TWM549268U - Coupling type wind energy guiding power generation device - Google Patents

Description

Coupling wind energy guiding power generation device

The present invention relates to a power generation device, and more particularly to a coupled wind energy-oriented power generation device capable of guiding concentrated wind energy to increase power generation efficiency of a generator.

Wind energy is an energy generated by the flow of air. When the air flow rate is higher, the wind energy is relatively larger. Wind energy can be converted into useful mechanical energy through machinery. For example, a wind turbine is a mechanism that converts the kinetic energy of wind into useful electric energy. The wind energy generator uses wind to drive the rotation of the windmill blades, which in turn drives the generator shaft to drive the generator to generate electricity. According to the current windmill technology, about three meters per second of breeze speed, you can start generating electricity.

Therefore, the location of the windmill of the wind power generator must be in a place with good wind performance. The windmill must be installed in a place with a long wind period, an average wind speed, and a stable wind. Therefore, wind turbines of wind turbines are mainly installed in coastal areas and fields. River dykes, windbreaks, ridged open spaces and other relatively empty open spaces, which are the most open coastal areas, without the obstacles of buildings such as mountains and high-rise buildings, have become an excellent place for windmills to set up wind power.

However, in the past, wind power generation equipment could not effectively increase the efficiency of wind energy utilization by focusing on wind energy. In the past, wind power generation equipment can only use the airflow that is blown by a single windmill, and the airflow of the remaining wind direction is lost, so that the power generation efficiency is achieved. Relatively lower.

In view of this, the author proposes a connected wind energy-oriented power generation device for the lack of the above-mentioned conventional technologies, which can effectively collect and collect wind energy, improve the efficiency of using wind energy, and adopt a plurality of wind collecting devices to match one. The group generator generates electricity, changes the thinking of a group of generators with multiple sets of generators in the past, and generates more wind power generation by multiple wind collecting devices, effectively overcoming the above problems.

The main purpose of this creation is to provide a coupling type wind energy-oriented power generation device, which can efficiently search a large area of wind energy at multiple angles to guide the flow of wind energy to the fan, and promote the fan of the generator to improve the hair. The power generation efficiency of the motor.

Another object of the present invention is to provide a coupled wind energy-oriented power generating device that can connect a plurality of wind collecting devices by using only one shaft of one generator, so that the generating wind energy of the generator is increased, and Reduce production costs.

Another object of the present invention is to provide a coupled wind energy-directed power generating device which is simple in structure and relatively low in manufacturing cost, robust and has a protective mechanism to buffer wind power, so that the structure is relatively stable and can withstand strong winds.

For the above purposes, the present invention provides a coupled wind energy-directed power generating device comprising at least one generator having at least one shaft disposed thereon to provide a plurality of wind collecting devices connected in series on the shaft of the generator. Each of the wind collecting devices comprises a support frame, a fan is arranged on the support frame, and the fan is mounted on the shaft; the support frame is further provided with an upper air deflector on one side of the fan and extending above the fan In order to guide the upper wind energy to the fan, the support frame and the fan are arranged under the fan to guide the wind energy to the fan, and the shaft is rotated to generate electricity for the generator.

In order to give your reviewers a better understanding and understanding of the structural features and the efficacies achieved, please refer to the preferred embodiment diagrams and detailed descriptions.

The combined wind energy-oriented power generation device 1 of the present invention can be fixed on a windy coastal zone or a mountainside or a mountaintop on the wind, and can effectively collect and concentrate wind energy of multiple wind directions, thereby increasing the efficiency of the generator fan rotation. Thereby improving power generation efficiency.

Referring to the first figure, the structure of the inventive wind-powered power generating device 1 is illustrated, wherein the coupled wind energy-directed power generating device 1 includes at least one generator 10 for generating electrical energy, and the generator 10 is provided with at least A shaft 12 is sequentially disposed on the shaft 12 in a manner that the plurality of air collecting devices 20 are connected in series, and each of the wind collecting devices 20 is further provided with a connector 30, which can be a bearing for fixing Each of the wind collecting devices 20 enhances the hardness of the shaft 12 and increases the stability of the shaft 12, and assists the shaft 12 to rotate, so that the wind collecting device 20 can effectively collect wind energy and drive the power generating device 10 to generate electricity.

