CN203604120U - Wind turbine generator system - Google Patents
Wind turbine generator system Download PDFInfo
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- CN203604120U CN203604120U CN201320570244.4U CN201320570244U CN203604120U CN 203604120 U CN203604120 U CN 203604120U CN 201320570244 U CN201320570244 U CN 201320570244U CN 203604120 U CN203604120 U CN 203604120U
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- gear
- slide bar
- pouring weight
- main transmission
- power generating
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
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Abstract
The utility model provides a wind turbine generator system which comprises the components of: an impeller, a main transmission system and a power generator. The main transmission system is driven by the impeller for rotating. The power generator is connected with the main transmission system. The wind turbine generator system further comprises an energy storage device which stores wind energy or releases energy to the transmission system. The energy storage device can be one selected from two different kinds of energy storage devices. The first kind of energy storage device is composed of a slide bar and a weight and can adjust moment of inertia. The second kind of energy storage device comprises a motor, a control device thereof and a gear transmission device. The motor and the control device thereof are connected with the gear transmission device. The main transmission system comprises a gearbox. The gear transmission device is engaged with a gear in the gearbox. The wind turbine generator system has functions of: reducing cut-in speed, enlarging cut-out speed, causing lower requirement of the type of wind turbine generator system to wind speed, realizing wider application range of the wind turbine generator system, more sufficiently utilizing wind energy, enlarging power generating amount and prolonging power generating time.
Description
Technical field
The utility model relates to a kind of novel wind power generating set, relate in particular to a kind of can accumulation of energy wind power generating set and for the energy-storage method in wind power generating set, belong to technical field of wind power generation.
Background technique
No matter existing wind power generating set is double-fed type or full power type or is directly to drive type, be all that requirement wind speed could normally be worked within the specific limits, be generated electricity.They all have requirement to minimum wind speed, and this minimum wind speed is cut wind speed exactly; High wind speed is also had to requirement; this high wind speed is exactly cut-out wind speed; only have in the time that wind speed is between incision wind speed and cut-out wind speed; wind power generating set ability normal power generation; so just cause that wind power generating set generated energy is low, dead time is long, wind energy utilization is low; and then cause blower fan profit margin low, limit the development of whole wind energy industry.The core generating parts basic comprising of wind power generating set is as Fig. 1: thus to blade, make vane stress impeller 1 in the time having the axis rotation at certain inclination angle with horizontal plane when wind, the rotation of impeller rotarily drives by main shaft 2 or the device that is known as changeover portion, main shaft or changeover portion are connected with gear-box (being also speedup box), motion and power pass to coupling 4 by gear-box 3, and then pass to generator 6 by coupling 4, on generator 6, connect frequency variator.
The core component of direct-driving type wind power generation unit is generally to remove gear-box 3, but the type of generator is different from double-fed type, and remaining part is all substantially close.
Therefore,, for above deficiency, the utility model provides a kind of wind power generating set.
Model utility content
(1) technical problem that will solve
The technical problems to be solved in the utility model is to provide a kind of wind power generating set, its can reduce incision wind speed, increase cut-out wind speed, effectively utilize wind energy, can significantly reduce costs, more easily meet electrical network requirement low voltage ride-through function, be beneficial to grid-connected.
(2) technological scheme
For realizing above function, a kind of wind power generating set described in the utility model, it comprises impeller 1, main transmission and generator 6, described main transmission is by impeller 1 driven rotary, described generator 6 is connected with described main transmission, described wind power generating set also comprises the energy storage apparatus 5 that can store wind energy or discharge wind energy to described main transmission, described energy storage apparatus 5 can be arranged on described impeller 1 or on described main transmission or the rotor of described generator 6 etc. in the localities.
Wherein, described energy storage apparatus 5 comprises slide bar 5-1 and the pouring weight 5-2 of adjustable rotary inertia, and described slide bar 5-1 is fixedly attached on described main transmission relatively, and described pouring weight 5-2 slidably or is movably connected on slide bar 5-1 under external force.
