DE102017106045B4 - Method for calibrating a level measuring device and arrangement of a level measuring device and a reflector for carrying out the method - Google Patents

Abstract

Method for calibrating a level measuring device (1) with a sensor for level monitoring (10), with a control (40) for evaluating the data measured by the sensor for level monitoring (10) and with a reflector (20) which can be arranged on the level measuring device (1) in this way, that when it is arranged on the level measuring device (1), it reflects signals emitted by the sensor for level monitoring (10), characterized in that when the reflector that can be arranged on the level measuring device (1) is arranged on the level measuring device (1), a radio signal is emitted and that by means of a radio receiver (30) is monitored by the controller (40) to determine whether the radio signal was sent or not, and that if the controller (40) determines during this monitoring that the radio signal was sent, it automatically calibrates the level measuring device (1 ) is made.

Description

The invention relates to a method for calibrating a level measuring device with the features of the preamble of patent claim 1 and an arrangement consisting of a level measuring device and a reflector for carrying out such a method with the features of the preamble of patent claim 9.

In some open waters and in many water and wastewater treatment plants, level measuring devices are used to record levels and levels. These level measuring devices must be checked and possibly calibrated at certain intervals. In the case of non-contact level measuring devices, especially those that work with ultrasound or free-radiating radar, a reflector is arranged - often manually - on the level measuring device at a certain distance from the sensor in such a way that it generates an echo signal and the measured value determined from it is transferred to the level measuring device actual distance compared. If there are any deviations, the comparison will be corrected.

An example of such a level sensor is the one in the DE 10 2013 214 324 A1 radar level measuring device described.

The disadvantage of this prior art is that there is still the need to manually initiate the performance of a calibration. The object of the invention is therefore to provide a method for calibrating a level measuring device in which the calibration is initiated automatically.

From the DE 10 2011 075 767 A1 a level measuring device is known in which an active radar reflector is arranged on a float on the surface of the liquid whose level is to be monitored. A radar sensor sends out a radar signal, which is sent back modified by the active radar reflector. This modified signal is then used to record the respective filling level.

The WO 2009/000283 A1 concerns level measurement in conjunction with floating transponders.

The EP 2 199 763 A1 relates to a reference reflector that can be attached to a level measuring device.

This object is achieved by a method for calibrating a level measuring device with the features of patent claim 1 and a level measuring device for carrying out such a method with the features of patent claim 9. Advantageous developments of the method are the subject of the respective subclaims.

The method according to the invention for calibrating a level measuring device is carried out with a level measuring device which has a sensor for level monitoring, a control for evaluating the data measured by the sensor for level monitoring and a reflector which can be arranged on the level measuring device in such a way that, when it is arranged on the level measuring device, it is transferred from the sensor to the level measuring device Signals emitted by level monitoring are reflected, executed.

In particular, radar and ultrasonic sensors come into consideration as sensors for level monitoring, in which the control is based on the reflection of radar or ultrasonic waves emitted by the sensor on the filling material, in particular by determining the transit time from the emission of the signal to the arrival of a The filling level is determined in a known manner using echoes caused by reflection on the surface of the filling material.

What is essential to the invention is that when arranging the reflector that can be arranged on the level measuring device on the level measuring device, a radio signal is sent out and that the control uses a radio receiver to monitor whether a corresponding radio signal was sent or not and that if a corresponding radio signal was sent, a calibration is automatically carried out of the level measuring device.

The temporal term “while arranging” is not to be understood so narrowly that it only covers the actual installation process but also covers a period of time after this arranging. This means that it is not possible to trigger the radio signal alone, for example by providing a switch or sensor on the reflector that can be arranged on the level measuring device or on its holder or storage on the level measuring device.

Such a radio signal can also be emitted by a mobile device, for example, which the person who arranges the reflector that can be arranged on the level measuring device on the level measuring device carries with him and operates it when he has installed the reflector arranged on the level measuring device. However, it is preferred that the radio signal comes, for example, from a radio transmitter that is arranged on the reflector that can be arranged on the level measuring device. In particular, the radio signal can be generated when establishing near-field communication. Attempts to set up such a near-field communication can also be carried out regularly or periodically, and then lead as soon as possible the reflector that can be arranged on the level measuring device is arranged on the level measuring device to establish successful communication.

