CN114033608B

CN114033608B - Portable water surface power generation equipment with easily changed installation position

Info

Publication number: CN114033608B
Application number: CN202111326129.8A
Authority: CN
Inventors: 吴朝阳; 田乾; 谢占山
Original assignee: Nantong University
Current assignee: Nantong University
Priority date: 2021-11-10
Filing date: 2021-11-10
Publication date: 2022-05-03
Anticipated expiration: 2041-11-10
Also published as: CN114033608A

Abstract

The invention relates to the technical field of water surface power generation, in particular to a portable water surface power generation device with an easily-changed installation position, which comprises a top buoy and a bottom buoy, wherein the left side and the right side of the top buoy are symmetrically provided with at least one pair of side surface connecting seats, a water surface power generation device for generating power by utilizing energy pushed forwards by waves is fixedly installed on the side surface connecting seats, and a control console is fixedly installed on the top buoy. The invention adopts the design form that the top buoy and the bottom buoy are separately arranged, so that the energy pushed forwards by waves and the energy of the water surface height change caused by the waves can be more efficiently utilized to generate electricity, and the top buoy can automatically adapt to the water surface height when the water surface height changes caused by tides, stormy weather or seasonal climate, so as to avoid being submerged, thereby being capable of being installed in water body environments with proper depths, particularly in shallow sea or river surfaces with large stormy waves and obvious water surface depth change, and being easy to store, transport and install again.

Description

Portable water surface power generation equipment with easily changed installation position

Technical Field

The invention relates to the technical field of water surface power generation, in particular to a portable water surface power generation device with an easily-changed installation position.

Background

The climate change is a serious challenge facing all mankind, and the promotion of the economic society to green low-carbon transformation is a necessary way for coping with the climate change and is an important way for promoting ecological civilization construction, high-quality development of the economic society and high-level protection of ecological environment. Traditional power generation in China mainly depends on fossil energy such as coal, and the fossil energy is gradually replaced by renewable energy due to the reasons that the fossil energy is non-renewable and can cause serious pollution. The wave energy resources of the east and south China sea areas are rich, but the existing wave energy power generation devices are mainly equipment fixedly arranged in the fixed sea area for a long time, so that the existing wave energy power generation devices can only supply power to the fixed area.

And the operation time of some offshore construction projects and fishery projects in a certain area is only days or months, if long-term fixed-position wave energy power generation equipment is built in the operation area, the equipment can be abandoned after the projects are finished, and resources are seriously wasted.

If the novel water surface power generation equipment which is easy to carry and convenient to repeatedly install and use can be invented, the problems can be effectively solved, and the portable water surface power generation equipment with the installation position easy to change is provided for the application.

Disclosure of Invention

The present invention is directed to a portable surface power generating apparatus with an easily changeable installation position, so as to solve the problems of the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an easily change portable surface of water power generation facility of mounted position, includes top flotation pontoon and bottom flotation pontoon, the left and right sides symmetry of top flotation pontoon is provided with at least a pair of side connecting seat, and fixed mounting has the surface of water power generation facility that utilizes the energy electricity generation that the wave promoted forward on the connecting seat of side, fixed mounting has the control cabinet on the top flotation pontoon, and has controller and external connection seat through screw fixed mounting on the control cabinet.

The bottom fixed mounting of top flotation pontoon has butt joint cooperation seat, and is provided with connecting device on the butt joint cooperation seat, connecting device include with butt joint cooperation seat through the bearing rotate the cooperation connecting seat of installation, and the spiro union is installed and is used for the card to go into the jack on the butt joint cooperation seat and the spacing screw of fixed butt joint cooperation seat, rotate through the bearing on the cooperation connecting seat and install worm and worm wheel, and worm wheel meshing are connected, fixed mounting has adjusting motor on the cooperation connecting seat, and adjusting motor's output drive worm is rotatory, the terminal fixed mounting of worm wheel has the top to receive the line section of thick bamboo, and the winding has the electricity generation pull wire on the top receives the line section of thick bamboo.

Be connected through the anti-tilt lift seat that can stretch out and draw back between cooperation connecting seat and the bottom flotation pontoon, and fixed mounting has bottom power generation facility and storage battery on the flotation pontoon of bottom, the butt joint hole has been seted up to the bottom of cooperation connecting seat, and the end of generating electricity pull wire passes the butt joint hole and prevents the middle department of tilt lift seat and be connected with bottom power generation facility's power input, fixed mounting has the inlet tube and the water pump of connecting bottom flotation pontoon inner chamber on the flotation pontoon of bottom, and is provided with the solenoid valve on the inlet tube.

