CN109931222A - A kind of wind-powered electricity generation generating equipment - Google Patents

Abstract

The invention discloses a kind of wind-powered electricity generation generating equipments, including floating fuselage, it is symmetrical in the floating fuselage to be provided with power generation mechanism, this is described in detail for sentencing left side, the power generation mechanism includes power generation flabellum and generating set, rotation is provided with the power generation axis extended up and down in the floating fuselage, and the power generation axis top end extends to the floating external fuselage, and the power generation flabellum is fixedly installed on the power generation axis top end；The equipment is more rationally and ingenious in overall structure, installation, maintenance and maintenance are very convenient, and the equipment can carry out dynamic regulation oneself height according to wind-force size, guarantee that wind power generating set can maintain within the scope of effective power generating wind, and the equipment can be turned under hydraulic booster system power-assisted, guarantee that wind power generating set is vertical with wind-force direction always, keep generating efficiency, and the equipment has efficient the degree of automation, value for applications with higher in use.

Description

A kind of wind-powered electricity generation generating equipment

Technical field

The present invention relates to new energy fields, and in particular to a kind of wind-powered electricity generation generating equipment.

Background technique

With the development of society, demand of the society to the energy is continuously increased, but conventional energy resource such as coal, petroleum, natural Gas etc. is non-renewable energy resources, and pollutant can be generated when these usings energy source to ecological environment and unfriendly, wherein wind Can be it is a kind of clean non-harmful renewable energy, and wind energy resources are abundant, using wind-power electricity generation to readjusting the energy structure and Economic Development Mode Conversion is of great significance.

Currently, wind power plant mainly utilizes wind-force flabellum to drive generator, electric energy is converted wind energy into, it is conventional Wind-driven generator is to make large-scale flabellum and higher support body, and flabellum and generator are fixed on support body, This mode early investment is higher, and it is highly influenced, and is influenced by wind-force size, generating efficiency is unstable.

Therefore, it is necessary to which wind-powered electricity generation generating equipment in the prior art is further improved, and then improve wind-powered electricity generation power generation Efficiency.

Summary of the invention

The purpose of the present invention is to provide a kind of wind-powered electricity generation generating equipments, can overcome the drawbacks described above of the prior art, improve Wind-powered electricity generation generating efficiency.

A kind of wind-powered electricity generation generating equipment according to the present invention, including floating fuselage, it is symmetrical in the floating fuselage to set It is equipped with power generation mechanism, this is described in detail for sentencing left side, and the power generation mechanism includes power generation flabellum and generating set, Rotation is provided with the power generation axis extended up and down in the floating fuselage, and the power generation axis top end extends to the floating fuselage Outside, and the power generation flabellum is fixedly installed on the power generation axis top end, the power generation axis bottom end and fixed setting It is connected by power in the generating set in the floating fuselage, height adjustment chamber, the height tune is provided in the floating fuselage Save it is intracavitary be provided with height adjustment mechanism, the height adjustment mechanism includes reel and fixed plate, the height adjustment chamber Interior rotation is provided with the height adjustment axis that left and right extends, and the reel is fixedly installed on the height adjustment axis outer end wall On, what is be driven between the reel and the fixed plate is provided with height adjustment rope, the intracavitary rotation setting of height adjustment Have an auxiliary wheel symmetrical above and below, the auxiliary wheel and the height adjustment rope cooperate, wherein driving mechanism include driving flabellum with And comprehensive dynamic axis, comprehensive dynamic chamber, the comprehensive dynamic axis rotation setting are provided in the height adjustment top of chamber end wall Intracavitary in the comprehensive dynamic, comprehensive dynamic top of chamber end extends to the floating external fuselage, the driving flabellum It is fixedly installed on comprehensive dynamic top of chamber end, transmission is provided between the height adjustment mechanism and the driving mechanism Mechanism drives the height adjustment mechanism to carry out dynamic height adjusting to the equipment.

Specifically, being provided with height transmitting chamber on the right side of the height adjustment chamber in end wall, the height transmits intracavitary institute It states height adjustment axis right end and is fixedly installed coiling driven wheel of differential, the intracavitary comprehensive dynamic axis of the comprehensive dynamic Bottom end is fixedly installed floating drive bevel gear, is fixedly installed in the comprehensive dynamic axis outer end wall and floats downward driving tooth Wheel, the driving gear of floating downward are located on the upside of the floating drive bevel gear, and the comprehensive dynamic chamber and the height transmit chamber Between rotation be provided with the floating transmission axle extended up and down, it is solid that the height transmits the intracavitary floating transmission axle bottom end Surely it is provided with coiling drive bevel gear, the coiling drive bevel gear is engaged with the coiling driven wheel of differential, and the synthesis is dynamic The intracavitary floating transmission axle top end of power, which is fixedly installed, floats downward driven gear, in the floating transmission axle outer end wall It is fixedly installed floating driven wheel of differential, the floating driven wheel of differential is floated downward below driven gear positioned at described, the synthesis What is slided up and down in power cavity is provided with floating direction adjusting block, rotates and is provided in the floating direction adjusting block outer end wall Float downward transmission gear, it is described float downward transmission gear with it is described float downward driving gear and float downward driven gear engage, the floating Direction adjusting block lower rotation be provided with left and right extend float downward transmission axle, the transmission axle left distal end of floating downward is fixedly installed Float downward left transmitting bevel gear, it is described to float downward left transmitting bevel gear and the floating drive bevel gear is detached from and cooperates, it is described to float downward biography It passs axis right end and is fixedly installed and float downward right transmitting bevel gear, it is described to float downward right transmitting bevel gear and described float from mantle tooth Wheel is detached from cooperation, is conducive to the rotation direction for controlling the reel and then realizes adjust the device height.