In a preferred embodiment of the invention, the radio signal is sent by a Bluetooth transmitter, which can be arranged particularly advantageously on the reflector that can be arranged on the level measuring device, and the radio receiver is designed as a Bluetooth receiver. Of course, other radio-based communication protocols can also be used.

A calibration carried out can be particularly reliable if, to calibrate the level measuring device, several reflections of the reflector that can be arranged on the level measuring device are brought about, evaluated and used at different distances from the sensor for level measurement.

This can be achieved, for example, if the reflector that can be arranged on the level measuring device has a plurality of reflection surfaces which are arranged at a fixed distance from one another and at different distances from the sensor for level measurement and which are introduced together into the measuring cone of the sensor for level measurement when arranging the reflector that can be arranged on the level measuring device . However, it is preferred if the different reflections of the reflector that can be arranged on the level measuring device are brought about sequentially at different distances from the sensor for level measurement, since this means that when using the sensor for level monitoring to detect the position of the reflector that can be arranged on the level measuring device, a less complex signal has to be evaluated. In addition, such a sequence can also be used as a signal to trigger a calibration process, e.g. if a single reflected signal cannot be detected reliably enough by the sensor for monitoring the fill level.

In a preferred variant of the method for calibrating a level measuring device, the sequential creation of the different reflections of the reflector that can be arranged on the level measuring device at different distances from the sensor for level measurement is achieved in that the position of at least one reflection surface of the reflector that can be arranged on the level measuring device is telescoped by pulling it apart or pushing it together extendable and collapsible rod, on which the reflector that can be arranged on the level measuring device or its reflection surface is arranged, is changed. This can also be done by a drive, which can in particular be designed as a motor.

An alternative variant of the invention provides that the reflections are brought about at different distances by providing rod-shaped reflection surfaces on the reflector that can be arranged on the level measuring device in such a way that they are caused by rotation of the movable reflector about an axis, which can be done, for example, by a motor. one after the other into the radiation cone of the sensor for level monitoring. This can be done periodically, especially with continuous rotation, so that the calibration is repeated regularly and automatically.

With a suitable rod-shaped design of the reflection surfaces, the different orientations of the rod-shaped reflection surfaces can also be used during a rotational movement relative to the polarization directions of the emitted signal to generate sequences of the reference signal.

It is particularly preferred if the calibration measurement is automatically saved and/or logged. In this way, a progress report can be generated fully automatically and stored and/or played back on a PC, tablet or smartphone connected to the sensor or level measuring device. It is particularly advantageous if the calibration measurement is stored and/or logged in or through a mobile application, for example an app.

It is also preferred if the result of the storage and/or logging is sent as an email via a network connection or is stored in a network storage that is accessible via the network to which the network connection exists. This can also be done in particular by storing it in a cloud.

The level measuring device according to the invention for carrying out the method or one of its developments just described has at least one sensor for level monitoring, a control that is set up to evaluate the data measured by the sensor for level monitoring and a reflector that can be arranged on the level measuring device in such a way that when it is on the level measuring device is arranged, signals emitted by the sensor for level monitoring are reflected.

What is essential to the invention is that the level measuring device has a radio receiver and that the control is set up to be based on this to monitor whether the radio receiver receives radio signals from a radio transmitter or not, whether the reflector that can be arranged on the level measuring device is arranged on the level measuring device or not and then, if the control determines during this monitoring that the reflector that can be arranged on the level measuring device is arranged on the level measuring device, automatically carry out a calibration of the level measuring device.

According to an advantageous development of the invention, the radio transmitter is arranged on the reflector that can be arranged on the level measuring device. In this way, for example when arranging the reflector on the level measuring device, the radio transmitter can be brought into a position in which a near-field radio connection can be established. At the same time, in this development of the invention, data or specific properties of the reflector used, which can be arranged on the level measuring device, can optionally also be transmitted.