Fixed mounting has the coiling motor on the flotation pontoon of bottom, and the end drive of coiling motor has the supplementary winding drum that is used for rolling flexible rubber hose, the cup joint is provided with cable and air duct in the flexible rubber hose, and the bottom electric connection storage battery of cable, the top of cable is electric connection surface of water power generation facility, controller and external connection seat respectively, and storage battery and bottom power generation facility are connected, the controller passes through cable difference electric connection accommodate motor, water pump and coiling motor, and the bottom flotation pontoon left and right sides installs supplementary fixing device through the butt joint mount pad, the bottom of air duct and the inner chamber intercommunication of bottom flotation pontoon, and fixed mounting has the seat of admitting air with the top intercommunication of air duct on the flotation pontoon of top.

Preferably, the anti-tilt lifting seat is composed of at least three sleeving unit sections which are connected in a sleeving manner from inside to outside in a sleeved manner, an internal through groove which is convenient for the power generation traction wire to pass through is formed in each sleeving unit section, an external sliding groove is formed in each side face of each sleeving unit section, and a limiting block which is matched with the external sliding groove formed in the adjacent sleeving unit section outside the sleeving unit section in a sliding manner and is limited is fixed at the bottom of each sleeving unit section.

Preferably, there is the top that is used for pulling to pull the seat at both ends respectively through bolt fixed mounting around the top flotation pontoon, and has the bottom that is used for pulling to pull the seat through bolt fixed mounting respectively at both ends around the bottom flotation pontoon, there is the top that is used for hanging the balancing weight to hang the seat at both ends respectively through bolt fixed mounting about the top flotation pontoon, and the bottom that is used for hanging the balancing weight to hang the seat at both ends respectively through bolt fixed mounting about the bottom flotation pontoon.

Preferably, supplementary fixing device includes main inserted bar and supplementary inserted bar, and through fixed main inserted bar of location adjusting screw and supplementary inserted bar on the butt joint mount pad, fixed mounting has wire winding seat on the main inserted bar, and the winding has the fixed rope that is used for connecting supplementary inserted bar on the wire winding seat, set up the spacing groove that is used for putting into fixed rope on the main inserted bar, and the end of spacing groove seals through cable limiting screw, there is the wire casing seat that is used for placing fixed rope through bolt fixed mounting on the wire winding seat, and the spiro union is installed cable clamping screw on the wire casing seat, the terminal rotation of cable clamping screw installs the line ball board that is used for compressing tightly the fixed rope that is located the wire casing seat.

Preferably, the water surface power generation device comprises a rotating arm which is hinged with the side connecting seat, a shell is fixedly arranged on the rotating arm through a bolt, a first positioning screw rod for fixing the rotating arm at the working position is inserted and mounted on the side connecting seat, and a second positioning screw rod for fixing the rotating arm at a non-working position is inserted and installed on the side connecting seat, a rotating blade is rotatably installed on the shell through a bearing, a planet wheel speed increaser and a first generator are fixedly arranged on the shell through bolts, the power input end of the planet wheel speed increaser is connected with a main shaft on the rotating paddle, and the power output end of the planet wheel speed increaser is connected with the input end of a first generator, the first generator is electrically connected with a storage battery through a cable, and a handle which is convenient for moving the shell is fixedly arranged on the shell through a bolt.

Preferably, the upper end of the top buoy is fixedly provided with a wind driven generator, and the wind driven generator is electrically connected with the storage battery through a cable.

Preferably, the top of top flotation pontoon is provided with solar power system, and solar power system includes the bottom butt joint seat through bolt and top flotation pontoon fixed mounting, the upper end of bottom butt joint seat is rotated through the bearing and is installed and rotate the butt joint seat, and rotates and to compress tightly fixedly with the bottom butt joint seat through the second adjusting screw button of spiro union installation on the butt joint seat, rotate and to install photovoltaic power generation board through the bearing on the butt joint seat, and photovoltaic power generation board's bottom and rotate and to compress tightly fixedly through first adjusting screw button between the butt joint seat, photovoltaic power generation board passes through cable and storage battery electric connection.

Preferably, bottom power generation facility includes the mounting bracket through bolt and bottom flotation pontoon fixed mounting, and has the second generator through bolt fixed mounting on the mounting bracket, the power input end and the pivot of second generator are connected, and are connected through the clockwork spring between pivot and the mounting bracket, fixed mounting has the bottom to receive a line section of thick bamboo in the pivot, and the bottom receives a line section of thick bamboo and is used for connecting and rolling electricity generation pull wire, the second generator passes through cable electric connection storage battery.

Preferably, the controller is an stm32 series single chip microcomputer, and a transformer and a rectifier are integrated at the current input end of the storage battery pack.

