1. Field of the Invention
The subject invention generally relates to a new and improved sensor for use as part of a safety system that is incorporated in a motor operated upwardly acting door. In particular, the safety system of the subject invention is used in upwardly acting doors that are in commercial and industrial applications.
Upwardly acting doors fall into three basic categories. First, there are sectional type upwardly acting doors that are generally constructed of various metals, woods and synthetic materials and comprise a plurality of individual sections which are fixed by mechanical hinge means to form a complete door of a size required for the given industrial or commercial application. The hinges extend along the longitudinal axis of each individual section and, at the end of each section, guide wheels are provided to allow the sections to follow along a pair of guide tracks to allow the door to move upwardly and downwardly to open and closed positions in a predetermined path. Usually, the door is in a vertical position when closed, and in a generally horizontal position when open.
Another form of an upwardly acting door is a one-piece door structure that is manufactured from various materials including wood, metal and synthetic materials. As the name implies, the entire door is produced to form a single panel, and numerous different designs exist to provide counterbalance and path guidance as the one-piece door is moved from the closed, generally vertical position, to the open, generally horizontal position. The one-piece door moves from the closed position to the horizontal open position by pivoting of the panel from the vertical plane and, at the same time, retracting it along the horizontal plane, thereby achieving the open position, at which point the door is generally horizontal.
Another common form of commercial or industrial upwardly acting door is generally referred to as a rolling steel door. Rolling steel doors are generally manufactured from various metals and consist of individual slats which are generally manufactured by roll forming to produce a desired shape. The slats are assembled by sliding one slat into another slat along a longitudinal axis to thereby form a curtain until the required door height is achieved, at which point a device is fixed to the end of the slats to prevent lateral movement thereof. The completed rolling steel door or curtain is then attached to a counterbalance assembly which applies the required forces to move the curtain in a vertical direction. As the rolling steel door or curtain is moved in a vertical direction, it is rolled about itself and stored around the counterbalance assembly to form a cylindrical shape. Usually, the counterbalance assembly has an outer cylindrical casing into which the rolled steel door or curtain is stored when the door is in the open position to allow access to the commercial or industrial building.
For each of the above-mentioned upwardly acting doors, it is well known to provide automated operation through the use of various mechanical means which are powered by either electric motors, hydraulic cylinders or pneumatic cylinders. All of the known automated systems employ an electrical or electronic control system to control the movement of the door as it travels between the open and closed positions.
In existing motor-operated door systems, usually a motor is electrically powered and turns a drum to either retract all of the panels into the storage container of the roll-up door when opening the door, or spool out the panels when the door is being actuated to its closed position. As part of the typical control circuit for an automatically opening door, it is usual to provide a sensing device which, upon encountering an obstruction in the door's path, automatically shuts off the electrical system for operating the door.
2. Description of the Related Art
One form of prior art safety device for an upwardly acting door is disclosed in U.S. Pat. No. 2,791,654 which issued on May 7, 1957 and is entitled “Combined Safe Edge and Sight Guard for Elevator Doors”. In U.S. Pat. No. 2,791,654 a combined safety edge and sight guard is provided for elevator doors using a microswitch which is closed when a cushioned edge is depressed by an interfering object.
Another prior art device is disclosed in U.S. Pat. No. 3,001,038 entitled “Overhead Closure Safety Halting System and Actuator Therefor” which issued on Sep. 19, 1961 and discloses an overhead closure safety halting system utilizing an actuating bar mounted on the leading edge of a garage door to close a switch when interference occurs.
In the prior art U.S. Pat. No. 4,115,952 entitled “Safety Door Edge” which issued on Sep. 26, 1978, there is disclosed a safety door edge that employs a flexible channel along the door edge containing a pair of contacts which come together when the channel is compressed.
