New forms of energy electric power economizer
Technical Field
The invention relates to electric energy conservation, in particular to a new energy electric energy conservation device.
Background
In order to realize power saving, power generation by using new energy has become a main mode for saving power and is the most efficient mode, and in order to better realize power generation by using new energy, a new energy power saving device is designed to solve the problem.
Disclosure of Invention
The invention mainly solves the technical problem of providing a new energy power energy-saving device, which has two power generation modes of wind power generation and tidal power generation and multiple power generation methods, fully utilizes the new energy to generate power and realizes the purpose of saving power, has multiple adjustment functions and is more convenient to use, and has a moving function to facilitate short-distance displacement of the device.
In order to solve the technical problems, the invention relates to a new energy electric energy saving device, which comprises a wind power generation mechanism, a tidal power generation mechanism I, a tidal power generation mechanism II, a bottom fixing mechanism and a folding moving mechanism.
The wind power generation mechanism comprises a wind power generation shell, a fan fixing frame, fan blades, a fan shaft, a first gear, a cross rod, a gear chain, a second gear, a first generator, a first storage battery and a rotary positioning assembly, wherein the wind power generation shell is fixedly connected with the fan fixing frame;
the fan shaft is provided with a movable through hole;
the rotary positioning assembly comprises an arc-shaped clamping piece, a fixed short shaft, a short column and a connecting elastic piece, the short column is fixedly connected with the wind power generation shell, the short column is fixedly connected with the connecting elastic piece, the connecting elastic piece is fixedly connected with one end of the arc-shaped clamping piece, the other end of the arc-shaped clamping piece is movably connected with the fixed short shaft through a through hole, and the fixed short shaft is fixedly connected with the wind power generation shell;
the first tidal power generation mechanism comprises a first mechanism shell and a buffer structure, wherein the first mechanism shell is connected with the buffer structure through a buffer groove, and the wind power generation shell is movably connected with the first mechanism shell through a stepped groove;
a shell of the first mechanism is provided with a stepped groove, an N magnet, an S magnet, a buffering groove and sawtooth groove grains, wherein the sawtooth groove grains are matched with the rotary positioning assembly, and the N magnet and the S magnet are symmetrical in position;
the buffer structure comprises a reset spring, a push plate, a magnetic induction linear cutting piece, an auxiliary wheel, a clamping ring, a long rod and a strike plate, wherein the reset spring is fixedly connected with the push plate;
the tidal power generation mechanism II comprises a mechanism II shell, a storage battery II, a power generation structure, a tensioning structure and a shifting wheel structure, wherein the mechanism II shell is fixedly connected with the storage battery II through a storage battery groove;
the mechanism housing comprises a housing main body, a filtering grid and a buffering leg, wherein the housing main body is fixedly connected with the filtering grid and the buffering leg;
the shell main body is provided with a storage battery groove, a motor groove, a tensioning rail and a thumb wheel rail;
the power generation structure comprises a generator II, a helical gear I, a helical gear II, a gear shaft I, a driving gear, a gear III, a gear shaft II and a connecting gear chain, wherein the generator II is fixedly connected with the helical gear I, the helical gear I is meshed with the helical gear II, the helical gear II is movably connected with the gear shaft I, the gear shaft I is fixedly connected with a mechanism II shell, the mechanism II shell is fixedly connected with the gear shaft II, the helical gear II is connected with a gear tee through the connecting gear chain, the gear III is fixedly connected with the driving gear, the driving gear is movably connected with the gear shaft II, and the generator II is connected with a storage battery II through;
the tensioning structure comprises a tensioning wheel, T-shaped connecting pieces, connecting rods, a sliding piece, a track rod, a small gear, U-shaped fixed shafts, limiting rings and adjusting gears, wherein the tensioning wheel is movably connected with the T-shaped connecting pieces, the T-shaped connecting pieces are hinged with the connecting rods, the connecting rods are hinged with the sliding piece, the sliding piece is connected with the track rod through smooth through holes, the track rod is fixedly connected with the small gear through a through hole, the small gear is meshed with the adjusting gears, the adjusting gears are movably connected with the U-shaped fixed shafts through the through holes, the U-shaped fixed shafts are fixedly connected with the limiting rings through the through holes, the number of the limiting rings is two, the two limiting rings are respectively positioned on two sides of each adjusting gear, the U-shaped;
a smooth through hole is arranged on the sliding piece;
the shifting wheel structure comprises a shifting wheel sheet, a linkage pinion, a central shaft and a linkage gear, wherein the shifting wheel sheet is fixedly connected with the linkage pinion, the central shaft is fixedly connected with a housing of the mechanism, the central shaft is movably connected with the shifting wheel sheet through a through hole, the linkage gear is connected with the linkage pinion, and the shifting wheel sheet is adaptive to the driving gear;
the bottom fixing mechanism comprises a bottom connecting structure, a device buffering structure and a device fixing structure, the bottom connecting structure is connected with the device buffering structure through a special-shaped through hole, and the bottom connecting structure is fixedly connected with the device fixing structure;
the bottom connecting structure comprises a threaded rod, a limiting part, a grid part and a U-shaped base, the threaded rod is fixedly connected with the limiting part through a through hole, the limiting part is connected with the U-shaped base through a limiting stepped groove, and the grid part is fixedly connected with the threaded rod;