Preferably, the front and back both ends shape of top flotation pontoon and bottom flotation pontoon is the streamlined that can reduce the water flow resistance, and has the handle that pushes away through bolt fixed mounting on the cooperation connecting seat.

Compared with the prior art, the invention has the beneficial effects that:

1. the power generation equipment designed by the invention adopts a design form that the top buoy and the bottom buoy are separately arranged, so that the energy pushed forward by waves and the energy of the water surface height change caused by the waves can be more efficiently utilized for power generation, and the top buoy can automatically adapt to the water surface height when the water surface height changes caused by tides, stormy weather or seasonal climate, so as to avoid being submerged, thereby being capable of being installed in water body environments with proper depths, in particular to shallow sea or river surfaces with large stormy waves and obvious water surface depth change.

2. The invention has ingenious structural design, can be quickly unfolded, arranged, stored and carried, and is convenient to transport, redeploy and install, so the invention is very suitable for medium-and-long-term use conditions requiring frequent change of use sites, such as temporary construction for days of behavior on the water surface or fishing operation for maintaining days in the water surface area, and has very high engineering value.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the bottom pontoon according to the present invention;

FIG. 3 is a schematic view of the installation of the top buoy and the solar power plant of the present invention;

FIG. 4 is a schematic structural view of the top buoy of the present invention;

FIG. 5 is a schematic view of the installation of the top buoy and the connection device of the present invention;

FIG. 6 is a bottom schematic view of the top buoy of the present invention;

FIG. 7 is a schematic view of the structure of the connecting device of the present invention;

FIG. 8 is a schematic structural diagram of a solar power generation apparatus according to the present invention;

FIG. 9 is a schematic structural diagram of a bottom power generation assembly of the present invention;

FIG. 10 is a schematic structural view of a water surface power generation device of the present invention;

FIG. 11 is a schematic view of an auxiliary fixture according to the present invention;

FIG. 12 is a schematic view of the anti-tilt seat of the present invention.

In the figure: 1. a top pontoon; 2. an anti-tilt lifting seat; 201. a socket joint unit section; 202. an internal through slot; 203. an external chute; 204. a limiting block; 3. a power generation traction wire; 4. an auxiliary fixing device; 401. a cable limit screw; 402. a main insertion rod; 403. a limiting groove; 404. fixing a rope; 405. a winding seat; 406. a wire pressing plate; 407. a cable compression screw; 408. a wire chase base; 409. an auxiliary insertion rod; 5. a water surface power generation device; 501. a rotating arm; 502. a housing; 503. rotating the paddle; 504. a planet gear speed increaser; 505. a first generator; 6. a connecting device; 601. a top take-up drum; 602. a butt joint hole; 603. matching with the connecting seat; 604. adjusting the motor; 605. a worm; 606. a worm gear; 7. a solar power generation device; 701. a photovoltaic power generation panel; 702. rotating the butt joint seat; 703. a first adjusting knob; 704. a second adjusting screw button; 705. a bottom docking station; 8. a bottom power generation device; 801. a mounting frame; 802. a clockwork spring; 803. a rotating shaft; 804. a bottom take-up drum; 805. a second generator; 9. an air inlet seat; 10. a handle; 11. a push handle; 12. a limit screw; 13. a wind power generator; 14. a battery pack; 15. a bottom pontoon; 16. a water inlet pipe; 17. an electromagnetic valve; 18. a water pump; 19. butting the mounting seats; 20. positioning an adjusting screw rod; 21. a rubber hose; 22. a winding motor; 23. a top tractor mount; 24. a bottom suspension seat; 25. a side connecting seat; 26. a console; 27. butting the rotating seat; 28. an air duct; 29. a cable; 30. a first positioning screw; 31. a second positioning screw; 32. a top suspension mount; 33. a bottom traction seat; 34. an auxiliary reeling drum; 35. a controller; 36. an external wire holder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art without creative efforts based on the technical solutions of the present invention belong to the protection scope of the present invention.

Referring to fig. 1 to 12, the present invention provides a technical solution: the utility model provides an easily change portable surface of water power generation facility of mounted position, includes top flotation pontoon 1 and bottom flotation pontoon 15, and the left and right sides symmetry of top flotation pontoon 1 is provided with at least a pair of side connecting seat 25, and fixed mounting has the surface of water power generation facility 5 that utilizes the wave to promote energy electricity generation forward on the connecting seat 25 of side, and the upper end fixed mounting of top flotation pontoon 1 has control cabinet 26, and has controller 35 and external connection seat 36 through screw fixed mounting on the control cabinet 26.

