CN113931798B - Swing power generation device - Google Patents

Abstract

The invention discloses a swing power generation device, and relates to the technical field of new energy. The escapement assembly comprises a base, a swinging rod and an escapement assembly arranged on the swinging rod and the base, wherein the base is connected with the swinging rod through a movable assembly, the escapement assembly comprises a fork part and a wheel part, the fork part is arranged on the swinging rod, the wheel part is arranged on the base through a supporting assembly, the fork part comprises a slide way, a first slide block, a swinging block and an escapement fork, the wheel part comprises an escapement wheel, an escapement tooth and a transmission tooth, the escapement wheel is of an annular structure, the escapement wheel is arranged on the base through the supporting assembly, the movable assembly comprises a central part and a peripheral side part, and the central part comprises a buffer spring, a movable seat and a movable ball. The invention changes the swing of the escapement tooth matched with the escapement fork into rotary motion through the escapement tooth on the periphery to generate electricity, thereby increasing the transmission flexibility and improving the utilization efficiency of wind energy.

Description

Swing power generation device

Technical Field

The invention relates to the technical field of new energy, in particular to a swing power generation device.

Background

With the development of the times, as non-renewable resources are continuously used, the reserves of the non-renewable resources are reduced, in order to reduce the effect of the non-renewable resources on power generation, such as coal power generation, more and more novel clean energy power generation is used, such as solar power generation, hydraulic power generation, wind power generation and the like, wind power generation refers to the conversion of wind energy into electric energy, and the principle of wind power generation is to convert kinetic energy of wind into mechanical energy, convert mechanical energy into electric energy, drive windmill blades to rotate by utilizing wind power, and increase the rotating speed through a speed increaser to promote the power generation of a generator.

The swing power generation device is characterized in that wind power can be used for generating power even if the wind power swings, the flexible rod swings by utilizing the wind power, the swinging kinetic energy is converted into swinging mechanical energy by using a mechanical structure, the swinging mechanical energy is converted into rotating mechanical energy, then, the rotating permanent magnet is used for enabling a coil arranged around to cut magnetic lines, and electromotive force is generated according to a Faraday's law of electromagnetic induction to generate power.

In CN107492999B, when the top cover is pressed, the lower permanent magnet can be pressed and knocked against the base to close the magnetic circuit, so that the magnetostrictive body generates a magnetic field increment in the coil due to the inverse magnetostrictive effect under the pressed action, and generates an electromotive force in the coil according to the faraday's law of electromagnetic induction, i.e., piezomagnetic power generation. In order to avoid the phenomenon of local magnetic saturation in magnetic field distribution when the lower permanent magnet and a base extrusion magnetic circuit are closed, thereby reducing the magnetic force and reducing the power generation efficiency, the lower permanent magnet can be completely attached to the base in the design.

Because the wind direction changes for many times in one day, the wind direction also changes for many times, so the angle and direction of each swing are different, the prior art can only convert the kinetic energy in one swing direction into electric energy, the wind energy utilization rate is low, moreover, in the swing process, under the condition that the wind power is not large, the swing frequency is slow, when the swing rod swings to one direction, the return speed is slow, the rotation is slow, and the power generation efficiency is low, so the swing power generation device is provided.

Disclosure of Invention

The invention aims to provide a swing power generation device, which solves the problems that due to the change of wind direction, the wind direction can also change for many times in one day, so that the swing angle and direction are different every time, the existing device can only convert the kinetic energy in one swing direction into electric energy, the wind energy utilization rate is low, in the swing process, under the condition that the wind power is not large, the swing frequency is low, the return speed of a swing rod when the swing rod swings in one direction is low, the rotation is slow, and the power generation efficiency is low during power generation.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a swing power generation device which comprises a base, a swing rod and an escapement assembly arranged on the swing rod and the base, wherein the base is connected with the swing rod through a movable assembly;

the escapement assembly comprises a fork part and a wheel part, the fork part is arranged on the swinging rod, the wheel part is arranged on the base through a supporting assembly, the fork part comprises a slide way, a first sliding block, a swinging block and an escapement fork, the slide way is arranged on the outer wall of the swinging rod, the first sliding block is movably arranged inside the slide way, an electric telescopic rod is arranged on the first sliding block, the output end of the electric telescopic rod is connected with the swinging block, the swinging block is matched with the escapement fork, the first sliding block slides in the slide way, the swinging block is driven to swing when the swinging rod swings, the first sliding block slides to be perpendicular to the swinging direction of the swinging rod when the swinging direction of the swinging rod is different, the first sliding block swings along with the swinging of the swinging rod, and the escapement fork is driven to swing through the swinging block;

