DE102014116861A1 - Device for detecting indicators for preventive maintenance - Google Patents

Abstract

The present invention relates to a device (1) for detecting indicators for preventive maintenance in the case of objects (2) which have a carrier unit (3) and a shaft (4) rotatably mounted in the carrier unit (3), comprising a sensor unit (5 ) for measuring a physical quantity associated with a predictive maintenance indicator, a signal processing unit (6) for calculating an indicator value from a signal of the sensor unit (5), a memory unit (7) for storing the indicator value, a communication unit (8 ) for transmitting the indicator value to a readout device (9) and a power supply unit (10) for supplying the device (1) with electrical energy. In order to provide a device (1) for detecting preventive maintenance indicators of the aforementioned type, which in the long term is energy self-sufficient in a compact design, the invention proposes that the energy supply unit (10) has a first energy supply device (11), which is provided by a Battery is formed differently, and / or that the device (1) comprises a power management unit (14), wherein the power management unit (14) for activating and deactivating the device (1) or one or more units of the device (1) is formed.

Description

The present invention relates to an apparatus for detecting preventive maintenance indicators on items comprising a carrier unit and a shaft rotatably mounted in the carrier unit, comprising a sensor unit for measuring a physical quantity associated with a predictive maintenance indicator, a signal processing unit for calculating an indicator value from a signal of the sensor unit, a memory unit for storing the indicator value, a communication unit for transmitting the indicator value to a readout device and a power supply unit for supplying the device with electrical energy.

Furthermore, the present invention relates to a tool having a support unit and a rotatably mounted in the support unit shaft.

Moreover, the present invention relates to a system comprising a device for detecting indicators for preventive maintenance and a reading device.

Devices for detecting preventive maintenance indicators are devices that detect wear indicators or consumption indicators that indicate that preventative maintenance or servicing of the article is required. Of course, these devices are also suitable to indicate in a case of damage maintenance or maintenance that is not preventative or preventive. Devices for detecting indicators for preventive maintenance in the sense of the present invention may also be referred to as state detectors, which detect a state of the object and, if appropriate, monitor it over a period of time.

For example, operating hours counters are known from the prior art. Such hour meters are often used in agricultural vehicles. In the case of an hour meter, the indicator is the number of hours worked. The preventive maintenance is performed when a predetermined number of operating hours is reached. For example, preventive maintenance is an oil change. An energy supply of the operating hours counter via the on-board electrical system of the motor vehicle. The number of operating hours is displayed in the dashboard of the vehicle and can be read there. Other hour meters work for a long time energy self-sufficient and therefore have a relatively large battery, so that such hour meter have a space requirement of at least 35 cm ³ . With compactly constructed machines, tools or vehicles, this means that the operating hours counter can not be used or that the machines, tools or vehicles have to be redesigned with separate provision of space for the operating hours counter.

Furthermore, vibration meters are known from the prior art, which are used in helicopters. As the operating time increases, highly stressed drive parts of the helicopter, for example its rotor and drive shaft, cause a vibration pattern of these components to change. The predictive maintenance indicator is the vibration pattern. The vibration meter records the vibration pattern, compares it to a stored vibration pattern and provides a value indicating whether preventive maintenance must be performed. This value can be read out by means of a read-out device. The communication between the vibration meter and the reader is done by means of a BUS system. An energy supply of the vibration meter via the on-board electrical system of the helicopter.

The prior art also includes tools, in particular power tools for machine tools, which are equipped with a Radio Frequency Identification (RFID) transponder. The transponder is used to recognize the tool. For example, the machine tool recognizes the tool when it is attached to a spindle of the machine tool. For this purpose, the machine tool has a read-out device. On the basis of the times when the tool is attached to the spindle and recognized by the reader, standby hours for the tool can be calculated. However, the readiness hours do not coincide regularly with the actually performed operating hours, since the spindle often does not have its own readout device. The transponder is usually passive, so it does not require an active power supply unit. However, this has the consequence that the transponder is only active when it is activated by the reader. Continuous recording of operating hours is therefore not possible.

