EP3767060A1 - Method for monitoring a door lining or a door, door fitting, especially a seal, pusher or strip, with a sensor and a door comprising a sensor or with a door fitting of this type with a sensor - Google Patents

Abstract

A method for monitoring a door with at least one sensor and with at least one door fitting with which a physical variable and / or an actuation of the fitting or the door is detected, the sensor having an output at which a physical variable and / or the Actuation of the door fitting or the signal indicating the door is present, the signal being transmitted directly or indirectly to at least one processing unit outside the door with which the signal is evaluated and / or monitored.

Description

The present invention relates to a door fitting with a sensor and a door with a sensor, in particular with a door fitting with a sensor.

Various doors with sensors are known from the prior art. Sensors are provided in particular for doors that open and close automatically. These can be sensors that detect people moving towards the door, for example. Such a sensor can be connected to a controller that controls one or more drives. If the sensor detects a person, the sensor reports this to the controller. The control switches on the drive or drives of the door in order to open it. If no person is detected in the area detected by the sensor when the door is open, this is also reported by the sensor to the control, so that the control activates the drive or drives of the door to close the door.

It is also known to provide force sensors for doors that open and close automatically. These can serve as anti-trap protection. If a door is closed by means of a drive, people or their body parts or objects should be prevented from being trapped between the closing door leaf and a door frame or between two closing door leaves. This could injure people or damage objects or the door.

Sensors on doors are also used for alarms, in particular to monitor whether the door is or is being closed or opened without authorization. This can be used for burglary protection or an entrance or exit control. Magnetic switches (especially reed switches) are often used for this purpose.

The present invention is also based on the idea of using sensors on doors. However, the sensors should not be used to control drives or to monitor the opening status of the door. The sensors used according to the invention should primarily serve to detect the use of the door, but also changes in the door, which can result in a malfunction of the door or parts of the door. This should make it possible to avoid failure of the door or parts of the door through preventive action, so that the functionality of the door and all of its parts is always guaranteed. The data recorded by the sensors used can be evaluated at one or more points.

The evaluation of the recorded data makes it possible to recognize the malfunction of a door without having to inspect the door on site. A person who is engaged in the maintenance of the door can then be specifically sent to this door in order to maintain and / or repair it. In particular, organizations that operate a large number of doors in or on one or more buildings can thus save resources: They can dispense with regular inspections of the doors by house technicians and can still ensure that the doors are maintained and / or repaired in a targeted manner.

The benefits of the sensors go even further: by recording how often the door or parts of the door are used or operated, the procurement of spare parts can also be optimized. Based on the known and average service life of the door or parts of the door, a spare part can be procured before it fails and - depending on the user's wishes and requirements - can be installed immediately or kept available until the time of failure and then installed.

In addition, if the door or parts of the door fail, the recorded and collected sensor data can provide a reason for the failure of the door or part of the door. This information can be informative, in particular, for the manufacturer of the door or the parts of the door, in particular of hardware parts of the door. They can use the data as an opportunity to improve the hardware components.

The sensor can be part of the door fitting or the sensors can be parts of the door fitting or each sensor is part of the door fitting or one of the door fittings. The door fitting can in particular be a door handle, a hinge, a seal, in particular a door seal that can be automatically raised or lowered, or a device for finger protection. The sensor can also be part of a sealing profile, for example a rebate seal. The door can in particular be an interior door. The door can be a door leaf made of wood, a glass and / or a metal.

The signal can be transmitted to a network interface of the door fitting or the door via the output of the sensor. The network interface can be the interface of a wired or wireless network. The variable represented by the signal can be converted into data in the network interface and sent to the at least one processing unit via the network.

The data can be evaluated and / or stored in the processing unit. The data or an evaluation of the data can be uploaded from the processing unit via the network or another network to a cloud storage device. This data can also be used by others other than the door user, for example doors or hardware manufacturers.

During the evaluation, the processing unit can determine malfunctions or the imminent reaching of the service life of the door or parts of the door and display the malfunctions or the imminent reaching of the service life via a user interface. A user can thereby be prompted to carry out a check, maintenance or repair of the door or the parts of the door.

A door fitting according to the invention has a sensor for detecting a physical variable or actuations of the door fitting. The door fitting can be, for example, a door handle, a hinge, a seal, in particular a seal that can be raised or lowered, a device for finger protection or the like.

A door fitting according to the invention can have a network interface for connecting the door fitting to a wired or wireless network. The network interface can preferably be used to convert an output signal from the sensor into a data format that corresponds to a protocol of the network that can be connected to the interface. The network interface is intended to transmit this data over the network.

A door according to the invention has a door fitting, in particular a door fitting according to the invention. The door has a sensor for detecting a physical variable or actuations of the door fitting or the door.

