CN104481796A - Linkage turnover lifting power conversion power generation device - Google Patents
Linkage turnover lifting power conversion power generation device Download PDFInfo
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- CN104481796A CN104481796A CN201410663087.0A CN201410663087A CN104481796A CN 104481796 A CN104481796 A CN 104481796A CN 201410663087 A CN201410663087 A CN 201410663087A CN 104481796 A CN104481796 A CN 104481796A
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- magnetic suspension
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- invertor
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F03—MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
- F03B—MACHINES OR ENGINES FOR LIQUIDS
- F03B17/00—Other machines or engines
- F03B17/02—Other machines or engines using hydrostatic thrust
- F03B17/025—Other machines or engines using hydrostatic thrust and reciprocating motion
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K7/00—Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
- H02K7/18—Structural association of electric generators with mechanical driving motors, e.g. with turbines
- H02K7/1807—Rotary generators
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/20—Hydro energy
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
Abstract
The invention discloses a linkage turnover lifting power conversion power generation device which comprises a buoyancy tank, an annular turner, a power input system, a gear, a sliding tooth plate, rails, a magnetic suspension lifter, a speed change flywheel, a spindle and a power generation system. The annular turner is arranged in the buoyancy tank and positioned and suspended on the rails, the sliding tooth plate arranged on the rails is meshed with a gear ring on a central shaft on the side face of the turner, the fixed gear is arranged at the tail end of the tooth plate, the power input system on the buoyancy tank is connected with the gear to rotate the turner, the dynamic magnetic suspension lifter is arranged in the annular turner, and the turner rotates on the rails in a reciprocating manner and synchronously drives the magnetic suspension lifter to act in a vertical state. The power generation device is efficient and environmentally friendly and saves energy, and the power input system includes a speed change motor drive mode and a lever-type dynamic counterweight drive mode.
Description
Technical field
A kind of structure of specific design of the present invention is simple, stable, can make full use of buoyancy potential energy reaches efficiency power generation device by mechanical switch.
Background technique
The current energy is the most basic driving force of All Around The World development, is the basis that the mankind depend on for existence.Energy crisis, the survival and development that threaten the mankind that the problems such as pollution are serious, all adverse consequencess brought are the fermentation of each corner in the world.Development that the energy of current solar energy, wind energy, firepower, water conservancy, nuclear energy, tidal energy is the mankind provides and ensures; but the problems such as investment is large, energy conversion efficiency is low and operating cost is high, pollution that this kind of energy has; in this case; how research improves the utilization ratio of the energy, solves energy crisis and carves just very urgent.The convertible power-converting electricity generating device of a kind of interlock of research and development is used for generating, and its advantage will be apparent, produces important meaning by green energy resource development.
Summary of the invention
Structure of the present invention is simple, easy and simple to handle, make full use of permanent magnetic suspension technology and liquid buoyancy potential energy, by magnetic suspension lifting device being driven to produce larger Power output to the less energy of reasonable counterweight input of annular invertor, be used for generating by mechanical switch.
The present invention is achieved in that the convertible power-converting electricity generating device of a kind of interlock, it is characterized in that: comprise buoyancy pool, annular invertor, power input device, gear, slip tooth plate, track, magnetic suspension lifting device, gear shift flywheel, main shaft and power generation system, annular invertor positioning suspended is in orbit set in described buoyancy pool, the slip tooth plate that track is arranged engages with the gear ring on annular invertor center side axle, the end of slip tooth plate and gears meshing, this gear is in transmission connection by the power input device on driving mechanism and buoyancy pool; In described annular invertor, by magnetic suspension structure, magnetic suspension lifting device is installed; The two ends of described magnetic suspension lifting device are provided with push rod, the top of push rod is through the lock pin be arranged on annular invertor framework, push rod be equipped with magnetic suspension tooth plate and engage with gear shift flywheel, magnetic suspension tooth plate is arranged in guide groove, and gear shift flywheel is arranged on a main shaft; The combination of above-mentioned annular invertor, magnetic suspension lifting device, push rod, magnetic suspension tooth bar and gear shift flywheel is set up in parallel many groups, forms the common drive main spindle of linking type crisscross motion and rotates, this main shaft is equipped with power generation system.