In order to provide a device for detecting a preventive maintenance indicator, for example the operating hours, for a tool without its own energy supply unit, the device must operate in an energy-autonomous manner for a period of time which is longer than a maintenance interval. Depending on the frequency and duration of use of the tool, for example, the maintenance interval is between one and ten years. To bridge such long maintenance intervals would require a battery of considerable size. However, since the space available for arranging a battery is very limited within a very compactly constructed tool, batteries are eliminated with a non-negligible space requirement. The battery should have a diameter of less than 25 mm and a height of less than 12 mm.

In the course of further industrial development, the provision of ready-processed information about production-related parts, groups and plants through the parts, groups and plants is itself targeted ("Industry 4.0"). The information is generated and provided in a decentralized manner and then centrally summarized and processed. The goal is an intelligent factory. An intelligent factory works in particular economically. This includes that maintenance and service is only performed when it is actually needed to keep costs and downtime to a minimum. On the other hand, it is important that maintenance and repairs take place before any incident occurs to avoid unpredictable downtime in the form of unplanned maintenance and repairs.

The present invention is therefore based on the object to provide a device for detecting indicators for preventive maintenance of the type mentioned, which is long-term energy self-sufficient in a compact design.

To solve the device task, the invention proposes a device for detecting preventive maintenance indicators of the type mentioned, wherein the power supply unit has a first power supply device that is different from a battery, and / or that the device comprises a power management unit the power management unit is configured to activate and deactivate the device or one or more units of the device. The first power supply, which is not a battery, provides great long term electrical energy to continuously operate the device, but without requiring the space of a large battery. Alternatively or additionally, the power management unit controls or regulates energy flows from the power supply unit to the units of the device in order to minimize power consumption of the device depending on an operating state of the device, so that a voluminous battery is unnecessary. In this respect, a compact design of the device is possible. The device according to the invention is already arranged or retrofittable on or in the object to be monitored.

For this purpose, the invention provides that the first power supply device has an induction module acting between the shaft and the carrier unit for providing electrical energy from a rotational movement of the shaft relative to the carrier unit or an antenna for receiving electrical energy from the readout device. To ensure long-term operation of the device, the induction module is well suited since it always provides electrical energy when the shaft rotates relative to the carrier unit, in other words when the object is in operation and must be logically monitored. The induction module extracts the electrical energy from the rotational movement of the shaft, wherein the rotational movement of the shaft is introduced and maintained from the outside, so that an energy reservoir for obtaining electrical energy is fed from the outside and thus basically unlimited. The induction module comprises a conductor arrangement in which electrical currents are induced. A designed as an antenna first power supply device is particularly suitable for such constellations in which an electromagnetic field is available, via which the electrical energy can be obtained to supply the device. The first power supply device may also be a battery or a rechargeable battery, in particular if the device comprises a power management unit.

It proves to be very advantageous according to the invention that the energy supply unit has a second energy supply device in addition to the first energy supply device. The first power supply device and the second power supply device may be formed identically, but are usually formed differently. The presence of a second power supply device and possibly further energy supply devices makes it possible for the device to be operated with an energy mix which is optionally controlled or regulated in the course of an energy management. In particular, different units of the device are associated with different power supply devices. For example, the sensor unit is associated with a first power supply device that includes an induction module because the sensor unit requires electrical energy to measure the physical quantity as the shaft rotates relative to the carrier unit and the induction module provides electrical power to the sensor unit just when the shaft rotates relative to the carrier unit.

According to the invention, the second energy supply device is an induction module acting between the shaft and the carrier unit for providing electrical energy from rotational movement of the shaft relative to the carrier unit, an antenna for receiving electrical energy from the readout device, a capacitor, an accumulator or a battery Battery has. In order to ensure a sufficiently long energetic independence of the device with a simultaneously compact design of the device, the following combinations of power supply devices are particularly suitable: induction module and antenna; Induction module and capacitor; Induction module and accumulator; Induction module and battery; Induction module, antenna and capacitor; Induction module, antenna and accumulator; and induction module, antenna and battery.

