CN106246461B

CN106246461B - A kind of large construction cluster formula wind power generating set with vertical shaft and its working method

Info

Publication number: CN106246461B
Application number: CN201610597674.3A
Authority: CN
Inventors: 蔺超文; 黄传辉; 汪菊; 柴春涛; 陈作凯; 陈长久
Original assignee: Xuzhou University of Technology
Current assignee: Xuzhou University of Technology
Priority date: 2016-07-27
Filing date: 2016-07-27
Publication date: 2018-11-06
Anticipated expiration: 2036-07-27
Also published as: CN106246461A

Abstract

The invention discloses a kind of large construction cluster formula wind power generating set with vertical shaft and its working methods, are made of fixed underpan, generator set chamber, supporting rack, wind vane, air gathering plate, wind turbine, load-bearing axle；During the work time, wind vane monitors the extraneous information such as wind direction and wind speed in real time, and feed back to control centre, control centre realizes the control to blade rotating angle, improve the utilization rate of wind energy, the device is internally provided with the monitoring instruments such as generator speed sensor, temperature sensor and damping sensor simultaneously, carries out self-monitoring in real time, ensures the steady safe operation of equipment；The problem of a kind of large construction cluster formula wind power generating set with vertical shaft of the present invention, the apparatus structure is simple, and space requirement is small, and the low wind speed of effective solution can not start, expands the utilization scope of wind speed；The device has the advantages that comprehensive reception carrys out wind and is not necessarily to yaw system, reduces frame machine difficulty and operating cost, while also improving total wind energy utilization.

Description

A kind of large construction cluster formula wind power generating set with vertical shaft and its working method

Technical field

The invention belongs to new energy apparatus fields, and in particular to a kind of large construction cluster formula wind power generating set with vertical shaft.

Background technology

Nearly 10 years wind-power electricity generations increase swift and violent, and since 2001, the annual installed capacity of wind-driven power growth rate in the whole world is 20%~ The growth data that 30% Global Wind Energy Association issues the whole world wind-powered electricity generation of the newest phase are shown, increase wind-powered electricity generation dress in global ranges in 2008 newly 27,050,000 kilowatts of machine capacity so that global installed capacity of wind-driven power reaches 1.20 hundred million kilowatts, increases by 28.8% compared with 2007.

Wind Energy In China reserves are very big, distribution is wide, and developing and utilizingpotentiality is huge.The utilization of certain wind energy be unable to do without wind-force hair Motor, the quality and price of wind-driven generator become focus of people's attention.Current wind generator has following two forms.

(1) horizontal axis wind-driven generator（Large, medium and small type）

The ratio of horizontal axis wind-driven generator technology development is very fast, and all over the world, people recognize very early, large-scale Horizontal axis wind-driven generator can accomplish 3-5 megawatts, generally by large state-owned enterprise's development & production, application technology also becomes In maturation.Small-sized horizontal axis wind-driven generator is usually the production of some Small Private Enterprises, the technology requirement to development & production Relatively low, technical merit is also irregular.

The rated speed of small-sized horizontal shaft wind-driven is generally in 500~800r/min, and rotating speed is high, the noise of generation Greatly, threshold wind velocity is generally in 3~5m/s, and due to rotating speed height, noise is big, and faults frequent is easy to happen danger, is not suitable in someone The place installation lived or passed through.

(2) vertical axis aerogenerator（Large, medium and small type）

Vertical axis aerogenerator technology develops relatively slow, because vertical axis aerogenerator is to the skill of development & production Art requires relatively high, the requirement especially to blade and generator.The technology of vertical axis aerogenerator have developed rapidly in recent years, Especially small-sized vertical axis aerogenerator is very ripe.

For the rated speed of small-sized vertical axis aerogenerator generally in 60-200r/min, rotating speed is low, and the noise of generation is very It is small（It can be ignored）, threshold wind velocity is generally in 1.6-4m/s.Due to the reduction of rotating speed, the stabilization of wind turbine is substantially increased Property, without noise, the advantages such as threshold wind velocity is low make it be more suitable for occupying residence installation in people, improve wind-driven generator Use scope.

Currently, there are two types of structure types for vertical axis aerogenerator, one is parallel shaft generator, technique is internal rotor knot Structure, one kind are disk type wind-mill generator, are made of three sections of casings, in addition to upper and lower enclosure is equipped with magnetite, are also equipped in middle casing Magnetite, constitute multisection type generator, therefore there are complicated, generator weight is big, and volume is big, and generating efficiency is undesirable etc. Problem.

Invention content

In order to solve the above technical problem, the present invention provides a kind of large construction cluster formula wind power generating set with vertical shaft, including： Fixed underpan 1, generator set chamber 2, supporting rack 3, wind vane 4, air gathering plate 5, wind turbine 6, load-bearing axle 7；1 center of the fixed underpan Equipped with load-bearing axle 7, wherein fixed underpan 1 is discoid, and surface is equipped with installation threaded hole；7 top of the load-bearing axle is equipped with power generation Unit room 2, generator set chamber 2 are rectangular parallelepiped structure；Support frame as described above 3 is located at 2 upper surface of generator set chamber, generator set chamber 2 It is threadedly coupled with supporting rack 3, supporting rack 3 is in " I " fonts；3 two side ends of support frame as described above be equipped with wind turbine 6, wind turbine 6 altogether there are two, Wind turbine 6 is simultaneously symmetrical about 3 axle center of supporting rack；The air gathering plate 5 is located between two wind turbines 6, and 5 quantity of air gathering plate is two, and two A air gathering plate 5 and the vertical axial symmetry of 3 central point of supporting rack；The wind vane 4 is placed in 3 top center of supporting rack.

