阅读说明：本技术 一种智能磁压飞轮电池 (Intelligent magnetic pressure flywheel battery ) 是由 郑灿明 于 2020-06-17 设计创作，主要内容包括：本发明公开了一种智能磁压飞轮电池,根据铁磁性材料受到机械力的作用时,导致内部导磁率发生变化,产生压磁效应而形成巨大的能量。电机通过一号主轴与转盘连接,发电机通过二号主轴的与飞轮盘连接；在飞轮盘和转盘上各设置为2件打块,打块上设有强力磁极,呈180°圆周对称布置。通过电机传动,两块同极的磁极瞬间碰撞时,爆发出巨大的能量,飞轮收集后转化成电能。由于供电为间歇性的,供电时间远小于发电时间,通过飞轮盘储能,使发动机长时间给用电终端供电,达到绿色能源使用效果,从而降低了有害排放、改善生态环境,开辟新的市场产业链服务于社会。(The invention discloses an intelligent magnetic pressure flywheel battery, which generates a piezomagnetic effect to form huge energy according to the change of internal magnetic permeability caused by the action of a ferromagnetic material under mechanical force. The motor is connected with the rotary table through a first main shaft, and the generator is connected with the flywheel disc through a second main shaft; the flywheel disc and the turntable are respectively provided with 2 beating blocks, and the beating blocks are provided with strong magnetic poles which are circumferentially and symmetrically arranged at 180 degrees. Through motor transmission, when two homopolar magnetic poles collide instantaneously, huge energy is exploded, and the flywheel is converted into electric energy after being collected. Because the power supply is intermittent, the power supply time is far shorter than the power generation time, and the energy is stored through the flywheel disc, so that the engine supplies power for the power utilization terminal for a long time, and the green energy use effect is achieved, thereby reducing harmful emission, improving the ecological environment, and opening up a new market industrial chain to serve the society.)

1. An intelligent magnetic pressure flywheel battery comprising: the device comprises a box body (19), a machine seat plate (16), a generator (9), a motor (1), a first machine seat (2), a second machine seat (8), a first main shaft (18), a second main shaft (7), a flywheel disc (6), a beating block (5), a powerful magnetic pole, a rotary disc (4), a coupler (3), a base (14), an overrunning clutch (17), a starting power supply (13), a shock absorber (15), a pulse relay (12), a power line (20), a power switch (11) and a power output plate (10); it is characterized in that:

a. the motor (1) is connected with one end of a first main shaft (18) arranged on the first machine base (2), and the turntable (4) is connected with the first main shaft (18) through a coupler (3); an overrunning clutch (17) is arranged on the coupler (3); the coupler (3) is combined with the rotary table (4) through a connecting bolt; the flywheel disc (16) is provided with 2 beating blocks (5) which are symmetrically arranged in a 180-degree circumference manner; the generator (9) is connected with one end of the second main shaft (7); the flywheel disc (6) is connected with a second main shaft (7); 2 beating blocks (5) are arranged on the flywheel disc (6) in a 180-degree circumferential symmetrical arrangement;

b. the beating blocks (5) are arranged on the rotary disc (4) and the flywheel disc (6) and are 4 in total; the included angle between every 2 pieces of the blocks (5) is 90 degrees, and 4 pieces are circumferentially and uniformly distributed for 360 degrees; strong magnetic poles are arranged on two sides of the beating block (5), and are distributed into an N pole-N pole and an S pole-S pole;

c. the motor (1) is connected with a starting power supply (13) through a power line (20); the starting power supply (13) is connected with the generator (9) through a power line (20), so that the electric quantity of the starting power supply is supplemented, and energy is provided for the operation of the motor; the generator (9) provides continuous electric energy for the power utilization terminal through a power line (20) and a power output board (10).

2. The intelligent magnetic pressure flywheel battery of claim 1, wherein: the motor (1) adopts a direct current motor, the generator (9) adopts a direct current generator, no transformer equipment is required to be installed in the using process, and meanwhile, the use of the direct current generator is safe voltage, so that the product standardization is facilitated.

