CN209444512U - A kind of hydraulic driven wind power generating set - Google Patents

Abstract

The utility model provides a kind of hydraulic driven wind power generating set, it blows blade rotation by wind, and then paddle belt turn axis rotation, the rotation of shaft drives first bevel gear rotation, the second bevel gear rotation that the rotation driving of first bevel gear engages, and then drive the rotation of the first connecting shaft, and then drive hydraulic pump works, hydraulic pump works convey liquid to hydraulic motor by outlet tube, and then hydraulic motor work is driven under fluid pressure, and then hydraulic motor drives generator work power generation, liquid flows through and is transported to hydraulic pump by inlet tube after hydraulic motor, and then form circulation, and then realize lasting power generation, wind energy is converted into electric energy by hydraulic pump and hydraulic motor, pass through hydraulic drive, equipment volume reduces, and then cost reduces, it is hardly damaged.

Description

A kind of hydraulic driven wind power generating set

Technical field

The utility model belongs to technical field of wind power generator, in particular to a kind of hydraulic driven wind-power electricity generation Unit.

Background technique

With era development and scientific and technological progress, the commercialization that all kinds of wind power plants on land and coastal waters use is high-power grid-connected Wind-driven generator has been formed to trunnion axis, lift-type, three blades, upwind, main force's type that speed-changing oar-changing is characterized.According to Main transmission is direct-driving type or high-power wind turbine machine can be divided into non-direct drive and straight drive two major classes again with speed change gear.Its In, the sharpest edges of non-direct drive wind turbine are the slow-speed of revolution of impeller can be increased to what generator needed by speed raising apparatus Revolving speed thus can make the overall size of generator and diameter be reduced to manufacture under equal-wattage, transport, the processes such as installation The range of permission.Therefore, most important type in and at present actually using.

Wherein speed raising apparatus is mainly gear speed raising case, but due to raising speed case carry by fan blade transmit with wind speed The live load and shock loading of change cause the transmission gear in raising speed case spot corrosion occur, and peeling etc. destroys, and generate noise, Vibration or even premature failure.When this happens, the significant cost in face of shutting down, repairing and reinstall is would have to Expenditure and power generation loss and time waste.Therefore need one kind that can play non-direct drive type wind turbine advantage and effectively overcome The wind turbine of its weakness.For this purpose, it is proposed that a kind of device to be generated electricity using hydraulic drive is solved in the prior art There are the problem of.

Utility model content

The purpose of this utility model is to provide a kind of hydraulic driven wind power generating sets, to solve above-mentioned background technique It is middle to propose that existing non-direct drive generator leans on gear drive, it is easy damage ring, the high problem of cost input.

To achieve the above object, the utility model adopts the technical scheme that

A kind of hydraulic driven wind power generating set, including installs case, the inner bottom of the installs case are fixed with hydraulic Pump, the output shaft end of the hydraulic pump are fixed with the first connecting shaft, the centre of first connecting shaft by first shaft coupling It is fixed with first bevel gear, the side of the first bevel gear, which is connected by meshing transmission, second bevel gear, the second bevel gear It is fixed in shaft, one end of the shaft is fixed with blade, and the shaft is provided with balance mechanism far from one end of blade, institute The outlet for stating hydraulic pump has outlet tube, the lower end of the outlet tube and the inlet communication of hydraulic motor, the hydraulic motor Outlet have inlet tube, the upper end of the inlet tube and an inlet communication of hydraulic pump, the output shaft of the hydraulic motor and The input shaft of generator is fixedly linked.

Preferably, the balance mechanism includes link block, and one end end of the link block is inlaid with first bearing, described The inner ring of first bearing and the end of shaft are fixedly linked.

Preferably, the shaft through second bearing inner ring and be secured to be connected, the second bearing is embedded in the The centre of one mounting rack, the link block are fixed with the second connecting shaft, second connection far from one end end of first bearing The second mounting rack is fixed on axis.

Preferably, the upper and lower ends of first mounting rack and the second mounting rack are rotatably connected to idler wheel, the idler wheel It is rolled in round sliding rail, the circle sliding rail is separately positioned on the downside of the upside and the second fixed plate of the first fixed plate, institute State the top that the first fixed plate is fixed on installs case.

Preferably, second connecting shaft is fixed with tail vane, the bottom end of the link block far from one end end of link block Centre is inlaid with 3rd bearing, and the inner ring of the 3rd bearing and the first connecting shaft are fixedly linked.