With the sensors mentioned and the physical variables mentioned, the following findings can be obtained in the course of processing the variables:
An acceleration sensor or a gyro inclination sensor can be used to record the acceleration, speed, oscillations or vibrations of a door leaf when the door is opened or closed. This makes it possible to record a course of the acceleration, the speed, the oscillations or vibrations of the door when opening or closing. Changes in the curve progression compared to a reference progression can then be observed, for example, by considering absolute values or value differences of the recorded variables. This allows, for example, to see whether the opening and closing resistance has changed. A change in the opening and closing resistance can be caused by a defect in the door or in part of the door. The cause can then be investigated by specifically checking the door.

With an acceleration sensor or a gyro inclination sensor, rotational movements or inclinations with respect to a reference plane can also be recorded. This makes it possible to detect changes in positions, for example due to deformation or warpage or lowering of the door or parts of the door, including the door leaf or door fittings, which have arisen, for example, due to a defect. If such a change in the door or in parts of the door is detected, it can be investigated in a targeted manner.

With an angle incremental encoder as a sensor, angles and their changes can be recorded. This makes it possible, for example, to detect the opening angle of a door leaf of a swing door or the angle of rotation of a key in a door lock or a door handle. For example, do you know the angle of rotation a door handle, you can tell whether the door handle is hanging down or not due to a weakening force or a defect in a return spring. In addition, if the restoring force of the spring is known, based on the detected position of the door handle, it is possible to deduce the operating force that a user has applied to operate the door handle and bring it into the position reached. The position of a door handle can basically be recorded with a linear incremental encoder.

The sensor can be a Hall sensor with which a magnetic field or its change, for example due to a relative movement of two components, can be detected. By detecting the change in the magnetic field, the relative speed of the two components can also be determined. A Hall sensor can therefore be used at the points where a position or its change is to be detected. It can be used as a proximity sensor or a speed sensor.

The sensor can be a proximity sensor that works on any measuring principle. A proximity sensor can be used to detect an angle, a path, a distance or a speed. For example, it can be used to determine a position.

Infrared sensors, laser sensors or ultrasonic sensors can also be used as sensors for measuring angles, paths, distances or speeds. These can be used to record a distance, a path, a position, a length, width, height, thickness or strength, an angle, an inclination, a speed, a movement or a wavelength. You can use the detection of a floor clearance or clearance, a distance, angles or to detect objects or People are used. This makes it possible, for example, to monitor the floor or rebate clearance in order to determine whether an installation status has changed. If a change is detected, this can be a sign of wear on a door fitting, for example a seal.

The sensor can be a force sensor. With a force sensor, for example, an expansion or stretching of the door or parts of the door, a pressing force of a door leaf on a frame or of seals on a frame, a door leaf or the floor can be detected. It is also possible to detect a closing and opening force that is necessary to close or open the door. The force that has to be used to operate a door handle can also be recorded with a force sensor. The force sensor can comprise a strain gauge.

The sensor can be a sound sensor, for example a microphone. By measuring sound, for example, one can determine how the door acts against sound transmission from the rooms separated by the door. A reduced attenuation of the sound can in particular indicate an impaired function of a seal.

The sensor can be a humidity sensor. Moisture can be detected, for example, by measuring electrical conductivity. With a humidity sensor, for example, the humidity or the water content of parts of the door could be recorded. Measuring moisture can help identify a cause of swelling or warping in materials such as wood or some elastomers.

The sensor can be a temperature sensor. A change in temperature or a particular temperature can indicate a fire or increased friction. The friction can, for example, lead to increased wear on seals. The increased friction can arise, for example, due to assembly errors or incorrect setting of the seal. In unfavorable cases, however, an increased temperature can arise not only due to friction. It is possible, for example, for the door to be mounted in an area in which the door and the parts of the door are heated up considerably, for example due to strong sunlight. The heating may cause the door and parts of the door to expand and warp. This can impair the functionality of the door or parts of the door. If increased heat development is detected, this can be the reason to check the door and, if necessary, repair it.

The sensor can also be a sensor for electrical variables such as electrical voltage, electrical current, ohmic resistance or electrical conductivity. Such a sensor can, for example, interact with a closed-circuit current loop, i.e. an electrical conductor through which a closed-circuit current flows. A mechanical effect on the closed-circuit current loop can result from a change in the electrical variable monitored by the sensor. In borderline cases, the loop can be interrupted. The interruption can have various causes: It can be due to a defect or manipulation, for example as a result of a break-in or an attempted break-in. In some cases there is no failure of the monitored part of the seal, but only a functional impairment, which can be traced back to deformation or wear, for example. In all cases it is It makes sense to determine the cause of the change in the electrical variable monitored by the sensor and to check the door for this. The closed-circuit current loop can be built into a seal, for example. In particular, it can be part of a sealing profile.