a limiting stepped groove, a special-shaped through hole and a strip-shaped track groove are formed in the U-shaped base, and the strip-shaped track groove is matched with the buffer leg;
the device buffer structure comprises an impact-resistant spring, a bidirectional threaded rod, an adjusting slider, an adjusting gear, a manual adjusting gear and a cylindrical shaft, wherein the impact-resistant spring is fixedly connected with the adjusting slider, the adjusting slider is meshed with the bidirectional threaded rod, the bidirectional threaded rod is fixedly connected with a through hole of the adjusting gear, the adjusting gear is meshed with the manual adjusting gear, the manual adjusting gear is movably connected with the cylindrical shaft through the through hole, the cylindrical shaft is fixedly connected with the U-shaped base through a groove, and the impact-resistant spring is fixedly connected with the buffer leg;
the device fixing structure comprises a connecting hinge piece, a first connecting column, a spherical piece, a lifting threaded rod, a limiting ring for lifting, a conical tube, a connecting stopper and a fixing cone, wherein the connecting hinge piece is hinged with the first connecting column;
a spherical groove and a three-stage stepped hole are formed in the connecting column I;
the spherical piece is provided with a threaded through hole, and the spherical piece is meshed with the threaded rod through the threaded through hole;
the connecting stopper is provided with a threaded hole;
the folding moving mechanism comprises an adjustable wheel, a buffer wheel structure and a direction adjusting structure, wherein the adjustable wheel is connected with the buffer wheel structure, and the buffer wheel structure is connected with the direction adjusting structure;
the adjustable wheel comprises a moving wheel, a roller shaft, a roller fixing column, a long threaded rod and a small limiting ring, the moving wheel is movably connected with the roller fixing column through the roller shaft, the roller fixing column is connected with the small limiting ring through a limiting hole, and the long threaded rod is fixedly connected with the small limiting ring through a through hole;
a limiting hole is formed in the roller fixing column;
the buffer wheel structure comprises a tube body, a supporting spring, a clamping slide block, a telescopic column and a connecting shaft, wherein the tube body is matched with the supporting spring through a movable stepped hole, the tube body is connected with a roller fixing column through the movable stepped hole, the tube body is meshed with a long threaded rod through a threaded through hole, the supporting spring is fixedly connected with the clamping slide block, the clamping slide block is fixedly connected with the telescopic column, the telescopic column is connected with the connecting shaft through a first shaft through hole, and the clamping slide block is movably connected with the tube body through the movable stepped hole;
the pipe body is provided with a threaded through hole and a movable stepped hole;
the telescopic column is provided with a cylindrical through hole, a circular groove and a first shaft through hole;
the direction adjusting structure comprises a connecting and fixing part, a small spring, a positioning protrusion part, a handle and a stable threaded rod, the connecting and fixing part is fixedly connected with the small spring through a movable groove, the small spring is fixedly connected with the positioning protrusion part, the positioning protrusion part is fixedly connected with the handle, the stable threaded rod is meshed with the connecting and fixing part through a positioning threaded hole, the stable threaded rod is matched with the cylindrical through hole, the positioning protrusion part is matched with the circular groove, and the connecting and fixing part is fixedly connected with the U-shaped base;
the connecting and fixing piece is provided with a movable groove, a position adjusting threaded hole and a second shaft through hole, and the connecting shaft is movably connected with the connecting and fixing piece through the second shaft through hole;
the wind power generation mechanism is connected with the first tidal power generation mechanism, the second tidal power generation mechanism is connected with the bottom fixing mechanism, and the folding moving mechanism is connected with the bottom fixing mechanism.
As a further optimization of the technical scheme, the long rod of the new energy electric energy saving device is positioned in the middle of the top end of the impact plate.
As further optimization of the technical scheme, the number of the dial wheel sheets, the linkage pinion and the central shaft of the new energy electric energy saving device is two, and the positions of the dial wheel sheets, the linkage pinion and the central shaft are symmetrical.
As further optimization of the technical scheme, the new energy electric energy-saving device has two power generation structures and two tensioning structures which are symmetrical in position.
The new energy electric power energy-saving device has the beneficial effects that:
the new energy power energy-saving device has two power generation modes of wind power generation and tidal power generation, multiple power generation methods, multiple adjustment functions and more convenience in use, fully utilizes the new energy to generate power, and achieves the purpose of saving power.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of a new energy electric power energy-saving device according to the present invention.
Fig. 2 is a schematic structural diagram of a wind power generation mechanism 1 of the new energy electric energy saving device of the present invention.
Fig. 3 is a schematic view of a connection structure of fan shafts 1-4 and cross bars 1-6 of the new energy electric energy saving device of the present invention.
Fig. 4 is a schematic cross-sectional view of a-a in fig. 1.
Fig. 5 is a schematic structural diagram of the rotational positioning assemblies 1-11 of the new energy electric energy saving device of the present invention.
Fig. 6 is a schematic structural diagram of a tidal power generation mechanism I2 of the new energy electric energy saving device.
Fig. 7 is a schematic structural diagram of a housing 2-1 of a new energy electric energy saving device according to the present invention.
Fig. 8 is a schematic structural diagram of a buffer structure 2-2 of the new energy electric power energy-saving device of the present invention.
