CN221779569U - A vertical multi-direction wind-gathering low-noise breeze generator - Google Patents

Abstract

The utility model relates to the technical field of generators, in particular to a vertical multi-wind-direction wind-gathering low-noise breeze generator, which comprises a power generation leaf fan, a leaf fan protection housing and a generator mounting platform, wherein the whole generator is of a circular structure, and five equipment supporting structures are uniformly and fixedly arranged on the side wall of the generator mounting platform at equal intervals; the guide mechanism comprises a first wind collecting guide plate, a second wind collecting guide plate, a third wind collecting guide plate, a fourth wind collecting guide plate, a fifth wind collecting guide plate, a sixth wind collecting guide plate and a seventh wind collecting guide plate, wherein the first wind collecting guide plate, the second wind collecting guide plate, the third wind collecting guide plate, the fourth wind collecting guide plate, the fifth wind collecting guide plate, the sixth wind collecting guide plate and the seventh wind collecting guide plate are lengthened step by step from top to bottom so as to reduce windward angles.

Description

Vertical multi-wind-direction wind-gathering low-noise breeze generator

Technical Field

The utility model relates to the technical field of generators, in particular to a vertical multi-wind-direction wind-gathering low-noise breeze generator.

Background

Wind power generation is a renewable energy technology that uses wind energy to convert into electrical energy. Wind power generation is another common renewable energy conversion mode, the background of the wind power generation can be traced back to the ancient times, the modern wind power generation originates from the energy crisis at the end of the 20 th century and the rising of environmental protection consciousness, along with the concern about the dependence on traditional fossil fuels and global greenhouse gas emission, the wind power generation is gradually valued as a clean and renewable energy source, the development situation of the wind power generation is rapidly increased, along with the continuous progress of technology and the reduction of cost, the wind power generation is one of the most important renewable energy sources worldwide, and a plurality of countries are developing wind power generation greatly, so that the wind power generation not only provides a reliable alternative choice for energy supply, but also has positive significance for reducing carbon emission and coping with climate change.

Traditional wind power generation is mainly divided into a horizontal shaft type and a vertical shaft type, wherein the wind power generation is further divided into a lift force type and a resistance type, but the wind power generation is characterized in that leaf fans vertically rotate with the ground, and the following defects exist:

1. most of rotating mechanisms of the existing equipment are exposed, so that the safety is poor;

2. The existing equipment has the possibility of turning the fan blades into pieces under the condition of large wind force, and is easy to generate risks such as splashing of fragments;

3. The small fan causes great damage to the flying of birds;

4. The windward structure of the existing equipment is poor in stability and easy to damage.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a vertical multi-wind-direction wind-gathering low-noise breeze generator, which solves the problems that most of rotating mechanisms of the prior equipment are exposed, and the safety is poor; the fan blades are likely to be smashed under the condition of large wind force, and risks such as splashing of fragments are easy to generate; the small fan causes great damage to the flying of birds; the windward structure of the existing equipment is a technical problem that a rotating mechanism is poor in stability and easy to damage.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

The vertical multi-wind-direction wind-gathering low-noise breeze generator comprises a power generation leaf fan, a leaf fan protection outer cover and a generator mounting platform, wherein the leaf fan protection outer cover is sleeved on the surface of the power generation leaf fan, the generator mounting platform is arranged below the power generation leaf fan, and five equipment supporting structures are uniformly and fixedly arranged on the side wall of the generator mounting platform at equal intervals;

Wherein, a diversion mechanism is arranged between every two of the five equipment supporting structures;

The flow guiding mechanism comprises a first wind collecting flow guiding plate, a second wind collecting flow guiding plate, a third wind collecting flow guiding plate, a fourth wind collecting flow guiding plate, a fifth wind collecting flow guiding plate, a sixth wind collecting flow guiding plate and a seventh wind collecting flow guiding plate, wherein the first wind collecting flow guiding plate, the second wind collecting flow guiding plate, the third wind collecting flow guiding plate, the fourth wind collecting flow guiding plate, the fifth wind collecting flow guiding plate, the sixth wind collecting flow guiding plate and the seventh wind collecting flow guiding plate are lengthened step by step from top to bottom.

Preferably: the first wind collecting guide plate, the second wind collecting guide plate, the third wind collecting guide plate, the fourth wind collecting guide plate, the fifth wind collecting guide plate, the sixth wind collecting guide plate and the seventh wind collecting guide plate on the same horizontal plane are not connected, and the first wind collecting guide plate, the second wind collecting guide plate, the third wind collecting guide plate, the fourth wind collecting guide plate, the fifth wind collecting guide plate, the sixth wind collecting guide plate and the seventh wind collecting guide plate are fixedly installed on the equipment supporting structure.

Preferably: the device supporting structure evenly divides the first wind collecting guide plate, the second wind collecting guide plate, the third wind collecting guide plate, the fourth wind collecting guide plate, the fifth wind collecting guide plate, the sixth wind collecting guide plate and the seventh wind collecting guide plate into five equal parts, and the power generation leaf fan is positioned above the middle parts of the first wind collecting guide plate, the second wind collecting guide plate, the third wind collecting guide plate, the fourth wind collecting guide plate, the fifth wind collecting guide plate, the sixth wind collecting guide plate and the seventh wind collecting guide plate.