The sensor for electrical quantities can also be used in an automatically raised and lowered door seal with an electric drive for raising and lowering. For example, the sensor can monitor the drive current. If a sealing strip is driven against the ground by means of the drive, the drive current increases. If the drive current reaches a specified value, the drive is switched off. A control of the drive can be designed in such a way that it remembers the position of the sealing strip when it is initialized and switches off the drive when it is lowered again before the position is reached, for example to protect the drive and the sealing strip. If there is a current increase before the noted position is reached, this may be due to a defect in the seal or a blockage of the seal due to an obstacle. The detected increase in current can then lead to the seal being checked and, if necessary, repaired.

The sensor can also comprise two electrical conductors arranged next to one another. They can be embedded, for example, in a sealing profile or in another part. If the object is deformed by an external force acting on the object, the distance between the two conductors changes. This changes an inductive and / or capacitive coupling of the conductors, which leads to a current and / or voltage change that can be detected. This means that permanent deformations of the object can also be detected. Since deformations are caused by may have a defect in the object, the detection of a deformation, in particular a permanent deformation, can be the reason to check the object or to repair it.

The sensor can be a pyroelectric infrared sensor. With this sensor, temperature differences can be detected. Temperature differences can indicate movement, airflow, fire, or something else. A pyroelectric infrared sensor can also be used for burglary protection.

The sensor can be a GPS sensor. With this, positions and movements, in particular speeds, can be recorded. By monitoring the position of a door leaf or other moving parts of a door as the door opens and closes, a curve can be recorded that describes the movement. By comparison with a reference curve, deviations in the behavior of the door can then be determined, which can then be investigated.

Claims (15)

A method for monitoring a door with at least one sensor and with at least one door fitting with which a physical variable and / or an actuation of the fitting or the door is detected, the sensor having an output at which a physical variable and / or the Actuation of the door fitting or the signal indicating the door is present, the signal being transmitted directly or indirectly to at least one processing unit outside the door with which the signal is evaluated and / or monitored. Method according to claim 1, characterized in that the sensor is part of the door fitting or the sensors are parts of the door fitting or each sensor is part of the door fitting or one of the door fittings. Method according to Claim 1 or 2, characterized in that the door fitting is a door handle, a hinge, a seal, in particular a door seal that can be automatically raised or lowered. Method according to one of Claims 1 to 3, characterized in that the signal is transmitted via the output of the sensor to a network interface of the door fitting or the door of a wired or wireless network. Method according to Claim 4, characterized in that the quantities represented by the signal are converted into data in the network interface and sent to the at least one processing unit via the network. Method according to Claim 5, characterized in that the data are evaluated and / or stored in the processing unit. Method according to Claim 6, characterized in that the data or an evaluation of the data is uploaded to a cloud storage device from the processing unit via the network or another network. Method according to Claim 6 or 7, characterized in that the processing unit determines malfunctions or the imminent reaching of the service life of the door or parts of the door during the evaluation and displays the malfunctions or the imminent reaching of the service life via a user interface. Door fitting, for example door handle, hinge, seal or the like, characterized in that the door fitting is a sensor for detecting a physical variable or actuations of the door fitting. Door fitting according to claim 9, characterized in that the sensor is a displacement or distance sensor, a speed sensor, an acceleration sensor, an angle or inclination sensor, a vibration sensor, a magnetic field sensor, a force sensor, a pressure sensor, a sound sensor, a humidity sensor, a temperature sensor, Is a current or voltage sensor, an infrared sensor, a position sensor, or another sensor. Door fitting according to claim 9 or 10, characterized in that the variable that can be detected with the sensor is an acceleration, a speed, oscillations or vibrations, a rotary movement, inclinations relative to a Reference plane, angle changes, linear changes in position, a magnetic field, a speed, an angle, a path or distance, a position, a thickness, an electric current, an electric voltage, an electric resistance, an electric conductivity, a sound pressure or a volume, a Temperature or a temperature difference, a pressure, a force, a mechanical tension, a wavelength, or the like. Door fitting according to one of claims 9 to 11, characterized in that the door fitting has a network interface for connecting the door fitting to a wired or wireless network, with which an output signal of the sensor can be converted into a data format that corresponds to a protocol of the network that can be connected to the interface corresponds. Door with a door fitting, in particular a door fitting according to one of Claims 9 to 12, characterized in that the door has a sensor for detecting a physical variable or actuations of the door fitting or the door. Door according to claim 13, characterized in that the sensor is a displacement or distance sensor, a speed sensor, an acceleration sensor, an angle or inclination sensor, a vibration sensor, a magnetic field sensor, a force sensor, a pressure sensor, a sound sensor, a humidity sensor, a temperature sensor, Is a current or voltage sensor, an infrared sensor, a position sensor, or another sensor. Door according to claim 13 or 14, characterized in that the variable that can be detected with the sensor is an acceleration, a speed, oscillations or vibrations, Rotational movement, inclinations with respect to a reference plane, changes in angle, linear changes in position, a magnetic field, a speed, an angle, a path or distance, a position, a thickness, an electric current, an electric voltage, an electric resistance, an electric conductivity, a sound pressure or a volume, a temperature or a temperature difference, a pressure, a force, a mechanical tension, a wavelength, or the like.