CN109944755A - A kind of anti-high wind wind power generation plant - Google Patents

Abstract

The present invention relates to technical field of wind power generation, and disclose a kind of anti-high wind wind power generation plant, including power generation box, the bottom of the power generation box is fixedly mounted on the top of tower body, the inside of the tower body is fixedly installed with support plate, blower is fixedly installed at the top of the support plate, the two sides at the top of the blower are fixedly connected with one end of air inlet pipe and an air outlet pipe respectively, and the other end of the air inlet pipe penetrates through connection through power generation box and with the side of power generation box inner cavity top.The anti-high wind wind power generation plant, pass through being used cooperatively for support plate, blower, air inlet pipe, escape pipe, blast pipe and discharge pipe, the air inside power generation box is set to obtain quickly and adequately exchanging with extraneous air, to cool down to the inner cavity of power generation box, the heat dissipation effect for avoiding existing wind power generation plant is poor, problem that can not be complete by the heat absorption of heat-producing device, to improve the heat dissipation effect of cooling mechanism.

Description

A kind of anti-high wind wind power generation plant

Technical field

The present invention relates to technical field of wind power generation, specially a kind of anti-high wind wind power generation plant.

Background technique

Wind-power electricity generation refers to that the kinetic energy kept watch switchs to electric energy, and wind energy is a kind of non-harmful renewable energy energy of cleaning, It is utilized, is mainly drawn water by windmill, flour milling etc. by people very early, and it is present, and interested people are how to utilize wind To generate electricity.

Current wind power generation plant accesses air generally by from outside, carries out come the heat-producing device to its inside scattered Heat, but since such mode can not adequately sponge the heat of heat-producing device, so that the heat dissipation of wind power generation plant Effect is poor, meanwhile, generator can generate vibration at work, and existing power generator carries out it by elastomeric pad Buffering, to reduce engine to the active force of four walls, however elastomeric pad is easy failure, so that vibration when engine operation is difficult Effectively to be handled, in addition, generator is to generate electricity by the revolving speed of flabellum, but when wind speed is excessive, be easy to cause Flabellum is damaged because revolving speed is excessive, and the present invention provides a kind of anti-high wind wind power generation plants thus.

Summary of the invention

The present invention provides a kind of anti-high wind wind power generation plants, have good heat dissipation effect, absorb the shake that generator generates It is dynamic, the advantages of preventing rotation speed of the fan excessive and damage, solves current wind power generation plant and accessed generally by from outside Air, to radiate to the heat-producing device of its inside, but since such mode can not be abundant by the heat of heat-producing device Sponge so that the heat dissipation effect of wind power generation plant is poor, meanwhile, generator can generate vibration at work, and existing Power generator it is buffered by elastomeric pad, to reduce engine to the active force of four walls, however elastomeric pad It is easy failure, so that vibration when engine operation is difficult to effectively be handled, in addition, generator is the revolving speed by flabellum Generate electricity, but when wind speed is excessive, be easy to cause flabellum because revolving speed is excessive damage the problem of.

The invention provides the following technical scheme: a kind of anti-high wind wind power generation plant, including power generation box, the power generation box Bottom is fixedly mounted on the top of tower body, and the inside of the tower body is fixedly installed with support plate, and the top of the support plate is fixed Blower is installed, the two sides at the top of the blower are fixedly connected with one end of air inlet pipe and an air outlet pipe respectively, the air inlet pipe The other end penetrates through connection through power generation box and with the side of power generation box inner cavity top, and the other end of the escape pipe runs through power generation box And penetrate through and connect with the side of power generation box intracavity bottom, the one end of the bottom of the blower respectively with blast pipe and discharge pipe is fixed The other end of connection, the blast pipe and discharge pipe runs through and extends to the outside of tower body, and the bottom of the power generation box cavity is solid Dingan County is equipped with pedestal, and the side of the base top is fixedly installed with generator, and the side of the generator is fixedly installed with rubber The side of rubber mat, the power generation box cavity is fixedly connected with one end of telescopic rod, the other end and buffer board one of the telescopic rod It is fixedly connected in the middle part of side, the external activity of the telescopic rod is equipped with buffer spring, and the side of the power generation box cavity is fixed Electrical cabinet is installed, the output end of the generator is fixedly connected by reduction gearbox with one end of connecting shaft, the connecting shaft The other end is fixedly attached through power generation box and with the side of wheel hub, and the side of wheel hub is run through in one end of connecting shaft and wheel hub socket And be flexibly connected with the middle part of bevel gear side, the bevel gear and helical gear are ratcheting, described helical gear one end and connecting rod One end be fixedly connected, the other end of the connecting rod through wheel hub top and connect by the way that one end of ring flange and flabellum is fixed It connects, the side of the bevel gear is fixedly connected with one end of fixed link, the other end of the fixed link and the side of hub inner lumen Pivot bush unit, movable sleeve is connected to fixed frame in the fixed link.

