CN214887472U - Intelligent wind power generation equipment - Google Patents

Abstract

The utility model discloses an intelligence wind power generation equipment, the on-line screen storage device comprises a base, base top intermediate position is provided with the generator, the generator top is provided with connecting rod one, connecting rod one top is provided with connecting rod two, the top of connecting rod two is provided with the chassis, slide rail and ring gear have been seted up on the chassis surface, and the ring gear is located the slide rail outside, the slide rail top is provided with adjustment mechanism, and adjustment mechanism and ring gear cooperate, the last flabellum that is provided with of adjustment mechanism, the top is provided with the baffle in the adjustment mechanism, the baffle top is provided with windy attenuator, and windy attenuator is located adjustment mechanism top. Has the advantages that: under the effect of the wind damper, a non-contact braking effect is generated, the vibration reduction effect is well played, and the stability of the wind power generation equipment is ensured.

Description

Intelligent wind power generation equipment

Technical Field

The utility model relates to a wind power generation technical field particularly, relates to an intelligence wind power generation equipment.

Background

As the price of non-renewable energy sources such as petroleum and the like is always increased, renewable energy sources are vigorously developed in all countries, wind energy is one of the renewable energy sources, and the wind energy does not cause pollution and is increasingly mature in the related technology due to the support of national policies, so that the wind power generation has a good development prospect, and wind is one of pollution-free energy sources and is inexhaustible. The wind power generation device is very suitable for and can be used for generating electricity by utilizing wind power according to local conditions in coastal islands, grassland pasturing areas, mountain areas and plateau areas with water shortage, fuel shortage and inconvenient traffic. Offshore wind power is an important field of renewable energy development, is an important force for promoting wind power technology progress and industry upgrading, and is an important measure for promoting energy structure adjustment. China is rich in offshore wind energy resources, offshore wind power project construction is accelerated, and the method has important significance for promoting treatment of atmospheric haze, adjustment of energy structures and conversion of economic development modes in coastal areas.

Current wind power generation equipment, the flabellum that the overwhelming majority is usually fixed towards a direction, when the wind direction changes, often can receive the influence of wind direction, when the flabellum is not in a direction with the wind direction, the rotational speed of flabellum often descends a lot, thereby make wind power generation apoplexy the utilization ratio not high, often can not bring higher benefit for enterprise or local user, wind power generation equipment is when receiving the strong wind simultaneously, often can produce acutely and rock, thereby perhaps cause the threat to wind power generation equipment self and other people, need to think the way and reduce and rock.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides an intelligence wind power generation equipment possesses different wind directions and all can utilize the purpose, and then the problem that the utilization ratio is low when different wind directions.

(II) technical scheme

For realizing the above-mentioned different wind directions all can utilize the purpose, the utility model discloses a specific technical scheme as follows:

the utility model provides an intelligence wind power generation equipment, the on-line screen storage device comprises a base, base top intermediate position is provided with the generator, the generator top is provided with connecting rod one, connecting rod one top is provided with connecting rod two, the top of connecting rod two is provided with the chassis, slide rail and ring gear have been seted up on the chassis surface, and the ring gear is located the slide rail outside, the slide rail top is provided with adjustment mechanism, and adjustment mechanism and ring gear cooperate, the last flabellum that is provided with of adjustment mechanism, the top is provided with the baffle in the adjustment mechanism, the baffle top is provided with wind attenuator, and wind attenuator is located adjustment mechanism top.

Furthermore, in order to make the tail rudder help to rotate the chassis towards the wind flow direction, thereby indirectly improving the effect of wind power generation, the tail rudder is arranged on one side of the connecting rod II.

Further, for make under the effect of wind power, it rotates to drive the flabellum, thereby it rotates to drive the frame, thereby drive gear revolve, thereby the gear is at the ring gear internal rotation, thereby it rotates to drive the dwang, thereby it rotates to drive the connecting rod, at the connecting rod rotation in-process, it rotates at the slide rail to drive the sliding block, thereby provide power for the generator, thereby form a stable power generating equipment, adjustment mechanism is including setting up a plurality of sliding blocks in the slide rail, one side of sliding block all is provided with the connecting rod, the top of connecting rod all is provided with the dwang, the dwang bottom all is overlapped and is equipped with the gear, and gear and ring gear mesh, the gear top is provided with the frame, and the outside of frame all is provided with the flabellum, be provided with the pivot in the middle of the frame, and the pivot is located the chassis top.

