JP3152090U - Ventilation fan wind power generator - Google Patents

Abstract

A structure of a wind power generator for a ventilation fan is provided. An exhaust fan includes a wind power generation unit, the exhaust fan includes an outer cover, one end of the outer cover has an air inlet 100, and another end of the outer cover has an air exhaust port 109. A motor 11 is provided inside the outer cover, the motor is fixed in the outer cover by a plurality of stands, the motor electrically connects a control unit, a drive shaft is provided on the motor, and a plurality of motors are provided on the drive shaft. Ventilation fins 12 are installed. The wind power generation unit provided at the exhaust outlet of the ventilation fan includes an exhaust pipe 20, one end of the exhaust pipe is a connection end, and the other end is an air outlet 209, and a generator is provided inside the exhaust pipe. The generator is fixed in the exhaust pipe with a plurality of fixing bases, the generator has a rotating shaft, the rotating shaft is provided with a plurality of wind fins 22, and the wind power generation unit has a separate conductor. Provide and connect with electrical equipment. [Selection] Figure 2

Description

  The present invention relates to a structure of a power generation apparatus, and more particularly to a structure of a wind power generation apparatus that uses a wind from a ventilation fan as a wind power source.

  With the ever-increasing energy crisis and environmental pollution, the world is exploring new energy alternatives. Instead of oil, it is hoped that solar energy, wind power, hydropower, etc. will produce endless and immortal energy that will not pollute the environment and supply it to the next generation.

Common wind generators are installed outdoors, and naturally generated wind moves the fins in the generator to produce wind power, which produces clean and pollution-free energy. However, conventional wind power generators are affected by the season and climate, wind direction changes, and wind strength is not uniform, so wind generators are frequently adjusted due to changes in wind strength and wind direction. The power needs to be reduced and the power is not stable due to the change in wind power.

  Also, general buildings and factory buildings are operated by installing ventilation equipment outside the rooftop or factory buildings to maintain indoor ventilation or to discharge indoor hot air and dirty air. By doing so, the air in the room is refreshed. However, the wind power generated by the conventional ventilation equipment consuming electric power has only the function of adjusting the ventilation, and the discharged wind power flows outside after the discharge, and the reason why it is not applied properly is a waste of resources. There was a need to further improve the above technique.

JP 2004-144308 A

  In order to solve the disadvantages of the prior art, it is a main object of the present invention to provide a wind power generator that is environmentally friendly, can save energy, and uses wind power discharged from a ventilation fan as a power generation source.

  In order to solve the above-mentioned problems, the present invention provides a structure of a wind turbine generator for a ventilation fan. The specific contents of the ventilation fan are as follows: an outer cover, one end of the outer cover is an air inlet, the other end is an air outlet, and a motor is provided inside the outer cover, and the motor is fixed in the outer cover by a plurality of stands. The motor electrically connects a control unit, and the control unit controls the operation and rotational speed of the motor. The motor is provided with a drive shaft, and a plurality of ventilation fins are installed on the drive shaft. The drive shaft drives the rotation of the fins, thereby producing a ventilation effect. A plurality of wind power generation units provided at the exhaust outlet of the ventilation fan include an exhaust pipe, one end of the exhaust pipe is a connection end, and the other end is an air exhaust outlet. A generator is provided inside the exhaust pipe, and the generator is fixed in the exhaust pipe with a plurality of fixing bases. The generator has a rotation shaft, and a plurality of wind fins are provided on the rotation shaft. When the wind fins receive wind force, the rotation shaft is driven to convert the rotation into energy. The wind power generation unit can be electrically connected to the power facility by providing a separate conductor (for example: one of a transformer or a storage battery).

The specific effects of the design of the present invention are as follows:
1. The wind power of a ventilation fan is stable and sustainable, not changing with the climate, like natural wind.
2. The structure is light and easy to assemble by simply covering the existing ventilation fan. It is lower than the cost of a general power generator and does not take up much space.
3. To save energy and protect the environment by using the wind power discharged from the ventilator for wind power generation and fully utilizing the existing energy.

It is a three-dimensional exploded external view of the present invention. It is a sectional structure figure of the present invention. It is a section operation state figure of the present invention. FIG. 3 is a cross-sectional structure diagram of a second embodiment of the present invention.

  In order to clearly show the structure of the wind power generation of the ventilation fan according to the present invention, a detailed description will be given with reference to the drawings.

