KR101314716B1 - Wind turbine check system based app. - Google Patents

Abstract

The present invention relates to an app-based wind generator check system, and more particularly, check information such as wind direction, wind speed, temperature and humidity of a place where a wind turbine is installed, and alarm signal information of a wind generator and a capacitor of a portable terminal of a manager and a user. Provides the reliability of the system by checking in real time regardless of the place and time in the app, and makes it possible to utilize the weather measurement elements of the wind direction, wind speed, temperature, and humidity included in the check information as a database to use as weather forecast information for the local area. It relates to a wind turbine check system.
According to the present invention, the system checks and checks information such as wind direction, wind speed, temperature and humidity of a wind turbine generator, and alarm signal information of a wind turbine and a capacitor in real time regardless of a place and time in a portable terminal of a manager and a user. It provides the reliability of the data and checks the check information and the alarm signal information in real time by making it possible to utilize the weather measurement elements of wind direction, wind speed, temperature, and humidity included in the check information as a database and use them as weather forecast information of the local area. It becomes possible.

Description

Wind turbine check system based app.}

The present invention relates to an app-based wind generator check system, and more particularly, check information such as wind direction, wind speed, temperature and humidity of a place where a wind turbine is installed, and alarm signal information of a wind generator and a capacitor of a portable terminal of a manager and a user. Provides the reliability of the system by checking in real time regardless of the place and time in the app, and makes it possible to utilize the weather measurement elements of the wind direction, wind speed, temperature, and humidity included in the check information as a database to use as weather forecast information for the local area. It relates to a wind turbine check system.

Due to the finite and pollution problem of fossil energy, interest in development of alternative energy is heightened, and solar power and wind power are the most actively studied among them, and the actual use ratio is quite high.

This is due to the fact that the energy conversion process from two types of energy sources with relative complementary to the external climate change is highlighted.

It will be described the problems of the prior art for the wind power generator which is the industrial field of the present invention.

In other words, the main measurement elements such as wind speed, power generation amount in the wind generator is generally displayed on the enclosure mounted to the generator through the control panel in the wind generator.

In order to check the measuring elements of a typical wind turbine, or to identify a failure, it was necessary to go to the installation site and check it directly.

This check can only check the instantaneous measurement value, it is impossible to cope with any failure.

 As an improved method, the method of checking through the desktop PC with the central control room is not a check method desired by the user because it is managed from the management side, and it has a management disadvantage that requires space and resides in the manager.

Therefore, there is a need for a system capable of checking not only administrators but also users in real time regardless of place and time.

On the other hand, the conventional weather information only provides weather information in a large area, it was almost impossible to predict the weather based on the weather information in the local area where the wind turbine is installed.

If the weather information in the local area is continuously stored in a database, the weather information can be predicted in advance, which can provide an advantage of establishing a power generation plan in advance.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to check the information such as the wind direction, wind speed, temperature and humidity of the wind turbine installation site and the alarm signal information of the wind generator and the capacitor in real time regardless of the location and time in the portable terminal of the manager and user It provides the reliability of the system and makes it possible to utilize the weather measurement elements of wind direction, wind speed, temperature, and humidity included in the check information as a database to use it as weather forecast information of a local area.

Another objective is to designate each transmission means as a slave when the information checking means and the transmission means are composed of a plurality, and to collect the check information and the alarm signal information transmitted from the slave transmission means in the master communication unit, thereby managing the central management server. To send it out.

In order to achieve the object of the present invention,

App-based wind generator check system according to an embodiment of the present invention,

Wind generator 100 for producing electricity by the wind; A capacitor 200 for storing electricity generated by the wind generator; Wind direction wind speed detection unit 300 for detecting the wind direction and wind speed; A temperature and humidity sensing unit 400 for sensing temperature and humidity; Information check for transmitting power generation value, cumulative power generation value, carbon dioxide reduction value, power storage value, rotation speed measurement value, obtained wind direction / wind speed value, temperature / humidity value and alarm signal information to display and transmitting means Means 500; Transmitting means (600) for transmitting the check value or the alarm signal information transmitted from the information checking means to a predetermined identification value to the central management server using satellite communication or wireless communication; A central management server 700 for acquiring and managing check information or alarm signal information transmitted from the transmitting means, and transmitting the checked information or alarm signal information to a portable terminal; It includes; a portable terminal 800 for checking the check information or the alarm signal information sent from the central management server in real time by a dedicated app.