U.S. Pat. No. 4,953,608 entitled “Safety Device, Particularly for Roll-Up Doors” which issued on Sep. 4, 1990 discloses a safety device particularly intended to be used in roll-up doors to cause reversal of the door closing movements in case an obstacle obstructs the path of movement of the door. The safety device of U.S. Pat. No. 4,953,608 includes a pair of photoelectric cells which are arranged at a certain distance from the closing edge of the door leaf in alignment with the door leaf on a support arm which is displaceable in the direction of closing of the door.
It is noted that none of the prior art discloses an upwardly moveable door safety system including a sensing device to sense when the overhead door is no longer level, whether it is in a vertical position or in the horizontal position. Furthermore, the prior art safety systems do not include a system having a sensing means which detects an obstacle in the door's path that causes the panels of the door to be misaligned horizontally, thereby causing the door to possibly jam and, if not corrected, causing structural damage to the door.
Accordingly, it is an object of the subject invention to overcome the shortcomings of the prior art safety systems and provide a safety system for an upwardly moving door including a sensing device that detects when a motor-operated door's panels are not horizontally aligned, whether the door is in the vertical or in the horizontal position.
It is a further object of the subject invention to provide a safety system including a sensing device that is simple and inexpensive to manufacture and is readily incorporated into the control system of an existing electrically operated automatic door.
The new and improved sensing device of the subject invention is formed of an impact resistant elongated box that is designed to be attached in a horizontal orientation to the door frame. The elongated box includes a longitudinally extending, generally cylindrical pathway therein having an enlarged diameter at its central portion, and with the pathway tapering in opposite directions from the enlarged diameter central portion to the opposite or distal ends thereof.
Disposed at each of the opposite ends of the tapered cylindrical passageway is a recess containing electrical contact points from which extend electrical lines to the control circuitry of the safety system for the upwardly moveable door. An electrically conductive ball bearing is disposed in the longitudinally extending tapered passageway. Accordingly, when the door panel to which the subject sensing means is attached is in a generally horizontal position, whether the door is in the vertical or horizontal position of operation, the ball bearing will rest in the dwell or enlarged diameter portion of the passageway. However, should the door engage an obstruction such that the door panel is distorted and no longer horizontal, the ball bearing will roll to the lower end of the sensing device and into a recess, thereby establishing electrical contact with the contact pins. This, in turn, will trigger the control system to immediately stop the operation of the door, thereby preventing any further damage to the door structure.
Since the elongated cylindrical tapered passageway within the subject sensing device is circular in cross section along its entire length, the subject sensing device is fully operational during all positions of the door panel to which it is attached. That is, the subject sensing device is fully operational when the door panel is in the horizontal position, the vertical position, or any intermediate angular position.
In the operation of the safety system of the subject invention, when the door is no longer aligned to the horizontal or vertical plane, the sensing device of the subject invention changes from a normally open electrical state to a closed electrical state at which time it interrupts the control circuitry associated with the door mechanism and the actuating motor for the door is automatically stopped.
At such time, the door will remain at the position at which the interruption occurred and will not function until the situation causing the activation of the subject sensing device is corrected and, after that time, the safety system may be reset to its normal open state.
It has been determined that for a door unit having a width in the range of 8 feet to 12 feet that the subject sensor should be constructed to be activated when there is more than a 1 degree deviation from the horizontal. In other words, for a door width of 8 feet, a deviation of one side of the door from the horizontal of about 1 inch will cause the sensor to be activated.
For a door of approximately twenty (20) feet, a sensor should be installed on each of the opposite ends of the width of the door, and the angle of activation should be in the range of 1 degree to 1½ degrees.
Turning of
In effect, the pathway 32 extending from the dwell point or enlarged diameter portion 38 to the recess areas 34, 36 defines opposite cone-shaped pathways, with the incline angle being approximately 1°.
By virtue of this arrangement, the pathway 32 maintains the ball bearing 40 at the dwell point or enlarged diameter portion 38 when the sensing device 20 is horizontal. The cylindrical configuration of the pathway 32 ensures that the sensing device 20 will operate at any degree of rotation of the sensing device as the door 10 is moved from the horizontal to vertical positions.
