DK177687B1 - Wireless identification of a wind turbine - Google Patents

Abstract

A system for connecting a handheld device to a predetermined location in a data communication network of a wind turbine, the system comprising: an printed identification unit, comprising information for identification of said predetermined location in said data communication network, said handheld device comprising a data processor and an identification unit scanner, wherein said handheld device is configured for scanning said identification unit by means of said identification unit scanner to retrieve said information from said dentification unit, and wherein said handheld device is further configured to process said information by means of said data processor, and wherein the result of said data processing is information enabling the handheld device to identify and directly access said predetermined location in said data communication network.

Description

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Wireless identification of a wind turbine Background of the invention A technician at the site of a wind turbine face a complex energy producing facility 5 and even for the most experienced technician it may be difficult to be up to date with information of version, maintenance records, etc. for all wind turbine components and network configurations.

European patent application with publication number EP2177753 describes a 10 wireless information system for wind turbine components. Attached to a wind turbine component is a radio-frequency identification (RFID) tag comprising component data such as commissioning and maintenance information which is accessible upon scanning the RFID tag by a handheld device. Hence EP2177753 solves the problem a technician may face when servicing a component and need of 15 information of that specific component.

US patent application US 2012/0243518 discloses a communication system and method. The communication system includes a data communication network connecting wind turbines and wireless access points. The communication method 20 includes wirelessly communication between a mobile communication device and the wireless access point. The design of the network is state of the art in that the mobile device can access the network via the wireless access point. The access point communicates with the mobile device via electromagnetic waves, the mobile device is defined as e.g. telephone, laptop, etc.

25 US patent application US 2004/0087273 discloses a system and a method for locating available information via mobile terminals using radio frequency identification (RFID) technology. RFID tags stores information which when activated by signals from the mobile terminal transmits information to the mobile 30 terminal reader. The information received by the mobile terminal from the RFID tag 2 DK 177687 B1 could e.g. by predetermined gateway address be used to connect to or receive information from a server.

Hence the above US patent applications solve problems in relation to use of data 5 networks of wind turbines and access to data network using RFID tags.

Brief description of the invention

It is an object of the present invention to provide a system for easy identification of 10 a wind turbine in particular a data communication network of the wind turbine.

The invention related to a system for connecting a handheld device to a predetermined location in a data communication network of a wind turbine, the system comprising: a printed identification unit, comprising information for 15 identification of said predetermined location in said data communication network, said handheld device comprising a data processor and an identification unit scanner, wherein said handheld device is configured for scanning said identification unit by means of said identification unit scanner to retrieve said information from said identification unit, and wherein said handheld device is further configured to 20 process said information by means of said data processor, and wherein the result of said data processing is information enabling the handheld device to identify and directly access said predetermined location in said data communication network.

It should be noted that a reference made to an "identification unit" is in the 25 following similar as a reference made to an "automatically identification unit".

A handheld device should be understood as a tablet, laptop, smartphone and the like suitable for use when performing service or on site control of a wind turbine.

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Often there is more than one data communication network in a wind turbine. A data communication network should be understood as either a wired or wireless data communication network. Such data communication network could be one or more internal data communication networks which may be used by the wind 5 turbine controller to control the operation of the wind turbine. Further a data communication network could be an external data communication network connecting the wind turbine to the internet enabling an operator to access to the wind turbine. An external data communication network may also be the network of a wind power park comprising a plurality of wind turbines used in controlling the 10 individual wind turbines of a wind power park from a park controller according to a park control strategy. Hence access to the internet from the wind turbine may be obtained through an external data communication network of the data communication network.

15 An automatic identification unit should be understood as a unit comprising information which when scanned is transferred to the scanning device which in this document is referred to a handheld device. Technologies suitable can be but are not limited to bar codes, Quick Response codes (QR), Radio Frequency Identification (RFID), magnetic strips and smart cards. Hence a technology matching the amount 20 of information needed should be chosen.

Relevant information may be all kind of information which a person on site could be in need of. The relevant information may depend on the type of data communication network to be accessed and could be a Service Set Identification 25 (SSID) of a wireless network, IP address, Uniform Resource Locator (URL) e.g. to external recourse, name of the wind turbine, last software update, last service visit, etc.

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An automatic identification unit scanner should be understood as a piece of hardware (build in or plug and play) which is able to scan the automatic identification unit i.e. these should be chosen to match each other. Therefore if the automatic identification unit is a QR code, then the automatic identification scanner 5 could be a camera.

An access point should be understood as a location in the data communication network of a wind turbine through which access to one or more predefined data communications networks behind the access point can be obtained. An access point 10 could be understood as a login page e.g. at a switch through which it is possible to access the data communication network connected to the switch or simply a point of connection to the data communication network.