Further, the generator set chamber 2 includes：Control centre 2-1, generator speed sensor 2-2, generator 2- 3, gear speedup case 2-4, temperature sensor 2-5；The wherein described control centre 2-1 is located at 2 inside center of generator set chamber；It is described The both sides control centre 2-1 are equipped with one group of generator 2-3 and gear speedup case 2-4, two generators 2-3 and gear speedup case 2- 4 is symmetrical about control centre 2-1；The generator 2-3 tail ends are equipped with generator speed sensor 2-2, gear speedup case The shaft ends 2-4 are equipped with temperature sensor 2-5；

The generator speed sensor 2-2, generator 2-3 and temperature sensor 2-5 pass through conducting wire and control centre 2-1 controls are connected.

Further, the wind turbine 6 includes：Rotation axis 6-1 installs bearing 6-2, blade fixed frame 6-3, blade 6-4, leaf Piece corner regulating device 6-5；Wherein described 6 axis of wind turbine is equipped with rotation axis 6-1, and the both ends rotation axis 6-1 are equipped with installation respectively Bearing 6-2；The blade fixed frame 6-3 is through rotation axis 6-1, and wherein blade fixed frame 6-3 quantity is two.Blade is fixed Frame 6-3 is connect with rotation axis 6-1 splines；The blade 6-4 is located among two blade fixed frame 6-3, and blade 6-4 shares three A, blade 6-4 is drivingly connected with blade fixed frame 6-3；The both ends the blade 6-4 are equipped with blade rotating angle regulating device 6-5, Blade rotating angle regulating device 6-5 is connected by conducting wire with control centre 2-1 controls.

Further, the blade rotating angle regulating device 6-5 includes：Driving motor installing pipe 6-5-1, driving motor 6-5- 2, spur gear 6-5-3, rolling bearing 6-5-4, internal spur gear 6-5-5, oil syringe 6-5-6, damping sensor 6-5-7；Wherein The driving motor installing pipe 6-5-1 inside centers are equipped with driving motor 6-5-2, driving motor installing pipe 6-5-1 inner wall of end It is equipped with rolling bearing 6-5-4, driving motor 6-5-2 and rolling bearing 6-5-4 and is fixed with driving motor installing pipe 6-5-1 and connected It connects；The driving motor 6-5-2 tail ends center is equipped with damping sensor 6-5-7, and driving motor 6-5-2 output shaft ends are equipped with commutating tooth 6-5-3 is taken turns, wherein spur gear 6-5-3 is keyed with driving motor 6-5-2；The internal spur gear 6-5-5 is located at rolling bearing Inside 6-5-4 inner rings, internal spur gear 6-5-5 is penetrated through with rolling bearing 6-5-4 inner rings；The oil syringe 6-5-6 is placed in driving The inner wall of motor installing pipe 6-5-1, oil syringe 6-5-6 are connected by conducting wire with control centre 2-1 controls.

Further, the blade 6-4 is molded by high molecular material pressing mold, the constituent and manufacturing process of blade 6-4 It is as follows：

One, blade 6-4 constituents：

Count in parts by weight, 30~65 parts of peroxide dioctyl phthalate -4- (1,1- dimethylethyl) hexamethylene diester, 2- ethyls peroxide oneself 88~145 parts of acid -1,1- dimethyl propyl ester, carbon peroxy acid OO- (1,1- dimethyl ethyl) O- (2- ethylhexyls) ester 54~98 Part, 28~75 parts of 2- propylene peroxy acid -3- carbonyls -1- (1,1- dimethyl ethyl) ester, 1- [(1- Methylethyls) amino] -3- [2- (2- acrylic) phenoxy group] 68~180 parts of -2- propyl alcohol, 3- mercaptopropionic acid -2- ethyls -2- [(3- sulfydryl -1- the third oxygen of oxo Base) methyl] 22~86 parts of -1,3- propylene diesters, the acetic acid -1- methoxyl group -2- propyl diesters 53 of a concentration of ppm of 45 ppm~95~ 110 parts, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] 56~132 parts of -2 Methylpropionic acid, phenylacetic acid -2- methoxyl group -4- (1- Acrylic) 90~145 parts of-phenylester, 85~146 parts of crosslinking agent, 2- methoxyl group -4- propyl- 1- acrylic -1- benzyloxies benzene 24~ 72 parts, Z- (1R, S)-cis- -2,2- dimethyl -3- (2- chloro- 3,3,3- tri- fluoro- 1- acrylic) cyclopropane-carboxylic acid 67~162 Part, 38~92 parts of dodecenylsuccinic acid list (1- carboxyethyls) ester, 3,5- bis- (1,1- dimethyl ethyl) -4- hydroxy-benzenepropanoic acids - 75~185 parts of 1,6- dihexyls ester；

The crosslinking agent is acetic acid 2- (1,1- dimethyl ethyls) cyclohexyl, peroxide dioctyl phthalate -4- (1,1- dimethylethyls) Any one in hexamethylene diester, 1,1- cyclohexanediacetic acid mono-methyls；

Two, the manufacturing process of blade 6-4, comprises the steps of：

1st step：The ultra-pure water 2500~4800 that conductivity is 4.55 μ of μ S/cm~7.65 S/cm is added in a kettle Part, start blender in reaction kettle, rotating speed is the rpm of 85 rpm~130, starts heat pump, reactor temperature is made to rise to 65 DEG C~95 DEG C；Sequentially add peroxide dioctyl phthalate -4- (1,1- dimethylethyls) hexamethylene diester, 2- ethyl peroxy caproic acid -1,1- diformazans Base propyl ester, carbon peroxy acid OO- (1,1- dimethyl ethyl) O- (2- ethylhexyls) ester, to being completely dissolved, adjusting pH value is for stirring 4.5~9.5, agitator speed is adjusted to the rpm of 130 rpm~240, temperature is 120 DEG C~165 DEG C, esterification 15~30 Hour；

