TWI544720B - With the plug with the wind to the battery - Google Patents

Description

Plug and play with wind energy battery

The invention relates to a wind power battery device for a plug-and-play wind energy battery, in particular to a power storage device and a wind power converter, and a power adapter, so that the power storage device can be externally The wind energy can generate electricity and charge, and the power storage device can also provide the power supply and power consumption of the external power terminal at any time, so as to achieve the battery storage and discharge device for convenient storage of the battery, energy storage of the battery, and widespread use of the battery.

According to the current era of oil shortages and high oil prices, the cost of using petroleum-related energy has increased substantially. At the same time, in order to avoid the drastic changes in the environment caused by excessive carbon dioxide emissions from the use of oil, all parties have advocated energy conservation. Carbon-related practices, in which the conversion of wind energy into electricity that can be easily stored and widely used, is a specific practice of energy conservation and carbon reduction.

The common way to store stored energy is to use various types of batteries. Please refer to Figure 1 for the battery positive electrode 02, the battery negative electrode 03 and the power supply positive electrode and the negative electrode of the power supply. The DC power is directly supplied from the DC power supply terminal to the battery 01. The DC power supply end generally uses a mains terminal (such as a commercial power supply) or a generator end (such as a car engine) to convert the AC power of the mains terminal or the generator end into DC power via a rectifier. The battery 01 is powered by DC The form stores electrical energy.

The use of the mains terminal as a battery to store electrical energy sources (mains charging) is an additional type of electricity. Although these batteries can be used in a variety of electrical equipment, however, long-term or continuous use of the utility battery charging will result in considerable electricity consumption. In addition to charging, it is not able to balance the requirements of energy saving and carbon reduction; on the other hand, using the generator end as a battery to store the source of electrical energy (generator charging), the stored energy of the battery is mostly fixed or specific use (such as: car power), When the battery is not easy or cannot be used for other electrical equipment, the application range of the battery using the generator to charge and store electrical energy is quite limited.

In view of the shortcomings of charging and power consumption of various batteries derived from the above prior art, the creator of the present invention has improved and innovated, and after many days of painstaking research, he finally succeeded in researching and developing a kind of "plug and play" wind energy. Battery" wind battery device.

The purpose of the invention is to provide a wind power device that can generate electricity by wind power, directly store electricity, and can be powered at any time. Please refer to FIG. 2 and FIG. 5, the concept of which can be set at the end of the power storage device 11 The wind power converter 12 converts the DC power by the wind energy of the wind power converter 12, so that the power storage device 11 can generate electricity and charge by the wind energy of the outside, and can also be provided at the power storage device 11 end. The power adapter 15 converts the DC power or the AC power by the DC power of the power adapter 15 so that the power storage device 11 can also supply power and power to the external power terminal, so that the power storage device 11 is provided. It can achieve the purpose of wind energy charging and energy saving, and the power storage device 11 can be used to provide other power settings. Ready to use.

For the above purposes, the technical means of the invention is to provide a wind power converter (constituting a "wind energy battery") at a power storage device end, and the wind power converter can be mechanically connected and electrically connected to the power storage device. The wind power converter can be mechanically separated and electrically separated from the power storage device. The "wind energy battery" can generate electricity by using wind energy, and store the generated power in the power storage device; A power adapter (constituting a "plug-and-play battery") is provided, and the power adapter is mechanically and electrically connected to the power storage device, and the power adapter can be mechanically separated from the power storage device and electrically Separating, the "plug-and-play battery" can supply the power stored in the power storage device to the external power terminal.

