manually. Automatic swinging doors controlled in accordance with such systems and methods are commonly found in retail stores, supermarkets, and the like.
Examples of automatic swinging door control systems are found in U.S. Pat. No. 4,851,746 to Milke; U.S. Pat. No. 5,583,405 to Sai et al.; U.S. Pat. No. 6,812,837 to Ikeuchi; and in U.S. Patent Application Publication No. 2002/0104266 to Ranaudo.
Notwithstanding the sophistication of the prior art automatic swinging door opening systems and methods, there is an ongoing need to improve the operation of automatic swinging door opening systems and methods to avoid contact between a moving automatic swinging door and a pedestrian in the swing path of such door.
The invention is a method of controlling a swinging automatic door. The method includes (a) providing first means for acquiring images of a first area where the door swings when opening or closing; (b) providing second means for detecting motion in a second area that fronts a non-swinging side of the door when said door is closed; (c) causing the first means to acquire first and second images of the first area when the door is closed and open, respectively, and no unwanted object is present in the first area; (d) causing the door to transition from closed to open when the second means detects motion in the second area and a current image of the first area acquired by the first means when the door is closed is the same as the first image; (e) temporarily ceasing at least one of the acquisition of images from the first area and the processing of images acquired from the first area when the door is opening; (f) causing the door to transition from open to closed when a current image of the first area acquired by the first means when the door open is the same as the second image and the second means does not detect motion in the second area; and (g) temporarily ceasing at least one of the acquisition of images from the first area and the processing of images acquired from the first area when the door is closing.
The first and second means can be the same or different.
Step (d) can also include causing the door to remain closed when a current image of the first area acquired by the first means is different than the first image. Step (f) can also include causing the door to remain open when a current image of the first area acquired by the first means is different than the second image.
The method can further include repeating steps (d)-(g) a plurality of times.
The method can further include providing third means for detecting the presence of an undesired object adjacent a swing side of the door. When the door is opening, the door can be caused to cease opening and remain motionless when the third means detects the undesired object adjacent the swing side of the door.
The third means can acquire images of a third area adjacent the swing side of the door. The door can be caused to cease opening and remain motionless when a difference is detected between two or more images acquired of the third area by the third means when the door is opening.
The method can further include providing fourth means for detecting the presence of an undesired object adjacent the non-swinging side of the door. When the door is closing, the door can be caused to transition from closing to open when the fourth means detects the undesired object adjacent the non-swinging side of the door.
The fourth means can acquire images of a fourth area adjacent the non-swinging side of the door. The door can be caused to transition from closing to open when a difference is detected between two or more images acquired of the fourth area by the fourth means when the door is closing.
The invention is also a swinging automatic door control system. The control system includes means for acquiring images of a first area where the door swings when opening or closing, for detecting motion in a second area that fronts a non-swinging side of the door and means for storing first and second images of the first area when the door is closed and open, respectively, and no unwanted object is present in the first area. Means is provided for causing the door to transition from closed to open when motion is detected in the second area and a current image acquired of the first area when the door is closed is the same as the first stored image. Means is also provided for temporarily terminating at least one of the acquisition of images from the first area and the processing of images acquired from the first area when the door is opening. The control system also includes means for causing the door to transition from open to closed when a current image acquired of the first area when the door is open is the same as the second stored image and motion is not detected in the second area. Lastly, the control system includes means for temporarily terminating at least one of the acquisition of images from the first area and the processing of images acquired from the first area when the door is closing.
The control system can also include means for causing the door to not transition from closed to open when a current image of the first area is different than the first image and/or means for causing the door to not transition from open to closed when a current image of the first area is different than the second image.
Means can be provided for detecting the presence of an undesired object adjacent a swing side of the door and for causing the door to cease opening and remain motionless when the undesired object is detected adjacent the swing side of the door when the door is opening. The means for detecting and causing can acquire images of a third area adjacent the swing side of the door and causes the door to cease opening and remain motionless when a difference is detected between two or more images acquired of the third area when the door is opening.
Means can also be provided for detecting the presence of an undesired object adjacent the non-swinging side of the door and for causing the door to open when the undesired object is detected adjacent the non-swinging side of the door when the door is closing. The means for detecting and causing can acquire images of a fourth area adjacent the non-swinging side of the door and causes the door to open when a difference is detected between two or more images acquired of the fourth area when the door is closing.