2nd step：Take 2- propylene peroxy acid -3- carbonyls -1- (1,1- dimethyl ethyls) ester, 1- [(1- Methylethyls) ammonia Base] -3- [2- (2- acrylic) phenoxy group] -2- propyl alcohol crushes, and powder diameter is 900~1400 mesh；3- sulfydryls third are added Acid -2- ethyls -2- [(3- sulfydryl -1- oxopropoxies) methyl] -1,3- propylene diesters are uniformly mixed, and are laid in pallet, are tiled Thickness is the mm of 15 mm~35, uses dosage for alpha ray spoke that the kGy of 6.5 kGy~9.8, energy are the MeV of 5.0 MeV~9.0 According to 150~300 minutes and the same dose of β x ray irradiation xs 200~320 minutes；

3rd step：The mixed-powder handled through the 2nd step is dissolved in acetic acid -1- methoxyl group -2- propyl diesters, and reaction kettle is added, stirs Mix device rotating speed be the rpm of 95 rpm~150, temperature be 90 DEG C~135 DEG C, start vacuum pump make the vacuum degree of reaction kettle reach- The MPa of 0.35 MPa~3.45, keep this state response 35~45 hours；Pressure release is simultaneously passed through radon gas, makes the reacting kettle inner pressure be The MPa of 0.55 MPa~0.95, heat preservation stand 20~35 hours；Agitator speed is promoted to the rpm of 180 rpm~270, while anti- Answer kettle pressure release to 0MPa；Sequentially add 2- [4- (2,2- dichloros cyclopropyl) phenoxy group] -2 Methylpropionic acid, phenylacetic acid -2- methoxies After base -4- (1- acrylic)-phenylester is completely dissolved, crosslinking agent is added and is stirred so that the hydrophilic and oleophilic of reaction kettle solution Equilibrium valve is 5.5~7.4, and heat preservation stands 20~40 hours；

4th step：When agitator speed is 210 rpm~320 rpm, 2- methoxyl group -4- propyl- 1- propylene is sequentially added Base -1- benzyloxies benzene, Z- (1R, S)-cis- -2,2- dimethyl -3- (the chloro- tri- fluoro- 1- acrylic of 3,3,3- of 2-) cyclopropane carboxylic acid Acid, dodecenylsuccinic acid list (1- carboxyethyls) ester and (1,1- the dimethyl ethyls) -4- hydroxy-benzenepropanoic acids of 3,5- bis- -1,6- oneself Two base esters promote reactor pressure, reach the MPa of 1.35 MPa~1.85, and temperature is 150 DEG C~260 DEG C, polymerisation 24~48 hours；Reacting kettle inner pressure is down to 0 MPa after the completion of reaction, is cooled to 25 DEG C~40 DEG C, discharging enters molding press It can be prepared by blade 6-4.

Further, the invention also discloses a kind of working methods of large construction cluster formula wind power generating set with vertical shaft, should Method includes following steps：

1st step：When wind turbine 6 is under external wind effect, wind vane 4 generates electric signal according to extraneous wind direction and wind speed, passes Control centre 2-1 is transported to, control centre 2-1 controls the blade rotating angle regulating device 6-5 inside wind turbine 6, realizes blade 6-4 torsions The adjusting of angle, to realize that wind-force maximumlly utilizes, at the same time generator speed sensor 2-2 generates electric signal, instead It is fed to control centre 2-1, monitors generator speed in real time；

2nd step：During the work time, 2 internal temperature sensor 2-5 of generator set chamber monitors the axle temperature of transmission shaft in real time, And it generates electric signal and feeds back to control centre 2-1；When the temperature of monitoring is more than 95 DEG C of control centre 2-1 settings, in control Heart 2-1 generates electric signal, and control gear speedup case 2-4 stops operating, while generating alarm signal；

3rd step：During the work time, the internally-damped real-time monitoring drivings of sensor 6-5-8 of blade rotating angle regulating device 6-5 The twisting resistance of motor 6-5-2 simultaneously generates electric signal and feeds back to control centre 2-1；When the twisting resistance of monitoring is more than control centre 2-1 When the 20N.cm of setting, control centre 2-1 generates electric signal, and oil syringe 6-5-7 is to spur gear 6-5-3, rolling bearing 6- for control 5-4 and internal spur gear 6-5-5 spray lubricating oil.

A kind of large construction cluster formula wind power generating set with vertical shaft disclosed by the invention, the advantage is that：

(1) device is ingenious in design, simple in structure, convenient for installation and maintenance；

(2) the low wind speed startability of the device is high, and blade construction is simple, and space requirement is small；

(3) the comprehensive reception of the device carrys out wind, and is equipped with air gathering plate, can cope with variable direction, the relatively low situation of wind speed, nothing Need yaw system.

A kind of large construction cluster formula wind power generating set with vertical shaft of the present invention, the apparatus structure is simple, space requirement It is small, the problem of low wind speed of effective solution can not start, expand the utilization scope of wind speed；The device has comprehensive reception The advantages of carrying out wind is not necessarily to yaw system, reduces frame machine difficulty and operating cost, while also improving total wind energy utilization.

Description of the drawings

Fig. 1 is a kind of heretofore described large construction cluster formula wind power generating set with vertical shaft structural schematic diagram.

Fig. 2 is heretofore described generator set chamber structural schematic diagram.

Fig. 3 is heretofore described blower fan structure schematic diagram.

Fig. 4 is heretofore described blade rotating angle regulating device structural schematic diagram.

Fig. 5 is that heretofore described fatigue of materials strength retrogression leads and changes over time figure.

