CN204553098U - A kind of Multi-angle rotary wind generating unit - Google Patents

Abstract

The utility model relates to a kind of Multi-angle rotary wind generating unit, comprise rotary seat, turn to supporting post, movable supporting post and the first wind turbine and the second wind turbine, turn between supporting post and movable supporting post and be connected with cylinder damper, differential gear output terminal is connected with the first rotatingshaft from left to right in turn, output shaft and the second rotatingshaft, output shaft passes rotary seat and is connected with generator, first rotatingshaft is connected on the same axis with the second rotatingshaft by differential gear, first rotatingshaft is socketed with one-level gear, second rotatingshaft is socketed with secondary gear.Described a kind of Multi-angle rotary wind generating unit, wind turbine can in the angle turning to automatic rotary three-sixth turn or more on supporting post, the stability achieving weathercock turns to the inclination of supporting post and movable supporting post or rotates face accessibly, achieve the maintenance and operation be convenient to wind turbine, and can maintenance cost be reduced.

Description

A kind of Multi-angle rotary wind generating unit

Technical field

The utility model relates to the technical field of wind energy power, especially a kind of Multi-angle rotary wind generating unit.

Background technique

Traditional wind generating unit has a Blades For Horizontal Axis Wind, as propeller type or lotus leaf type.In wind generating unit, yaw control device is used for making wind turbine directly point to wind, can change over time according to wind direction.Yaw control device can only make wind energy conversion system within the specific limits.Yaw control device can not cause the direct air intake of wind turbine, makes wind from 360 degree of any directions.In addition, wind turbine rotation needs to prevent cable etc. to be arranged on device and is twisted, and the slewing area of blower fan is limited in certain scope.In order to power cable etc. is untied, blower fan is dried possibly in the opposite direction.On the other hand, have a wind generating unit to be equipped with vertical axis aerogenerator, as large discharge type and Sa Woniusi type, the advantage of the wind generating unit of these types is, blower fan can receive the wind from any 360 degree of directions, and wind turbine need not be rotated.At vertical axis aerogenerator, one is rotated in unidirectional motion wind and can receives wind, at the blade that the side of identical wind rotates up.But the direction of the wind that can rotate in the opposite direction at the blade of opposition side is moved.Therefore, the rotating force of wind turbine is weakening.In order to overcome this problem, baffle plate is installed most important, and baffle plate can wind gathering, the direction of the homodromal motion wind of wind impact blades offside but do not hit blade offside, the wind in the direction of rotary motion, but baffle plate itself can be fixing, inactive.In this case, baffle plate does not work, and depends on the direction of wind.Therefore, the problems referred to above cannot overcome.

Model utility content

The technical problems to be solved in the utility model is: in order to overcome above-mentioned middle Problems existing, provide a kind of Multi-angle rotary wind generating unit, its project organization rationally, blower fan can be realized rotate 360 degree or any angle, arbitrarily rotate according to wind direction.

The utility model solves the technological scheme that its technical problem adopts: a kind of Multi-angle rotary wind generating unit, comprise for being arranged on ground rotary seat, be vertically mounted on and rotary seat turns to supporting post, the movable supporting post be connected with turning to supporting post and the first wind turbine be connected with movable supporting post and the second wind turbine, turn between supporting post and movable supporting post and be connected with cylinder damper, differential gear is provided with in described rotary seat, left disk type braker and right disk type braker, first transmitting gear and the second transmitting gear, differential gear output terminal is connected with the first rotatingshaft from left to right in turn, output shaft and the second rotatingshaft, output shaft passes rotary seat and is connected with generator, first rotatingshaft is connected on the same axis with the second rotatingshaft by differential gear, described left disk type braker and right disk type braker are arranged on the end of the first rotatingshaft and the end of the second rotatingshaft respectively, first rotatingshaft is socketed with one-level gear, second rotatingshaft is socketed with secondary gear, the diameter of one-level gear is less than the diameter of secondary gear,

The first described transmitting gear comprises the first upper-end surface gear, extend and be connected to the first vertical shaft of the first gear lower end, upper-end surface and be connected to the first lower end side gear of the first vertical shaft bottom, first lower end side gear is meshed with one-level gear, first upper-end surface gear has been connected with a joggle the first running shaft, the second described transmitting gear comprises the second upper-end surface gear, extend and be connected to the second vertical shaft of the second gear lower end, upper-end surface and be connected to the second lower end side gear of the second vertical shaft bottom, second lower end side gear is meshed with secondary gear, second transmitting gear to be rotated with the first vertical shaft of the first transmitting gear by the second vertical shaft and is connected, second upper-end surface gears meshing is connected with the second running shaft, first running shaft and the second running shaft arranged in parallel, described horizontal the placing between supporting post and movable supporting post that turn to is provided with coupling shaft, coupling shaft is socketed with the first gear successively, second gear, 3rd gear, 4th gear, second gear and the 3rd gear are meshed with the first running shaft top and the second running shaft top respectively, first wind turbine comprises the first screw shaft be meshed with the first gear and the first impeller being connected to the first screw shaft end, second wind turbine comprises the second screw shaft be meshed with the 4th gear and the second impeller being connected to the second screw shaft end, first impeller and the symmetrical setting of the second impeller.