Wherein, on described slide bar 5-1, tooth bar can be installed, on described pouring weight 5-2, gear can be installed, by engaging of the gear on pouring weight 5-2 and tooth bar on described slide bar 5-1, realize the movement of pouring weight 5-2 on slide bar 5-1.
Wherein, on described slide bar 5-1, gear can be installed, on described pouring weight 5-2, tooth bar can be installed, by engaging of the tooth bar on pouring weight 5-2 and gear on slide bar 5-1, realize the movement of pouring weight 5-2 on slide bar 5-1.
Wherein, on described slide bar 5-1, can be provided with slide rail, on described pouring weight 5-2, can be provided with chute, by being slidably matched of the chute on slide rail and pouring weight 5-2 on described slide bar 5-1, realize the slip of slide block 5-2 on slide bar 5-1.
Wherein, on described slide bar 5-1, can be provided with chute, on described pouring weight 5-2, can be provided with slide rail, by being slidably matched of the slide rail on the chute on slide bar 5-1 and pouring weight 5-2, realize the slip of slide block 5-2 on slide bar 5-1.
Wherein, the weight of described slide bar 5-1, much smaller than the weight of described pouring weight 5-2, to make the rotary inertia of slide bar 5-1 much smaller than the rotary inertia of pouring weight 5-2, therefore, only has the rotary inertia of pouring weight 5-2 variable in whole transmission system.
Wherein, described energy storage apparatus 5 comprises electric motor and controller device 5-3 and gear drive 5-4, described main transmission comprises main shaft 2 and gear-box 3, described gear-box 3 is arranged on the Transmitted chains of described main shaft 2, described electric motor and controller device 5-3 is connected with described gear drive 5-4, and described gear drive 5-4 engages with the gear 3-1 in described gear-box 3.
Wherein, when wind speed is during higher than cut-out wind speed, gear 3-1 in described gear-box 3 drives described gear drive 5-4 rotation as driving wheel, described gear drive 5-4 provides countertorque to described main transmission, have the trend that hinders described main transmission rotation, now described electric motor and controller device 5-3 absorbs the excess energy in described main transmission as generator; When wind speed is lower than incision when wind speed, described electric motor and controller device 5-3 drives described gear drive 5-4 rotation as motor, now described gear drive 5-4 drives the gear 3-1 rotation in described gear-box 3 as driving wheel, to give described main transmission a unified extra auxiliary torque; In the time that wind speed is between specified incision wind speed and specified cut-out wind speed, the gear 3-1 in described gear drive 5-4 and described gear-box 3 throws off or described gear drive 5-4 idle running, main transmission is not exerted an influence.Can realize wind speed lower than incision wind speed certain limit or be unlikely to off-grid higher than cut-out wind speed certain limit still can guarantee fan operation, also having guaranteed that unit moves, generates electricity in larger wind speed range.
Wherein, the quantity of described energy storage apparatus 5 can be multiple.One place that can locate at the rotor of the blade of wind power generating set, main transmission, generator 6 etc. or a few place add by changing whole system rotary inertia and reduce wind speed and change the described multiple energy storage apparatuss 5 on transmission system impact.
(3) beneficial effect
The wind power generating set that technique scheme provides, is provided with energy storage apparatus 5, and this energy storage apparatus reduces wind speed by the rotary inertia of change whole system and changes the impact on transmission system; Or by add a moment input device being formed by separate power input output unit outside main transmission, with varying in size according to wind speed, show as from main transmission and absorb energy, release energy, neither also do not release energy to main transmission from main transmission absorption energy to main transmission, make the utility model lower to the requirement of wind speed, can more make full use of wind-resources, increasing electricity output and generating dutation, avoid grid-connected or throw off with electrical network continually.