In figure 1 above~Fig. 4, fixed underpan 1, generator set chamber 2, control centre 2-1, generator speed sensor 2-2, Generator 2-3, gear speedup case 2-4, temperature sensor 2-5, supporting rack 3, wind vane 4, air gathering plate 5, wind turbine 6, rotation axis 6- 1, bearing 6-2, blade fixed frame 6-3, blade 6-4, blade rotating angle regulating device 6-5, driving motor installing pipe 6-5-1 are installed, Driving motor 6-5-2, spur gear 6-5-3, rolling bearing 6-5-4, internal spur gear 6-5-5, oil syringe 6-5-6, damping sensing Device 6-5-7, load-bearing axle 7.

Specific implementation mode

It is further to a kind of large construction cluster formula wind power generating set with vertical shaft progress provided by the invention below in conjunction with the accompanying drawings Explanation.

As shown in Figure 1, being a kind of heretofore described large construction cluster formula wind power generating set with vertical shaft structural schematic diagram. It is seen in fig. 1, that including：Fixed underpan 1, generator set chamber 2, supporting rack 3, wind vane 4, air gathering plate 5, wind turbine 6, load-bearing axle 7； 1 center of the fixed underpan is equipped with load-bearing axle 7, and wherein fixed underpan 1 is discoid, and surface is equipped with installation threaded hole；It is described to hold 7 top of solid axle is equipped with generator set chamber 2, and generator set chamber 2 is rectangular parallelepiped structure；Support frame as described above 3 is located on generator set chamber 2 Surface, generator set chamber 2 are threadedly coupled with supporting rack 3, and supporting rack 3 is in " I " fonts；3 two side ends of support frame as described above are equipped with wind turbine 6, wind turbine 6 altogether there are two, wind turbine 6 is simultaneously symmetrical about 3 axle center of supporting rack；The air gathering plate 5 is located between two wind turbines 6, collects wind 5 quantity of plate is two, two air gathering plates 5 and the vertical axial symmetry of 3 central point of supporting rack；The wind vane 4 is placed in 3 top of supporting rack The heart.

As shown in Fig. 2, being heretofore described generator set chamber structural schematic diagram.As seen from Figure 2, generator set chamber 2 include：Control centre 2-1, generator speed sensor 2-2, generator 2-3, gear speedup case 2-4, temperature sensor 2-5； The wherein described control centre 2-1 is located at 2 inside center of generator set chamber；The both sides the control centre 2-1 are equipped with one group of power generation Machine 2-3 and gear speedup case 2-4, two generators 2-3 and gear speedup case 2-4 are symmetrical about control centre 2-1；It is described Generator 2-3 tail ends are equipped with the shaft ends generator speed sensor 2-2, gear speedup case 2-4 and are equipped with temperature sensor 2-5；

As shown in figure 3, being heretofore described blower fan structure schematic diagram.Find out from Fig. 3 or Fig. 2, wind turbine 6 includes： Rotation axis 6-1 installs bearing 6-2, blade fixed frame 6-3, blade 6-4, blade rotating angle regulating device 6-5；The wherein wind turbine 6 Axis is equipped with rotation axis 6-1, and the both ends rotation axis 6-1 are equipped with installation bearing 6-2 respectively；The blade fixed frame 6-3 through Rotation axis 6-1, wherein blade fixed frame 6-3 quantity are two.Blade fixed frame 6-3 is connect with rotation axis 6-1 splines；The leaf Piece 6-4 is located among two blade fixed frame 6-3, blade 6-4 altogether there are three, blade 6-4 connects with the 6-3 drivings of blade fixed frame It connects；The both ends the blade 6-4 are equipped with blade rotating angle regulating device 6-5, blade rotating angle regulating device 6-5 and pass through conducting wire and control 2-1 controls in center processed are connected.

As shown in figure 4, being heretofore described blade rotating angle regulating device structural schematic diagram.From Fig. 4 or Fig. 2 Go out, blade rotating angle regulating device 6-5 includes：Driving motor installing pipe 6-5-1, driving motor 6-5-2, spur gear 6-5-3 are rolled Bearing 6-5-4, internal spur gear 6-5-5, oil syringe 6-5-6, damping sensor 6-5-7；The wherein described driving motor installing pipe 6-5-1 inside centers are equipped with driving motor 6-5-2, and driving motor installing pipe 6-5-1 inner wall of end is equipped with rolling bearing 6-5-4, Driving motor 6-5-2 and rolling bearing 6-5-4 is fixedly connected with driving motor installing pipe 6-5-1；The driving motor 6-5-2 Tail end center is equipped with damping sensor 6-5-7, and driving motor 6-5-2 output shaft ends are equipped with spur gear 6-5-3, wherein spur gear 6- 5-3 is keyed with driving motor 6-5-2；The internal spur gear 6-5-5 is located inside rolling bearing 6-5-4 inner rings, in straight-tooth Gear 6-5-5 is penetrated through with rolling bearing 6-5-4 inner rings；The oil syringe 6-5-6 is placed in the interior of driving motor installing pipe 6-5-1 Wall, oil syringe 6-5-6 are connected by conducting wire with control centre 2-1 controls.

A kind of course of work of large construction cluster formula wind power generating set with vertical shaft of the present invention is：

It is the embodiment of the manufacturing process of blade 6-4 of the present invention below, embodiment is in order to further illustrate this hair Bright content, but should not be construed as limiting the invention.Without departing from the spirit and substance of the case in the present invention, to the present invention It changes and replaces made by method, step or condition, all belong to the scope of the present invention.

Unless otherwise specified, the conventional means that technological means used in embodiment is well known to those skilled in the art.

