WO2022205724A1 - 一种储能装置和具有其的发电地板 - Google Patents
一种储能装置和具有其的发电地板 Download PDFInfo
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- WO2022205724A1 WO2022205724A1 PCT/CN2021/111553 CN2021111553W WO2022205724A1 WO 2022205724 A1 WO2022205724 A1 WO 2022205724A1 CN 2021111553 W CN2021111553 W CN 2021111553W WO 2022205724 A1 WO2022205724 A1 WO 2022205724A1
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- gear
- barrel
- spring
- energy storage
- hole
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- 238000004146 energy storage Methods 0.000 title claims abstract description 48
- 238000010248 power generation Methods 0.000 title claims abstract description 20
- 230000005540 biological transmission Effects 0.000 claims abstract description 47
- 238000005192 partition Methods 0.000 claims description 43
- 125000006850 spacer group Chemical group 0.000 claims 1
- 238000005381 potential energy Methods 0.000 abstract description 25
- 238000006243 chemical reaction Methods 0.000 abstract description 10
- 230000009471 action Effects 0.000 abstract description 3
- 230000000712 assembly Effects 0.000 abstract 2
- 238000000429 assembly Methods 0.000 abstract 2
- 239000006185 dispersion Substances 0.000 abstract 1
- 239000000919 ceramic Substances 0.000 description 12
- 238000000034 method Methods 0.000 description 8
- 230000008569 process Effects 0.000 description 5
- 238000006073 displacement reaction Methods 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 230000007246 mechanism Effects 0.000 description 2
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000737 periodic effect Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Classifications
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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
- F03G—SPRING, WEIGHT, INERTIA OR LIKE MOTORS; MECHANICAL-POWER PRODUCING DEVICES OR MECHANISMS, NOT OTHERWISE PROVIDED FOR OR USING ENERGY SOURCES NOT OTHERWISE PROVIDED FOR
- F03G3/00—Other motors, e.g. gravity or inertia motors
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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
- F03G—SPRING, WEIGHT, INERTIA OR LIKE MOTORS; MECHANICAL-POWER PRODUCING DEVICES OR MECHANISMS, NOT OTHERWISE PROVIDED FOR OR USING ENERGY SOURCES NOT OTHERWISE PROVIDED FOR
- F03G1/00—Spring motors
Definitions
- the present invention relates to the field of power generation floors, in particular to an energy storage device and a power generation floor with the same.
- some power generation floors use the method of converting the mechanical deformation of piezoelectric ceramics into electrical energy to generate electricity.
- the plate body is fixed with a mechanical limit structure that limits the descending distance of the upper pedal panel, and a depression point is fixed at the position where the bottom of the pedal panel is directly opposite to the suspended end of the piezoelectric ceramic. Squeeze the suspended end of the piezoelectric ceramic to deform the piezoelectric ceramic to generate a small amount of electricity and store it in the battery.
- the mechanical limit structure limits the descending distance of the stepping panel to ensure that the deformation of the piezoelectric ceramic is within the rated deformation range.
- an object of the present invention is to provide an energy storage device.
- Another object of the present invention is to provide a power generation floor with the above energy storage device.
- an energy storage device characterized in that it comprises: a mounting seat, a first spring energy storage assembly, a second spring energy storage assembly, a one-way limiter, a transmission assembly and a generator;
- the first mainspring energy storage assembly includes a first rotating shaft, a first mainspring and a first barrel; the first rotating shaft is unidirectionally rotatably mounted on the mounting seat; the first mainspring jacket On the first rotating shaft, the first barrel is covered on the first spring, the inner end of the first spring is connected with the first rotating shaft, and the outer end is connected with the first spring
- the barrels are connected to each other, and the first barrel is rotatably mounted on the mounting seat, wherein the rotation of the first rotating shaft can wind up the first spring, and the first spring can drive the first spring.