Accompanying drawing explanation
Fig. 1 is conventional wind power generating set working principle and core component layout plan;
Fig. 2 is the working principle of a kind of wind power generating set of the utility model and the layout plan of core component;
Fig. 3 is the another kind of working principle of wind power generating set of the utility model and the layout plan of core component.
In figure: 1: impeller; 2: main shaft; 3: gear-box; 3-1: the gear in gear-box; 4: coupling; 6: generator; 7: mainframe; 8: tower cylinder; 5: energy storage apparatus; 5-1: slide bar; 5-2: pouring weight; 5-3: electric motor and controller device; 5-4: gear drive.
Embodiment
Below in conjunction with accompanying drawing, wind power generating set of the present utility model is described in further detail.
In Fig. 2 and Fig. 3, a kind of wind power generating set of the present utility model, it comprises impeller 1, main transmission, generator 6 and mainframe 7, described main transmission is by impeller 1 driven rotary, described generator 6 is connected with described main transmission, described main transmission is flexibly connected and is supported on described mainframe 7, described main transmission can be connected with described mainframe 7 by bearing, described mainframe 7 can be connected by bearing with tower cylinder 8, described wind power generating set also comprises the energy storage apparatus 5 that can store wind energy or release energy to described main transmission, described energy storage apparatus 5 can be arranged on the blade of described impeller 1 or on described main transmission or on the rotor of described generator 6, also can be arranged on other suitable places.This energy storage apparatus 5 does not affect the normal operation of the main transmission of blower fan, and can guarantee in the time that wind speed is excessive, unnecessary wind energy to be absorbed and stored, blower fan still can normally be moved, in the time that wind speed is too low, again the wind energy of storage is discharged, also guarantee that blower fan still can normally move.
Wherein, described energy storage apparatus 5 preferably includes slide bar 5-1 and the pouring weight 5-2 of adjustable rotary inertia, and described slide bar 5-1 is fixedly attached on described main transmission relatively, and described pouring weight 5-2 slidably or is movably connected on slide bar 5-1 under external force.
Wherein, on described slide bar 5-1, tooth bar can be installed, on described pouring weight 5-2, gear can be installed, by engaging of the tooth bar on described slide bar 5-1 and gear on pouring weight 5-2, realize the movement of pouring weight 5-2 on slide bar 5-1.Particularly, a side of described slide bar 5-1 can be processed into the serrated face of spline-simulating or be fixed with in a side of described slide bar 5-1 the tooth bar conforming to its length, described pouring weight 5-2 can be for being provided with the hollow structure of gear installation shaft and gear mounting hole in the middle of being processed into described serrated face meshed gears or described pouring weight 5-2, and gear is arranged in the gear installation shaft of described pouring weight 5-2, realize thus the engagement of wheel and rack, thereby realize the movement of described pouring weight 5-2 on slide bar 5-1.Also can realize the movement of pouring weight 5-2 on slide bar 5-1 by other suitable modes, for example, on described slide bar 5-1, gear can be installed, on described pouring weight 5-2, tooth bar can be installed, by engaging of the tooth bar on pouring weight 5-2 and gear on slide bar 5-1, realize the movement of pouring weight 5-2 on slide bar 5-1.Particularly, in the middle of can being processed into, described slide bar 5-1 is provided with the hollow structure of gear installation shaft and gear mounting hole, in gear installation shaft in described hollow structure, gear is installed, the one side of answering with described gear mesh on described slide block 5-2 is processed into the serrated face of spline-simulating or the one side of answering with described gear mesh on described slide block 5-2 is fixed with tooth bar, realize thus the engagement of wheel and rack, thereby realize the movement of described pouring weight 5-2 on slide bar 5-1.