Referring to fig. 1, 3 and 7, a butt-joint matching seat 27 is fixedly installed at the bottom of the top buoy 1, a connecting device 6 is arranged on the butt-joint matching seat 27, the connecting device 6 includes a matching connecting seat 603 rotatably installed with the butt-joint matching seat 27 through a bearing, a limit screw 12 used for being clamped into a jack on the butt-joint matching seat 27 and fixing the butt-joint matching seat 27 is installed on the matching connecting seat 603 in a threaded manner, a worm 605 and a worm wheel 606 are installed on the matching connecting seat 603 through a bearing in a rotating manner, the worm 605 and the worm wheel 606 are connected in a meshing manner, an adjusting motor 604 is fixedly installed on the matching connecting seat 603, an output end of the adjusting motor 604 drives the worm 605 to rotate, a top take-up drum 601 is fixedly installed at the tail end of the worm wheel 606, and a power generation traction wire 3 is wound on the top take-up drum 601.

Referring to fig. 1 and 2, the mating connection seat 603 is connected to the bottom buoy 15 through the telescopic anti-tilt lifting seat 2, the bottom buoy 15 is fixedly installed with the bottom power generation device 8 and the battery pack 14, the bottom of the mating connection seat 603 is provided with a butt joint hole 602, the tail end of the power generation traction wire 3 passes through the butt joint hole 602 and the middle of the anti-tilt lifting seat 2 and is connected to the power input end of the bottom power generation device 8, the bottom buoy 15 is fixedly installed with the water inlet pipe 16 and the water pump 18 which are connected to the inner cavity of the bottom buoy 15, and the water inlet pipe 16 is provided with the electromagnetic valve 17.

Referring to fig. 1 to 4, a winding motor 22 is fixedly mounted on the bottom buoy 15, an auxiliary winding drum 34 for winding the rubber hose 21 is driven by the tail end of the winding motor 22, a cable 29 and an air duct 28 are arranged in the rubber hose 21 in a sleeved manner, the bottom of the cable 29 is electrically connected with the storage battery 14, the top of the cable 29 is electrically connected with the water surface power generation device 5, the controller 35 and an external wiring seat 36 respectively, the storage battery 14 is connected with the bottom power generation device 8, the controller 35 is electrically connected with the adjusting motor 604, the water pump 18 and the winding motor 22 respectively through the cable 29, the auxiliary fixing devices 4 are mounted on the left side and the right side of the bottom buoy 15 through butt joint mounting seats 19, the bottom of the air duct 28 is communicated with the inner cavity of the bottom buoy 15, and an air inlet seat 9 communicated with the top of the air duct 28 is fixedly mounted on the top buoy 1.

Please refer to fig. 12, the anti-tilt lifting seat 2 is composed of at least three socket unit sections 201 which are socket connected from inside to outside, an internal through groove 202 through which the power generation traction wire 3 can pass is formed inside the socket unit section 201, an external sliding groove 203 is formed on a side surface of each socket unit section 201, and a limiting block 204 which is matched with the external sliding groove 203 on the adjacent socket unit section 201 and is used for sliding limiting is fixed at the bottom of each socket unit section 201.

Referring to fig. 1 and 2, a top traction seat 23 for traction is fixedly mounted at the front end and the rear end of the top pontoon 1 through bolts respectively, a bottom traction seat 33 for traction is fixedly mounted at the front end and the rear end of the bottom pontoon 15 through bolts respectively, a top suspension seat 32 for suspending a balancing weight is fixedly mounted at the left end and the right end of the top pontoon 1 through bolts respectively, and a bottom suspension seat 24 for suspending a balancing weight is fixedly mounted at the left end and the right end of the bottom pontoon 15 through bolts respectively.

Referring to fig. 1 and 11, the auxiliary fixing device 4 includes a main inserting rod 402 and an auxiliary inserting rod 409, the main inserting rod 402 and the auxiliary inserting rod 409 are fixed on the butt joint mounting seat 19 through a positioning adjusting screw 20, a wire winding seat 405 is fixedly mounted on the main inserting rod 402, a fixing rope 404 for connecting the auxiliary inserting rod 409 is wound on the wire winding seat 405, a limiting groove 403 for placing the fixing rope 404 is formed in the main inserting rod 402, the tail end of the limiting groove 403 is sealed by a cable limiting screw 401, a wire casing seat 408 for placing the fixing rope 404 is fixedly mounted on the wire winding seat 405 through a bolt, a cable pressing screw 407 is screwed on the wire casing seat 408, and a wire pressing plate 406 for pressing the fixing rope 404 in the wire casing seat 408 is rotatably mounted at the tail end of the cable pressing screw 407.