- the mainspring barrel rotates;
- the second mainspring energy storage assembly includes a second rotating shaft, a second mainspring and a second mainspring barrel; the second rotating shaft is unidirectionally rotatably mounted on the mounting seat;
- the second mainspring is covered on the second shaft, the second barrel is covered on the second mainspring, the inner end of the second mainspring is connected to the second shaft, and the outer end is connected to the second mainspring
- the second barrel is connected, and the second barrel is rotatably mounted on the mounting seat, wherein the second rotating shaft can be rotated to tighten the second spring, and the second spring can be
- the second barrel is driven to rotate;
- the one-way stopper is arranged on the mounting seat, and the one-way stopper is configured to be used when the stored energy of the first spring is greater than the When the stored energy of the second spring, the one-way stopper fixes the second barrel, and when the stored energy of the second spring is greater than the stored energy of the first spring, the single spring
- the first barrel is fixed to the limit
- first one-way bearing is provided between the first rotating shaft and the mounting seat
- second one-way bearing is provided between the second rotating shaft and the mounting seat.
- the first barrel is provided with a first gear
- the second barrel is provided with a second gear
- the transmission assembly includes a third gear, a fourth gear and a transmission shaft, the transmission The shaft is rotatably mounted on the mounting seat and connected with the motor shaft, the third gear and the fourth gear can be unidirectionally mounted on the transmission shaft, and the first gear and the The third gear is meshed with the second gear, and the second gear is meshed with the fourth gear; when the first barrel rotates, the first gear drives the third gear to rotate and then drives the transmission shaft to rotate, so The fourth gear does not rotate; when the second barrel rotates, the second gear drives the fourth gear to rotate and then drives the transmission shaft to rotate, and the third gear does not rotate.
- a third one-way bearing is arranged between the third gear and the transmission shaft, and a fourth one-way bearing is arranged between the fourth gear and the transmission shaft.
- one end of the transmission shaft is provided with a first bevel gear
- the motor shaft is provided with a second bevel gear
- the first bevel gear meshes with the second bevel gear
- the one-way limiting member is a limiting ball
- the mounting seat is provided with a sliding through hole
- the limiting ball is arranged in the sliding through hole and can be along the axial direction of the sliding through hole. Reciprocating movement; the first gear is located on one axial side of the sliding through hole, and the second gear is located on the other axial side of the sliding through hole; the first gear is close to the sliding through hole
- a first limiting hole is provided on the surface of the second gear, and a second limiting hole is provided on the surface of the second gear close to the sliding through hole; a part of the limiting ball is located in the sliding through hole, and a part is located in the sliding through hole. It is located in the first limiting hole or the second limiting hole to fix the first gear or the second gear.
- the mounting seat includes a connecting plate, a first mounting plate, a second mounting plate and a middle partition plate, the first mounting plate and the second mounting plate are oppositely arranged and spaced apart, and the middle partition plate is arranged Between the first mounting plate and the second mounting plate, the connecting plate is respectively connected with the first mounting plate, the second mounting plate and the third mounting plate, and the middle partition plate is provided with the the sliding through hole; the first spring and the first barrel are arranged between the first mounting plate and the middle partition plate, and the first shaft is rotatably connected to the first mounting plate , the first barrel is rotatably connected with the middle partition plate, the first gear is arranged on the side surface of the first barrel close to the middle partition plate; the second spring and the second barrel is arranged between the second mounting plate and the middle partition, the second shaft is rotatably connected to the second mounting plate, and the second barrel is connected to the The middle partition plate is rotatably connected, the second gear is arranged on the side surface of the second barrel close to the middle partition plate; the transmission shaft
- the limit ball when a part of the limit ball is located in the first limit hole, the limit ball is tangent to the side surface of the second gear close to the middle partition plate; when the limit ball When a part of the gear is located in the second limiting hole, the limiting ball is tangent to the side surface of the first gear close to the middle partition plate.
