EP1912543A1

EP1912543A1 - Sensor device provided with an oscillation circuit locating system and an encoded information transmission

Info

Publication number: EP1912543A1
Application number: EP06791570A
Authority: EP
Inventors: Andreas Wawrla; Kurt Wallerstorfer; Roland Scholz
Original assignee: Aquis Wasser Luft Systeme GmbH Lindau Zweigniederlassung Rebstein
Current assignee: Aquis Wasser Luft Systeme GmbH Lindau Zweigniederlassung Rebstein
Priority date: 2005-08-13
Filing date: 2006-08-09
Publication date: 2008-04-23
Also published as: WO2007019993A1

Abstract

The invention relates to a sensor device comprising a base unit which consists of an oscillating circuit locating system (12) provided with at least one transmitting and/or receiving location selecting element for locating by electromagnetic waves and a sensor element (5) comprising a location oscillating circuit for marking a detectable locality which makes it possible to transmit additional information. For this purpose, the sensor element (5) is provided with an encoding unit for transmitting encoded information.

Description

SENSOR DEVICE WITH VIBRATION SYSTEM AND TRANSMISSION CODED

INFORMATION

The invention relates to a sensor device according to the preamble of claim 1.

With the publication WO 03/038380 Al a sensor device with resonant circuit location system has already become known. In this case, a location detection is effected by electromagnetic waves via one or more excitation coils. The location of a passive sensor element with a coupled location resonant circuit, i. a sensor element without its own power supply, can be determined by the response of the locating circuit to the exciter signal of the resonant circuit location system in this sensor device.

This sensor device is only suitable for locating and by successive measurements in conjunction with a time detection for detecting movements.

The object of the invention is to propose a sensor device with a resonant circuit location system, with which additional information can be transmitted.

This object is achieved on the basis of a sensor device according to the preamble of claim 1 by the characterizing features of claim 1. The measures mentioned in the dependent claims advantageous embodiments and developments of the invention are possible.

Accordingly, a sensor device according to the invention is characterized by a base unit comprising a resonant circuit location system with at least one location-selective transmitting and / or receiving element for location detection by electromagnetic waves, and a sensor element comprising a locating circuit for marking the location to be detected, characterized the sensor element comprises a coding unit for transmitting coded information.

By this measure, it is possible not only to determine the position of the marked location by the locating system with the sensor element, but to transmit further data from the sensor element with locating circuit to the base unit according to the invention.

Such data may be, for example, information about components to which the sensor element is attached or sensory data on the environment of the sensor element with locating circuit or external data transmission devices on the spot data transmitted to the sensor element.

Preferably, a data transmission is provided by means of the locating resonant circuit provided for locating. Due to the common use of the locating circuit for locating and for further data transmission, a transmitter separate from the locating circuit is unnecessary for data transmission. This means a reduction in the production costs and the space required.

Advantageously, at least one transmission and / or Receiving antenna of the resonant circuit location system for transmitting coded information provided. By sharing such a transmitting and / or receiving antenna, the manufacturing effort and the space requirement is significantly reduced even in the base unit.

The data transmission is accomplished in an advantageous embodiment of the invention in that the electric locating circuit comprises an actuator and a control unit for the coded change of an electrical parameter of the resonant circuit. This coded change is evaluated or decoded in the response signal at the base unit comprising the resonant circuit location system. In this way, a location and a data transfer with arbitrary information can be realized by the same sensor element.

In an advantageous embodiment of the invention, for example, the attenuation or the resistance of the locating resonant circuit is formed changeable. Other possibilities exist e.g. in that a variable inductance and / or a variable capacitance are provided. The question of which parameters are changed and how the information is coded plays a secondary role, provided that the coding can only be recognized in the response signal.

The resonant frequency of the locating resonant circuit is tuned to a resonant frequency of the site-selective transmitting and / or receiving element in the resonant circuit location system.

The control unit for the actuator for the coded change of the electrical parameter is advantageously implemented in the form of an integrated circuit in the locating circuit, so that a total of compact passive sensor unit, ie a sensor unit without its own power supply results, for example can be poured in plastic or the like.

In a further development of this embodiment, a data memory is additionally provided. Such a data memory can be used, for example, for the intermediate storage of data sensed at the location of the sensor element with the locating circuit. However, it may also contain data on components to which the sensor element with locating circuit is attached. For example, type specifications, technical data or the like can be stored in such a data memory for transmission to the base unit of the sensor device in such a data memory.

As already mentioned above, it is possible to provide the sensory detection of information at the location to be detected by means of the sensor element with the locating circuit. The sensor element containing the locating circuit is advantageously provided with further sensors for this purpose. Such sensors may be, for example, light sensors, temperature sensors, conductivity sensors or chemical sensors for substance detection. As a result, the determination of information about the environment of the sensor element with locating circuit and the forwarding to the base unit is possible, for example, with the help of such a sensor element, a level can be measured and at the same time information about the type of filling medium, its temperature, its color or turbidity, etc. are determined and transmitted.