In a very advantageous embodiment of the invention it is provided that the energy management unit receiving activity signals from the units of the device, comparing the activity signals with stored activity data and generating switching signals for activating and deactivating the device or one or more units of the device depending on a result of the comparison is trained. In this way, the energy consumption of the units of the device is monitored, adapted to the current operating state of the device and thus optimized. An optimal energy consumption is in particular a minimum energy consumption. Activity data in the sense of the invention are, for example, unit-specific switch-off times after predetermined operating processes or interval times for the recurrent activation and deactivation of specific units. The enabling and disabling may include stages selected from the group consisting of: Full-On; Stand-by; Suspend; Sleep; and full-off.

It proves to be advantageous according to the invention that the signal processing unit has an analog-to-digital converter for converting the signal into a digital signal, a clock generator and a calculation module for calculating the indicator value from the digital signal. Due to the processing of measurement signals or raw data into a ready-processed indicator value, which is integrated in the signal processing unit and thus in the device, the device according to the invention provides meaningful distilled data which only require a small memory or transmission capacity and thus contribute to a streamlining of data streams that occur when decentralized data is pooled and consolidated centrally. Optionally, the signal processing unit does not include an analog-to-digital converter. In this case, the calculation module for calculating the indicator value is formed directly from the signal of the sensor unit. The signal of the sensor unit may be an analog signal or a digital signal.

Furthermore, it is provided according to the invention that the memory unit has a first memory for storing object-related data and a second memory for storing the indicator value. This dichotomy or possibly multiple division of the storage unit allows a clear assignment, but also clear separation of the data. Preferably, the item-related data, such as a tool's identification number, date of manufacture, design data, operation notes, application data, and the like, are hard-coded in the first memory, whereas the indicator value often to be overwritten is stored in a rewritable second memory. Preferably, the first memory and the second memory are independently selected from the group consisting of: Read Only Memory (ROM); Programmable Read Only Memory (PROM); Erasable Programmable Read Only Memory (EPROM); and Electrically Erasable Programmable Read Only Memory (EEPROM).

It proves to be very advantageous according to the invention that the communication unit has an antenna for transmitting the indicator value to the reading device by means of Near Field Communication (NFC), Radio Frequency Identification (RFID) or Bluetooth technology. Such a wireless transmission of the indicator value and possibly further data to the readout device eliminates the need for a cable connection between the device and the readout device, so that the device can be completely integrated into the object. An integration of the device into the object is advantageous, since on the one hand the wave to be detected by the sensor unit is regularly best accessible within the article and on the other hand the often sensitive device is protected against negative environmental influences, such as dirt, moisture or chemicals. Furthermore, a wireless connection is very user-friendly, since to read the indicator value no connections to often difficult to reach for an operator or even dangerous places on the object must be made. The technologies mentioned allow wireless transmission of data, but only over short distances or after pairing of communication unit and reader, so that sufficient data protection is granted. Particularly preferably, the communication unit has an antenna for transmitting the indicator value and optionally further data to the readout device by means of NFC technology. Alternatively, it is inventively conceivable that the communication unit a plug with electrical has conductive contacts to send the indicator value and optionally other data to the reader. This wired alternative is useful, for example, when the object is surrounded by strong electromagnetic fields.

In an embodiment of the invention it is provided that the device comprises one or more sensor units, which are selected independently of one another from the group consisting of: sensor unit for qualitatively detecting a rotational movement of the shaft relative to the carrier unit; A sensor unit for quantitatively detecting a rotational movement of the shaft relative to the carrier unit; Sensor unit for detecting vibrations of the shaft; Sensor unit for detecting a temperature; Sensor unit for detecting a humidity; and sensor unit for detecting impurities in a lubricant of the shaft. A device according to the invention comprising a sensor unit for quantitatively detecting a rotational movement of the shaft relative to the carrier unit and a sensor unit for detecting a temperature is particularly suitable for detecting highly relevant indicators for preventive maintenance, namely the operating hours and the temperature. Exemplary indicators include the life of the article, the operating time of the article, the rotational speed of the shaft, the vibration behavior of the shaft, the temperature of the shaft or article, the humidity of the shaft or carrier unit, and the mechanical abrasion of the shaft or carrier unit.