- the end of the first rotating shaft close to the middle partition plate is provided with a first groove
- the first barrel and the first gear are provided with a first through hole
- the second rotating shaft is provided with a first groove.
- a second groove is provided at one end of the center close to the middle partition plate
- a second through hole is formed on the second barrel and the second gear
- a central shaft is fixed on the middle partition plate. One end of the central shaft extends into the first groove through the first through hole, and the other end extends into the second groove through the second through hole.
- a power generation floor is characterized by comprising the above-mentioned energy storage device.
- the device uses two clockwork energy storage.
- the components can collect the gravitational potential energy of different scattered points at the same time, and then store it in the corresponding spring, and then through the action of the one-way limiter, release the energy of the spring with larger energy storage and convert it into electrical energy.
- the two clockwork energy storage components can also continue to store energy at the same time and perform a new round of comparison and release, so that the gravitational potential energy can be more fully converted into electrical energy, the collection and conversion efficiency is higher, and it can replace the piezoelectric ceramics.
- the power generation mode reduces the comprehensive cost of the gravitational potential energy power generation method, and realizes more efficient collection, utilization and energy conversion of gravitational potential energy.
- Fig. 1 is the perspective view of the present invention
- Fig. 2 is the top view of Fig. 1;
- Fig. 3 is the sectional perspective view of the present invention.
- Fig. 4 is an enlarged view of the portion circled in Fig. 3;
- FIG. 5 is a plan view of FIG. 3 .
- the terms “installed”, “connected”, “connected”, “fixed” and other terms should be understood in a broad sense, for example, it may be a fixed connection or a detachable connection Or integrally connected; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium, and it can be the internal communication between the two components.
- installed may be a fixed connection or a detachable connection Or integrally connected
- it can be a mechanical connection or an electrical connection
- it can be a direct connection or an indirect connection through an intermediate medium, and it can be the internal communication between the two components.
- the specific meanings of the above terms in the present invention can be understood according to specific situations.
- first feature and second feature may include one or more of the features.
- first and second are only used for descriptive purposes, and should not be construed as indicating or implying relative importance or implying the number of indicated technical features.
- a feature defined as “first” or “second” may expressly or implicitly include one or more of that feature.
- FIGS. 1 to 5 of the accompanying drawings including: a mounting seat 1, a first spring energy storage assembly, a second spring energy storage assembly, a one-way stopper 8, a transmission Components and Generators 9.
- the first spring energy storage assembly includes a first rotating shaft 2 , a first spring 3 and a first spring barrel 4 ;
- the first rotating shaft 2 is unidirectionally rotatable and is mounted on the mounting base 1
- the first mainspring 3 is covered on the first shaft 2
- the first barrel 4 is covered on the first mainspring 3
- the inner end of the first mainspring 3 is connected with the first shaft 2
- the outer end is connected with the first mainspring 3.
- the barrels 4 are connected, and the first barrel 4 is rotatably mounted on the mounting base 1 , wherein the rotation of the first shaft 2 can tighten the first spring 3 , and the first spring 3 can drive the first barrel 4 to rotate.
- the first rotating shaft 2 can only rotate in one direction, when the first rotating shaft 2 rotates, only the first mainspring 3 is wound up, so as to convert the rotational kinetic energy into the elastic potential energy of the first mainspring 3 and store it. After the first spring 3 is wound up, in the process of releasing the elastic potential energy, the first spring barrel 4 will be driven to rotate.
- the second mainspring energy storage assembly includes a second rotating shaft 5, a second mainspring 6 and a second barrel 7; the second rotating shaft 5 is unidirectionally rotatably mounted on the mounting seat 1; the second mainspring 6 is covered on the first On the two rotating shafts 5, the second mainspring barrel 7 is covered on the second mainspring 6, the inner end of the second mainspring 6 is connected with the second rotating shaft 5, and the outer end is connected with the second barrel 7, and the second mainspring
- the box 7 is rotatably mounted on the mounting base 1 , wherein the rotation of the second shaft 5 can wind up the second mainspring 6 , and the second mainspring 6 can drive the second barrel 7 to rotate.