The first part of the wind power converter is provided with a first fan and a first fan rotating shaft and a second fan and a second fan rotating shaft. The wind power converter is internally provided with two sets of N-pole magnets and S-pole magnets, and two generating coils. Two brushes and two rectifiers are disposed on the outside of the power storage device, and two external electrodes are disposed. The power storage device is internally provided with a first storage battery, a second storage battery and three switches. The first fan shaft is mechanically coupled to a power generating coil (constituting a generator rotor). The power generating coil is mechanically and electrically connected to a brush. The brush is electrically connected to a rectifier, and the rectifier is connected to the power storage device. The external electrode is electrically connected to the battery electrode of the first battery, and the second fan shaft is mechanically coupled to another power generating coil (constituting another generator rotor), and the other power generating coil is mechanically connected and electrically connected to the other brush. Connected, the other brush is electrically connected to another rectifier, and the other rectifier is electrically connected to the battery electrode of the second battery via the external electrode of the power storage device; the two sets of N-pole magnets and S-pole magnets are fixed to The interior of the wind power converter (constituting two sets of generators) The stator) has an active gap between the two sets of N-pole magnets and S-pole magnets and the two power generating coils. The power adapter is externally provided with a DC power and an AC power. The power adapter is internally provided with an adjustable transformer and an adjustable converter. The DC power is electrically connected to the adjustable transformer, and the adjustable The transformer is further electrically connected to the external electrode of the power storage device, and the AC power is electrically connected to the adjustable converter, and the adjustable converter is further electrically connected to the external electrode of the power storage device.

Therefore, when the wind power converter is in mechanical connection and electrical connection with the power storage device ("wind energy battery"), and when the first fan and the second fan outside the wind power converter are in a rotating operation, the first a first fan rotating shaft of a fan and a second fan rotating shaft of the second fan respectively generate alternating current power (wind power generation) by converting wind energy between the internal power generating coil of the wind power converter and the N-pole magnet and the S-pole magnet, and The alternating current power is converted into direct current power by the brush and the rectifier inside the wind power converter, so that the wind power converter can directly and continuously supply the direct current power to the first fan and the second fan during the rotating operation. The first storage battery and the second storage battery (wind energy charging) in the power storage device enable the battery storage capacity of the "wind energy storage battery" to reach a required range (full charge). In addition, when the wind power converter is in mechanical separation and electrical separation from the power storage device, and during the mechanical connection and electrical connection between the power adapter and the power storage device ("plug-and-play battery"), The first storage battery inside the power storage device, the second storage battery is directly and continuously passed through the adjustable transformer (DC power conversion DC power) and the adjustable inverter (DC power conversion AC power) inside the power adapter The converted DC power and the converted AC power are supplied to the DC power port and the AC power port outside the power adapter, so that the "plug-and-play battery" can provide its external power terminal (DC negative) Power supply and power consumption of the load or AC load). If the battery storage capacity of the "plug-and-play battery" does not reach the required range (not full charge) after being used by the external power terminal, the power adapter can be mechanically separated and electrically separated from the power storage device, and The wind power converter is again mechanically and electrically connected to the power storage device (reconstituting the "wind energy battery") to continue to supply the DC power required for the power storage device by using wind energy.

In this way, in the creation of the invention, a wind power battery device comprising a power storage device, a wind power converter and a power adapter, which can be used in the power storage device, can be used at any time. The power generation and charging of the external power storage device is used to increase the battery storage capacity of the battery, and the battery inside the power storage device can provide power supply and power for the external power supply of the power storage device at any time. The use of a new charging and power supply concept for the power storage device can be used to achieve multiple purposes and advantages of convenient storage of the battery, energy storage of the battery, and widespread use of the battery.

Please refer to the following detailed description of a preferred embodiment of the wind-powered battery device for the "plug-and-play wind battery" of the present invention and the accompanying drawings, which will further understand the technical content of the creation and its purpose and effect:

11‧‧‧Power storage device

111‧‧‧First external positive electrode

112‧‧‧First external negative electrode

113‧‧‧Second external positive electrode

114‧‧‧Second external negative electrode

115‧‧‧First battery

116‧‧‧Second battery

117‧‧‧First switch

118‧‧‧Second switch

119‧‧‧ third switch

12‧‧‧Wind power converter

1201‧‧‧First N-pole magnet

1202‧‧‧First S-pole magnet

1203‧‧‧Second N-pole magnet

1204‧‧‧Second S-pole magnet

1205‧‧‧First generation coil

1206‧‧‧second power generating coil

1207‧‧‧First brush

1208‧‧‧second brush

1209‧‧‧First rectifier

1210‧‧‧Second rectifier

13‧‧‧First fan

131‧‧‧First fan shaft

132‧‧‧First fan blade

14‧‧‧second fan

141‧‧‧Second fan shaft

142‧‧‧Second fan blades

15‧‧‧Power Adapter

151‧‧‧ adjustable transformer

152‧‧‧Adjustable converter

16‧‧‧DC Power Unit (DCP)

17‧‧‧AC Power Transfer (ACP)

Figure 1 is a schematic diagram of a conventional battery.