For detecting the indicator or the indicators, the sensor unit has a measuring arrangement which is selected from the group consisting of: magnet in operative connection with an induction loop; Permanent magnet in operative connection with an induction loop; Hall element; Thermocouple; Piezo element; Chain of electrical resistances; potentiometer; Sliding contacts; bimetallic strip; Induction coil; pH electrode; and light emitting diode operatively connected to a photodiode. The induction loop may be formed as an induction coil. By means of the magnet or permanent magnet in operative connection with the induction loop or by means of the Hall element, the rotational movement can be measured both qualitatively and quantitatively. By means of the thermocouple or by means of the bimetallic strip, the temperature of the shaft or the object is measurable. By means of the piezoelectric element, the vibration behavior of the wave can be measured. By means of the chain of electrical resistances, by means of the potentiometer or by means of the induction coil, electrical or magnetic properties of the shaft or of the lubricant of the shaft can be measured. By means of the sliding contacts, material shrinkage or material abrasion on the shaft or the carrier unit can be measured. By means of the pH electrode, impurities in the lubricant of the shaft can be measured. By means of the light-emitting diode in operative connection with the photodiode is a physical extent of the shaft or the carrier unit, a surface texture of the shaft or the carrier unit or a turbidity of the lubricant by impurities or abrasion measurable. The mentioned uses of the measuring arrangements are merely exemplary and in no way exhaustive of the possibilities of directly or indirectly measuring physical quantities with the listed measuring arrangements, which can be used for detecting indicators for preventive maintenance of objects.

Due to the power supply and / or power management according to the invention, it is possible that the device with the exception of sensor units and acting between the shaft and the carrier unit induction modules has a volume of less than 3 cm ³ . Preferably, the device has a volume of less than 2 cm ^3, in particular a volume of 1.75 cm ^3. Such miniaturized devices can be used without problems even in compactly designed machines, tools or vehicles, without having to reconstruct them with separate provision of space for the device.

In an embodiment of the invention, it is provided that the object is selected from the group consisting of: tool; Tool for a machine tool; milling tool; Grinding tool; drilling; Transmission; Transmission of a land, air or water vehicle; Crankshaft arrangement of a land, air or water vehicle; Fans of a land, air or water vehicle; Suspension of a land vehicle; Turbine of a power plant; Generator of a power plant; and a computer fan. This list is not exhaustive. Particularly preferred as an object is a tool for a machine tool, which has no own power supply. The tool for a machine tool is optionally powered by the machine tool with energy.

Tools of the type mentioned are well known from the prior art. Any type of rotating tool in which a rotating component, herein called a shaft, is rotatably mounted on another component, called a carrier unit, is a tool in the sense of the present invention. Examples of tools include milling tools, cutting tools, grinding tools and drilling tools. As already stated above, it is very desirable to detect the actual state of fatigue or wear of the tool, on the one hand To be able to carry out preventive maintenance in good time before a damage event and, on the other hand, to avoid premature and thus in principle superfluous maintenance.

The present invention is therefore additionally based on the object to provide a tool of the type mentioned, the wear state is reliably detected.

To solve the tool task, the invention proposes a tool of the type mentioned, wherein the tool has a device for detecting indicators for preventive maintenance according to one of claims 1 to 11. With great advantage, the device monitors the actual state of wear of the tool and generates corresponding indicator values on the basis of which timely maintenance and servicing can be scheduled and carried out. Damage as well as superfluous maintenance are avoided, so that a continuous and thus economical operation is ensured. The inventive design of the power supply unit ensures a long-term reliable operation of the device and thus a reliable detection of the state of wear of the tool. Incidentally, the advantages described for the device according to the invention also apply to the tool according to the invention.