Preferably, between one end that the air inlet pipe and power generation box connect and one end that escape pipe and power generation box connect Distance values be equal to power generation box cavity side at the top of and another side bottom between distance values.

Preferably, the blast pipe and discharge pipe extend through the two sides of support plate bottom and the two sides of tower body, and enter the wind There are angles between pipe and one end and tower body of the connection of discharge pipe and tower body.

Preferably, the quantity of the telescopic rod is three, and two telescopic rods are located at the two sides of power generation box cavity, Another described telescopic rod is located at the top of power generation box cavity.

Preferably, the shape of the buffer board is arc, and the side of buffer board and the outside of generator are in close contact.

Preferably, the shape of the wheel hub side is arc, and the other side of wheel hub offers symmetrical heat release hole.

Preferably, the helical gear quantity is three, and the angle between three helical gears is identical.

Preferably, the quantity of the ring flange is identical as helical gear quantity, and the shape of ring flange side is arc.

Preferably, the shape of the fixed frame be A-frame, and three connecting pins of fixed frame respectively with three helical teeth The side of wheel is fixedly attached, and the middle part of the fixed frame passes through bearing and fixed link pivot bush unit.

The present invention have it is following the utility model has the advantages that

1, the anti-high wind wind power generation plant, passes through support plate, blower, air inlet pipe, escape pipe, blast pipe and discharge pipe It is used cooperatively, allows the air inside power generation box to obtain quickly and adequately exchanging with extraneous air, thus to power generation box Inner cavity cool down, the heat dissipation effect for avoiding existing wind power generation plant is poor, can not be by the heat absorption of heat-producing device Complete problem, to improve the heat dissipation effect of cooling mechanism.

2, the anti-high wind wind power generation plant, by being used cooperatively for rubber pad, telescopic rod, buffer board and buffer spring, The vibration generated to generator absorbs, and avoids existing buffer unit and is easy failure, so that shake when engine operation It is dynamic to be difficult to the problem of being effectively addressed, to reduce the vibration of power generation box, improve practicability.

3, the anti-high wind wind power generation plant, passes through the cooperation of bevel gear, helical gear, connecting rod, fixed link and fixed frame Use, the angle of flabellum changed, when wind speed cross ambassador fan blade rotating speed it is excessive when, flabellum change side can be made To reduce the forced area of flabellum, reducing the velocity of rotation of flabellum, avoid the damage of flabellum, so that the use of flabellum Service life is improved.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is that structure of the invention overlooks schematic cross-sectional view；

Fig. 3 is structure of the invention flabellum schematic diagram.