App-based wind generator check system according to the present invention,

It provides the reliability of the system by checking the wind direction, wind speed, temperature, humidity, etc. of the place where the wind power generator is installed, and the alarm signal information of the wind power generator and the capacitor in real time regardless of the place and time of the manager and user's portable terminal. In addition, the weather measurement elements of the wind direction, wind speed, temperature, and humidity included in the check information can be used as weather forecast information of the local area by making a database, so that the check information and the alarm signal information can be checked easily and conveniently in real time.

In addition, when the information checking means and the transmitting means are constituted of a plurality, each of the transmitting means is designated as a slave, and the master communication unit collects check information and alarm signal information transmitted from the slave transmitting means to the central management server. By sending, it provides the ease of efficient management and expansion of the slave transmission means.

1 is an overall configuration diagram of an app-based wind turbine check system according to an embodiment of the present invention.
2 is an overall configuration diagram of the app-based wind generator check system according to another embodiment of the present invention.
3 is a block diagram of the information checking means of the app-based wind turbine check system according to an embodiment of the present invention.
Figure 4 is a block diagram of the master transmission means of the app-based wind power generator check system according to another embodiment of the present invention.
5 is a block diagram of a portable terminal of the app-based wind turbine check system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present inventors app-based wind turbine check system.

The characteristics of wind power generation methods require not only the application of large-scale wind turbines, but also the need for low-cost, small-scale applications such as small wind turbines. These small hybrid generators store power in the capacitors and use them in emergency or at night. This is mainly used.

1 is an overall configuration diagram of an app-based wind turbine check system according to an embodiment of the present invention.

As shown in FIG. 1, the present inventors app-based wind generator check system is a wind power generator 100, a capacitor 200, a wind direction wind speed detection unit 300, a temperature and humidity detection unit 400, an information checking means 500, It comprises a transmission means 600, a communication network such as satellite communication or wireless communication, a central management server 700, a portable terminal 800 of users and administrators.

That is, the wind generator 100 for producing electricity by the wind;

A capacitor 200 for storing electricity generated by the wind generator;

Wind direction wind speed detection unit 300 for detecting the wind direction and wind speed;

A temperature and humidity sensing unit 400 for sensing temperature and humidity;

Information check for transmitting power generation value, cumulative power generation value, carbon dioxide reduction value, power storage value, rotation speed measurement value, obtained wind direction / wind speed value, temperature / humidity value and alarm signal information to display and transmitting means Means 500;

Transmitting means (600) for transmitting the check value or the alarm signal information transmitted from the information checking means to a predetermined identification value to the central management server using satellite communication or wireless communication;

A central management server 700 for acquiring and managing check information or alarm signal information transmitted from the transmitting means, and transmitting the checked information or alarm signal information to a portable terminal;

It is configured to include; portable terminal 800 for checking in real time by the dedicated app check information or alarm signal information sent from the central management server.

The wind generator 100 produces electricity by wind, and the electricity generated by the wind generator is stored in the capacitor 200.

In addition, by installing and configuring the wind direction wind speed detection unit 300 and the temperature and humidity detection unit 400 in the wind power generator to sense the surrounding wind direction and wind speed, and will also detect the temperature and humidity at the same time.

The information checking means 500 of the present invention also includes a display unit, which is for checking check information in a local area.

In addition, the display on the display means a function of displaying weather information such as wind speed, wind direction, temperature, humidity, power generation data such as power generation amount, or information related to battery charge / discharge status or battery maintenance.

In other words, it provides a visual representation of the energy conversion process of wind power generation by providing substantial numerical data that the wind speed is converted into electrical energy.

2 is an overall configuration diagram of the app-based wind generator check system according to another embodiment of the present invention.