Track in described buoyancy pool is that twice walk abreast, and arranges location case in orbit, in the casing of location case, upper and lowerly arranges magnet; Described annular invertor is annular frame composite structure, arranges horizontal axis in the bi-side of annular invertor, and install gear ring and bearing box on the horizontal axis, the above and below of described rectangular bearing box arranges magnet, and side is provided with positioning wheel; Annular invertor horizontal axis is placed in bearing box, and bearing box crouches in the case of location; Be provided with chute below in the location case of track, described slip tooth plate is provided with guide wheel and is located in chute.
Described magnetic suspension lifting device is by the cylinder-like structure injecting the cell cube of helium and form, and two ends are bullet-shaped, cell cube be provided with fill, air escape cock; Magnetic suspension structure between described magnetic suspension lifting device and annular invertor comprises: be arranged on bar magnet outstanding on magnetic suspension lifting device and roller, corresponding with the magnet in the slide rail of groove type supporting in annular invertor, bar magnet and magnet magnetic are repelled each other, and magnetic suspension lifting device are suspended spacing in annular invertor.
Described spindle bearing adopts magnetic bearing structure, comprises shell, outer ring magnet, interior ring magnet and two ends ring magnet; Shell is the closed package assembly of semicircle, and in the annular Mi Pu in shell on the outer ring magnet of annular Mi Pu and described main shaft, ring magnet is symmetrical, and two ends ring magnet is located in shell two ends.
Described power input device is lever actuated equipment or motor, this lever actuated equipment comprises: lever and the magnetic suspension coaster be slidably mounted on lever, lever adopts the vibrational power flow of frame type to be arc line shaped or lineal shape, lever is provided with the track slided for magnetic suspension coaster, in lever, be provided with sebific duct, and inject partially liq; Connect counterweight tooth plate in one end of lever, counterweight tooth plate adopts magnetic suspension structure spacing in fixing chute, and counterweight tooth plate engages with speed change gear, and speed change gear is rotated by driving mechanism driven gear, and lever or magnetic suspension coaster are equipped with drive unit; This motor is rotated by driving mechanism driven gear.
Described magnetic suspension coaster adopts framework to add the structure of balance weight body, and balance weight body is solid; Described drive unit is driving plate, electromagnetic wand drive unit or motor drive unit, connects this driving plate in the one or both ends of described lever; Electromagnetic wand drive unit by the top be connected in magnetic suspension coaster with electromagnetic wand is installed between lever and corresponding magnetic stripe forms; This motor drive unit adopts motor by the structure of gear driving rack, and tooth bar is fixed on lever, and motor is arranged on magnetic suspension coaster.
Between described magnetic suspension tooth plate and guide groove, all adopt magnetic suspension structure between counterweight tooth plate and fixing chute and between magnetic suspension coaster and lever, the array magnet repelled each other by the magnetic of establishing respectively between the two sections and positioning roller are formed.
Many groups gear shift flywheel on same axis adopts shaft joint to be in turn connected into and is integrated main shaft, and form power-converting power generation system by variable-speed motor, counterweight wheel disc, generator, spindle bearing adopts magnetic suspension bearing supports main shaft.
Adopt Anti-surging plate to cut off forming unit trellis respectively many groups that axis same in described buoyancy pool connects annular invertors overall, this pattern is set up in parallel many groups and is formed netted; Gear grouping is connected into one or more main shaft, often organizes main shaft and one group of power input device is set; The magnetic suspension lifting device arranged in described annular invertor is staggered acting in same track, respectively the gear shift flywheel above buoyancy pool is axially connected main shaft, adopts one group of power source to drive and organizes power generation system more, composition linking type power combination power generation system.
Described gear shift flywheel comprises external toothing, ratchet, ring gear, intermediate gear and central gear, and external toothing and ring gear arrange ball grooves respectively, and the inner peripheral surface of external toothing is provided with several ratchet, meshing with the ratchet of ring gear periphery; The teeth being located at ring gear inner peripheral surface are engaged with intermediate gear, and it is mutually meshing that multiple intermediate gear encircles central gear, adopt two pieces of baffle plates by fixing to described external toothing, ring gear, intermediate gear and central gear assembling.
