KR200489237Y1 - Transformer installing mechanism for windmill and Windmill having the same - Google Patents

Abstract

Transformer installation structure for a wind power generator according to an embodiment of the present invention is provided in the lower portion of the wind power generator, the transformer is mounted inside the tower pillar, the tower pillar is provided in the interior, and formed in the tower pillar in communication with the outside A guard member coupled to divide a space provided with the entrance and the transformer and a space provided with the guard member so as to communicate with the space provided with the transformer, and to block supply of current to the transformer when opened. It may include a door member associated with the transformer.

Description

Transformer installation structure for wind power generator and wind power generator including the same {Transformer installing mechanism for windmill and Windmill having the same}

The present invention relates to a transformer installation structure for a wind power generator, and more particularly, to provide a shield housing provided to the transformer by blocking current from being supplied to the transformer when the door member provided in communication with the transformer is opened. The present invention relates to a removable invention.

The wind power generator is provided with a tower for supporting a blade and a nacelle in which the generator is accommodated. The tower is generally designed in a hollow cylindrical shape, and the wires, converters, transformers, and the like are installed inside the tower.

That is, conventionally, as shown in Figure 1, the transformer (T) was installed inside the wind turbine tower column (10 ').

By the way, in the transformer (T), the shield housing (S) to the outside is installed to prevent the electric shock of the operator.

In other words, the shield housing S to the outside of the transformer T was provided to prevent the worker's access to block the contact of the transformer T through which the current flows.

By the way, if the shield housing (S) or the enclosure is installed outside the transformer (T), when the maintenance work inside the transformer (T) occurs, it takes a lot of time to dismantle the shield housing (S) to the enclosure There was.

That is, it is not possible to produce electricity during the dismantling operation time of the shield housing (S) to the enclosure, there is a problem that lowers the power generation efficiency.

In addition, since the transformer (T) is installed inside the shield housing (S) to the enclosure, due to the heat generated from the transformer (T), there was a disadvantage that a separate cooling facility must be installed.

In addition, since the insulation distance between the winding of the transformer (T) and the shield housing (S) to the enclosure must be secured, there is a limit in which the volume of the shield housing (S) to the enclosure that is installed is increased.

Therefore, it is necessary to study the installation structure of the transformer for a wind power generator to solve the above problems.

An object of the present invention is to provide an installation structure that can remove the shield housing or the enclosure that was previously installed in the transformer, reducing the installation time of the shield housing or the enclosure, it is possible to increase the power generation efficiency without the need for additional cooling equipment It is to provide a transformer installation structure for wind power generators.

Transformer installation structure for a wind power generator according to an embodiment of the present invention is provided in the lower portion of the wind power generator, the transformer is mounted inside the tower pillar, the tower pillar is provided in the interior, and formed in the tower pillar in communication with the outside A guard member coupled to divide a space provided with the entrance and the transformer and a space provided with the guard member so as to communicate with the space provided with the transformer, and to block supply of current to the transformer when opened. It may include a door member associated with the transformer.

In addition, the door member of the wind turbine transformer installation structure according to an embodiment of the present invention is coupled to the door body and the door body hinged to the guard member to open and close, the sensor for detecting the opening and closing of the door body It may include wealth.

In addition, the sensor unit of the transformer installation structure for a wind turbine according to an embodiment of the present invention, it may be characterized in that coupled to the other end of the door body which is opposite to the one end of the door body hinged to the guard member. .

In addition, the door member of the transformer installation structure for a wind turbine generator according to an embodiment of the present invention is electrically connected to the sensor unit, and further comprises a control unit for controlling the current is cut off the transformer when the door body is opened. can do.

In addition, the control unit of the transformer installation structure for a wind turbine according to an embodiment of the present invention may be characterized in that to provide the transformer grounded when the door body is opened.

The transformer installation structure for a wind turbine of the present invention can block the supply of current to the transformer when the door member communicating with the space where the transformer is provided is opened.