The present invention will be described with reference to the accompanying figures where like reference numbers correspond to like elements.
With reference to
Activation sensor 6 can be a sensor of any suitable type for detecting motion in an area or field-of-view 20 located in front of the non-swinging side of each door 4 when said door is closed. A non-limiting example of a suitable activation sensor includes an ultrasonic motion sensor which is responsive for measuring a Doppler shift in the reflection of an ultrasound wave output thereby. However, this is not to be construed as limiting the invention since any suitable motion sensing detector can be utilized.
Each sensor 8-12 can be any suitable type of sensor that is capable of acquiring images in a corresponding area or field-of-view. An example of a suitable presence sensor includes an infrared sensor which acquires reflections of infrared light output thereby. However, this is not to be construed as limiting the invention. Desirably, secondary presence sensor 14, if provided, can be any suitable type of sensor that activates in some manner detectable by controller 16 when an object is present in a predetermined path, e.g., a light beam sensor. However, this is not to be construed as limiting the invention.
For each sensor 8-12, controller 16 determines if an object is present in the corresponding area or field-of-view of the sensor by comparing two or more images acquired by the sensor. If an object moves into the field-of-view of the sensor, controller 16 will detect a difference between an image acquired from the field-of-view without the object present and an image acquired from the field-of-view with the object present. Controller 16 interprets any differences in two or more images acquired by each sensor 8-12 as an indication that an undesired object is present in the field-of-view of the sensor. For simplicity of describing the present invention hereinafter, each sensor 8-12 will be described as detecting an object in its corresponding field-of-view. However, it is to be understood that such detection is actually accomplished by controller 16 detecting a difference between two or more images acquired by the sensor. Similarly, hereinafter, each sensor 8-12 described as not detecting an object in its field-of-view is to be understood as controller 16 determining that two or more images acquired from the sensor are the same.
Presence sensor 8 is mounted and configured for detecting the presence or absence of an object in an area or field-of view 22 where each door 4 swings when opening or closing.
Each swing side door mounted sensor 10 detects the presence or absence of an object in an area or field-of-view 24 adjacent the swing side of its corresponding door 4. Each non-swing side door mounted sensor detects the presence or absence of an object in an area or field-of-view 26 adjacent the non-swing side of the corresponding door 4.
The depiction in
With reference to
The method then advances to step 34 wherein controller 16 causes motor 18 to close door(s) 4. Controller 16 determines that door(s) 4 is/are closed by comparing the voltage on the motor winding(s) of motor 18 in response to driving door(s) 4 to the closed position to a predetermined voltage indicative of door(s) 4 in the closed position. Controller 16 can determine the voltage on the motor winding(s) of motor 18 by suitable means, such as an analog-to-digital converter (not shown).
Once controller 16 determines that door(s) 4 is/are closed, the method advances to step 36 wherein controller 16 causes presence sensor 8 to acquire a first image of its corresponding field-of-view 22 when each door 4 is closed and no unwanted object is present in field-of-view 22. Desirably, the absence of an unwanted object in field-of-view 22 is confirmed by an operator who is causing door control system 22 to execute steps 32-36, e.g., by activating a reset button (not shown) of controller 16, by cycling power to door control system 2, etc. Controller 16 stores the first image acquired by presence sensor 8 in its data storage.
With reference to
Desirably, any time motor 18 is operative for closing each door 4, controller 16 either disables presence sensor 8 from acquiring images of its field-of-view 22 or controller 16 ceases processing images acquired by presence sensor 8 of its field-of-view 22. Once controller 16 determines from the voltage on the motor winding(s) of motor 18 that door(s) 4 is/are closed, controller 16 can either enable presence sensor 8 to commence acquiring images of its field-of-view or controller 16 can commence processing images acquired by presence sensor 8 of its field-of-view 22. However, this is not to be construed as limiting the invention.
The method then advances to step 46 wherein controller 16 disables each door mounted sensor 10 and 12 and causes all other sensor(s) 6, 8 and 14, if provided, to be enabled.
The method then advances to step 48 wherein controller 16 determines if presence sensor 8 is detecting the presence of an unwanted object in its field-of-view 22. If not, the method advances to step 52. However, if presence sensor 8 detects an unwanted object in its field-of-view 22, the method advances from step 48 to step 50 wherein controller 16 causes motor 18 to maintain each door 4 in its closed position. Thereafter steps 48 and 50 are repeated until controller 16 determines that presence sensor 8 is not detecting the unwanted object in field-of-view 22 whereupon the method advances to step 52.