In a simplified embodiment of the invention it is provided that the tool has any device for detecting indicators for preventive maintenance. For any device, the reliability of detection of the indicators can not be ensured to the same extent as for a device according to any one of claims 1 to 11, but any device is more effective than any device. Without a tool to record predictive tool maintenance indicators, it would be necessary to resort to the conventional, often inaccurate, scheduling methods of maintenance or to await a claim.

Systems of the type mentioned are also known from the prior art. As an example, a system of an on-board computer of a passenger car and a diagnosis computer for reading out indicator values from the on-board computer may be mentioned. A disadvantage of this system is that the on-board computer in operation requires so much electrical energy that it must be powered by a large main battery of the car, and the diagnostic computer must be connected by means of a cable to the on-board computer to read the indicator values.

The present invention is therefore additionally based on the object to provide a system of the type mentioned, which is long-term energy-self-sufficient and user-friendly in a compact design.

To solve the system task, the invention proposes a system of the type mentioned, wherein the device is designed according to one of claims 1 to 12 and the readout device, an antenna for receiving the indicator value of the communication unit by means of Near Field Communication (NFC) -, Radio Frequency Identification (RFID) - or Bluetooth technology. With the device according to one of claims 1 to 12, a physical quantity associated with a predictive maintenance indicator is measurable, an indicator value can be calculated therefrom, the indicator value can be stored and the indicator value can be transmitted to the read-out device. With regard to the power supply, the device is particularly preferably independent of a battery or preferably only secondarily dependent on a battery or primarily dependent on a battery. In particular, in the case of the primary dependence on a battery, the power management unit reduces the power consumption of the device to a level at which the device with a relatively small battery is energy self-sufficient for a long time. Such a device represents with great advantage a compact, energy self-sufficient and decentralized device for detecting indicators for preventive maintenance and thus forms an essential element for a compact and long-term energy self-sufficient system. The communication unit of the device is tuned to the antenna of the reader and compatible to this. An antenna of the communication unit and the antenna of the read-out device are preferably designed such that the indicator value and optionally further data are transmitted by means of NFC, RFID or Bluetooth technology. Particularly preferably, the antennas are designed to transmit the indicator value and optionally further data by means of NFC technology. Due to the wireless connection of communication unit and reader, the system according to the invention is very user-friendly.

It proves to be very advantageous according to the invention that the readout device is an NFC-compatible mobile phone. Many types of smartphones are NFC-enabled mobile phones and are in widespread use today so that a device compatible with the device is basically already present. For an actual data exchange between device and readout device, only a corresponding application (app), which is installed on the NFC-enabled mobile phone, is required. The read indicator value and, if applicable, other data of the item are displayed on the NFC stored mobile phone and either centrally with indicator values and possibly other data from other items on the NFC-enabled mobile phone summarized or forwarded to a central computer. In the latter case, the NFC-enabled mobile phone serves as a relay station for the secure transmission of data over long distances.

Alternatively, the readout device, which has an antenna for receiving the indicator value and optionally further data from the communication unit, a tablet computer, a shelf for storing the objects, a lock for passing the objects or a machine tool.

In an advantageous embodiment, the system according to the invention comprises a tool, in particular a driven tool for a machine tool, wherein the tool is the object in which indicators for preventive maintenance are detected by means of the device.

The invention will be described by way of example in four embodiments with reference to the drawings, wherein further advantageous details can be taken from the figures of the drawings.

The figures of the drawings show in detail:

1 a schematic representation of an apparatus for detecting indicators for preventive maintenance according to a first embodiment of the present invention;

2 a schematic representation of the device for detecting indicators for preventive maintenance according to a second embodiment of the present invention;

3 a schematic representation of the device for detecting indicators for preventive maintenance according to a third embodiment of the present invention; and

4 a schematic representation of the device for detecting indicators for preventive maintenance according to a fourth embodiment of the present invention.