It is particularly preferred if the radio receiver is a Bluetooth receiver and if the radio transmitter arranged on the reflector that can be arranged on the level measuring device is a Bluetooth transmitter.

According to a particularly preferred development of the invention, the level measuring device also has a network interface for sending e-mails and/or for storing data in a network memory accessible via a network, so that the results of the calibration can be immediately documented and made available.

• 1: Eine schematische Darstellung des Aufbaus eines erfindungsgemäßen Füllstandmessgeräts.

The invention is explained in more detail below with reference to a figure which represents an exemplary embodiment. It shows:

• 1 : A schematic representation of the structure of a level measuring device according to the invention.

1 shows a schematic structure of a level measuring device 1 with a sensor for level monitoring 10, with a reflector 20 that can be arranged on the level measuring device 1, with a radio receiver 30, which in this example is designed as a Bluetooth receiver, but which can in principle also meet other radio standards, and with a controller 40 for evaluating the data measured by the sensor for level monitoring 10. The controller 40 is further set up to monitor, based on whether the radio receiver 30 receives radio signals from a radio transmitter 24 or not, whether the reflector 20 that can be arranged on the level measuring device 1 is arranged on the level measuring device 1 or not and then if the controller 40 is in this Monitoring determines that the reflector 20 that can be arranged on the level measuring device 1 is arranged on the level measuring device 1 to automatically calibrate the level measuring device 1.

In this exemplary embodiment, the controller 40 is housed in a common housing 50 with the sensor for level monitoring 10 and the radio receiver 30, but it can also be spatially separated from this and only by a signal connection, which can be designed, for example, as a cable or wirelessly be connected to the sensor for level monitoring 10.

Usually, when the level measuring device 1 is in operation, the housing 50 is arranged in a receptacle 60, which can be arranged, for example, on a container, not shown, whose level is to be monitored, and is only shown for better understanding 1 shown separately from this. In order to ensure correct calibration, this arrangement must also be in a well-defined position. This can be ensured by setting a reference point 51 on the housing, which is brought into a defined position relative to a reference point 61 provided on the receptacle 60.

The reflector 20 that can be arranged on the level measuring device 1 is designed as a rod 21 that extends essentially in the radiation direction of the sensor for level monitoring 10 and has a first reflection surface 22 and an optional second reflection surface 23. In 1 the reflector 20, which can be arranged on the level measuring device 1, is arranged on the level measuring device by inserting or hanging it into the receptacle 60; but it can also be removed from it.

As a result, the reflection surfaces 22, 23 are either at a known, fixed, defined distance from the reference point 61 or, for example, by using a telescopic rod that has a displacement sensor, at a known, variable but defined distance when on the level measuring device 1 arrangeable reflector 20 is arranged on the level measuring device 1.

On the reflector 20 that can be arranged on the level measuring device 1, a radio transmitter 24, which is implemented here as an example as a Bluetooth transmitter, is also arranged in such a way that when the reflector 20 that can be arranged on the level measuring device 1 is inserted or hooked into the receptacle 60, the relative position of the radio transmitter 24 and radio receiver 30 establishes a near-field radio connection, e.g. a Bluetooth radio connection, between radio transmitter 24 and radio receiver 30.

Because the controller 40 is also set up to monitor, based on whether the radio receiver 30 receives radio signals from a radio transmitter 24 or not, whether the reflector 20 that can be arranged on the level measuring device 1 is arranged on the level measuring device 1 or not, then when the controller 40 is at This monitoring determines that the reflector 20 that can be arranged on the level measuring device 1 is arranged on the level measuring device 1, for example here specifically the establishment of a radio connection between the radio transmitter 24 and the radio receiver 30 is registered, a calibration of the level measuring device 1 can be carried out automatically.