Specifically, being provided with the chamber that tests the speed in the comprehensive dynamic top of chamber end wall, the intracavitary swing of testing the speed is provided with The oscillating rod that tests the speed extended up and down, the oscillating rod bottom end that tests the speed are fixedly installed the counterweight that tests the speed, the oscillating rod that tests the speed Top end and the comprehensive dynamic axis outer end wall are hinged, it is described test the speed it is intracavitary slide up and down be provided with the survey extended up and down Fast actuating strut, it is described test the speed actuating strut top end and the oscillating rod outer end wall that tests the speed it is hinged, the comprehensive dynamic axis with What is slided up and down between the comprehensive dynamic chamber is provided with the sliding bar set that tests the speed, and the sliding bar set that tests the speed is slideably positioned in described In comprehensive dynamic axis outer end wall, the sliding bar set bottom end rotation of testing the speed is provided with the rotating block that tests the speed, it is described test the speed it is dynamic Make bar bottom end and the rotating block top end that tests the speed is hinged, sliding bar set bottom and the floating direction tune of testing the speed End wall is fixedly connected on the left of locking nub, and the elasticity between sliding bar set and the comprehensive dynamic axis that tests the speed, which is provided with to test the speed, resets bullet Spring is provided with floating sliding groove, the floating sliding groove top end wall and the floating in the comprehensive dynamic top of chamber end wall Elasticity is provided with floating reset spring between the adjusting block top end wall of direction, is conducive to the sliding sleeve that tests the speed according to the big minor adjustment of wind speed Bar slides up and down distance, and control height adjustment device adjusts height to the equipment and wind power generating set is avoided to damage.

Preferably, the steering mechanism includes direction finding mechanism and steering mechanism, and the direction finding mechanism includes direction finding plate, institute It states and is provided with direction finding belt chamber on front side of height adjustment chamber in end wall, the intracavitary rotation of direction finding belt is provided with the survey that front and back extends To rotation axis, the direction finding rotation axis front side end extends to the floating fuselage outer side, the direction finding rotation axis front side end It is fixedly installed direction finding rotation axis, end is fixedly installed direction finding master on rear side of the intracavitary direction finding rotation axis of the direction finding belt Movable belt pulley, is provided with direction finding power-conversion chamber on rear side of the direction finding belt chamber in end wall, the direction finding power-conversion chamber with it is described Rotation is provided with longitudinal transmission axis that front and back extends, the intracavitary longitudinal transmission axis of the direction finding belt between direction finding belt chamber Front side end is fixedly installed direction finding driven pulley, is driven and is provided between the direction finding driven pulley and the direction finding belt chamber Direction finding power belt, the intracavitary longitudinal transmission axis bottom end of the direction finding power-conversion, which is fixedly installed under direction finding, to be transmitted Bevel gear, the steering mechanism include deflecting plate, are provided with steering power chamber, institute in the direction finding power-conversion chamber bottom end wall It states the intracavitary symmetrical rotation of steering power and is provided with the steering power axis that front and back extends, end on rear side of the steering power axis It is fixedly installed steering sprocket, transmission is provided with steering chain between the steering sprocket of left and right, fixes on the steering chain It is provided with course changing control block, the steering power axis front side end extends to the floating fuselage outer side, and the deflecting plate is fixed It is set to the steering power axis front side end, is provided with hydraulic booster system between the direction finding mechanism and the steering mechanism System is conducive to control the equipment and turn to guarantee generating set always towards wind direction.

Specifically, the intracavitary rotation of comprehensive dynamic is provided with the hydraulic power axis extended up and down, the comprehensive dynamic chamber The interior hydraulic power axis top end is fixedly installed hydraulic driven pulley, fixes in the comprehensive dynamic axis outer end wall It is provided with hydraulic driving pulley, the hydraulic driving pulley is floated downward on the upside of driving gear positioned at described, described to float downward driving gear What is be driven between the hydraulic driven pulley is provided with hydraulic power belt, and the hydraulic power axis bottom end is set with fixation The booster pump being placed in the comprehensive dynamic chamber bottom end wall is connected by power, and is provided in the height adjustment chamber bottom end wall low Shoe cream room is pressed, what is be connected between the low-pressure oil storage chamber and the booster pump is provided with low-pressure oil delivery pipe, the low-pressure oil storage chamber Separator is fixedly installed in the end wall of left side, what is be connected between the separator and the booster pump is provided with high-pressure pipeline Road, symmetrical in the low-pressure oil storage chamber bottom end wall to be provided with oil-control chamber, this is described in detail for sentencing left side, What is be connected between the oil-control chamber and the separator is provided with into oil pipe, the setting to horizontally slip between the oil-control chamber of left and right There is oil-control bar, the oil-control bar left distal end is fixedly installed oil-control head, and end wall is de- on the left of the oil-control head and the oil-control chamber From cooperation, oil-control sliding cavity, the direction finding power-conversion chamber right-hand end are provided in the direction finding power-conversion chamber bottom end wall Steering power chamber is provided in wall, rotation is provided with left and right and extends between the direction finding power-conversion chamber and the steering power chamber Steering power axis, the intracavitary steering power axis left distal end of the direction finding power-conversion be fixedly installed port transmitting Bevel gear, port transmitting bevel gear engage with transmitting bevel gear under the direction finding, intracavitary described of the steering power Steering power axis right end is fixedly installed diversion driving-gear, turns between the oil-control sliding cavity and the steering power chamber The dynamic steering screw for being provided with left and right and extending, the intracavitary steering screw right end of the steering power, which is fixedly installed, to be turned To driven gear, the steering driven gear is engaged with the diversion driving-gear, is horizontally slipped in the oil-control sliding cavity It is provided with oil-control sliding shoe, oil-control screw thread is provided in the oil-control sliding shoe, the oil-control screw thread is matched with the steering screw It closes, the oil-control sliding shoe is fixedly installed in the oil-control bar top end wall, fixed in the oil-control sliding cavity top end wall It is provided with oil return junction station, what is be connected between the oil return junction station and the low-pressure oil storage chamber is provided with low-pressure oil return pipe road, What is be connected between the oil-control chamber and the oil return junction station is provided with overflow oil return pipe, in the end wall of steering power chamber two sides Be symmetrically arranged with steering cylinder, what is be connected between the steering cylinder of left and right is provided with left and right circulating pipe, this sentence left side be Example is described in detail, and what is horizontally slipped between the steering cylinder and the steering power chamber is provided with steering link, described Steering link right end is fixedly connected with end wall on the left of the course changing control block, the setting to horizontally slip in the steering cylinder Have a steering piston, the steering link left distal end is connect with end wall on the right side of the steering piston, the steering cylinder with it is described What is be connected between oil-control chamber is provided with flowline, is conducive to the steering mechanism for controlling steering mechanism, controls the equipment and turns to guarantee Generating set is always towards wind direction.