Fig. 9 is a schematic structural diagram of a second tidal power generation mechanism 3 of the new energy electric energy saving device.
Fig. 10 is a schematic structural diagram of a second mechanism housing 3-1 of the new energy electric energy saving device of the invention.
Fig. 11 is a schematic structural diagram of a power generation structure 3-3 of the new energy electric energy saving device of the present invention.
Fig. 12 is a schematic structural diagram of a tensioning structure 3-4 of the new energy electric energy saving device.
Fig. 13 is a schematic structural view of a thumb wheel structure 3-5 of the new energy electric power energy-saving device of the present invention.
Fig. 14 is a schematic structural diagram of the bottom fixing mechanism 4 of the new energy electric energy saving device of the present invention.
Fig. 15 is a schematic structural diagram of a bottom connection structure 4-1 of the new energy electric power energy-saving device of the present invention.
Fig. 16 is a schematic structural diagram of a device buffering structure 4-2 of the new energy electric energy saving device of the present invention.
Fig. 17 is a schematic structural view of a device fixing structure 4-3 of the new energy electric power energy-saving device of the present invention.
Fig. 18 is a schematic structural diagram of the folding moving mechanism 5 of the new energy electric energy saving device of the present invention.
Fig. 19 is a schematic structural diagram of an adjustable wheel 5-1 of the new energy electric power energy-saving device of the present invention.
Fig. 20 is a schematic structural view of a buffer wheel structure 5-2 of the new energy electric power energy-saving device of the present invention.
Fig. 21 is a schematic structural view of a direction adjustment structure 5-3 of the new energy electric power energy-saving device of the present invention.
Fig. 22 is a schematic structural diagram of a connecting and fixing member 5-3-1 of the new energy electric power energy-saving device of the invention.
In the figure: a wind power generation mechanism 1; 1-1 of a wind power generation shell; a fan fixing frame 1-2; 1-3 of fan blades; 1-4 of fan shaft; 1-4-1 of a movable through hole; 1-5 of a first gear; 1-6 of a cross bar; 1-7 of a gear chain; 1-8 parts of a second gear; 1-9 of a first generator; 1-10 parts of a first storage battery; rotating the positioning assembly 1-11; an arc-shaped clamping piece 1-11-1; a fixed short shaft 1-11-2; short columns 1-11-3; connecting elastic sheets 1-11-4; a tidal power generation mechanism I2; a housing 2-1 of the mechanism; 2-1-1 of a stepped groove; 2-1-2 parts of N magnet; 2-1-3 of S magnet; a buffer groove 2-1-4; sawtooth concave groove lines 2-1-5; a buffer structure 2-2; a return spring 2-2-1; 2-2-2 of a push plate; 2-2-3 of a magnetic induction wire cutting piece; 2-2-4 of auxiliary wheels; 2-2-5 of a clamping ring; 2-2-6 long rods; 2-2-7 of an impact plate; a second tidal power generation mechanism 3; a second mechanism shell 3-1; a housing main body 3-1-1; a storage battery cell 3-1-1-1; a motor groove 3-1-1-2; tensioning rails 3-1-1-3; a thumb wheel track 3-1-1-4; 3-1-2 parts of a filter grid; buffer legs 3-1-3; 3-2 parts of a second storage battery; 3-3 of a power generation structure; a second generator 3-3-1; 3-3-2 of a first bevel gear; 3-3-3 of a second bevel gear; a first gear shaft 3-3-4; driving gears 3-3-5; gear three 3-3-6; a second gear shaft 3-3-7; connecting a gear chain 3-3-8; 3-4 of a tensioning structure; 3-4-1 of a tension wheel; 3-4-2 of a T-shaped connecting piece; 3-4-3 of a connecting rod; slider 3-4-4; 3-4-4-1 of a smooth through hole; 3-4-5 of a track rod; pinion gears 3-4-6; 3-4-7 parts of a U-shaped fixed shaft; 3-4-8 parts of a limiting ring; adjusting gears 3-4-9; 3-5 of a thumb wheel structure; 3-5-1 of a poking wheel sheet; a linkage pinion 3-5-2; 3-5-3 of a central shaft; 3-5-4 parts of a linkage gear; a bottom fixing mechanism 4; a bottom connecting structure 4-1; a threaded rod 4-1-1; a limiting member 4-1-2; a barrier 4-1-3; a U-shaped base 4-1-4; a limiting step groove 4-1-4-1; 4-1-4-2 of a special-shaped through hole; 4-1-4-3 of a strip-shaped track groove; a device buffer structure 4-2; an impact resistant spring 4-2-1; a bidirectional threaded rod 4-2-2; 4-2-3 of an adjusting slide block; adjusting gears 4-2-4; manually adjusting gears 4-2-5; 4-2-6 of a cylindrical shaft; a device fixing structure 4-3; a connecting hinge 4-3-1; 4-3-2 of a connecting column I; a spherical groove 4-3-2-1; a third-stage stepped hole 4-3-2-2; ball 4-3-3; 4-3-3-1 of a threaded through hole; 4-3-4 parts of a lifting threaded rod; 4-3-5 parts of a limiting ring for lifting; 4-3-6 parts of a conical tube; connecting stoppers 4-3-7; 4-3-7-1 of a threaded hole; 4-3-8 parts of a fixed cone; a folding movement mechanism 5; an adjustable wheel 5-1; a moving wheel 5-1-1; 5-1-2 of roller shaft; 5-1-3 roller fixing columns; a limiting hole 5-1-3-1; 5-1-4 parts of long threaded rod; 5-1-5 parts of a small limiting ring; a buffer wheel structure 5-2; 5-2-1 of a pipe body; a threaded through hole 5-2-1-1; a movable stepped hole 5-2-1-2; a support spring 5-2-2; 5-2-3 parts of a clamping slide block; 5-2-4 of a telescopic column; 5-2-4-1 of a cylindrical through hole; circular groove 5-2-4-2; a first shaft through hole 5-2-4-3; connecting shafts 5-2-5; a direction adjustment structure 5-3; connecting a fixing piece 5-3-1; a movable groove 5-3-1-1; adjusting the position of the threaded hole 5-3-1-2; a second shaft through hole 5-3-1-3; a small spring 5-3-2; 5-3-3 of a positioning bulge piece; 5-3-4 of a handle; and 5-3-5 parts of a stable threaded rod.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, the invention relates to a new energy power saving device, and more specifically relates to a new energy power saving device, which comprises a wind power generation mechanism 1, a tidal power generation mechanism 2, a tidal power generation mechanism 3, a bottom fixing mechanism 4 and a folding moving mechanism 5.