Fig. 2 is a schematic view showing the mechanical connection and electrical connection between the wind power converter and the power storage device in the "plug-and-play wind energy battery" for the invention.

Figure 3 shows the wind power converter and the storage in the "plug-and-play wind energy battery" for the invention. Internal structure diagram and connection diagram of the electric device.

Fig. 4 is a schematic view showing the mechanical separation and electrical separation of the wind power converter and the power storage device in the "plug-and-play wind battery" for the invention.

Fig. 5 is a schematic view showing the mechanical connection and electrical connection between the power adapter and the power storage device in the "plug-and-play wind energy battery" of the present invention.

Fig. 6 is a diagram showing the internal structure and connection diagram of the power adapter and the power storage device in the "plug-and-play wind energy battery" of the present invention.

Fig. 7 is a schematic view showing the mechanical separation and electrical separation of the power adapter and the power storage device in the "plug-and-play wind energy battery" of the present invention.

The wind power battery device of the "plug-and-play wind battery" provided by the present invention, as shown in Fig. 2, Fig. 4 and Fig. 3, the "plug and play wind energy battery" wind battery device A wind power converter 12 (constituting a "wind energy battery") is disposed at a power storage device 11 end, and the wind power converter 12 can be mechanically and electrically connected to the power storage device 11 (as shown in FIG. 2). The wind power converter 12 can also be mechanically separated and electrically separated from the power storage device 11 (as shown in FIG. 4). A first fan 13 and a second fan 14 are disposed outside the wind power converter 12. The first fan 13 is formed by a first fan rotating shaft 131 and a first fan blade 132, and the second fan 14 is composed of a second fan 14. The fan shaft 141 is formed by a second fan blade 142. The wind power converter 12 is internally provided with a first N-pole magnet 1201, a first S-pole magnet 1202, a second N-pole magnet 1203, and a second S-pole magnet. 1204. A first power generating coil 1205, a second power generating coil 1206, a first brush 1207, a second brush 1208, a first rectifier 1209, and a second rectifier 1210. The power storage device 11 is externally disposed. There is a first external positive electrode 111, a first external negative electrode 112, a second external positive electrode 113, and a second external negative electrode 114. The first storage battery 11 is provided with a first storage battery 115 and a second storage battery 116. And a first switch 117, a second switch 118, and a third switch 119. The first fan shaft 131 of the wind power converter 12 is mechanically coupled to the first power generating coil 1205 (constituting a generator rotor). The first power generating coil 1205 is mechanically and electrically connected to the first brush 1207. The first brush 1207 is electrically connected to the first rectifier 1209, and the first rectifier 1209 is electrically connected to the first external positive electrode 111 and the first external negative electrode 112 of the power storage device 11, the first external positive electrode 111, the first external portion The negative electrode 112 is electrically connected to the battery positive electrode and the battery negative electrode of the first battery 115. In addition, the second fan rotating shaft 141 of the wind power converter 12 is mechanically coupled to the second power generating coil 1206 (constituting another generator rotor). The second power generating coil 1206 is mechanically and electrically connected to the second brush 1208. The second brush 1208 is electrically connected to the second rectifier 1210. The second rectifier 1210 is connected to the second external portion of the power storage device 11 The second external positive electrode 113 and the second external negative electrode 114 are electrically connected to the battery positive electrode and the battery negative electrode of the second battery 116; The first N-pole magnet 1201 and the first S-pole magnet 1202 are fixed inside the wind power converter 12 (constituting a generator stator), and the second N-pole magnet 1203 and the second S-pole magnet 1204 are also fixed to Inside the wind power converter 12 (constituting another generator stator), a movable gap is left between the first N-pole magnet 1201, the first S-pole magnet 1202 and the first power-generating coil 1205, and the second N-pole magnet 1203. An active gap is also left between the second S pole magnet 1204 and the second power generating coil 1206.