3. The intelligent magnetic pressure flywheel battery of claim 1, wherein: the first machine base (2) and the second machine base (8) are connected into a whole through a fixing bolt above the machine base plate (16), and the lower part of the machine base plate (16) is connected with the base (14) through a shock absorber (15); the base (14) is fixed in the box body (19).

The technical field is as follows:

the product provided by the invention is widely applied to the technical field of civil electric automobiles, electric motorcycles, environment-friendly batteries used for community power generation and military automobile concealment.

Background art:

since the 1 st electric automobile in the 19 th century appeared to date, rechargeable batteries were used as power sources. For an electric vehicle, a battery charging device is one of the indispensable subsystems. The function of the device is to convert the electric energy of the power grid into the electric energy of the vehicle-mounted storage battery of the electric automobile. There are different methods for classifying electric vehicle charging devices, and they can be generally classified into on-vehicle charging devices and off-vehicle charging devices. The charging pile vehicle-mounted charging device is a device which is arranged on an electric automobile and charges a battery pack by adopting a ground alternating current power grid and a vehicle-mounted power supply, comprises a vehicle-mounted charger, a vehicle-mounted charging generator set and a running energy recovery charging device, and directly plugs an alternating current power cable with a plug into a charging socket of the electric automobile to charge a storage battery. The vehicle-mounted charging device usually uses a contact charger which is simple in structure and convenient to control, and can also be an induction charger. The vehicle-mounted storage battery pack is completely designed according to the type of the vehicle-mounted storage battery, and is high in pertinence. The off-board charging device, i.e., the ground charging device, mainly includes a special charger, a special charging station, a general charger, a charging station for public places, and the like. It can satisfy various charging modes of various batteries. Off-board chargers are typically relatively large in power, volume, and weight to accommodate various charging regimes. In addition, charging devices can be classified into a contact type and an induction type according to the energy conversion method when charging the battery of the electric vehicle. With the rapid development of power electronic technology and current transformation control technology and the maturity and popularization of high-precision controllable current transformation technology, a staged constant-current charging mode is basically replaced by a constant-voltage current-limiting charging mode with continuously changed charging current and charging voltage. The leading charging process is also a constant voltage current limiting charging mode. The biggest problem of contact charging is its safety and versatility. In order to meet strict safety charging standards, a plurality of measures must be adopted on a circuit to enable charging equipment to be safely charged under various environments, and constant voltage current-limiting charging and staged constant current charging belong to contact charging technologies. The novel induction charging technology of the electric automobile develops rapidly. The induction charger utilizes the transformer principle of a high-frequency alternating-current magnetic field to induce electric energy from an original side away from a vehicle to a vehicle-mounted secondary side so as to achieve the purpose of charging a storage battery. At present, electric vehicle charging stations in China are mostly limited to electric buses or internal group vehicles, and a charging station service network really facing different users is not established yet.

The invention content is as follows:

aiming at the high-speed development of the domestic electric vehicle industry at present, a series of charging facilities such as charging piles and the like must be provided for industrialization; a large amount of financial resources and material resources are needed to realize the industrialization process; the intelligent magnetic pressure flywheel battery can solve the problems.

An intelligent magnetic pressure flywheel battery is characterized in that when a ferromagnetic material is under the action of mechanical force, strain is generated in the ferromagnetic material, so that the magnetic permeability is changed, and a piezomagnetic effect is generated. When the magnetic material is magnetized, the magnetic material is restricted and cannot stretch, and stress is generated inside the magnetic material; also externally applied forces can produce stresses. When the ferromagnetic material is expanded and contracted due to magnetization to generate stress, the magnetic elastic energy is inevitably present inside the ferromagnetic material. When two magnets with the same polarity collide instantaneously, huge energy is generated by explosion; after the flywheel energy storage is collected, the generator is driven at a certain time, and the mechanical energy is converted into electric energy for power supply. When the energy stored on the flywheel is exhausted, the motor drives the magnetic pressure component through intermittent pulse current; the huge capacity of explosion of the generator drives the generator to output electric energy. Because the power supply of the motor is intermittent, the power supply time is far shorter than the time of the generator for outputting electric energy; therefore, the intelligent magnetic pressure electric vehicle charger baby can solve the problems.