Advantage of the present invention is: structure is simple, easy and simple to handle, make full use of permanent magnetic suspension technology and liquid buoyancy potential energy, by magnetic suspension lifting device being driven to produce larger Power output to the less energy of reasonable counterweight input of annular invertor, realize the conversion of form of energy, be used for generating by mechanical switch.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of one embodiment of the invention (lever actuated);
Fig. 2 is the overall structure schematic diagram of another embodiment of the present invention (motor driving);
Fig. 3 is annular invertor of the present invention and rail combined structure schematic diagram (the A-A sectional view of Fig. 1 and Fig. 2);
Fig. 4 is the B-B sectional view of Fig. 3;
Fig. 5 is the composition schematic diagram of main shaft of the present invention and power generation system;
Fig. 6 is linking type combined dynamic system schematic diagram of the present invention;
Fig. 7 is slide teeth board mounting structure schematic diagram of the present invention;
Fig. 8 is the E-E sectional view of Fig. 7;
Fig. 9 is magnetic suspension tooth plate chute composite structure schematic diagram of the present invention;
Figure 10 is the F-F sectional view of Fig. 9;
Figure 11 is the structural representation (in Fig. 1 C-C sectional view) of one of magnetic suspension coaster of the present invention;
Figure 12 is the structural representation (in Fig. 1 C-C sectional view) of magnetic suspension coaster two of the present invention;
Figure 13 is magnetic suspension bearing bearing cross-sectional schematic (cutting plane is vertical with main shaft) of the present invention;
Figure 14 is the D-D sectional view of Figure 13;
Figure 15 is the internal structure schematic diagram of gear shift flywheel of the present invention.
Mark in figure: 1-buoyancy pool, 2-track, 3-annular invertor, 4-magnetic suspension lifting device, 5-horizontal axis, 6-bearing box, 7-gear ring, 8-slip tooth plate, 9-chute, 10-gear, 11-chain (or axostylus axostyle), 12-power chain, 13-magnetic suspension tooth plate, 14-gear shift flywheel, 15-push rod, 16-lock pin, 17-slide rail, 18-bar magnet, 19-magnet, 20-magnet, 21-positioning wheel, 22-location case, 23-driving plate, 24-guide groove, 25-variable-speed motor, 26-wheel disc, 27-generator, 28-coupling, 29-magnetic suspension bearing, 30-operation bench, 31-guide wheel, 32-positioning wheel, 33-magnet, 34-magnet, 35-balance weight body, 36-electromagnetic wand, 37-motor, 38-speed change gear, 39-counterweight tooth plate, 40-lever, 41-magnetic suspension coaster, 42-sebific duct.
Embodiment
As shown in Fig. 1-Figure 15, the convertible power-converting electricity generating device of the present invention's one interlock, comprise buoyancy pool 1, annular invertor 3, power input device, gear 10, slip tooth plate 8, track 2, magnetic suspension lifting device 4, gear shift flywheel 14, main shaft 50 and power generation system, annular invertor 3 positioning suspended on track 2 is set in described buoyancy pool 1, the slip tooth plate 8 that track 2 is arranged engages with the gear ring 7 on annular invertor 3 center side axle 5, the end of slip tooth plate 8 engages with gear 10, this gear 10 is in transmission connection by the power input device on driving mechanism and buoyancy pool 1, by magnetic suspension structure, magnetic suspension lifting device 4 is installed in described annular invertor 3, the two ends of described magnetic suspension lifting device 4 are provided with push rod 15, the top of push rod 15 is through the lock pin 16 be arranged on annular invertor 3 framework, push rod 15 be equipped with magnetic suspension tooth plate 13 and engage with gear shift flywheel 14, magnetic suspension tooth plate 13 is arranged in guide groove 24, and gear shift flywheel 14 is arranged on a main shaft 50, the combination of above-mentioned annular invertor 3, magnetic suspension lifting device 4, push rod 15, magnetic suspension tooth bar 13 and gear shift flywheel 14 is set up in parallel many groups, forms the common drive main spindle 50 of linking type crisscross motion and rotates, this main shaft 50 is equipped with power generation system.
