DE102018114054A1 - Method for protecting a system component against theft, system component for a power generation plant and transmission device - Google Patents

Abstract

The invention relates to a method for protecting against theft of a plant component (3, 20) for a power generation plant (1). The method enables improved protection of the plant component from theft. For this purpose, at least one data record (48) with data in the plant component (FIG. 3, 20) (VS2) and a transmission device (34) which can be arranged separately from the installation component (VS1), and within a period of time data is sent as a signal to the installation component (3, 20) by the transmission device (34) at time intervals ( VS7), wherein the data sent within the time period at intervals are at least partially different, and the system component (3, 20) at intervals the at least one time receiving a verifiable by means of the record (48) signal since the last check (VS8b), and in the event of theft of the system component (3, 20) this on the basis of the review of the theft l detects and sends an alarm signal and / or the further operation of the system component (3, 20) preventing or limiting anti-theft device (28) turns on (VS10).

Description

The invention relates to a method for protecting a plant component for a power plant from theft.

The invention also relates to a plant component for a power generation plant with a theft protection and a transmitting device with a signal generator.

The power generation plant comprises at least one generator for generating electrical energy, for example photovoltaic modules and / or wind power generators. Such power plants are often unguarded and exposed to an increased risk of theft of individual plant components. Especially in large systems with close-to-ground arrangement of individual system components, this danger exists.

A generic system component is from the DE 20 2009 007 413 U1 known. There is disclosed an inverter for a solar system with an anti-theft device having a fixed mounting plate mounted to a building with a locking pin. The locking pin extends from the mounting plate into the interior of the housing of the inverter and is secured there by means of a U-lock against pulling out of the housing.

A disadvantage of this prior art is that it is to be avoided by tearing out the anchoring of the mounting plate from the building wall.

The invention has for its object to provide a method of the type mentioned above and suitable for carrying out the process plant component and transmitting device of the type mentioned, with which an improved protection against theft of the system component is made possible.

The object is achieved in a method of the type mentioned in that at least one data set is stored with data in the system component and in a locally separated from the system component stationable transmitting device, and within a period of time intervals from the transmitting device data as a signal for transmission sent to the plant component, wherein the data sent within the period of time intervals are at least partially different, and the plant component at intervals the at least one time receiving a verifiable by the record verifiable signal since the last review checks, and in case of theft of the plant component this based on the check detected the theft and sends an alarm signal and / or a further operation of the system component preventing or restricting anti-theft device turns on.

The system component to be protected against theft may be, for example, a solar module or an inverter of a solar system. The system component can be designed according to claims 12 to 14. The transmitting device may usefully be arranged locally separate from the power generation plant, in particular at a location where it is not exposed to the risk of the equipment component and the transmitting device jointly related theft. For example, the transmitting device may be a control room operated by the manufacturer of the plant component or a component of this control room that is communicatively connected to the power generation plant. The transmitting device may be designed according to claim 15.

The transmission of the data from the transmitting device to the system component can take place via a transmission channel / on a transmission type or in sections via different transmission channels / different transmission types. In particular, the last section of the transmission link at the location of the system component can be communicatively connected such that a removal of the system component from the ancestral location terminates or interrupts the communication connection to the transmission device at least at a distance. For example, the system component can be connected by radio to the transmitting device or other communication sections. The radio network has a local extent, so that removal of the system component from the radio network ends the communicative connection. The system component could also be tied to the transmission device or the further communication sections by line, so that a removal of the system component from the area of the system inevitably causes a capping of the system component with the line. The system component could also be connected to the transmitting device via the WLAN interface via the Internet. In this case, the theft would be detected due to an interruption of the communicative connection with the transmitting device. In a renewed connection of the system component to the Internet, the system component could send an alarm signal to the transmitting device and also transmit current GPS coordinates.

According to the invention, at least one data record is stored with data. The record is thus stored both in the plant component and in the transmitting device so that both have data on the same data set.