In order to determine if presence sensor 8 is detecting an unwanted object in its field-of-view 22, controller 16 compares a current image of the field-of-view 22 of presence sensor 8 to the first image of the field-of-view 22 acquired in step 36. Controller 16 interprets no difference between these images as an indication that presence sensor 8 is not detecting the presence of an unwanted object in field-of-view 22. In contrast, controller 16 interprets a difference between these images as an indication that presence sensor 8 is detecting an unwanted object in field-of-view 22.
In step 52, controller 16 determines if activation sensor 6 is detecting motion in field-of-view 20. If not, the method returns to step 48 wherein controller 16 once again determines if presence sensor 8 is detecting the presence of an unwanted object in its field-of-view 22. Desirably, for each iteration of step 48, presence sensor 8 acquires a current image of its field-of-view 22 for the purpose of comparison to the first image acquired in step 36. However, this is not to be construed as limiting the invention.
When operating in accordance with the steps 48 and 50 of the method, controller 16 will cause each door 4 to remain closed if an unwanted object is present in the field-of-view 22 of presence sensor 8, regardless if activation sensor 6 detects motion in its field-of-view 20.
Referring back to step 52, if, in step 52, controller 16 determines that activation sensor 6 has detected motion in its field-of-view 20, the method advances to step 54 for return to step 38 of main control routine 28.
Upon returning to step 38 from door(s) closed subroutine 40, the method advances to step 58 which calls a door(s) opening subroutine 60. Upon entry into door(s) opening subroutine 60, the method advances from step 61 to step 62 wherein controller 16 causes motor 18 to commence opening door(s) 4. The method then advances from step 62 to step 64 wherein controller 16 starts an internal door(s) opening timer.
The method then advances to step 66 wherein controller 16 either disables presence sensor 8 from acquiring images of its field-of-view 22 or controller 16 ceases processing images acquired by presence sensor 8 of its field-of-view 22. In step 66, controller 16 also causes all other sensors 6, 10, 12 and 14, if provided, to be enabled.
The method then advances to step 68 wherein controller 16 determines if any swing side door mounted sensor 10 detects the presence of an object in its corresponding field-of-view 24 or if secondary presence sensor 14, if provided, has been activated. If an object is detected in the field-of-view 24 of any sensor 10 or if secondary presence sensor 14 is activated, the method advances from step 68 to step 70 wherein controller 16 causes the door(s) 4 to stop opening and remain motionless. Thus, an object present in the field-of-view 24 of any sensor 10 or an object activating secondary presence sensor 14, if provided, when the door(s) 4 is/are opening will cause controller 16 to cease opening the door(s) 4 and, thereafter, cause door(s) 4 to remain motionless until the object is no longer present in the field-of-view 24 and secondary presence sensor 14, if provided, is no longer activated.
Assuming in step 68 that no object is detected in field-of-view 24 of any sensor 10 and that secondary presence sensor 14, if provided, has not been activated, the method advances to step 72 wherein controller 16 determines if each door is open. Controller 16 accomplishes this by comparing the voltage on the motor winding(s) of motor 18 in response to driving door(s) 4 to the open position to a predetermined voltage indicative of door(s) 4 in the open position.
If controller 16 determines that the doors(s) is/are open, the method advances to step 74 for return to step 58 in
With reference to
Upon entry into door(s) open subroutine 80, the method advances from step 82 to step 83 wherein controller enables presence sensor 8 or commences processing images acquired thereby. Thereafter, the method advances to step 84 wherein controller 16 determines if presence sensor 8 has already acquired a second image of field-of-view 22 with door(s) 4 open. If not, the method advances to step 86 wherein controller 16 causes presence sensor 8 to obtain the second image of field-of-view 22 with door(s) 4 open. Thereafter, the method returns to step 84.
If during any iteration of step 84, controller 16 determines that presence sensor 8 has already acquired a second image of field-of-view 22, the method advances from step 84 to step 88.
In step 88, controller 16 determines if presence sensor 8 is detecting the presence of an undesired object in field-of-view 22; if activation sensor 6 is detecting motion in its field-of-view 20; or if secondary presence sensor 14, if provided, is activated. If so, the method advances to step 90 wherein controller 16 causes the door(s) 4 to remain open. Thereafter, the method returns to step 88.
