WO2006079258A1 - Moteur en materiau en acier a ressort - Google Patents

Moteur en materiau en acier a ressort Download PDF

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Publication number
WO2006079258A1
WO2006079258A1 PCT/CN2005/000420 CN2005000420W WO2006079258A1 WO 2006079258 A1 WO2006079258 A1 WO 2006079258A1 CN 2005000420 W CN2005000420 W CN 2005000420W WO 2006079258 A1 WO2006079258 A1 WO 2006079258A1
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WO
WIPO (PCT)
Prior art keywords
group
energy
power output
work
steel material
Prior art date
Application number
PCT/CN2005/000420
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English (en)
Chinese (zh)
Inventor
Yongming Yang
Hong Chen
Original Assignee
Shanghai Jcth Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shanghai Jcth Co., Ltd. filed Critical Shanghai Jcth Co., Ltd.
Publication of WO2006079258A1 publication Critical patent/WO2006079258A1/fr

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03GSPRING, WEIGHT, INERTIA OR LIKE MOTORS; MECHANICAL-POWER PRODUCING DEVICES OR MECHANISMS, NOT OTHERWISE PROVIDED FOR OR USING ENERGY SOURCES NOT OTHERWISE PROVIDED FOR
    • F03G1/00Spring motors
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03GSPRING, WEIGHT, INERTIA OR LIKE MOTORS; MECHANICAL-POWER PRODUCING DEVICES OR MECHANISMS, NOT OTHERWISE PROVIDED FOR OR USING ENERGY SOURCES NOT OTHERWISE PROVIDED FOR
    • F03G1/00Spring motors
    • F03G1/06Other parts or details
    • F03G1/08Other parts or details for winding