As shown in Figure 2, the app-based wind power generator check system according to another embodiment,

In the case where a plurality of information checking means and transmitting means are constituted, each transmitting means is designated as a slave, and check information or alarm signal information sent out from the transmitting means and a slave ID value given by the slave holding unit are given. And a master transmission means 900 for transmitting the matched information to the central management server using satellite communication or wireless communication.

At this time, the identification information (ID value) of the transmission means should be set in advance in the transmission means, it is possible to determine the source of the information according to the set identification information.

For example, as shown in FIG. 2, when a plurality of information checking means and transmitting means are grouped, and an ID value (for example, ID # 123) is added to each transmitting means, group management becomes possible.

3 is a block diagram of the information checking means of the app-based wind turbine check system according to an embodiment of the present invention.

As shown in Figure 3, the information checking means 500,

A current value converter 505 for converting the cumulative generation calculation unit, the carbon dioxide reduction calculation unit, and the main control unit into values operable by the wind direction wind speed detection unit and the temperature and humidity detection unit;

A detection value acquisition unit 510 for acquiring the wind direction / wind speed value and the temperature / humidity value converted by the current value conversion unit;

A current sensing device 515 for measuring a current value from the amount of power generated by the wind turbine,

Generating amount calculation unit 520 for calculating the amount of power generation using the current value measured by the current sensing device,

A cumulative generation amount calculation unit 525 for calculating the accumulated generation amount with reference to the generation amount calculation unit,

A carbon dioxide reduction calculation unit 530 for calculating a carbon dioxide reduction amount corresponding to the generation amount calculated by the generation amount calculation unit;

A power storage amount calculation unit 535 for calculating a power storage value stored in the capacitor;

Rotation speed measuring unit 540 for measuring the rotation speed of the generator,

An abnormal operation check unit 545 for checking the abnormal operation of the generator and the capacitor,

An alarm signal information generating unit 550 for generating alarm signal information when the abnormal operation checking unit analyzes the abnormal operation;

The power generation value calculated by the power generation unit, the cumulative power generation value calculated by the cumulative power generation unit, the carbon dioxide reduction value calculated by the low carbon dioxide reduction unit, the power storage value calculated by the power storage unit, and the rotation speed measuring unit The main control unit which acquires the rotational speed measured value measured at, and the wind direction / wind speed value and temperature / humidity value acquired by the detected value acquisition unit, and the alarm signal information generated by the alarm signal information generation unit and transmits it to the display unit and the transmission means. 555; is configured to include.

The current value converting unit 505 converts the cumulative generation calculation unit, the carbon dioxide low reduction calculation unit, and the main control unit into values that can be calculated by the wind direction wind speed detection unit and the temperature and humidity detection unit. The value is converted into a digital value and changed into a value that can be actually operated. Generally, it is a value that is stored in memory and processed so that it can be used for actual operation.

If the sensing unit is digital, the current value converting unit may not be configured.

 The detected value acquisition unit 510 acquires the wind direction / wind speed value and the temperature / humidity value converted by the current value conversion unit.

In addition, the current detection device 515 measures the current value from the power generation amount of the wind power generator, and calculates the power generation amount in the power generation amount calculation unit 520 using the current value measured by the current detection device.

The cumulative generation calculation unit 525 calculates the accumulated generation amount by referring to the generation generation unit. The generation amount calculation method and the cumulative generation amount calculation method are general techniques, and thus, detailed descriptions thereof will be omitted.

In addition, the carbon dioxide reduction amount calculation unit 530 calculates a carbon dioxide reduction amount corresponding to the power generation amount calculated by the power generation amount calculation unit.

Since various policies are currently being set up to reduce carbon dioxide around the world, there is an advantage in that the measurement of carbon dioxide reduction can be performed accordingly.

The power storage unit 535 calculates the power storage stored in the capacitor.

The check information described in the present invention includes information including power generation value, cumulative power generation value, carbon dioxide reduction value, power storage value, rotation speed measurement value, wind direction / wind speed value, temperature / humidity value and the like as described above. In other words, this means that the user and the administrator check the remote terminal through the portable terminal.

In addition, the alarm signal information of the wind power generator and the capacitor means information on the abnormal operation state, it means information for the maintenance immediately.