Therefore, when the wind power converter 12 is in mechanical connection and electrical connection with the power storage device 11 ("wind energy battery"), the power storage device 11 can be operated inside. The first switch 117 and the second switch 118 are closed (ON) to be turned on, and the third switch 119 is controlled to be open (OFF) as the cut-off conduction. When the first fan 13 outside the wind power converter 12 is in a full rotation operation (the first fan wind energy is rotated), the first fan shaft 131 of the first fan 13 passes through the first power generating coil 1205 inside the wind power converter 12 and The wind energy conversion electric energy between the first N pole magnet 1201 and the first S pole magnet 1202 can generate sufficient alternating current power (first fan wind power generation), and the first brush 1207, the first inside the wind power converter 12 A rectifier 1209 converts the alternating current power into direct current power. The first rectifier 1209 can prevent the direct current power from flowing back into the first power generating coil 1205, so that the wind power converter 12 is fully rotated during the first fan 13 operation. The DC power can be directly and continuously supplied to the first storage battery 115 (the first fan wind energy charging) inside the power storage device 11 via the first external positive electrode 111 and the first external negative electrode 112 outside the power storage device 11; In addition, when the second fan 14 outside the wind power converter 12 is also in the full rotation operation (the second fan wind energy is rotated), the second fan shaft 141 of the second fan 14 is internally connected to the wind power converter 12 The wind energy conversion electric energy between the second power generating coil 1206 and the second N pole magnet 1203 and the second S pole magnet 1204 can also generate sufficient alternating current power (second fan wind power generation), and the interior of the wind power converter 12 The second brush 1208 and the second rectifier 1210 convert the alternating current power into direct current power, and the second rectifier 1210 can also prevent the direct current power from flowing back into the second power generating coil 1206, so that the wind power converter 12 is in the second During the full rotation of the fan 14, the DC power can be directly and continuously supplied to the second battery 116 inside the power storage device 11 via the second external positive electrode 113 and the second external negative electrode 114 outside the power storage device 11 ( The second fan wind energy is charged). In this way, the "wind energy battery" can use the first fan 13 and the second fan 14 of the wind power converter 12 to generate electricity by wind energy, and generate electricity. It is stored in the first storage battery 115 and the second storage battery 116 of the power storage device 11, so that the battery storage capacity of the "wind energy storage battery" (especially the power storage device 11) can be within a required range (full charge).

Referring to Figures 5 and 6, the "plug-and-play wind battery" wind battery device can also be provided with a power adapter 15 at the end of the power storage device 11 (constituting a "plug-and-play battery" The power adapter 15 can be mechanically and electrically connected to the power storage device 11 (as shown in FIG. 5), and the power adapter 15 can also be mechanically separated and electrically separated from the power storage device 11 ( As shown in Figure 7). The power adapter 15 is provided with a direct current port (DCP) and an alternating current port (ACP). The power adapter 15 is internally provided with a variable transformer 151 and a The inverter 152 is adjusted. The DC power port 16 is electrically connected to the adjustable transformer 151. The AC power port 17 is electrically connected to the adjustable converter 152. The adjustable transformer 151 is electrically connected to the adjustable converter 152. The adjustable transformer 151 is The adjustable inverter 152 is electrically connected to the first external positive electrode 111 and the second external negative electrode 114 outside the power storage device 11 .

Therefore, during the mechanical separation and electrical separation between the wind power converter 12 and the power storage device 11, and during the mechanical connection and electrical connection between the power adapter 15 and the power storage device 11 ("plug and play" The battery ") allows the power storage device 11 to operate the first switch 117 and the second switch 118 inside thereof to be open (OFF) as the cut-off conduction, and to operate the third switch 119 to be closed (ON) as the conduction. The first battery 115 and the second battery 116 in the power storage device 11 are electrically connected in series, and the first battery 115 and the second battery 116 together generate sufficient DC power (DC power supply), and the DC power supply is The adjustable transformer 151 inside the power adapter 15 is adjusted and converted into external power DC power (DC power conversion DC power) used at the end, the converted DC power can be directly and continuously supplied to the external DC power terminal via the DC power supply 16 external to the power storage device 11 (DC power consumption); In addition, the DC power supply is also converted into an AC power (DC power conversion AC power) used by the external power terminal by the adjustable converter 152 inside the power adapter 15, and the converted AC power can also be directly The AC power supply 17 outside the power storage device 11 is continuously supplied to the external AC power terminal (AC power). In this way, the "plug-and-play battery" can be adjusted by the adjustable transformer 151 of the power adapter 15 and the adjustable converter 152, and the power stored in the power storage device 11 is supplied to the DC power port 16 The AC power supply 埠17 enables the "plug-and-play battery" to provide power and power for its external power terminal (DC load or AC load). If the battery storage capacity of the "plug-and-play battery" (especially the power storage device 11) does not reach the required range (not full charge) after being used by the external power terminal, the power adapter 15 can be The power storage device 11 is mechanically separated and electrically separated, and the wind power converter 12 is again mechanically and electrically connected to the power storage device 11 (reconstituting the "wind energy battery") to continue to supply the power storage device 11 by using wind energy. The required DC power.