If the wind turbine comprising more than one data communication network it might 15 be advantageous to have an automatic identification unit for each of the networks in order to facilitate easy login to the desired network.

Connecting a handheld device to a data communication network by means of an automatic identification unit is very advantageous in that manually introduced 20 errors are eliminated. An example of when such manual error could be introduced is when a person on site such as a service person via the display of the handheld device is to access the control system of a wind turbine in a wind power park. If the service person e.g. enters the wrong network address or wind turbine name by mistake there is a risk of connecting his handheld device to another wind turbine in 25 the park than the one in which he is present.

Another advantage by the present invention is that the service person does not need to remember such network address since it is given to him by simply by scanning the automatic identification unit.

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Another advantage by the present invention is that the automatic identification unit is guiding to data or access point at a predetermined location. The access point or data may at any time by updated without updating the automatic identification 5 unit. This is advantageous in that the automatic identification unit is always pointing towards to most updated information available even after several years.

According to an embodiment for the invention said predetermined data communication network is an internal data communication network of said wind 10 turbine and wherein said automatic identification unit further provide information enabling direct access to a predefined controller of said wind turbine from said handheld device.

A controller could be the main wind turbine controller, converter controller, pitch 15 controller, etc. Access to a controller could be a browser or application displaying a login window on the handheld device through which a person onsite with valid username and password may login or access the controller in order to manually control the wind turbine, change parameters, update software, etc. Hence by scanning the automatic identification unit access to any accessible controller may 20 be facilitated.

If the wind turbine comprising more than one controller it might be advantageous to have an automatic identification unit for each of the controllers which is relevant to access from a handheld device in order to ease login.

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According to an embodiment for the invention said predetermined data communication network is an internal data communication network of said wind turbine and wherein said automatic identification unit further provide information 6 DK 177687 B1 enabling direct access to a predefined data source of said wind turbine from said handheld device.

The predefined data source may be a data storage comprising operational data 5 logged by the wind turbine for a period of time back in time. Unless the automatic identification unit comprise login information the user of the handheld is guided to a login page of the data source.

The predefined data source may alternatively be a web server comprising the data.

10

According to an embodiment for the invention said predetermined data communication network is an external communication network out of said wind turbine and wherein said automatic identification unit further provide information enabling direct access to a predefined data source located external to said wind 15 turbine from said handheld device.

A predefined data source located external to said wind turbine may be a server located at the owner or operator of the wind turbine. Such server may comprise information of the performance of the wind turbine, control strategies and 20 additional information such as manuals, instructions, maintenance planes, data sheets, parts list, etc.

Sometimes before a person is going onsite e.g. to perform service on a wind turbine the person does not know which information could be relevant to the service which 25 is to be performed or other unexpected things are happening. In such cases a person onsite only need to scan an automatic identification unit to be guided to the server or even directly to the relevant information as described below.

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Hence access may be facilitated to all kind of information accessible on a corporate network which is very advantageous for service personal servicing the wind turbine onsite needing information.

5 According to an embodiment for the invention said automatic identification unit further provide login information enabling automatic login to said predefined controller or said predefined data source or said predefined external data source from said handheld device.

10 Login information may be username and password which enables the user of the handheld device to access network and controllers according to the rights assigned to the login information of the automatic identification unit. Preferably the login information of an automatic identification units located at the wind turbine provides a guest login to the user. Guest rights may be enable the user to access the 15 internet via an external data communication network, monitor operation or error log of the wind turbine, etc.

Such default access rights are advantageous in that service person onsite missing login information is able to contact e.g. a service center via the external data 20 communication network and obtain necessary information to carry out the service.

According to an embodiment for the invention said automatic identification unit is located at said wind turbine.

25 The location of said automatic identification unit could either be inside or outside the tower or nacelle of the wind turbine. In case the automatic identification unit is of a type or located outside the tower or nacelle of an offshore wind turbine the data communication network of the wind turbine may be accessible from a boat or helicopter.

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According to an embodiment for the invention said automatic identification unit further provides access from said handheld device to information relevant to the location of said automatic identification unit wherein the location of said automatic 5 identification unit preferably is at a wind turbine component, a panel, entrance to tower, nacelle and / or hub.

The location may be inside / outside the wind turbine, close to the entrance to the tower, nacelle, hub or blade, at wind turbine components such as a panel, gear, 10 generator, converter, etc. Of cause it is possible to place as many automatic identification units as necessary in or at the wind turbine.