Within a period of time, data is sent at intervals by the transmitting device as a signal for transmission to the plant component, with the data sent within the time period at intervals being at least partially different. For example, the period may be one year or one month or the agreed duration of a service order. For example, the record may refer exactly to the period. He could also be suitable for carrying out the process for further periods. The record may be stored by one or more stores in the sending device and the plant component. For example, part of the record may be stored in the plant component during installation or installation (for example, data independent of the period, which may be specific to the plant component) and another part at a later date, for example, shortly before the beginning of the period. The time intervals may have a uniform or uneven duration and are selected such that in the time intervals in which the system component checks the at least one time receiving a verifiable by the record signal, the transmitting device has sent at least once a signal. For example, the time intervals and the time intervals can be selected the same. The duration of the time intervals and the time intervals of the check can be included, for example, for a coordination of the transmission process on the part of the transmitting device and the checking process on the part of the system component of the data record. The transmission of the signals to the system component can be done, for example, sections of the Internet and / or wired and / or wireline. The transmission of the signals could also be done completely via one of these transmission paths. The signals change at least once within the time period because the data used by the transmitting device for the time intervals for transmission to the plant component is at least partially different. In particular, substantially all of the signals transmitted by the transmitting device in the period may be different so that theft protection can not be circumvented by intercepting and reproducing the signal. By means of the data record, the system component verifies a received signal as a signal transmitted by the transmitting device, since it has the necessary information for generating a corresponding signal on the basis of the data set also stored there. In the context of this invention, the term "means" should be understood as "under the at least partial use of", so that at least some data of the data set are used for verification and not necessarily exclusively the data set has to be used for verification. If, due to the transmission channel, such as the Internet, further possibilities of sender identification are given, such as the IP address and / or sender certificates, the system component can verify the signal, for example by means of the record and additionally by means of the IP address.

If the system component does not receive such a signal within the check periods of the system component, this is interpreted by the system component as theft. The verification of the signal by means of the data record by the system component can be carried out, for example, such that the data record comprises a list of time interval data or this list is generated by means of the data record from the system component and the transmission device for the period. The time interval data according to this embodiment of the invention can be used in sequence or in arbitrary order by the transmitting device for signal generation and according to a continuation of the embodiment by means of data contained in the data set or additionally stored in the transmitting device, which may be specific to the plant component, additionally encrypted and sent in accordance with a transmission protocol from the transmitting device as a signal to the plant component. If the system component according to this exemplary embodiment receives the signal, the system component translates the signal into data by means of the transmission protocol, decrypts it according to the continuation of the exemplary embodiment by means of the data specific to the system component or by means of a counter stored in the system component to these data specific to the system component , and compares the result thus obtained with the time interval data to be expected according to the list. In accordance with the expected time interval data, the signal is verified and the check was successful.

According to the invention, when a theft is detected by the system component, ie if a signal verifiable by the data record fails since the last check, either an alarm signal is sent by the system component and / or the anti-theft device preventing or restricting further operation of the system component is switched on by the system component ,

The anti-theft device preventing further operation of the system component can, for example, quickly or gradually prevent further operation of the system component. In the case of an inverter, for example, the anti-theft device switched on can reduce a maximum output power by a constant value of, for example, 10% per day over an extended period of time. This has the advantage that the further operation of the inverter is prevented after some time and at the same time a blackout risk is reduced by large-scale shutdown in a nationwide failure of the communicative connection between transmitter / -en and a variety of system components.

The system component can send the alarm signal on a detection of a theft by the system component via a communication channel, which is also present in case of theft generally at the location of the system component, for example via a mobile network. By dialing the system component in the mobile network for discontinuation of the alarm signal, the system component is locatable due to the cell structure of the mobile network, which is useful for law enforcement. The system component can repeatedly send the alarm signal at intervals.

The anti-theft device according to the invention is much more difficult to circumvent than purely mechanical theft protection, since even if the signal were intercepted and imitated, this manipulation would be detected by the at least one change in the transmitted data over the period. In particular, the theft protection can be further improved if the order of the data / signals is fixed and / or, for example, in addition for each time interval, the data / signals to be sent are different. In addition, theft protection, as described, for example, in the embodiment given above, can be further increased by encrypting the data to be transmitted by means of special data, in particular by means of data specific to the system component.

Advantageous embodiments of the invention are set forth in the following description and the dependent claims, the features of which can be used individually and in any combination with each other.

It can be advantageously provided that a number of time interval data is generated by means of the data record or is included in the data record, in particular in the form of a list comprising the time interval data, or if the time interval data is partially or all different and are used in arbitrary order or according to a predetermined order by the transmitting device for the time intervals and the data to be sent at time intervals.