The wind power battery device of the "plug-and-play wind battery" according to the present invention, when the wind power converter 12 is in mechanical connection and electrical connection with the power storage device 11 ("wind energy battery"), and when the wind power is converted The first fan 13 and the second fan 14 outside the device 12 are in a full rotation operation, and the wind power converter 12 converts the wind energy of the first fan 13 and the second fan 14 into electric energy, and directly converts the electric energy into electric energy. And continuously supplying the power storage device 11 ("wind energy battery" power generation and charging); and when the power adapter 15 is in mechanical connection and electrical connection with the power storage device 11 ("plug and play" Save The power adapter 15 converts the electrical energy for the electrical storage device 11 into electrical power, and supplies the electrical energy to the direct and continuous manner via the direct current power 埠16 and the alternating current power 埠17. The power supply ("plug-and-play battery" is used to supply power and electricity). In this manner, the wind power battery device including the power storage device 11 and the wind power converter 12 and the power adapter 15 allows the power storage device 11 to have external wind energy at any time. Power generation and charging to enhance the battery's battery capacity. In addition, the power storage device 11 can provide power and power for external power terminals at any time, which can achieve multiple purposes such as convenient storage of batteries, energy-saving storage of batteries, and widespread use of batteries. The advantages are not caused by the long-term or continuous use of the conventional battery, which requires a considerable amount of electricity consumption due to the use of the commercial power supply, or the case where the stored electrical energy of the conventional battery is not easy or cannot be used by other electrical equipment.

In addition, in the "plug-and-play wind battery" wind battery device of the invention, the first rectifier 1209 can be changed into a first fan bidirectional controller, and the second rectifier 1210 can be changed. Forming a second fan bidirectional controller, the wind battery device can display the battery storage capacity of the first storage battery 115 via the first fan bidirectional controller, when the battery storage capacity of the first storage battery 115 does not reach the required range (full charge) To a certain extent, the first fan bidirectional controller can be manually adjusted to cause the first fan 13 to generate wind energy for power generation, and the generated power is stored in the first battery 115 (the first fan wind energy storage), so that the first battery The power storage device can reach the demand range; the wind battery device also displays the battery storage capacity of the second storage battery 116 via the second fan bidirectional controller, and when the battery storage capacity of the second storage battery 116 does not reach the required range (full charge) To a certain extent, the second fan bidirectional controller can be manually adjusted to cause the second fan 14 to generate power for wind power, and the generated power is stored in the second battery 116 (second fan wind energy) Save Electricity), so that the second battery storage capacity can reach the demand range. When the wind battery device displays that the battery storage capacity of the first battery 115 and the second battery 116 has reached the required range (full charge) via the first fan bidirectional controller and the second fan bidirectional controller, the manual regulation can be manually performed. The first fan bidirectional controller and the second fan bidirectional controller enable the first battery 115 and the second battery 116 to store energy, and provide the stored energy to the first fan 13 and the second fan 14 to reverse the air supply. Use (first battery storage energy supply wind, second battery storage energy supply wind). In this way, the first fan 13 and the second fan 14 can be used for wind power generation by manual regulation, and the generated power can be continuously input to the first battery 115 and the second battery 116. The first battery 115 and the second battery 116 can be stored and stored in a manually controlled manner, and the stored power can be stably output to the first fan 13 and the second fan 14.