Thereby, there is an effect that the shield housing or the enclosure that has been previously provided for isolating the transformer can be removed.

That is, even without the shield housing or the enclosure, there is an advantage that an accident such as an electric shock of an operator can be prevented from occurring due to the current of the transformer.

Further, in the past, additional cooling equipment is required due to the provision of the shield housing or the enclosure, but in the present invention, such cooling equipment is unnecessary, and thus, the power generation efficiency may be improved.

1 is a view showing a conventional transformer installation structure for a wind turbine.
2 is a cross-sectional view showing a transformer installation structure for a wind turbine of the present invention.
3 is a view showing a linkage relationship between a transformer and a control unit in a transformer installation structure for a wind turbine according to the present invention.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention may deteriorate other inventions or the present invention by adding, modifying, or deleting other elements within the scope of the same idea. Other embodiments that fall within the scope of the inventive concept may be readily proposed, but they will also be included within the scope of the inventive concept.

In addition, the components with the same functions within the scope of the same idea shown in the drawings of each embodiment will be described using the same reference numerals.

The transformer installation structure for a wind turbine of the present invention provides to block the supply of current to the transformer (T) at the time of opening of the door member (30) provided in communication with the transformer (T), thereby providing to the transformer (T). The invention relates to a shield housing (S) that has been provided.

That is, the transformer installation structure for a wind turbine of the present invention can block the supply of current to the transformer T when the door member 30 communicating with the space in which the transformer T is provided is opened, whereby It is not necessary to shield the housing (S) to the enclosure provided to isolate the transformer (T), it is possible to remove the shield housing (S) to the enclosure.

In other words, it is possible to prevent an accident such as an electric shock of an operator by the current of the transformer (T) without the shield housing (S) or the enclosure.

Further, in the past, additional cooling facilities, etc. were required due to the provision of the shield housing S to the enclosure, but in the present invention, such cooling facilities are unnecessary, and thus, power generation efficiency may be increased.

Specifically, with reference to the drawings, Figure 2 is a cross-sectional view showing a transformer installation structure for a wind generator of the present invention, referring to this, the transformer installation structure for a wind power generator according to an embodiment of the present invention is a lower portion of the wind generator Is provided in, the tower pillar (10), the transformer T is seated therein, is provided in the interior of the tower pillar (10), the entrance and exit 11 formed in the tower pillar (10) to communicate with the outside and the The guard member 20 coupled to divide the space provided by the transformer T is provided to be opened and closed on the guard member 20 so as to communicate with the space provided by the transformer T, the transformer ( It may include a door member 30 associated with the transformer (T) to block the supply of current to T).

In addition, the sensor unit 32 of the transformer installation structure for a wind turbine according to an embodiment of the present invention, the door body 31 opposite the one end of the door body 31 hinged to the guard member 20. It may be characterized in that it is coupled to the other end.

That is, in order to remove the shield housing (S) to the outside of the transformer (T), the operator enters the space provided with the transformer (T), the door member in communication with the space provided with the transformer (T) ( At the opening of 30, a configuration is shown to block supply of current to the transformer T.

To this end, the transformer installation structure for a wind turbine of the present application includes a tower column 10, a guard member 20, the door member 30.

The tower pillar 10 is a portion that becomes the main body of the wind power generator, and is generally provided in a hollow cylindrical shape (but not limited thereto), and a generator, a converter, and a transformer: T) can serve as a body to be installed.

In addition, the tower pillar 10 may be provided with an entrance 11 through which an operator or the like may enter, and may be provided in combination with the ground.

In particular, a transformer (T) is installed inside the tower column (10), conventionally the transformer (T) to shield the housing (S) to the outer surface of the transformer (T) to prevent the operator from electric shock The enclosure was installed.

However, the present invention can be provided in a structure that can remove the shield housing (S) to the enclosure.