Preferably, symmetrical in the floating fuselage to be provided with six groups of buoyancy cavities, be conducive to improve the floating of the equipment Power guarantees the highly stable of equipment.

The beneficial effects of the present invention are: the equipment is more rationally and ingenious in overall structure, installation, maintenance and maintenance It is very convenient, and the equipment can carry out dynamic regulation oneself height according to wind-force size, guarantee that wind power generating set can be tieed up It holds within the scope of effective power generating wind, and the equipment can be turned under hydraulic booster system power-assisted, guarantees wind-driven generator Group is vertical with wind-force direction always, keeps generating efficiency, and the equipment has efficient the degree of automation in use, tool There is higher value for applications.

Detailed description of the invention

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of overall structure diagram of wind-powered electricity generation generating equipment of the invention；

Fig. 2 is the structural schematic diagram of A in Fig. 1;

Fig. 3 is the structural schematic diagram of B-B in Fig. 1;

Fig. 4 is the structural schematic diagram of C in Fig. 1.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is based on attached orientation or positional relationship shown in FIG. 1, merely to just In description the present invention and simplify description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

As shown in Figs 1-4, a kind of wind-powered electricity generation generating equipment of the invention, including floating fuselage 200, the floating fuselage 200 It is interior it is symmetrical be provided with power generation mechanism, this sentence left side for be described in detail, the power generation mechanism include power generation fan Leaf 123 and generating set 125, the interior rotation of the floating fuselage 200 are provided with the power generation axis 124 extended up and down, the power generation 124 top end of axis extends to outside the floating fuselage 200, and the power generation flabellum 123 is fixedly installed on the power generation axis 124 top ends, power generation 124 bottom end of axis and the generating set 125 being fixedly installed in the floating fuselage 200 are dynamic Power connects, and is provided with height adjustment chamber 148 in the floating fuselage 200, is provided with height adjustment in the height adjustment chamber 148 Mechanism, the height adjustment mechanism include reel 149 and fixed plate 173, and rotation is provided in the height adjustment chamber 148 The height adjustment axis 150 that left and right extends, the reel 149 are fixedly installed in 150 outer end wall of height adjustment axis, institute State be driven between reel 149 and the fixed plate 173 be provided with height adjustment rope 174, turn in the height adjustment chamber 148 Dynamic to be provided with auxiliary wheel 172 symmetrical above and below, the auxiliary wheel 172 cooperates with the height adjustment rope 174, wherein driving machine Structure includes driving flabellum 111 and comprehensive dynamic axis 112, is provided with comprehensive dynamic in 148 top end wall of height adjustment chamber Chamber 139, the comprehensive dynamic axis 112 are rotatably dispose in the comprehensive dynamic chamber 139, the 139 top end of comprehensive dynamic chamber End extends to outside the floating fuselage 200, and the driving flabellum 111 is fixedly installed on the 139 top end of comprehensive dynamic chamber End is provided with transmission mechanism and the height adjustment mechanism is driven to set this between the height adjustment mechanism and the driving mechanism It is standby to carry out dynamic height adjusting.

In the following, the specific implementation that height is adjusted for realizing the height adjustment device will be introduced in detail, In, height transmitting chamber 151, the height in the height transmitting chamber 151 are provided in the 148 right side end wall of height adjustment chamber Degree 150 right end of adjustment axis is fixedly installed coiling driven wheel of differential 152, the synthesis in the comprehensive dynamic chamber 139 112 bottom end of line shaft is fixedly installed floating drive bevel gear 156, fixes in 112 outer end wall of comprehensive dynamic axis It is provided with and floats downward driving gear 143, the driving gear 143 of floating downward is located at 156 upside of floating drive bevel gear, described comprehensive It closes rotation between power cavity 139 and height transmitting chamber 151 and is provided with the floating transmission axle 154 extended up and down, the height 154 bottom end of floating transmission axle in transmitting chamber 151 is fixedly installed coiling drive bevel gear 153, the coiling master Dynamic bevel gear 153 is engaged with the coiling driven wheel of differential 152, the floating transmission axle 154 in the comprehensive dynamic chamber 139 Top end, which is fixedly installed, floats downward driven gear 159, be fixedly installed in 154 outer end wall of floating transmission axle floating from Dynamic bevel gear 155, the floating driven wheel of differential 155 float downward 159 lower section of driven gear, the comprehensive dynamic chamber positioned at described What is slided up and down in 139 is provided with floating direction adjusting block 122, rotates and sets in 122 outer end wall of floating direction adjusting block It is equipped with and floats downward transmission gear 160, the transmission gear 160 of floating downward floats downward driving gear 143 and float downward driven gear with described 159 engagements, what adjusting block 122 lower rotation in the floating direction was provided with that left and right extends floats downward transmission axle 158, described to float downward biography Pass 158 left distal end of axis and be fixedly installed and float downward left transmitting bevel gear 161, it is described float downward left transmitting bevel gear 161 with it is described on Floating drive bevel gear 156 is detached from cooperation, it is described float downward 158 right end of transmission axle and be fixedly installed float downward right transmitting bevel gear 157, it is described to float downward right transmitting bevel gear 157 and the floating driven wheel of differential 155 disengaging cooperation, be conducive to control the coiling The rotation direction of wheel 149 is realized in turn adjusts the device height.