The wind power generation mechanism 1 comprises a wind power generation shell 1-1, a fan fixing frame 1-2, fan blades 1-3, a fan shaft 1-4, a gear I1-5, a cross rod 1-6, a gear chain 1-7, a gear II 1-8, a generator I1-9, a storage battery I1-10 and a rotary positioning component 1-11, wherein the wind power generation shell 1-1 is fixedly connected with the fan fixing frame 1-2, the fan fixing frame 1-2 is fixedly connected with the cross rod 1-6, the cross rod 1-6 is movably connected with the fan shaft 1-4 through a movable through hole 1-4-1, the fan blades 1-3 are fixedly connected with the fan shaft 1-4, the fan shaft 1-4 is fixedly connected with the gear I1-5, the gear I1-5 is movably connected with the cross rod 1-6 through a through hole, the first gear 1-5 is connected with the second gear 1-8 through a gear chain 1-7, the second gear 1-8 is fixedly connected with the first generator 1-9, the first generator 1-9 is fixedly connected with the wind power generation shell 1-1 through a groove, the first generator 1-9 is connected with the first storage battery 1-10 through an electric wire, the first storage battery 1-10 is fixedly connected with the wind power generation shell 1-1 through a groove, the wind power generation shell 1-1 is fixedly connected with a rotary positioning component 1-11, when sea wind or river wind blows, the fan blades 1-3 rotate to drive the fan shafts 1-4, the first gear 1-5 synchronously rotates, the first gear 1-5 drives the second gear 1-8 to rotate through the gear chain 1-7, the second gear 1-8 enables the first generator 1-9 to carry out electric storage operation on the first storage battery 1-10, the fan fixing frame 1-2 plays a fixing role, the cross rods 1-6 play a central shaft role, the device can rotate the wind power generation shell 1-1, the wind power generation shell 1-1 rotates to enable the rotating positioning components 1-11 to synchronously rotate, and the rotating positioning components 1-11 move on the sawtooth groove grains 2-1-5 to play a role in positioning and preventing non-return rotation;
the fan shaft 1-4 is provided with a movable through hole 1-4-1;
the rotary positioning component 1-11 comprises an arc-shaped clamping piece 1-11-1, a fixed short shaft 1-11-2, a short column 1-11-3 and a connecting elastic piece 1-11-4, wherein the short column 1-11-3 is fixedly connected with the wind power generation shell 1-1, the short column 1-11-3 is fixedly connected with the connecting elastic piece 1-11-4, the connecting elastic piece 1-11-4 is fixedly connected with one end of the arc-shaped clamping piece 1-11-1, the other end of the arc-shaped clamping piece 1-11-1 is movably connected with the fixed short shaft 1-11-2 through a through hole, the fixed short shaft 1-11-2 is fixedly connected with the wind power generation shell 1-1, and the short column 1-11-3 and the fixed short shaft 1-11-2 both play a role in fixing positions, the connecting elastic sheet 1-11-4 has elasticity and is used for connecting the arc-shaped clamping piece 1-11-1;
the tidal power generation mechanism I2 comprises a mechanism I shell 2-1 and a buffer structure 2-2, the mechanism I shell 2-1 is connected with the buffer structure 2-2 through a buffer groove 2-1-4, and the wind power generation shell 1-1 is movably connected with the mechanism I shell 2-1 through a stepped groove 2-1-1;
a shell 2-1 of the first mechanism is provided with a step groove 2-1-1, an N magnet 2-1-2, an S magnet 2-1-3, a buffer groove 2-1-4 and sawtooth groove grains 2-1-5, the sawtooth groove grains 2-1-5 are adapted to a rotary positioning component 1-11, and the positions of the N magnet 2-1-2 and the S magnet 2-1-3 are symmetrical;
the buffer structure 2-2 comprises a reset spring 2-2-1, a push plate 2-2-2, a magnetic induction wire cutting piece 2-2-3, an auxiliary wheel 2-2-4, a clamping ring 2-2-5, a long rod 2-2-6 and a striking plate 2-2-7, wherein the reset spring 2-2-1 is fixedly connected with the push plate 2-2-2, the push plate 2-2-2 is fixedly connected with the magnetic induction wire cutting piece 2-2-3, the magnetic induction wire cutting piece 2-2-3 is fixedly connected with the long rod 2-2-6, the long rod 2-2-6 is fixedly connected with the auxiliary wheel 2-2-4, the clamping ring 2-2-5 is fixedly connected with the long rod 2-2-6 through a through hole, the long rod 2-2-6 is fixedly connected with the impact plate 2-2-7, when the tide impacts the impact plate 2-2-7, the impact plate 2-2-7 pushes the long rod 2-2-6, the long rod 2-2-6 drives the magnetic induction line cutting piece 2-2-3 to move forwards, the magnetic induction line is cut through the N magnet 2-1-2 and the S magnet 2-1-3 to generate electric power, the storage battery II 3-2 is subjected to electric power storage operation, the reset spring 2-2-1 supports the push plate 2-2-2 to restore the position, the clamping ring 2-2-5 plays a certain limiting role, and the auxiliary wheel 2-2-4 plays an auxiliary movement role;