That is, the transformer installation structure for the wind turbine of the present application communicates to open and close the space provided with the transformer (T) to prevent electric shock without shield housing (S) surrounding the transformer (T) provided inside the wind generator or the enclosure. It will be characterized in that it is provided to block the current supply of the transformer (T) at the time of opening the door member 30 to be described later.

As a result, since the transformer T does not need to be provided inside the shield housing S to the enclosure, heat dissipated from the transformer T may escape from the inside of the shield housing S to the enclosure. As a result, it is possible to overcome the limitations that required additional cooling equipment.

That is, since there is no shield housing S or an enclosure, heat emitted from the transformer T may be discharged without accumulating, and thus the cooling facility is unnecessary, so that the power generation efficiency of the entire wind power generator may be increased. Will be.

The guard member 20 may serve to divide a space provided with a transformer T installed inside the tower pillar 10 and a space provided with an entrance 11 of the tower pillar 10.

This provides a structure that allows the worker to enter the space provided with the transformer T through the door member 30 to be described later formed in the guard member 20, it is possible to isolate the worker from the transformer (T) .

To this end, the guard member 20 may be provided in a box shape having four sides formed with one side of the tower pillar 10 provided with the entrance 11 as one side.

The door member 30 is provided to be opened and closed by the guard member 20 so as to communicate the space in which the transformer T is provided with the space in which the entrance 11 is provided.

In particular, the door member 30 may be configured to block electric current from being supplied to the transformer T when it is opened, so that an electric shock or the like does not occur when an operator approaches the transformer T. have.

That is, the door member 30 may be provided to be opened and closed in order for the worker who enters the inside of the tower pillar 10 through the doorway 11 to enter the space where the transformer T is provided again. It is.

To this end, the door member 30 may be provided hinged to the guard member 20. In addition, the door member 30 may provide a sensor unit 32 and a control unit 33 to prevent current from being supplied to the transformer T when opened.

When the sensor 33 detects whether the door member 30 is opened, the controller 33 serves to block supply of current to the transformer T, which will be described in detail with reference to FIG. 3. It will be described later with reference to.

In addition, the sensor unit 32 serves to detect whether the door member 30 is open. For this purpose, the sensor unit 32 may be coupled to the door body 31 of the door member 30.

In addition, the sensor body 32 is the door body opposite the one end of the door body 31 is hinged to the guard member 20 so as to immediately detect the opening of the door body 31. It is preferable to be bonded to the other end of (31).

That is, when the door body 31 is opened, since the other end of the door body 31 is first spaced apart from one side, the sensor part 32 is provided at one end of the door body 31. It is possible to detect the opening of the door body 31 faster than the case.

3 is a view showing a linkage relationship between the transformer (T) and the control unit 33 in the transformer installation structure for a wind turbine of the present invention, referring to this, the above-mentioned of the transformer installation structure for a wind turbine according to an embodiment of the present invention The door member 30 is coupled to the door body 31 and the door body 31 hinged to the guard member 20 to be opened and closed, the sensor unit 32 for detecting the opening and closing of the door body 31. ) May be included.

In addition, the door member 30 of the transformer installation structure for the wind turbine generator according to an embodiment of the present invention is electrically connected to the sensor unit 32, the transformer (T) when the door body 31 is opened. The control unit 33 may further include a control unit for controlling a current to be blocked.

In addition, the control unit 33 of the transformer installation structure for a wind turbine according to an embodiment of the present invention may be characterized in that the transformer T is provided to be grounded when the door body 31 is opened. .

That is, the door member 30 of the present application may provide a door body 31, a sensor unit 32, and a control unit 33 to block supply of current to the transformer T when opened. will be.

The door body 31 serves as a body part of the door member 30 and is hinged to the guard member 20 so as to be opened and closed to one side.

That is, the door body 31 serves to divide and isolate the space in which the transformer T is provided and the space in which the doorway 11 is provided.

The sensor unit 32 serves to detect the opening of the door body 31, and for this purpose, the sensor unit 32 may be provided coupled to the door body 31.