In addition, the first rectifier 1209 can be further changed into a first fan bidirectional wafer controller, and the second rectifier 1210 can be further changed into a second fan bidirectional wafer controller via which the wind battery device can pass. The bidirectional chip controller displays the battery storage capacity of the first battery 115. When the battery storage capacity of the first battery 115 does not reach a certain extent (full charge), the first fan bidirectional wafer controller can be automatically adjusted. A fan 13 is configured to generate electricity by wind energy, and stores the generated power in the first battery 115 (the first fan wind energy storage), so that the first battery storage capacity can reach the required range; the wind battery device also passes the second The fan bidirectional chip controller displays the battery storage capacity of the second battery 116. When the battery storage capacity of the second battery 116 does not reach a certain range (full charge), the second fan bidirectional wafer controller can be automatically adjusted. The second fan 14 is configured to generate electricity by wind energy, and stores the generated electric power in the second storage battery 116 (the second fan wind energy storage), so that the second battery is stored. Could reach within a range of needs. When the wind battery device passes the first fan bidirectional wafer controller, the first The two-fan bidirectional wafer controller can automatically adjust the first fan bidirectional wafer controller and the second fan bidirectional wafer control when the battery storage capacity of the first battery 115 and the second battery 116 has reached the required range (full charge). The first battery 115 and the second battery 116 are used for energy storage, and the stored energy is supplied to the first fan 13 and the second fan 14 is used for the wind supply (the first battery storage air supply, the second battery) Energy storage gives wind). In this way, the first fan 13 and the second fan 14 can be used for wind power generation by automatic regulation and control, and the generated power can be continuously input to the first battery 115 and the second battery 116. The first battery 115 and the second battery 116 can be stored and stored in an automatic regulation manner, and the stored energy can be stably output to the first fan 13 and the second fan 14.

Furthermore, the first rectifier 1209 can also be changed into a first fan bidirectional App controller, and the second rectifier 1210 can also be changed into a second fan bidirectional App controller, and the wind battery device can be connected via the first The fan two-way App controller displays the battery storage capacity of the first battery 115. When the battery storage capacity of the first battery 115 does not reach a certain extent within the required range (full charge), the first fan bidirectional App controller can be remotely regulated. The first fan 13 is caused to generate electricity by wind energy, and the generated power is stored in the first battery 115 (the first fan wind energy storage), so that the first battery storage capacity can reach the required range; the wind battery device also passes through the The second fan bi-directional App controller displays the battery storage capacity of the second storage battery 116. When the battery storage capacity of the second storage battery 116 does not reach a certain extent within the required range (full charge), the second fan bidirectional App can be remotely regulated. The controller causes the second fan 14 to generate electricity for wind energy, and stores the generated power in the second battery 116 (the second fan wind energy storage), so that the second battery storage capacity can reach the demand range.When the wind battery device displays the battery storage capacity of the first storage battery 115 and the second storage battery 116 through the first fan bidirectional App controller and the second fan bidirectional App controller, the battery storage capacity has reached the required range. When the battery is fully charged, the first fan bi-directional App controller and the second fan bi-directional App controller are configured to enable the first battery 115 and the second battery 116 to store energy and supply the stored energy to the first A fan 13 and a second fan 14 are reversely used for air supply (the first battery stores the air supply and the second battery stores the air supply). In this way, the first fan 13 and the second fan 14 can be used for wind power generation by means of remote control, and the generated power can be continuously input to the first battery 115 and the second battery. 116, or the first battery 115 and the second battery 116 can be stored in the remote control mode, and the stored energy can be stably output to the first fan 13 and the second fan 14.

The detailed description above is a detailed description of the possible embodiments of the present invention, but the embodiments are not intended to limit the scope of the invention, and the equivalent implementation or modification of the inventive concept is not deviated from the spirit of the invention. For example, equivalent embodiments of variations, etc., should be included in the scope of the patent in this case.

11‧‧‧Power storage device

12‧‧‧Wind power converter

13‧‧‧First fan

14‧‧‧second fan

Claims (3)