Referring to fig. 1 and 10, the surface power generating device 5 includes a rotating arm 501 hinged to the side connecting base 25, a shell 502 is fixedly arranged on the rotating arm 501 through a bolt, a first positioning screw 30 for fixing the rotating arm 501 at a working position is inserted and arranged on the side connecting seat 25, and the side connecting base 25 is inserted with a second positioning screw 31 for fixing the rotating arm 501 at the non-working position, the housing 502 is rotatably provided with a rotating paddle 503 through a bearing, a planet gear speed increaser 504 and a first generator 505 are fixedly arranged on the shell 502 through bolts, the power input end of the planet gear speed increaser 504 is connected with a main shaft on the rotating paddle 503, the power output end of the planet wheel speed increaser 504 is connected with the input end of a first generator 505, the first generator 505 is electrically connected with the storage battery pack 14 through a cable 29, and a handle 10 which is convenient for moving the shell 502 is fixedly arranged on the shell 502 through bolts.

Referring to fig. 1 and 7, a wind power generator 13 is fixedly mounted at the upper end of the top buoy 1, the wind power generator 13 is electrically connected to the storage battery 14 through a cable 29, the controller 35 is an stm32 series single chip microcomputer, a transformer and a rectifier are integrated at the current input end of the storage battery 14, the front end and the rear end of the top buoy 1 and the bottom buoy 15 are both streamlined, and the front end and the rear end of the top buoy 1 and the rear end of the bottom buoy 15 are both streamlined and are fixedly mounted with a push handle 11 through bolts on a connecting seat 603.

Referring to fig. 1, 3 and 8, a solar power generation device 7 is disposed above the top buoy 1, the solar power generation device 7 includes a bottom docking seat 705 fixedly mounted to the top buoy 1 through a bolt, a rotary docking seat 702 is rotatably mounted to an upper end of the bottom docking seat 705 through a bearing, a second adjusting screw 704 mounted to the rotary docking seat 702 through a screw is pressed against and fixed to the bottom docking seat 705, a photovoltaic power generation panel 701 is mounted to the rotary docking seat 702 through a bearing, the bottom of the photovoltaic power generation panel 701 is pressed against and fixed to the rotary docking seat 702 through a first adjusting screw 703, and the photovoltaic power generation panel 701 is electrically connected to the battery pack 14 through a cable 29.

Referring to fig. 2 and 9, the bottom power generation device 8 includes a mounting bracket 801 fixedly mounted to the bottom buoy 15 through a bolt, a second generator 805 is fixedly mounted to the mounting bracket 801 through a bolt, a power input end of the second generator 805 is connected to a rotating shaft 803, the rotating shaft 803 is connected to the mounting bracket 801 through a spring 802, a bottom take-up reel 804 is fixedly mounted to the rotating shaft 803, the bottom take-up reel 804 is used for connecting and winding the power generation traction wire 3, and the second generator 805 is electrically connected to the battery pack 14 through a cable 29.

The working principle is as follows: the equipment adopts the ship transportation to the position that needs the installation, and during the transportation, haulage rope on the ship can be tied on top fifth wheel 23 or bottom fifth wheel 33, thereby it is together temporarily fixed to hang through the cable between seat 24 and the top of hanging with top flotation pontoon 1 and bottom flotation pontoon 15, and the inside of bottom flotation pontoon 15 is aerifyd sealedly simultaneously and is come the whole auxiliary device that can float on the surface of water, installs each surface of water power generation facility 5 on the inoperative position through second set screw 32 afterwards.

After the equipment is pulled to a designated position, the electromagnetic valve 17 is firstly opened to enable water to be poured into the inner cavity of the bottom buoy 15 from the water inlet pipe 16, so that the water surface can be submerged to a designated waterline on the top buoy 1, corresponding counter weights can be hung on the top hanging seat 32 and the bottom hanging seat 24 to enable the water surface to reach a designated water level line, then the cable between the top hanging seat 32 and the bottom hanging seat 24 is loosened, and the winding motor 22 and the adjusting motor 604 are simultaneously opened, so that the power generation traction line 3 and the rubber hose 21 can be synchronously unfolded along with the sinking of the bottom buoy 15, and the power generation traction line 3 can be ensured to be in a tensioned state.