The 1 shows a schematic representation of a device 1 for detecting preventive maintenance indicators according to a first embodiment of the present invention. The device 1 serves to collect indicators for preventive maintenance of objects 2 containing a carrier unit 3 and one in the carrier unit 3 rotatably mounted shaft 4 exhibit. The device 1 is within the object 2 arranged and includes a sensor unit 5 for measuring a physical quantity associated with a predictive maintenance indicator, a signal processing unit 6 for calculating an indicator value from a signal of the sensor unit 5 , a storage unit 7 for storing the indicator value, a communication unit 8th to send the indicator value to a reader 9 and a power supply unit 10 for supplying the device 1 with electrical energy. The power supply unit 10 has a first power supply device 11 on, which is formed differently from a battery. In the first embodiment of the invention, the first power supply device 11 one between the shaft 4 and the carrier unit 3 acting induction module for providing electrical energy from a rotational movement of the shaft 4 relative to the carrier unit 3 on. The power supply unit 10 in addition to the first power supply device 11 a second power supply device 12 on. In the first embodiment of the invention, the second power supply device 12 an antenna for receiving electrical energy from the reader 9 on. In addition, the device includes 1 According to the first embodiment, a power management unit 14 , wherein the power management unit 14 to activate and deactivate the device 1 and several units of the device 1 is formed independently of each other. The power management unit receives this 14 Activity signals from the units of the device 1 compares the activity signals with stored activity data and generates switching signals to enable and disable the device in response to a result of the comparison 1 and the units of the device 1 , For example, if the sensor unit 5 has completed a measurement, sends the memory unit 7 after storage of the indicator value for this measurement, a corresponding activity signal to the power management unit 14 , The power management unit 14 compares this activity signal with stored activity data, which, for example, specifies that a next measurement is to take place in 20 seconds. The power management unit then generates 14 For example, switching signals that the sensor unit 5 and the storage unit 7 switch off in the meantime, the signal processing unit 6 and the power supply unit 10 put in stand-by and the communication unit 8th leave off. The signal processing unit 6 includes an analog-to-digital converter for converting the signal to a digital signal, a clock, and a computing module for calculating the indicator value from the digital signal. Optionally, the signal processing unit comprises 6 no analog-to-digital converter, wherein the calculation module for calculating the indicator value directly from the signal the sensor unit 5 is trained. An analog-to-digital converter is obsolete, in particular, when the signal of the sensor unit 5 already a digital signal. The storage unit 7 has a first memory for storing object-related data and a second memory for storing the indicator value. The communication unit 8th has an antenna for sending the indicator value to the reader 9 using NFC technology. Accordingly, the reader is 9 as an NFC-enabled device, in particular NFC-enabled mobile phone formed. The antenna for sending the indicator value to the reader 9 at the same time forms the antenna for receiving electrical energy from the reader 9 , The signal processing unit 6 , the storage unit 7 and the communication unit 8th are arranged on a rectangular board with a length of about 25 mm and a width of about 10 mm. An alternative shaped board is circular and has a diameter of about 18 mm. The sensor unit 5 is as a sensor unit for quantitatively detecting a rotational movement of the shaft 4 relative to the carrier unit 3 formed and has as a measuring arrangement on a permanent magnet in operative connection with an induction loop. Particularly preferred is a measuring arrangement in which both the permanent magnet and the induction loop in the sensor unit 5 are arranged. So the wave has to be 4 not be equipped with a permanent magnet. The induction loop may be shaped as an induction coil. The sensor unit 5 is cylindrical with a length of about 25 mm and a diameter of about 7 mm. The sensor unit 5 is spaced about 0.1 mm from the shaft. The measuring arrangement simultaneously forms the induction module of the first power supply device 11 , In a variant of the first embodiment of the invention, not shown, the measuring arrangement of the sensor unit 5 and the induction module of the first power supply device 11 formed separately from each other. Due to the sensor unit 5 for quantitatively detecting a rotational movement of the shaft 4 relative to the carrier unit 3 is the device 1 a tachometer and hour meter. The object 2 is preferably a tool, in particular a driven tool for a machine tool.