Information of the location of the automatic identification unit could be data sheet, service checklist, logout checklist, guidance e.g. multimedia service guide, manuals, 15 instructions, parts list and other relevant information related to the wind turbine.

By scanning an automatic information unit the user of the handheld device is guided to a data source on the (internal or external) data communication network providing the relevant information.

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In case the location is a wind turbine component the information provided by or which the automatic identification unit guides to could be a video instruction on how the detach / assemble, guide to perform service, component information, etc.

Such information is preferable located on a data source accessible from the 25 (internal or external) data communication network. This is because the size of such information is typically too large to be embedded in the automatic identification unit itself.

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In case the location is at the entrance / exit to the tower the information provided by or which the automatic identification unit guides to could be a checklist which the person leaving the wind turbine should remember before leaving. Such checklist could include change mode of wind turbine controller, remember tool, close panels, 5 lock door, etc.

According to an embodiment for the invention said automatic identification unit is located on a card.

10 A card should be understood as a guest card, a (printed) service instruction, personal identification card, handout, etc.

In case the automatic identification unit is located on a guest card the information obtained from the automatic identification unit may enable the cardholder to 15 access a guest network, monitor at least part of the operation / operational data of the wind turbine, code to door in tower, etc.

In case the automatic identification unit is located on a printed service instruction the information obtained from the automatic identification unit may enable the 20 cardholder access to the network, controllers and information necessary to perform the service.

It is advantageous to be able to assign personal login information complying with the seniority of a person.

25

According to an embodiment for the invention said predetermined data communication network is an external communication network out of said wind turbine and wherein said automatic identification unit further provide information enabling access to the internet from said handheld device.

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It is advantageous to be able to access the internet from a wind turbine without any addresses, codes, etc. simply by scanning an automatic identification unit.

5 Moreover the invention relates to a wind turbine comprising a system for connecting a handheld device to a predetermined data communication network of said wind turbine according to any of the claims 1-9.

Moreover the invention relates to a method for accessing a predetermined 10 controller of a wind turbine by means of a handheld device, the method comprising the steps of: creating an automatic identification unit comprising information of at least a network address of said predetermined controller, printing said identification unit, bringing said automatic identification unit to said wind turbine, preferably attach said automatic identification unit nearby or at said predetermined 15 controller, by means of an automatic identification unit scanner comprised by said handheld device scanning said automatic identification unit for retrieving said information, by means of a data processor of said handheld device process said information scanned from said automatic identification unit, and based on said processing of said scanned information open a user interface in a display of said 20 handheld device providing access to said predetermined controller of said wind turbine.

An example of a user interface could be of a server or of a wind turbine controller.

The automatic identification unit may open on the display of the handheld device 25 the front page of the controller from where it is possible to get information of e.g. actual performance, wind speed and direction, etc. If the automatic identification unit further comprise login information scanning the automatic identification unit may open on the display of the handheld device another front page from where the 11 DK 177687 B1 user of the handheld device are able to perform software updates, change settings or parameters, read data, etc.

Moreover the invention relates to the use of an automatic information unit located 5 within a wind turbine for accessing information related to the wind turbine from a predetermined location in a data communication network of the wind turbine.

The automatic information unit is an automatic information unit according to any of the claims 1-11.

10

Figures

An exemplary embodiment of the invention will be described in more detail in the following with reference to figure 1 which illustrates a system according to an embodiment of the invention.

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Detailed description of the invention

Figure 1 illustrates a system according to an embodiment of the invention. Fig. 1 illustrates a wind turbine 1 comprising blades 2, hub 3, nacelle 4, tower 5, controllers 6, data communication network 7 and additional wind turbine 20 components 8.

The controllers 6 include among other yaw controller 6a controlling one or more yaw motors 8a, converter controller 6b controlling the power converter 8b and pitch controller 8c controlling one or more pitch motors 8c. Further it should be 25 noted that a main wind turbine controller 6d is always present.

The mentioned wind turbine components including controllers are only for illustrative purpose and it should be noted that a wind turbine 1 may comprise further and components (2, 3, 4, 5, 6, 7, 8) than illustrated.

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The data communication network 7 of a wind turbine comprise at least an internal data communication network 7a through which the wind turbine controller 6d is communicating (often bidirectional) with the other controllers 6a-6c of the wind 5 turbine.

The data communication network 7 of the illustrated wind turbine 1 further comprises an external data communication network 7b which connects the wind turbine 1 to other wind turbines and park controller(s) of a wind power park. From 10 the data communication network 7b only difference of the wind turbines connected hereto may be a digit or two in the IP addresses.