The rotation speed measuring unit 540 is for measuring the rotation speed of the generator, and the normal rotation speed of the rotor according to the measured wind direction and wind speed is stored in advance in the memory unit and then measured by the rotation speed measuring unit If the rotated speed does not match with the pre-stored speed, it is determined by the main controller as an abnormal operation.

The abnormal operation check unit 545 checks the abnormal operation of the generator and the capacitor.

In other words, for example, in the case of a wind power generator, the current and harmonics flowing in the live state of the rotor are analyzed primarily to check whether there is an abnormal operation. If this occurs, the current value and harmonic current value for the abnormal operation is compared with the normal value stored in the memory in advance to determine whether the abnormal operation of the generator is checked.

In addition, in the case of a capacitor, the state of the power storage is always checked by measuring the impedance and conductance of the battery, and the discharge state of the battery may be checked by the discharge state checking unit.

Such a technique for checking whether there is an abnormal operation may be utilized, and any technique for checking other abnormal operations may be used to perform an abnormal judgment.

The alarm signal information generation unit 550 generates alarm signal information when it is analyzed as abnormal operation by the abnormal operation check unit.

In other words, when a problem occurs in the generator's rotary shaft, the data corresponding to the rotary shaft and an alarm signal are matched to the portable terminal.

For example, if the rotation axis is defined as 1 and the alarm signal is defined as 11, the signal 111 is transmitted.

In this case, the portable terminal receives the signal 111 and outputs event information of 'rotation axis abnormality occurrence' on the screen.

As a result, the values calculated by the main controller 555 are obtained and transmitted to the display unit.

Figure 4 is a block diagram of the master transmission means of the app-based wind power generator check system according to another embodiment of the present invention.

As shown in Figure 4, the master transmission means,

In the case where the information checking means and the transmitting means are constituted of plural numbers, a slave branching unit 910 for designating each transmitting means as a slave and granting a slave ID;

A slave ID matching unit 920 for matching the check information or the alarm signal information transmitted from the transmitting means with the slave ID value given by the slave branch unit;

And a master communication unit 930 for transmitting the information matched by the slave ID matching unit to the central management server using satellite communication or wireless communication.

When the information checking means and the transmitting means are configured in plural, the master transmitting means is installed and configured, and the plurality of transmitting means is designated as a slave and managed.

When dozens or more transmission means are sent to the central management server in real time, an error may occur in determining which transmission means the corresponding information is assigned to give a unique ID value.

That is, since a unique slave ID value is assigned to each transmission means, management by master becomes possible, and abnormality and current check information for each slave can be easily grasped by a portable terminal of a user and an administrator.

In addition, the master transmitting means is capable of communicating with the transmitting means, and collects check information and alarm signal information transmitted from the respective transmitting means, and transmits them to the portable terminal using satellite communication or wireless communication.

The slave branch unit 910 designates each transmission means as a slave when a plurality of information checking means and transmission means are configured, and gives a slave ID.

At this time, the given slave ID information is also stored in the transmission means.

The slave ID matching unit 920 matches the check information or the alarm signal information transmitted from the transmitting unit with the slave ID value provided by the slave branch unit, and is matched by the slave ID matching unit. By the operation of the master communication unit 930 to send information to the central management server using satellite communication or wireless communication.

In summary, a slave ID is assigned to each transmitting means, and when the stored ID information is stored and managed in the central management server, the central management server can determine which information is transmitted from which transmitting means.

5 is a block diagram of a portable terminal of the app-based wind turbine check system according to an embodiment of the present invention.

As shown in Figure 5, the portable terminal 800,

A check information display unit 810 for displaying received check information or alarm signal information;

A check information storage unit 820 for storing the received check information or alarm signal information;

And a graph processing unit 830 for processing the information stored in the check information storage unit as a graph.

The portable terminal downloads a dedicated app provided by the central management server, and installs the corresponding dedicated app.

The check information display unit 810 displays the received check information or alarm signal information, and stores the check information or alarm signal information received in the check information storage unit 820.

In this case, the graph processing unit 830 processes the information stored in the check information storage unit as a graph.