- the second rotating shaft 5 can only rotate in one direction, when the second rotating shaft 5 rotates, only the second mainspring 6 is wound up, so as to convert the rotational kinetic energy into the elastic potential energy of the second mainspring 6 and store it. After the second spring 6 is wound up, in the process of releasing the elastic potential energy, the second spring barrel 7 will be driven to rotate.
- the one-way stopper 8 is provided on the mounting base 1 , and the one-way stopper 8 is configured to be used when the stored energy of the first spring 3 is greater than that of the second spring 6
- the one-way stopper 8 fixes the second barrel 7
- the one-way stopper 8 fixes the first spring barrel 4 ;
- the first barrel 4 and the second barrel 7 are connected to the transmission assembly and drive the motor shaft 10 of the generator 9 to rotate through the transmission assembly.
- the power generation floor usually has a base and a stepping pressure plate installed on the base and can swing up and down.
- the device is installed on the base, and the first rotating shaft 2 and the second rotating shaft 5 are connected with the stepping pressure plate through the transmission mechanism.
- the human body steps on the stepping pressure plate
- the transmission mechanism drives the first rotating shaft 2 and the second rotating shaft 5 to rotate, so as to convert the gravitational potential energy of the human body into the rotational kinetic energy of the first rotating shaft 2 and the second rotating shaft 5 .
- the rotational kinetic energy of the first rotating shaft 2 and the second rotating shaft 5 will be different, and then the first spring 3 and the second rotating shaft 5 will be different.
- the energy stored by the second mainspring 6 is different, and the device is provided with a one-way stopper 8.
- the one-way stopper 8 can fix the mainspring barrel with less energy storage of the mainspring, thereby making the mainspring
- the mainspring barrel with large energy storage is rotated to release elastic potential energy for conversion into electrical energy.
- the first mainspring 3 and the second mainspring 6 can also continue to store energy at the same time. A new round of energy comparison and release of clockwork energy with larger stored energy converts it into electrical energy.
- Each spring energy storage component can collect the gravitational potential energy of different scattered points at the same time, and then store it in the corresponding spring, and then through the action of the one-way limiter 8 to release the energy of the spring with larger energy storage and convert it into electrical energy .
- the two clockwork energy storage components can also continue to store energy at the same time and perform a new round of comparison and release, so that the gravitational potential energy can be more fully converted into electrical energy, and the collection and conversion efficiency is higher. It can replace the power generation mode of piezoelectric ceramics, reduce the comprehensive cost of gravitational potential energy power generation, and realize more efficient collection, utilization and energy conversion of gravitational potential energy.
- the energy storage device of the present invention can realize the collection and power generation of gravitational potential energy of the power generation floor, and can also be used for energy collection in various forms and locations in other fields to generate power, and the application mode and scope are wider. flexible.
- the mounting base 1 includes a connecting plate 23 , a first mounting plate 24 , a second mounting plate 25 and a middle partition plate 26 , the first mounting plate 24 and the second mounting plate 24
- the mounting plates 25 are oppositely arranged and spaced apart
- the middle partition plate 26 is arranged between the first mounting plate 24 and the second mounting plate 25
- the connecting plate 23 is connected to the first mounting plate 24, the second mounting plate 25 and the third mounting plate respectively.
- the first spring 3 and the first barrel 4 are arranged between the first mounting plate 24 and the middle partition plate 26, the first rotating shaft 2 is rotatably connected with the first mounting plate 24, and the first barrel 4 is connected to the middle
- the partition plate 26 is rotatably connected
- the second spring 6 and the second barrel 7 are arranged between the second mounting plate 25 and the middle partition plate 26,
- the second rotating shaft 5 is rotatably connected with the second mounting plate 25, and the second spring
- the box 7 is rotatably connected to the middle partition plate 26, and the transmission shaft 16 is rotatably connected to the first mounting plate 24 and the second mounting plate 25, so that the structure is simple and easy to implement.