the tidal power generation mechanism II 3 comprises a mechanism II shell 3-1, a storage battery II 3-2, a power generation structure 3-3, a tensioning structure 3-4 and a shifting wheel structure 3-5, wherein the mechanism II shell 3-1 is fixedly connected with the storage battery II 3-2 through a storage battery groove 3-1-1-1, the mechanism II shell 3-1 is fixedly connected with the power generation structure 3-3 through a motor groove 3-1-1-2, the mechanism II shell 3-1 is connected with the tensioning structure 3-4 through a tensioning rail 3-1-1-3, and the mechanism II shell 3-1 is fixedly connected with the shifting wheel structure 3-5 through a shifting wheel rail 3-1-1-4;
the second mechanism shell 3-1 comprises a shell main body 3-1-1, a filtering grid 3-1-2 and a buffering leg 3-1-3, wherein the shell main body 3-1-1 is fixedly connected with the filtering grid 3-1-2, and the shell main body 3-1-1 is fixedly connected with the buffering leg 3-1-3;
the shell main body 3-1-1 is provided with a storage battery groove 3-1-1-1, a motor groove 3-1-1-2, a tensioning rail 3-1-1-3 and a thumb wheel rail 3-1-1-4;
the power generation structure 3-3 comprises a second generator 3-3-1, a first bevel gear 3-3-2, a second bevel gear 3-3-3, a first gear shaft 3-3-4, a driving gear 3-3-5, a third gear 3-3-6, a second gear shaft 3-3-7 and a connecting gear chain 3-3-8, wherein the second generator 3-3-1 is fixedly connected with the first bevel gear 3-3-2, the first bevel gear 3-3-2 is meshed with the second bevel gear 3-3-3, the second bevel gear 3-3-3 is movably connected with the first gear shaft 3-3-4, the first gear shaft 3-3-4 is fixedly connected with a second mechanism shell 3-1, and the second mechanism shell 3-1 is fixedly connected with the second gear shaft 3-3-7, the second bevel gear 3-3-3 is connected with the third gear 3-3-6 through a connecting gear chain 3-3-8, the third gear 3-3-6 is fixedly connected with the driving gear 3-3-5, the driving gear 3-3-5 is movably connected with the second gear shaft 3-3-7, the second generator 3-3-1 is connected with the second storage battery 3-2 through an electric wire, the poking wheel piece 3-5-1 rotates to poke the driving gear 3-3-5, the driving gear 3-3-5 drives the connecting gear chain 3-3-8 to drive the second bevel gear 3-3-3 to rotate through the third gear 3-3-6, thereby driving the helical gear I3-3-2 to realize the electricity storage operation of the generator II 3-3-1 on the storage battery II 3-2;
the tensioning structure 3-4 comprises a tensioning wheel 3-4-1, a T-shaped connecting piece 3-4-2, a connecting rod 3-4-3, a sliding piece 3-4-4, a track rod 3-4-5, a pinion 3-4-6, a U-shaped fixed shaft 3-4-7, a limiting ring 3-4-8 and an adjusting gear 3-4-9, wherein the tensioning wheel 3-4-1 is movably connected with the T-shaped connecting piece 3-4-2, the T-shaped connecting piece 3-4-2 is hinged with the connecting rod 3-4-3, the connecting rod 3-4-3 is hinged with the sliding piece 3-4-4, the sliding piece 3-4-4 is connected with the track rod 3-4-5 through a smooth through hole 3-4-1, the track rod 3-4-5 is fixedly connected with the pinion 3-4-6 through a through hole, the pinion 3-4-6 is meshed with the adjusting gear 3-4-9, the adjusting gear 3-4-9 is movably connected with the U-shaped fixed shaft 3-4-7 through a through hole, the U-shaped fixed shaft 3-4-7 is fixedly connected with the limiting ring 3-4-8 through a through hole, the number of the limiting rings 3-4-8 is two, the two limiting rings are respectively positioned at two sides of the adjusting gear 3-4-9, the U-shaped fixed shaft 3-4-7 is fixedly connected with the second mechanism shell 3-1, the tension wheel 3-4-1 is in contact connection with the connecting gear chain 3-3-8, the adjusting gear 3-4-9 is rotated, the adjusting gear 3-4-9 drives the pinion 3-4-6, the rail rod 3-4-5 synchronously rotates to drive the sliding piece 3-4-4 to move up and down, the sliding piece 3-4-4 pulls the connecting rod 3-4-3 to drive the T-shaped connecting piece 3-4-2, and therefore the tension of the connecting gear chain 3-3-8 is controlled by the tension pulley 3-4-1, the U-shaped fixed shaft 3-4-7 is a shaft of the adjusting gear 3-4-9, and the limiting ring 3-4-8 plays a role in fixing the adjusting gear 3-4-9;
