CN108331715A - Safety-type building wind-driven generator - Google Patents

Abstract

The present invention discloses a kind of safety-type building wind-driven generator, including pylon, the top of the pylon is equipped with cabin, accelerator, generator and power control cabinet, the output shaft of accelerator and the input axis connection of generator, power control cabinet and power generation mechatronics are equipped in the cabin, the input shaft of accelerator is connected with wind wheel blade component after stretching out cabin, pylon lower part is connected with pylon turnover device, and the top horizontal of pylon is connected with supporting rod, is connected by self balancing device between cabin and supporting rod.Compared with prior art, safety-type building wind-driven generator provided by the invention, it is simple and practical in structure, it is suitble to blow the unusual weather conditions area of high wind, prevents pylon from bearing too strong wind pressure and collapsing, and wind-driven generator duration can be made to generate electricity, improve the utilization rate of wind-driven generator, and it can prevent wind-driven generator from maintaining the original state in pylon switching process, improve the stability of switching process, wind-driven generator overturns and causes to be damaged.

Description

Safety-type building wind-driven generator

Technical field

The present invention relates to a kind of wind-driven generator under harsher wind conditions, more particularly to a kind of safety-type building wind-force hair Motor.

Background technology

As production of energy is to atmosphere pollution getting worse, wind-force is paid more and more attention as green energy resource, wind-power electricity generation During industry is in fast-developing, wind power generating set is just in a large amount of uses of mass production.Especially in coastal area, sea wind money Source is abundant, sea wind can be made full use of to generate electricity completely, but in monsoon season, typhoon is too strong, it is easy to blow down or blow bad wind-force hair Motor.Existing wind-driven generator during being attacked in high wind, improves rated wind velocity, or stop wind using concrete tower Power generator work or wind-driven generator blade ring around tower center line turn to it is minimum receive wind-force position by way of, To avoid damage of the high wind to wind-driven generator, achieve the purpose that prevent wind power generating set from collapsing.

The defect of the prior art：During violent typhoon, in order to improve the rated wind velocity of wind-driven generator, using concrete towers Frame, but this pylon quantities, freight volume increase, and it is non-dismountable, so the maintenance of equipment of tower top is also inconvenient；For High intensity monsoon is avoided to the damage of wind-driven generator, improve the reliability of equipment and extends the service life of equipment, but meeting The utilization rate of wind-driven generator is set to substantially reduce, to reducing cost, improving the localization rate of parts and components and mass producing totally unfavorable.

Invention content

In order to solve the above technical problems, the present invention provides a kind of safety-type building wind-driven generator, to solve in high wind Wind-force hair while avoiding the too strong wind pressure of generation of the high wind to wind-driven generator ontology and pylon and cause to collapse, improves in area The utilization rate and wind-driven generator of motor overturn and lead to impaired problem.

The technical solution adopted by the present invention is as follows：A kind of safety-type building wind-driven generator, including pylon, the pylon it is upper Portion is equipped with cabin, and accelerator, generator and power control cabinet, the input of the output shaft and generator of the accelerator are equipped in the cabin Axis connection, the power control cabinet are connected with wind wheel leaf with power generation mechatronics, the input shaft of the accelerator after stretching out the cabin Piece component, key are：The pylon lower part is connected with pylon turnover device, and the top horizontal of the pylon is connected with support Bar is connected between the cabin and supporting rod by self balancing device；

The self balancing device includes mounting base, the outer wall of the cabin and the lower surface constant connection of the mounting base, institute The upper surface for stating mounting base is fixedly connected with balance mounting seat, and level offers connection through-hole, the branch on balance mounting seat Strut activity is threaded through in the connection through-hole, is offered fixed hole on the supporting rod vertically, is vertically lived in the mounting base Dynamic to be equipped with cabin stability column, the cabin stability column activity is threaded through in fixed hole, which is connected with stabilization Bar straight line pusher.

The advantageous effect of above scheme is when there is high wind suddenly, and wind-driven generator and pylon can be overturn by pylon Device flips upside down, and to be hidden in arc pylon turning groove, prevents pylon from bearing too strong wind pressure and collapsing, when wind-force is extensive When multiple normal, wind-driven generator and pylon can be overturn by pylon turnover device to original position, in switching process, self-balancing Device can then make wind-driven generator maintain the original state, and not overturn as pylon is overturn.