Preferably, third connecting shaft is fixed among the upper end of the link block, the upper end of the third connecting shaft is fixed There is hood for protecting rider, is fixed with reinforcing rod between the hood for protecting rider and third connecting shaft.

Preferably, the elevating mechanism includes servo motor, and the output shaft end of the servo motor passes through the second shaft coupling Device is fixed with screw rod, transmission nut is sequentially connected on the screw rod, the transmission nut is embedded in the bottom of sliding bar, described The outer wall lower end two sides of sliding bar are provided with sliding block, and the sliding block slides in sliding rail, and support rod is arranged in the sliding rail On inner wall.

Preferably, the upper end end of the support rod is fixed with limited block, and the sliding bar runs through limited block.

Preferably, the servo motor, hydraulic motor and generator are arranged at the inside of cabinet, and the support rod is fixed On the top of cabinet.

Preferably, one end two sides of the cabinet are hinged with chamber door, and the chamber door is fixed with far from one end of hinged place Handle.

Preferably, the bottom end of the cabinet is fixed with pedestal, and the pedestal fixes on the ground.

The technical effect and advantage of the utility model: the utility model proposes a kind of hydraulic driven wind-driven generator Group has the advantage that compared with prior art

1, the utility model blows blade rotation by wind, and then paddle belt turn axis rotates, and the rotation of shaft drives the The rotation of one bevel gear, the second bevel gear rotation that the rotation driving of first bevel gear engages, and then drive the first connecting shaft Rotation, and then hydraulic pump works are driven, hydraulic pump works convey liquid to hydraulic motor by outlet tube, and then in fluid pressure Lower driving hydraulic motor work, and then hydraulic motor drives generator work, electrical power generators, liquid leads to after flowing through hydraulic motor It crosses inlet tube and is transported to hydraulic pump, and then form circulation, and then realize lasting power generation, by hydraulic pump and hydraulic motor wind energy It is converted into electric energy, by hydraulic drive, equipment volume reduces, and then cost reduces, and is hardly damaged；

2, the utility model is connected with link block by the rear end thereof in shaft, and link block is fixed far from one end of shaft There is the second connecting shaft, the second connecting shaft is fixed with tail vane far from one end of link block, and the centre of shaft is connected by second bearing First mounting rack, the centre of the second connecting shaft are fixed with the second mounting rack, the upper and lower ends of the first mounting rack and the second mounting rack It is respectively and fixedly provided with idler wheel, idler wheel rolls in the round sliding rail in the first fixed plate and the second fixed plate, and the bottom end of link block passes through 3rd bearing and the rotation connection of the first connecting shaft, when wind direction changes, under the balance of tail vane, link block is around the first connection The axis of axis rotates, and then idler wheel is driven to roll in round sliding rail, realizes adjust automatically Windward angle, realizes maximized energy Amount conversion；

3, the utility model drives screw rod rotation by servo motor, and the rotation driving transmission nut of screw rod is above and below screw rod It moves, and then drives sliding rail of the sliding bar on support rod inner wall to move up and down, and then installs case is driven to move up and down, realization pair The up and down adjustment of wind energy conversion mechanism efficiently uses wind energy, while being avoided that damage of the high wind to device, plays a protective role.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the shaft side figure of the utility model；

Fig. 3 is the balance mechanism internal structure chart one of the utility model；

Fig. 4 is the balance mechanism internal structure chart two of the utility model；

Fig. 5 is the wind energy transmission connecting structure schematic diagram of the utility model；

Fig. 6 is the hood for protecting rider structure chart of the utility model；

Fig. 7 is the balance mechanism explosive view one of the utility model；

Fig. 8 is the balance mechanism explosive view two of the utility model；

Fig. 9 is the elevating mechanism explosive view of the utility model；

Figure 10 is connectivity schematic diagram between the hydraulic pump and hydraulic motor of the utility model.

Appended drawing reference: 1, installs case；2, hydraulic pump；3, first shaft coupling；4, the first connecting shaft；5, first bevel gear；6, Second bevel gear；7, shaft；8, blade；9, balance mechanism；901, link block；902, first bearing；903, second bearing；904, First mounting rack；905, the second connecting shaft；906, the second mounting rack；907, idler wheel；908, round sliding rail；909, first is fixed Plate；910, the second fixed plate；911, tail vane；912,3rd bearing；913, third connecting shaft；914, hood for protecting rider；915, reinforcing rod； 10, outlet tube；11, hydraulic motor；12, inlet tube；13, generator；14, cabinet；15, elevating mechanism；151, servo motor； 152, second shaft coupling；153, screw rod；154, transmission nut；155, sliding bar；156, sliding block；157, sliding rail；158, support rod； 159, limited block；16, chamber door；17, handle；18, pedestal.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Specific embodiment described herein is only used to explain the utility model, is not used to limit the utility model.Base In the embodiments of the present invention, institute obtained by those of ordinary skill in the art without making creative efforts There are other embodiments, fall within the protection scope of the utility model.