Further, in order to enable the rotating shaft to act downwards, the fan blades can be better matched with wind power to rotate, so that energy is generated, and the rotating shaft is arranged between the frame and the top ends of the fan blades.

Furthermore, in order to enable the sliding block to rotate in the sliding rail in a uniform-speed circumference mode in the sliding process, the sliding rail is in a circular shape.

Furthermore, in order to use the damping system and further reduce the shaking of the top end of the wind power generation equipment under the condition of strong wind and increase the stability, the wind damper comprises a mass block arranged at the top end of a partition plate, the mass block is connected with a rotating shaft through two groups of swing ropes symmetrically arranged at the top end of the mass block, a floating plate is arranged between the rotating shaft and the mass block and between four swing ropes, two groups of low-friction coefficient friction pairs II are symmetrically arranged at the bottom end of the floating plate, a horizontal supporting system is arranged between the low-friction coefficient friction pairs II and the mass block, the damping system is arranged between the four horizontal supporting systems, a group of vertical supporting systems is symmetrically arranged at the top end of the floating plate, the two vertical supporting systems are connected through a fixing plate, and the two ends of the fixed plate are connected with the inner wall of the partition plate, and the fixed plate is provided with a first friction pair with low friction coefficient on two sides of the vertical supporting system.

Furthermore, in order to keep a certain gap between the permanent magnet and the conductor plate and further keep the damping gap and the damping ratio of the damping system arranged between the floating plate and the mass block constant, the damping system comprises the conductor plate arranged in the middle of the top end of the mass block, and the permanent magnet matched with the conductor plate is arranged right above the conductor plate and at the bottom end of the floating plate.

(III) advantageous effects

Compared with the prior art, the utility model provides an intelligence wind power generation equipment possesses following beneficial effect:

(1) under adjustment mechanism's effect, can make the wind-driven of different directions blow out the time, the flabellum all can rotate, and can not change because of the resistance that the wind direction difference received to guarantee wind power generation's stability, improve the efficiency of electricity generation.

(2) Under the effect of wind attenuator to produce non-contact's braking effect, fine play the effect of damping, thereby guarantee wind power generation equipment's stability, simultaneously under the effect of wind attenuator, make and keep certain clearance between permanent magnet and the conductor board, and then keep the invariable of the damping clearance and the damping ratio of wind attenuator, thereby further assurance equipment's stability.

(3) Under the effect of the tail rudder, the tail rudder is helpful for rotating the chassis towards the wind flow direction, so that the resistance of the fan blades during rotation is indirectly reduced, and the effect of wind power generation is indirectly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an intelligent wind power plant according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an adjusting mechanism in an intelligent wind power plant according to an embodiment of the present invention;

FIG. 3 is a partial schematic view of an adjustment mechanism in an intelligent wind power plant according to an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1 at A;

fig. 5 is a top view of a wind damper in an intelligent wind power plant according to an embodiment of the present invention.

In the figure:

1. a base; 2. a generator; 3. a first connecting rod; 4. a second connecting rod; 5. a chassis; 6. a slide rail; 7. A ring gear; 9. an adjustment mechanism; 901. a slider; 902. a connecting rod; 903. rotating the rod; 904. a gear; 905. a frame; 906. a rotating shaft; 907. a rotating shaft; 8. a fan blade; 10. a partition plate; 11. a wind damper; 1101. a mass block; 1102. swinging a rope; 1103. a horizontal support system; 1104. a damping system; 110401, a conductor plate; 110402 permanent magnet; 1105. a floating plate; 1106. a vertical support system; 1107. A fixing plate; 1108. a first friction pair with a low friction coefficient; 1109. a second friction pair with low friction coefficient; 12. And a tail rudder.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides an intelligence wind power generation equipment.

Now combine the attached drawing and detailed description mode to the utility model further explain, as shown in fig. 1-5, according to the utility model discloses an intelligence wind power generation equipment, including base 1, 1 top intermediate position of base is provided with generator 2, 2 tops of generator are provided with connecting rod one 3, 3 tops of connecting rod one are provided with connecting rod two 4, the top of connecting rod two 4 is provided with chassis 5, slide rail 6 and ring gear 7 have been seted up on 5 surfaces of chassis, and ring gear 7 is located the 6 outsides of slide rail, 6 tops of slide rail are provided with adjustment mechanism 9, and adjustment mechanism 9 cooperatees with ring gear 7, be provided with flabellum 8 on the adjustment mechanism 9, the top is provided with baffle 10 in the adjustment mechanism 9, baffle 10 top is provided with wind attenuator 11, and wind attenuator 11 is located adjustment mechanism 9 top.