In the case of generation of the time interval data from the data set, this generation can take place both in the system component and in the transmission device. The advantageous embodiment of the invention is particularly suitable for the data / signals to be transmitted in time intervals, which often change within the time period, in particular with each time interval. This increases the security of the theft protection. In particular, the security can be further increased by assigning the time interval data to the individual time intervals so that the order in which the time interval data is sent from the transmitting device is fixed. That the time interval data is sent by the transmitting device is to be understood as meaning that the time interval data is sent directly or encrypted by the transmitting device as a signal for transmission to the plant component.

It can also be considered advantageous that the time interval data for the plant component is nonspecific and first data specific to the plant component is stored in the transmitting device or from which the data record is included.

By means of data specific to the plant component, it is possible, for example, to generate an alarm signal from the plant component which allows conclusions to be drawn about the plant components affected by the theft. The first data specific to the plant component can be stored, for example, in the context of the installation of the plant component in the transmitting device.

Advantageously, it can further be provided that the signals sent by the transmitting device within the time period for transmission to the system component are based both on time interval data, in particular on the list of time intervals respectively associated time interval data, as well as on the first for the system component specific data.

This allows the transmission of signals that are specific to the individual plant component. This increases the theft protection.

Furthermore, it can advantageously be provided that the signals are generated by means of the time interval data and by means of the first data specific to the system component, in particular by means of the first for the system component specific data encrypted time interval data are generated.

The term "means" is to be understood in the context of this invention as "at least partial use of". By encryption, the theft protection can be further increased. By means of the first data which is specific to the system component and stored in the transmitting device, it is possible in particular to encrypt the time interval data. For example, the first data specific to the plant component may be a public key of the plant component according to the PGP encryption method (Pretty Good Privacy Encryption). However, the first data specific to the plant component could also be included in the data set and used for symmetric encryption of the time interval data.

A further advantageous embodiment of the invention can provide that the system component for verifying the signals verifies, in particular decrypts, the signals by means of the time interval data, in particular by means of the list, wherein the specific data is first or second data specific to the system component are.

According to this embodiment of the invention, the decryption of the signal from the plant component is performed so that an unencrypted transmission within the power plant is avoided. This increases the theft protection. The second data specific to the plant component may be, for example, the private key of the plant component according to the PGP encryption process.

According to an advantageous embodiment of the invention, the signals can be transmitted at least in sections via the Internet and / or wired and / or wirungsebunden.

For example, the transmitting device and the plant component may both have a LAN or WLAN interface to the Internet so that the signals are transmitted over the Internet. However, the power generation plant can also comprise a unit with such an interface, which is set up and configured to receive the signals transmitted by the transmitting device, and forwards them via a line system encompassed by the power generation plant or by radio to the plant component. The transmitting device could also be arranged within the power generation plant, in particular in an inaccessible place, and transmit the signals by radio to the plant component.

It may also be considered advantageous that switching on the anti-theft device comprises transferring the system component into a state that is unsuitable for normal operation, wherein the transfer is to be reversed, in particular, by means of an activation code.

This embodiment of the invention prevents further use of the plant component by the thief. It can also be used to enable the manufacturer, in the case of an expiring leasing contract, to transfer the system component to a condition that is unsuitable for normal operation by not sending the signals. In the case where the plant component is a solar module, the state which is unsuitable for normal operation can be, for example, a state of the solar module with an internal short circuit of the two terminals of the solar module. In the event that the plant component is an inverter, for example, the state unsuitable for normal operation can be a state of the inverter by a control of the power semiconductor switch of the inverter bridge is prevented or by additionally or alternatively control parameters in the control software of the inverter are adjusted such that Meaningful operation is no longer possible - for example, by the maximum AC power can be reduced to 0 watts. As a further embodiment of a state of an inverter which is unsuitable for normal operation, switches are indicated in the supply lines connected to the inputs / outputs of the inverter inside the inverter on the DC and / or the AC side, which are opened when the anti-theft device is switched on and thereby interrupt the supply lines.

