KR20120117062A - Automatic control wind-power generation device - Google Patents

Abstract

PURPOSE: A wind power generation system with an automatic load control function is provided to automatically control the overload generated from a ventilator as an outlet connecting pipe is opened and closed by a control unit. CONSTITUTION: A wind power generation system(10) with an automatic load control function comprises a ventilation unit(20), a wind power generation unit(30), an load control unit(40), and a control unit(50). The ventilation unit comprises a ventilation duct(21) and a ventilator(22). The ventilator is installed inside the ventilation duct. The wind power generation unit comprises an inflow pipe(31) and an inflow wind power generator(32). The inflow pipe is connected to the inlet of the ventilation duct through a neck portion(23). The inflow wind power generator is installed inside the inflow pipe. The load control unit comprises a connecting pipe(41) and a shut-off valve(42). The connecting pipe connects the ventilation duct and the inflow pipe. The shut-off valve opens or closes the connecting pipe. The control unit controls the operation of the shut-off valve by receiving a signal from the ventilator.

Description

Wind power generator with automatic load control {Automatic control Wind-power Generation Device}

The present invention relates to a wind power generator having an automatic load control function, and more particularly, by installing a wind power generator at an inlet and an outlet of a vent pipe, and having a ventilation function as well as a power generation function, and installing a wind power generator. In accordance with the overload generated in the ventilation system is an excess of the wind power generator having an automatic load control function is automatically adjusted by the control unit.

In general, the ventilator is installed on the roof of a building that requires internal temperature control, and is used to control the internal temperature of the building, or mainly to maintain a comfortable working environment in an industrial building such as a factory.

In other words, when it is used to control the temperature inside the building, when the temperature inside the building rises above the appropriate temperature and needs to be lowered, open the vent and operate the fan to exhaust the hot heat inside the building. It is possible to lower the internal temperature to an appropriate temperature, and if the temperature inside the building falls below an appropriate temperature during forced ventilation by the ventilation fan, the temperature inside the building is always kept low by closing the ventilation fan and closing the ventilation fan. It plays an important role in keeping it constant.

Therefore, the ventilator is mainly installed in a greenhouse or a glass greenhouse for growing crops, in which proper temperature maintenance is very important, and is widely used in a house for raising temperature sensitive livestock, or in a factory requiring a constant temperature to produce a product. It is true.

Recently, by installing a wind power generator in such a fan, a fan having a wind power generation function to generate electricity as well as ventilation by wind generated by the wind flowing into or out of the fan has been developed.

The present invention was developed to meet the requirements of the recent times, the wind turbine is installed in the inlet and outlet of the ventilation pipe for the purpose of the present invention is provided with a ventilation function as well as a power generation function, wind power generation It is an object of the present invention to provide a wind power generator having an automatic load control function in which the load of the ventilation device according to the device is automatically adjusted by the controller.

The present invention is a hollow ventilation pipe and a ventilation unit consisting of a ventilation device installed in the inside of the ventilation pipe and the inlet pipe connected to the inlet through the inlet neck of the inlet side of the ventilation pipe and the inlet wind power installed in the inlet pipe An inlet load control unit comprising an inlet wind power generation unit consisting of a power generation device, an inlet connection pipe connecting the vent pipe and the inlet pipe in communication with each other, and an inlet blocking valve for opening or closing the inlet connection pipe and a signal of the ventilation device. Received characterized in that consisting of a control unit for controlling the operation of the inlet shut-off valve.

In addition, the ventilating unit is further provided with an outlet wind power generating unit and an outlet load control unit to be wind-generated by the outflowing wind, the outlet wind power generating unit is an outlet pipe connected to the outlet neck through the outlet side of the vent pipe and the It consists of an outflow wind power generator is installed inside the outlet pipe, the outlet load control unit is an outlet shut-off valve for opening or closing the outlet connection pipe and the outlet connection pipe interconnecting the circular pipe and the outlet pipe in communication. The outlet blocking valve is electrically connected to the control unit and is operated by a signal of the control unit.

In addition, the outlet blocking control unit is characterized in that the plurality of the annular shape to connect the outlet pipe and the vent pipe.

According to the present invention, the wind power generator having the automatic load control function is provided with a ventilation function as well as a power generation function by installing the wind power generator at the inlet and the outlet of the exhaust pipe, There is an effect that the overload is automatically adjusted by the control unit.

1 is a conceptual diagram showing a wind power generator having an automatic load control function according to the present invention.
2 is a view showing another embodiment of a wind power generator having an automatic load control function according to the present invention.
3 is a view showing another embodiment of a wind power generator having an automatic load control function according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of a wind power generator having an automatic load control function according to the present invention with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions in the present invention, and this may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following examples are not intended to limit the scope of the present invention but merely presented by way of example, and there may be various embodiments implemented through the present invention.

1 is a conceptual diagram showing a wind power generator having an automatic load control function according to the present invention.

As shown in the drawings, the wind power generator 10 (hereinafter, referred to as a wind power generator) having an automatic load control function according to the present invention includes a ventilation unit 20, an inlet wind power generator 30, an inlet load control unit 40, and a controller ( 50).

The ventilation unit 20 is composed of a hollow ventilation pipe 21 made of a synthetic resin material or a metal material and a ventilation device 22 installed inside the ventilation pipe 21. The vent 22 is to circulate the air inside as well as to introduce the outside air, such a ventilator 22 is made of a pen and a motor for rotating the pen, by the plurality of ribs in the vent pipe ( 21) and wind moves between the ribs.

The inlet wind power generation unit 30 is an inlet wind power generator installed inside the inlet pipe 31 and the inlet pipe connected to the inlet side of the inlet neck 23 through the inlet side of the ventilation pipe 21 through which air is introduced. Device 32. The inlet neck portion 23 is fixed by fusion or welding so that the airtight pipe 21 and the inlet pipe 31 are kept airtight.

