CN102322400A - A kind of many rotors wind-power generating system that has tail vane - Google Patents

Abstract

The invention discloses a kind of many rotors wind-power generating system that has tail vane, comprise bottom pylon 1, floating bearing 3 and wind energy conversion system, also comprise top pylon 2, beam 6 and tail vane 7; Floating bearing is arranged between top pylon and the bottom pylon; One end of beam is fixedly connected with the top pylon, and the top of wind energy conversion system and top pylon is or/and beam is fixedly connected, and wind energy conversion system comprises wind wheel 4 and cabin 5; Wind energy conversion system is 2-100; The equal in length of the beam of pylon both sides, top, the quantity of the wind energy conversion system that is provided with on the beam of top pylon one side manys 1-20 than the quantity of the wind energy conversion system that is provided with on another curb girder, tail vane and top pylon, beam or/and the cabin be connected through bearing pin.Advantage of the present invention and good effect are: leaf longevity is long, and floor space is little, and installation cost is low, and maintenance cost is low, good reliability, and applied range has been cancelled floating bearing or the device for revolving and driving in the cabin, automatically to wind, driftage and safety protection.

Description

A kind of many rotors wind-power generating system that has tail vane

Technical field

The invention belongs to field of wind energy utilization, relate to a kind of many rotors wind-power generating system that has tail vane.

Background technique

Along with worldwide energy crisis and global environmental pollution aggravation, many countries all pay attention to research, the development and utilization of clean renewable energy sources more.Whole world wind energy timeliness points out; It is more ripe that wind generating technology is compared other renewable energy technologies, and its efficient is also higher, and industrial prospect is best; Its development and use growth rate is far above conventional energy resource, and wind generating technology is one of renewable energy technologies with fastest developing speed in the world.

Wind wheel is the core component that wind energy converts mechanical energy into, so the performance of the performance of blade decision wind-powered electricity generation unit, and the safe and stable operation of blade in phase projected life is most important.The blade of horizontal axis wind-driven generator receives the comprehensive function of horizontal thrust, inertial force and gravity in rotary course.Receive influence by the wind shear, the size of horizontal thrust changes all the time, still is that transmission system and pylon all produce big alternate load to blade; The direction of inertial force changes at any time; Gravity produces an alternate load with the speed same frequency at root of blade.Above-mentioned three alternate loads and consequent vibration are the main causes that blade destroys.

The wind-driven generator single-machine capacity is done bigger and bigger, and relatively more consistent in the world at present view is: single-machine capacity is big more, and cost is low more, and its reason is to it is generally acknowledged that wind energy conversion system power is big more, and required wind energy conversion system number is few more, and the parts that need repairing are few more, and cost is low more.

In fact, owing to receive the rubbing action on building and ground, along with the increase of height; Wind speed increases gradually; This phenomenon is referred to as wind shear, and when blade was in diverse location in plane of rotation, wind speed can be variant; Thereby the size of horizontal thrust of bearing at plane of rotation Vertical direction upper blade and flywheel moment can be different, cause blade to receive fatigue load.Simultaneously, gravity also can produce alternate load on blade.Therefore, blade is long more, and weight is heavy more, receives the influence of wind shear and gravitational load big more, and the alternate load that causes blade to bear is big more, and blade destroys more easily.At present, the report that blades of large-scale wind driven generator destroys is also rare, mainly is that problem does not also expose fully because the installation time is short, after the several years, and perhaps can the large size outburst.In case go wrong; Wind energy turbine set causes economic loss owing to shutting down, having a power failure, and counts maintenance, lifting and replacing component, the transportation of transfiniting again in, repeats installation or the like cost, and blower fan is installed in remote or ungetable area mostly in addition; Lifting dismounting difficulty is big, and that pays at last is costly.Therefore, reduce though the manufacture cost of wind-powered electricity generation unit increases with power, consider the expenses such as maintenance in later stage, its overall cost can rise on the contrary.On the other hand, its length of blade of large windpower generating unit will reach 60-70m, and land transportation, installation be difficulty very, and the crane capacity that usefulness is installed will be above 1200-1400t, and a lot of areas do not possess this condition, thereby have limited the use of large windpower generating unit.