Next, introducing the control mechanism of the height adjustment device in detail with reference to Fig. 1-Fig. 2, wherein described comprehensive It closes and is provided with the chamber 113 that tests the speed in 139 top end wall of power cavity, what is swung in the chamber 113 that tests the speed is provided with the survey extended up and down Fast oscillating rod 114,114 bottom end of oscillating rod that tests the speed are fixedly installed the counterweight 116 that tests the speed, the oscillating rod 114 that tests the speed Top end and 112 outer end wall of comprehensive dynamic axis are hinged, and being provided with for sliding up and down in the chamber 113 that tests the speed is downward The actuating strut 117 that tests the speed stretched, it is described test the speed 117 top end of actuating strut and 114 outer end wall of oscillating rod that tests the speed it is hinged, institute State the sliding bar set 119 that tests the speed that is provided with slided up and down between comprehensive dynamic axis 112 and the comprehensive dynamic chamber 139, the survey Fast sliding bar set 119 is slideably positioned in 112 outer end wall of comprehensive dynamic axis, 119 bottom of the sliding bar set end of testing the speed End rotation is provided with the rotating block 118 that tests the speed, 117 bottom end of actuating strut and the 118 top end of rotating block of testing the speed of testing the speed End is hinged, and 119 bottom of sliding bar set of testing the speed is fixedly connected with 122 left side end wall of floating direction adjusting block, the survey Elasticity is provided with the reset spring 115 that tests the speed, the comprehensive dynamic chamber between fast sliding bar set 119 and the comprehensive dynamic axis 112 Floating sliding groove 120 is provided in 139 top end walls, 120 top end wall of floating sliding groove and the floating direction are adjusted Elasticity is provided with floating reset spring 121 between 122 top end wall of block, is conducive to the sliding bar set that tests the speed according to the big minor adjustment of wind speed 119 slide up and down distance, and control height adjustment device adjusts height to the equipment and wind power generating set is avoided to damage.

Valuably, come the detailed steering mechanism for introducing the application with reference to Fig. 1-Fig. 3, wherein the steering mechanism includes Direction finding mechanism and steering mechanism, the direction finding mechanism include direction finding plate 162, are set in the 148 front side end wall of height adjustment chamber It is equipped with direction finding belt chamber 165, rotation is provided with the direction finding rotation axis 163 that front and back extends, the survey in the direction finding belt chamber 165 200 outside of floating fuselage is extended to 163 front side end of rotation axis, 163 front side end of the direction finding rotation axis fixation is set It is equipped with direction finding rotation axis 163, the 163 rear side end of the direction finding rotation axis in the direction finding belt chamber 165 is fixedly installed survey To driving pulley 164, direction finding power-conversion chamber 171, the direction finding power are provided in the 165 rear side end wall of direction finding belt chamber Rotation is provided with longitudinal transmission axis 168 that front and back extends, the direction finding skin between conversion chamber 171 and the direction finding belt chamber 165 Direction finding driven pulley 167, the direction finding driven belt are fixedly installed with longitudinal transmission 168 front side end of axis in chamber 165 It is driven between wheel 167 and the direction finding belt chamber 165 and is provided with direction finding power belt 166, in the direction finding power-conversion chamber 171 Longitudinal transmission 168 bottom end of axis be fixedly installed transmitting bevel gear 169 under direction finding, the steering mechanism includes turning to Plate 188, is provided with steering power chamber 134 in 171 bottom end wall of direction finding power-conversion chamber, in the steering power chamber 134 Symmetrical rotation is provided with the steering power axis 138 that front and back extends, 138 rear side end of the steering power axis fixed setting There is steering sprocket 137, transmission, which is provided with, between the steering sprocket 137 of left and right turns to chain 136, on the steering chain 136 It is fixedly installed course changing control block 135,138 front side end of steering power axis extends to 200 outside of floating fuselage, institute It states deflecting plate 188 and is fixedly installed on 138 front side end of steering power axis, between the direction finding mechanism and the steering mechanism It is provided with hydraulic booster system, is conducive to control the equipment and turn to guarantee generating set always towards wind direction.