the wheel part comprises an escape wheel, an escapement gear and transmission gears, the escape wheel is of an annular structure, the escape wheel is arranged on the base through a support component, the escape wheel is located around an escapement fork, a plurality of escapement gears are arranged on the inner wall of the escape wheel, a plurality of transmission gears are arranged on the outer wall of the escape wheel, and the escapement fork drives the escape wheel to rotate;

the movable assembly comprises a central part and a peripheral side part, the central part comprises a buffer spring, a movable seat and a movable ball, a mounting groove is formed in the central position of the base, the buffer spring is arranged in the mounting groove, the movable seat is arranged at one end of the buffer spring, a hemispherical movable groove is formed in the movable seat, the movable ball is movably arranged in the movable groove and is connected with the swinging rod, and the movable ball moves in the movable groove in a larger range;

all sides portion is including last installation piece, lower installation piece, reset spring and magnet, be equipped with six on the swinging arms and go up the installation piece, six are gone up the installation piece and are circumference array equidistance and arrange, the base upper surface is equipped with six lower installation pieces that correspond with last installation piece position, every go up installation piece and every that corresponds down be equipped with a reset spring between the installation piece, every go up installation piece below and every installation piece top all is equipped with a magnet down, and two magnets that correspond each other are like poles relative, and reset spring connects installation piece and lower installation piece, makes certain home range between swinging arms and the base, and like poles repel each other, and when the swinging arms swung, magnet becomes opposite poles and attracts each other, provides a power that resets, pulls back the swinging arms.

Preferably, the base is the cuboid structure, and the corner adopts the circular arc transition, the swinging arms is made for flexible material and forms.

Preferably, four bearing columns are arranged below the base, each bearing column is close to one corner of the base, a bearing foot is arranged below each bearing column, the bottom surface of each bearing foot is large, and an anti-skidding effect is provided.

Preferably, the supporting component includes collar, support column and activity ring, the collar is disposed on the base, be equipped with a plurality of support columns between activity ring and the collar, it is a plurality of the support column is circumference array equidistance and arranges, supports the activity ring through the support column.

Preferably, a sliding groove is arranged below the escape wheel, the movable ring is movably arranged in the sliding groove, and the escape wheel moves on the movable ring.

Preferably, be equipped with the electricity generation subassembly on the base, the electricity generation subassembly includes connecting piece, generator, connecting axle and driven gear, connecting piece one end and base fixed connection, the connecting piece other end is connected with the generator, the generator input end is connected with connecting axle one end, the connecting axle other end is connected with driven gear, driven gear and driving tooth intermeshing, driven gear and driving tooth meshing are rotatory, and the permanent magnet of driven gear and generator is connected to the connecting axle, generates electricity.

Preferably, the base is provided with a guide rail, the guide rail is movably provided with a second slider, a fixing column is arranged between the second slider and the pallet, the base is internally provided with a power assembly, the power assembly comprises a connector, a rotary table, a transmission shaft, a speed reducer and a driving motor, one end of the connector is fixedly connected with the second slider, the other end of the connector is fixedly connected with the rotary table, the transmission shaft is arranged below the rotary table, one end of the transmission shaft is connected with the output end of the speed reducer, the input end of the speed reducer is connected with the output end of the driving motor, the second slider slides in the guide rail, the driving motor provides power, the rotary table rotates through the transmission shaft after the speed of the speed reducer is reduced, and the rotary table drives the second slider to slide through the connector, so that the pallet moves indirectly.

Preferably, the escape fork includes fork, fork body, advances the tile and goes out the tile, be equipped with the horn head on the fork, swing the piece and be located the horn head, advance the tile and go out the tile and all set up on one's body with the fork, and correspond with the escape pinion position, through horn head cooperation swing piece, swing piece makes the fork swing, makes advance the tile and go out the tile and swing respectively, drives the escape pinion rotation.

Preferably, the input and output shoes are of a ladder-type structure and are arranged symmetrically along the central axis of the pallet fork.