  FIG. 1 and FIG. 2 show a ventilation fan wind power generator of the present invention, which includes a ventilation fan 1, an outer cover 10, one end of the outer cover at the air inlet 100, and the other end at the air outlet 109, A motor 11 is provided inside the outer cover 10, and the motor 11 is fixed in the outer cover 10 by a plurality of stands. The motor 11 is electrically connected to a control unit 19, and the control unit 19 controls the operation and rotational speed of the motor 11. The motor 11 is provided with a drive shaft 110, and a plurality of ventilation fins 12 are installed on the drive shaft 110. The drive shaft 110 drives the rotation of the fins 12, thereby producing a ventilation effect. A plurality of wind power generation units 2 provided in the exhaust outlet 109 of the ventilation fan 1 includes an exhaust pipe 20, one end of the exhaust pipe is a connection end 200, and the other end is an air exhaust opening 209. A generator 21 is provided in the exhaust pipe 20, and the generator 21 is fixed in the exhaust pipe 20 by a plurality of fixing bases 201. The generator 21 has a rotating shaft 201, and the rotating shaft 201 is provided with a plurality of wind fins 22. When the wind fins 22 receive wind force, the rotating shaft 201 is driven to generate the rotation as energy. Change. The wind power generation unit 2 is provided with a separate conductor 9, and the conductor 9 can be electrically connected to a transformer (not shown in the figure) or a storage battery (not shown in the figure). The material of the ventilation fin 12 and the wind fin 22 is glass fiber.

  As shown in FIGS. 1 and 3, after the ventilation fan 1 is activated by the control unit 19, the motor 11 starts to rotate, and the airflow is disturbed by interlocking the drive shaft 110 and the ventilation fins 12 to produce a ventilation effect. The discharged wind force sequentially flows from the exhaust port 109 through the connection port 200 and the exhaust tube 20 to the wind fin 22 and is discharged from the air exhaust port 209. When the wind fin 22 starts rotating with wind power, the generator 21 converts the rotation into energy because the rotating shaft 210 of the generator 21 is interlocked. The electric energy generated by the generator 21 is transmitted to the electric power equipment (not shown in the figure, for example, a transformer or a storage battery) through the conductor 9, and the electric power is further used for electric products (not shown in the figure, electric light, electric fan, etc.).

  As shown in FIG. 4, the wind power generation unit 2 of the present invention is provided in the exhaust outlet 109 of the ventilation fan 1 in the form of a series circuit, so that the wind power discharged by the ventilation fan 1 can be fully utilized. The resulting electrical energy is also greater than that of a single wind power generation unit 2.

  Since the wind power generator of the ventilator of the present invention has a shape that covers the existing ventilator, the structure is light and easy to assemble, is cheaper than the cost of a general power generator, and does not occupy much space. In addition, the wind power of the ventilation fan is constant unlike the natural wind power, so it has the best stability and sustainability. It has become easier to use, with the ability to manually control the wind force or direction of the ventilation fan.

The detailed description of the present invention according to the above embodiments does not limit the scope of the present invention. Even if a person familiar with the present technology makes changes or adjustments within the scope of the present invention, the important significance of the present invention is not lost and is included in the scope of the present invention.

1. Ventilation fan
10 Outer cover
19 Control unit
100
101 stand
109 Ventilation outlet
11 motor
110 Drive shaft
12 Ventilation fins
2 Wind power generation unit
20 Exhaust pipe
201 fixed base
209 Air outlet
21 Generator
210 Rotation axis
22 Wind fins
9 conductor

Claims (4)

Including ventilation fan, wind power generation unit,
The ventilation fan includes an outer cover, one end of the outer cover has an air inlet, and the other end of the outer cover has an air outlet.
A motor is provided inside the outer cover, the motor is fixed in the outer cover by a plurality of stands, the motor electrically connects a control unit, a drive shaft is provided on the motor, and a plurality of ventilations are provided on the drive shaft. Install fins,
The wind power generation unit provided at the exhaust outlet of the ventilation fan includes an exhaust pipe, one end of the exhaust pipe is a connection end, and the other end is an air exhaust outlet.
A generator is provided inside the exhaust pipe, the generator is fixed in the exhaust pipe with a plurality of fixing bases, the generator has a rotating shaft, a plurality of wind fins are provided on the rotating shaft, A wind power generator for a ventilation fan, wherein the wind power generation unit is provided with a separate conductor, and the conductor is electrically connected to the electrical equipment.   2. The wind power generator for a ventilation fan according to claim 1, wherein the power facility is a transformer.   2. The wind power generator for a ventilation fan according to claim 1, wherein the power facility is a storage battery.   2. The wind power generator for a ventilation fan according to claim 1, wherein the wind power generation unit is installed in the exhaust port of the ventilation fan in the form of a series circuit.

Images