Described track 2 for twice walk abreast, track 2 arranges location case 22, on in the casing of location case, under magnet 20 is set, described annular invertor 3 is bicyclic framework composite structure, in the bi-side of annular invertor, horizontal axis 5 is set, gear ring 7 and bearing box 6 are installed on axle simultaneously, described rectangular bearing box upper, magnet 19 is set below, side is provided with positioning wheel 21, when annular invertor being placed in track, bearing box 6 crouches in the case 22 of location, namely the spacing state that suspends is formed, arrange slip tooth plate to be engaged with gear ring simultaneously, by chute 9 that track is arranged, slip tooth plate 8 is infinitely extended to the end of same track, described slip tooth plate 8 is provided with guide wheel 31 and is placed in chute 9 for sliding stability and reduction friction, magnetic suspension lifting device 4 is provided with in described annular invertor 3, its entirety is made to be in state of equilibrium in liquid by the reasonable counterweight of irregular installation metal plates on the framework to annular rolling device 3, applying very little power to it can make annular invertor 3 rotational synchronization on track 2 drive magnetic suspension lifting device 4 to redirect to plumbness acting.Described magnetic suspension lifting device 4 is by the cylinder-like structure injecting the cell cube of helium and form, and two ends are bullet-shaped, cell cube be provided with fill, air escape cock, magnetic suspension lifting device 4 also can be set to multiple difformity as required.In magnetic suspension lifting device 4, be full of helium is to strengthen buoyancy in a liquid and going out the Driving force of liquid side to tooth plate, and the length that liquid level does not comprise push rod 15 gone out by the magnetic suspension lifting device 4 of indication.
Described magnetic suspension lifting device 4 is arranged slide rail 17 magnet supporting in outstanding sealing bar magnet 18 and roller and annular invertor 3 symmetrical, magnet can arrange multiple combination mode, magnetic suspension lifting device 4 is suspended spacing in annular invertor 3, noise and surface friction drag can be reduced during lifting, also the method for complete wheeled slip can be adopted as required, described magnetic suspension lifting device 4 center arranges vertical push rod 15, arranges when lock pin 16 rotates for magnetic suspension invertor 4 simultaneously and controls its conversion lifting.Described slip tooth plate 8 end arranges gear 10, the gear 12(Fig. 2 being arranged on buoyancy pool 1 and being driven by speed-variable motor 121 is connected above) by chain 11 annular, gear 12 drives annular invertor 3 original place in slip tooth plate 8 parallel push-and-pull buoyancy pool 1 to rotate by chain 11, also can, by slip tooth plate 8 synchronous lengthening, annular invertor 3 be made to drive magnetic suspension lifting device to redirect to plumbness acting forward or backward continuously.Described invertor can arrange many groups on the same axis and do work simultaneously.
Needs according to power arrange power input device on buoyancy pool 1, one of this power input device is lever actuated equipment (see Fig. 1), the magnetic suspension coaster 41 comprising lever 40 and be slidably mounted on lever 40, lever 40 adopts the vibrational power flow of frame type to be arc line shaped or lineal shape, lever 40 is arranged track to slide for magnetic suspension coaster 41, in lever 40, be provided with sebific duct 42, and inject a semiliquid; Connecting counterweight tooth plate 39 in one end of lever 40 adopts magnetic suspension structure spacing in fixing chute 391, and counterweight tooth plate 39 drives speed change gear 38 to rotate, and speed change gear 38 is rotated by driving mechanism driven gear 10.
Above-mentioned lever actuated equipment operationally needs drive unit driving lever 40 two ends to swing up and down.One of described drive unit is driving plate 23, connects a driving plate 23 in the one or both ends of described lever 40, extraneous power (waste water as current or plant emissions) can be utilized to impact driving plate 23, drive lever 40 two ends to swing up and down acting.Or utilize wind-driven generator to drive the to-and-fro motion of magnetic suspension coaster 41, drive lever 40 two ends to swing up and down acting.
Two of drive unit is that electromagnetic wand drive unit electromagnetic wand drive unit is made up of with electromagnetic wand between lever 36 and corresponding magnetic stripe 361 top be connected in magnetic suspension coaster 41.
Three of drive unit is motor drive unit, and adopt motor 37 to be driven the structure of tooth bar 371 by gear 372, tooth bar 371 is fixed on lever 40, and motor 37 is arranged on magnetic suspension coaster 41.
Described magnetic suspension coaster 41 adopts framework to add the structure of balance weight body 35, and balance weight body 35 is solid.