Next, detailed introducing the hydraulic booster system with reference to Fig. 1-Fig. 4, wherein the comprehensive dynamic chamber 139 Interior rotation is provided with the hydraulic power axis 144 extended up and down, the hydraulic power axis 144 top in the comprehensive dynamic chamber 139 Portion end is fixedly installed hydraulic driven pulley 142, is fixedly installed hydraulic active in 112 outer end wall of comprehensive dynamic axis Belt wheel 140, the hydraulic driving pulley 140 be located at it is described float downward 143 upside of driving gear, it is described float downward driving gear 143 with What is be driven between the hydraulic driven pulley 142 is provided with hydraulic power belt 141,144 bottom end of hydraulic power axis It is connected by power with the booster pump 145 being fixedly installed in 139 bottom end wall of comprehensive dynamic chamber, the height adjustment chamber 148 Low-pressure oil storage chamber 147, the setting being connected between the low-pressure oil storage chamber 147 and the booster pump 145 are provided in bottom end wall There is low-pressure oil delivery pipe 146, is fixedly installed separator 128, the separator 128 in the 147 left side end wall of low-pressure oil storage chamber What is be connected between the booster pump 145 is provided with high-pressure pipeline road 127, a left side in 147 bottom end wall of low-pressure oil storage chamber The right side is symmetrically arranged with oil-control chamber 183, this is described in detail for sentencing left side, the oil-control chamber 183 and the separator What is be connected between 128 is provided with into oil pipe 184, and what is horizontally slipped between the oil-control chamber 183 of left and right is provided with oil-control bar 180, 180 left distal end of oil-control bar is fixedly installed oil-control head 182, the oil-control head 182 and the 183 left side end wall of oil-control chamber It is detached from cooperation, is provided with oil-control sliding cavity 189, the direction finding power-conversion in 171 bottom end wall of direction finding power-conversion chamber Be provided with steering power chamber 178 in 171 right side end wall of chamber, the direction finding power-conversion chamber 171 and the steering power chamber 178 it Between rotation be provided with the steering power axis 175 that left and right extends, the steering power axis in the direction finding power-conversion chamber 171 175 left distal ends are fixedly installed port transmitting bevel gear 170, and the port transmits under bevel gear 170 and the direction finding It transmits bevel gear 169 to engage, 175 right end of steering power axis in the steering power chamber 178, which is fixedly installed, to be turned To driving gear 176, rotation is provided with turn that left and right extends between the oil-control sliding cavity 189 and the steering power chamber 178 To screw rod 179,179 right end of the steering screw in the steering power chamber 178 is fixedly installed steering driven gear 177, the steering driven gear 177 is engaged with the diversion driving-gear 176, is horizontally slipped in the oil-control sliding cavity 189 Be provided with oil-control sliding shoe 185, be provided with oil-control screw thread 186 in the oil-control sliding shoe 185, the oil-control screw thread 186 with The steering screw 179 cooperates, and the oil-control sliding shoe 185 is fixedly installed in 180 top end wall of oil-control bar, the control Oil return junction station 190, the oil return junction station 190 and the low-pressure oil storage are fixedly installed in oily 189 top end wall of sliding cavity What is be connected between chamber 147 is provided with low-pressure oil return pipe road 129, is connected between the oil-control chamber 183 and the oil return junction station 190 Be provided with overflow oil return pipe 187, be symmetrically arranged with steering cylinder 131 in the 134 two sides end wall of steering power chamber, left and right What is be connected between the steering cylinder 131 is provided with left and right circulating pipe 191, this is described in detail for sentencing left side, described What is horizontally slipped between steering cylinder 131 and the steering power chamber 134 is provided with steering link 133, the steering link 133 Right end is fixedly connected with the 135 left side end wall of course changing control block, and what is horizontally slipped in the steering cylinder 131 is provided with Steering piston 132,133 left distal end of steering link are connect with the 132 right side end wall of steering piston, the steering cylinder What is be connected between 131 and the oil-control chamber 183 is provided with flowline 130, is conducive to the steering mechanism for controlling steering mechanism, control The equipment, which turns to, guarantees generating set always towards wind direction.

Valuably, come the detailed Zhu Sheng mechanism for introducing the application with reference to Fig. 1, wherein left and right in the floating fuselage 200 Six groups of buoyancy cavities 126 are symmetrically arranged with, the buoyancy for improving the equipment is conducive to, guarantee the highly stable of equipment.

In the following, applicant will be with reference to attached drawing 1-4 and a kind of tool of wind-powered electricity generation generating equipment of the application described above Body forms the use step for being introduced wind-powered electricity generation generating equipment in detail: firstly, when original state, it is described to float downward transmission gear 160 with it is described float downward driving gear 143 and it is described float downward driven gear 159 be detached from cooperate, it is described to float downward left transmitting bevel gear 161 engage with the floating drive bevel gear 156, described to float downward right transmitting bevel gear 157 and the floating driven wheel of differential 155 Engagement, the course changing control block 135 are located at 134 middle position of steering power chamber；