There are two conditions for the bottom buoy 15 to sink: the first is that the water bottom is shallow, the water depth is less than three-fourths of the maximum telescopic length of the anti-inclination lifting seat 2, the bottom buoy 15 can be directly pressed on the water bottom, and then the main inserted link 402 and the auxiliary inserted link 409 can be directly inserted into the water bottom on the butt joint mounting seat 19 by utilizing the self weight matching of the bottom buoy 15 to complete the fixation; the second situation is that the water bottom is deep, the anti-tilt lifting seat 2 is completely extended and can not enable the bottom buoy 15 to touch the water bottom, at the moment, a water pump 18 is utilized to pump out a part of water in the bottom buoy 15, so that outside air can enter through the air inlet seat 9 and finally enter into the bottom buoy 15 along the air guide pipe 28, the buoyancy of the bottom buoy is increased, the bottom buoy can float upwards just depending on the buoyancy of the bottom buoy, then the main inserted link 402 is taken down from the butt joint mounting seat 19, the fixed rope 404 is taken down from the winding seat 405, then the main inserted link 402 is inserted into the water bottom, the main inserted link 402 can also be made into a ship anchor shape to conveniently hook on objects which can be fixed under the water bottom, meanwhile, the fixed rope 404 can also be wound on the fixable objects under the water bottom, then the fixed rope 404 is limited through the cable limiting screw 401 after passing through the limiting groove 403, and binding is completed, then, the redundant rope is recovered to the winding seat 405 again, so that the bottom buoy 15 can sink to a specified depth under the pulling of the auxiliary fixing device 4, the depth is three fourths of the maximum telescopic distance of the anti-tilting lifting seat 2, then the fixing rope 404 is placed into the wire groove of the wire groove seat 408, the wire pressing plate 406 is pushed by the cable pressing screw 407 to press the fixing rope 404, the fixing operation is completed, and the fixing of the bottom buoy 15 is completed by at least three auxiliary fixing devices 4.

After the bottom buoy 15 is fixed, the water level in the inner cavity of the bottom buoy 15 is adjusted again, and the weights of the weights hung on the top buoy 1 and the bottom buoy 15 are adjusted, so that the distance between the top buoy 1 and the bottom buoy 15 is at least less than the maximum extensible distance of the anti-tilt lifting seat 2 by one meter, thereby ensuring that the top buoy 1 can float along the waves in an extended manner, meanwhile, the paying-off length of the rubber hose 22 is adjusted again through the winding motor 22, so that the rubber hose is not tensioned when being located at the farthest position between the top buoy 1 and the bottom buoy 15, then, the paying-off length of the power generation traction wire 3 is adjusted again through the adjusting motor 604, so that the power generation traction wire 3 can be in a tensioned state under the driving of the spiral spring 802, and the maximum length of the power generation traction wire 3 capable of being elongated downwards is greater than the maximum extensible length of the anti-tilt lifting seat 2, and then fixing the water surface power generation device 5 at the working position through the first positioning screw 30. The anti-tilt lifting base 2 of the device enables the top buoy 1 to move up and down only along the upper side of the bottom buoy 15, thereby driving the power generation traction line 3 to pull upwards when the wave on the water surface pushes the top buoy 1 to float upwards, the bottom of the power generation traction wire 3 is wound on the bottom take-up drum 804, so that the power generation traction wire 3 drives the bottom take-up drum 804 to rotate when being pulled upwards, the second generator 805 is driven to rotate to generate electricity, then the wave passes, the top buoy 1 descends, the power generation traction wire 3 loses the upward pulling force and is pulled downward under the driving of the clockwork spring 802, thereby driving the second generator 805 to rotate reversely again, the second generator 805 can generate power during the reverse rotation, in addition, when the waves pass through the bottom of the water surface power generation device 5, the waves also impact and drive the rotating blades 503 to rotate, so that the rotating blades 503 are utilized to drive the first generator 505 to perform power generation operation. The electric power generated by the first generator 505 and the second generator 805 is transmitted to the storage battery 14 for storage after being transformed and rectified, and the wind driven generator 13 and the solar power generation device 7 can be additionally installed to additionally supply power to the storage battery 14 according to needs, wherein the angle of the photovoltaic power generation panel 701 can be changed by matching the first adjusting screw button 703 and the second adjusting screw button 704 when the solar power generation device 7 is installed, so that better power generation efficiency is obtained. The water pump 18, the adjusting motor 14 and the winding motor 22 of the device can be manually controlled through the controller 35, and when the power in the storage battery pack 14 needs to be taken, an external cable can be directly connected into the external wire holder 36 to be taken.

Also can not adopt stop screw 12 to fix cooperation connecting seat 603 and butt joint cooperation seat 27 in this equipment course of operation, when the direction of surface of water wave changes like this, can be better make top flotation pontoon 1 rotatory to be favorable to making wave and the position department that rotates paddle 503 more efficient contact under the drive of wave, and when needs transported the device, then should reuse stop screw 12 with cooperation connecting seat and butt joint cooperation seat 27 fixed once more, and make the fore-and-aft direction of top flotation pontoon 1 align with the fore-and-aft direction of bottom flotation pontoon 15, thereby reduce the resistance in the transportation. When the installation position of the device needs to be changed again, firstly, the water in the inner cavity of the bottom buoy 15 is pumped out by the water pump 18, air is filled into the inner cavity of the bottom buoy 15 through the air duct 28, so that the bottom buoy floats upwards, the anti-tilt lifting seat 2 is completely retracted, then the power generation traction line 3 is retracted to a tensioning state by the adjusting motor 604, then the rubber hose 21 is retracted to a tensioning state by the winding motor 22, the top suspension seat 32 and the bottom suspension seat 24 at corresponding positions are fixed by the rope, so that the space between the top buoy 1 and the bottom buoy 24 is fixed, then each water surface power generation device 5 is retracted to a non-working position by the second positioning screw 32, and then the top traction seat 23 or the bottom traction seat 33 is pulled by an external ship.

