Control system and method for an automatic door or gate

Details Control system and method for an automatic door or gate Control system and method for an automatic door or gate

2002-02-27

2003-12-02

Masih, Karen (Department: 2837)

Electricity: motive power systems

Automatic and/or with time-delay means

Motor load, armature or primary or secondary circuit current

C318S468000, C318S286000, C318S452000, C318S667000, C318S466000, C318S469000, C318S470000

Reexamination Certificate

active

06657409

ABSTRACT:

This is a U.S. National Phase Application Under 35 USC 371 and applicant herewith claims the benefit of priority of PCT/AU00/00486 filed May 19, 2000, which was published Under PCT Article 21(2) in English and Application No. PQ 0509 filed in Australia on May 21, 1999 and PQ 4395 filed in Australia on Dec. 1, 1999
FIELD OF THE INVENTION
The invention relates to a control system for a gate or door which is operated by an automated operator.
BACKGROUND TO THE INVENTION
Whilst the following description is in terms of rolling door assemblies, it will be readily apparent that the invention relates to any type of door or gate which is opened and closed using an automated operator.
It is commonly known that the load experienced by a rolling door over its normal up and down travel path varies considerably. Typically, conventional door operators have only one overload trip point setting for each direction of door travel. This trip point is incorporated to interrupt the direction of travel of the door or gate where resistance to the movement of the door or gate exceeds that point. This conventional trip point setting must be adjusted for the heaviest section of the door's travel. That is the section over which the load is greatest. As the trip point is in effect adjusted to a level to account for the worst situation in the travel path, consequently a heavy load is needed to trip the door in sections where the loads are lighter.
For example, the trip point may be incorporated into the door mechanism to avoid the door or gate operator becoming overloaded by an obstruction in the door's path preventing its movement. Likewise, for safety reasons the conventional door is required to reverse its direction of travel if such an obstruction occurs such as a person being in the door travel path. Clearly, the approach of setting the trip point dependent upon the heaviest load may result in injuries to a person who obstructs the door in its travel.
It is also commonly known that the load experienced over the travel of the door alters over time and with usage. Conventional door operators typically have an overload trip point which, once set, is fixed. Consequently, the door operator is unable to adjust to variance in normal door resistance load over time. This manifests itself as poor overload sensitivity after some time. Such manifestations may include a door which fails to shut or open as the door will travel until the load trip point is exceeded and the door reverses. Conversely, the loads may become so light that considerable pressure will be applied to an obstruction before the trip point is exceeded and the travel direction of the door reversed.
OBJECT OF THE INVENTION
It is therefore an object of the invention to provide a control system which ameliorates one or more of these problems.
DESCRIPTION OF THE INVENTION
According to one particularly preferred form of the invention, there is provided a control system for a door or gate which is movable between an open position and a closed position by an automated operator, comprising:
(a) a door travel organiser which divides the door travel into a plurality of segments and each segment into a plurality of sections;
(b) a sensor to sense, at each sector, the resistance of the door or gate against opening and closing whilst moving between the open position and the closed position over a predetermined number of open-close cycles, and to generate at least one signal representative of that resistance in each segment over the open-close cycles;
(c) a recorder connected to the sensor to receive each representative signal and to store such a signal;
(d) a comparator to compare each signal with a resistance trip point set for each segment and generate a resistance profile for the door or gate over an open-close cycle of the door or gate;
(e) a calculator to calculate the resistance trip point for the door or gate for each segment based upon the highest resistance encountered in any sector of that segment; and
(f) a controller to receive each trip point and set each trip point as a threshold for each segment such that if resistance of the door or gate sensed by the sensor in any sector exceeds that threshold for that segment, the movement of the door or gate is interrupted.
Typically, the resistance of the door or gate is sensed by monitoring the speed of the door over the open-close cycle. It is thought that speed is representative of that resistance. As such, by recording the speed profile of several open-close cycles and averaging the minimum speeds of each segment, the trip point can be set for each segment at a value which is more closely aligned to the characteristic resistance for that segment.
Consequently, in any one segment, if an obstruction is encountered, only the trip point set for that segment need be exceeded to cause interruption of the movement of the door or gate.
In another preferred form of the invention the control system further comprises an alarm which is operable upon the controller interrupting the movement of the door or gate.
In another form of the invention the control system further comprises an alarm which is operable when the resistance profile of the door or gate exceeds predetermined maximum profile points. In this way, if the resistance of the door or gate builds up over time which is a typical characteristic of doors, an alarm may be provided to indicate that maximum resistances are being approached. This will indicate that servicing of the door or gate is needed.
Preferably, the resistance profile of the door or gate will be established by monitoring enough open-close cycles so that any abnormal representative signals do not cause aberrant trip points to be set. In this respect, the number of cycles is expected to be at least 8.
Suitably the control system comprises a remote trigger which operates to ensure that the door or gate cannot be operated by a remote control until the resistance profile of the door or gate has been established.
Preferably, the control system further comprises an immobiliser to immobilise the door or gate if the signal for any segment exceeds the trip point set for that segment by a predetermined value. In this arrangement, if the variation in this signal is exceeded by, for example, 10% or 20%, which means that the door or gate and/or operator are in danger of failing, the immobiliser causes the mechanism to stop. Preferably, the system further comprises another alarm which is activated if the immobiliser is activated.
Typically, the alarms referred to above may be a visual and/or audible display such as a series of lights or sounds. It is possible to have a single alarm which produces the function of all the alarms mentioned above. For example, the first condition, when the notification signal is received, may be displayed by illuminating two of the LED's. When the immobiliser is active, then all four of the LED's may be displayed.
The control system may also include a set up facility. The set up facility may include means for adjusting a predetermined resistance value exerted by a motor on a door or gate at which the immobiliser causes the mechanism to stop. The adjustment means may be such as to allow an installer to vary the predetermined resistance value at the site where the control system has been installed. The set up facility may include means to run the door through an open and close cycle so that the normal operating resistance parameters of the door installed at the site may be sensed and used to set a predetermined resistance value for operation of the door.
The control system may also include a default safety resistance value. This may be preset in the factory. The set up facility may also include means to alter the default safety resistance value on site. The magnitude of the default safety resistance value may be the primary determinant for immobilising the door, regardless of the setting of the predetermined resistance value.
In another preferred form of the invention there is provided a method of controlling a door or gate which is movable between an open p

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