In figure: 1, power generation box；2, tower body；3, support plate；4, blower；5, air inlet pipe；6, escape pipe；7, blast pipe；8, go out Air hose；9, pedestal；10, generator；11, rubber pad；12, telescopic rod；13, buffer board；14, buffer spring；15, electrical cabinet；16, Reduction gearbox；17, connecting shaft；18, wheel hub；19, bevel gear；20, helical gear；21, connecting rod；22, ring flange；23, flabellum；24, Fixed link；25, fixed frame.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-3, a kind of anti-high wind wind power generation plant, including power generation box 1 are please referred to, the bottom of power generation box 1 is fixedly mounted On the top of tower body 2, the inside of tower body 2 is fixedly installed with support plate 3, and the top of support plate 3 is fixedly installed with blower 4, blower 4 The two sides at top are fixedly connected with one end of air inlet pipe 5 and escape pipe 6 respectively, one end that air inlet pipe 5 and power generation box 1 connect with The distance values between one end that escape pipe 6 and power generation box 1 connect be equal to 1 inner cavity of power generation box, one lateral roof and another side bottom it Between distance values make the maximum flowing with air of the heat of 1 inner cavity of power generation box by air inlet pipe 5 and escape pipe 6 and give out Go, to ensure that the normal operation of generator 10, the other end of air inlet pipe 5 through power generation box 1 and with 1 inner cavity top of power generation box Side penetrate through connection, the other end of escape pipe 6 is connected through power generation box 1 and penetrating through with the side of 1 intracavity bottom of power generation box, wind The bottom of machine 4 is fixedly connected with one end of blast pipe 7 and discharge pipe 8 respectively, and blast pipe 7 and discharge pipe 8 extend through support plate 3 The two sides of bottom and the two sides of tower body 2, and there is folder between blast pipe 7 and discharge pipe 8 and the one end connected of tower body 2 and tower body 2 Angle exchanges the air inside power generation box 1 with outside air using blast pipe 7 and discharge pipe 8, to exchange heat, together When prevent dust and sundries to carry out power generation box 1, the other end of blast pipe 7 and discharge pipe 8 runs through and extends to the outer of tower body 2 Portion, the bottom of 1 inner cavity of power generation box are fixedly installed with pedestal 9, and the side at 9 top of pedestal is fixedly installed with generator 10, generator 10 side is fixedly installed with rubber pad 11, and the side of 1 inner cavity of power generation box is fixedly connected with one end of telescopic rod 12, telescopic rod 12 Quantity be three, two telescopic rods 12 are located at the two sides of 1 inner cavity of power generation box, another telescopic rod 12 is located at power generation box 1 The top of inner cavity, by telescopic rod 12, it is excessive and fail to avoid 14 stress of buffer spring, meanwhile, define buffer spring 14 The direction of motion, be fixedly connected in the middle part of the other end of telescopic rod 12 and 13 side of buffer board, the shape of buffer board 13 is arc, And the side of buffer board 13 and the outside of generator 10 are in close contact, and by buffer board 13, the vibration that generator 10 generates is led to It crosses buffer board 13 and is transmitted to buffer spring 14, to be buffered, reduce the vibration that power generation box 1 is subject to, the outside of telescopic rod 12 It is movably installed with buffer spring 14, the side of 1 inner cavity of power generation box is fixedly installed with electrical cabinet 15, and the output end of generator 10 passes through Reduction gearbox 16 is fixedly connected with one end of connecting shaft 17, and the other end of connecting shaft 17 runs through power generation box 1 and the side with wheel hub 18 It is fixedly attached, the shape of 18 side of wheel hub is arc, and the other side of wheel hub 18 offers symmetrical heat release hole, utilizes wheel Hub 18 reduces the air drag that is subject to of device, while the heat that while rotating to flabellum generates distributes, and connecting shaft 17 and wheel One end that hub 18 is socketed is run through the side of wheel hub 18 and is flexibly connected with the middle part of 19 side of bevel gear, bevel gear 19 and helical gear 20 is ratcheting, and the quantity of helical gear 20 is three, and the angle between three helical gears 20 is identical, by helical gear 20, makes flabellum When 23 revolving speeds are excessive, rotate bevel gear 19 by the rotation of helical gear 20, to change the direction of flabellum 23, to reduce flabellum One end of 23 air drag being subject to, helical gear 20 is fixedly connected with one end of connecting rod 21, and the other end of connecting rod 21 runs through The top of wheel hub 18 is simultaneously fixedly connected by ring flange 22 with one end of flabellum 23, the quantity of ring flange 22 and the number of helical gear 20 Measure it is identical, and the shape of 22 side of ring flange be arc flabellum 23 is connect with connecting rod 21, using ring flange 22 so that work Make personnel convenient for flabellum 23 is overhauled and replaced, while the ring flange 22 of arc, reduces the air that ring flange 22 is subject to The side of resistance, bevel gear 19 is fixedly connected with one end of fixed link 24, the other end of fixed link 24 and the one of 18 inner cavity of wheel hub Side pivot bush unit, movable sleeve is connected to fixed frame 25 in fixed link 24, and the shape of fixed frame 25 is A-frame, and fixed frame 25 Side of three connecting pins respectively with three helical gears 20 is fixedly attached, and the middle part of fixed frame 25 is living by bearing and fixed link 24 Dynamic socket, by fixed frame 25, three helical gears 20 are connected, guarantee that three flabellums 23 can change simultaneously direction, are added simultaneously The strong stability of flabellum 23.