Wherein, on described slide bar 5-1, can be provided with slide rail, on described pouring weight 5-2, can be provided with chute, by being slidably matched of the chute on slide rail and pouring weight 5-2 on described slide bar 5-1, realize the slip of slide block 5-2 on slide bar 5-1.Particularly, can on a side of the length direction of described slide bar 5-1, be provided with rectangular preiection (trapezoidal projection or semi-cylindrical hill), on described pouring weight 5-2, be provided with the rectangle groove (dovetail groove or semi-circular groove) matching with described rectangular preiection (trapezoidal projection or semi-cylindrical hill), by cooperatively interacting of described rectangle groove (dovetail groove or semi-circular groove) and described rectangular preiection (trapezoidal projection or semi-cylindrical hill), realize being slidably matched of described slide bar 5-1 and described pouring weight 5-2, or described slide bar 5-1 is processed into the shape adapting with described rectangle groove (dovetail groove or semi-circular groove), also can reach same technique effect.
Or, on described slide bar 5-1, can be provided with chute, on described pouring weight 5-2, can be provided with slide rail, by being slidably matched of the slide rail on the chute on slide bar 5-1 and pouring weight 5-2, realize the slip of slide block 5-2 on slide bar 5-1.Particularly, can on a side of described slide bar 5-1 length direction, be provided with rectangle groove (dovetail groove or semi-circular groove), on described pouring weight 5-2, be provided with the rectangular preiection (trapezoidal projection or semi-cylindrical hill) matching with described rectangle groove (dovetail groove or semi-circular groove), by cooperatively interacting of described rectangle groove (dovetail groove or semi-circular groove) and described rectangular preiection (trapezoidal projection or semi-cylindrical hill), realize being slidably matched of described slide bar 5-1 and described pouring weight 5-2.
Also can realize the slip of pouring weight 5-2 on slide bar 5-1 by other suitable modes.
Wherein, the weight of described slide bar 5-1, much smaller than the weight of described pouring weight 5-2, to make the rotary inertia of slide bar 5-1 be far smaller than the rotary inertia of pouring weight 5-2, therefore, only has the rotary inertia of pouring weight 5-2 variable in whole transmission system.According to mechanics principle J=m × R
2wherein m is the quality of pouring weight 5-2, R is the perpendicular distance of the center line of the described main transmission of pouring weight 5-2 position distance, J is the rotary inertia of pouring weight 5-2 around the center line rotation of described main transmission, according to different wind speed, the relative position of blower fan active adjustment pouring weight 5-2 on slide bar 5-1, also change the size of R, changes the rotary inertia of whole system.
In the time that wind speed changes, the equivalent torque of wind load originally on main transmission equates that with the electromagnetic torque at generator 6 places this balance must be broken, wind load equivalence torque is greater than or less than the electromagnetic torque of generator 6, thereby produce a non-vanishing total moment M, according to M=J × α, due to M and J all non-vanishing, certainly lead to a non-vanishing angular acceleration, the generation of angular acceleration makes the spinner velocity of generator 6 increase or reduce, so just, depart from rated speed, if it is too much to depart from rated speed, more easily exceed cut-out wind speed (blower fan workable high wind speed) or be reduced to below incision wind speed (the workable minimum wind speed of blower fan), make unit in improper generating state, by initiatively changing the relative main transmission gyration center of pouring weight 5-2 linear distance, it is the size of R, carry out the size of the total rotary inertia J of change system, make the angular acceleration size variation of system very micro-, thereby greatly offset wind load and changed the impact that system is produced.
Wherein, described impeller 1 is provided with blade, and described blade can connect air monitoring device.
For example, when wind speed increases, because vane propeller-changing needs the time, now wind load strengthens the moment of main transmission effect, in the time that air monitoring measurement device is increased to assign thresholds to wind speed, energy-storage system is auto-action just, pouring weight 5-2 moves towards the centerline direction away from main transmission along slide bar 5-1, so just increase the rotary inertia of whole transmission system, because M=J × α all increases, rotary inertia increases to desired value and has just guaranteed that the value of angular acceleration is very little, therefore the rotation speed change of generator amature is just very little, also be unit be not easy to exceed cut out rotating speed or be reduced to incision rotating speed below, thereby guarantee that unit moves in larger wind speed range, generating.