Preferably, the mounting base is hollow-core construction, and the stabiliser bar straight line pusher is arranged in the mounting base In cavity, the stabiliser bar straight line pusher includes the first transmission cylinder, which is fixed on described The internal chamber wall of mounting base is connected with horizontal linkage board, the fixed hole after the vertical stretching of piston rod of the first transmission cylinder Be two, two fixed holes are distributed in balance mounting seat both sides, in the mounting base activity wear that there are two described Cabin stability column, the cabin stability column are corresponded with fixed hole, and the installation is stretched into one end of the cabin stability column It is fixedly connected with the horizontal linkage board after seat.

The effect of the program is wind-driven generator when carrying out wind-power electricity generation, and cabin stability column stretches into corresponding fixed hole In, wind-driven generator can be made to keep stablizing with pylon, do not shaken；When pylon is overturn, cabin stability column exits pair The fixed hole answered can make wind-driven generator not follow pylon to overturn, maintain the original state.

Preferably, the pylon turnover device is set on the base, and arc pylon turning groove, institute are offered on the pedestal It states face on two cell walls of arc pylon turning groove and offers pylon mounting hole, the pylon turnover device includes two faces The turning-over support seat of setting, two turning-over support seats are separately positioned in the pylon mounting hole, two overturning branch Horizontal anomalous movement is equipped with same root turning-over support axis between support seat, and the pylon lower part is fixedly connected with the turning-over support axis, The either end of the turning-over support axis stretches out turning-over support seat and is connected with upset motor, the turning-over support axis and the supporting rod It is mutually parallel.

The effect of the program is the intensity according to wind-force, and turning-over support axis is rotated by power plant, to band Dynamic wind turbine and pylon avoid too strong wind-force, prevent tower from collapse, and turning-over support seat can also be hidden in pylon mounting hole, Prevent high wind from causing too strong wind pressure to pylon turnover device and damaging.

Preferably, the notch of the arc pylon turning groove is covered with blower unit, and the blower unit includes air inducing peace It shelves, the air inducing mounting bracket is fixedly connected with the slot inner wall of the arc pylon turning groove, is horizontally mounted on the air inducing mounting bracket There is at least one blade torsion shaft, wind blade has been respectively fixedly connected on the blade torsion shaft, which overturns axis connection There is blade rotating device.

Advantageous effect, which is blade rotating device, can drive wind blade to be rotated around blade torsion shaft, and wind is introduced arc tower In frame turning groove, make the continual lasting power generation of wind-driven generator.

Preferably, the blade rotating device includes the second transmission cylinder, which is arranged in any pylon In mounting hole, the external part of the blade torsion shaft has been respectively fixedly connected with drive link, and the drive link is connected with same A horizontal linkage seat, the second transmission cylinder piston rod are connect by connecting rod with the horizontal linkage seat after protruding horizontally up.

The effect of the program is the second horizontal linkage seat of transmission cylinder promotion, to drive the drive link in horizontal linkage seat Movement in the same direction, and then blade torsion shaft also rotates in same direction therewith.

Preferably, the bottom of the pylon is fixedly connected with the turning-over support axis, and the turning-over support axis is support tube, The turning-over support axis is horizontally disposed, and the turning-over support axis is connect with described two turning-over support seats respectively by bearing, and And the both ends of the turning-over support axis are pierced by turning-over support seat respectively, the control of the wind-driven generator and transmission line of electricity are worn downwards After crossing pylon, the turning-over support axis is stretched into, and stretch out from the turning-over support shaft end.

The effect of the program be wind-driven generator control and transmission line of electricity from turning-over support shaft end stretching after with control Circuit is connected, can effective protection control and transmission line of electricity.

Preferably, the wind blade is rectangular paddle, the length direction of the wind blade and the blade torsion shaft Length direction it is consistent, the supporting rod is mutually parallel with wind wheel blade component shaft, the turning-over support axis and the blade Torsion shaft is mutually parallel, and after the wind blade is rotated with blade torsion shaft, the wind blade is far from the blade torsion shaft Side stretch out the arc pylon turning groove, the turning-over support axis is equipped with pylon seat, which is equipped with rotation seat, The pylon lower part is mounted on the rotation seat.

The effect of the program is when there is high wind suddenly, and wind-driven generator and pylon are overturn in arc pylon turning groove In after, wind blade is rotated with blade torsion shaft, can part wind blade be stretched out arc pylon turning groove, to intercepting wind And introduce in arc pylon turning groove, and wind wheel blade component can then go to the direction towards air inlet.

Preferably, there are six the blade torsion shafts, six blade torsion shaft pectinations are distributed in the turning-over support The either side of axis.

The effect of the program is that pylon and wind-power electricity generation function are overturn in the side of turning-over support bar, turning-over support axis The other side can then make blade torsion shaft driving wind blade carry out wind-guiding.