Referring to the first to third figures, the structure of each of the wind collecting devices 20 will be described in detail. The air collecting device 20 includes a supporting frame 22, which can move the wind collecting device 20 to a fixed position through the carrier. The support frame 22 is fixed on the ground by means of a fixing device 36 such as an L-shaped fixed iron piece, and a shaft mounting seat 220 is respectively disposed on opposite sides of the support frame 22, so that the shaft 12 can be disposed therein, the connector 30 is disposed on the shaft 12 to connect each of the wind collecting devices 20 to increase the strength of the shaft 12 and assist the shaft 12 to rotate. The support frame 22 is further provided with a fan 24, and the fan 24 is mounted in series on the shaft 12, so that when the fan 24 rotates, the shaft 12 can be rotated to generate electricity for the generator 10. The upper air deflector 26 can be fixed to the support frame 22 by welding or a fixing component such as a screw. The upper air deflector 26 can be a skewed plate or an arc-shaped upper wind deflector. Taking the upper air deflector as an embodiment, the upper air deflector 26 is located at the side of the fan 24, and the upper air deflector 26 surrounds the fan 24 and extends above the fan 24 to guide the upper wind energy flow. To the fan 24, the upper air deflector 26 is further provided with at least a first air outlet 260. In this embodiment, two first air outlets 260 are provided, and each first air outlet 260 is provided on the other side of the fan 24. The first cover 262 is disposed on the upper air deflector 26 through the first rotating lever 264 to shield or open the first air outlet 260. When the air volume blown into the upper air deflector 26 is excessively large, The thrust can be pushed to push the first cover 262 away, thereby discharging the wind energy, and the upper wind deflector 26 can be prevented from being damaged by excessive wind force; in addition, the support frame 22 is located on both sides of the upper air deflector 26 The baffle plate 28 is respectively provided, and the baffle plate 28 can prevent the wind energy flowing to the upper air deflector 26 from being dispersed outward, and can effectively concentrate the wind. can.

Next, please refer to the first to third figures. The support frame 22 and the fan 24 are further provided with a wind deflecting plate 32, and the wind deflecting plate 32 can guide the wind energy flowing downward into the fan 24, thereby driving The fan 24 and the shaft 12 are rotated to generate kinetic energy to cause the generator 10 to generate electricity. The wind deflecting slab 32 is further provided with at least a second air outlet 320. In this embodiment, two second air outlets 320 are provided, and each raft is provided. The second air outlet 320 is disposed on the other side of the fan 24 with a second cover 322. The second cover 322 is disposed on the wind deflector 32 through the second rotating rod 324 to shield or open the second air outlet. 320, when the air volume blown into the wind deflecting slab 32 is too large, a thrust can be generated to push the second cover 322 away, thereby discharging the wind energy, and preventing the wind deflecting slab 32 from being damaged by excessive wind. Wherein between the upper air deflector 26 and the wind deflecting slab 32, and below the fan 24, a sputum drainage opening 34 is further provided to introduce excess wind energy from the upper air deflector 26 and the wind deflecting slab 32. discharge.

After explaining the structure of the creation, please refer to the fourth figure to explain in detail the use state of the creation in the wind. As shown in the figure, firstly, the user can adjust the wind collecting device 20 to blow the wind energy to the upper wind guide. The upper airflow of the plate 26 and the wind deflecting slab 32 can be flowed by the upper air deflector 26 to the fan 24 and discharged by the drain opening 34. The lower wind energy can flow to the fan 24 through the wind deflecting slab 32, and is led by the drain opening. 34 discharge. In detail, when the upper airflow hits the upper air deflector 26, the airflow can flow down the upper air deflector 26 to the fan 24, pushing the fan 24 to rotate, and the airflow can flow out through the drain opening 34, avoiding and guiding the wind. The airflow conflicts at the end of the swash plate 32; when the lower airflow hits the wind deflecting slab 32, the wind energy can be directed to flow upward to the fan 24, the fan 24 is pushed to rotate, and the airflow can flow out through the drain opening 34, avoiding the upper air deflector 32 airflow conflicts. Therefore, the present case can collect all the wind energy blown in front, and concentrate the wind energy to the fan 24, and push the fan 24 to rotate to drive the shaft 12, thereby providing generator power generation.

Next, please refer to the fifth figure to explain in detail that when the wind is too strong, such as a typhoon or a storm, the wind speed exceeds 13 m/s, a large amount of air is blown to the upper wind deflector 26, and the first cover 262 is subjected to the determined wind. The first cover 262 can be pushed away by the wind, so that the excess air volume can be discharged by the first air outlet 260, reducing the force of the upper air deflector 26, and the upper air guide 26 can be prevented from being damaged. Similarly, when a large amount of air is blown to the wind deflecting slab 32, when the second covering 322 is subjected to the determined wind power, the second covering 322 can be pushed away by the wind, so that the excess air volume can be discharged by the second air outlet 320. In order to reduce the wind force of the wind deflecting slab 32, the wind deflecting slab 32 is prevented from being damaged, so that the structure is relatively stable and can withstand strong wind.