The 2 shows a schematic representation of the device 1 for detecting preventive maintenance indicators according to a second embodiment of the present invention. The second embodiment of the invention is constructed very similar to the first embodiment of the invention. In the second embodiment of the invention, the device comprises 1 in addition to the sensor unit 5 for quantitatively detecting a rotational movement of the shaft 4 relative to the carrier unit 3 another sensor unit 13 , The sensor unit 13 is designed as a sensor unit for detecting a temperature and has a thermocouple as a measuring arrangement. The sensor unit 5 is located next to the board, the sensor unit 13 on the board. For precise detection of the temperature of the shaft 4 could be the sensor unit 13 also next to the board near the shaft 4 be arranged, for example, directly next to the sensor unit 5 ,

The 3 shows a schematic representation of the device 1 for detecting preventive maintenance indicators according to a third embodiment of the present invention. The third embodiment of the invention is constructed very similar to the first embodiment of the invention. In the third embodiment of the invention, the second power supply device 12 a battery whose diameter is approximately equal to 6 mm and whose height is approximately equal to 3 mm.

The 4 shows a schematic representation of the device 1 for detecting preventive maintenance indicators according to a fourth embodiment of the present invention. The fourth embodiment of the invention is constructed very similar to the first embodiment of the invention. In the fourth embodiment of the invention, the device 1 essentially outside the object 2 arranged and in particular on the outside of the object 2 attached. Only the sensor unit 5 is within the object 2 near the wave 4 arranged. The communication unit 8th for sending the indicator value and possibly further data to the read-out device 9 has electrically conductive contacts. A connection cable connects the contacts of the communication unit 8th the device 1 with the reader 9 physically. The reader 9 is trained as a Personal Digital Assistant (PDA). In a variant, not shown, of the fourth embodiment of the invention, the communication unit 8th an antenna for transmitting the indicator value and optionally further data to the read-out device 9 using RFID technology. Accordingly, the reader is 9 designed as an RFID-enabled device. The object 2 is preferably a transmission of a land vehicle, in particular a passenger car.

All technically possible combinations of articles, sensor units, measuring arrangements, communication units, power supply units and readout devices should be disclosed individually in the application documents and included in the scope of the present invention.

LIST OF REFERENCE NUMBERS

1

contraption

2

object

3

support unit

4

wave

5

sensor unit

6

Signal processing unit

7

storage unit

8th

communication unit

9

reader

10

Power supply unit

11

First power supply device

12

Second power supply device

13

sensor unit

14

Power management unit

Claims (15)