An intelligent magnetic pressure flywheel battery comprising: the device comprises a box body, a machine seat plate, a generator, a motor, a first machine seat, a second machine seat, a first main shaft, a second main shaft, a flywheel disc, a beating block, a strong magnet, a rotary disc, a coupling, a base, an overrunning clutch, a starting power supply, a shock absorber, a pulse relay, a power line, a power switch and a power output plate.

According to an intelligent magnetic pressure flywheel battery, a motor is connected through one end of a first main shaft arranged on a first machine base, and a turntable is connected with the first main shaft through a coupler; the coupler is provided with an overrunning clutch and is combined with the rotary disc through a connecting bolt; the turntable is provided with 2 beating blocks which are symmetrically arranged in a 180-degree circumference manner.

According to an intelligent magnetic pressure flywheel battery, the generator is connected with one end of a second main shaft, and the flywheel disc is connected with the second main shaft; the beating blocks are arranged on the flywheel disc, and the beating blocks are 2 pieces and are arranged in 180-degree circumferential symmetry.

According to the intelligent magnetic pressure flywheel battery, the beating blocks are arranged on the rotary disc and the flywheel disc, and 4 pieces are arranged in total; the included angle between every 2 pieces of the blocks is 90 degrees, and 4 pieces of the blocks are circumferentially and uniformly distributed for 360 degrees. Two sides of the beating block are provided with strong magnetic poles which are distributed into an N pole-N pole and an S pole-S pole. When the motor is electrified, the coupler is driven, so that the turntable is driven to rotate; the beating block magnetic poles on the rotating disc collide with the beating block magnetic poles N pole-N pole and S pole-S pole on the flywheel disc to generate huge energy, and the magnetic poles are the same and generate mutual repulsive force, so that the magnetic poles arranged on the beating blocks cannot contact in the magnetic pole collision process. The rotating disc drives the flywheel disc to rotate, and the flywheel disc is continuously maintained to rotate without consuming the energy of magnetic pole collision; thereby driving the generator arranged on the second engine base to rotate and output electric energy.

According to the intelligent magnetic pressure flywheel battery, the motor adopts a direct current motor, and the generator adopts a direct current generator; in the use process, a transformer device is not required to be installed, and meanwhile, the use of the transformer device is also safe voltage, so that the product standardization is facilitated.

According to the intelligent magnetic pressure flywheel battery, a first engine base and a second engine base are connected into a whole through fixing bolts above a machine base plate, and the lower part of the machine base plate is connected with a base through a shock absorber; the base is fixed in the box, and the high-speed rotation of flywheel dish produces the vibrational force, eliminates through the bumper shock absorber, can not influence the box.

According to the intelligent magnetic pressure flywheel battery, the motor is connected with a starting power supply through a power line, the motor obtains pulse current through the control of a pulse relay and a power switch, and a turntable rotates intermittently; and automatic intelligent control is realized. When the energy stored in the flywheel disc is insufficient, the power supply is started to drive the motor, so that the hitting blocks mutually collide to generate energy to drive the flywheel disc.

According to the intelligent magnetic pressure flywheel battery, the starting power supply is connected with the generator through the power line, so that the electric quantity of the starting power supply is supplemented, and energy is provided for the operation of the motor. The generator provides continuous electric energy for the power utilization terminal through the power line and the power output board.

The intelligent magnetic pressure flywheel battery formed by the structure is widely applied to mobile power equipment terminals of electric motorcycles, electric automobiles, military facilities and the like, forms an industrialized effect, and solves the problem of consumption in building charging piles; the market share is increased; thereby promoting the development of industrial technology, greatly using green energy and improving the ecological environment of people; a new market industry chain is developed to serve the society.