a smooth through hole 3-4-4-1 is arranged on the sliding piece 3-4-4;
the shifting wheel structure 3-5 comprises a shifting wheel sheet 3-5-1, a linkage pinion 3-5-2, a central shaft 3-5-3 and a linkage gear 3-5-4, the shifting wheel sheet 3-5-1 is fixedly connected with the linkage pinion 3-5-2, the central shaft 3-5-3 is fixedly connected with a second mechanism shell 3-1, the central shaft 3-5-3 is movably connected with the shifting wheel sheet 3-5-1 through a through hole, the linkage gear 3-5-4 is connected with the linkage pinion 3-5-2, and the shifting wheel sheet 3-5-1 is adapted to the driving gear 3-3-5;
the bottom fixing mechanism 4 comprises a bottom connecting structure 4-1, a device buffering structure 4-2 and a device fixing structure 4-3, wherein the bottom connecting structure 4-1 is connected with the device buffering structure 4-2 through a special-shaped through hole 4-1-4-2, and the bottom connecting structure 4-1 is fixedly connected with the device fixing structure 4-3;
the bottom connecting structure 4-1 comprises a threaded rod 4-1-1, a limiting part 4-1-2, a block part 4-1-3 and a U-shaped base 4-1-4, the threaded rod 4-1-1 is fixedly connected with the limiting part 4-1-2 through a through hole, the limiting part 4-1-2 is connected with the U-shaped base 4-1-4 through a limiting stepped groove 4-1-4-1, the block part 4-1-3 is fixedly connected with the threaded rod 4-1-1, and the limiting part 4-1-2 plays a role in limiting the position;
a limiting stepped groove 4-1-4-1, a special-shaped through hole 4-1-4-2 and a strip-shaped track groove 4-1-4-3 are arranged on the U-shaped base 4-1-4, and the strip-shaped track groove 4-1-4-3 is matched with the buffer leg 3-1-3;
the device buffer structure 4-2 comprises an impact-resistant spring 4-2-1, a bidirectional threaded rod 4-2-2, an adjusting slider 4-2-3, an adjusting gear 4-2-4, a manual adjusting gear 4-2-5 and a cylindrical shaft 4-2-6, the impact-resistant spring 4-2-1 is fixedly connected with the adjusting slider 4-2-3, the adjusting slider 4-2-3 is meshed with the bidirectional threaded rod 4-2-2, the bidirectional threaded rod 4-2-2 is fixedly connected with a through hole of the adjusting gear 4-2-4, the adjusting gear 4-2-4 is meshed with the manual adjusting gear 4-2-5, the manual adjusting gear 4-2-5 is movably connected with the cylindrical shaft 4-2-6 through the through hole, the cylindrical shaft 4-2-6 is fixedly connected with the U-shaped base 4-1-4 through a groove, the impact resistant spring 4-2-1 is fixedly connected with the buffer leg 3-1-3, the manual adjusting gear 4-2-5 is rotated, the manual adjusting gear 4-2-5 drives the adjusting gear 4-2-4 to enable the bidirectional threaded rod 4-2-2 to synchronously rotate, the bidirectional threaded rod 4-2-2 rotates to enable the adjusting slide block 4-2-3 to move, the adjusting slide block 4-2-3 extrudes the impact resistant spring 4-2-1, thereby realizing the function of adjusting the buffer force of the anti-impact spring 4-2-1 to the buffer leg 3-1-3, wherein the cylindrical shaft 4-2-6 is a rotating shaft of the manual adjusting gear 4-2-5;
the device fixing structure 4-3 comprises a connecting hinge part 4-3-1, a connecting column I4-3-2, a spherical part 4-3-3, a lifting threaded rod 4-3-4, a lifting limiting ring 4-3-5, a conical tube 4-3-6, a connecting stopper 4-3-7 and a fixing cone 4-3-8, wherein the connecting hinge part 4-3-1 is hinged with the connecting column I4-3-2, the connecting column I4-3-2 is connected with the spherical part 4-3-3 through a spherical groove 4-3-2-1, the connecting column I4-3-2 is connected with the lifting limiting ring 4-3-5 through a three-stage stepped hole 4-3-2-2, the lifting limiting ring 4-3-5 is fixedly connected with the lifting threaded rod 4-3-4 through a through hole, the lifting threaded rod 4-3-4 is meshed with the connecting stopper 4-3-7 through a threaded hole 4-3-7-1, the connecting stopper 4-3-7 is fixedly connected with the conical tube 4-3-6, the conical tube 4-3-6 is fixedly connected with the fixing cone 4-3-8, the fixing cone 4-3-8 is fixedly connected with the connecting stopper 4-3-7, and the lifting limiting ring 4-3-5 plays a role in limiting the position;
a spherical groove 4-3-2-1 and a three-stage stepped hole 4-3-2-2 are arranged on the first connecting column 4-3-2;
the spherical part 4-3-3 is provided with a threaded through hole 4-3-1, and the spherical part 4-3-3 is meshed with the threaded rod 4-1-1 through the threaded through hole 4-3-3-1;
the connecting stopper 4-3-7 is provided with a threaded hole 4-3-7-1;