The utility model provides a kind of hydraulic driven wind power generating set as Figure 1-10 shows, including installs case 1, The inner bottom of the installs case 1 is fixed with hydraulic pump 2, and the output shaft end of the hydraulic pump 2 is fixed by first shaft coupling 3 There is the first connecting shaft 4, the centre of first connecting shaft 4 is fixed with first bevel gear 5, and the side of the first bevel gear 5 is nibbled Conjunction is sequentially connected with second bevel gear 6, and the second bevel gear 6 is fixed in shaft 7, and one end of the shaft 7 is fixed with paddle Leaf 8, the shaft 7 are provided with balance mechanism 9 far from one end of blade 8, and the outlet of the hydraulic pump 2 has outlet tube 10, The lower end of the outlet tube 10 and the inlet communication of hydraulic motor 11, the outlet of the hydraulic motor 11 have inlet tube 12, The equal spiral setting in the lower end of outlet tube 10 and inlet tube 12 increases the length of outlet tube 10 and inlet tube 12, avoids filling in lower end The length of outlet tube 10 and inlet tube 12 is shorter when setting rising causes to disconnect, the upper end of the inlet tube 12 and hydraulic pump 2 into Mouth connection, the output shaft of the hydraulic motor 11 and the input shaft of generator 13 are fixedly linked.

Preferably, the balance mechanism 9 includes link block 901, one end end of the link block 901 is inlaid with first axle 902 are held, the inner ring of the first bearing 902 and the end of shaft 7 are fixedly linked.

By using above-mentioned technical proposal, the rotation connection of shaft 7 and link block 901 is realized, and then realize blade 8 and connect Connect the rotation connection of block 901.

Preferably, the shaft 7 runs through the inner ring of second bearing 903 and is secured to be connected, the second bearing 903 is inlayed Embedded in the centre of the first mounting rack 904, the link block 901 is fixed with the second connection far from one end end of first bearing 902 Axis 905 is fixed with the second mounting rack 906 in second connecting shaft 905.

By using above-mentioned technical proposal, the connection of the second connecting shaft 905 and link block 901 is realized and by the first installation Frame 904 and the second mounting rack 906 play a supporting role to link block 901.

Preferably, the upper and lower ends of first mounting rack 904 and the second mounting rack 906 are rotatably connected to idler wheel 907, The idler wheel 907 rolls in round sliding rail 908, it is described circle sliding rail 908 be separately positioned on the first fixed plate 909 upside and The downside of second fixed plate 910, first fixed plate 909 are fixed on the top of installs case 1.

By using above-mentioned technical proposal, when rotating shaft 7 and the second connecting shaft 905 with link block 901, in idler wheel 907 drive lower edge circle sliding rail 908 rolls, and reduces frictional force, reduces energy loss, improves service life of equipment.

Preferably, second connecting shaft 905 is fixed with tail vane 911, the connection far from one end end of link block 901 3rd bearing 912 is inlaid among the bottom end of block 901, the inner ring of the 3rd bearing 912 and the first connecting shaft 4 are fixedly linked.

By using above-mentioned technical proposal, it is rotatablely connected link block 901 by 3rd bearing 912 and the first connecting shaft 4.

Preferably, third connecting shaft 913 is fixed among the upper end of the link block 901, the third connecting shaft 913 Upper end is fixed with hood for protecting rider 914, is fixed with reinforcing rod 915 between the hood for protecting rider 914 and third connecting shaft 913.

By using above-mentioned technical proposal, it is hydraulic into installs case 1 that the setting of hood for protecting rider 914 prevents rainy day rainwater from entering In pump 2, water blocking is played, the effects of sunshade, the jail between the setting enhancing third connecting shaft 913 and hood for protecting rider 914 of reinforcing rod 915 Solidity.