Preferably, the base is provided with a controller, the controller is electrically connected with the driving motor and the electric telescopic rod, the first sliding block is provided with a position sensor and is electrically connected with the controller, the controller controls the driving motor and the electric telescopic rod to be switched on and off, and the escapement fork can be rotated to the position of the position sensor through the driving motor.

The invention has the following beneficial effects:

1. according to the invention, the annular slide way is arranged on the oscillating rod, the slidable escapement fork is arranged on the slide way, the annular escapement wheel is arranged around the oscillating rod, the escapement tooth matched with the escapement fork is arranged on the annular inner wall, and the transmission tooth is arranged on the outer wall, so that the escapement tooth matched with the escapement fork is arranged around the escapement fork regardless of the swinging direction, the swinging of the escapement fork is changed into rotary motion, the power generation is carried out, the transmission flexibility is increased, and the utilization efficiency of wind energy is improved.

2. The movable ball is arranged at the bottom of the center of the oscillating rod, the movable ball is movably arranged in the adaptive movable seat, the movable seat is mounted on the base through the buffer spring, the peripheral side parts capable of moving at 360 degrees are arranged on the periphery of the oscillating rod in a circumferential array mode, the peripheral side parts are provided with the return springs, the movable seat can be quickly reset during oscillating, the magnets are arranged below the springs, the movable seat can be quickly reset according to the principle that the oscillating rod is attracted by the same polarity, the oscillating rod can be quickly oscillated, the speed of the oscillating rod in a complete return stroke is higher, and the power generation efficiency is higher.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic front view of the structure shown in FIG. 1;

FIG. 3 is an isometric schematic view of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1 at B in accordance with the present invention;

FIG. 6 is an enlarged view of a portion of the invention at C of FIG. 1;

FIG. 7 is an enlarged view of a portion of FIG. 3 according to the present invention;

FIG. 8 is an enlarged view of a portion of the invention at E in FIG. 4;

FIG. 9 is an enlarged view of a portion of the invention shown at F in FIG. 4;

fig. 10 is a schematic diagram of the generator of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

110. a base; 120. a swing lever; 130. a load bearing column; 140. a carrying foot; 210. a slideway; 220. a first slider; 230. a swing block; 240. a pallet fork; 250. an electric telescopic rod; 260. an escape wheel; 270. an escape pinion; 280. a transmission gear; 310. a buffer spring; 320. a movable seat; 330. a movable ball; 340. an upper mounting block; 350. a lower mounting block; 360. a return spring; 370. a magnet; 410. a mounting ring; 420. a support pillar; 430. a movable ring; 510. a connecting member; 520. a generator; 530. a connecting shaft; 540. a driven gear; 610. a fork head; 620. a fork body; 630. tile feeding; 640. tile discharging; 650. a horn head; 710. a second slider; 720. fixing a column; 730. a linker; 740. a turntable; 750. a drive shaft; 760. a speed reducer; 770. a drive motor; 810. a controller; 820. a position sensor.

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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "middle", "outer", "inner", and the like, indicate orientations or positional relationships, are used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-10, the embodiment of the present invention relates to a swing power generation apparatus, which includes a base 110, a swing lever 120, and an escapement assembly disposed on the swing lever 120 and the base 110, wherein the base 110 is connected to the swing lever 120 through a movable assembly;

the escapement assembly comprises a fork part and a wheel part, the fork part is arranged on the swing rod 120, the wheel part is arranged on the base 110 through a support assembly, the fork part comprises a slide way 210, a first slide block 220, a swing block 230 and an escapement fork 240, the slide way 210 is arranged on the outer wall of the swing rod 120, the first slide block 220 is movably arranged in the slide way 210, an electric telescopic rod 250 is arranged on the first slide block 220, the output end of the electric telescopic rod 250 is connected with the swing block 230, the swing block 230 is matched with the escapement fork 240, the first slide block 220 slides in the slide way 210, when the swing rod 120 swings, the swing block 230 is driven to swing, when the swing direction of the swing rod 120 is different, the first slide block 220 slides to be vertical to the swing direction of the swing rod 120, swings along with the swing rod 120 swinging, and the escapement fork 240 is driven to swing through the swing block 230;

the wheel part comprises an escape wheel 260, an escape tooth 270 and a transmission tooth 280, the escape wheel 260 is of an annular structure, the escape wheel 260 is arranged on the base 110 through a support component, the escape wheel 260 is positioned around the escapement fork 240, a plurality of escape teeth 270 are arranged on the inner wall of the escape wheel 260, a plurality of transmission teeth 280 are arranged on the outer wall of the escape wheel 260, and the escape wheel 260 is driven to rotate by the escape fork 240;