Advantageous effect：Compared with prior art, safety-type building wind-driven generator provided by the invention, reality simple in structure With being suitble to blow the unusual weather conditions area of high wind, it is possible to prevente effectively from high wind prevents pylon to the wind pressure of wind-driven generator and pylon It bears too strong wind pressure and collapses, improve the reliability of equipment and extend the service life of equipment, and can be held with wind-driven generator Continuous property power generation, improves the utilization rate of wind-driven generator, and can prevent wind-driven generator from keeping former in pylon switching process State, improves the stability of switching process, and wind-driven generator overturns and causes to be damaged.

Description of the drawings

Fig. 1 is that pylon 1 overturns the schematic diagram stretched out upwards after arc pylon turning groove 7；

Fig. 2 is that the overturning of pylon 1 extends downwardly into the schematic diagram after arc pylon turning groove 7；

Fig. 3 is enlarged drawing at the A in Fig. 1；

Fig. 4 is status diagram when blower unit 9 is closed；

Fig. 5 is status diagram when blower unit 9 is opened；

Fig. 6 is the correspondence figure of blower unit 9 and turning-over support axis 33.

Specific implementation mode

To make those skilled in the art be better understood from technical scheme of the present invention, below in conjunction with the accompanying drawings and specific embodiment party Formula elaborates to the present invention.

As shown in figures 1 to 6, the top of a kind of safety-type building wind-driven generator, including pylon 1, the pylon 1 is equipped with cabin 2, the cabin 2 is interior to be equipped with accelerator, generator and power control cabinet, the output shaft of the accelerator and the input axis connection of generator, The power control cabinet is connected with wind wheel blade component with power generation mechatronics, the input shaft of the accelerator after stretching out the cabin 2, It is characterized in that：1 lower part of the pylon is connected with pylon turnover device 3, and the top horizontal of the pylon 1 is connected with supporting rod 4, It is connected by self balancing device 5 between the cabin 2 and supporting rod 4；

The pylon turnover device 3 is set on the base, and arc pylon turning groove 7, the arc are offered on the pedestal The notch of shape pylon turning groove 7 is covered with blower unit 9, and face offers on two cell walls of the arc pylon turning groove 7 Pylon mounting hole 8, the pylon turnover device 3 include the turning-over support seat 31 of two faces setting, two turning-over supports Seat 31 is separately positioned in the pylon mounting hole 8, and horizontal anomalous movement is equipped with same root between two turning-over support seats 31 Turning-over support axis 33,1 lower part of the pylon are fixedly connected with the turning-over support axis 33, the either end of the turning-over support axis 33 It stretches out turning-over support seat 31 and is connected with upset motor 34, the turning-over support axis 33 is mutually parallel with the supporting rod 4；

The bottom of the pylon 1 is fixedly connected with the turning-over support axis 33, and the turning-over support axis 33 is support tube, institute It is horizontally disposed to state turning-over support axis 33, the turning-over support axis 33 is connected with described two turning-over support seats 31 respectively by bearing It connects, and the both ends of the turning-over support axis 33 are pierced by turning-over support seat 31, the control and transmission of electricity of the wind-driven generator 2 respectively After circuit is passed down through pylon 1, the turning-over support axis 33 is stretched into, and stretch out from 33 end of turning-over support axis.

It can be seen that, the self balancing device 5 includes mounting base 51, the outer wall of the cabin 2 and the mounting base 51 in Fig. 3 Lower surface constant connection, the upper surface of the mounting base 51 is fixedly connected with balance mounting seat 52, which mounts on seat 52 Level offers connection through-hole, and 4 activity of the supporting rod is threaded through in the connection through-hole, and the supporting rod 4 is installed by bearing In the connection through-hole, fixed hole 53 is offered on the supporting rod 4 vertically, vertical movable is equipped in the mounting base 51 Cabin stability column 54,54 activity of cabin stability column are threaded through in fixed hole 53, which is connected with stabilization Bar straight line pusher；

The mounting base 51 is hollow-core construction, and the cavity in the mounting base 51 is arranged in the stabiliser bar straight line pusher Interior, the stabiliser bar straight line pusher includes the first transmission cylinder 61, which is fixed on described The internal chamber wall of mounting base 51 is connected with horizontal linkage board 62 after the vertical stretching of piston rod of the first transmission cylinder 61, described solid It is two to determine through-hole 53, and two fixed holes 53 are distributed in 52 both sides of balance mounting seat, movable in the mounting base 51 It wears there are two the cabin stability column 54, the cabin stability column 54 is corresponded with fixed hole 53, and the cabin is stablized One end of column 54 is fixedly connected after stretching into the mounting base 51 with the horizontal linkage board 62.