Preferably, the elevating mechanism 15 includes servo motor 151, the output shaft end of the servo motor 151 passes through Second shaft coupling 152 is fixed with screw rod 153, and transmission nut 154, the transmission nut 154 are sequentially connected on the screw rod 153 It is embedded in the bottom of sliding bar 155, the outer wall lower end two sides of the sliding bar 155 are provided with sliding block 156, the sliding block 156 It is slided in sliding rail 157, the sliding rail 157 is arranged on the inner wall of support rod 158.

By using above-mentioned technical proposal, the up and down adjustment of wind generator set is realized, realization maximally utilizes wind energy, together When encountering high wind, reduce height and reduce damage of the high wind to device, improve service life of equipment.

Preferably, the upper end end of the support rod 158 is fixed with limited block 159, the sliding bar 155 runs through limited block 159。

By using above-mentioned technical proposal, when setting of limited block 159 anti-156 upward sliding of limited slip block, skids off sliding rail 157, Play limit fixed function.

Preferably, the servo motor 151, hydraulic motor 11 and generator 13 are arranged at the inside of cabinet 14, it is described Support rod 158 is fixed on the top of cabinet 14.

By using above-mentioned technical proposal, the setting of cabinet 14 servo motor 151, hydraulic motor 11 and generator 13 with The external world keeps apart, and plays isolation, protective effect.

Preferably, one end two sides of the cabinet 14 are hinged with chamber door 16, the described one end of chamber door 16 far from hinged place It is fixed with handle 17.

By using above-mentioned technical proposal, facilitate and chamber door 16 opened by handle 17 with hand, the setting of chamber door 16 convenient for pair Internal unit is overhauled.

Preferably, the bottom end of the cabinet 14 is fixed with pedestal 18, the pedestal 18 is fixed on the ground.

By using above-mentioned technical proposal, the fastness installed between cabinet 14 and ground is reinforced in the setting of pedestal 18, mentions The stability and fastness of high equipment.

Working principle: wind blows the rotation of blade 8, and then blade 8 drives shaft 7 to rotate, and the rotation of shaft 7 drives the first cone Gear 5 rotates, and the second bevel gear 6 that the rotation driving of first bevel gear 5 engages rotates, and then drives the first connecting shaft 4 Rotation, and then hydraulic pump 2 is driven to work, the work of hydraulic pump 2 conveys liquid to hydraulic motor 11 by outlet tube 10, and then in liquid Hydraulic motor 11 is driven to work under body pressure, and then hydraulic motor 11 drives generator 13 to work, generator 13 generates electricity, liquid flow Hydraulic pump 2 is transported to by inlet tube 12 after hydraulic motor 11, and then forms circulation, and then realizes lasting power generation, passes through liquid Wind energy is converted into electric energy by press pump 2 and hydraulic motor 11, and by hydraulic drive, equipment volume reduces, and then cost reduces；

By being connected with link block 901 in the rear end thereof of shaft 7, link block 901 is fixed with far from one end of shaft 7 Two connecting shafts 905, the second connecting shaft 905 are fixed with tail vane 911 far from one end of link block 901, and the centre of shaft 7 passes through second Bearing 903 connects the first mounting rack 904, and the centre of the second connecting shaft 905 is fixed with the second mounting rack 906, the first mounting rack 904 It is respectively and fixedly provided with idler wheel 907 with the upper and lower ends of the second mounting rack 906, idler wheel 907 is in the first fixed plate 909 and the second fixed plate It being rolled in round sliding rail 908 on 910, the bottom end of link block 901 is rotatablely connected by 3rd bearing 912 and the first connecting shaft 4, When wind direction changes, under the balance of tail vane 911, link block 901 is rotated around the axis of the first connecting shaft 4, and then is driven Idler wheel 907 rolls in round sliding rail 908, realizes adjust automatically Windward angle, realizes maximized energy conversion；

When needing to be adjusted up the height of device, start servo motor 151, and then servo motor 151 drives screw rod 153 to revolve Turn, the rotation driving transmission nut 154 of screw rod 153 is moved upwards along screw rod 153, and then drives sliding bar 155 along support rod 158 Sliding rail 157 on inner wall moves upwards, and then installs case 1 is driven to move upwards, so drive hydraulic pump 2 and link block 901 with And blade 8 and tail vane 911 move upwards, until sliding block 156 is contacted with the limited block 159 on 158 top of support rod, 156 nothing of sliding block Method continues up, and then realizes and be adjusted up to device, efficiently uses wind energy, when encountering high wind, starting servo electricity Machine 151 makes its reverse rotation, and then 155 slide downward of sliding bar, similarly moves down entire wind energy converter, in turn Less damage of the high wind to device, plays a protective role；

By the way that servo motor 151, hydraulic motor 11 and generator 13 are arranged at cabinet 14, the protection to them is realized Isolation, and cabinet 14 and surface-mounted fastness are reinforced by pedestal 18, and then enhance the fastness and stabilization of whole device Property.

Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of hydraulic driven wind power generating set, including installs case (1) and elevating mechanism (15), it is characterised in that: described The inner bottom of installs case (1) is fixed with hydraulic pump (2), and the output shaft end of the hydraulic pump (2) passes through first shaft coupling (3) It is fixed with the first connecting shaft (4), the centre of first connecting shaft (4) is fixed with first bevel gear (5), the first bevel gear (5) side, which is connected by meshing transmission, to be had second bevel gear (6), and the second bevel gear (6) is fixed on shaft (7), and described turn One end of axis (7) is fixed with blade (8), and the shaft (7) is provided with balance mechanism (9), the liquid far from the one end of blade (8) The outlet of press pump (2) has outlet tube (10), the lower end of the outlet tube (10) and the inlet communication of hydraulic motor (11), institute The outlet for stating hydraulic motor (11) has inlet tube (12), and the upper end of the inlet tube (12) and the import of hydraulic pump (2) connect Logical, the output shaft of the hydraulic motor (11) and the input shaft of generator (13) are fixedly linked.

2. a kind of hydraulic driven wind power generating set according to claim 1, it is characterised in that: the balance mechanism It (9) include link block (901), one end end of the link block (901) is inlaid with first bearing (902), the first bearing (902) end of inner ring and shaft (7) is fixedly linked.

3. a kind of hydraulic driven wind power generating set according to claim 2, it is characterised in that: the shaft (7) is passed through It wears the inner ring of second bearing (903) and is secured to be connected, the second bearing (903) is embedded in the first mounting rack (904) Centre, the link block (901) are fixed with the second connecting shaft (905) far from one end end of first bearing (902), and described second The second mounting rack (906) are fixed in connecting shaft (905).

4. a kind of hydraulic driven wind power generating set according to claim 3, it is characterised in that: first mounting rack (904) it is rotatably connected to idler wheel (907) with the upper and lower ends of the second mounting rack (906), the idler wheel (907) is in round sliding rail (908) it is rolled in, the circle sliding rail (908) is separately positioned on upside and the second fixed plate (910) of the first fixed plate (909) Downside, first fixed plate (909) is fixed on the top of installs case (1).

5. a kind of hydraulic driven wind power generating set according to claim 3, it is characterised in that: second connecting shaft (905) one end end far from link block (901) is fixed with tail vane (911), is inlaid among the bottom end of the link block (901) 3rd bearing (912), the inner ring and the first connecting shaft (4) of the 3rd bearing (912) are fixedly linked.

6. a kind of hydraulic driven wind power generating set according to claim 2, it is characterised in that: the link block (901) it is fixed among upper end third connecting shaft (913), the upper end of the third connecting shaft (913) is fixed with hood for protecting rider (914), reinforcing rod (915) are fixed between the hood for protecting rider (914) and third connecting shaft (913).

7. a kind of hydraulic driven wind power generating set according to claim 1, it is characterised in that: the elevating mechanism It (15) include servo motor (151), the output shaft end of the servo motor (151) is fixed with by second shaft coupling (152) Screw rod (153) is sequentially connected with transmission nut (154) on the screw rod (153), and the transmission nut (154) is embedded in sliding The outer wall lower end two sides of the bottom of bar (155), the sliding bar (155) are provided with sliding block (156), and the sliding block (156) exists Sliding in sliding rail (157), the sliding rail (157) are arranged on the inner wall of support rod (158).

8. a kind of hydraulic driven wind power generating set according to claim 7, it is characterised in that: the support rod (158) upper end end is fixed with limited block (159), and the sliding bar (155) runs through limited block (159).

9. a kind of hydraulic driven wind power generating set according to claim 7, it is characterised in that: the servo motor (151), hydraulic motor (11) and generator (13) are arranged at the inside of cabinet (14), and the support rod (158) is fixed on case The top of body (14).

10. a kind of hydraulic driven wind power generating set according to claim 9, it is characterised in that: the cabinet (14) One end two sides be hinged with chamber door (16), the chamber door (16) is fixed with handle (17) far from one end of hinged place；The case The bottom end of body (14) is fixed with pedestal (18), and the pedestal (18) fixes on the ground.