Embodiment 1

Blade 6-4 of the present invention is manufactured according to the following steps, and is counted in parts by weight：

1st step：2500 parts of the ultra-pure water that conductivity is 4.55 μ S/cm is added in a kettle, starts stirring in reaction kettle Device, rotating speed are 85 rpm, start heat pump, reactor temperature is made to rise to 65 DEG C；Sequentially add peroxide dioctyl phthalate -4- (1, 1- dimethylethyls) 30 parts of hexamethylene diester, 88 parts of 2- ethyl peroxy caproic acid -1,1- dimethyl propyl ester, carbon peroxy acid OO- (1,1- bis- Methylethyl) 54 parts of O- (2- ethylhexyls) ester, to being completely dissolved, it is 4.5 to adjust pH value, and agitator speed is adjusted to for stirring 130 rpm, temperature are 120 DEG C, esterification 15 hours；

2nd step：Take 28 parts of 2- propylene peroxy acid -3- carbonyls -1- (1,1- dimethyl ethyls) ester, 1- [(1- Methylethyls) Amino] -3- [2- (2- acrylic) phenoxy group] 68 parts of -2- propyl alcohol crushes, and powder diameter is 900 mesh；3- sulfydryls third are added 22 parts of acid -2- ethyls -2- [(3- sulfydryl -1- oxopropoxies) methyl] -1,3- propylene diesters are uniformly mixed, and are laid in pallet, Tiling thickness is 15 mm, and dosage is used to irradiate 150 minutes and same agent for the alpha ray that 6.5 kGy, energy are 5.0 MeV The β x ray irradiation xs of amount 200 minutes；

3rd step：The mixed-powder handled through the 2nd step is dissolved in the acetic acid -1- methoxyl group -2- propyl diesters 53 of a concentration of 45 ppm Part in, be added reaction kettle, agitator speed be 95 rpm, temperature be 90 DEG C, start vacuum pump make the vacuum degree of reaction kettle reach- 0.35 MPa, keeps this state response 35 hours；Pressure release is simultaneously passed through radon gas, and it is 0.55 MPa to make reacting kettle inner pressure, and heat preservation is quiet It sets 20 hours；Agitator speed is promoted to 180 rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 2- [4- (2,2- dichloros Cyclopropyl) phenoxy group] 56 parts of -2 Methylpropionic acid, 90 parts of phenylacetic acid -2- methoxyl groups -4- (1- acrylic)-phenylester be completely dissolved Afterwards, 85 parts of crosslinking agent is added to be stirred so that the hydrophilic lipophilic balance of reaction kettle solution is 5.5, and heat preservation stands 20 hours；

4th step：When agitator speed is 210 rpm, 2- methoxyl group -4- propyl- 1- acrylic -1- benzyloxies are sequentially added 24 parts of benzene, Z- (1R, S)-cis- -2,2- dimethyl -3- (the chloro- tri- fluoro- 1- acrylic of 3,3,3- of 2-) 67 parts of cyclopropane-carboxylic acid, ten 38 parts of dialkylene succinic acid list (1- carboxyethyls) ester and (1,1- the dimethyl ethyls) -4- hydroxy-benzenepropanoic acids of 3,5- bis- -1,6- oneself two 75 parts of base ester promotes reactor pressure, reaches 1.35 MPa, and temperature is 150 DEG C, polymerisation 24 hours；Reaction is completed Reacting kettle inner pressure is down to 0 MPa afterwards, is cooled to 25 DEG C~40 DEG C, discharging enters molding press and can be prepared by blade 6-4.

The crosslinking agent is acetic acid 2- (1,1- dimethyl ethyls) cyclohexyl.

Embodiment 2

1st step：3650 parts of the ultra-pure water that conductivity is 6.15 μ S/cm is added in a kettle, starts stirring in reaction kettle Device, rotating speed are 107 rpm, start heat pump, reactor temperature is made to rise to 80 DEG C；Sequentially add peroxide dioctyl phthalate -4- 47 parts of (1,1- dimethylethyls) hexamethylene diester, 113 parts of 2- ethyl peroxy caproic acid -1,1- dimethyl propyl ester, carbon peroxy acid OO- (1, 1- dimethyl ethyls) 74 parts of O- (2- ethylhexyls) ester, stirring is to being completely dissolved, and it is 7.2 to adjust pH value, by agitator speed tune To 185 rpm, temperature is 145 DEG C, esterification 22 hours；

2nd step：Take 51 parts of 2- propylene peroxy acid -3- carbonyls -1- (1,1- dimethyl ethyls) ester, 1- [(1- Methylethyls) Amino] -3- [2- (2- acrylic) phenoxy group] 115 parts of -2- propyl alcohol crushes, and powder diameter is 1100 mesh；3- sulfydryls are added 53 parts of propionic acid -2- ethyls -2- [(3- sulfydryl -1- oxopropoxies) methyl] -1,3- propylene diesters are uniformly mixed, and are laid in pallet Interior, tiling thickness is 25 mm, uses dosage to be irradiated 225 minutes for the alpha ray that 8.1 kGy, energy are 7.0 MeV, and same The β x ray irradiation xs of dosage 260 minutes；

3rd step：The mixed-powder handled through the 2nd step is dissolved in the acetic acid -1- methoxyl group -2- propyl diesters 78 of a concentration of 70 ppm In part, reaction kettle is added, agitator speed is 125 rpm, and temperature is 110 DEG C, and starting vacuum pump makes the vacuum degree of reaction kettle reach To 1.55 MPa, this state response is kept 40 hours；Pressure release is simultaneously passed through radon gas, and it is 0.75 MPa, heat preservation to make reacting kettle inner pressure Stand 27 hours；Agitator speed is promoted to 225 rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 2- [4- (2,2- bis- Chlorine cyclopropyl) phenoxy group] 94 parts of -2 Methylpropionic acid, 117 parts of phenylacetic acid -2- methoxyl groups -4- (1- acrylic)-phenylester completely After dissolving, 115 parts of crosslinking agent is added and is stirred so that the hydrophilic lipophilic balance of reaction kettle solution is 6.5, and heat preservation stands 30 Hour；