Definitions

  • the present invention relates to a power source machine, and more particularly to a spring steel material energy engine that is primarily operated by artificial energy storage energy, and more particularly to mechanical parts therein. Background technique
  • the existing power machinery for power sources includes gasoline engines, diesel engines, gas engines, hydrogen-burning engines, and the like, as well as electric motors, inertial energy storage power, and atomic power. They are all potential natural energy storage sources of natural fuel energy source energy or heat source heat energy conversion work power. As we all know, natural fuel energy resources are limited, especially oil resources and natural gas will have a depletion day. With the rapid development of society and the expansion of the application of power sources, fuel consumption has increased dramatically, and the contradiction between supply and demand has become more and more prominent. It has indeed become a concern for countries all over the world, showing an increasingly fierce situation. At the same time as the competition, we are actively searching for and developing new energy sources.
  • the invention of the wood is to provide a spring steel material energy engine, which is mainly made up of a solid solid energy of a solid steel material that is extracted from the energy of the spring steel material.
  • a spring steel material energy engine comprising a frame, a main power output shaft mounted on the frame, wherein: the engine further comprises two sets of hard solids An accumulator-type accumulator for accumulating energy bases for alternate energy storage and work; an external power source, an activator assembly accumulator for activating two sets of energy; a synchronous gearbox, including There are two sets of shifting mechanisms and a power output shaft connected to the main power output shaft.
  • a switching device is provided between the two sets of shifting mechanisms and the main power output shaft for switching the two sets of shifting mechanisms of the transmission towel, such that one of the sets When the shifting mechanism is connected to the power output shaft, the !/j ⁇ 1 shifting mechanism is separated from the power output shaft; the control system matched with the energy storage converter is used to control two sets of energy storage converters, so that a set of energy storage converters When doing work, the other group can activate the energy storage by means of an external power source through the activation device.
  • Each set of actuator-type accumulators includes four actuator-type accumulators, each actuator-type accumulator comprising a contact-type planar coil spring-defining constant-value energy source, each The fixed-rate energy is connected to an activator.
  • Each set of shifting mechanisms in the synchronous transmission includes four transmission gears respectively connected to one of the four fixed-valued energy sources, and an input speed-increasing gear that is meshed with the four force-transmitting gears, and the input increase The speed gear meshes with the transmission gear and the power output speed increasing gear that is meshed with the shift gear.
  • the activator is a plucking wheel, and both ends of the universal mandrel are fixed on the frame by bearings, and the plucking wheel is fixed on the end of the universal mandrel opposite to the synchronous gearbox, and the activator sleeve housing is installed through the bearing
  • one end of the activator sleeve housing and the synchronous gearbox are fixed with a force transmission gear
  • the planar worm spring is fixed at a fixed end of the energy source on the universal mandrel, and the other outer end It is fixed to the inner wall of the actuator sleeve housing, and one end of the actuator sleeve housing is connected with the transmission gear of the synchronous transmission.
  • the external power source includes an external force power source motor and two or more speed reducers driven by the same.
  • the power source motor is powered by a battery, and the self-generator and the two-charger matched with the battery are charged.
  • the gearbox of the 3 ⁇ 4 or more is a worm gear. Worm gear reduction transmission mechanism.
  • the switching device in the synchronous gearbox is an operating mechanism and a one-way force transmitting clutch driven by the same.
  • the one-way force transmitting clutch is disposed between two sets of power output increasing gears and a power output shaft, and is used with the power output shaft. Spline connection.
  • Each hard solid fixed value energy source is equipped with a force transmission gear, and the force transmission gear is integrated to an input speed increasing gear of the same group shifting mechanism, and then the shift gear and the power output speed increasing gear are input, and finally the single pass The power is output to the main power output shaft to the force transmitting clutch.
  • Each hard solid fixed value energy is also equipped with a mandrel and a dial, and with at least two stages: "speed reduction mechanism, external power source motor and power supply as external power source, two sets of energy can be made.
  • the source energy energy can be naturally produced in the set working distance.
  • the control system includes a power switch; the distribution activates the work control device, the active work control device controls the switching device to switch, and the two sets of activator-type accumulators are activated and operated in turn; two activation sensors are used to detect two Whether the group activator assembly-type energy storage converter is fully activated, and its signal is fed back to the distribution activation work control device; two working stroke distance sensors are used to detect whether the working stroke is close to the set working stroke, and the signal is fed back to the distribution activation work. Controller.
  • the control system further includes an electromagnetic force retractor controlled by the distribution activation work control device and a joystick connected thereto, the joystick is used to control the switching device to perform switching, and is controlled by the distribution activation work control device, and the power output growth rate can be locked.
  • Gear locking device In this way, a group of energy sources engages the force output power by the one-way force transmission clutch while working, and at the same time can lock another set of energy that has completed the work of doing work, and can continue to activate the energy storage by means of external force and can stand by to do work. Moreover, the energy that can make its work can be correctly connected in the application process due to the change of the working stroke time value when the power speed changes, to meet the repeated cycle of the hard solid fixed value energy, the continuous use of the application power power Source condition.