Summary of the invention

The objective of the invention is to overcome the deficiency that exists in the existing technology, a kind of many rotors wind-power generating system that has tail vane is provided.

Technological scheme of the present invention is summarized as follows:

A kind of many rotors wind-power generating system that has tail vane comprises bottom pylon 1, floating bearing 3 and wind energy conversion system, also comprises top pylon 2, beam 6 and tail vane 7; Floating bearing is arranged between top pylon and the bottom pylon; One end of beam is fixedly connected with the top pylon, and the top of wind energy conversion system and top pylon is or/and beam is fixedly connected, and wind energy conversion system comprises wind wheel 4 and cabin 5; Wind energy conversion system is 2-100; The equal in length of the beam of pylon both sides, top, the quantity of the wind energy conversion system that is provided with on the beam of top pylon one side manys 1-20 than the quantity of the wind energy conversion system that is provided with on another curb girder, tail vane and top pylon, beam or/and the cabin be connected through bearing pin.

The number of tail vane is 1-100.

A kind of many rotors wind-power generating system that has tail vane can also comprise mast 8, and an end of mast is connected on the pylon of bottom.

Mast is 3-40.

The power of wind energy conversion system is preferred 0.5～500kW, preferably 2～100kW.

Advantage of the present invention and good effect are:

(1) leaf longevity is long.A plurality of medium and small wind energy conversion systems are installed on the pylon of top of the present invention, and its blade is short, on short transverse, receives influence by the wind shear little, and the fatigue load of short blade is little, and the manufacturing technology of short blade is ripe simultaneously, stable performance, thereby the life-span of blade is long.

(2) floor space is little.Consider the influence of wake flow, the common wind-powered electricity generation unit of existing technology when mounted will be at intervals, and a plurality of wind energy conversion systems on a pylon of the present invention only need be considered influencing each other of wind energy conversion system side direction, have saved floor space greatly.Simultaneously, the wake effect of medium and small unit can be arranged more the present invention apart from weak point in wind energy turbine set, help improving the total installation of generating capacity of wind energy turbine set, improves the economic benefit of wind energy turbine set.

(3) mounting type of uniqueness.Top of the present invention pylon is connected with beam; When normal the use, as the mounting structure of wind energy conversion system, beam can be used as and hangs support when installing and keep in repair; Do not need or only the small-sized lifting of needs machinery just can carry out equipment installation and dismounting, effectively reduce the installation and maintenance cost.

(4) maintenance cost is low.Be mainly reflected in the following aspects: the one, owing to adopt medium and small wind energy conversion system, its blade is not only short but also in light weight, convenient transportation is easy with replacing; The 2nd, the scale high efficiency is beneficial to integrated and modularization and scale, reduces production costs, and increases economic efficiency; The 3rd, medium and small wind energy conversion system technology maturation, component low price.

(5) good reliability of system.The present invention is the mode of on a pylon, arranging a plurality of wind energy conversion systems owing to what adopt, when single or certain several wind energy conversion system break down, can not exert an influence to other wind energy conversion systems, and system still can keep running well basically.The wind energy conversion system number of wind energy turbine set is more, and single wind energy conversion system breaks down very little to the influence of system and electrical network.

(6) applied range.Compare with the large windpower generating unit with large-scale, the present invention is owing to adopt medium and small wind energy conversion system, no matter be to the requirement of wind field condition, geographical position or floor space will be low many, expanded the application area of native system greatly.

(7) cancelled floating bearing or the device for revolving and driving in the cabin.Since on top pylon and bottom pylon intermediate arrangement device for revolving and driving, realized the integral body revolution of top pylon, beam and wind energy conversion system, so floating bearing or device for revolving and driving need be set in the cabin of single wind energy conversion system.

(8) automatically to wind, driftage and safety protection.Tail vane carries out wind with top at the flywheel moment driving rotational bearing that wind speed produces during less than rated wind speed.The wind energy conversion system of asymmetric layout is gone off course with top at the flywheel moment driving rotational bearing that wind speed produces during greater than rated wind speed.

(9) do not need drive system.Because can realizing through the tail vane of design of structure, so do not need to be provided with again the device for revolving and driving of hydraulic type or motor-driven to wind, driftage and safety protection.