the movable assembly comprises a central part and a peripheral side part, the central part comprises a buffer spring 310, a movable seat 320 and a movable ball 330, a mounting groove is arranged at the central position of the base 110, the buffer spring 310 is arranged in the mounting groove, one end of the buffer spring 310 is provided with the movable seat 320, the movable seat 320 is provided with a hemispherical movable groove, the movable ball 330 is movably arranged in the movable groove, the movable ball 330 is connected with the swinging rod 120, and the movable ball 330 can move in the movable groove in a larger range;

the peripheral side portion comprises an upper mounting block 340, a lower mounting block 350, a reset spring 360 and magnets 370, six upper mounting blocks 340 are arranged on the swing rod 120, the six upper mounting blocks 340 are arranged in a circumferential array at equal intervals, six lower mounting blocks 350 corresponding to the positions of the upper mounting blocks 340 are arranged on the upper surface of the base 110, one reset spring 360 is arranged between each upper mounting block 340 and each corresponding lower mounting block 350, one magnet 370 is arranged below each upper mounting block 340 and above each lower mounting block 350, the two magnets 370 corresponding to each other are opposite in the same polarity, the reset spring 360 is connected with the upper mounting block 340 and the lower mounting block 350, a certain moving range is formed between the swing rod 120 and the base 110, the magnets 370 are opposite in the same polarity and repel each other, when the swing rod 120 swings, the magnets 370 are opposite in the opposite attraction, a reset force is provided, and the swing rod 120 is pulled back.

The base 110 is a rectangular parallelepiped, the corners of the base are in arc transition, and the swing rod 120 is made of a flexible material.

Four bearing columns 130 are arranged below the base 110, each bearing column 130 is close to one corner of the base 110, a bearing foot 140 is arranged below each bearing column 130, and the bottom surface of each bearing foot 140 is large, so that an anti-skid effect is provided.

The support assembly comprises a mounting ring 410, support columns 420 and a movable ring 430, wherein the mounting ring 410 is arranged on the base 110, a plurality of support columns 420 are arranged between the movable ring 430 and the mounting ring 410, the support columns 420 are arranged in a circumferential array at equal intervals, and the movable ring 430 is supported by the support columns 420.

A sliding groove is formed below the escape wheel 260, the movable ring 430 is movably disposed in the sliding groove, and the escape wheel 260 moves on the movable ring 430.

Be equipped with the electricity generation subassembly on base 110, the electricity generation subassembly includes connecting piece 510, generator 520, connecting axle 530 and driven gear 540, connecting piece 510 one end and base 110 fixed connection, the connecting piece 510 other end is connected with generator 520, the generator 520 input is connected with connecting axle 530 one end, the connecting axle 530 other end is connected with driven gear 540, driven gear 540 and driving tooth 280 intermeshing, driven gear 540 and driving tooth 280 meshing rotation, generator 520 center is equipped with the permanent magnet, be equipped with the coil on every side, the permanent magnet of connecting axle 530 connection driven gear 540 and generator 520, the permanent magnet receives external mechanical force rotation, the coil is done and is cut magnetic induction line action, according to Faraday's law of electromagnetic induction, the coil produces induced current, generate electricity.

The base 110 is provided with a guide rail, the guide rail is internally movably provided with a second sliding block 710, a fixed column 720 is arranged between the second sliding block 710 and the pallet 240, the base 110 is internally provided with a power assembly, the power assembly comprises a connecting body 730, a rotating disc 740, a transmission shaft 750, a speed reducer 760 and a driving motor 770, one end of the connecting body 730 is fixedly connected with the second sliding block 710, the other end of the connecting body 730 is fixedly connected with the rotating disc 740, the lower part of the rotating disc 740 is provided with the transmission shaft 750, one end of the transmission shaft 750 is connected with the output end of the speed reducer 760, the input end of the speed reducer 760 is connected with the output end of the driving motor 770, the second sliding block 710 slides in the guide rail, the driving motor 770 provides power, after the speed reduction through the speed reducer 760, the rotating disc 740 rotates through the transmission shaft 750, the rotating disc 740 drives the second sliding block 710 to slide through the connecting body 730, and indirectly enables the pallet 240 to move.