the folding moving mechanism 5 comprises an adjustable wheel 5-1, a buffer wheel structure 5-2 and a direction adjusting structure 5-3, wherein the adjustable wheel 5-1 is connected with the buffer wheel structure 5-2, and the buffer wheel structure 5-2 is connected with the direction adjusting structure 5-3;
the adjustable wheel 5-1 comprises a moving wheel 5-1-1, a roller shaft 5-1-2, a roller fixing column 5-1-3, a long threaded rod 5-1-4 and a small limiting ring 5-1-5, the moving wheel 5-1-1 is movably connected with the roller fixing column 5-1-3 through the roller shaft 5-1-2, the roller fixing column 5-1-3 is connected with the small limiting ring 5-1-5 through a limiting hole 5-1-3-1, the long threaded rod 5-1-4 is fixedly connected with the small limiting ring 5-1-5 through a through hole, and the small limiting ring 5-1-5 plays a role in limiting the position;
the roller fixing column 5-1-3 is provided with a limiting hole 5-1-3-1;
the buffer wheel structure 5-2 comprises a tube body 5-2-1, a supporting spring 5-2-2, a clamping slide block 5-2-3, a telescopic column 5-2-4 and a connecting shaft 5-2-5, wherein the tube body 5-2-1 is matched with the supporting spring 5-2-2 through a movable stepped hole 5-2-1-2, the tube body 5-2-1 is connected with a roller fixing column 5-1-3 through a movable stepped hole 5-2-1-2, the tube body 5-2-1 is meshed with a long threaded rod 5-1-4 through a threaded through hole 5-2-1-1, the supporting spring 5-2-2 is fixedly connected with the clamping slide block 5-2-3, the clamping slide block 5-2-3 is fixedly connected with the telescopic column 5-2-4, the telescopic column 5-2-4 is connected with the connecting shaft 5-2-5 through a shaft through hole I5-2-4-3, the clamping slide block 5-2-3 is movably connected with the pipe body 5-2-1 through a movable stepped hole 5-2-1-2, the supporting spring 5-2-2 plays a role in buffering, the clamping slide block 5-2-3 plays a role in fixing and connecting, and the clamping slide block 5-2-3 is a rotating central shaft;
the pipe body 5-2-1 is provided with a threaded through hole 5-2-1-1 and a movable stepped hole 5-2-1-2;
the telescopic column 5-2-4 is provided with a cylindrical through hole 5-2-4-1, a circular groove 5-2-4-2 and a shaft through hole I5-2-4-3;
the direction adjusting structure 5-3 comprises a connecting and fixing piece 5-3-1, a small spring 5-3-2, a positioning protrusion piece 5-3-3, a handle 5-3-4 and a stable threaded rod 5-3-5, the connecting and fixing piece 5-3-1 is fixedly connected with the small spring 5-3-2 through a movable groove 5-3-1-1, the small spring 5-3-2 is fixedly connected with the positioning protrusion piece 5-3-3, the positioning protrusion piece 5-3-3 is fixedly connected with the handle 5-3-4, the stable threaded rod 5-3-5 is engaged with the connecting and fixing piece 5-3-1 through a position adjusting threaded hole 5-3-1-2, the stable threaded rod 5-3-5 is matched with a cylindrical through hole 5-2-4-1, the positioning bulge piece 5-3-3 is matched with the circular groove 5-2-4-2, the connecting and fixing piece 5-3-1 is fixedly connected with the U-shaped base 4-1-4, and the small spring 5-3-2 supports the positioning bulge piece 5-3-3;
the connecting and fixing piece 5-3-1 is provided with a movable groove 5-3-1-1, a position adjusting threaded hole 5-3-1-2 and a shaft through hole II 5-3-1-3, and the connecting shaft 5-2-5 is movably connected with the connecting and fixing piece 5-3-1 through the shaft through hole II 5-3-1-3;
the wind power generation mechanism 1 is connected with the tidal power generation mechanism I2, the tidal power generation mechanism II 3 is connected with the bottom fixing mechanism 4, and the folding moving mechanism 5 is connected with the bottom fixing mechanism 4.
The second embodiment is as follows:
this embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, and will be further described with reference to this embodiment, in which the long rod 2-2-6 is located at the center of the top end of the impact plate 2-2-7.
The third concrete implementation mode:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, and 22, and the present embodiment further describes the first embodiment, in which there are two of the wheel shifting plate 3-5-1, the linkage pinion 3-5-2, and the central shaft 3-5-3, and the positions are symmetrical.
The fourth concrete implementation mode:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, and 22, and the present embodiment further describes the first embodiment, in which there are two power generation structures 3 to 3 and two tensioning structures 3 to 4, and the two power generation structures and the two tensioning structures are symmetrically located.