Wherein, described energy storage apparatus 5 comprises electric motor and controller device 5-3 and gear drive 5-4, described main transmission comprises main shaft 2 and gear-box 3, described gear-box 3 is arranged on the Transmitted chains of described main shaft 2, concrete mounting type can be the mounting hole of described main shaft 2 through the gear 3-1 in described gear-box 3, rotated by the gear 3-1 in the described gear-box 3 of rotarily driving of described main shaft 2, described main shaft 2 is connected with generator 6 by coupling 4, described electric motor and controller device 5-3 is connected with described gear drive 5-4, described gear drive 5-4 engages with the gear 3-1 in described gear-box 3.
Wherein, when wind speed is during higher than cut-out wind speed, energy in main transmission is excessive, gear 3-1 in described gear-box 3 drives described gear drive 5-4 rotation as driving wheel, described gear drive 5-4 provides countertorque to described main transmission, have the trend that hinders described main transmission rotation, now described electric motor and controller device 5-3 absorbs the excess energy in described main transmission as generator; When wind speed is lower than incision when wind speed, main transmission is taken advantage of a situation and cannot be started, described electric motor and controller device 5-3 drives described gear drive 5-4 rotation as motor, now described gear drive 5-4 drives the gear 3-1 rotation in described gear-box 3 as driving wheel, to give described main transmission a unified extra auxiliary torque, help main transmission rotation, start; In the time that wind speed is between specified incision wind speed and specified cut-out wind speed, the gear 3-1 in described gear drive 5-4 and described gear-box 3 throws off, and main transmission is not exerted an influence.Can realize wind speed lower than incision wind speed certain limit or be unlikely to off-grid higher than cut-out wind speed certain limit still can guarantee fan operation, also having guaranteed that unit moves, generates electricity in larger wind speed range.
Wherein, the quantity of described energy storage apparatus 5 is one or more.Described one or more energy storage apparatuss 5 are installed at one place that can locate at the rotor of the blade of wind power generating set, main transmission, generator etc. or a few place.Also can described energy storage apparatus 5 be installed in blade interior, the arrangement of described energy storage apparatus 5 includes but not limited to be arranged symmetrically with or interlaced arrangement by circumference along main transmission center line.If the center line of the main transmission of wind power generating set has many, so the center line of the arrangement institute foundation of described energy storage apparatus 5 comprises any center line.
Wherein, described impeller 1 is provided with according to the pitch-controlled system of wind speed size adjustment blade incidence size.Described pitch-controlled system can guarantee to obtain maximum energy, reduce the impact of wind-force to blower fan simultaneously, and network process in, feather control also can realize quick grid-connected without impacting, and generally, described pitch-controlled system has the hysteresis quality of time, only have after blower fan records or obtain by other approach the signal that wind speed change and just can make a response, in actual applications, due to wind speed change non-linear, nowadays specific operation can't reach the degree that becomes in advance oar.
The impact that the energy storage apparatus 5 of the wind power generating set that the utility model proposes makes unit transmission system be subject to wind load reduces; stressing conditions to transmission system component of machine makes moderate progress; the shelf life of prolonged mechanical component; the utility model had both played the applicable wind speed range that increases unit; can make the incision wind speed of unit lower, cut-out wind speed is higher; also can play the stressed feature of unit transmission system of improving; guarantee that unit generates electricity by way of merging two or more grid systems in wider wind speed range; motor can be protected, the generated electricity quality of power supply can be guaranteed again.
The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model know-why; can also make some improvement and replacement, these improvement and replacement also should be considered as protection domain of the present utility model.