Description of drawings

Fig. 1 is the schematic representation that has many rotors wind-power generating system of tail vane.

Fig. 2 is the schematic top plan view that has many rotors wind-power generating system of tail vane.

Fig. 3 is the schematic representation that has second kind of form of many rotors wind-power generating system of tail vane.

Fig. 4 is the schematic top plan view that has second kind of form of many rotors wind-power generating system of tail vane.

Fig. 5 is the schematic top plan view that has the third form of many rotors wind-power generating system of tail vane.

The schematic top plan view of the many rotors wind-power generating system that has tail vane when Fig. 6 is normal the operation.

The schematic top plan view of the many rotors wind-power generating system that has tail vane when Fig. 7 is downwind position.

Embodiment

Below in conjunction with accompanying drawing further detailed description is done in enforcement of the present invention, it is descriptive below detailing, and is not determinate, can not limit the protection domain of patent of the present invention.

A kind of many rotors wind-power generating system that has tail vane comprises bottom pylon 1, floating bearing 3 and wind energy conversion system, also comprises top pylon 2, beam 6 and tail vane 7; Floating bearing is arranged between top pylon and the bottom pylon; One end of beam is fixedly connected with the top pylon, and the top of wind energy conversion system and top pylon is or/and beam is fixedly connected, and wind energy conversion system comprises wind wheel 4 and cabin 5; Wind energy conversion system is 2-100; The equal in length of the beam of pylon both sides, top, the quantity of the wind energy conversion system that is provided with on the beam of top pylon one side manys 1-20 than the quantity of the wind energy conversion system that is provided with on another curb girder, tail vane and top pylon, beam or/and the cabin be connected through bearing pin.

The number of tail vane is 1-100.

A kind of many rotors wind-power generating system that has tail vane can also comprise mast 8, and an end of mast is connected on the pylon of bottom.

Mast is 3-40.

The power of wind energy conversion system is preferred 0.5～500kW, preferably 2～100kW.

Tail vane carries out wind in the flywheel moment driving structure revolution that wind speed produces during less than rated wind speed.

The wind energy conversion system of asymmetric layout is gone off course in the flywheel moment driving structure revolution that wind speed produces during greater than rated wind speed.

The working principle of patent of the present invention is:

When wind speed reached the startup wind speed of wind energy conversion system, wind energy conversion system began rotation work, and when wind speed does not also reach the speed limit wind speed, wind wheel will be in the position over against wind direction, the position of just working under the effect of tail vane.When wind speed during greater than the speed limit wind speed, asymmetric structures arranged can impel wind wheel to produce a down the wind rotating moment, reaches the purpose of driftage and safety protection.

Claims (6)

1. many rotors wind-power generating system that has tail vane; Comprise bottom pylon (1), floating bearing (3) and wind energy conversion system; It is characterized in that also comprising top pylon (2), beam (6) and tail vane (7), said floating bearing is arranged between said top pylon and the said bottom pylon, and an end of said beam is fixedly connected with the top pylon; The top of said wind energy conversion system and said top pylon or/and said beam be fixedly connected; Said wind energy conversion system comprises wind wheel (4) and cabin (5), and said wind energy conversion system is 2-100, the equal in length of the beam of pylon both sides, said top; The quantity of the wind energy conversion system that is provided with on the beam of top pylon one side manys 1-20 than the quantity of the wind energy conversion system that is provided with on another curb girder, said tail vane and said top pylon, said beam or/and said cabin be connected through bearing pin.

2. a kind of many rotors wind-power generating system that has tail vane according to claim 1, the number that it is characterized in that said tail vane are 1-100.

3. a kind of many rotors wind-power generating system that has tail vane according to claim 1, its characteristic also comprises mast (8), an end of said mast is connected on the pylon of said bottom.

4. a kind of many rotors wind-power generating system that has tail vane according to claim 3 is characterized in that said mast is 3-40.

5. a kind of many rotors wind-power generating system that has tail vane according to claim 1, the power that it is characterized in that said wind energy conversion system is 0.5～500kW.

6. a kind of many rotors wind-power generating system that has tail vane according to claim 5, the power that it is characterized in that said wind energy conversion system is 2～100kW.

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