Furthermore the data communication network 7 of the illustrated wind turbine 1 comprise an external data communication network 7e connecting the wind turbine 15 1 to the internet 9 and thereby e.g. to the operator of the wind turbine 1, an internal wireless network 7c and an external wireless network 7d.

The individual data communication networks 7a-7e of the data communication network 7 is accessible from a switch 11.

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The wind turbine 1 is further equipped with automatic identification units 12 according to the invention. The automatic identification units 12 comprise information which is accessible from a handheld device 13 when the automatic identification unit 12 is scanned by an automatic identification unit scanner 14 of 25 the handheld device 13. It should be noted that every component (2, 3, 4, 5, 6, 7, 8) of the wind turbine 1 may in principle be equipped with an automatic identification unit 12.

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Typically the automatic information unit 12 is not able to comprise large amounts of data hence if the information intended to provide with a specific automatic information unit 12 is larger than e.g. a few hundred bytes the automatic information unit 12 is often referring or guiding to a data source comprising such 5 information.

The retrieved information is processed by a standard data processor 15 and e.g. together with and / or by means of additional data or applications located at a data storage 17 before it is displayed on a display 16. The information retrieved from the 10 automatic identification units 12 may be displayed indirectly in that the information may be some kind of network identification such as a name (identification) of a data communication network 7 or an IP address of a controller 6.

According to a preferred embodiment of the invention the automatic information 15 unit 12a is created to provide details such as SSID of a wireless network, virtual LAN identification, login information, etc. enabling accessing the internal data communication network 7a. Hence when a user arrives at the location of the wind turbine 1 and with his handheld device 13 is scanning the automatic information unit 12a the handheld device 13 is automatically logged on to the internal data 20 communication network 7a.

Alternatively the user is asked to choose a data communication network 7 and upon scanning the automatic information unit 12 log on to the chosen network.

25 Logging on a data communication network 7 or controller 6 could be done in many ways no matter if the handheld device is connected to the switch 11 wireless or wired. The following embodiment of the invention is described with reference to a handheld device which is connected to the switch 11 by means of a wired connection. When the user of a handheld device such as a laptop is plugging his 14 DK 177687 B1 wired handheld device to the switch 11 of the wind turbine 1 he may then scan the automatic identification unit and get direct access to the WTC with default rights. As an alternative he is guided to a login page where he can login with his personal username and pass word and thereby obtain the rights assigned to him.

5

According to a further preferred embodiment of the invention the automatic information 12a is further created to provide details such as IP address or URL of the wind turbine controller 6d. Hence when a user arrives at the location of the wind turbine 1 and with his handheld device 13 is scanning the automatic 10 information unit 12a the handheld device 13 is automatically logged on to the internal data communication network 7a. Then via the display 16 the user is asked to enter username and password to access the wind turbine controller 6d in order to manually take over control of the wind turbine 1, update software, monitor operation data, retrieve logged data, etc.

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According to a further preferred embodiment of the invention the automatic information 12a is further created to provide details such as user name and password of the wind turbine controller 6d. Hence when a user arrives at the location of the wind turbine 1 and with his handheld device 13 is scanning the 20 automatic information unit 12a the handheld device 13 is automatically logged on to the wind turbine controller 6d. Then the user may take over control of the wind turbine 1, update software, monitor operation data, retrieve logged data, etc.

Often only limited rights are assigned to a user logging in via default login 25 information on an automatically information unit 12a located at the wind turbine 1 to ensure that no uneducated person is accessing the wind turbine controller 6d.

Instead expert user may bring their own personal automatic identification unit 12 assigning rights after login according the skills or job the expert has to carry out at 15 DK 177687 B1 the wind turbine 1. Such personal automatic identification unit 12 may be created from visit to visit at the wind turbine 1.

The default login information obtained from the automatic identification unit 12d 5 located in the nacelle 4 may assign more rights to the user than the automatic identification unit 12a located at the bottom of the tower 5. This is because for safety reasons only people with special education is allowed to access the nacelle hence these persons may because of that be defined as experts.

10 Further the default login information could be used by a visitor such as a service person to get in contact with colleagues at the home office to help him out if the service persons personal login does not provide necessary rights to perform the service or the service person is for some reason not registered as user with rights to access the wind turbine controller.

15

An automatic identification unit 12 located e.g. at the gear could upon scanning provide access to an internal data source (not illustrated) or an external data source 10. Access to the external data source 10 could be obtained via the data communication network 7 and the internet 9.

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An example of the access could be information of the path on which information related to the gear is stored on the external data source 10. Such information could be guide to lubrication, detach, assemble, perform different level of service, list of earlier service, etc. The information could be given in various forms e.g. as written, 25 recitation, video or any combination thereof where the service person is instructed step by step.