In order to determine if presence sensor 8 is detecting an unwanted object in its field-of-view 22, controller 16 compares a current image of the field-of-view 22 with door(s) 4 open to the second image of the field-of-view 22 acquired in step 86. Controller 16 interprets no difference between these images as an indication that presence sensor 8 is not detecting the presence of an unwanted object in field-of-view 22. In contrast, controller 16 interprets a difference between these images as an indication that presence sensor 8 is detecting an unwanted object in field-of-view 22.
If during any iteration of step 88, controller 16 determines that presence sensor 8 is not detecting the presence of an undesired object in field-of-view 22; that activation sensor 6 is not detecting motion in field-of-view 20; and that secondary presence sensor 14, if provided, is not activated, the method advances to step 94 wherein controller 16 causes door(s) 4 to commence closing. The method then advances to step 96 for return to step 78 in main control routine 28 shown in
With reference to
Upon entry into door(s) closing subroutine 100, the method advances from step 102 to step 103 wherein controller 16 disables presence sensor 8 or controller 16 ceases processing images acquired thereby. The method then advances to step 104 wherein controller 16 determines if an object is present in the field-of-view 24 of any swing side door mounted sensor 10. If not, the method advances to step 106. Otherwise, the method loops on step 104 until controller 16 determines that the object is no longer present in the field-of-view 24 of any swing side door mounted sensor 10 whereupon the method advances to step 106.
In step 106, controller 16 determines if the door(s) 4 is/are closed. Controller 16 accomplishes this by comparing the voltage on the winding(s) of motor 18 to the predetermined voltage indicative of door(s) 4 being in the closed position.
If controller 16 determines that doors(s) 4 is/are closed, the method advances from step 106 to step 108 for return to step 98 in
In step 112, controller 16 determines if activation sensor 6 has detected motion or if an object has entered the field-of-view 26 of a non-swing side door mounted sensor 12 while the door(s) 4 is/are closing. If so, the method advances from step 112 to step 114 which calls the door(s) opening subroutine 60 shown in
Referring back to step 112 in
Upon returning to step 98 of main control routine 78 from door(s) closing subroutine 100, controller 16 repeats the subroutines called by steps 38, 58, 78 and 98 in main control routine 28. In this manner, controller 16 intelligently controls the opening and closing of door(s) 4 in a manner that is safe and reliable for individuals using said door(s) for passage from field-of-view 20 to field-of-view 22. More specifically, controller 16 operating in accordance the main control routine 28 avoids door(s) 4 from swinging into an object, such as an individual, present in field-of-view 22 when opening or closing.
Desirably, under the controller of controller 16, each sensor 8, 10 and 12 is operated in a manner so as to not interfere with the operation of any other sensor 8, 10 or 12. For example, if each sensor 8, 10 and 12 is an infrared sensor which acquires reflections of infrared light output thereby, said sensor is controlled to output infrared light and to acquire reflections thereof at a time when no other sensor is outputting infrared light or acquiring reflections of infrared light. In this manner, the acquisition by one sensor of reflected infrared light output by another sensor is avoided whereupon the acquired light is not misinterpreted as the presence of an undesired object in a field-of-view. For example, during execution of door(s) opening subroutine 60, controller 16 causes each sensor 10 and 12 to independently acquire one or more reflections of infrared light output thereby in the absence of the other sensor 10, 12 outputting infrared light or acquiring infrared light at the same time. While described in connection with door(s) opening subroutine 60, controller 16 sequentially causing each sensor 8, 10 and 12 to acquire one or more reflections of infrared light output thereby in the absence of any other sensor 8, 10 and 12 outputting infrared light or acquiring reflections of infrared light during the same time period is not to be construed as limiting the invention since this method of controlling the operation of sensors 8, 10 and 12 can be utilized anywhere it is desired to avoid cross-talk or interference between any two or more of sensors 8, 10 and 12.
The present invention has been described with reference to the preferred embodiment. Obvious modifications and alterations will occur to others upon reading and understanding the preceding detailed description. For example, if secondary presence sensor is not present, no decision is based thereon in the foregoing main control routine 28 or any subroutine 40, 60, 80 and 100. It is intended that the invention be construed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
This application claims priority from U.S. Provisional Patent Application No. 60/697,512, filed Jul. 8, 2005, which is incorporated herein by reference.
Number | Date | Country | |
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60697512 | Jul 2005 | US |