Reference symbol list

1

Level measuring device

10

Sensor for level monitoring

20

reflector

21

Rod

22.23

Reflection surface

24

Radio transmitter

30

Radio receiver

40

steering

50

Housing

51

reference point

60

Recording

61

reference point

Claims (12)

Method for calibrating a level measuring device (1) with a sensor for level monitoring (10), with a control (40) for evaluating the data measured by the sensor for level monitoring (10) and with a reflector (20) which can be arranged on the level measuring device (1) in this way, that, when it is arranged on the level measuring device (1), it reflects signals emitted by the sensor for level monitoring (10), characterized in that when the reflector that can be arranged on the level measuring device (1) is arranged on the level measuring device (1), a radio signal is emitted and that by means of a radio receiver (30) is monitored by the controller (40) to determine whether the radio signal was sent or not, and that if the controller (40) determines during this monitoring that the radio signal was sent, it automatically calibrates the level measuring device (1 ) is made. Method for calibrating a level measuring device (1). Claim 1 , characterized in that the radio signal is sent by a Bluetooth transmitter and is received by the radio receiver (30) designed as a Bluetooth receiver. Method for calibrating a level measuring device (1). Claim 1 or 2 , characterized in that to calibrate the level measuring device (1), several reflections of the reflector (20) which can be arranged on the level measuring device (1) are brought about, evaluated and used at different distances from the sensor for level measurement (10). Method for calibrating a level measuring device (1). Claim 3 , characterized in that the different reflections of the reflector (20) which can be arranged on the level measuring device (1) are brought about sequentially at different distances from the sensor for level measurement (10). Method for calibrating a level measuring device (1). Claim 4 , characterized in that in order to sequentially bring about the different reflections of the reflector (20) which can be arranged on the level measuring device (1) at different distances from the sensor to the level measurement (10), the position of reflection surfaces (22, 23) of the reflector (20) which can be arranged on the level measuring device (1) 20) is changed by pulling apart or pushing together a telescopically extendable and collapsible rod (21), on which reflection surfaces (22, 23) of the reflector (20) which can be arranged on the level measuring device (1) are arranged. Method for calibrating a level measuring device (1) according to one of the preceding claims, characterized in that the calibration measurement is automatically stored and/or logged. Method for calibrating a level measuring device (1). Claim 6 , characterized in that the automatic storage and/or logging of the calibration measurement takes place in a mobile application. Method for calibrating a level measuring device (1). Claim 6 or 7 , characterized in that the result of storage and/or logging is sent as an email via a network connection or is stored in a network storage that can be reached via the network. Arrangement consisting of a level measuring device (1) and a reflector (20) for carrying out the method according to one of Claims 1 until 8th , wherein the level measuring device has a sensor for level monitoring (10), with a control (40) that is used for Evaluation of the data measured by the sensor for level monitoring (10) is set up, and a reflector (20) which can be arranged on the level measuring device (1) in such a way that, when it is arranged on the level measuring device (1), it receives signals emitted by the sensor for level monitoring (10). reflected, characterized in that the level measuring device (1) has a radio receiver (30) and that the controller (40) is set up to based on whether the radio receiver (30) receives radio signals from a radio transmitter (24) or not monitor whether the reflector (20) that can be arranged on the level measuring device (1) is arranged on the level measuring device (1) or not, and then if the control (40) determines during this monitoring that the reflector (20) that can be arranged on the level measuring device (1) is arranged on the level measuring device (1) to automatically calibrate the level measuring device (1). Arrangement consisting of a level measuring device (1) and a reflector (20). Claim 9 , characterized in that the radio transmitter (24) is arranged on the reflector (20) which can be arranged on the level measuring device. Arrangement consisting of a level measuring device (1) and a reflector (20). Claim 10 , characterized in that the radio receiver (30) is a Bluetooth receiver and that the radio transmitter (24) arranged on the reflector (20) that can be arranged on the level measuring device is a Bluetooth transmitter. Arrangement of a level measuring device (1) and a reflector (20) according to one of the Claims 9 until 11 , characterized in that the level measuring device (1) has a network interface for sending emails and/or for storing data in a network storage accessible via a network.

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