- a first one-way bearing 11 is provided between the first rotating shaft 2 and the mounting seat 1 (eg, the first mounting plate 24 above), and the second rotating shaft 5 and the mounting seat 1 (
- a second one-way bearing is provided between the second mounting plates 25) above, so that the one-way rotation of the first rotating shaft 2 and the second rotating shaft 5 can be realized.
- the first barrel 4 is provided with a first gear 12
- the second barrel 7 is provided with a second gear 13
- the transmission assembly includes a third gear 14
- the fourth gear 15 and the transmission shaft 16 the transmission shaft 16 is rotatably mounted on the mounting base 1 and connected to the motor shaft 10, the third gear 14 and the fourth gear 15 can be mounted on the transmission shaft 16 for unidirectional rotation, the first The gear 12 meshes with the third gear 14, the second gear 13 meshes with the fourth gear 15; when the first barrel 4 rotates, the first gear 12 drives the third gear 14 to rotate and then drives the transmission shaft 16 to rotate, and the fourth gear 15 does not rotate; when the second barrel 7 rotates, the second gear 13 drives the fourth gear 15 to rotate and then drives the transmission shaft 16 to rotate, and the third gear 14 does not rotate.
- the transmission form here adopts gear transmission, the transmission form of the gear is stable, the precision is high, and the transmission is reliable.
- the first gear 12 is arranged on the side surface of the first barrel 4 close to the middle partition plate 26
- the second gear 13 is arranged on the side surface of the second barrel 7 near the middle partition plate 26
- the third gear 14 and the fourth gear 15 are both mounted on the transmission shaft 16 for unidirectional rotation.
- a third one-way bearing 17 is arranged between the third gear 14 and the transmission shaft 16
- a fourth one-way bearing is arranged between the fourth gear 15 and the transmission shaft 16 , thereby Unidirectional rotation of the third gear 14 and the fourth gear 15 can be achieved.
- one end of the transmission shaft 16 is provided with a first bevel gear 18
- the motor shaft 10 is provided with a second bevel gear 19 .
- the first bevel gear 18 is meshed with the second bevel gear 19 , and the This can make the overall structure of the device more compact.
- a first groove 27 is provided at one end of the first rotating shaft 2 close to the middle partition 26 , and the first barrel 4 and the first gear 12 are provided with a first groove 27 .
- Through hole 28 the end of the second shaft 5 close to the middle partition plate 26 is provided with a second groove, the second barrel 7 and the second gear 13 are provided with a second through hole, and the middle partition plate 26 is fixedly provided with a second through hole.
- the central shaft 29, one end of the central shaft 29 extends into the first groove 27 through the first through hole 28, and the other end extends into the second groove through the second through hole.
- both axial ends of the central shaft 29 protrude from the middle partition 26, so that the first rotating shaft 2, the first barrel 4 and the first gear 12 can be sleeved on one axial end of the central shaft 29, and the first rotating shaft 2, the first barrel 4 and the first gear 12
- the two rotating shafts 5 , the second barrel 7 and the second gear 13 can be sleeved on one axial end of the central shaft 29 , so that the central shaft 29 can support the first rotating shaft 2 , the first barrel 4 and the first gear 12.
- the second rotating shaft 5, the second barrel 7 and the second gear 13 are arranged coaxially, which not only makes the structure compact, but also makes the components less prone to shaking.
- bushings may be provided in the first groove 27 , the first through hole 28 , the second groove and the second through hole, and the central shaft 29 is passed through the bushing.
- the one-way limiting member 8 is a limiting ball
- the mounting seat 1 ie, the middle partition plate 26 above
- the limiting ball is provided with a sliding through hole 20 .