A wind power battery device for "plug-and-play wind power battery", wherein the wind battery device can display the battery storage capacity of the first battery via a first fan bidirectional controller, when the battery storage capacity of the first battery does not reach the required range ( When the battery is fully charged, the first fan bidirectional controller can be manually adjusted to cause the first fan to generate wind energy, and the generated power is stored in the first battery (the first fan wind energy storage), making the first The battery storage capacity can reach the demand range, and the wind battery device also displays the battery storage capacity of the second battery via a second fan bidirectional controller. When the battery storage capacity of the second battery does not reach the required range (full charge) In the degree, the second fan bidirectional controller can be manually adjusted to make the second fan generate wind energy for power generation, and store the generated electric power in the second battery (the second fan wind energy storage), so that the second battery storage capacity can be reached. Within the demand range; when the wind battery device displays the first battery and the second storage via the first fan bidirectional controller and the second fan bidirectional controller When the battery storage capacity of the pool has reached the demand range (full charge), the first fan bidirectional controller and the second fan bidirectional controller can be manually adjusted to make the first battery and the second battery serve as energy storage and store energy. The electric power is supplied to the first fan and the second fan is used for the air supply (the first battery energy storage air supply and the second battery energy storage air supply); thus, the first setting and operation of the wind battery device are changed, so that the first The fan and the second fan can generate electricity by wind energy in a manual regulation mode, and continuously input the generated electric power to the first storage battery and the second storage battery, or the first storage battery and the second storage battery can be manually adjusted. The energy storage power supply stably outputs the stored energy to the first fan and the second fan. A wind power battery device for "plug-and-play wind power battery", wherein the wind battery device can display the battery storage capacity of the first battery via a first fan bidirectional wafer controller, when the battery storage capacity of the first battery does not reach the demand range When the battery is fully charged (full charge), the first fan bidirectional wafer controller can be automatically adjusted to cause the first fan to generate wind energy for the wind, and the generated power is stored in the first battery (the first fan wind energy storage), The first battery storage capacity can reach the demand range, and the wind battery device also displays the battery storage capacity of the second battery via a second fan bidirectional wafer controller, when the battery storage capacity of the second battery does not reach the required range (full charge) a certain degree, the second fan bidirectional wafer controller can be automatically adjusted to make the second fan generate wind energy for power generation, and the generated power is stored in the second battery (the second fan wind energy storage), so that the second battery The amount of stored electricity can reach the demand range; when the wind battery device is controlled by the first fan bidirectional wafer controller, the second fan bidirectional wafer When the battery storage capacity of the first battery and the second battery has reached the required range (full charge), the first fan bidirectional wafer controller and the second fan bidirectional wafer controller are automatically regulated to make the first battery and the second battery. The battery is used for energy storage, and the stored energy is supplied to the first fan, and the second fan is used for reverse air supply (the first battery storage energy supply wind, the second battery storage energy supply wind); thus, the wind battery is passed through the wind battery The installation and operation of the device enable the first fan and the second fan to generate electricity by means of automatic regulation, and continuously input the generated power to the first battery and the second battery for storage, or to make the first battery, the first battery The second battery can also be used for energy storage and power supply by means of automatic regulation, and the stored energy can be stably output to the first fan and the second fan. A wind power battery device for "plug-and-play wind power battery", wherein the wind battery device can display the battery storage capacity of the first battery via a first fan two-way App controller, when the first battery When the battery storage capacity does not reach a certain extent within the required range (full charge), the first fan bidirectional App controller can be remotely regulated to cause the first fan to generate wind energy and store the generated power in the first battery. (the first fan wind energy storage), so that the first battery storage capacity can reach the demand range, the wind battery device also displays the battery storage capacity of the second battery via a second fan two-way App controller, when the battery of the second battery When the storage capacity does not reach a certain extent within the demand range (full charge), the second fan bidirectional App controller may be remotely regulated to cause the second fan to generate wind energy for the wind, and store the generated power in the second battery (the first battery) The second battery wind energy storage device enables the second battery storage capacity to reach the demand range; when the wind battery device displays the first battery and the second battery via the first fan bidirectional App controller and the second fan bidirectional App controller When the battery storage capacity has reached the required range (full charge), the first fan bidirectional App controller and the second fan bidirectional App controller can be remotely adjusted to make the first battery The second battery is used for energy storage, and the stored energy is supplied to the first fan and the second fan is used for the wind (the first battery stores the wind and the second battery stores the air); The replacement and operation of the wind battery device enable the first fan and the second fan to generate wind energy by remote control, and continuously input the generated power to the first battery and the second battery for storage, or A storage battery and a second storage battery can also be used for energy storage and power supply in a remotely regulated manner, and the stored energy can be stably outputted to the first fan and the second fan.