(III) beneficial effects

1. Because the main body structure is circular, except right above, any surface can not see the fan blade fan, and can not touch the fan blade fan, so that the power generation safety is improved;

2. The angle of the circular outer wall can be adjusted under the condition of strong wind so as to reduce the airflow flowing to the fan;

3. Even if the fan is broken, the fan is damaged in the circular shell, so that no fragments are splashed to hurt people and objects, and the use safety is improved;

4. Birds cannot fall in the circular fan mechanism under the influence of the ascending airflow, and the side grille prevents the birds from entering the circular fan mechanism, so that the problem of contact with the birds is avoided;

5. the windward mechanism is a fixed structure, has good stability and is hardly damaged by external impact;

6. Due to the design structure, when rain and snow fall into the equipment, the rain and snow can be discharged out of the equipment along with the structural surface, and the phenomenon of rain and snow deposition can not be caused.

Drawings

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and the accompanying drawings.

FIG. 1 is a side view of the present utility model;

fig. 2 is a diagram of a generator mounting platform connection explosion configuration of the present utility model.

Legend description: 1. generating leaf fans; 2. a leaf fan protective cover; 3. a generator mounting platform; 4. the first wind collecting guide plate; 5. the second wind collecting guide plate; 6. a third wind collecting guide plate; 7. a fourth wind collecting guide plate; 8. a fifth wind collecting guide plate; 9. a sixth wind collecting guide plate; 10. a seventh wind collecting guide plate; 11. an equipment support structure.

Detailed Description

The embodiment of the application effectively solves the problems that most of rotating mechanisms of the existing equipment are exposed and the safety is poor by providing the vertical multi-wind-direction wind-gathering low-noise breeze generator; the fan blades are likely to be smashed under the condition of large wind force, and risks such as splashing of fragments are easy to generate; the small fan causes great damage to the flying of birds; the windward structure of the existing equipment is poor in stability of the rotating mechanism and easy to damage, the main structure is round, except right above, a fan blade fan cannot be seen on any surface, the power generation safety is improved, the angle of the round outer wall can be adjusted to reduce the air flow flowing to the fan under the condition of strong wind, even if the fan is broken, the inside of the round outer shell is damaged, no fragments are splashed to hurt people and objects, the use safety is improved, birds cannot fall in the round fan mechanism due to the influence of ascending air flow, the entrance of birds is prevented by the side grids, the problem of contact with the birds is avoided, the windward mechanism is of a fixed structure, the stability is good, and the windward structure is hardly damaged due to external impact.

Examples

As shown in fig. 1 and fig. 2, the technical scheme in the embodiment of the application is to effectively solve the problem that most of rotating mechanisms of the existing equipment are exposed, and the safety is poor; the fan blades are likely to be smashed under the condition of large wind force, and risks such as splashing of fragments are easy to generate; the small fan causes great damage to the flying of birds; the windward structure of the existing equipment has the technical problems of poor stability and easy damage of a rotating mechanism, and the general thinking is as follows: the utility model provides a vertical type multi-wind direction gathers wind low noise breeze generator, includes power generation leaf fan 1, leaf fan protection housing 2 and generator mounting platform 3, and this equipment is whole to be circular structure, and leaf fan protection housing 2 cover is established at power generation leaf fan 1 surface, and generator mounting platform 3 sets up in power generation leaf fan 1 below, evenly equidistant fixed mounting has five equipment support structures 11 on the generator mounting platform 3 lateral wall;

wherein, a diversion mechanism is arranged between every two of the five device supporting structures 11;

The diversion mechanism comprises a first wind collecting diversion plate 4, a second wind collecting diversion plate 5, a third wind collecting diversion plate 6, a fourth wind collecting diversion plate 7, a fifth wind collecting diversion plate 8, a sixth wind collecting diversion plate 9 and a seventh wind collecting diversion plate 10, wherein the first wind collecting diversion plate 4, the second wind collecting diversion plate 5, the third wind collecting diversion plate 6, the fourth wind collecting diversion plate 7, the fifth wind collecting diversion plate 8, the sixth wind collecting diversion plate 9 and the seventh wind collecting diversion plate 10 are lengthened step by step from top to bottom so as to reduce windward angles, the first wind collecting diversion plate 4, the second wind collecting diversion plate 5, the third wind collecting diversion plate 6, the fourth wind collecting diversion plate 7, the fifth wind collecting diversion plate 8, the sixth wind collecting diversion plate 9 and the seventh wind collecting diversion plate 10 on the same horizontal plane are not connected, the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10 are fixedly arranged on the equipment supporting structure 11, the equipment supporting structure 11 uniformly divides the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10 into five equal parts, the power generating blade fan 1 is positioned above the middle parts of the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10, and the power generating blade fan 1 is positioned above the middle parts of the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8 and the seventh wind collecting guide plate 10, the opening and closing angles of the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10 can be adjusted, when the device is used, the device can be prevented from being opened outdoors or on the roof, at the moment, wind can enter the device from any direction through the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10, so that the transverse wind is changed into the wind in the vertical direction, at the moment, the vertical wind acts on the power generating blade fan 1 to start generating power, at this time, the opening and closing angles of the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10 can be controlled to control the air inlet quantity of the device flowing to the power generation fan 1, so that the power generation efficiency is controlled, namely, the smaller the opening and closing angles of the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10 are, the larger the air speed is, the smaller the opening and closing angles are.