4th step：When agitator speed is 265 rpm, 2- methoxyl group -4- propyl- 1- acrylic -1- benzyloxies are sequentially added 48 parts of benzene, Z- (1R, S)-cis- -2,2- dimethyl -3- (the chloro- tri- fluoro- 1- acrylic of 3,3,3- of 2-) 116 parts of cyclopropane-carboxylic acid, 63 parts of dodecenylsuccinic acid list (1- carboxyethyls) ester and (1,1- the dimethyl ethyls) -4- hydroxy-benzenepropanoic acids of 3,5- bis- -1,6- oneself Two 130 parts of base esters promote reactor pressure, reach 1.60 MPa, and temperature is 210 DEG C, polymerisation 36 hours；It has reacted Reacting kettle inner pressure is down to 0 MPa after, is cooled to 25 DEG C~40 DEG C, discharging enters molding press and can be prepared by blade 6-4.

The crosslinking agent is peroxide dioctyl phthalate -4- (1,1- dimethylethyls) hexamethylene diester.

Embodiment 3

1st step：4800 parts of the ultra-pure water that conductivity is 7.65 μ S/cm is added in a kettle, starts stirring in reaction kettle Device, rotating speed are 130 rpm, start heat pump, reactor temperature is made to rise to 95 DEG C；Sequentially add peroxide dioctyl phthalate -4- 65 parts of (1,1- dimethylethyls) hexamethylene diester, 145 parts of 2- ethyl peroxy caproic acid -1,1- dimethyl propyl ester, carbon peroxy acid OO- (1, 1- dimethyl ethyls) 98 parts of O- (2- ethylhexyls) ester, stirring is to being completely dissolved, and it is 9.5 to adjust pH value, by agitator speed tune To 240 rpm, temperature is 165 DEG C, esterification 30 hours；

2nd step：Take 75 parts of 2- propylene peroxy acid -3- carbonyls -1- (1,1- dimethyl ethyls) ester, 1- [(1- Methylethyls) Amino] -3- [2- (2- acrylic) phenoxy group] 180 parts of -2- propyl alcohol crushes, and powder diameter is 1400 mesh；3- sulfydryls are added 86 parts of propionic acid -2- ethyls -2- [(3- sulfydryl -1- oxopropoxies) methyl] -1,3- propylene diesters are uniformly mixed, and are laid in pallet Interior, tiling thickness is 35 mm, uses dosage to be irradiated 300 minutes for the alpha ray that 9.8 kGy, energy are 9.0 MeV, and same The β x ray irradiation xs of dosage 320 minutes；

3rd step：The mixed-powder handled through the 2nd step is dissolved in the acetic acid -1- methoxyl group -2- propyl diesters of a concentration of 95 ppm In 110 parts, reaction kettle is added, agitator speed is 150 rpm, and temperature is 135 DEG C, and starting vacuum pump makes the vacuum degree of reaction kettle Reach 3.45 MPa, keeps this state response 45 hours；Pressure release is simultaneously passed through radon gas, and it is 0.95 MPa to make reacting kettle inner pressure, is protected Temperature stands 35 hours；Agitator speed is promoted to 270 rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 2- [4- (2,2- Dichloro cyclopropyl) phenoxy group] 132 parts of -2 Methylpropionic acid, 145 parts of phenylacetic acid -2- methoxyl groups -4- (1- acrylic)-phenylester be complete After fully dissolved, 146 parts of crosslinking agent is added and is stirred so that the hydrophilic lipophilic balance of reaction kettle solution is 7.4, and heat preservation is stood 40 hours；

4th step：When agitator speed is 320 rpm, 2- methoxyl group -4- propyl- 1- acrylic -1- benzyloxies are sequentially added 72 parts of benzene, Z- (1R, S)-cis- -2,2- dimethyl -3- (the chloro- tri- fluoro- 1- acrylic of 3,3,3- of 2-) 162 parts of cyclopropane-carboxylic acid, 92 parts of dodecenylsuccinic acid list (1- carboxyethyls) ester and (1,1- the dimethyl ethyls) -4- hydroxy-benzenepropanoic acids of 3,5- bis- -1,6- oneself Two 185 parts of base esters promote reactor pressure, reach 1.85 MPa, and temperature is 260 DEG C, polymerisation 48 hours；It has reacted Reacting kettle inner pressure is down to 0 MPa after, is cooled to 25 DEG C~40 DEG C, discharging enters molding press and can be prepared by blade 6-4.

The crosslinking agent is 1,1- cyclohexanediacetic acid mono-methyls.

Reference examples

Reference examples are the blade of certain commercially available brand.

Embodiment 4

Blade described in the blade 6-4 and reference examples that Examples 1 to 3 is prepared carries out using effect comparison.To two Person's unit mass, tensile strength, corrosion rate, heat distortion temperature are counted, and the results are shown in Table 1.

As seen from Table 1, blade 6-4 of the present invention, unit mass, tensile strength, corrosion rate, heat distortion temperature Etc. indexs be superior to the prior art production product.

In addition, as shown in figure 5, being that blade 6-4 fatigue of materials strength retrogressions of the present invention lead and change with usage time Statistics.Find out in figure, blade 6-4 used in Examples 1 to 3, fatigue of materials strength retrogression leads with usage time variation degree Substantially it is better than existing product.