So that the system component can be transferred from an authorized person back to a suitable state for normal operation, for example, after a retrieval of the analgesic component by the owner or a continuation of the lease, the activated anti-theft device can be turned off again. To prevent this, the thief is not possible, the elimination of theft protection for third parties should not be readily possible. For example, the elimination of the theft can be possible by resuming the transmission of the signals by the transmitting device or alternatively according to the aforementioned development of the embodiment of the invention, in particular by means of an activation code. In particular, the activation code can only be known to the manufacturer. If the transmitter is included from a manufacturer's stand, the activation code may over the same transmission path as the signals are sent to the plant component. The activation code can additionally be encrypted by means of the first data specific to the installation component. The activation code could also be transmitted by a service employee of the manufacturer directly on site of the system component. For example, by manually entering the unencrypted or encrypted activation code on a control panel of the system component.

According to an advantageous embodiment of the invention can be provided that the anti-theft device is turned on alternatively by means of a deactivation signal of the transmitting device.

This has the advantage that the operator of the transmitting device can promptly and actively transfer the system component into a state that is unsuitable for normal operation of the system component. Upon receipt of the deactivation signal by the system component, this activates the anti-theft device. In the context of this invention, an activation of the anti-theft device can also be designated as an activation of the anti-theft device and a shutdown of the anti-theft device can also be designated as a deactivation of the anti-theft device.

It can also be considered advantageous for an activated code to be transmitted to and verified by the system component for switching off the activated anti-theft device, wherein the activation code can be verified by the system component by means of data stored in the system component, and in particular can also be decrypted , in particular by means of the data record, in particular by means of the time interval data, in particular by means of the list, and / or by means of data specific to the plant component and / or by means of data stored in the plant component.

This embodiment of the invention has already been mentioned above as a development of another embodiment of the invention. The elimination of theft protection by means of an activation code is not easily possible for a thief. If the system component is again communicatively connected to the transmitting device, the activation code can be transmitted, for example, in the same way as the signals to the system component, so that the system component can be put back into a suitable state for normal operation by means of the transmitting device.

It can also be regarded as advantageous that a suppression signal is transmitted to the plant component for the suppression of the theft and is verified by the plant component, wherein the suppression signal is verifiable by means of stored in the plant component of this data, in particular decryptable, wherein the plant component upon receipt of the suppression signal, this verifies and suppressed switching on the anti-theft device and / or the discontinuation of the alarm signal.

This embodiment of the invention is suitable for example for suppressing the theft protection for the duration of installation of the system component. The embodiment of the invention is also suitable for a plant component of a power generation plant, which is designed and set up for use in the method, but is installed in a location with poor communication connectivity. In this case, the anti-theft protection of the system component can also be switched off in the long term by means of the suppression signal. The suppression signal may correspond to an unencrypted suppression code stored in the plant component such that upon receipt of the suppression signal, the plant component verifies the suppression signal by simply matching the suppression signal to the stored suppression code. To turn the theft protection back on, for example, the above-mentioned activation code can be used.

Another object of the invention is to provide a plant component of a power generation plant with a theft protection, with which an improved protection against theft of the plant component is made possible.

To solve the object according to the invention, the theft protection comprises at least one receiving unit and a component control device with a component data memory, as well as an anti-theft device and / or a transmitting device for issuing an alarm signal, wherein the system component is designed and set up in the method according to one of Claims 1 to 11 to be used as an installation component.

With regard to the embodiments, advantages, definitions of terms, embodiments and modes of operation of the system component according to the invention according to one of claims 12 to 14 is also on the above statements to the method claims 1 to 11 referenced, which are applicable in an analogous manner to the system component and its advantageous embodiments. The theft protection and its components may be wholly or partly integrated into components of the system component whose main task is not theft protection.

According to an advantageous embodiment of the plant component according to the invention, the plant component may be an inverter.

Since an inverter is a particularly expensive component of a power plant, improved protection against theft is particularly advantageous.

According to a further advantageous embodiment of the system component according to the invention, the anti-theft device may comprise at least one switch which is in a switched position when the anti-theft device is switched on, wherein in this switching position the system component is set in a condition which is unsuitable for normal operation.

This embodiment of the system component according to the invention allows by simply switching the at least one switch of the anti-theft device on or off the anti-theft device. The control of the switch can be done by the component control device of the system component.