In sum, liquid is injected in buoyancy pool 1, time above magnetic suspension lifting device 4 is in annular invertor 3, push rod 15 is locked, and contact with the driving tooth plate 13 of gear shift flywheel 14 above buoyancy pool 1, by invertor rotate on track 2 make magnetic suspension lifting device 4 be placed in the below of annular invertor 3 time, tooth plate 13 automatically falls and is back to initial position.Lock pin 16 is opened automatically, by the push rod 15 of liquid buoyancy potential energy magnetic suspension lifting device 4 upwardly tooth plate 13 drive gear shift flywheel 14 to rotate.Described tooth plate 13 suspends and is positioned in chute 24 and is provided with damping device, is reducing friction resistance and noise.After magnetic suspension lifting device 4 fault offset, lock pin 16 is closed automatically, with above-mentioned method, when annular invertor 3 drives magnetic suspension lifting device 4 to carry out the rotation of 180 degree, make push rod 15 vertically continue to promote tooth plate 13 to do work, this kind of operating mode is that namely circulation reciprocating type motion forms lasting outputting power.
As shown in Figure 5, shaft joint 28 is adopted by many groups gear shift flywheel 14 on same axis to be in turn connected into one main shaft 50, form power-converting power generation system by variable-speed motor 25, counterweight wheel disc 26, generator 27, spindle bearing 29 adopts magnetic bearing structure to be used for adjust system balance.
As shown in Figure 6, be linking type power combination power generation system, namely one group of power source drives and organizes electricity generating device more.Adopted by many groups invertor 3 that axis same in buoyancy pool 1 connects Anti-surging plate to cut off forming unit trellis respectively overall, this pattern is set up in parallel many groups and is formed netted.Gear ring 7 on the horizontal axis of annular invertor 3 both sides is engaged on same slip tooth plate 8 respectively, slip tooth plate 8 end engages with gear 10, need grouping to connect into one or more input shaft according to power gear 10 simultaneously, often organize input shaft and one group of power input device is set, namely form the pattern that each group power drives the annular invertor 3 of many groups to rotate.The magnetic suspension lifting device 4 arranged in described annular invertor 3 can interlock acting in same track 2, respectively the gear shift flywheel above buoyancy pool 1 is longitudinally connected to form many groups of (Power output) main shafts 50, at main the tip of the axis, variable-speed motor 25, wheel disc 26 and generator 27 are installed, are formed and organize electricity generating device more.
Between described magnetic suspension tooth plate 13 and guide groove 24, all adopt magnetic suspension structure between counterweight tooth plate 39 and fixing chute 391 and between magnetic suspension coaster 41 and lever 40, the array magnet 242 repelled each other by the magnetic of establishing respectively between the two sections and positioning roller 241 and 243 are formed (see Figure 10).
Many groups gear shift flywheel 14 on same axis adopts shaft joint 28 to be in turn connected into and is integrated main shaft, and form power-converting power generation system by variable-speed motor 25, counterweight wheel disc 26, generator 27, spindle bearing 29 adopts magnetic suspension bearing supports main shaft.
Adopted by many groups that axis same in described buoyancy pool connects annular invertors 3 Anti-surging plate to cut off forming unit trellis respectively overall, this pattern is set up in parallel many groups and is formed netted; Gear 10 grouping is connected into one or more main shaft, often organizes main shaft and one group of power input device is set; The magnetic suspension lifting device 4 arranged in described annular invertor 3 is staggered acting in same track 2, respectively the gear shift flywheel 14 above buoyancy pool 1 is axially connected main shaft, adopt one group of power source to drive and organize power generation system more, composition linking type power combination power generation system.
As shown in Figure 13-Figure 14, spindle bearing 29 adopts magnetic bearing structure, comprises shell 291, main shaft 50, outer ring magnet 292, interior ring magnet 293 and two ends ring magnet 294.Shell 291 is the closed package assembly of semicircle, and in shell, the outer ring magnet 292 of annular Mi Pu is symmetrical with ring magnet 293 in the annular Mi Pu on main shaft, and two ends ring magnet 294 is located in shell 291 two ends, forms axostylus axostyle and suspends.