Claims

1. a kind of large construction cluster formula wind power generating set with vertical shaft, including：Fixed underpan（1）, generator set chamber（2）, supporting rack （3）, wind vane（4）, air gathering plate（5）, wind turbine（6）, load-bearing axle（7）；It is characterized in that, the fixed underpan（1）Center is equipped with Load-bearing axle（7）, wherein fixed underpan（1）To be discoid, surface is equipped with installation threaded hole；The load-bearing axle（7）Top is equipped with hair Motor group room（2）, generator set chamber（2）For rectangular parallelepiped structure；Support frame as described above（3）Positioned at generator set chamber（2）Upper surface, hair Motor group room（2）With supporting rack（3）It is threadedly coupled, supporting rack（3）In " I " fonts；Support frame as described above（3）Two side ends are equipped with wind Machine（6）, wind turbine（6）There are two altogether, wind turbine（6）And about supporting rack（3）Axle center is symmetrical；The air gathering plate（5）Positioned at two wind Machine（6）Between, air gathering plate（5）Quantity is two, two air gathering plates（5）It is substantially symmetrical about its central axis with supporting rack (3)；The wind direction Mark（4）It is placed in supporting rack（3）Top center；

The generator set chamber（2）Including：Control centre（2-1）, generator speed sensor（2-2）, generator（2-3）, tooth Take turns gearbox（2-4）, temperature sensor（2-5）；The wherein described control centre（2-1）Positioned at generator set chamber（2）Inside center； The control centre（2-1）Both sides are equipped with one group of generator（2-3）And gear speedup case（2-4）, two generators（2-3）With Gear speedup case（2-4）About control centre（2-1）It is symmetrical；The generator（2-3）Tail end is passed equipped with generator speed Sensor（2-2）, gear speedup case（2-4）Shaft end is equipped with temperature sensor（2-5）；

The generator speed sensor（2-2）, generator（2-3）And temperature sensor（2-5）By in conducting wire and control The heart（2-1）Control is connected；

The wind turbine（6）Including：Rotation axis（6-1）, bearing is installed（6-2）, blade fixed frame（6-3）, blade（6-4）, blade Corner regulating device（6-5）；The wherein described wind turbine（6）Axis is equipped with rotation axis（6-1）, rotation axis（6-1）It sets respectively at both ends There is installation bearing（6-2）；The blade fixed frame（6-3）Through rotation axis（6-1）, wherein blade fixed frame（6-3）Quantity It is two；Blade fixed frame（6-3）With rotation axis（6-1）Spline connects；The blade（6-4）Positioned at two blade fixed frames （6-3）Centre, blade（6-4）There are three altogether, blade（6-4）With blade fixed frame（6-3）It is drivingly connected；The blade（6-4） Both ends are equipped with blade rotating angle regulating device（6-5）, blade rotating angle regulating device（6-5）Pass through conducting wire and control centre（2- 1）Control is connected；

The blade rotating angle regulating device（6-5）Including：Driving motor installing pipe（6-5-1）, driving motor（6-5-2）, commutating tooth Wheel（6-5-3）, rolling bearing（6-5-4）, internal spur gear（6-5-5）, oil syringe（6-5-6）, damping sensor（6-5-7）； The wherein described driving motor installing pipe（6-5-1）Inside center is equipped with driving motor（6-5-2）, driving motor installing pipe（6-5- 1）Inner wall of end is equipped with rolling bearing（6-5-4）, driving motor（6-5-2）And rolling bearing（6-5-4）Pacify with driving motor Tubulature（6-5-1）It is fixedly connected；The driving motor（6-5-2）Tail end center is equipped with damping sensor（6-5-7）, driving motor （6-5-2）Output shaft end is equipped with spur gear（6-5-3）, wherein spur gear（6-5-3）With driving motor（6-5-2）Key connection；Institute State internal spur gear（6-5-5）Positioned at rolling bearing（6-5-4）Inside inner ring, internal spur gear（6-5-5）With rolling bearing（6- 5-4）Inner ring penetrates through；The oil syringe（6-5-6）It is placed in driving motor installing pipe（6-5-1）Inner wall, oil syringe（6-5-6）It is logical Cross conducting wire and control centre（2-1）Control is connected；

The blade（6-4）It is molded by high molecular material pressing mold, blade（6-4）Constituent and manufacturing process it is as follows：

One, blade（6-4）Constituent：

It counts in parts by weight, 30~65 parts of peroxide dioctyl phthalate -4- (1,1- dimethylethyl) hexamethylene diester, 2- ethyls peroxy caproic acid - 1,1- 88~145 parts of dimethyl propyl ester, 54~98 parts of carbon peroxy acid OO- (1,1- dimethyl ethyl) O- (2- ethylhexyls) ester, 28~75 parts of 2- propylene peroxy acid -3- carbonyls -1- (1,1- dimethyl ethyl) ester, 1- [(1- Methylethyls) amino] -3- [2- (2- acrylic) phenoxy group] 68~180 parts of -2- propyl alcohol, 3- mercaptopropionic acid -2- ethyls -2- [(3- sulfydryl -1- oxopropoxies) Methyl] 22~86 parts of -1,3- propylene diesters, the acetic acid -1- methoxyl group -2- propyl diesters 53~110 of a concentration of ppm of 45 ppm~95 Part, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] 56~132 parts of -2 Methylpropionic acid, phenylacetic acid -2- methoxyl groups -4- (1- propylene Base) 90~145 parts of-phenylester, 85~146 parts of crosslinking agent, 2- methoxyl group -4- propyl- 1- acrylic -1- benzyloxies benzene 24~72 Part, Z- (1R, S)-cis- -2,2- dimethyl -3- (2- chloro- 3,3,3- tri- fluoro- 1- acrylic) 67~162 parts of cyclopropane-carboxylic acid, 38~92 parts of dodecenylsuccinic acid list (1- carboxyethyls) ester, 3,5- bis- (1,1- dimethyl ethyl) hydroxy-benzenepropanoic acid-1-4-, 75~185 parts of 6- dihexyls ester；