It should be mentioned that the external data source 10 could be located on one or more corporate networks e.g. of the owner, manufacture, service provider, etc. and 16 DK 177687 B1 thereby large amount of information is accessible upon scanning an automatic identification unit 12.

An automatic identification unit 12 located at the entrance / exit of the tower could 5 upon scanning provide access to a check list located on an internal or external data source as described above. An entrance automatic identification unit 12 could provide access to a check list listing things a visitor such as a service person should be aware of or remember to do upon entering the tower. Likewise an exit automatic identification unit 12 could give access to a check list of things to 10 remember before leaving the tower.

An automatic identification unit 12 could be located on a specific circuit board or panel which upon scanning created a communication line to a hotline / helpdesk.

15 An automatic identification unit 12 is created with desired information by methods known by the skilled person. Such information could be a network address of a predetermined wind turbine controller 6.

The location of the automatic identification unit 12 is principle not relevant but of 20 cause it is preferred that if the information kept by an automatic identification unit 12 is related to a main wind turbine controller 6d, this automatic identification unit 12 is located on or close to the this controller 6d. In this way a person scanning the automatic identification unit 12 have easy access to the information from his handheld device 13.

25

Hence according to the invention the automatic information unit 12 ensures that a user at a wind turbine 1 is logging automatically on to the right data communication network 7 and / or right controller 6 on the right wind turbine 1 by means of information of the automatic information unit 12.

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List of reference numbers I. Wind turbine 5 2. Blade 3. Hub 4. Nacelle 5. Tower 6. Controller 10 7. Data communication network 8. Additional wind turbine components 9. Internet 10. External data source II. Switch 15 12. Automatic identification unit 13. Handheld device 14. Automatic identification scanner 15. Data processor 16. Display 20 17. Data storage

Claims (12)

A system for connecting a handheld device to a predefined location in a data communication network in a wind turbine, the system comprising: - a printed identification unit containing information for identifying the 5 predefined location in the data communication network, the handheld device comprising a data processor and an identification device scanner, wherein the handheld device is configured to scan the identification unit 10 by means of the identification device scanner to retrieve the information from the information unit, and the handheld device is further configured to process this information by the data processor, and the result of this data processing is information which enables the handheld device to identify and directly access the predefined location in the data communication network. A system for connecting a handheld device to a predefined location in a data communication network of a wind turbine according to claim 1, wherein the predefined location is a predefined wind turbine controller. A system for connecting a handheld device to a predefined location in a data communication network of a wind turbine according to claim 1, wherein the predefined location is a predefined wind turbine data source. A system for connecting a handheld device to a predefined location in a data communication network of a wind turbine according to claim 1, wherein the predefined location is a predefined data source located externally to the wind turbine. A system for connecting a handheld device to a predefined location in a data communication network in a wind turbine according to one of the preceding claims, wherein the identification unit further provides log-in information that allows automatic log-in to the predefined wind turbine controller or the predefined data source or the predefined external data source from the handheld device. A system for connecting a handheld device to a predefined location in a data communication network in a wind turbine according to one of the preceding claims, wherein the identification unit is located on the wind turbine. A system for connecting a handheld device to a predefined location in a data communication network of a wind turbine according to claim 6, wherein the identification unit further provides access from the handheld device to information relevant to where the identification unit is located, where a location of advantageously, the identification unit is on a wind turbine component, a panel, the entrance to the tower, the nacelle and / or the hub. A system for connecting a handheld device to a predefined location in a data communication network in a wind turbine according to any one of claims 1-5, wherein the identification unit is located on a map. A system for connecting a handheld device to a predefined location in a data communication network of a wind turbine according to claim 1, wherein the predefined data communication network is an external communication network out of the wind turbine and wherein the identification device further provides information allowing access to the Internet from the handheld device. 20 DK 177687 B1 A wind turbine comprising a system for connecting a handheld device to a predefined location in a data communication network in the wind turbine according to any one of claims 1-9. 11. A method of accessing a predefined controller in a wind turbine using a handheld device, the method comprising the following steps: creating an identification unit containing information that includes at least a network address of the predefined controller, printing the identification unit, 10. leading the identification unit to the wind turbine advantageously, positioning the identification unit close to the predefined controls, using an identification unit scanner included in the handheld device to scan the identification unit to retrieve the information, using a data processor in the handheld device to process the information scanned from the identification unit, and based on the processing of the the scanned information opens a user interface in a display on the handheld device which provides access to the predefined wind turbine controller. 12. Using an information device located in a wind turbine to access information related to the wind turbine from a predefined location in a data communications network within the wind turbine.