See Figure 15, described gear shift flywheel 14 comprises external toothing 141, ratchet 145, ring gear 142, intermediate gear 143 and central gear 144, external toothing 141 and ring gear 142 arrange ball grooves respectively, the inner peripheral surface of external toothing 141 is provided with several ratchet 145, meshing with the ratchet 145 of ring gear 142 periphery; The teeth being located at ring gear 142 inner peripheral surface are engaged with intermediate gear 144, and it is mutually meshing that multiple intermediate gear 143 encircles central gear 144, adopt two pieces of baffle plates by fixing for described external toothing 141, ring gear 142, intermediate gear 143 and central gear 144 assembling.
In sum, because the working procedure that is staggered of annular invertor 3 is to set, pressing enable switch can bring into operation, and overall operation is by operation bench 30 intelligentized control method.
Power input device of the present invention can utilize the natural energy (as streams, tide, wind energy drive.
Claims (10)
1. the convertible power-converting electricity generating device of interlock, it is characterized in that: comprise buoyancy pool, annular invertor, power input device, gear, slip tooth plate, track, magnetic suspension lifting device, gear shift flywheel, main shaft and power generation system, annular invertor positioning suspended is in orbit set in described buoyancy pool, the slip tooth plate that track is arranged engages with the gear ring on annular invertor center side axle, the end of slip tooth plate and gears meshing, this gear is in transmission connection by the power input device on driving mechanism and buoyancy pool; In described annular invertor, by magnetic suspension structure, magnetic suspension lifting device is installed; The two ends of described magnetic suspension lifting device are provided with push rod, the top of push rod is through the lock pin be arranged on annular invertor framework, push rod be equipped with magnetic suspension tooth plate and engage with gear shift flywheel, magnetic suspension tooth plate is arranged in guide groove, and gear shift flywheel is arranged on a main shaft; The combination of above-mentioned annular invertor, magnetic suspension lifting device, push rod, magnetic suspension tooth bar and gear shift flywheel is set up in parallel many groups, forms the common drive main spindle of linking type crisscross motion and rotates, this main shaft is equipped with power generation system.
2. the convertible power-converting electricity generating device of interlock according to claim 1, is characterized in that: the track in described buoyancy pool is that twice walk abreast, and arranges location case in orbit, in the casing of location case, upper and lowerly arranges magnet; Described annular invertor is annular frame composite structure, arranges horizontal axis in the bi-side of annular invertor, and install gear ring and bearing box on the horizontal axis, the above and below of described rectangular bearing box arranges magnet, and side is provided with positioning wheel; Annular invertor horizontal axis is placed in bearing box, and bearing box crouches in the case of location; Be provided with chute below in the location case of track, described slip tooth plate is provided with guide wheel and is located in chute.
3. the convertible power-converting electricity generating device of interlock according to claim 1, is characterized in that: described magnetic suspension lifting device is by the cylinder-like structure injecting the cell cube of helium and form, and two ends are bullet-shaped, cell cube be provided with fill, air escape cock; Magnetic suspension structure between described magnetic suspension lifting device and annular invertor comprises: be arranged on bar magnet outstanding on magnetic suspension lifting device and roller, corresponding with the magnet in the slide rail of groove type supporting in annular invertor, bar magnet and magnet magnetic are repelled each other, and magnetic suspension lifting device are suspended spacing in annular invertor.
4. the convertible power-converting electricity generating device of interlock according to claim 1, is characterized in that: described
Spindle bearing adopts magnetic bearing structure, comprises shell, outer ring magnet, interior ring magnet and two ends ring magnet; Shell is the closed package assembly of semicircle, and in the annular Mi Pu in shell on the outer ring magnet of annular Mi Pu and described main shaft, ring magnet is symmetrical, and two ends ring magnet is located in shell two ends.
5. the convertible power-converting electricity generating device of interlock according to claim 1, it is characterized in that: described power input device is lever actuated equipment or motor, this lever actuated equipment comprises: lever and the magnetic suspension coaster be slidably mounted on lever, lever adopts the vibrational power flow of frame type to be arc line shaped or lineal shape, lever is provided with the track slided for magnetic suspension coaster, in lever, be provided with sebific duct, and inject partially liq; Connect counterweight tooth plate in one end of lever, counterweight tooth plate adopts magnetic suspension structure spacing in fixing chute, and counterweight tooth plate engages with speed change gear, and speed change gear is rotated by driving mechanism driven gear, and lever or magnetic suspension coaster are equipped with drive unit; This motor is rotated by driving mechanism driven gear.