The weather information of the wind direction, wind speed, temperature, and humidity of the check information by the database to be used as weather forecast information of the local area, it is possible to check the check information and alarm signal information easily and simply in real time.

In addition, if the central management server stores the weather measurement elements of the local area separately, it will be able to use as weather forecast information of the local area.

To this end, the central management server is to build a program to database and visualize the real-time weather forecast data.

That is, the conventional weather information provides only weather information in a wide area, so it is almost impossible to predict the weather based on weather information in a local area where a wind turbine is installed. It becomes possible.

Specific embodiments related to the present invention is not limited to the scope of the present invention, it is an invention that can be easily modified at the level of those having ordinary knowledge and skills in the art as the equivalent level of all the scope of the present invention. Belong.

100: wind power generator
200: capacitor
300: wind direction wind speed detection unit
400: temperature and humidity detection unit
500: information checking means
600: transmission means
700: central management server
800: portable terminal

Claims (3)

App-based wind turbine check system,
Wind generator 100 for producing electricity by the wind;
A capacitor 200 for storing electricity generated by the wind generator;
Wind direction wind speed detection unit 300 for detecting the wind direction and wind speed;
A temperature and humidity sensing unit 400 for sensing temperature and humidity;
A current value converter 505 for converting the cumulative generation calculation unit, the carbon dioxide reduction calculation unit, and the main control unit into values operable by the wind direction wind speed detection unit and the temperature and humidity detection unit;
A detection value acquisition unit 510 for acquiring the wind direction / wind speed value and the temperature / humidity value converted by the current value conversion unit;
A current sensing device 515 for measuring a current value from the amount of power generated by the wind turbine,
Generating amount calculation unit 520 for calculating the amount of power generation using the current value measured by the current sensing device,
A cumulative generation amount calculation unit 525 for calculating the accumulated generation amount with reference to the generation amount calculation unit,
A carbon dioxide reduction calculation unit 530 for calculating a carbon dioxide reduction amount corresponding to the generation amount calculated by the generation amount calculation unit;
A power storage amount calculation unit 535 for calculating a power storage value stored in the capacitor;
Rotation speed measuring unit 540 for measuring the rotation speed of the generator,
An abnormal operation check unit 545 for checking the abnormal operation of the generator and the capacitor,
An alarm signal information generating unit 550 for generating alarm signal information when the abnormal operation checking unit analyzes the abnormal operation;
The power generation value calculated by the power generation unit, the cumulative power generation value calculated by the cumulative power generation unit, the carbon dioxide reduction value calculated by the low carbon dioxide reduction unit, the power storage value calculated by the power storage unit, and the rotation speed measuring unit The main control unit which acquires the rotational speed measured value measured at, and the wind direction / wind speed value and temperature / humidity value acquired by the detected value acquisition unit, and the alarm signal information generated by the alarm signal information generation unit and transmits it to the display unit and the transmission means. An information checking means (500) configured to include;
Transmitting means (600) for transmitting the check value or the alarm signal information transmitted from the information checking means to a predetermined identification value to the central management server using satellite communication or wireless communication;
Check information or alarm signal information sent from the transmission means
Acquire, store and manage the obtained check information or alarm signal information,
Transmitting the obtained check information or alarm signal information to a portable terminal,
Central management server 700;
App-based wind generator check system comprising a; a portable terminal (800) for checking the check information or alarm signal information sent from the central management server in real time by a dedicated app.
The method of claim 1,
In the case where the information checking means and the transmitting means are constituted of plural numbers, a slave branching unit 910 for designating each transmitting means as a slave and granting a slave ID;
A slave ID matching unit 920 for matching the check information or the alarm signal information transmitted from the transmitting means with the slave ID value given by the slave branch unit;
And a master transmitting means 900 including a master communication unit 930 for transmitting the information matched by the slave ID matching unit to a central management server using satellite communication or wireless communication. App-based wind generator check system, characterized in that.
The method of claim 1,
The portable terminal 800,
A check information display unit 810 for displaying received check information or alarm signal information;
A check information storage unit 820 for storing received check information or alarm signal information;
App-based wind generator check system, characterized in that it comprises a graph processing unit for processing the information stored in the check information storage in the graph (830).

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