According to the vertical multi-wind-direction wind-gathering low-noise breeze generator, the main structure is circular, the fan leaf fan cannot be seen by any surface except right above the main structure, the fan leaf fan cannot be touched, the power generation safety is improved, the angle of the circular outer wall can be adjusted under the condition of strong wind, the airflow flowing to the fan is reduced, even if the fan is crushed, the fan is damaged in the circular outer shell, no fragments are splashed to hurt people, the use safety is improved, birds cannot fall in the circular fan mechanism due to the influence of ascending airflow, the side grids prevent birds from entering the circular fan mechanism, the problem of contact with the birds is avoided, the windward mechanism is of a fixed structure, the stability is good, and the damage is hardly caused by external impact.

Working principle:

The first step, when the device is used, the device can be prevented from being opened outdoors or on the roof, at the moment, wind can enter the device from any direction through the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10, so that the transverse wind is changed into the wind in the vertical direction, and at the moment, the vertical wind acts on the power generation blade fan 1 to start power generation;

And the second step, the opening and closing angles of the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10 can be controlled to control the air inlet quantity of the equipment flowing to the power generation fan 1, so that the power generation efficiency is controlled, namely, the opening and closing angles of the first wind collecting guide plate 4, the second wind collecting guide plate 5, the third wind collecting guide plate 6, the fourth wind collecting guide plate 7, the fifth wind collecting guide plate 8, the sixth wind collecting guide plate 9 and the seventh wind collecting guide plate 10 are smaller when the air speed is higher, and the opening and closing angles of the air speed is higher when the air speed is lower.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (6)

1. A vertical multi-directional wind-gathering low-noise micro-wind generator, comprising a power generation blade fan (1), a blade fan protection cover (2) and a generator installation platform (3), characterized in that the blade fan protection cover (2) is sleeved on the surface of the power generation blade fan (1), the generator installation platform (3) is arranged below the power generation blade fan (1), and five equipment support structures (11) are evenly and equidistantly fixedly installed on the side wall of the generator installation platform (3); Wherein, a flow guiding mechanism is installed between each of the five equipment supporting structures (11); The air guide mechanism comprises a first air collecting air guide plate (4), a second air collecting air guide plate (5), a third air collecting air guide plate (6), a fourth air collecting air guide plate (7), a fifth air collecting air guide plate (8), a sixth air collecting air guide plate (9) and a seventh air collecting air guide plate (10). 2. A vertical multi-wind-direction wind-gathering low-noise micro-wind generator as described in claim 1, characterized in that the first wind collecting guide plate (4), the second wind collecting guide plate (5), the third wind collecting guide plate (6), the fourth wind collecting guide plate (7), the fifth wind collecting guide plate (8), the sixth wind collecting guide plate (9) and the seventh wind collecting guide plate (10) are gradually lengthened from top to bottom. 3. A vertical multi-wind-direction wind-gathering low-noise micro-wind generator as described in claim 2, characterized in that the first wind collecting guide plate (4), the second wind collecting guide plate (5), the third wind collecting guide plate (6), the fourth wind collecting guide plate (7), the fifth wind collecting guide plate (8), the sixth wind collecting guide plate (9) and the seventh wind collecting guide plate (10) on the same horizontal plane are not connected. 4. A vertical multi-wind-direction wind-gathering low-noise micro-wind generator as described in claim 3, characterized in that the first wind collecting guide plate (4), the second wind collecting guide plate (5), the third wind collecting guide plate (6), the fourth wind collecting guide plate (7), the fifth wind collecting guide plate (8), the sixth wind collecting guide plate (9) and the seventh wind collecting guide plate (10) are all fixedly mounted on the equipment support structure (11). 5. A vertical multi-wind-direction wind-gathering low-noise micro-wind generator as described in claim 4, characterized in that the equipment support structure (11) evenly divides the first wind collecting guide plate (4), the second wind collecting guide plate (5), the third wind collecting guide plate (6), the fourth wind collecting guide plate (7), the fifth wind collecting guide plate (8), the sixth wind collecting guide plate (9) and the seventh wind collecting guide plate (10) into five equal parts. 6. A vertical multi-wind-direction wind-gathering low-noise micro-wind generator as described in claim 5, characterized in that the power generation blades (1) are located above the middle of the first wind collecting guide plate (4), the second wind collecting guide plate (5), the third wind collecting guide plate (6), the fourth wind collecting guide plate (7), the fifth wind collecting guide plate (8), the sixth wind collecting guide plate (9) and the seventh wind collecting guide plate (10).