In summary, the creation can effectively collect a large area of wind energy in front of a large angle to guide the flow of wind energy to the front end of the fan, enabling up to 90% of the wind energy, thereby increasing the efficiency of fan rotation to improve The power generation efficiency of the generator, and the creation of a plurality of wind collecting devices can be connected by one shaft of one generator, and the power generation amount is increased by the series connection of the plurality of wind energy guiding power generating devices. The power generation rate of tens of thousands of kilowatts generates strong economic benefits and can become a good green power. In addition, the simple structure of the creation makes the production cost relatively low, and it is strong and has a protective mechanism to buffer the wind and make the structure use. Relatively stable to withstand strong winds.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. Therefore, any change or modification of the characteristics and spirit described in the scope of this application shall be included in the scope of the patent application for this creation.

1‧‧‧Connected wind energy-oriented power generation unit
10‧‧‧ Generator
12‧‧‧ shaft
20‧‧‧ collecting device
22‧‧‧Support frame
220‧‧‧ shaft mount
24‧‧‧fan
26‧‧‧Upper wind deflector
260‧‧‧First air outlet
262‧‧‧First cover
264‧‧‧First Rotary
28‧‧‧Baffle
30‧‧‧Connector
32‧‧‧ Wind deflector
320‧‧‧second air outlet
322‧‧‧Second cover
324‧‧‧Second Rotary
34‧‧‧Drainage opening
36‧‧‧Fixed devices

The first picture is a three-dimensional diagram of the creation. The second picture is a three-dimensional schematic diagram of the wind collecting device of the present creation. The third figure is an exploded view of the components of the wind collecting device of the present creation. The fourth picture is a side view of the state of use of the wind collecting device of the present creation. The fifth figure is a side view of another use state of the wind collecting device of the present invention.

1‧‧‧Connected wind energy-oriented power generation unit

10‧‧‧ Generator

12‧‧‧ shaft

20‧‧‧ collecting device

22‧‧‧Support frame

220‧‧‧ shaft mount

24‧‧‧fan

26‧‧‧Upper wind deflector

28‧‧‧Baffle

30‧‧‧Connector

32‧‧‧ Wind deflector

320‧‧‧second air outlet

34‧‧‧Drainage opening

36‧‧‧Fixed devices

Claims (11)

A coupled wind energy-directed power generating device includes: at least one generator having at least one shaft disposed thereon; and a plurality of wind collecting devices serially connected to the shaft of the generator, each of the collecting devices including a support frame; a fan disposed on the support frame and mounted on the shaft; an upper air guide plate disposed on the support frame and located on one side of the fan and extending above the fan to guide The upper wind energy flows to the fan; and the wind deflecting slab is disposed on the support frame and located under the fan to guide the lower wind energy to the fan, so that the shaft rotates to generate electricity for the generator. The coupled wind energy-directed power generating device of claim 1, wherein a baffle is disposed on the support frame and on both sides of the upper air deflector. The coupled wind energy-directed power generating device of claim 1, wherein the support frame is respectively provided with a shaft mounting seat on opposite sides thereof, so that the shaft can be penetrated therein. The coupled wind energy-directed power generating device of claim 1, further comprising a plurality of connectors disposed on the shaft to connect each of the wind collecting devices to assist the shaft to rotate. The coupled wind energy-directed power generating device of claim 1, wherein the upper air deflector and the wind deflecting slab are disposed under the fan. The coupled wind energy-directed power generating device of claim 1, wherein the upper air guiding plate is further provided with at least a first air outlet. The coupled wind energy-directed power generating device of claim 6, wherein the first air outlet of the upper air deflector is provided with a first cover opposite to the other side of the fan, the first cover system The first air deflector is disposed on the upper air deflector through the first rotating rod to shield or open the first air outlet. The coupled wind energy-directed power generating device of claim 1, wherein the wind deflecting slab is further provided with at least a second air outlet. The coupled wind energy-directed power generating device of claim 8, wherein the second air outlet of the wind deflecting plate is provided with a second cover opposite to the other side of the fan, the second covering system The second rotating rod is disposed on the wind deflecting plate through the second rotating rod to shield or open the second air outlet. The coupled wind energy-directed power generating device of claim 1, wherein the bottom of the support frame is further provided with a plurality of fixing devices for fixing the support frame to a ground. The coupled wind energy-directed power generating device of claim 1, wherein the upper air deflector is an arc-shaped upper wind deflector.