The crosslinking agent is acetic acid 2- (1,1- dimethyl ethyls) cyclohexyl, peroxide dioctyl phthalate -4- (1,1- dimethylethyls) hexamethylene Any one in diester, 1,1- cyclohexanediacetic acid mono-methyls；

Two, blade（6-4）Manufacturing process, comprise the steps of：

1st step：2500~4800 parts of the ultra-pure water that conductivity is 4.55 μ of μ S/cm~7.65 S/cm is added in a kettle, opens Blender in dynamic reaction kettle, rotating speed are the rpm of 85 rpm~130, start heat pump, make reactor temperature rise to 65 DEG C~ 95 ℃；Sequentially add peroxide dioctyl phthalate -4- (1,1- dimethylethyls) hexamethylene diester, 2- ethyl peroxy caproic acid -1,1- dimethyl propylenes Ester, carbon peroxy acid OO- (1,1- dimethyl ethyl) O- (2- ethylhexyls) ester, stirring to being completely dissolved, adjust pH value be 4.5~ 9.5, agitator speed is adjusted to the rpm of 130 rpm~240, temperature is 120 DEG C~165 DEG C, esterification 15~30 hours；

2nd step：Take 2- propylene peroxy acid -3- carbonyls -1- (1,1- dimethyl ethyls) ester, 1- [(1- Methylethyls) amino] -3- [2- (2- acrylic) phenoxy group] -2- propyl alcohol crushes, and powder diameter is 900~1400 mesh；3- mercaptopropionic acid -2- second is added Base -2- [(3- sulfydryl -1- oxopropoxies) methyl] -1,3- propylene diesters are uniformly mixed, and are laid in pallet, and tiling thickness is 15 The mm of mm~35, use dosage for alpha ray that the kGy of 6.5 kGy~9.8, energy are the MeV of 5.0 MeV~9.0 irradiation 150~ 300 minutes and the same dose of β x ray irradiation xs 200~320 minutes；

3rd step：The mixed-powder handled through the 2nd step is dissolved in acetic acid -1- methoxyl group -2- propyl diesters, and reaction kettle, blender is added Rotating speed is the rpm of 95 rpm~150, and temperature is 90 DEG C~135 DEG C, and starting vacuum pump makes the vacuum degree of reaction kettle reach -0.35 The MPa of MPa~3.45, keep this state response 35~45 hours；Pressure release is simultaneously passed through radon gas, and it is 0.55 to make reacting kettle inner pressure The MPa of MPa~0.95, heat preservation stand 20~35 hours；Agitator speed is promoted to the rpm of 180 rpm~270, simultaneous reactions kettle Pressure release is to 0MPa；Sequentially add 2- [4- (2,2- dichloros cyclopropyl) phenoxy group] -2 Methylpropionic acid, phenylacetic acid -2- methoxyl groups -4- After (1- acrylic)-phenylester is completely dissolved, crosslinking agent is added and is stirred so that the hydrophilic lipophilic balance of reaction kettle solution It is 5.5~7.4, heat preservation stands 20~40 hours；

4th step：When agitator speed is 210 rpm~320 rpm, 2- methoxyl group -4- propyl- 1- acrylic -1- is sequentially added Benzyloxy benzene, Z- (1R, S)-cis- -2,2- dimethyl -3- (the chloro- tri- fluoro- 1- acrylic of 3,3,3- of 2-) cyclopropane-carboxylic acid, 12 Alkenyl succinic acid list (1- carboxyethyls) ester and 3,5- bis- (1,1- dimethyl ethyl) -4- hydroxy-benzenepropanoic acid -1,6- dihexyl esters, Reactor pressure is promoted, the MPa of 1.35 MPa~1.85 are reached, temperature is 150 DEG C~260 DEG C, and polymerisation 24~48 is small When；Reacting kettle inner pressure is down to 0 MPa after the completion of reaction, is cooled to 25 DEG C~40 DEG C, discharging enters molding press and can be prepared by Blade（6-4）.

2. a kind of large construction cluster formula wind power generating set with vertical shaft according to claim 1, which is characterized in that the device Working method includes following steps：

1st step：Work as wind turbine（6）Under external wind effect, wind vane（4）Electric signal is generated according to extraneous wind direction and wind speed, is passed Transport to control centre（2-1）, control centre（2-1）Control wind turbine（6）Internal blade rotating angle regulating device（6-5）, realize leaf Piece（6-4）The adjusting of windup-degree, to realize that wind-force maximumlly utilizes, at the same time generator speed sensor（2-2） Electric signal is generated, control centre is fed back to（2-1）, generator speed is monitored in real time；

2nd step：During the work time, generator set chamber（2）Internal temperature sensor（2-5）The axle temperature of monitoring transmission shaft in real time, And it generates electric signal and feeds back to control centre（2-1）；When the temperature of monitoring is more than control centre（2-1）Setting 95 DEG C when, control Center processed（2-1）Electric signal is generated, gear speedup case is controlled（2-4）It stops operating, while generating alarm signal；

3rd step：During the work time, blade rotating angle regulating device（6-5）Internally-damped sensor（6-5-7）Real-time monitoring driving Motor（6-5-2）Twisting resistance and generate electric signal and feed back to control centre（2-1）；When the twisting resistance of monitoring is more than control centre （2-1）When the 20N.cm of setting, control centre（2-1）Electric signal is generated, oil syringe is controlled（6-5-6）To spur gear（6-5-3）, Rolling bearing（6-5-4）And internal spur gear（6-5-5）Spray lubricating oil.