At each of the recess areas 34, 36 there is provided a conductive metal ring, such as brass tubing section 42, 44, and at the center of and aligned with the longitudinal axis of the cylindrical pathway 32 is an electrically conductive center contact pin, designated by the numerals 46, 48. The center contact pins 46, 48 are spaced from and thus electrically isolated from the conductive rings 42, 44. The spacing between each conductive metal ring 42, 44 and the conductive center contact pin 46, 48 is less than the diameter of the conductive ball 40 in order for an electrical connection to be made when the housing 30 is tilted and the ball bearing spans the distance between the ring and pin.
In
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The ball bearing 40 is made of an electrically conductive material. The housing 30 of the sensing device 20 is secured to the door 10 by suitable means, such as screws, adhesive, etc.
In the normal operation of the door 10, where no obstructions are encountered by the door as it is moved between the horizontal and vertical positions, the electrically conductive ball bearing 40 will remain in the dwell position of the enlarged diameter portion 38 of the sensor 10 as the door is operated.
When the door 10 engages an obstruction, the slat 12 to which the electrical sensor 20 is attached will deviate from the horizontal, thereby resulting in tilting of the elongated housing 30. Any tilting of the housing 30 in excess of the angular taper of the pathway 32 will cause the conductive ball 40 to roll to the respective recess area 34 or 36. As the conductive ball 40 enters the respective recess area, it would establish an electrical connection between the respective contact pin 46, 48 and the contact ring 42, 44. This will complete the electrical connection to the safety system and cause an immediate halt to the motion of the door 10. At this point the electrical conductive ball 40 is maintained in place in the respective recess area 32, 34 and maintains the electrical connection until such time as the obstruction is removed and the door 10 is returned to its operative made of operation.
It has been found that the angle of taper within the elongated passageway from the central dwell point 38 having a diameter D1 to each opposite distal end leading to the diameter D2 should be in the range of 0° to 5°, and preferably 1° or 1.5°.
It also has been found that for large commercial doors of a width greater than 12 feet, it may be necessary to use two sensors 20, one at each end of the width of the door.
It is also noted that the elongated passageway 32 is circular in cross section along its entire length. Accordingly, the subject sensor 20 is operative at all times when the door is disposed in the vertical position, the horizontal position, or at any intermediate position. More particularly, as the door is moved between a vertical position and a horizontal position, the ball bearing 40 merely rotates within the elongated pathway 32, and is maintained in the dwell position, until such time as the door is inclined so as to cause the ball bearing 40 to move in the respective direction towards a recess area 34 or 36.
As it is readily apparent, numerous modifications and changes may readily occur to those skilled in the art, and hence it is not the desire to limit the invention to the exact construction and operation shown and described, and accordingly all suitable modification and equivalents may be resorted to for falling within the scope of the invention as claimed.
This application claims priority based upon U.S. Provisional Application Ser. No. 60/457,639 filed on Mar. 25, 2003, which is incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
2791654 | Nikazy | May 1957 | A |
3001038 | Gessell | Sep 1961 | A |
3855733 | Miller | Dec 1974 | A |
4115952 | French | Sep 1978 | A |
4953608 | Larsson | Sep 1990 | A |
5202559 | Durst | Apr 1993 | A |
5672856 | Kolb et al. | Sep 1997 | A |
5808254 | Wu | Sep 1998 | A |
5894267 | Blair | Apr 1999 | A |
6075333 | Huddle | Jun 2000 | A |
6198059 | Jou | Mar 2001 | B1 |
6246176 | Fai | Jun 2001 | B1 |
Number | Date | Country | |
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20040187406 A1 | Sep 2004 | US |
Number | Date | Country | |
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Parent | 60457639 | Mar 2003 | US |
Child | 10804242 | US |