  • the activator of the hard solid fixed value energy in the invention can be designed into a plurality of combined configuration energy sources Values, such as two sets of energy generators, each set of energy activator-type accumulators are configured to meet the application power value requirements, and can be configured with three, four, five... only 3 ⁇ 4 to meet the needs, but regardless of How many configurations are configured, the two sets of energy must be configured synchronously.
  • Figure 1 is a front view of a spring steel material energy engine in accordance with the present invention
  • Figure 2 is a cross-sectional view of the AA of the spring steel material energy engine shown in Figure 1.
  • FIG. 3 is a schematic diagram of the transmission system of the present invention
  • FIG. 4 is a schematic diagram of the control system of the present invention
  • Figure 5 is a schematic view showing an embodiment of the energy source of spring steel material in the present invention.
  • Figure 6 is a schematic diagram of the energy of the spring steel material before activation.
  • Figure 7 is a schematic view of the energy of the spring steel material after activation.
  • the spring steel material energy engine of the present invention mainly comprises a frame, a main power output shaft 54 mounted on the frame 1, characterized in that the engine further comprises two sets of hard solid fixed energy.
  • Cardinal activator assembly accumulator for alternately activating and alternating work; external power source for activating two sets of actuator-type accumulators; synchronous gearbox 6, comprising two sets of shifting mechanisms 36, 37 and a power output shaft 59 connected to the main power output shaft 54, a one-way force transmission clutch 62 is provided between the two sets of shifting mechanisms and the main power output shaft 54, for switching two sets of the synchronous gearbox 6
  • the shifting mechanisms 36, 37 are such that when one of the shifting mechanisms is coupled to the power output shaft 59, the other of the shifting mechanisms is separated from the power output shaft 59; and a control system for controlling the two sets of energy storage converters When the converter can do work, the other group can activate the energy storage by means of the activation device by means of the external power source.
  • the invention utilizes the energy storage energy of the atomic interaction of a plurality of different elements in the spring steel, and activates the potential by the external force excitation.
  • the energy storage is rejuvenated, so that it can continuously operate the output power source under the activation of external force like the fuel engine.
  • Group A 46 the above two groups of energy are respectively referred to as Group A 46.
  • Group B 47 the same components are selected only for one of them. If not, they are all Group A components.
  • Each of the set of actuator-type accumulators includes four activator-type accumulators 12 (labeled as 12 in the group of activator-type accumulators, and 19 in group B).
  • Each of the per-actuator assembly-type accumulators 12 (labeled 19 in group B) includes a contact-type planar volute spring setpoint energy source 33 and a connection to the fixed-rate energy source 33 used as an activator Dial 3 1 (marked 31 in the group of the starting wheel A and 40 in the group B).
  • Each of the shifting mechanisms in the synchronous transmission 6 includes four transmission gears 34 respectively connected to one of the four fixed-set energy sources 33 (transmission gears 34 of group A, transmission gears 38 of group B) ), the input speed increasing gear 56 (the input speed increasing gear 56 of the group A, the input speed increasing gear 68 of the group B), which is meshed with the four force transmitting gears, and the shifting gear 57 (A group) that is meshed with the input speed increasing gear
  • the shifting gear 57 of the group, the shifting gear 58 of the B group, and the power output increasing gear 61 (the power output increasing gear 61 of the group A, and the power output increasing gear 64 of the group B) meshing with the shifting gear.
  • Both ends of the universal mandrel 32 are fixed to the frame by bearings, and the plucking wheel 31 is fixed to the end of the universal mandrel 32 opposite to the synchronous gearbox 6, and the actuator sleeve housing 26 passes through the bearing 29 (A
  • the group bearing 29, group B bearing 35) is mounted on the universal mandrel 32, which is fixed to the force transmitting gear 34 of the synchronous gearbox 6.
  • the plucking wheel 31 (group A plucking wheel 31, group B plucking wheel 40) and two stages equipped with external power source motor 42 (group A power source motor 42, group B power source motor 51) are driven by 1:
  • the speed reducer 43 (group A speed reducer 43, group B speed reducer 50) is connected, and the electric motor 42 and 51 are connected to the battery 72 for supplying power.
  • a unidirectional force transmitting clutch 62 is disposed between the two sets of power output increasing gears A, 61, 64 and the power output shaft 59.
  • the one-way force clutch 62 is splined and coupled to the power output shaft 59.
  • the one-way force transmitting clutch 62 is coupled to the operating mechanism 63 and is controlled by the control system.
  • the control system includes a power switch 14; an active activation work control unit 16 that controls the switching device to switch, and alternately activates and performs work for each of the two sets of activator-type accumulators; Group A activates sensor 69, Group B activates sensor 75) to detect whether the two sets of activator-type accumulators are all activated, and the signals are fed back to the distribution activation work controller 16; two working distance sensors 70 ( A group working stroke distance sensor, group B working stroke distance sensor 76) is used to detect whether the working stroke is close to the set working stroke, and the signal is fed back to the distribution activation work control unit 16.
  • the control system also includes an electromagnetic force puller 73, a joystick 13, a master switch 15 and a warning 74.
  • the automatic transmission switch 15 can make the distribution activation work control device 16 enter the automatic working state, and the distribution activation work control device 16 sends a signal to the electromagnetic force retractor 73, and controls the operation lever 13, thereby controlling the operation mechanism 63 to make the one-way transmission force. Clutch 62 operates, and the dispensed active work controller 16 can also signal the alert 74 to alert.