Another object of the invention is to provide a transmitting device with a signal generator, with which an improved protection against theft of the system component is made possible.

In order to achieve the object according to the invention, the signal generator comprises a controller with a data memory, wherein the transmitter device is designed and set up to be usable as a transmitter in the method according to one of claims 1 to 11.

With respect to the embodiments, advantages, definitions of terms, embodiments and modes of operation of the transmitting device according to the invention according to claim 15, reference is also made to the above statements to the method claims 1 to 11, which are applicable to the transmitting device in an analogous manner.

The transmitting device may for example comprise a computer which has an interface to the Internet and is arranged in a manufacturer operated maintenance center of the power generation plant or a control center of the operator of the power generation plant. In the embodiment, a computer program product is installed on the computer, which is designed and configured to use the transmitting device in the method according to one of claims 1 to 11.

Further expedient refinements and advantages of the invention are the subject matter of the description of embodiments of the invention with reference to the figure of the drawing, wherein like reference numerals refer to the same acting components.

• 1 schematisch eine Energieerzeugungsanlage nach dem Stand der Technik,
• 2 schematisch einen Wechselrichter gemäß einem ersten Ausführungsbeispiel der Erfindung in einem Längsschnitt,
• 3 schematisch eine Sendevorrichtung gemäß einem zweiten Ausführungsbeispiel der Erfindung in einem Längsschnitt,
• 4 schematisch eine graphische Darstellung eines Datensatzes, der bei einem Verfahren gemäß einem dritten Ausführungsbeispiel der Erfindung in einer Sendevorrichtung und einer Anlagenkomponente gespeichert wird, und
• 5 und 6 ein Ablaufdiagramm eines Verfahrens gemäß einem vierten Ausführungsbeispiel der Erfindung.

It shows the

• 1 schematically a power generation plant according to the prior art,
• 2 1 schematically shows an inverter according to a first exemplary embodiment of the invention in a longitudinal section,
• 3 1 schematically shows a transmission device according to a second exemplary embodiment of the invention in a longitudinal section,
• 4 schematically a graphical representation of a data set, which is stored in a method according to a third embodiment of the invention in a transmitting device and a plant component, and
• 5 and 6 a flowchart of a method according to a fourth embodiment of the invention.

The 1 shows a power plant 1 According to the state of the art. The power generation plant includes an inverter 2 , which is a plant component 3 the power generation plant 1 is. As further plant components of the power generation plant are in the 1 solar generators 5 and a transformer 6 shown. The solar generators 5 are connected in series and form a string whose positive pole 7 with a DC side entrance 8th of the inverter 2 and its negative pole 9 with a DC side entrance 10 of the inverter 2 electrically connected. The inverter 2 is a three-phase inverter, the AC side by means of the three phase lines 13 . 14 . 15 to a transformer 6 connected. The transformer 6 is the output side to an electrical network 18 connected, the three-phase connection 19 between the transformer and the grid 18 here simply shown as a simple line.

The string of solar generators 5 delivers a DC voltage between the inputs 8th and 10 of the inverter 2 is applied and is converted by this into a three-phase AC voltage. To those of the solar generators 5 generated electrical power in the network 18 feed, which is at the output of the inverter 2 Provided three-phase AC voltage to adapt to the voltage level of the network 18 by means of the transformer 6 transformed to a suitable voltage level.

The illustrated power generation plant 1 includes plant components such as the inverter 2 and the solar generators 5 on, which are exposed to the risk of theft due to their weight and their ground-level arrangement.

The 2 shows a plant component 20 for a power plant in the form of an inverter 21 according to a first embodiment of the invention. The inverter 21 includes a theft protection 22 with a receiving unit 23a , a component control device 24 with a component data store 25 , which according to the illustrated embodiment of a control device 26 of the inverter 21 is included. The theft protection 22 also includes an anti-theft device 28 that according to the illustrated embodiment of the invention, a plurality of switches 30 in the figure, only one of the switches is exemplified 30 is shown. The switches 30 are from the component controller 24 via at least one control line 27 can be controlled and are in the range of the DC-side and the AC-side connections of the inverter 21 inside the inverter 21 arranged and are in the on state of theft protection 28 in a switching position in which the switches 30 the supply lines of the inverter connected to the DC side and AC side terminals 21 interrupt, allowing normal operation of the inverter 21 not possible. The theft protection 22 additionally has a transmitting device 23b on, in common with the receiving unit 23a from a communication unit 23 of the inverter 21 is included. The communication unit 23 is in the illustrated embodiment, on the one hand via a radio link 32 communicatively to a transmitting device 34 connected, which may be located in a standby of the power generation plant, and on the other hand via at least one data-bus connection 35 to the controller 26 connected. The transmitting device 23b In addition, it has an interface to a mobile radio network, so that in the case of a theft, the system component via this transmission device 23b an alarm signal via the mobile network to the transmitting device 34 can settle.