The inlet wind power generator 32 is driven by the wind blowing the inlet pipe 31 is driven by the ventilation device 22 is generated by the rotation of the blade, the wind power generator is already widely known and used It will be omitted, the description of the inlet wind power generator in more detail.

This, the inlet wind power generator 32 is disposed in the inner center of the inlet pipe 31 by a plurality of ribs and the wind flows between the ribs.

At this time, the wing of the inlet wind power generator 32 is disposed in the inlet neck portion 23, it is preferable to improve the power generation efficiency by the wind is increased through the inlet neck portion 23.

The inlet load control unit 40 is to prevent the efficiency of the ventilation device 22 from dropping, and the inlet load control unit 40 is connected to the ventilation pipe 21 and the inlet pipe 31 in communication with each other. It consists of an inlet connecting pipe 41 and the inlet blocking valve 42 for opening or closing the inlet connecting pipe (41).

The control unit 50 receives the signal from the ventilation device 21 to control the operation of the inlet shutoff valve 42.

Referring to the operating state of the wind power generator having an automatic load control function configured as described above, first operate the ventilator 22 electrically connected to the outside, the wind is introduced into the inlet pipe 31 while the pen rotates, the inlet pipe The inflow wind power generator 32 installed in the 31 is generated by the inflow wind.

Then, when the incoming wind is continuously decelerated by the inlet wind power generator 32 and a load of the ventilation efficiency and the ventilation device 22 is generated, the controller 50 detects this (load heat of the ventilation device) and blocks the inlet. By sending a signal to the valve 42 to open the inlet shut-off valve 42 to branch the wind drawn into the inlet pipe to the inlet connecting pipe 41, to control the generation of the ventilation efficiency and the load (overload) of the ventilation device It becomes possible.

2 is a view showing another embodiment of a wind power generator having an automatic load control function according to the present invention.

Referring to FIG. 2, the ventilation unit 21 is further provided with an outlet wind power generation unit 60 and an outlet load control unit 70 so as to generate wind power by the outflowing wind. Outlet pipe 61 is connected to the outlet side of the exhaust pipe 21 via the outlet neck portion 24 and the outflow wind power generator 62 is installed in the outlet pipe 61, the outlet load The control unit 70 is an outlet shutoff valve 72 for opening or closing the outlet connecting pipe 71 and the outlet connecting pipe 71 interconnecting the exhaust pipe 21 and the outlet pipe 61 in communication with each other. The outlet blocking valve 72 is electrically connected to the controller 50 and operated by a signal of the controller 50.

That is, the outlet wind power generation unit 60 is installed so that the wind power is generated by the wind flowing out of the outlet side of the exhaust pipe 21, and the load is generated in the vent device 22 by the outlet wind power generator 62. The outlet load control unit 70 is installed to prevent it. The outlet load control unit 70 opens or closes the outlet connecting pipe 71 by a signal of the control unit 50 that detects the load heat of the outlet wind power generation unit 60 to load the ventilation efficiency and the ventilation device. It is possible to control what happens.

3 is a view showing another embodiment of a wind power generator having an automatic load control function according to the present invention.

Referring to FIG. 3, the outlet cutoff control unit 70 connects the outlet pipe 61 and the vent pipe 21 in an annular shape.

That is, the outlet pipe 61 and the outlet in an annular shape to prevent the load of the ventilation device 22 is generated by the outlet wind power generation unit 60 installed on the outlet side of the ventilation pipe 21 and the ventilation efficiency is lowered. By connecting the ventilation pipe 21 and forming a plurality of outlet connecting pipe 71 having an outlet blocking valve 72 therein, it is possible to control the generation of the ventilation efficiency and the load of the ventilation device.

10: wind power generator 20: ventilation unit
30: inlet wind power generation unit 40: inlet load control unit
50: control unit 60: exit wind power generation unit
70: outlet load control unit 21: vent pipe
22: ventilator 23: entrance neck
24: outlet neck 31: inlet pipe
32: inlet wind power generator 41: inlet connector
42: inlet shutoff valve 61: outlet pipe
62: outlet wind power generator 71: outlet connector
72: outlet shutoff valve

Claims (3)

A ventilation unit including a hollow ventilation pipe and a ventilation device installed in the ventilation pipe;
An inlet wind power generation unit comprising an inlet pipe connected to an inlet neck through an inlet side of the exhaust pipe and an inlet wind power generator installed inside the inlet pipe;
An inlet load control unit comprising an inlet connecting pipe connecting the exhaust pipe and the inlet pipe to communicate with each other and an inlet blocking valve for opening or closing the inlet connecting pipe; And
Wind turbines having an automatic load control function, characterized in that consisting of a control unit for receiving the signal of the ventilation device to control the operation of the inlet shut-off valve.
The method of claim 1,
The vent part is further provided with an outlet wind power generation unit and an outlet load control unit to generate wind power by the outflowing wind,
The outlet wind power generation unit is composed of an outlet pipe connected to the outlet neck through the outlet side of the ventilation pipe and an outlet wind power generator installed inside the outlet pipe,
The outlet load control unit is composed of an outlet connecting pipe for interconnecting the round tube and the outlet pipe and the outlet blocking valve for opening or closing the outlet connecting pipe,
The outlet shut-off valve is electrically connected to the control unit is a wind power generator having an automatic load control function, characterized in that operated by the signal of the control unit.
The method of claim 2,
The outlet cutoff control unit is a plurality of wind turbine generator having an automatic load control function, characterized in that to connect the outlet pipe and the exhaust pipe in the shape of an annular.

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