Claims (8)
1. a wind power generating set, it comprises impeller (1), main transmission and generator (6), described main transmission is by impeller (1) driven rotary, described generator (6) is connected with described main transmission, it is characterized in that: this wind power generating set also comprises the energy storage apparatus (5) that can store wind energy or release energy to described main transmission:
Described energy storage apparatus (5) comprises slide bar (5-1) and the pouring weight (5-2) of adjustable rotary inertia, described slide bar (5-1) is fixedly attached on described main transmission relatively, and described pouring weight (5-2) slidably or is movably arranged on slide bar (5-1) under external force;
Described energy storage apparatus (5) comprises electric motor and controller device (5-3) and gear drive (5-4), described electric motor and controller device (5-3) is connected with described gear drive (5-4), described main transmission comprises main shaft (2) and gear-box (3), described gear-box (3) is arranged on the Transmitted chains of described main shaft (2), and described gear drive (5-4) engages with the gear (3-1) in described gear-box (3).
2. wind power generating set according to claim 1, it is characterized in that: on described slide bar (5-1), tooth bar is installed, on described pouring weight (5-2), gear is installed, by engaging of the gear on pouring weight (5-2) and tooth bar on slide bar (5-1), realize the movement of pouring weight (5-2) on slide bar (5-1).
3. wind power generating set according to claim 1, it is characterized in that: on described slide bar (5-1), gear is installed, on described pouring weight (5-2), tooth bar is installed, by engaging of the tooth bar on pouring weight (5-2) and gear on slide bar (5-1), realize the movement of pouring weight (5-2) on slide bar (5-1).
4. wind power generating set according to claim 1, it is characterized in that: described slide bar (5-1) is provided with slide rail, described pouring weight (5-2) is provided with chute, by being slidably matched of the chute on the slide rail on slide bar (5-1) and pouring weight (5-2), realize the slip of slide block (5-2) on slide bar (5-1).
5. wind power generating set according to claim 1, it is characterized in that: described slide bar (5-1) is provided with chute, described pouring weight (5-2) is provided with slide rail, by being slidably matched of the slide rail on the chute on slide bar (5-1) and pouring weight (5-2), realize the slip of slide block (5-2) on slide bar (5-1).
6. according to the wind power generating set described in any one in claim 1-5, it is characterized in that: the weight of described slide bar (5-1) is much smaller than the weight of described pouring weight (5-2).
7. wind power generating set according to claim 1, it is characterized in that: when wind speed is during higher than cut-out wind speed, gear (3-1) in described gear-box (3) drives described gear drive (5-4) rotation as driving wheel, described gear drive (5-4) provide countertorque to described main transmission, and now described electric motor and controller device (5-3) absorbs the excess energy in described main transmission; When wind speed is lower than incision when wind speed, described electric motor and controller device (5-3) drives described gear drive (5-4) rotation as motor, now described gear drive (5-4) drives gear (3-1) rotation in described gear-box (3) as driving wheel, to give described main transmission a unified extra auxiliary torque; In the time that wind speed is between specified incision wind speed and specified cut-out wind speed, described gear drive (5-4) is thrown off or described gear drive (5-4) idle running with the gear (3-1) in described gear-box (3).
8. wind power generating set according to claim 1, is characterized in that: the quantity of described energy storage apparatus (5) is multiple.
Priority Applications (1)
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CN201320570244.4U CN203604120U (en) | 2013-09-13 | 2013-09-13 | Wind turbine generator system |
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CN201320570244.4U CN203604120U (en) | 2013-09-13 | 2013-09-13 | Wind turbine generator system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110335523A (en) * | 2019-07-22 | 2019-10-15 | 方占萍 | It is a kind of can automatic variable pitch blower model |
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2013
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110335523A (en) * | 2019-07-22 | 2019-10-15 | 方占萍 | It is a kind of can automatic variable pitch blower model |
CN110335523B (en) * | 2019-07-22 | 2022-01-18 | 酒泉职业技术学院(甘肃广播电视大学酒泉市分校) | Fan model capable of automatically changing pitch |
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