Contraption ( 1 ) for detecting preventive maintenance of items ( 2 ) comprising a carrier unit ( 3 ) and one in the carrier unit ( 3 ) rotatably mounted shaft ( 4 ) comprising a sensor unit ( 5 ) for measuring a physical quantity associated with a predictive maintenance indicator, a signal processing unit ( 6 ) for calculating an indicator value from a signal of the sensor unit ( 5 ), a storage unit ( 7 ) for storing the indicator value, a communication unit ( 8th ) for sending the indicator value to a readout device ( 9 ) and a power supply unit ( 10 ) for supplying the device ( 1 ) with electrical energy, characterized in that the energy supply unit ( 10 ) a first power supply device ( 11 ), which is different from a battery, and / or that the device ( 1 ) a power management unit ( 14 ), wherein the power management unit ( 14 ) for activating and deactivating the device ( 1 ) or one or more units of the device ( 1 ) is trained. Contraption ( 1 ) according to claim 1, characterized in that the first energy supply device ( 11 ) between the shaft ( 4 ) and the carrier unit ( 3 ) acting induction module for providing electrical energy from a rotational movement of the shaft ( 4 ) relative to the carrier unit ( 3 ) or an antenna for receiving electrical energy from the readout device ( 9 ) having. Contraption ( 1 ) according to claim 1 or 2, characterized in that the power supply unit ( 10 ) in addition to the first power supply device ( 11 ) a second power supply device ( 12 ) having. Contraption ( 1 ) according to claim 3, characterized in that the second energy supply device ( 12 ) between the shaft ( 4 ) and the carrier unit ( 3 ) acting induction module for providing electrical energy from a rotational movement of the shaft ( 4 ) relative to the carrier unit ( 3 ), an antenna for receiving electrical energy from the readout device ( 9 ), a capacitor, an accumulator or a battery. Contraption ( 1 ) according to one of the preceding claims, characterized in that the power management unit ( 14 ) Activity signals from the units of the device ( 1 ), comparing the activity signals with stored activity data and, depending on a result of the comparison, switching signals for activating and deactivating the device ( 1 ) or one or more units of the device ( 1 ) is formed generating. Contraption ( 1 ) according to one of the preceding claims, characterized in that the signal processing unit ( 6 ) comprises an analog-to-digital converter for converting the signal into a digital signal, a clock generator and a calculation module for calculating the indicator value from the digital signal. Contraption ( 1 ) according to one of the preceding claims, characterized in that the memory unit ( 7 ) has a first memory for storing object-related data and a second memory for storing the indicator value. Contraption ( 1 ) according to one of the preceding claims, characterized in that the communication unit ( 8th ) an antenna for sending the indicator value to the readout device ( 9 ) using Near Field Communication (NFC), Radio Frequency Identification (RFID) or Bluetooth technology. Contraption ( 1 ) according to one of the preceding claims, characterized in that the device ( 1 ) one or more sensor units ( 5 ) independently selected from the group consisting of: sensor unit for qualitatively detecting rotational movement of the shaft relative to the support unit; A sensor unit for quantitatively detecting a rotational movement of the shaft relative to the carrier unit; Sensor unit for detecting vibrations of the shaft; Sensor unit for detecting a temperature; Sensor unit for detecting a humidity; and sensor unit for detecting impurities in a lubricant of the shaft. Contraption ( 1 ) according to one of the preceding claims, characterized in that the sensor unit ( 5 ) has a measuring arrangement, the is selected from the group consisting of: magnet operatively connected to an induction loop; Permanent magnet in operative connection with an induction loop; Hall element; Thermocouple; Piezo element; Chain of electrical resistances; potentiometer; Sliding contacts; bimetallic strip; Induction coil; pH electrode; and light emitting diode operatively connected to a photodiode. Contraption ( 1 ) according to one of the preceding claims, characterized in that the device ( 1 ) with the exception of sensor units ( 5 ) and between the wave ( 4 ) and the carrier unit ( 3 ) acting induction modules has a volume of less than 3 cm ³ . Contraption ( 1 ) according to one of the preceding claims, characterized in that the object ( 2 ) is selected from the group consisting of: tool; Tool for a machine tool; milling tool; Cutting tool; Grinding tool; drilling; Transmission; Transmission of a land, air or water vehicle; Crankshaft arrangement of a land, air or water vehicle; Fans of a land, air or water vehicle; Suspension of a land vehicle; Turbine of a power plant; Generator of a power plant; and a computer fan. Tool that has a carrier unit ( 3 ) and one in the carrier unit ( 3 ) rotatably mounted shaft ( 4 ), characterized in that the tool is a device ( 1 ) for detecting preventive maintenance indicators according to any one of claims 1 to 11. System comprising a device ( 1 ) for the recording of indicators for preventive maintenance and a read-out device ( 9 ), characterized in that the device ( 1 ) is designed according to one of claims 1 to 12 and the read-out device ( 9 ) comprises an antenna for receiving the indicator value from the communication unit by means of Near Field Communication (NFC), Radio Frequency Identification (RFID) or Bluetooth technology. System according to claim 14, characterized in that the readout device ( 9 ) is an NFC-enabled mobile phone.

Images