WO2022237036A1

WO2022237036A1 - Horizontal coaxial wind driven generator

Info

Publication number: WO2022237036A1
Application number: PCT/CN2021/119195
Authority: WO
Inventors: 帅优
Original assignee: 帅优
Priority date: 2021-05-13
Filing date: 2021-09-18
Publication date: 2022-11-17
Also published as: CN113027672A

Abstract

A wind driven generator, comprising an air inlet device, an air inlet duct, a partition plate (3), a fan main shaft (5), fan blades (6), a generator (7), and a gear box (8). The fan main shaft (5) and the fan blades (6) are transversely mounted at the rear end of the air inlet duct. The generator (7) is mounted at two ends of the fan main shaft (5) by means of the gear box (8), and the air inlet device is mounted on two sides of the front end of the air inlet duct. The front end of the air inlet duct is connected to an air inlet of an automobile engine compartment. The partition plate (3) is mounted in the middle of the front end of the duct and divided into an upper part and a lower part. The whole wind power generator is in a flat shape and can be mounted in the automobile engine compartment. The air inlet device can be turned on or off according to the driving speed of the vehicle, and the generator drives power generation by means of the wind energy generated by the driving of the vehicle and the wind energy generated by the air inlet device.

Description

Horizontal coaxial wind turbine

technical field

The invention belongs to the technical field of wind power generation, and in particular relates to a wind power generator.

Background technique

It has become a trend to replace internal combustion engines with energy storage vehicles powered by electric energy. Taking electric vehicles as an example, limited by the capacity of energy storage devices (batteries), safety and convenience of charging, mileage anxiety is a major factor affecting the development of electric vehicles. If the wind energy generated by the car during driving can be used to generate power for the battery to supplement energy, it will greatly increase the cruising range of the electric car and enhance the driving experience of the user, but it is limited by the structure of conventional wind turbines (horizontal axis or vertical axis wind turbine) volume and installation requirements, without destroying the design structure of modern cars and affecting the driving safety of the car, it is not feasible to install conventional wind turbines on the car.

Contents of the invention

The technical problem to be solved by the present invention is to provide a wind power generator that can be installed on an electric vehicle or other vehicles powered by electric energy without changing the overall appearance design and mechanical structure of the vehicle or other vehicles and Without affecting the safety of driving, the high-speed wind energy generated by the driving of vehicles or other means of transportation is used to generate electricity.

The present invention will solve the above technical problems through the following technical solutions:

A kind of wind power generator, comprises wind-intake equipment (below taking centrifugal fan as example), air-intake duct, clapboard, fan main shaft, fan blade and generator and gear box, it is characterized in that: described fan main shaft, fan blade Installed horizontally at the end of the air intake duct, the generator is coaxially installed at both ends of the main shaft of the fan through the gearbox, the front end of the air intake duct is connected to the air inlet of the engine compartment of the car, and the partition is installed on the air intake duct In the front passage, centrifugal fans are installed on both sides of the front end of the air intake duct, and the wind generator is flat as a whole and can be installed in the engine compartment of an automobile.

In this scheme, the above-mentioned structural form is adopted. During the driving process of the vehicle, the air will enter the air intake duct through the front air inlet of the vehicle, and the centrifugal fans installed on both sides of the front end of the air intake duct will start working when the vehicle is running at low speed. , according to the structural characteristics of the centrifugal fan, the air inlet and outlet of the centrifugal fan are separated by a partition, the air outlet is installed above the partition to generate thrust, and the air inlet of the centrifugal fan is installed below the partition to generate suction, and the centrifugal fan and the vehicle drive The generated wind energy acts on the fan blades to drive the generator to generate electricity.

In this scheme, the above-mentioned structural form is adopted. During the high-speed driving of the car, the centrifugal fan will stop working, and the generator will be driven by the high-speed wind energy generated by the vehicle. Excessive wind speed may affect the working state and service life of the generator. , so the active closed air intake grille can be installed at the air intake of the car, and the air intake volume can be adjusted to protect the motor when the wind speed is too high. The active closed air intake grille has been widely used by automobile manufacturers and is not used in this scheme Elaborate on this.

In this proposal, the above-mentioned structural form is adopted, limited by the narrow space in the engine room and the power of a single generator, the number of generators that can be installed will be increased through the gearbox, and the upper limit of the overall power of the wind turbine will be increased. The gear box can be used to increase the speed to improve the power generation efficiency of the generator.

The present invention has the following advantages:

(1) The structure of the present invention is simple. The wind power generator adopts a horizontal installation method and is flat as a whole. It can be installed in the engine compartment of an automobile or on other energy storage vehicles without damaging the appearance design of a modern automobile or affecting the appearance of the automobile. Drive safely.

(2) In the present invention, the generators on both sides are connected by a coaxial structure, and the number and speed of the generators are increased through the gearbox, so that the power generation efficiency will be greatly improved.