The pallet 240 comprises a fork 610, a fork body 620, an inlet tile 630 and an outlet tile 640, wherein the fork 610 is provided with a horn 650, the swinging block 230 is positioned in the horn 650, the inlet tile 630 and the outlet tile 640 are both arranged on the fork body 620 and correspond to the position of the pallet tooth 270, the swinging block 230 is matched with the swinging block 230 through the horn 650, the swinging block 230 enables the fork 610 to swing, the inlet tile 630 and the outlet tile 640 respectively swing, and the pallet tooth 270 is driven to rotate.

The input shoe 630 and the output shoe 640 are both of a ladder-type structure and are arranged axially symmetrically along the center axis of the pallet fork 240.

The base 110 is provided with a controller 810, the controller 810 is electrically connected with the driving motor 770 and the electric telescopic rod 250, the first slider 220 is provided with a position sensor 820 and is electrically connected with the controller 810, the controller 810 controls the driving motor 770 and the electric telescopic rod 250 to be switched on and switched off, and the pallet 240 can be rotated to the position of the position sensor 820 through the driving motor 770.

The working principle of the swing power generation device is as follows:

the base 110 is installed in the open area outside, when the outside has breeze, the swinging rod 120 swings along with the wind direction, so that the swinging block 230 installed on the swinging rod 120 also swings along the wind direction, the swinging block 230 is clamped in the horn head 650, the swinging block 230 swings the fork 610, so that the inlet tile 630 and the outlet tile 640 swing respectively to drive the escapement tooth 270 to rotate, the escapement tooth 270 drives the escapement wheel 260 to rotate on the inner wall of the escapement wheel 260, the escapement wheel 260 rotates to rotate, the driving tooth 280 on the outer ring rotates, the driving tooth 280 is meshed with the driven gear 540 to rotate the driven gear 540, and the connecting shaft 530 connects the driven gear 540 and the permanent magnet of the generator 520 to generate electricity;

the oscillating rod 120 is provided with an annular slide way 210, the slide way 210 is provided with a slidable escapement fork 240, the periphery of the oscillating rod 120 is provided with an annular escapement wheel 260, the annular inner wall is provided with an escapement tooth 270 matched with the escapement fork 240, and the outer wall is provided with a transmission tooth 280, so that no matter how the oscillating direction is, the escapement fork 240 is located, the periphery of the escapement fork is provided with the escapement tooth 270 matched with the escapement fork, the oscillating motion is changed into the rotating motion, the power generation is carried out, the transmission flexibility is increased, and the utilization efficiency of wind energy is improved;

the controller 810 starts the driving motor 770 to provide power, the speed is reduced by the speed reducer 760, the rotating disc 740 is rotated through the transmission shaft 750, the rotating disc 740 drives the second sliding block 710 to slide through the connecting body 730, the pallet 240 is indirectly moved, the pallet 240 is rotated to the position of the position sensor 820, and the swinging block 230 is inserted into the horn head 650 by matching with the electric telescopic rod 250;

through setting up movable ball 330 in the bottom at swinging arms 120, movable ball 330 activity sets up in the sliding seat 320 of its adaptation, sliding seat 320 passes through buffer spring 310 and installs on base 110, and swinging arms 120 all around all circumference array set up the week lateral part that can 360 activities, week lateral part is provided with reset spring 360, can reset fast when swinging, and set up magnet 370 under buffer spring 310, reset fast according to the principle that like property attracts mutually, realize swinging arms 120's fast swing, it is faster to make swinging arms 120 carry out the speed of a complete return stroke that advances, the generating efficiency is higher.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. A swing power generation device comprises a base (110) and a swing rod (120), and is characterized in that an escapement assembly is arranged on the swing rod (120) and the base (110), and the base (110) is connected with the swing rod (120) through a movable assembly;

the escapement assembly comprises a fork part and a wheel part, the fork part is arranged on the swing rod (120), the wheel part is arranged on the base (110) through a support assembly, the fork part comprises a slide way (210), a first sliding block (220), a swing block (230) and an escapement fork (240), the slide way (210) is arranged on the outer wall of the swing rod (120), the first sliding block (220) is movably arranged in the slide way (210), an electric telescopic rod (250) is arranged on the first sliding block (220), the output end of the electric telescopic rod (250) is connected with the swing block (230), and the swing block (230) is matched with the escapement fork (240);