  • the spring steel material energy engine of the present invention implements the hard solid fixed value energy of the energy bases of the two groups A and B alternately by the external force to activate the energy storage and the alternate work automatic operation program.
  • the active energy storage device 16 is activated by the distribution activation work controller 16 to the electromagnetic force tractor 73 (A and B energy activations are arbitrarily determined, now taking the group A as an example), and the tractor 73 immediately manipulates the stalk
  • the control operating mechanism 63 drives the one-way force transmitting clutch 62 to engage the Group A power output speed increasing gear 61 while the Group B locking device controls the Group B power output speed increasing gear 64 by the operating mechanism 63.
  • Group A energy is immediately started by the external force power source motor 42 (four groups of energy, four motors, or two or single), and the speed reducer 43 is rotated to rotate the mandrel 32 to rotate the mandrel 32.
  • the accumulated value of energy 33 is stored.
  • the mandrel 32 When the Group A energy source is fully activated, the mandrel 32 is automatically stopped and locked, and the information is fed back to the distribution activation work control unit 16 by the activation sensor 69.
  • the distribution activation actuation controller 16 When the distribution activation actuation controller 16 receives all activation information, it immediately sends a signal to the warning device 74, and the alarm 74 immediately alerts the operation user that the engine can be activated and the B group is on standby. After the user hears the sound of the warning device 74, the user can operate and operate, and the A group of fixed value energy 33 works.
  • the work-stroke distance sensor 70 feeds back information to the distribution-activated work control unit 16, and when the distribution-activated work control unit 16 receives the sensor 70 After the information, the command is immediately issued to activate the Group B fixed-set energy storage task.
  • Group B starts to be driven by the external force power source motor 51 in the same order as that of Group A (four groups of energy sources, four motors, or two or single units, in principle, the two groups are set to apply the application synchronization) to drive the speed reducer 50 to rotate.
  • the plucking wheel 40 rotates the mandrel to activate the fixed-set energy 66 energy storage.
  • the energy of group B is fully activated, the mandrel is automatically stopped and locked, and the information is fed back to the distribution activation work controller 16 by the activation sensor 75, and then standby is used to perform the work of the group A energy.
  • the work stroke distance sensor 70 information is fed back to the distribution activation work control unit 16.
  • the work controller 16 receives After the group A energy limit working distance information of the sensor 70, the group B energy is released to replace the group A energy work, and the electromagnetic force tractor 73 is dispatched to directly operate the joystick 13, and the control mechanism 63 drives the one-way force clutch 62.
  • the work distance distance sensor 76 of the group B feeds back the information to the distribution activation work control unit 16, and when the distribution activation work control unit 16 receives the group B energy work After working to set the distance information, the Group A activates the energy storage command immediately, and activates the energy storage standby to replace the Group B energy work in the original sequence.
  • the group B energy work is performed to the same last set working distance lap of the group A, the information is fed back to the distribution activation work controller 16 by the work distance sensor 76.
  • the distribution activation work control unit 16 receives the B group energy limit working distance information of the sensor 76, immediately releases the group A energy to replace the group B energy work, and repeats the original manipulation engagement, separation, and locking action, and repeats the cycle.
  • Each hard solids fixed value energy source 33 is provided with a force transmission gear 34 and a mandrel 32 and a plucking wheel 31 which are activated by an external force.
  • the power transmission gear 34 is concentrated to the input speed increasing gear 56 of the shifting mechanism of the same group, and then passed through the shifting gear 57 and the power output speed increasing gear 61, and finally the power is output to the main power output shaft 54 through the one-way power transmitting clutch 62.
  • the plucking wheel 31 for accumulating energy storage by external force is driven by a worm gear reduction mechanism driven by a group of motors, and on the one hand, the battery power is rarely used when the energy is activated by the external force, and on the other hand, The activated mandrel can not cause any slippage of the mandrel.
  • a double flywheel and a rotational speed power adjustment operating mechanism and a control switch speed control manipulator can also be used.
  • the main power output shaft 54 is provided with a variable diameter flywheel 52 and a double flywheel fixed as a flywheel without a combination.
  • the variable flywheel 52 is fixed on the main power output shaft 54 by a mount 39, and the fixed body flywheel 55 is splined.
  • Actively mounted on the main power output shaft 54, the fixed body flywheel 55 is in the variable flywheel
  • a rotational speed power adjustment operating mechanism 21 is provided on the opposite side of the 52, and the rotational speed power adjustment operating mechanism 21 is engaged with the control stroke distance pressing device 22, and the control stroke distance tandem 22 is tangent to the side end surface of the fixed body flywheel 55.
  • the rotational speed power adjustment operating mechanism 21 is coupled to the control switch speed control manipulator 20, and the control throttle speed control manipulator 20 is engaged with the limit shift stroke distance locator 7.
  • the Pi changes the instantaneous glow work to gradually renew the work with the working stroke distance and the working stroke time, and also makes the mechanical characteristics Strong (hard) to weak (soft), changed to stable mechanical properties, and can make the zigzag wave characteristic curve appearing when two sets of energy are connected alternately to become stable and can eliminate the characteristics of zigzag waves.
  • I can pass the I of the flywheel 52!
  • the diameter is enlarged and the amplitude of the power application power band is expanded with the expansion of the variable diameter flywheel, which drives the fixed body flywheel 55 to shift, and the different speed and power values are adjusted by controlling the displacement stroke distance, and the rotational speed power can be adjusted.
  • the steering mechanism is controlled by it.