In order to stability can be improved, the anti-offset positioning work piece for preventing the first rotatingshaft or the skew of the second rotatingshaft is installed in described rotary seat.

In order to can formulation effect in time, described left disk type braker and right disk type braker include brake disc and brake caliper, and brake disc is located at the end of the first rotatingshaft or the second rotatingshaft, and brake disc is clamped by brake caliper.

The beneficial effects of the utility model are: described a kind of Multi-angle rotary wind generating unit, adopt the electricity generating device of this kind of design, wind turbine can in the angle turning to automatic rotary three-sixth turn or more on supporting post, directly wind can be pointed at any time according to wind direction, the stability achieving weathercock turns to the inclination of supporting post and movable supporting post or rotates face accessibly, achieve the maintenance and operation be convenient to wind turbine, and can maintenance cost be reduced.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is structural representation of the present utility model;

Fig. 2 is side view of the present utility model.

1. rotary seats in figure, 2. turn to supporting post, 3. movable supporting post, 4. the first wind turbine, 41. first screw shafts, 42. first impellers, 5. the second wind turbine, 51. second screw shafts, 52. second impellers, 6. cylinder damper, 7. differential gear, 8. left disk type braker, 9. right disk type braker, 10-1. first upper-end surface gear, 10-2. the first vertical shaft, 10-3. first lower end side gear, 11-1. second upper-end surface gear, 11-2. the second vertical shaft, 11-3. second lower end side gear, 12. first rotatingshafts, 13. output shafts, 14. second rotatingshafts, 15. one-level gears, 16. secondary gears, 17. first running shafts, 18. second running shafts, 19. coupling shafts, 20. first gears, 21. second gears, 22. the 3rd gears, 23. the 4th gears, 24. anti-offset positioning work pieces, 25. brake discs, 26. brake calipers.

Embodiment

By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

A kind of Multi-angle rotary wind generating unit as depicted in figs. 1 and 2, comprise for being arranged on ground rotary seat 1, rotary seat 1 is vertically installed with and turns to supporting post 2, supporting post 2 is turned to be connected with movable supporting post 3, movable supporting post 3 is connected with the second wind turbine 5 with the first wind turbine 4, turn between supporting post 2 and movable supporting post 3 and be connected with cylinder damper 6, differential gear 7 output terminal is connected with the first rotatingshaft 12 from left to right in turn, output shaft 13 and the second rotatingshaft 14, output shaft 13 passes rotary seat 1 and is connected with generator, first rotatingshaft 12 is connected on the same axis with the second rotatingshaft 14 by differential gear 7, left disk type braker 8 and right disk type braker 9 are arranged on the end of the first rotatingshaft 12 and the end of the second rotatingshaft 14 respectively, left disk type braker 8 and right disk type braker 9 include brake disc 25 and brake caliper 26, brake disc 25 is located at the end of the first rotatingshaft 12 or the second rotatingshaft 14, brake disc 25 is clamped by brake caliper 26, first rotatingshaft 12 is socketed with one-level gear 15, second rotatingshaft 14 is socketed with secondary gear 16, the diameter of one-level gear 15 is less than the diameter of secondary gear 16, anti-offset positioning work piece 24 for preventing the first rotatingshaft 12 or the skew of the second rotatingshaft 14 is installed in rotary seat 1, first transmitting gear comprises the first upper-end surface gear 10-1, the the first lower end side gear 10-3 being connected with the first vertical shaft 10-2 and being connected to the first vertical shaft 10-2 bottom is extended in the first gear 10-1 lower end, upper-end surface, first lower end side gear 10-3 is meshed with one-level gear 15, first upper-end surface gear 10-1 has been connected with a joggle the first running shaft 17, second transmitting gear comprises the second upper-end surface gear 11-1, extend in the second gear 11-1 lower end, upper-end surface and be connected with the second vertical shaft 11-2, the second lower end side gear 11-3 is connected with in the second vertical shaft 11-2 bottom, second lower end side gear 11-3 is meshed with secondary gear 16, second transmitting gear to be rotated with the first vertical shaft 11-2 of the first transmitting gear by the second vertical shaft 11-2 and is connected, second upper-end surface gear 11-1 has been connected with a joggle the second running shaft 18, first running shaft 17 and the second running shaft 18 arranged in parallel, turn to horizontal placing between supporting post 2 and movable supporting post 3 that coupling shaft 19 is installed, coupling shaft 19 is socketed with successively the first gear 20, second gear 21, 3rd gear 22, 4th gear 23, second gear 21 and the 3rd gear 22 are meshed with the first running shaft 17 top and the second running shaft 18 top respectively, first wind turbine 4 comprises the first screw shaft 41 be meshed with the first gear 20 and the first impeller 42 being connected to the first screw shaft 41 end, second wind turbine 5 comprises the second screw shaft 51 be meshed with the 4th gear 23 and the second impeller 52 being connected to the first screw shaft 41 end, first impeller 42 and the symmetrical setting of the second impeller 52.