By means of the inverter 21 and the transmitting device 34 the method according to at least one of claims 1 to 11 can be carried out, wherein a transmitting device 34 according to a second embodiment of the invention in detail in 3 is shown. The radio signals between the transmitting device 34 and the receiving unit 23a be from the receiving unit 23a according to the transmission protocol of the radio connection 32 interpreted and in signals according to the transmission protocol of the data-bus connection 35 converted. These are provided by the component controller 24 by means of the component data memory 25 stored record verified, wherein at intervals, the at least one time receiving a verifiable signal since the last check by the component controller 24 is checked, and in the case of the theft of the system component, these are detected by the check theft and an alarm signal via the data-bus connection 35 to the transmitting device 23b which transmits the alarm signal according to the transmission protocol of a mobile radio connection in mobile radio signals for transmission to the transmitting device 34 translated. The transmitted via the mobile network alarm signal comprises according to the transmission protocol of the mobile network both an identifier of the sender and an identifier of the receiver, so that the alarm signal can be assigned to a specific system component. Also, the current location of the system component can be located by means of the repeated discontinuation of an alarm signal via the mobile network. The transmitting device 23b and the receiving unit 23a may be wholly or partially formed together. Unless the component control device 24 has detected a theft, this controls via the at least one control line 27 the switches 30 which change to a switching position due to the control signal, which due to the interrupted supply lines normal operation of the inverter 21 prevention.

The 3 shows a transmitting device 34 of the 2 according to a second embodiment of the invention in detail. The sending device 34 includes a signal generator 36 that a control 38 with a data store 40 having. The control 38 is via a bus connection 42 with a communication box 44 connected, which a transmitting means 45 and a receiving means 46 includes. The transmission means 45 and the receiving means 46 may be wholly or partially formed together. The from the controller 38 according to the transmission protocol of the bus connection 42 Signals generated are via the bus connection 42 to the communication box 44 directed and by means of the transmitting means 45 in radio signals according to the radio connection 32 translated. The receiving means 46 is designed and set up via the radio link 32 transmitted radio signals to the transmitting device 34 to receive and in signals according to the transmission protocol of the bus connection 42 to translate which the communication box 44 over the bus connection 42 to the controller 38 passes. In addition, the receiving means has an interface to a mobile network to receive in case of theft alarms of a stolen equipment component. The sending device 34 is configured and adapted to be used in the method according to at least one of claims 1 to 11.

The 4 shows a graph in a record 48 which in a method according to a third embodiment of the invention is stored in a transmitting device and a plant component. The record 48 includes first data specific to the plant component 50 and a list 49 which data is to the period, the duration of a time interval and assignments between time interval data 51 and time intervals.

The 5 and 6 show a flowchart of a method according to a fourth embodiment of the invention. The method may, for example, by means of in 3 illustrated transmitting device 34 and by means of in 2 shown system component 20 be performed.

In a secondary process step NVS 1 It is decided whether the theft protection should be suppressed.