  • the switch speed manipulator controls the fixed working distance of the flywheel to shift, and the speed and power can be adjusted to meet the requirements of various variable power power sources.
  • the present invention also has a self-generator 24, a dual charger 71, and a secondary charger 71 for recovering and charging battery power.
  • the charger can recover the battery power during operation, and can contact the power after the shutdown to resume charging to meet the application requirements for activation of the energy storage.
  • reference numeral 17 is a neutral switch
  • 23 is an electromagnetic force valve
  • the main power output shaft 54 is provided with a brake block 53 which can make the side of the fixed body flywheel 55 tangential to the brake block 53 when the machine is stopped, when it is necessary to stay overnight or stop.
  • the electromagnetic force valve will automatically open after opening the neutral switch, and automatically open any group of energy that has been activated.
  • the energy storage glows to return to the natural stress state in the fixed-rate energy activator assembly-type energy storage converter.
  • Ben A spring steel material energy activation device comprises a frame, an external power source mounted on the frame, a deceleration device connected to the external power source, and the activation device further comprises an activation connection connected to the deceleration device
  • the dial wheel activates the center of the plucking wheel to fix the mandrel, and the activating mandrel is fixed to the inner end of the spring of the spring steel material energy source.
  • the energy of the external power source is transmitted to the active plucking wheel through the deceleration device, and the plucking wheel is activated to activate the rotation of the mandrel.
  • the spring inner end of the spring steel material energy is fixed to the activated mandrel, and the spring steel material energy
  • the outer end of the spring is fixed, so that the inner end of the spring steel material energy can be driven to rotate and wind up, thereby satisfying the potential artificial energy storage energy-activated winding condition inherent in the hard solid fixed value energy of the spring steel material energy.
  • the external power source of the spring steel material energy activation device is an electric motor and a power source battery for driving the electric motor.
  • the deceleration device of the spring steel material energy activation device is a worm connected to the motor, a worm wheel meshed with the worm, and a power connected to the worm wheel. An output gear that is coupled to the activated plucking wheel.
  • the power of the power source battery is converted into mechanical energy by the motor, and the motor sequentially transmits force to the worm, the worm wheel and the power output gear, and then activates the plucking wheel, the output power torque rotates to activate the mandrel, and finally rotates the take-up spring, activates the spring Inherent potential artificial energy storage energy.
  • a spring steel material energy activation device comprises a frame, an external power source mounted on the frame, and a deceleration device 43 connected to the external power source, wherein the activation device further comprises
  • the starter dial 31 is activated by the deceleration device 43, and the activation dial 16 is fixed to the center of the activation mandrel 32.
  • the activation mandrel 32 is fixed to the spring inner end of the spring steel material energy source 33.
  • the external power source is the electric motor 42 and the power source battery 72 that drives the electric motor 42.
  • the speed reducing device 43 is a worm 10 connected to the motor 42, a worm wheel 1 meshingly coupled to the worm 10, and a power output gear 2 connected to the worm wheel 10, the power output gear 2 being meshed with the activated plucking wheel 31.
  • the electric energy of the external power source battery 72 is converted into mechanical energy by the motor 42, and the electric motor 42 transmits power to the worm 10 connected thereto, through the worm 10 and the worm wheel.
  • the worm gear 1 1 is in turn connected to the power output gear 2, through which the power is transmitted to the active pulsator 3 1 meshing with the power output gear 2 Activating the plucking wheel 3 1 in turn transfers power to the centrally activated activation mandrel 32.
  • the inner end of the spring 33 which is refined by the spring steel material energy into a finished hard solid fixed value energy source is fixed to the activation mandrel 32 by the fixing bolt 4, and the outer end of the spring 33 is fixed to the casing 26 by the fixed locking bolt 5.
  • the activation mandrel 32 outputs the power to rotate the take-up spring 33 to activate the inherently potential artificial energy stored therein.
  • Figures 6 and 7 show schematic diagrams of the energy of the spring steel material before and after activation, respectively. It can be seen that before activation, the spring is spiraled on the outside, and the spring is driven to the inner side by the activation mandrel to activate the potential energy storage. After activation, the spring is spiraled on the inner side, and when the work is done, the potential energy is output from the outer end. Energy, the spring is released to the outside.
  • the invention fully utilizes the preconditions of the electric motor 42, the rated speed and the rated power, and the setting and configuration conditions of the 10, 1 1 and 2, 31 cross-bridge type fixed-connection continuous-ring force increase and increase torque of the mechanical component deceleration configuration.
  • the torque consumption value on the motor is reduced to activate the tightening spring torque increase, while not obeying the energy application conservation law, satisfying the condition of the inherent potential energy storage energy in the activation spring.
  • the main advantages of the invention are as follows: 1.
  • the mechanical properties are hard; 2.
  • the dynamic performance is stable; 3. No need to use any natural fuel energy; 4. No environmental pollution; 5.
  • Cost of use compared with fuel engines of the same power. It can save more than 98% and save more than 96% compared with electric motor. 6. It can be used in vacuum and water without restrictions. 7.
  • Long service life, convenient maintenance and convenient installation commonly known as spring fatigue, In essence, after the total amount of potential energy storage is gradually completed, there is no elastic force, then the spring should be updated.
  • Power can be designed and set according to the application needs, and it is more convenient than fuel engine and motor.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Toys (AREA)
  • Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)