When the device is in use, the fixed plate 173 is fixedly installed on ground by operator, and by the buoyancy cavity 126 It is inside filled with helium, the floating fuselage 200 is floated upwards by buoyancy, after the floating fuselage 200 floats to designated position, Wind-force drives the driving flabellum 111 to rotate, and the driving flabellum 111 drives the comprehensive dynamic axis 112 to rotate, the synthesis Line shaft 112 drives the rotation of oscillating rod 114 of testing the speed, and the oscillating rod 114 that tests the speed drives the rotation of counterweight 116 of testing the speed, The rotation of counterweight 116 of testing the speed is swung up, and the counterweight 116 that tests the speed drives 117 upward sliding of actuating strut that tests the speed, described The actuating strut 117 that tests the speed drives 118 upward sliding of rotating block that tests the speed, and the rotating block 118 that tests the speed drives the sliding of testing the speed 119 upward sliding of loop bar, the sliding bar set 119 that tests the speed drive 122 upward sliding of floating direction adjusting block, the floating Direction adjusting block 122 floats downward 158 upward sliding of transmission axle described in driving, described to float downward left transmitting bevel gear 161 and the floating Drive bevel gear 156 is detached from cooperation, described to float downward right transmitting bevel gear 157 and the floating driven wheel of differential 155 disengaging cooperation, The floating fuselage 200 keeps the constant height, meanwhile, the component drives the power generation flabellum 123 to rotate, the power generation fan Leaf 123 drives the power generation axis 124 to rotate,.The power generation axis 124 drives the generating set 125 to work, the generating set 125 start to generate electricity, and simultaneously, the comprehensive dynamic axis 112 drives the hydraulic driving pulley 140 to rotate, the Hydraulic Main Movable belt pulley 140 drives the hydraulic driven pulley 142 to rotate, and the hydraulic driven pulley 142 drives the hydraulic power axis 144 Rotation, the hydraulic power axis 144 drive the booster pump 145 to start to work, the low pressure in the low-pressure oil storage chamber 147 Oil is entered in the booster pump 145 by the low-pressure oil delivery pipe 146 to pressurize, and high pressure liquid pressure oil passes through the high pressure oil transportation Pipeline 127 enters the separator 128, and the high pressure liquid pressure oil in the separator 128 enters described in described in the entrance of oil pipe 184 In oil-control chamber 183, the high pressure liquid pressure oil in the oil-control chamber 183 enters the steering cylinder 131 by the flowline 130 Interior, the pressure in the steering cylinder 131 of left and right is identical, and the course changing control block 135 keeps equilibrium state, the deflecting plate 188 keep middle position；When wind-force is excessive, the counterweight 116 that tests the speed is swung up angle increase, and the floating direction is adjusted 122 upward sliding of block, floating direction adjusting block 122 drive it is described float downward 160 upward sliding of transmission gear, it is described to float downward biography It passs gear 160 and floats downward driving gear 143 and the driven gear 159 of floating downward engages, 112 band of comprehensive dynamic axis with described The dynamic driving gear 143 of floating downward rotates, and the transmission gear 160 of floating downward for floating downward driving gear 143 rotates, under described Floating transmission gear 160 drives the driven gear 159 of floating downward to rotate, and the driven gear 159 of floating downward drives the floating to transmit Axis 154 rotates, and the floating transmission axle 154 drives the coiling drive bevel gear 153 to rotate, the coiling drive bevel gear 153 drive the coiling driven wheel of differential 152 to rotate, and the coiling driven wheel of differential 152 drives 150 turns of the height adjustment axis Dynamic, the height adjustment axis 150 drives the reel 149 to rotate, and the reel 149 twines the height adjustment rope 174 Around on the reel 149, the floating fuselage 200 slides to the ground, and the floating fuselage 200 highly reduces；Work as wind-force When too small, the counterweight 116 that tests the speed is swung up angle reduction, 122 slide downward of floating direction adjusting block, the floating Direction adjusting block 122 floats downward 158 slide downward of transmission axle described in driving, described to float downward left transmitting bevel gear 161 and the floating Drive bevel gear 156 engages, described to float downward right transmitting bevel gear 157 and engage with the floating driven wheel of differential 155, the synthesis The floating drive bevel gear 156 of line shaft 112 rotates, and the floating drive bevel gear 156, which drives, described floats downward left transmitting Bevel gear 161 rotates, described to float downward left transmitting bevel gear 161 transmission axle 158 of floating downward is driven to rotate, described to float downward transmission axle 158 drive described in float downward right transmitting bevel gear 157 and rotate, it is described to float downward right transmitting bevel gear 157 and drive the floating from mantle Gear 155 rotates, and the floating driven wheel of differential 155 drives the floating transmission axle 154 to rotate, the floating transmission axle 154 The coiling drive bevel gear 153 is driven to rotate, the coiling drive bevel gear 153 drives the coiling driven wheel of differential 152 Rotation, the coiling driven wheel of differential 152 drive the height adjustment axis 150 to rotate, and the height adjustment axis 150 drives described Reel 149 rotates backward, and the reel 149 unclamps the height adjustment rope 174 wound on the reel 149, described Floating fuselage 200 is slided to far from ground direction, and the floating fuselage 200 highly increases；When the wind direction changes to the left (right side) When, the direction finding plate 162 deflects to the left (right side), and the direction finding plate 162 drives the direction finding rotation axis 163 to rotate, the direction finding Rotation axis 163 drives the direction finding driving pulley 164 to rotate, and the direction finding driving pulley 164 drives the direction finding driven pulley 167 rotations, the direction finding driven pulley 167 drive longitudinal transmission axis 168 to rotate, and longitudinal transmission axis 168 drives institute It states and transmits the rotation of bevel gear 169 under direction finding, bevel gear 169 is transmitted under the direction finding and drives the port transmitting bevel gear 170 Rotation, the port transmitting bevel gear 170 drive the steering power axis 175 to rotate, and the steering power axis 175 drives institute The rotation of diversion driving-gear 176 is stated, the diversion driving-gear 176 drives the steering driven gear 177 to rotate, the steering Driven gear 177 drives the steering screw 179 to rotate, and is that steering screw 179 drives 185 right side of oil-control sliding shoe (left Side) it slides, the oil-control sliding shoe 185 drives the oil-control bar 180 to slide to the right (left side), and the oil-control bar 180 drives The oil-control head 182 slides to the right (left side), and left side 183 opening degree of oil-control chamber is greater than right side (left side) described oil-control chamber 183 opening degrees, left side (right side) described 131 pressure of steering cylinder are greater than right side (left side) described 131 pressure of steering cylinder, left side (right side) described steering piston 132 slides to the right (left side), and the steering piston 132 drives the steering link 133 to the right Side (left side) sliding, the steering link 133 drive the course changing control block 135 to slide to the right (left side), the steering control Clamp dog 135 drives the steering chain 136 to rotate to the right (left side), and the steering chain 136 drives the steering sprocket 137 (left side) rotates to the right, and the steering sprocket 137 drives the steering power axis 138 to rotate to the right (left side), and described turn The deflecting plate 188 is driven to rotate to the right (left side) to line shaft 138, the deflecting plate 188 adjusts the floating fuselage 200 Turn to wind-force direction.

By detailed analysis above it can be seen that due to symmetrical and be uniformly arranged on the buoyancy cavity in fuselage using six groups Guarantee that fuselage keeps balance, and keeps certain height under buoyancy, and measure the position wind-force using velocity measurement mechanisms Whether size meets wind-power electricity generation standard, and automatically adjusts its own height, and generating set is avoided to damage.