By means of the above technical scheme, thereby make under adjustment mechanism 9's effect, when can making the wind of different directions blow, flabellum 8 all can rotate, guarantees wind power generation's stability, improves the efficiency of electricity generation, simultaneously under the effect of wind attenuator 11, thereby produces non-contact's braking effect, fine play the effect of damping, under the effect of cooperation generator 2 simultaneously, make the stability of connecting rod 3 stronger, thereby guarantee wind power generation equipment's stability.

In one embodiment, the second connecting rod 4 is provided with a tail rudder 12 at one side of the second connecting rod 4, so that the tail rudder 12 helps to rotate the chassis 5 towards the wind flow direction, thereby indirectly improving the effect of wind power generation.

In one embodiment, for the above adjusting mechanism 9, the adjusting mechanism 9 includes a plurality of sliding blocks 901 disposed in the sliding rail 6, a connecting rod 902 is disposed on one side of each sliding block 901, a rotating rod 903 is disposed on the top end of each connecting rod 902, a gear 904 is sleeved on the bottom end of each rotating rod 903, the gear 904 is engaged with the gear ring 7, a frame 905 is disposed on the top end of each gear 904, and fan blades 8 are disposed on the outer side of each frame 905, a rotating shaft 906 is disposed in the middle of each frame 905, and the rotating shaft 906 is disposed on the top end of the chassis 5, so that the fan blades 8 are driven to rotate under the action of wind, the frame 905 is driven to rotate, the gear 904 rotates in the gear ring 7, the rotating rod 903 is driven to rotate, the connecting rod 902 is driven to rotate, the sliding blocks 901 are driven to rotate in the sliding rail 6 during the rotation of the connecting rod 902, so as to provide power for the generator 2, thereby forming a stable power generating apparatus.

In one embodiment, for the frame 905 and the fan blades 8, the rotating shafts 907 are disposed between the frame 905 and the top ends of the fan blades 8, so that the rotating shafts 907 act downwards, and the fan blades 8 can rotate better in cooperation with wind force, thereby generating energy.

In one embodiment, for the slide rail 6, the slide rail 6 is circular, so that the slider 901 can rotate around the slide rail 6 at a constant speed during the sliding process.

In one embodiment, for the wind damper 11, the wind damper 11 includes a mass 1101 disposed at the top end of a partition plate 10, the mass 1101 is connected to a rotating shaft 906 through two sets of swing ropes 1102 symmetrically disposed at the top end of the mass 1101, a floating plate 1105 is disposed between the rotating shaft 906 and the mass 1101 and between four swing ropes 1102, two sets of low-friction coefficient friction pairs 1109 are symmetrically disposed at the bottom end of the floating plate 1105, a horizontal support system 1103 is disposed between the low-friction coefficient friction pairs 1109 and the mass 1101, a damping system 1104 is disposed between the four horizontal support systems 1103, a set of vertical support systems 1106 is symmetrically disposed at the top end of the floating plate 1105, the two vertical support systems 1106 are connected through a fixing plate 1107, both ends of the fixing plate 1107 are connected to the inner wall of the partition plate 10, the low-friction coefficient friction pairs 1108 are disposed on the fixing plate 1107 and on both sides of the vertical support systems 1106, therefore, the damping system 1104 is used, the shaking of the top end of the wind power generation equipment under the condition of strong wind is further reduced, and the stability is improved.

In one embodiment, for the damping system 1104 described above, the damping system 1104 includes a conductive plate 110401 disposed at the middle position of the top end of the proof mass 1101, and a permanent magnet 110402 is disposed above the conductive plate 110401 and at the bottom end of the floating plate 1105 to match with the conductive plate 110401, so that a certain gap is maintained between the permanent magnet 110402 and the conductive plate 110401, and thus the damping gap and the damping ratio of the damping system 1104 mounted between the floating plate 1105 and the proof mass 1101 are kept constant.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

In practical application, when the device needs to be used, the device is firstly installed at a place where wind power generation needs to be performed, then a counterweight block is placed at the top end of the base 1 to stabilize the device, then the wind damper 11 is arranged inside the adjusting mechanism 9, a certain gap is kept between the permanent magnet 110402 and the conductor plate 110401 in the wind damper 11, so that the damping gap and the damping ratio of the wind damper 11 are kept constant, when wind blows, the tail rudder 12 drives the connecting rod two 4 to rotate according to the wind direction, so that the chassis 5 is driven to rotate, so that when wind blows the fan blade 8, the frame 905 is driven to rotate outside the rotating shaft 906, so that the gear 904 is driven to rotate in the rotating process, so that the gear 904 rotates in the gear ring 7, so that the rotating rod 903 is driven to rotate, so that the connecting rod 902 is driven to rotate, and in the connecting rod rotating process, the sliding block 901 is driven to rotate in the sliding rail 6, so that the fan blades 8 can rotate at a constant speed, a stable power generation device is formed, and the collected electric power is stored through the generator 2.