(3) The present invention can enhance the wind speed and air volume in the air intake duct through the work of the centrifugal fan during the low-speed running of the vehicle, improve the power generation efficiency, and increase the cruising range of the vehicle.

(4) The present invention generates electricity during high-speed running of the vehicle, which can increase the cruising range of the vehicle, reduce charging time, reduce dependence on the power grid (charging pile), and enhance the energy-saving and environmental protection effect of the vehicle or energy storage vehicle.

Description of drawings

Fig. 1 is a schematic diagram of a disassembled state of the wind power generator of the present invention.

Fig. 2 is a schematic structural view and a cross-sectional view of the present invention.

Fig. 3 is a schematic diagram of the installation in the engine compartment of the car of the present invention in the embodiment.

Fig. 4 is a schematic diagram of series installation of the present invention in the embodiment.

Explanation of reference signs: 1-upper part of air inlet duct, 2-lower part of air inlet duct, 3-baffle, 4-centrifugal fan (401-inlet of centrifugal fan, 402-air outlet of centrifugal fan), 5-shaft of fan , 6-fan blades, 7-generator, 8-gearbox.

Detailed ways

The present invention will be further described below in conjunction with specific drawings, and therefore the present invention is not limited within the scope of the following embodiments.

Embodiment 1: as shown in Fig. 3: in the present embodiment, the present invention is installed in the engine compartment of automobile front, and in vehicle driving, air enters drive vane 6 from gear box 8 and makes generator 7 work through gear box 8 , when the running speed of the vehicle is insufficient, the centrifugal fan 4 starts to work to increase the air intake in the air intake duct and increase the wind speed, thereby improving the power generation efficiency of the generator 7. If when the vehicle is running at high speed, the centrifugal blower 4 will not be opened at this time because the power generation efficiency has been improved.

Embodiment 2: As shown in Figure 4: in this embodiment, because the vehicles such as public transport buses carry large loads and consume high energy, the present invention can be installed in series on the roofs of buses or other vehicles on public transport vehicles and other vehicles. , the front and rear ends of the air intake duct of the present invention are not closed, and can be connected end to end, and the front end opening of the air intake duct of the wind power generator described in the rear is slightly higher than the rear end of the air intake duct of the front wind power generator to form an opening to increase air intake At the same time, the air inlet and air outlet of the centrifugal fan are all installed in the air inlet duct connected in series. According to the characteristics of the centrifugal fan, the air inlet is installed at the rear of the blade of the fan described in the present invention in front, and the suction can be increased during work. The thrust of the air outlet together enhances the kinetic energy of the air in the duct and improves the overall power generation efficiency.

Claims

A kind of wind power generator, it comprises wind-intake equipment, air-intake duct, clapboard, fan main shaft, fan blade and generator and gear box, it is characterized in that: fan main shaft and fan blade and gear box and generator are installed on the inlet Air intake equipment is installed at the rear end of the air duct, and the front end of the air intake duct is installed, and a partition is installed in the channel at the front of the duct.
The wind power generator according to claim 1, characterized in that: said air intake equipment includes but not limited to centrifugal fan and its devices that act on air and other fluids and make them flow and transfer energy, and will pass through the air intake The air kinetic energy and other fluid kinetic energy generated by the equipment act on the blades and impellers connected to the generator shaft in the form of force, thereby driving the generator to generate electricity.
The wind power generator according to claim 1, characterized in that: the air inlet duct is in the shape of a flat box, the front and rear ends are openings, and a partition is installed in the duct front end passage to separate the front duct into upper and lower parts. two parts.
The wind power generator according to claim 1, characterized in that: the air outlet of the air inlet device is located above the duct partition, the air inlet is located below the duct partition, when the wind inlet device is working, the upper air outlet generates thrust, and the lower air inlet Suction is generated and acts together on devices connected to generators such as fan blades or impellers.
The wind power generator according to claim 1, characterized in that: the fan blades and the fan main shaft are installed horizontally at the rear end of the air inlet duct, and the generators on both sides are installed at both ends of the fan main shaft through a gearbox, and the gearbox can be Multiple generators are connected and installed, and the gearbox can be used for generator speed regulation.
The wind-driven generator according to claim 1, characterized in that: the wind-intake duct is a through-type, and a plurality of wind-driven generators can be installed in series. When installed in series, the upper edge of the air-intake duct of the rear wind-driven generator is higher than that in the front The upper edge of the air intake duct of the wind engine forms an opening to increase the air intake.
The wind power generator according to claim 1, characterized in that: when installed in series, the air inlet of the air inlet device is installed on the rear side of the front fan blade, and the air outlet is installed on the front end side of the rear fan blade. The air inlet of the wind equipment generates suction, and the air outlet generates thrust, which enhances the kinetic energy of the air or other fluid kinetic energy in the air inlet duct.