Description of the drawings:

the invention is further explained below with reference to the accompanying drawings and embodiments, and fig. 1 is a schematic structural diagram of an intelligent magnetic pressure flywheel battery:

1. motor 2, I engine base 3, coupler 4, rotary disc 5, beating block 6, flywheel disc

7. No. two main shafts 8, No. two engine bases 9, generator 10, power output board 11 and power switch

12. Pulse relay 13, starting power supply 14, base 15, shock absorber 16 and machine seat plate

17. Overrunning clutch 18, first main shaft 19, box body 20 and power line

The specific implementation mode is as follows:

in order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described below clearly and completely with reference to the accompanying drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word, include the elements or items listed after that word, and their equivalents, without excluding other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect.

To maintain the following description of the embodiments of the present disclosure clear and concise, detailed descriptions of known functions and known components are omitted so as to not unnecessarily obscure the concepts of the present disclosure.

As shown in fig. 1, in the intelligent magnetic pressure flywheel battery, a motor 1 is connected with one end of a first spindle 18 through a first base 2, and a turntable 4 is connected with the first spindle 18 through a coupler 3; the coupler 3 is provided with an overrunning clutch 17, and the coupler 3 is combined with the turntable 4 through a connecting bolt; the turntable 4 is provided with 2 symmetrical beating blocks 5 in 180 degrees. The generator 9 is connected with one end of the second main shaft 7, and the flywheel disc 6 is connected with the second main shaft 7; the flywheel plate 6 is provided with 2 beating blocks 5 which are symmetrically arranged at 180 degrees. The beating blocks 5 are arranged on the rotary disc 4 and the flywheel disc 6, and 4 beating blocks are arranged in total; the included angle between every 2 pieces of the blocks is 90 degrees, and 4 pieces of the blocks are circumferentially and uniformly distributed for 360 degrees. And strong magnets are arranged on two sides of the beating block 5, and magnetic poles are distributed from N pole to N pole and from S pole to S pole. The first-size engine base 2 and the second-size engine base 8 are connected into a whole through a fixing bolt above the engine base plate 16, and the lower part of the engine base plate 16 is connected with the base 14 through a shock absorber 15; the base 14 is fixed in the box body 19, the flywheel disc 6 rotates at a high speed to generate vibration force, and the vibration force is eliminated through the shock absorber, so that the box body 19 is not influenced. The motor 1 is connected with a starting power supply 13 through a power line 20, and the motor 1 obtains pulse current through the control of the pulse relay 12 and the power switch 11, so that the motor 1 performs intermittent rotation driving. When the flywheel disc 6 is not driven, the motor 1 is driven by the starting power supply 13, so that the hitting blocks 5 are mutually impacted to generate energy to drive the flywheel disc 6 to rotate. The starting power supply 13 is connected with the generator 9 through a power line 20, and when the generator 9 works, the electric quantity of the starting power supply 13 is supplemented to provide energy for the operation of the motor 1. The generator 9 is connected with the power output board 10 through a power line 20 to provide continuous electric energy for the power terminals.

When the motor 1 is electrified, the coupling 3 is driven, so that the rotary table 4 is driven to rotate; the magnetic poles of the beating blocks 5 on the rotating disc 4 collide with the N pole, the N pole and the S pole, the S pole and the S pole of the beating blocks 5 on the flywheel disc 6 to generate huge energy, and the magnetic poles are the same and generate mutual repulsive force, so that the magnetic poles arranged on the beating blocks 5 cannot contact in the collision process. The flywheel disc 6 is driven by the rotary disc 4 to rotate circumferentially, and the energy which is not consumed and is generated by magnetic pole collision continues to maintain the rotation of the flywheel disc; thereby driving a generator 9 arranged on the second engine base 8 to rotate and output electric energy. When the hitting block 5 of the rotating disc 4 collides with the hitting block 5 on the flywheel disc 6 to rotate rapidly, the rotating disc 4 rotates rapidly without influencing the rotating speed of the motor 1 because the overrunning clutch 17 is arranged on the coupler 3; when the energy on the flywheel disc 6 is insufficient, the pulse relay 12 is switched on to supply the electric energy to the motor 1, and a new cycle is started again through the motor 1, so that the operation is repeated.