Shown in Fig. 4 and Fig. 5, the blower unit 9 includes air inducing mounting bracket 91, the air inducing mounting bracket 91 and the arc The slot inner wall of pylon turning groove 7 is fixedly connected, and at least one blade torsion shaft 92, institute are horizontally installed on the air inducing mounting bracket 91 It states and has been respectively fixedly connected with wind blade 93 on blade torsion shaft 92, which is connected with blade rotating device 10；

The blade rotating device 10 includes the second transmission cylinder 10a, and second transmission cylinder 10a is arranged in any pylon In mounting hole 8, the external part of the blade torsion shaft 92 has been respectively fixedly connected with drive link 10b, and the drive link 10b activities connect Be connected to the same horizontal linkage seat 10c, this second transmission cylinder 10a piston rods protrude horizontally up after by connecting rod 10d and the water Flat linkage seat 10c connections.

Shown in Fig. 1 and Fig. 2, the wind blade 93 is rectangular paddle, the length direction of the wind blade 93 and institute The length direction for stating blade torsion shaft 92 is consistent, and the supporting rod 4 is mutually parallel with wind wheel blade component shaft, the overturning branch Support axis 33 is mutually parallel with the blade torsion shaft 92, after the wind blade 93 is rotated with blade torsion shaft 92, the wind-guiding The arc pylon turning groove 7 is stretched out in side of the blade 93 far from the blade torsion shaft 92, is set on the turning-over support axis 33 There is pylon seat 12, which is equipped with rotation seat 11, and 1 lower part of the pylon is mounted on the rotation seat 11.

It can further be seen that there are six the blade torsion shafts 92 in Fig. 6, six 92 pectinations of blade torsion shaft are distributed in The either side of the turning-over support axis 33.

When attacking, to avoid attack of the high wind to pylon 1 and cabin 2, avoid pylon 1 too strong because that cannot bear when high wind Wind pressure and collapse, start upset motor 34, turning-over support axis 33 drives pylon 1 and cabin 2 to turn under the driving of upset motor 34 Turn, while starting the first transmission cylinder 61, cabin stability column 54 is exited into fixed hole 53, cabin 2 will not follow pylon 1 to turn over Turn, maintain the original state, cabin 2 is avoided to cause to be damaged because of overturning, is overturn when driving pylon 1 and the overturning of cabin 2 to arc pylon After in slot 7, it is again started up the first transmission cylinder 61, cabin stability column 54 is stretched into fixed hole 53 fixed, then starts the Two transmission cylinder 10a, the second transmission cylinder 10a piston rods push horizontal linkage seat 10c, to drive on horizontal linkage seat 10c Six drive link 10b move in the same direction, and then six blade torsion shafts 92 also rotate in same direction therewith, and wind blade 93 is turned over blade Shaft 92 rotates, and part wind blade 93 stretches out arc pylon turning groove 7, to be intercepted wind and introduce arc pylon turning groove In 7, to drive cabin 2 to continue to generate electricity；

After equal high wind warp, starts the first transmission cylinder 61, cabin stability column 54 is exited into fixed hole 53, then again Start upset motor 34, upset motor 34 drives turning-over support axis 33, to drive pylon 1 and cabin 2 to tilt out arc pylon Turning groove 7 restores to original position, is again started up the first transmission cylinder 61, cabin stability column 54 is stretched into fixed hole 53, is made Wind-driven generator keeps stablizing with pylon, does not shake in wind-power electricity generation, while starting the second transmission cylinder 10a, to Wind blade 93 is restored to horizontality.

Finally it is to be appreciated that foregoing description is merely a preferred embodiment of the present invention, those skilled in the art is in the present invention Enlightenment under, without prejudice to the purpose of the present invention and the claims, can make and indicate as multiple types, such change It changes and each falls within protection scope of the present invention.

Claims (8)

1. the top of a kind of safety-type building wind-driven generator, including pylon (1), the pylon (1) is equipped with cabin (2), the cabin (2) accelerator, generator and power control cabinet, the output shaft of the accelerator and the input axis connection of generator, the electricity are equipped in Cabinet and power generation mechatronics are controlled, wind wheel blade component is connected with after the input shaft stretching cabin (2) of the accelerator, it is special Sign is：Pylon (1) lower part is connected with pylon turnover device (3), and the top horizontal of the pylon (1) is connected with supporting rod (4), it is connected by self balancing device (5) between the cabin (2) and supporting rod (4)；

The self balancing device (5) includes mounting base (51), and the outer wall of the cabin (2) is solid with the lower surface of the mounting base (51) The upper surface of fixed contact, the mounting base (51) is fixedly connected with balance mounting seat (52), which mounts horizontal on seat (52) Connection through-hole is offered, supporting rod (4) activity is threaded through in the connection through-hole, is offered vertically on the supporting rod (4) Fixed hole (53), the interior vertical movable of the mounting base (51) are equipped with cabin stability column (54), the cabin stability column (54) Activity is threaded through in fixed hole (53), which is connected with stabiliser bar straight line pusher.