The use method of the device comprises the following steps: when sea wind or river wind blows, the fan blades 1-3 rotate to drive the fan shafts 1-4, the first gear 1-5 rotates synchronously, the first gear 1-5 drives the second gear 1-8 to rotate through the gear chain 1-7, the second gear 1-8 enables the first generator 1-9 to carry out electric power storage operation on the first storage battery 1-10, the fan fixing frame 1-2 plays a fixing role, and the cross rods 1-6 play a central shaft role.
The device can rotate a wind power generation shell 1-1, the wind power generation shell 1-1 rotates to enable a rotary positioning component 1-11 to synchronously rotate, and the rotary positioning component 1-11 moves on a sawtooth groove grain 2-1-5 to play roles in positioning and preventing non-return rotation.
When the tide impacts the impact plate 2-2-7, the impact plate 2-2-7 pushes the long rod 2-2-6, the long rod 2-2-6 drives the magnetic induction wire cutting piece 2-2-3 to move forwards, the magnetic induction wire is cut through the N magnet 2-1-2 and the S magnet 2-1-3 to generate electric power, the storage battery II 3-2 is subjected to electric power storage operation, the reset spring 2-2-1 supports the push plate 2-2-2 to restore the position, the clamping ring 2-2-5 plays a certain limiting role, and the auxiliary wheel 2-2-4 plays a role in auxiliary movement.
The tide filters impurities through a filtering grid 3-1-2, water passes through a shifting wheel piece 3-5-1, the shifting wheel piece 3-5-1 rotates to shift a driving gear 3-3-5, the driving gear 3-3-5 drives a connecting gear chain 3-3-8 to drive a bevel gear II 3-3-3 to rotate through a gear III 3-3-6, and therefore the bevel gear I3-3-2 is driven to realize the electricity storage operation of the generator II 3-3-1 on a storage battery II 3-2.
The adjusting gear 3-4-9 is rotated, the adjusting gear 3-4-9 drives the pinion 3-4-6, the track rod 3-4-5 rotates synchronously to drive the slider 3-4-4 to move up and down, the slider 3-4-4 pulls the connecting rod 3-4-3 to drive the T-shaped connecting piece 3-4-2, and therefore the tension of the connecting gear chain 3-3-8 is controlled by the tension wheel 3-4-1, the U-shaped fixing shaft 3-4-7 is a shaft of the adjusting gear 3-4-9, and the limiting ring 3-4-8 plays a role in fixing the adjusting gear 3-4-9.
When the tide impacts the device, the impact-resistant spring 4-2-1 supports the buffer leg 3-1-3, so that the device has a transverse buffer function and plays a role of a protective device.
The manual adjusting gear 4-2-5 is rotated, the manual adjusting gear 4-2-5 drives the adjusting gear 4-2-4 to enable the bidirectional threaded rod 4-2-2 to synchronously rotate, the bidirectional threaded rod 4-2-2 rotates to enable the adjusting slide block 4-2-3 to move, and the adjusting slide block 4-2-3 extrudes the impact-resistant spring 4-2-1, so that the effect of adjusting the buffer force of the impact-resistant spring 4-2-1 on the buffer leg 3-1-3 is achieved, wherein the cylindrical shaft 4-2-6 is a rotating shaft of the manual adjusting gear 4-2-5.
The threaded rod 4-1-1 is rotated, the threaded rod 4-1-1 drives the spherical part 4-3-3 to move when rotating, so that the position of the first connecting column 4-3-2 is inclined, the bottom fixing mechanism 4 plays a role of going deep into a ground fixing device, and the inclination of the position of the first connecting column 4-3-2 can realize the purpose of changing the fixing angle of the bottom fixing mechanism 4.
The lifting threaded rod 4-3-4 is rotated, the lifting threaded rod 4-3-4 enables the connecting stopper 4-3-7 to move relatively, and therefore the fixing cone 4-3-8 is lengthened, and the effect of lengthening the bottom fixing mechanism 4 is achieved.
Pulling the handle 5-3-4 to make the positioning protrusion 5-3-3 separate from the circular groove 5-2-4-2, rotating the telescopic column 5-2-4 to 180 degrees, fixing the positioning protrusion 5-3-3, rotating the stabilizing threaded rod 5-3-5, and extending the stabilizing threaded rod 5-3-5 into the cylindrical through hole 5-2-4-1 to play a stabilizing role. At the moment, the supporting spring 5-2-2 supports the clamping slide block 5-2-3, so that the device has a damping effect, the long threaded rod 5-1-4 is rotated, the long threaded rod 5-1-4 drives the roller fixing column 5-1-3 to move relative to the pipe body 5-2-1, the effect of shortening or lengthening the folding moving mechanism 5 is achieved, meanwhile, the roller fixing column 5-1-3 extrudes the supporting spring 5-2-2, and the effect of adjusting the buffering force of the supporting spring 5-2-2 is achieved.
The device has two power generation modes of wind power generation and tidal power generation, multiple power generation methods, the new energy is fully utilized for power generation, the purpose of electric power energy conservation is achieved, the device has multiple adjustment functions and is more convenient to use, the device also has a moving function, and short-distance displacement of the device is facilitated.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.