In conclusion, the power generation equipment designed by the invention adopts a design form that the top buoy and the bottom buoy are arranged separately, so that the energy pushed forward by waves and the energy of the water surface height change caused by the waves can be more efficiently utilized for power generation, and the top buoy can automatically adapt to the water surface height and avoid being submerged when the water surface height changes caused by tides, stormy weather or seasonal weather, so that the power generation equipment can be installed in water body environments with proper depths, particularly in shallow sea or river surfaces with large stormy waves and obvious water surface depth change. The structural design of this equipment is ingenious, can be quick expand arrange with accomodate the transport, made things convenient for the transportation and dispose the installation once more, consequently especially adapted needs the normal and long-term in service behavior in frequent change use place, for example on the surface of water the interim construction of action period several days or several months or maintain the fishing operation etc. of several days or several months in the surface of water region, have very high practical value.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an easily change mounted position's portable surface of water power generation equipment which characterized in that: the device comprises a top buoy (1) and a bottom buoy (15), wherein at least one pair of side connecting seats (25) are symmetrically arranged on the left side and the right side of the top buoy (1), a water surface power generation device (5) which utilizes energy pushed forward by waves to generate power is fixedly installed on each side connecting seat (25), a control console (26) is fixedly installed on the top buoy (1), and a controller (35) and an external wiring seat (36) are fixedly installed on the control console (26) through screws;

the bottom of the top buoy (1) is fixedly provided with a butt joint matching seat (27), the butt joint matching seat (27) is provided with a connecting device (6), the connecting device (6) comprises a matching connecting seat (603) which is rotatably arranged with the butt-joint matching seat (27) through a bearing, and a limit screw rod (12) which is clamped into a jack on the butt joint matching seat (27) and fixes the butt joint matching seat (27) is screwed on the matching connecting seat (603), a worm (605) and a worm wheel (606) are rotatably arranged on the matching connecting seat (603) through a bearing, and the worm (605) is meshed with the worm wheel (606), the matching connecting seat (603) is fixedly provided with an adjusting motor (604), the output end of the adjusting motor (604) drives the worm (605) to rotate, the tail end of the worm wheel (606) is fixedly provided with a top take-up drum (601), and the top take-up drum (601) is wound with a power generation traction wire (3);

the device is characterized in that the matching connecting seat (603) is connected with the bottom buoy (15) through the telescopic anti-tilt lifting seat (2), the bottom buoy (15) is fixedly provided with a bottom power generation device (8) and a storage battery (14), the bottom of the matching connecting seat (603) is provided with a butt joint hole (602), the tail end of a power generation traction wire (3) penetrates through the butt joint hole (602) and the middle of the anti-tilt lifting seat (2) and is connected with the power input end of the bottom power generation device (8), the bottom buoy (15) is fixedly provided with a water inlet pipe (16) and a water pump (18) which are connected with the inner cavity of the bottom buoy (15), and the water inlet pipe (16) is provided with an electromagnetic valve (17);

fixed mounting has rolling motor (22) on bottom flotation pontoon (15), and the end drive of rolling motor (22) has auxiliary winding drum (34) that is used for rolling up rubber hose (21), rubber hose (21) endotheca is provided with cable (29) and air duct (28), and the bottom electric connection storage battery (14) of cable (29), the top of cable (29) electric connection surface of water power generation facility (5), controller (35) and external connection seat (36) respectively, and storage battery (14) are connected with bottom power generation facility (8), controller (35) are through cable (29) electric connection adjusting motor (604), water pump (18) and rolling motor (22) respectively, and the bottom flotation pontoon (15) left and right sides installs auxiliary fixing device (4) through butt joint mount pad (19), the bottom of air duct (28) and the inner chamber intercommunication of bottom flotation pontoon (15), and an air inlet seat (9) communicated with the top of the air duct (28) is fixedly arranged on the top buoy (1).

2. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: prevent slope lift seat (2) by at least three from inside to outside cup joint the unit section (201) of cup jointing and constitute, and cup joint the inside of unit section (201) and set up inside through groove (202) that convenient electricity generation pull wire (3) passed, every cup joint the side of unit section (201) and all seted up outside spout (203), and the bottom of every cup joint unit section (201) all is fixed with and overlaps outside spout (203) cooperation slip spacing stopper (204) of establishing on its outside adjacent cup joint unit section (201).

3. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: the utility model discloses a balancing weight balancing device, including top flotation pontoon (1), both ends have the top that is used for pulling to pull seat (23) through bolt fixed mounting respectively around top flotation pontoon (1), and both ends have the bottom that is used for pulling to pull seat (33) through bolt fixed mounting respectively around bottom flotation pontoon (15), both ends hang seat (32) through bolt fixed mounting respectively about top flotation pontoon (1) at the top that is used for hanging the balancing weight, and both ends hang seat (24) through bolt fixed mounting respectively about bottom flotation pontoon (15) at the bottom that is used for hanging the balancing weight.

4. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: the auxiliary fixing device (4) comprises a main inserted link (402) and an auxiliary inserted link (409), a main inserted bar (402) and an auxiliary inserted bar (409) are fixed on the butt joint mounting seat (19) through a positioning adjusting screw rod (20), a winding seat (405) is fixedly arranged on the main inserted bar (402), and a fixing rope (404) for connecting an auxiliary inserting rod (409) is wound on the winding seat (405), the main inserted link (402) is provided with a limit groove (403) for placing a fixed rope (404), the tail end of the limiting groove (403) is sealed by a cable limiting screw (401), a wire groove seat (408) for placing a fixing rope (404) is fixedly arranged on the wire winding seat (405) through a bolt, and a cable pressing screw rod (407) is screwed on the wire slot seat (408), and the tail end of the cable pressing screw rod (407) is rotatably provided with a wire pressing plate (406) which is used for pressing the fixed rope (404) in the wire slot seat (408).

5. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: the water surface power generation device (5) comprises a rotating arm (501) hinged with a side connecting seat (25), a shell (502) is fixedly installed on the rotating arm (501) through bolts, a first positioning screw (30) used for fixing the rotating arm (501) at a working position is installed on the side connecting seat (25) in an inserted mode, a second positioning screw (31) used for fixing the rotating arm (501) at a non-working position is installed on the side connecting seat (25) in an inserted mode, a rotating paddle (503) is installed on the shell (502) through a bearing in a rotating mode, a planet wheel speed increaser (504) and a first power generator (505) are fixedly installed on the shell (502) through bolts, the power input end of the planet wheel speed increaser (504) is connected with a main shaft on the rotating paddle (503), and the power output end of the planet wheel speed increaser (504) is connected with the input end of the first power generator (505), the first generator (505) is electrically connected with the storage battery pack (14) through a cable (29), and a handle (10) which is convenient for moving the shell (502) is fixedly installed on the shell (502) through a bolt.

6. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: the upper end fixed mounting of top flotation pontoon (1) has aerogenerator (13), and aerogenerator (13) passes through cable (29) electric connection storage battery (14).

7. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: the top of top flotation pontoon (1) is provided with solar power system (7), and solar power system (7) include bottom butt joint seat (705) through bolt and top flotation pontoon (1) fixed mounting, the upper end of bottom butt joint seat (705) is rotated through the bearing and is installed and rotate butt joint seat (702), and rotates and to compress tightly fixedly with bottom butt joint seat (705) second regulation knob (704) through the spiro union installation on butt joint seat (702), rotate and to install photovoltaic power generation board (701) through the bearing on butt joint seat (702), and compress tightly fixedly through first regulation knob (703) between the bottom of photovoltaic power generation board (701) and rotation butt joint seat (702), photovoltaic power generation board (701) are through cable (29) and storage battery (14) electric connection.

8. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: bottom power generation facility (8) include through bolt and bottom flotation pontoon (15) fixed mounting's mounting bracket (801), and have second generator (805) through bolt fixed mounting on mounting bracket (801), the power input end and pivot (803) of second generator (805) are connected, and are connected through clockwork spring (802) between pivot (803) and mounting bracket (801), fixed mounting has bottom to receive a line section of thick bamboo (804) in pivot (803), and bottom to receive a line section of thick bamboo (804) and be used for connecting and rolling electricity generation pull wire (3), second generator (805) are through cable (29) electric connection storage battery (14).

9. A portable water surface power generation device with an easily changeable installation position as defined in claim 1, wherein: the controller (35) is a stm32 series single chip microcomputer, and a transformer and a rectifier are integrated at the current input end of the storage battery pack (14).

10. A portable surface power generation apparatus with easy installation position change as claimed in claim 1, wherein: the front end and the rear end of the top buoy (1) and the bottom buoy (15) are both streamlined, the water flow resistance can be reduced, and a push handle (11) is fixedly mounted on the matching connecting seat (603) through a bolt.