Therefore the present processes are more rationally and ingenious in overall structure, and installation, maintenance and maintenance are very square Just, and the equipment can carry out dynamic regulation oneself height according to wind-force size, guarantee that wind power generating set can maintain effectively Within the scope of power generating wind, and the equipment can be turned under hydraulic booster system power-assisted, guarantee wind power generating set always with Wind-force direction is vertical, keeps generating efficiency, and the equipment has efficient the degree of automation in use, with higher Value for applications.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (6)

1. It is symmetrical in the floating fuselage to be provided with hair 1. a kind of wind-powered electricity generation generating equipment of the invention, including floating fuselage Motor structure, it is characterised in that: this is described in detail for sentencing left side, and the power generation mechanism includes power generation flabellum and power generation Unit, the interior rotation of the floating fuselage are provided with the power generation axis extended up and down, and the power generation axis top end extends to described floating Dynamic external fuselage, and the power generation flabellum is fixedly installed on the power generation axis top end, the power generation axis bottom end with consolidate Surely the generating set being set in the floating fuselage is connected by power, and height adjustment chamber is provided in the floating fuselage, described Height adjustment is intracavitary to be provided with height adjustment mechanism, and the height adjustment mechanism includes reel and fixed plate, the height Rotation is provided with the height adjustment axis that left and right extends in adjusting cavity, and the reel is fixedly installed on the outside of the height adjustment axis On end wall, what is be driven between the reel and the fixed plate is provided with height adjustment rope, the intracavitary rotation of height adjustment It is provided with auxiliary wheel symmetrical above and below, the auxiliary wheel and the height adjustment rope cooperate, wherein driving mechanism includes driving fan Leaf and comprehensive dynamic axis are provided with comprehensive dynamic chamber, the comprehensive dynamic axis rotation in the height adjustment top of chamber end wall It is intracavitary to be set to the comprehensive dynamic, comprehensive dynamic top of chamber end extends to the floating external fuselage, the driving Flabellum is fixedly installed on comprehensive dynamic top of chamber end, is provided between the height adjustment mechanism and the driving mechanism Transmission mechanism drives the height adjustment mechanism to carry out dynamic height adjusting to the equipment.
2. 2. one of according to claim 1 wind-powered electricity generation generating equipment, it is characterised in that: set in end wall on the right side of the height adjustment chamber It is equipped with height transmitting chamber, the height transmits the intracavitary height adjustment axis right end and is fixedly installed coiling from mantle tooth Wheel, the intracavitary comprehensive dynamic axis bottom end of the comprehensive dynamic are fixedly installed floating drive bevel gear, the synthesis It is fixedly installed in line shaft outer end wall and floats downward driving gear, the driving gear of floating downward is located at the floating drive bevel gear Upside, rotation is provided with the floating transmission axle extended up and down, the height between the comprehensive dynamic chamber and height transmitting chamber Degree transmits the intracavitary floating transmission axle bottom end and is fixedly installed coiling drive bevel gear, the coiling drive bevel gear It is engaged with the coiling driven wheel of differential, the intracavitary floating transmission axle top end of the comprehensive dynamic is fixedly installed down Driven gear is floated, floating driven wheel of differential is fixedly installed in the floating transmission axle outer end wall, it is described to float from mantle tooth Wheel be located at it is described float downward below driven gear, the comprehensive dynamic is intracavitary slide up and down be provided with floating direction adjusting block, institute It states in the adjusting block outer end wall of floating direction rotation and is provided with and float downward transmission gear, it is described to float downward transmission gear and described float downward master Moving gear and float downward driven gear engagement, the floating direction adjusting block lower rotation be provided with left and right extend float downward transmitting Axis, it is described float downward transmission axle left distal end and be fixedly installed float downward left transmitting bevel gear, it is described to float downward left transmitting bevel gear and institute State floating drive bevel gear and be detached from cooperation, it is described float downward transmission axle right end and be fixedly installed float downward right transmitting bevel gear, institute It states and floats downward right transmitting bevel gear and floating driven wheel of differential disengaging cooperation, be conducive to the rotation direction for controlling the reel And then it realizes and adjusts the device height.
3. 3. one of -2 wind-powered electricity generation generating equipment according to claim 1, it is characterised in that: in the comprehensive dynamic top of chamber end wall It is provided with the chamber that tests the speed, the intracavitary swing of testing the speed is provided with the oscillating rod that tests the speed extended up and down, the oscillating rod bottom of testing the speed End is fixedly installed the counterweight that tests the speed, it is described test the speed oscillating rod top end and the comprehensive dynamic axis outer end wall it is hinged, institute State test the speed it is intracavitary slide up and down be provided with the actuating strut that tests the speed extended up and down, test the speed actuating strut top end and the survey Fast oscillating rod outer end wall is hinged, and what is slided up and down between the comprehensive dynamic axis and the comprehensive dynamic chamber is provided with the cunning that tests the speed Dynamic loop bar, the sliding bar set that tests the speed are slideably positioned in the comprehensive dynamic axis outer end wall, the sliding bar set bottom of testing the speed The rotation of portion end is provided with the rotating block that tests the speed, actuating strut bottom end and the rotating block top end hinge that tests the speed of testing the speed It connects, the sliding bar set bottom of testing the speed is fixedly connected with end wall on the left of the adjusting block of the floating direction, the sliding bar set that tests the speed Elasticity is provided with the reset spring that tests the speed between the comprehensive dynamic axis, is provided with floating in the comprehensive dynamic top of chamber end wall Sliding groove, it is multiple to be provided with floating for elasticity between the floating sliding groove top end wall and the floating direction adjusting block top end wall Position spring, the sliding bar set that is conducive to be tested the speed according to the big minor adjustment of wind speed slide up and down distance, and control height adjustment device sets this The standby height that adjusts avoids wind power generating set from damaging.