the wheel part comprises an escape wheel (260), an escape tooth (270) and a transmission tooth (280), the escape wheel (260) is of an annular structure, the escape wheel (260) is arranged on the base (110) through a support component, the escape wheel (260) is located around the escape fork (240), a plurality of escape teeth (270) are arranged on the inner wall of the escape wheel (260), and a plurality of transmission teeth (280) are arranged on the outer wall of the escape wheel (260);

the movable assembly comprises a central part and a peripheral side part, the central part comprises a buffer spring (310), a movable seat (320) and a movable ball (330), a mounting groove is formed in the central position of the base (110), the buffer spring (310) is arranged in the mounting groove, the movable seat (320) is arranged at one end of the buffer spring (310), a hemispherical movable groove is formed in the movable seat (320), the movable ball (330) is movably arranged in the movable groove, and the movable ball (330) is connected with the swinging rod (120);

all sides portion is including installing piece (340), lower installation piece (350), reset spring (360) and magnet (370), be equipped with six on swinging arms (120) and go up installation piece (340), six are gone up installation piece (340) and are circumference array equidistance and arrange, base (110) upper surface is equipped with six and last installation piece (340) position lower installation piece (350) that correspond, every go up installation piece (340) and be equipped with one reset spring (360) between every lower installation piece (350) rather than corresponding, every go up installation piece (340) below and every installation piece (350) top all is equipped with one magnet (370) down, and two magnet (370) that correspond each other are like nature relative.

2. A swing generator according to claim 1, wherein: the base (110) is of a cuboid structure, corners of the base are in arc transition, and the swinging rod (120) is made of flexible materials.

3. A swing generator according to claim 1, wherein: four bearing columns (130) are arranged below the base (110), each bearing column (130) is close to one corner of the base (110), and a bearing foot (140) is arranged below each bearing column (130).

4. A swing generator according to claim 1, wherein: the supporting component comprises a mounting ring (410), supporting columns (420) and a movable ring (430), wherein the mounting ring (410) is arranged on the base (110), a plurality of supporting columns (420) are arranged between the movable ring (430) and the mounting ring (410), and the supporting columns (420) are arranged in a circumferential array in an equidistant mode.

5. An oscillating power plant according to claim 4, characterized in that: a sliding groove is arranged below the escape wheel (260), and the movable ring (430) is movably arranged in the sliding groove.

6. A swing power generating apparatus according to any one of claims 1 to 5, wherein: be equipped with the electricity generation subassembly on base (110), the electricity generation subassembly includes connecting piece (510), generator (520), connecting axle (530) and driven gear (540), connecting piece (510) one end and base (110) fixed connection, the connecting piece (510) other end is connected with generator (520), generator (520) input is connected with connecting axle (530) one end, the connecting axle (530) other end is connected with driven gear (540), driven gear (540) and driving tooth (280) intermeshing.

7. An oscillating power plant according to claim 6, characterized in that: the base (110) is provided with a guide rail, a second sliding block (710) is movably arranged in the guide rail, a fixing column (720) is arranged between the second sliding block (710) and the pallet (240), a power assembly is arranged in the base (110), the power assembly comprises a connecting body (730), a rotary table (740), a transmission shaft (750), a speed reducer (760) and a driving motor (770), one end of the connecting body (730) is fixedly connected with the second sliding block (710), the other end of the connecting body (730) is fixedly connected with the rotary table (740), the transmission shaft (750) is arranged below the rotary table (740), one end of the transmission shaft (750) is connected with the output end of the speed reducer (760), and the input end of the speed reducer (760) is connected with the output end of the driving motor (770).

8. An oscillating power plant according to claim 6, characterized in that: escapement fork (240) includes fork (610), fork body (620), advances tile (630) and play tile (640), be equipped with horn head (650) on fork (610), swing piece (230) are located horn head (650), advance tile (630) and play tile (640) all set up with fork body (620) on, and correspond with escape tooth (270) position.

9. A swing generator according to claim 8, wherein: the input tile (630) and the output tile (640) are both in a ladder-shaped structure and are arranged axially symmetrically along the central axis of the escape fork (240).

10. An oscillating power plant according to claim 7, characterized in that: the base (110) is provided with a controller (810), the controller (810) is electrically connected with the driving motor (770) and the electric telescopic rod (250), and the first sliding block (220) is provided with a position sensor (820) and is electrically connected with the controller (810).

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