This decision may, for example, be affirmed in the affirmative by the operator of the transmitting device due to a poor radio link between the transmitting device and the power generating system and selected as an item on an input device of the transmitting device. In this case, in a sub-step NVS 2 transmitted from the transmitting device, a suppression signal to the system component. In a subsequent sub-process step NVS 3 the suppression signal is received by the plant component and verified by data stored in the component data memory by the component controller. In a subsequent sub-process step NVS 4 is suppressed by the component control device turning on the anti-theft device and settling the alarm signal. Then the plant component checks in a loop by sub-step NVS 5 whether a cancellation code was received from the attachment component. This can for example be entered directly at an input device of the system component by an operator or sent by the transmitting device to the system component. Once the plant component receives such a cancellation code, the component controller raises NVS in a sub-process step 6 the suppression of an activation of the anti-theft device and the setting off of an alarm signal. At this stage, the operator of the transmitting device can select on an input device of the transmitting device a menu item that denies the suppression of theft protection. The method is with the sub-step NVS 7 continuing at which a time period and time intervals are determined which divide the period, wherein for the period a record is generated comprising a list of time interval data, the list associating each time interval with corresponding time interval data. The data record is stored in the data memory of the controller of the transmitting device in a method step VS1 , The record is in one step VS2 stored in the component data memory of the component control device of the plant component of a power generation plant, wherein the time sequence of process step VS1 and process step VS2 Alternatively, it can be done in parallel or in reverse order. In one process step VS3 The component controller of the plant component generates a personal and a public data key according to the known PGP encryption method. In one process step VS4 The system component sends the public key to the transmitting device according to a transmission protocol of the radio link with an identifier of the sender and the recipient. In one process step VS5 the transmitting device receives the public key of the system component and saves it as the first data specific to the system component in the data memory of the controller of the transmitting device. In the illustrated embodiment, therefore, the first data specific to the system component is not included in the data record, but is additionally stored in the data memory of the transmission device. Point 47 of the flowchart identifies the transfer point between the representation in 5 and 6 , For the first time interval x = 1, method step VS 6 and VS 7 and then in VS 13 always checks if the period is already over. If this is not the case, the next time interval is passed and VS 6 and VS7 with this time interval until the last time interval of the period has been completed. In VS 6 the transmission device generates a radio signal for transmission of time to the system component at time interval x and sends the signal to the system component in the time interval x, the signal being assigned both to time interval data which according to the list is assigned to the time interval x and to the first one the system component is based on specific data, whereby the controller encrypts the time interval data by means of the first data specific to the system component, and the transmission device uses the encrypted data to generate a signal to be sent to the system component at a time interval. In process step VS 7 the signal is transmitted via a radio link to the system component and received by this. The system component checks in method step VS 8a whether the anti-theft device is currently switched off. If so, verifies the plant component in VS 8b the signal by the component controller of the system component by means of the signal decrypts the second asset specific data (the personal key), and compares the transmitted time interval data with the time interval data stored in the list for the time interval. In order to utilize the signal for this method step, the signal may be preceded by an identifier which identifies the signal as a signal determined by the transmitting device for the system component and for comparison with the list. Was in process step VS 9 is successfully verified at least once during the review period by the system component transmitted by the transmitting device signal is in step VS 12 checks whether a deactivation signal was received from the system component during the inspection period. If this is not the case, method step VS8a to VS12 at each incoming signal of the transmitting device, which was transmitted to the anti-theft protection to the system component, re-processed. If there is a negative in method step VS 9 switches the plant component in process step VS 10 the anti-theft device. This leads to a loop through the process step VS 11 in which the system component checks whether an activation code has been received. If this is the case, the component control device switches to method step VS 14 the theft protection. The component control moves to method step VS 8a continue with the current time interval at this time.

LIST OF REFERENCE NUMBERS

1

Power generation plant

2

inverter

3

plant component

5

solar generator

6

transformer

7

positive pole

8th

entrance

9

minuspol

10

entrance

13, 14, 15

phase line

18

network

19

connection

20

plant component

21

inverter

22

theft protection

23a

receiver unit

23b

transmitting device

23

communication unit

24

Components controller

25

Component data storage

26

control device

27

control line

28

antitheft

30

counter

32

radio link

34

transmitting device

35

Data bus connection

36

signal generator

38

control

40

data storage

42

Bus connection

44

Communication Box

45

transmitting means

46

receiving means

48

record

49

list

50

First data specific to the plant component

51

Time interval data

NVS1, NVS2, NVS3, NVS4, NVS5, NVS6, NVS7

Next-step

VS1, VS2, VS3, VS4, VS5, VS5, VS6, VS7, VS8, VS9, VS10, VS11, VS12, VS13, VS14

step

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202009007413 U1 [0004]

Claims (15)