- the first gear 12 is located on one axial side of the sliding through hole 20, and the second gear 13 is located on the other axial side of the sliding through hole 20;
- a first limiting hole 21 is provided on the surface of the first gear 12 close to the sliding through hole 20, and a second limiting hole 22 is provided on the surface of the second gear 13 close to the sliding through hole 20;
- a part of the sliding through hole 20 is located in the first limiting hole 21 or the second limiting hole 22 to fix the first gear 12 or the second gear 13 .
- the energy of the first spring 3 is greater than that of the second spring 6, then the first gear 12 rotates to release the energy of the first spring 3, which is close to the side of the middle partition 26 It will push the limit ball into the second limit hole 22 to fix the second gear 13; when the first gear 12 rotates until the first limit hole 21 and the sliding through hole 20 are directly opposite, if the second spring 6 If the energy is greater than the energy of the first spring 3, the side of the second gear 13 close to the middle partition 26 will push the limiting ball to be inserted into the first limiting hole 21 to fix the first gear 12, and the second gear 13 will start Rotation releases the energy of the second spring 6; when the second gear 13 rotates until the second limit hole 22 is directly opposite the sliding through hole 20, if the energy of the first spring 3 is greater than the energy of the second spring 6 at this time , the first gear 12 will push the limiting ball again into the second limiting hole 22 to fix the second gear 13 .
- This cycle is repeated, and the periodic energy comparison between the first spring 3 and the second spring 6 is repeated to drive the limit ball to move and limit itself.
- Smaller springs can continue to be wound up for energy storage, which can effectively improve the collection and conversion efficiency of gravitational potential energy.
- the movement of the limiting ball is mechanical and automatic, and the work is reliable and does not require frequent maintenance.
- the limiting ball when a part of the limiting ball is located in the first limiting hole 21 , the limiting ball is tangent to the side surface of the second gear 13 close to the intermediate plate 26 , thereby reducing the impact of the limiting ball on the second gear 13 .