6. the convertible power-converting electricity generating device of interlock according to claim 5, is characterized in that: described magnetic suspension coaster adopts framework to add the structure of balance weight body, and balance weight body is solid; Described drive unit is driving plate, electromagnetic wand drive unit or motor drive unit, connects this driving plate in the one or both ends of described lever; Electromagnetic wand drive unit by the top be connected in magnetic suspension coaster with electromagnetic wand is installed between lever and corresponding magnetic stripe forms; This motor drive unit adopts motor by the structure of gear driving rack, and tooth bar is fixed on lever, and motor is arranged on magnetic suspension coaster.
7. the convertible power-converting electricity generating device of interlock according to claim 6, it is characterized in that: between described magnetic suspension tooth plate and guide groove, all adopt magnetic suspension structure between counterweight tooth plate and fixing chute and between magnetic suspension coaster and lever, the array magnet repelled each other by the magnetic of establishing respectively between the two sections and positioning roller are formed.
8. the convertible power-converting electricity generating device of interlock according to claim 1, it is characterized in that: the many groups gear shift flywheel on same axis adopts shaft joint to be in turn connected into and is integrated main shaft, form power-converting power generation system by variable-speed motor, counterweight wheel disc, generator, spindle bearing adopts magnetic suspension bearing supports main shaft.
9. the convertible power-converting electricity generating device of interlock according to claim 1, it is characterized in that: adopt Anti-surging plate to cut off forming unit trellis respectively many groups that axis same in described buoyancy pool connects annular invertors overall, this pattern is set up in parallel many groups and is formed netted; Gear grouping is connected into one or more main shaft, often organizes main shaft and one group of power input device is set; The magnetic suspension lifting device arranged in described annular invertor is staggered acting in same track, respectively the gear shift flywheel above buoyancy pool is axially connected main shaft, adopts one group of power source to drive and organizes power generation system more, composition linking type power combination power generation system.
10. the convertible power-converting electricity generating device of interlock according to claim 1, it is characterized in that: described gear shift flywheel comprises external toothing, ratchet, ring gear, intermediate gear and central gear, external toothing and ring gear arrange ball grooves respectively, the inner peripheral surface of external toothing is provided with several ratchet, meshing with the ratchet of ring gear periphery; The teeth being located at ring gear inner peripheral surface are engaged with intermediate gear, and it is mutually meshing that multiple intermediate gear encircles central gear, adopt two pieces of baffle plates by fixing to described external toothing, ring gear, intermediate gear and central gear assembling.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201410663087.0A CN104481796B (en) | 2014-11-20 | 2014-11-20 | A kind of linkage turning lifting formula power power generating device by conversion |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201410663087.0A CN104481796B (en) | 2014-11-20 | 2014-11-20 | A kind of linkage turning lifting formula power power generating device by conversion |
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| CN104481796A true CN104481796A (en) | 2015-04-01 |
| CN104481796B CN104481796B (en) | 2016-09-14 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111903590A (en) * | 2020-09-14 | 2020-11-10 | 河海大学 | Magnetic suspension bait casting device for reducing bait pollution and using method thereof |
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| CN201292910Y (en) * | 2008-10-07 | 2009-08-19 | 郭志 | Impact magnetic suspension generating set |
| US20110304146A1 (en) * | 2010-06-10 | 2011-12-15 | Surval, Corp. | Conductor apparatus having optimized magnetic resistance with respect to at least one magnetic element moving in proximity thereto |
| JP2013217284A (en) * | 2012-04-09 | 2013-10-24 | Hitachi Zosen Corp | Floating body for gyroscope type wave-activated power generation apparatus |
| CN203756447U (en) * | 2013-12-26 | 2014-08-06 | 强连生 | Magnetic suspension box type power conversion device |
| CN103731068A (en) * | 2014-01-27 | 2014-04-16 | 合肥工业大学 | Suspension energy storage flywheel device with conductivity electromagnetic compounding |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111903590A (en) * | 2020-09-14 | 2020-11-10 | 河海大学 | Magnetic suspension bait casting device for reducing bait pollution and using method thereof |
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| CN104481796B (en) | 2016-09-14 |
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