Working principle, firstly, extraneous air is transported to power generation box 1 by blast pipe 7 and air inlet pipe 5 using blower 4 It is interior, then the air containing amount of heat is transported to outside power generation box 1 from escape pipe 6 and discharge pipe 8, while utilizing telescopic rod 12, the generator 10 when the buffering that buffer board 13 and buffer spring 14 form is to work buffers, when extraneous wind speed mistake When big, flabellum 23 is rotated, and connecting rod 21 is driven to rotate helical gear 20, to make bevel gear 19 rotate, so that flabellum 23 turns Dynamic direction changes, to reduce the wind-force that flabellum 23 is subject to, to reduce the revolving speed of flabellum 23.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (9)

1. a kind of anti-high wind wind power generation plant, including power generation box (1), it is characterised in that: the bottom of the power generation box (1) is fixed It is mounted on the top of tower body (2), the inside of the tower body (2) is fixedly installed with support plate (3), the top of the support plate (3) It is fixedly installed with blower (4), the two sides at the top of the blower (4) are fixed with one end of air inlet pipe (5) and escape pipe (6) respectively to be connected It connects, the other end of the air inlet pipe (5) penetrates through connection through power generation box (1) and with the side of power generation box (1) inner cavity top, described The other end of escape pipe (6) penetrates through connection, the blower (4) through power generation box (1) and with the side of power generation box (1) intracavity bottom Bottom be fixedly connected respectively with one end of blast pipe (7) and discharge pipe (8), the blast pipe (7) and discharge pipe (8) it is another The outside of tower body (2) is run through and is extended at end, and the bottom of power generation box (1) inner cavity is fixedly installed with pedestal (9), the pedestal (9) side at the top of is fixedly installed with generator (10), and the side of the generator (10) is fixedly installed with rubber pad (11), institute The side for stating power generation box (1) inner cavity is fixedly connected with one end of telescopic rod (12), the other end and buffering of the telescopic rod (12) It is fixedly connected in the middle part of plate (13) side, the external activity of the telescopic rod (12) is equipped with buffer spring (14), the power generation The side of case (1) inner cavity is fixedly installed with electrical cabinet (15), and the output end of the generator (10) is by reduction gearbox (16) and even One end of spindle (17) is fixedly connected, and the other end of the connecting shaft (17) runs through power generation box (1) and the side with wheel hub (18) Be fixedly attached, and connecting shaft (17) and wheel hub (18) socket one end through wheel hub (18) side and with bevel gear (19) side Middle part be flexibly connected, the bevel gear (19) and helical gear (20) are ratcheting, one end of the helical gear (20) and connecting rod (21) one end is fixedly connected, the other end of the connecting rod (21) through wheel hub (18) top and by ring flange (22) with One end of flabellum (23) is fixedly connected, and the side of the bevel gear (19) is fixedly connected with one end of fixed link (24), described solid The side pivot bush unit of the other end of fixed pole (24) and wheel hub (18) inner cavity, movable sleeve is connected to fixed frame on the fixed link (24) (25)。

2. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: the air inlet pipe (5) and hair The distance values between one end that electronic box (1) one end to connect and escape pipe (6) and power generation box (1) connect are equal to power generation box (1) distance values between one lateral roof of inner cavity and another side bottom.

3. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: the blast pipe (7) and go out Air hose (8) extends through the two sides of support plate (3) bottom and the two sides of tower body (2), and blast pipe (7) and discharge pipe (8) and tower There are angles between one end and tower body (2) of body (2) connection.

4. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: the number of the telescopic rod (12) Amount is three, and two telescopic rods (12) are located at the two sides of power generation box (1) inner cavity, another described telescopic rod (12) position In the top of power generation box (1) inner cavity.

5. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: the shape of the buffer board (13) Shape is arc, and the outside of the side of buffer board (13) and generator (10) is in close contact.

6. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: wheel hub (18) side Shape is arc, and the other side of wheel hub (18) offers symmetrical heat release hole.

7. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: the number of the helical gear (20) Amount is three, and the angle between three helical gears (20) is identical.

8. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: the number of the ring flange (22) Amount is identical as the quantity of helical gear (20), and the shape of ring flange (22) side is arc.

9. a kind of anti-high wind wind power generation plant according to claim 1, it is characterised in that: the shape of the fixed frame (25) Shape is A-frame, and side of three connecting pins of fixed frame (25) respectively with three helical gears (20) is fixedly attached, described The middle part of fixed frame (25) passes through bearing and fixed link (24) pivot bush unit.