2. safety-type building wind-driven generator according to claim 1, it is characterised in that：The mounting base (51) is hollow Structure, the stabiliser bar straight line pusher are arranged in the cavity of the mounting base (51), the stabiliser bar straight line push dress It sets including the first transmission cylinder (61), the cylinder barrel of the first transmission cylinder (61) is fixed on the internal chamber wall of the mounting base (51), The piston rod of the first transmission cylinder (61) is connected with horizontal linkage board (62) after vertically stretching out, the fixed hole (53) is two It is a, two fixed holes (53) be distributed in balance mounting seat (52) both sides, in the mounting base (51) activity be equipped with Two cabin stability columns (54), the cabin stability column (54) correspond with fixed hole (53), and the cabin is stablized One end of column (54) is stretched into the mounting base (51) and is fixedly connected afterwards with the horizontal linkage board (62).

3. safety-type building wind-driven generator according to claim 1 or 2, it is characterised in that：The pylon turnover device (3) it is set on the base, offers arc pylon turning groove (7) on the pedestal, two of the arc pylon turning groove (7) Face offers pylon mounting hole (8) on cell wall, and the pylon turnover device (3) includes the turning-over support seat of two faces setting (31), two turning-over support seats (31) are separately positioned in the pylon mounting hole (8), two turning-over support seats (31) horizontal anomalous movement is equipped with same root turning-over support axis (33), pylon (1) lower part and the turning-over support axis between (33) it being fixedly connected, the either end of the turning-over support axis (33) stretches out turning-over support seat (31) and is connected with upset motor (34), The turning-over support axis (33) is mutually parallel with the supporting rod (4).

4. safety-type building wind-driven generator according to claim 3, it is characterised in that：The arc pylon turning groove (7) notch is covered with blower unit (9), and the blower unit (9) includes air inducing mounting bracket (91), the air inducing mounting bracket (91) it is fixedly connected with the slot inner wall of the arc pylon turning groove (7), at least one is horizontally installed on the air inducing mounting bracket (91) A blade torsion shaft (92) has been respectively fixedly connected with wind blade (93) on the blade torsion shaft (92), the blade torsion shaft (92) it is connected with blade rotating device (10).

5. safety-type building wind-driven generator according to claim 4, it is characterised in that：The blade rotating device (10) Including the second transmission cylinder (10a), which is arranged in any pylon mounting hole (8), and the blade turns over The external part of shaft (92) has been respectively fixedly connected with drive link (10b), and the drive link (10b) is connected with the same level Linkage seat (10c), this second transmission cylinder (10a) piston rod protrude horizontally up after by connecting rod (10d) and the horizontal linkage seat (10c) is connected.

6. safety-type building wind-driven generator according to claim 5, it is characterised in that：The bottom of the pylon (1) with The turning-over support axis (33) is fixedly connected, and the turning-over support axis (33) is support tube, and the turning-over support axis (33) is horizontal Setting, the turning-over support axis (33) is connect with described two turning-over support seats (31) respectively by bearing, and the overturning The both ends of support shaft (33) are pierced by turning-over support seat (31) respectively, and the control of the wind-driven generator (2) and transmission line of electricity are downward After pylon (1), the turning-over support axis (33) is stretched into, and stretch out from turning-over support axis (33) end.

7. safety-type building wind-driven generator according to claim 5 or 6, it is characterised in that：The wind blade (93) For rectangular paddle, the length direction of the wind blade (93) is consistent with the length direction of blade torsion shaft (92), described Supporting rod (4) is mutually parallel with wind wheel blade component shaft, the turning-over support axis (33) and blade torsion shaft (92) phase Mutually parallel, after the wind blade (93) rotates with blade torsion shaft (92), the wind blade (93) is turned over far from the blade The arc pylon turning groove (7) is stretched out in the side of shaft (92), and the turning-over support axis (33) is equipped with pylon seat (12), should Pylon seat (12) is equipped with rotation seat (11), and pylon (1) lower part is mounted on the rotation seat (11).

8. safety-type building wind-driven generator according to claim 7, it is characterised in that：The blade torsion shaft (92) has Six, six blade torsion shaft (92) pectinations are distributed in the either side of the turning-over support axis (33).