In particular, the sensor unit 32 is the door body 31 opposite the one end hinged to the guard member 20 so that the door body 31 immediately detects the opening of the door body 31. It is described above that it is preferable to be provided coupled to the other end of the.

The controller 33 may serve to block the supply of current to the transformer T when the sensor unit 32 detects the opening of the door body 31.

That is, the control unit 33 has a door switch on the circuit diagram which is turned off when the door body 31 is opened and turned on when closed, so as to communicate with a space provided with the transformer T. Will be provided.

This is connected in series with a switchgear that regulates the supply of current in the existing circuit diagram, and prevents current from being supplied to the transformer T when the door body 31 is opened. .

In addition, the switchgear may be provided with a protection relay, a manual on / off, and an additional on / off.

The protection relay serves to protect itself against overvoltage, overcurrent, and the like. The manual on / off serves to block the current supply of the transformer T by manual operation.

The edition on / off is a portion added to the switchgear to block the current supply of the transformer T by the added door switch.

In addition, the control unit 33 may be provided to be grounded, so that the current remaining in the transformer T may immediately exit when the current is interrupted to the transformer T.

That is, the controller 33 is connected to the ground of the zero potential, so that the current remaining in the transformer T can be immediately released to the ground when the circuit is cut off.

10: column pillar 11: doorway
20: guard member 30: door member
31: door body 32: sensor
33: control unit

Claims (10)

It is provided in the lower portion of the wind power generator, the transformer is mounted on the inside, the tower pillar formed in the entrance and communicating with the outside;
A guard member provided in the tower pillar and coupled to divide the space provided by the entrance and the transformer; And
A door member provided to be openable to the guard member so as to communicate with a space where the transformer is provided, the door member being connected to the transformer to block supply of current to the transformer when opened;
Including;
The door member,
A door body hinged to the guard member to be opened and closed; And
A sensor unit coupled to the door body and detecting an opening / closing of the door body;
A control unit electrically connected to the sensor unit and blocking current from being supplied to the transformer when the door body is opened;
Including,
The control unit is provided with a door switch that is turned off when the door body is opened and turned on when the door body is closed, and the door switch is connected in series with a switch gear for controlling the supply of current.
The switch gear is provided with a protection relay for self-protection against overvoltage, overcurrent, and the like, and an additional edition on / off for blocking the current supply of the transformer by the door switch. Transformer installation structure for generator. delete The method of claim 1,
The sensor unit, the wind turbine transformer installation structure coupled to the other end of the door body which is opposite to the one end of the door body hinged to the guard member. delete The method of claim 1,
The control unit, the wind turbine transformer installation structure for providing the transformer to the ground when the door body is opened. delete The method of claim 1,
The switch gear is a wind turbine transformer installation structure provided with a manual on / off (Manual On / Off) to block the current supply of the transformer by manual operation. In the wind turbine comprising a tower pillar and a transformer and a transformer installation structure installed inside the tower pillar,
The transformer installation structure,
A guard member provided inside the tower pillar, the guard member coupled to divide the space provided by the tower pillar in communication with the outside, and the space provided by the transformer;
A door member provided to open and close the guard member so as to communicate with a space where the transformer is provided,
The door member is connected to the transformer to block supply of current to the transformer when opened,
The door member,
A door body hinged to the guard member to be opened and closed; And
A sensor unit coupled to the door body and detecting an opening / closing of the door body;
A control unit electrically connected to the sensor unit and blocking current from being supplied to the transformer when the door body is opened;
Including,
The control unit is provided with a door switch that is turned off when the door body is opened and turned on when the door body is closed, and the door switch is connected in series with a switch gear for controlling the supply of current.
The switch gear is provided with a protection relay for self-protection against overvoltage, overcurrent, and the like, and an additional edition on / off for blocking the current supply of the transformer by the door switch. Wind power generator having an installation structure. delete The method of claim 8,
The sensor unit, the wind turbine having a transformer installation structure coupled to the other end of the door body which is opposite to the one end of the door body hinged to the guard member.

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