4. 4. one of according to claim 1 wind-powered electricity generation generating equipment, it is characterised in that: the steering mechanism include direction finding mechanism with And steering mechanism, the direction finding mechanism include direction finding plate, are provided with direction finding belt chamber, institute in end wall on front side of the height adjustment chamber It states the intracavitary rotation of direction finding belt and is provided with the direction finding rotation axis that front and back extends, the direction finding rotation axis front side end extends to described Floating fuselage outer side, the direction finding rotation axis front side end are fixedly installed direction finding rotation axis, the intracavitary institute of the direction finding belt It states end on rear side of direction finding rotation axis and is fixedly installed direction finding driving pulley, be provided with direction finding in end wall on rear side of the direction finding belt chamber Power-conversion chamber, rotation is provided with longitudinal transmission that front and back extends between the direction finding power-conversion chamber and the direction finding belt chamber Axis, the intracavitary longitudinal transmission axis front side end of the direction finding belt are fixedly installed direction finding driven pulley, the direction finding from Transmission is provided with direction finding power belt between movable belt pulley and the direction finding belt chamber, intracavitary described vertical of the direction finding power-conversion It is fixedly installed under direction finding to transmission axis bottom end and transmits bevel gear, the steering mechanism includes deflecting plate, and the direction finding is dynamic Steering power chamber is provided in power conversion chamber bottom end wall, the intracavitary symmetrical rotation of steering power is provided with front and back and prolongs The steering power axis stretched, end is fixedly installed steering sprocket on rear side of the steering power axis, between the steering sprocket of left and right Transmission is provided with steering chain, and course changing control block, the steering power axis front side end are fixedly installed on the steering chain The floating fuselage outer side is extended to, the deflecting plate is fixedly installed on the steering power axis front side end, the direction-finder set It is provided with hydraulic booster system between structure and the steering mechanism, is conducive to control the equipment and turn to guarantee generating set face always To wind direction.
5. 5. one of -4 wind-powered electricity generation generating equipment according to claim 1, it is characterised in that: the intracavitary rotation setting of comprehensive dynamic There is the hydraulic power axis extended up and down, the intracavitary hydraulic power axis top end of the comprehensive dynamic is fixedly installed hydraulic Driven pulley is fixedly installed hydraulic driving pulley in the comprehensive dynamic axis outer end wall, and the hydraulic driving pulley is located at Described to float downward on the upside of driving gear, described to float downward being provided with of being driven between driving gear and the hydraulic driven pulley hydraulic dynamic Power belt, the hydraulic power axis bottom end and the pressurization pump power being fixedly installed in the comprehensive dynamic chamber bottom end wall It connects, low-pressure oil storage chamber is provided in the height adjustment chamber bottom end wall, between the low-pressure oil storage chamber and the booster pump Connection is provided with low-pressure oil delivery pipe, is fixedly installed separator on the left of the low-pressure oil storage chamber in end wall, the separator with What is be connected between the booster pump is provided with high-pressure pipeline road, symmetrical setting in the low-pressure oil storage chamber bottom end wall Have oil-control chamber, this sentence left side for be described in detail, be connected between the oil-control chamber and the separator be provided with into Oil pipe, what is horizontally slipped between the oil-control chamber of left and right is provided with oil-control bar, and the oil-control bar left distal end is fixedly installed control End wall, which is detached from, on the left of oil head, the oil-control head and the oil-control chamber cooperates, setting in the direction finding power-conversion chamber bottom end wall There is oil-control sliding cavity, is provided with steering power chamber, the direction finding power-conversion chamber in end wall on the right side of the direction finding power-conversion chamber Rotation is provided with the steering power axis that left and right extends, intracavitary described of the direction finding power-conversion between the steering power chamber Steering power axis left distal end is fixedly installed port transmitting bevel gear, and the port transmits under bevel gear and the direction finding Bevel gear engagement is transmitted, the intracavitary steering power axis right end of the steering power is fixedly installed steering driving tooth Wheel, rotation is provided with the steering screw that left and right extends between the oil-control sliding cavity and the steering power chamber, and the steering is dynamic The intracavitary steering screw right end of power is fixedly installed steering driven gear, the steering driven gear and the steering Driving gear engages, and what is horizontally slipped in the oil-control sliding cavity is provided with oil-control sliding shoe, setting in the oil-control sliding shoe There is oil-control screw thread, the oil-control screw thread and the steering screw cooperate, and the oil-control sliding shoe is fixedly installed on the oil-control bar In top end wall, be fixedly installed oil return junction station in the oil-control sliding cavity top end wall, the oil return junction station with it is described What is be connected between low-pressure oil storage chamber is provided with low-pressure oil return pipe road, and what is be connected between the oil-control chamber and the oil return junction station sets It is equipped with overflow oil return pipe, steering cylinder, the left and right steering cylinder are symmetrically arranged in the end wall of steering power chamber two sides Between be connected to be provided with left and right circulating pipe, this is described in detail for sentencing left side, the steering cylinder and the steering What is horizontally slipped between power cavity is provided with steering link, the steering link right end and the course changing control block left-hand end Wall is fixedly connected, and what is horizontally slipped in the steering cylinder is provided with steering piston, the steering link left distal end with it is described End wall connection on the right side of steering piston, what is be connected between the steering cylinder and the oil-control chamber is provided with flowline, is conducive to control The steering mechanism of steering mechanism processed controls the equipment and turns to guarantee generating set always towards wind direction.
6. 6. one of according to claim 1 wind-powered electricity generation generating equipment, it is characterised in that: symmetrical in the floating fuselage to set Six groups of buoyancy cavities are equipped with, the buoyancy for improving the equipment is conducive to, guarantee the highly stable of equipment.