In conclusion, with the aid of the above technical scheme of the utility model, under the effect through adjustment mechanism 9, can make the wind of different directions blow out the time, flabellum 8 all can rotate, guarantee wind power generation's stability, the efficiency of electricity generation is improved, simultaneously under the effect of wind attenuator 11, thereby produce non-contact's braking effect, fine play the effect of damping, guarantee wind power generation equipment's stability, simultaneously under the effect of wind attenuator 11, make and keep certain clearance between permanent magnet 110402 and the conductor board 110401, and then keep the invariant of the damping clearance and the damping ratio of wind attenuator 11, thereby the stability of further assurance equipment, under the effect of tail rudder, the tail rudder helps with the chassis to the wind current direction rotatory, thereby indirectly reduce the resistance when the flabellum rotates, thereby indirect improvement wind power generation's effect.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The intelligent wind power generation equipment is characterized by comprising a base (1), wherein a generator (2) is arranged at the middle position of the top end of the base (1), a first connecting rod (3) is arranged at the top end of the generator (2), a second connecting rod (4) is arranged at the top end of the first connecting rod (3), a chassis (5) is arranged at the top end of the second connecting rod (4), a sliding rail (6) and a gear ring (7) are arranged on the surface of the chassis (5), the gear ring (7) is positioned on the outer side of the sliding rail (6), an adjusting mechanism (9) is arranged at the top end of the sliding rail (6), the adjusting mechanism (9) is matched with the gear ring (7), fan blades (8) are arranged on the adjusting mechanism (9), a partition plate (10) is arranged at the top end in the adjusting mechanism (9), and a wind damper (11) is arranged at the top end of the partition plate (10), and the wind damper (11) is positioned at the top end in the adjusting mechanism (9).

2. An intelligent wind power plant according to claim 1, characterized in that the second connecting rod (4) is provided with a tail rudder (12) on one side.

3. An intelligent wind power generation device according to claim 1, wherein the adjusting mechanism (9) comprises a plurality of sliding blocks (901) arranged in the sliding rail (6), one side of each sliding block (901) is provided with a connecting rod (902), the top ends of the connecting rods (902) are provided with rotating rods (903), the bottom ends of the rotating rods (903) are respectively sleeved with a gear (904), the gear (904) is meshed with the gear ring (7), the top end of the gear (904) is provided with a frame (905), the outer side of the frame (905) is provided with the fan blades (8), a rotating shaft (906) is arranged in the middle of the frame (905), and the rotating shaft (906) is located at the top end of the chassis (5).

4. An intelligent wind power plant according to claim 3, wherein a rotation shaft (907) is arranged between the frame (905) and the top ends of the fan blades (8).

5. An intelligent wind power plant according to claim 1, wherein the sliding rails (6) are circular in shape.

6. The intelligent wind power generation device according to claim 3, wherein the wind damper (11) comprises a mass block (1101) arranged at the top end of the partition plate (10), the mass block (1101) is connected with the rotating shaft (906) through two sets of swing ropes (1102) symmetrically arranged at the top end of the mass block, a floating plate (1105) is arranged between the rotating shaft (906) and the mass block (1101) and between four swing ropes (1102), two sets of low-friction-coefficient friction pair II (1109) are symmetrically arranged at the bottom end of the floating plate (1105), a horizontal support system (1103) is arranged between the low-friction-coefficient friction pair II (1109) and the mass block (1101), a damping system (1104) is arranged between the four horizontal support systems (1103), and a set of vertical support system (1106) is symmetrically arranged at the top end of the floating plate (1105), the two vertical supporting systems (1106) are connected through a fixing plate (1107), two ends of the fixing plate (1107) are connected with the inner wall of the partition plate (10), and a low-friction coefficient friction pair I (1108) is arranged on the fixing plate (1107) and positioned on two sides of the vertical supporting system (1106).

7. An intelligent wind power plant according to claim 6, wherein the damping system (1104) comprises a conductor plate (110401) arranged in the middle of the top end of the mass block (1101), and a permanent magnet (110402) is arranged on the bottom end of the floating plate (1105) and right above the conductor plate (110401).

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