- the limit ball When a part of the limit ball is located in the second limit hole 22, the limit ball is tangent to the side of the first gear 12 close to the middle partition plate 26, thereby reducing the impact of the limit ball on the first gear 12.
- the rotation of the gear 12 hinders the influence.
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Abstract
Description
Claims (10)
- 一种储能装置,其特征在于,包括:安装座、第一发条储能组件、第二发条储能组件、单向限位件、传动组件和发电机;所述第一发条储能组件包括第一转轴、第一发条和第一发条盒;所述第一转轴可单向转动地安装在所述安装座上;所述第一发条外套在所述第一转轴上,所述第一发条盒外罩在所述第一发条上,所述第一发条的内端与所述第一转轴相连,外端与所述第一发条盒相连,所述第一发条盒转动安装在所述安装座上,其中,所述第一转轴转动可上紧所述第一发条,所述第一发条可带动所述第一发条盒转动;所述第二发条储能组件包括第二转轴、第二发条和第二发条盒;所述第二转轴可单向转动地安装在所述安装座上;所述第二发条外套在所述第二转轴上,所述第二发条盒外罩在所述第二发条上,所述第二发条的内端与所述第二转轴相连,外端与所述第二发条盒相连,所述第二发条盒转动安装在所述安装座上,其中,所述第二转轴转动可上紧所述第二发条,所述第二发条可带动所述第二发条盒转动;所述单向限位件设于所述安装座上,所述单向限位件被构造成用于当所述第一发条的储存能量大于所述第二发条的储存能量时,所述单向限位件固定所述第二发条盒,当所述第二发条的储存能量大于所述第一发条的储存能量时,所述单向限位件固定所述第一发条盒;所述第一发条盒和所述第二发条盒均与所述传动组件相连并通过所述传动组件驱动所述发电机的电机轴转动。
- 根据权利要求1所述的储能装置,其特征在于,所述第一转轴与所述安装座之间设有第一单向轴承,所述第二转轴与所述安装座之间设有第二单向轴承。
- 根据权利要求1所述的储能装置,其特征在于,所述第一发条盒上设有第一齿轮,所述第二发条盒上设有第二齿轮;所述传动组件包括第三齿轮、第四齿轮和传动轴,所述传动轴转动安装在所述安装座上并与所述电机轴相连,所述第三齿轮和所述第四齿轮均可单向转动地安装在所述传动轴上,所述第一齿轮与所述第三齿轮啮合,所述第二齿轮与所述第四齿轮啮合;当所述第一发条盒转动时,所述第一齿轮带动所述第三齿轮转动进而带动所述传动轴转动,所述第四齿轮不转动;当所述第二发条盒转动时,所述第二齿轮带动所述第四齿轮转动进而带动所述传动轴转动,所述第三齿轮不转动。
- 根据权利要求3所述的储能装置,其特征在于,所述第三齿轮与所述传动轴之间设有第三单向轴承,所述第四齿轮与所述传动轴之间设有第四单向轴承。
- 根据权利要求3所述的储能装置,其特征在于,所述传动轴的一端设有第一锥齿轮,所述电机轴上设有第二锥齿轮,所述第一锥齿轮与所述第二锥齿轮啮合。
- 根据权利要求3所述的储能装置,其特征在于,所述单向限位件为限位球,所述安装座上设有滑动通孔,所述限位球设于所述滑动通孔内并可沿所述滑动通孔的轴向往复移动;所述第一齿轮位于所述滑动通孔的轴向一侧,所述第二齿轮位于所述滑动通孔的轴向另一侧;所述第一齿轮的靠近所述滑动通孔的表面上设有第一限位孔,所述第二齿轮的靠近所述滑动通孔的表面上设有第二限位孔;所述限位球的一部分位于所述滑动通孔内,一部分位于所述第一限位孔或所述第二限 位孔内以固定所述第一齿轮或所述第二齿轮。
- 根据权利要求6所述的储能装置,其特征在于,所述安装座包括连接板、第一安装板、第二安装板和中隔板,所述第一安装板和所述第二安装板相对设置且间隔开,所述中隔板设于所述第一安装板和所述第二安装板之间,所述连接板分别与所述第一安装板、第二安装板和第三安装板相连,所述中隔板上设有所述滑动通孔;所述第一发条和所述第一发条盒设于所述第一安装板和所述中隔板之间,所述第一转轴与所述第一安装板转动相连,所述第一发条盒与所述中隔板转动相连,所述第一齿轮设于所述第一发条盒的靠近所述中隔板的一侧表面上;所述第二发条和所述第二发条盒设于所述第二安装板和所述中隔板之间,所述第二转轴与所述第二安装板转动相连,所述第二发条盒与所述中隔板转动相连,所述第二齿轮设于所述第二发条盒的靠近所述中隔板的一侧表面上;所述传动轴分被与所述第一安装板和所述第二安装板转动相连。
- 根据权利要求7所述的储能装置,其特征在于,当所述限位球的一部分位于所述第一限位孔内时,所述限位球与所述第二齿轮靠近所述中隔板的侧面相切;当所述限位球的一部分位于所述第二限位孔内时,所述限位球与所述第一齿轮靠近所述中隔板的侧面相切。
- 根据权利要求7所述的储能装置,其特征在于,所述第一转轴的靠近所述中隔板的一端设有第一凹槽,所述第一发条盒和所述第一齿轮上设有第一通孔,所述第二转轴的靠近所述中隔板的一端设有第二凹槽,所述第二发条盒和所述第二齿轮上设有第二通孔,所述中隔板上固定设有中心轴,所述中心轴的一端穿过所述第一通孔伸入所述第一凹槽内,另一端穿过所述第二通孔伸入所述第二凹槽内。
- 一种发电地板,其特征在于,包括根据权利要求1-9中任一项所述的储能装置。
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