Abstract

La présente invention expose un moteur en matériau en acier à ressort. Le moteur se compose de deux jeux de convertisseur à accumulation, de sources de courant externes, d’une boîte de vitesses synchronisée et d’un appareil de commande. La boîte de vitesses synchronisée s’achève par deux jeux de changement de vitesse. L’appareil de commande commande les deux jeux de convertisseur à accumulation pour accumuler de façon alternée l’énergie provenant des sources de courant externes et pour réaliser une tâche. L’énergie externe permettant d’activer le matériau en acier à ressort est réduite et elle ne libère pas d’agent polluant. Le matériau en acier à ressort activé peut produire une quantité importante de courant dans cet état spécifique.
PCT/CN2005/000420 2005-01-26 2005-03-30 Moteur en materiau en acier a ressort WO2006079258A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN200510023649.6 2005-01-26
CN 200510023649 CN1644918A (zh) 2005-01-26 2005-01-26 弹簧钢材料能源发动机

Publications (1)

Publication Number Publication Date
WO2006079258A1 true WO2006079258A1 (fr) 2006-08-03

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2927376A1 (fr) * 2008-02-13 2009-08-14 Vermont Gerard Michel Dominiqu Dispositif comprenant un moteur electrique entrainant un moteur a ressort et a volant d'inertie
CZ308820B6 (cs) * 2013-01-03 2021-06-16 Jiří Martinek Pružinový posilovač
USD985032S1 (en) * 2021-03-01 2023-05-02 Graviton Motors, Inc. Dual flywheel energy apparatus

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102168656B (zh) * 2011-03-22 2013-01-30 盐城合能机电科技发展有限公司 一种使用再生物理能源做功的发动机
CN107082025A (zh) * 2017-05-12 2017-08-22 山东亿玛扬帆机电有限公司 一种压簧式蓄能转换装置及其工作方法
WO2023223216A1 (fr) * 2022-05-19 2023-11-23 Rodriguez Lopez Gerson Système alternateur d'énergie mécanique concentrée

Citations (3)

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Publication number Priority date Publication date Assignee Title
CN2237734Y (zh) * 1994-04-18 1996-10-16 姚铁人 弹簧动力装置
CN1281948A (zh) * 1999-07-24 2001-01-31 王伟国 机械蓄能装置
CN1379178A (zh) * 2002-05-23 2002-11-13 杨永明 机械能链动力源装置

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2237734Y (zh) * 1994-04-18 1996-10-16 姚铁人 弹簧动力装置
CN1281948A (zh) * 1999-07-24 2001-01-31 王伟国 机械蓄能装置
CN1379178A (zh) * 2002-05-23 2002-11-13 杨永明 机械能链动力源装置

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2927376A1 (fr) * 2008-02-13 2009-08-14 Vermont Gerard Michel Dominiqu Dispositif comprenant un moteur electrique entrainant un moteur a ressort et a volant d'inertie
CZ308820B6 (cs) * 2013-01-03 2021-06-16 Jiří Martinek Pružinový posilovač
USD985032S1 (en) * 2021-03-01 2023-05-02 Graviton Motors, Inc. Dual flywheel energy apparatus

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