NL2021919B1 - DOOR CONTROL WITH SLIM CABLE DETECTION - Google Patents

Abstract

8 EXTRACT Described is a method in which a slack cable is detected in a door control system. The operating system is equipped with a motion sensor that detects whether or not the door is moving or not, a switch connected to an electrical power source, a motor connected to the switch which operates the door by means of the 10 cable, and one on the switch unit connected decision unit which interrupts the electrical supply to the motor, if a confirmation from the motion sensor that the door 15 is not received has been received within a certain period of time after the switch member has been operated.

Description

DOOR CONTROL WITH SLIM CABLE DETECTION

The present invention relates to a method in which a slack cable is detected in a door control system.

The present invention also relates to a door control system.

Such a method and operating system are known from WO 99/08956. This discloses a slack cable detection and compensation system that generates a warning signal if parts of the system for resilient compensation of cable slack have been retracted to some extent. With the aid of a position sensor, the mutual position of those parts is monitored and in the event of excess play, a switch coupled to the position sensor switches to indicate the alarm.

A drawback of the known method and the operating system is that it is not easy to build into existing doors which, moreover, are not always provided with a slack cable compensation system.

The object of the present invention is to provide a simple method with an associated operating system that can be mounted on all kinds of existing doors as a slack cable detection system.

To this end, the method according to the invention has the features that the operating system is provided with:

- a motion sensor that detects whether or not the door is moving in a contactless manner;

- a switching element connected to an electrical power source;

- a motor connected to the switching element which operates the door by means of the cable; and

- a decision unit connected to the switch member which interrupts the electrical supply to the motor, if a confirmation from the motion sensor that the door moves has not been received within a certain period of time after the switch member has been actuated.

Accordingly, the operating system according to the invention has the features of claim 5.

The advantage of the present invention is that it enables contactless detection of an optional slack cable. In particular, no physical connection to the so-called door leaf of the door, for example by means of a spiral cable, is necessary. The dangers associated with a slack cable, especially where it concerns a fall of the door as a result of play in the cable (s), which may then be followed by a cable break, are eliminated. This improves the safety of the user when applying the method according to the invention, and prevents damage and failure of the door operated by means of the operating system according to the invention. And this in a way that allows installation and simple combination with existing doors regardless of their dimensions or thicknesses.

In one embodiment, the time span after actuation of the switch member within which confirmation of the motion sensor should be received that the door is moving is adjustable. The advantage of this is that, depending on the mass inertia of the door in particular, this time can be adjusted such that the degree to which the door would move a little under circumstances, if the cable hangs to some extent, can be reduced to harmless proportions. Only when the adjustable time is exceeded does the slack cable protection intervene and the motor is no longer energized, after which a possible automatic blocking of the door can be triggered.

A preferred time span for a conventional door such as an overhead door is a maximum of about 0.5 seconds.

Further detailed possible embodiments set out in the other claims are stated in the following description, together with the associated advantages.

The method and the operating system according to the present invention will now be further elucidated with reference to the figure below. This shows the principle diagram of the door operating system according to the invention, in which the corresponding method is applied.

The figure shows the basic diagram of an operating system 1 for operating a door 3, such as an overhead door, by means of a number of cables 2, which are often under resilience. The operating system 1 comprises a motion sensor 4 which is arranged to detect movement of the door 3 in a contactless manner, a switching member 6 connected to an electrical supply 5; an electric motor 7 connected to the switching element 6 and arranged to operate the door 3 by means of the cable 2; and a decision unit 8 connected to the switch member 6, which is arranged to interrupt the electrical supply to the motor 7, if a signal from the motion sensor 4 has not been received by a user of the door within a certain period of time after the switch member 6 has been switched on. that the door 3 moves.

If, after giving the command to the switching element 6 that the motor 7 is to move it, the door is actually in motion and that movement has been determined by the motion sensor 4 and has been supplied to the decision unit 8, the switching element 6 power to motor 7 not interrupted. However, if after that command the door is found not to move within a certain period of time, the unit 8 decides that the switch 6 no longer switches that power supply to the motor 7, whereby the motor stops. There is then a suspicion of a slack cable failure or possibly a cable or spring break (correct?), As a result of which the door has not started moving, at least not in time. Stopping the motor 7 in a timely manner prevents the motor from continuing to extend on the cable (s) 2 as long as this could cause undesired damage or, for example, warping of the door. In that state, a signal can then be generated which is a defect which must be examined by a skilled person. In general, a blocking will therefore be activated, which at least prevents the door from moving down or falling by itself.

The often adjustable time span will be maintained in the decision unit 8 in a manner known per se by a time counting unit which further keeps track of the passage of time within the set time span. Motor 7 remains energized during the time period. However, if the confirmation by sensor 4 to the unit 8 has not been given within that period that the door is moving, the power supply to the motor 7 is interrupted at the command of the decision unit 8 by the controllable switch member 6.

In practice, the time span will not exceed about 0.5 seconds, which is generally sufficient, given the weight of the door, to absorb some practically occurring cable play during that time.

The motion sensor 4 is a contactlessly operating sensor and can be an optical and / or a magnetic sensor. In the case of an optical sensor, it includes a combination of a door-facing light transmitter and a cooperating receiver arranged to receive light emitted by the light transmitter after reflection on the door. In a known manner, the signal can be derived from the reflected light whether the door 3 moves or not. This signal is then supplied to the decision unit 8 and used, as explained above.

If the sensor 4 is of the magnetic type, it may include a combination of a well-known reed switch which interacts with a magnet to be mounted on the door 3. Only if and as long as the magnet is within range of the reed switch, the latter takes a first position; if not, the reed switch switches to a second position. This particular switching information is then communicated to the decision unit 8 and used, as explained above.

The aforementioned information can also be used to communicate via a wireless or non-wireless communication system, such as a mobile telephone, to an authority or person who can remedy the detected cable fault.

Claims (8)

1. Method in which a slack cable is detected in a door control system, which control system further comprises: - a motion sensor that detects whether or not the door is moving in a contactless manner; - a switching element connected to an electrical power source; - a motor connected to the switching element which operates the door by means of the cable; and - a decision unit connected to the switch member which interrupts the electrical supply to the motor, if a confirmation from the motion sensor that the door moves has not been received within a certain period of time after the switch member has been actuated. Method according to claim 1, characterized in that said time span is an adjustable time span. Method according to claim 2, characterized in that the adjustable time span is less than 0.5 second. Method according to any one of claims 1-3, characterized in that the motion sensor is an optical and / or a magnetic sensor. 5. Operating system for a cable operated door that is equipped with: - a motion sensor adapted to contactlessly detect movement of the door; - a switching element connectable to an electrical supply; - a motor connected to the switching element and adapted to operate the door by means of the cable; - a decision unit connected to the switch member which is arranged to interrupt the electrical supply to the motor, if a signal from the motion sensor that the door moves is not received within a certain period of time after the switch member has been actuated. 6 . Operating system according to conclusion 5, with it characteristic Which the motion sensor an optical and / or a magnetic sensor contains. 7 . Operating system according to conclusion 6, with it characteristic Which optical sensor contains a combination from one on the door focused light transmitter and light receiver which is arranged to receive light emitted by the light transmitter after reflection on the door and to derive the signal from it. Operating system according to claims 6 or 7, characterized in that the magnetic sensor comprises a combination of a reed switch and a magnet to be mounted on the door. Method or operating system according to one of the preceding claims, characterized in that information about a slack cable at the relevant door is communicated to an authority on the basis of the signal via a wireless or wireless communication system. Method or operating system according to claim 9, characterized in that the door is an overhead door.