Preferably, the base unit is provided with a decoding unit for decoding the transmitted information. In this way, all provided data in prepared form for further processing, for example, in a machine control, a computer or the like provided by the sensor device. In principle, however, it would also be possible to evaluate the signals containing the information in an external decoding device.

The base unit of the sensor device according to the invention is preferably provided with an interface to an external computer unit. In the above-mentioned preferred embodiment, the decoded data for further use, e.g. in a machine control, in a surveillance system or the like.

For this purpose, the sensor device according to the invention is preferably provided with a bus interface, so that the sensor device can be connected to a large number of further bus subscribers, e.g. other sensor units or actuators to operate.

In a particularly advantageous embodiment of the invention, the sensor element containing the locating circuit is designed as a so-called RFID transponder whose resonant frequency is tuned to the resonant frequency of the resonant circuit locating system. This embodiment has the advantage that existing commercial RFID transponder technology can be used with corresponding cost savings for the information transmission of the sensor device according to the invention. In this embodiment, likewise advantageously for the base unit with the site-selective transmitting and / or receiving unit, a likewise commercially available, suitable for said RFID transponder reading unit can be integrated.

A sensor device according to the invention can be equipped with a plurality of sensor elements which operate at different resonance frequencies, wherein in the base unit for Each resonance frequency must be provided a transmitting and / or receiving unit. For this purpose, a tunable or different transmitting and / or receiving units can be provided.

When using the sensor element in an environment where the electromagnetic wave used is a frequency-varying medium, e.g. Water, transmit, a "detuning" of the resonant frequency of the sensor element with respect to the resonant frequency of the base unit can be provided to compensate for the frequency-distorting effects of such media in the field. In the case of the above-mentioned combination of RFID location with the RFID technique, the targeted detuning of a single resonant frequency, e.g. of the locating circuit.

An embodiment of the invention will be explained in more detail with reference to FIGS.

Show in detail

1 shows a schematic sectional view through a coffee machine with inventive sensor device and

2 shows a sensor element according to the invention with locating circuit and coding unit.

The coffee machine 1 according to FIG. 1 comprises a machine housing 2, a water tank 3 and a filter cartridge 4, which is arranged in the water tank 3. A first sensor element 5 with locating circuit is movably connected to the filling 7 of the filter cartridge 4 via a displaceable upper separating sieve 6. If the filling 7 shrinks, the first sensor element 5 inside the filter cartridge 4 is lowered. If the filling then expands again, so the first sensor element 5 is raised again. In a first guide channel 8 designed as a float second sensor element 9 is arranged. By training as a float is the second sensor element 9 and falls with the water level 10 inside the water tank. A third sensor element 11 is arranged in the interior of the machine housing 2. A resonant circuit location system 12 extends laterally adjacent to the water tank 3 substantially over its entire height. The oscillating circuit location system 12 carries an electronic plug-in connection 13, transmitting and receiving coils, not shown, and an RFID reading unit 14. Via the electronic plug-in connection 13, the resonant circuit locating system 12 is connected to the main electronic unit of the beverage machine 1, which has a microprocessor for controlling and evaluating the illustrated, includes non-contact sensor technology.

First, the first, second and third sensor elements 5, 9 and 11 serve as path sensors. The position of the sensor elements 5, 9 and 11 can be detected by way of the abovementioned transmission and reception coils (not shown) on the resonant circuit location system 12. The operation of such resonant circuit detection systems and associated sensor elements correspond to the aforementioned prior art.

In addition to the known use of such sensors, an RFID chip (not shown in more detail) is now provided in the first sensor element 5. About this RFID chip can be made using the interaction between the

Oscillation circuit location system 12 and the first sensor element 25 by an encoded influencing the resonant circuit of the first sensor element 5 take place an exchange of information. It should be noted that both the location and the information transfer using the same location resonant circuit and thus under use take place at the same resonant frequency.

Accordingly, on the one hand, information about the state of the filling 7 can be made by measuring the fill level of the filling 7 via the first sensor element 5. The extent of such a filling 7 gives a measure of the loading state of the filter resin, so that in this way statements about the exhaustion of the filter cartridge can be made.

Other sensors, e.g. Conductance sensors, temperature sensors or the like can be readily integrated into such a sensor element if required and read out via the data transmission according to the invention.

In addition, 11 further sensory functions can be met via the second and third sensor element 9, 11, for example, the level control in the water tank 3 or a water change control.

The third sensor element 11 can be used for various purposes in the operation of the machine for control.

With the help of a sensor arrangement according to the invention, a detection of the consumption state, a new-filter detection, a lifetime control and a water hardness calculation and many other state and / or operating data is possible. The water hardness calculation could be determined, for example, based on the lifetime of the filter cartridge taking into account the flow rate. A descaling notice of the beverage machine can also be generated based on the state and / or operating data thus acquired.