Method for protecting a system component (3, 20) for a power generation plant (1) against theft, wherein at least one data record (48) with data in the system component (3, 20) (VS2) and in a transmitting device that can be arranged separately from the system component ( 34) (VS1), and within a period at time intervals from the transmitting device (34) data is sent as a signal to the plant component (3, 20) (VS7), wherein the data sent within the time period at intervals are at least partially different , and the system component (3, 20) periodically checks (VS8b) at least once receiving a signal verifiable by means of the data set (48) and, in the event of the theft of the system component (3, 20), verifying it detects the theft and sends an alarm signal and / or the further operation of the system component (3, 20) preventing od he turns on restrictive anti-theft device (28) (VS10). Method according to Claim 1 in which a number of time interval data (51) is generated by means of the data record (48) or is included in the data record (48), in particular in the form of a list (49) comprising the time interval data (51), wherein the time interval Data (51) are partly or all different and are used in arbitrary order or according to a predetermined order by the transmitting device for the time intervals and the data to be transmitted at time intervals (VS6). Method according to Claim 2 wherein the time interval data (51) for the plant component (3, 20) is nonspecific and first plant specific data (50) is stored in the transmitting device (34) (VS5) or included in the data set (48). Method according to Claim 3 in which the signals sent within the time period by the transmitting device (34) for transmission to the system component (3, 20) are based both on time interval data (51), in particular on the time interval respectively assigned to the time intervals from the list (49). Data (51), as well as on first data specific to the system component (50) (VS6). Method according to Claim 4 in which the signals are generated by means of the time interval data (51) and by means of the first data (50) specific to the plant component, in particular by the signals being encrypted by means of the time interval data (51) encrypted by means of the first plant specific data (50) ) (VS6). Method according to Claim 5 wherein the system component (3, 20) for verifying the signals by means of the time interval data (51), in particular by means of the list (49), and verifies by means of specific data, in particular decrypted, wherein the specific data first or second for the plant component specific data are (VS8b). Method according to at least one of Claims 1 to 6 , Wherein the signals are transmitted at least in sections via the Internet and / or wired and / or line unbound to the plant component (3, 20) (VS7). Method according to at least one of Claims 1 to 7 wherein switching on the anti-theft device (28) comprises transferring the system component (3, 20) into a state which is unsuitable for normal operation, the transfer being reversible, in particular by means of an activation code (VS10, VS11, VS14). Method according to Claim 8 wherein the anti-theft device (28) is switched on alternatively by means of a deactivation signal of the transmitting device (34) (VS12). Method according to at least one of Claims 1 to 9 in which an activation code is transmitted to and verified by the system component (3, 20) for switching off the activated anti-theft device (28), the activation code being input from the system component (3, 20) by means of the system component (3, 20). 20) of stored data is verifiable, in particular also decryptable, in particular by means of the data set (48), in particular by means of the time interval data (51), in particular by means of the list (49), and / or for the plant component specific data (50) and / or by means of data stored in the system component (3, 20) (VS11). Method according to at least one of Claims 1 to 10 in which a suppression signal is transmitted to the plant component (NVS2) and verified by the anti-theft device (28), the suppression signal being verifiable, in particular decryptable, by data stored in the plant component (3, 20), wherein the plant component (3, 20) on receipt of the suppression signal this verified (NVS3) and the turning on the anti-theft device (28) and / or the cancellation of the alarm signal is suppressed (NVS4). Plant component (3, 20) of a power generation plant (1) with a theft protection (22), wherein the theft protection (22) at least one receiving unit (23a) and a component control device (24) with a component Data memory (25), as well as an anti-theft device (28) and / or a transmitting device (23b) for issuing an alarm signal, wherein the system component (3, 20) is designed and set up in the method according to at least one of Claims 1 to 11 to be usable as an installation component. Plant component (3, 20) after Claim 12 , wherein the plant component (3, 20) is an inverter (21). Plant component (3, 20) after at least one of Claims 12 or 13 wherein the anti-theft device (28) comprises at least one switch (30) which is in a switched position in the switched-on state of the anti-theft device (28), wherein in this switching position the system component (3, 20) is placed in a condition unsuitable for normal operation , Transmission device (34) having at least one signal generator (36), which comprises a controller (38) with a data memory (40), wherein the transmission device (34) is designed and set up in the method according to at least one of Claims 1 to 11 be used as a transmitting device (34).

Images