A kind of Multi-angle rotary wind generating unit of the present utility model, when using this wind generating unit, when being subject to wind-force, first impeller 42 and the second impeller 52 carry out doing opposite direction and rotate, first impeller 42 and the second impeller 52 drive the first screw shaft 41 and the first screw shaft 41 to rotate, thus the coupling shaft 19 making it engage rotates, the second gear 21 on coupling shaft 19 drives the first running shaft 17 to rotate, the 3rd gear 22 on coupling shaft 19 drives the second running shaft 18 to rotate, first running shaft 17 drives the first transmitting gear to rotate, second running shaft 18 drives the second transmitting gear to rotate, first transmitting gear and the second transmitting gear drive one-level gear 15 and secondary gear 16 to rotate respectively simultaneously, one-level gear 15 and secondary gear 16 drive output shaft 13 to rotate by the effect of differential gear 7, thus export to generator and generate electricity, when when blowing hard, when movable supporting post 2 is placed on the state of inclination, allow wind to the earth pressure release of wind turbine out, when horizontal axis propellers formula wind turbine, when wind-force is powerful, the axle center of the horizontal axis of impeller gathering and contraction, thus the blast reduced wind turbine, when wind speed is lower, impeller expands the blast to wind turbine.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this model utility technological thought, can carry out various change and amendment completely.The technical scope of this model utility is not limited to the content on specification, must determine its technical scope according to right.

Claims (3)

1. a Multi-angle rotary wind generating unit, it is characterized in that: comprise for being arranged on ground rotary seat (1), be vertically mounted on and rotary seat (1) turns to supporting post (2), with the movable supporting post (3) turning to supporting post (2) to be connected and the first wind turbine (4) be connected with movable supporting post (3) and the second wind turbine (5), turn between supporting post (2) and movable supporting post (3) and be connected with cylinder damper (6), differential gear (7) is provided with in described rotary seat (1), left disk type braker (8) and right disk type braker (9), first transmitting gear and the second transmitting gear, differential gear (7) output terminal is connected with the first rotatingshaft (12) from left to right in turn, output shaft (13) and the second rotatingshaft (14), output shaft (13) passes rotary seat (1) and is connected with generator, first rotatingshaft (12) is connected on the same axis with the second rotatingshaft (14) by differential gear (7), described left disk type braker (8) and right disk type braker (9) are arranged on the end of the first rotatingshaft (12) and the end of the second rotatingshaft (14) respectively, first rotatingshaft (12) is socketed with one-level gear (15), second rotatingshaft (14) is socketed with secondary gear (16), the diameter of one-level gear (15) is less than the diameter of secondary gear (16),

The first described transmitting gear comprises the first upper-end surface gear (10-1), extend and be connected to first vertical shaft (10-2) of the first upper-end surface gear (10-1) lower end and be connected to the first lower end side gear (10-3) of the first vertical shaft (10-2) bottom, first lower end side gear (10-3) is meshed with one-level gear (15), first upper-end surface gear (10-1) has been connected with a joggle the first running shaft (17), the second described transmitting gear comprises the second upper-end surface gear (11-1), extend and be connected to second vertical shaft (11-2) of the second upper-end surface gear (11-1) lower end and be connected to the second lower end side gear (11-3) of the second vertical shaft (11-2) bottom, second lower end side gear (11-3) is meshed with secondary gear (16), second transmitting gear is rotated with first vertical shaft (11-2) of the first transmitting gear by the second vertical shaft (11-2) and is connected, second upper-end surface gear (11-1) has been connected with a joggle the second running shaft (18), first running shaft (17) and the second running shaft (18) arranged in parallel, described horizontal the placing between supporting post (2) and movable supporting post (3) that turn to is provided with coupling shaft (19), coupling shaft (19) is socketed with successively the first gear (20), second gear (21), 3rd gear (22), 4th gear (23), second gear (21) and the 3rd gear (22) are meshed with the first running shaft (17) top and the second running shaft (18) top respectively, first wind turbine (4) comprises the first screw shaft (41) be meshed with the first gear (20) and the first impeller (42) being connected to the first screw shaft (41) end, second wind turbine (5) comprises the second screw shaft (51) be meshed with the 4th gear (23) and the second impeller (52) being connected to the second screw shaft (51) end, first impeller (42) and the second impeller (52) symmetrical setting.

2. a kind of Multi-angle rotary wind generating unit according to claim 1, is characterized in that: be provided with the anti-offset positioning work piece (24) for preventing the first rotatingshaft (12) or the second rotatingshaft (14) from offseting in described rotary seat (1).

3. a kind of Multi-angle rotary wind generating unit according to claim 1, it is characterized in that: described left disk type braker (8) and right disk type braker (9) include brake disc (25) and brake caliper (26), brake disc (25) is located at the end of the first rotatingshaft (12) or the second rotatingshaft (14), and brake disc (25) is clamped by brake caliper (26).