In principle, with a sensor arrangement according to the invention, it is also possible to detect a specific installation position of the filter. Also features of this Depend on installation position, can therefore be detected and transmitted with a sensor according to the invention. For example, in the case of a filter cartridge, an angle-dependent installation position can be provided, wherein a specific operating mode or operating parameter is set depending on the angle. For example, can be adjusted with the angular position, a cut ratio between filtered and unfiltered or otherwise treated water. Thus, for example, a bypass opening could be modified depending on the angle, bypassing the filter section in its cross section.

In the case of a position detection via a sensor according to the invention, therefore, the associated parameter setting on the part of the beverage machine can be detected and evaluated or incorporated into the operating sequence of the machine. Thus, depending on the amount of waste, for example, a corresponding indication of descaling of the machine or of a filter change by the machine can be generated.

A machine use without filter or with a wrong filter can also be recognized, so that possibly warranty and warranty claims can be coupled to the use of a correct filter.

By means of the data transmission in addition to the location sensor system, in particular via the described RFID technology, an authenticity monitoring, possibly connected to a lock of the machine when using an unauthenticated filter cartridge, is possible.

In addition, a storage unit can be accommodated in the sensor element 5 of the filter cartridge, so that there cartridge-specific data can be stored. These cartridge-specific data can be used, for example, in the Production of the filter cartridge are stored or even recorded during operation of the filter cartridge and stored. Thus, also operational cartridge-specific data can be used again in an interim replacement of the filter cartridge 4 and their re-insertion.

Figure 2 shows the schematic structure of a sensor element according to the invention 5. About a coil 15 at the same time takes place an energy and a coded data transmission by changing an electromagnetic field generated by the Schwingkreisortungssystem. For this purpose, the resonance frequencies of these two components are matched.

An integrated circuit 16, which i.a. generates the resistor and thus the damping of the resonant circuit, includes a data memory 17 and a coding unit 18. Additional sensor units, such as a temperature sensor 19 may be provided at the sensor element 5.

The coding unit 18 is able to change the attenuation of the positioning resonant circuit and thus to transmit via a predetermined coding information to an associated resonant circuit location system, for example to the resonant circuit location system 12 according to FIG. The arrangement according to FIG. 2 corresponds to known RFID transponders. The coded information transmitted thereby can accordingly be read out and further processed via an RFID reading unit, for example according to the RFID reading unit 14 in FIG.

In addition to the illustrated embodiment, many other embodiments of the sensor device and in particular the application of such a sensor device are conceivable. A sensor device according to the invention is everywhere can be used in machines, systems, etc., where location recognition is required in combination with data transmission.

List of reference numbers:

1 coffee machine

2 machine housing

3 water tank

4 filter cartridge

5 first sensor element

6 separating sieve

7 filling

8 guide channel

9 second sensor element

10 water levels

11 third sensor element

12 resonant circuit location system

13 electronic plug connection

14 RFID reader

15 coil

16 integrated circuit

17 data memory

18 coding unit

19 temperature sensor

Claims

Claims:

1. A sensor device with a base unit, which comprises a resonant circuit location system with at least one location-selective transmission and reception element with location detection by electromagnetic waves, and with a sensor element which comprises a locating circuit for marking the location to be detected, characterized in that the sensor element (5 ) comprises an encoding unit (16) for transmitting coded information.

2. Sensor device according to claim 1, characterized in that the information transmission is provided by means provided for locating the electric locating circuit.

3. Sensor device according to one of the preceding claims, characterized in that at least one transmitting and / or receiving antenna of the resonant circuit location system is provided for transmitting coded information.

4. Sensor device according to claim 1 or 2, characterized in that the sensor element (5) with locating circuit comprises an actuator and a control unit (16) for the coded change of an electrical parameter of the resonant circuit.

5. Sensor device according to one of the preceding claims, characterized in that via the actuator, the damping or the resistance of the electrical resonant circuit is variable.

6. Sensor device according to one of the preceding claims, characterized in that via the actuator, the inductance and / or the capacitance of the locating resonant circuit is variable.

7. Sensor device according to one of the preceding claims, characterized in that an integrated circuit (16) is provided which comprises the control unit.

8. Sensor device according to one of the preceding claims, characterized in that a data memory (17) in which the locating circuit comprehensive sensor element (5) is provided.

9. Sensor device according to one of the preceding claims, characterized in that a data acquisition of further sensors (19) via the control unit (16) of the locating circuit comprehensive sensor element (5) is provided.

10. Sensor device according to one of the preceding claims, characterized in that the base unit (12) comprises an evaluation unit (14) for decoding the transmitted information.

11. Sensor device according to one of the preceding claims, characterized in that the base unit has an interface to an external computer.

12. Sensor device according to one of the preceding claims, characterized in that the base unit comprises a bus interface.

13. Sensor device according to one of the preceding claims, characterized in that the locating circuit is designed as an RFID transponder whose resonance frequency is tuned to the resonant circuit location system.