TWI769765B - Rechargeable battery endurance enhancing device - Google Patents

Abstract

This invention relates to a rechargeable battery endurance enhancing device, the body of which at least includes a power module, a frequency adjustment module and a emission module. Said power module is provided with a voltage stabilizing member, a conversion unit and a protection circuit, said voltage stabilizing member is used to provide stable voltage and current, said conversion unit can automatically convert the input voltage and current, and said protection circuit can protect said body from damage caused by abnormal current or abnormal voltage. Said frequency adjustment module is provided with a frequency adjustment member and an electromagnetic wave transmitter, said frequency adjustment member is used to control the wavelength and frequency of the emitted electromagnetic wave, and the command of said frequency adjustment member causes said electromagnetic wave transmitter to generate an electromagnetic wave with designated wavelength and frequency. Said emission module is provided with an amplifier and a transmitting member, said amplifier can amplify the power of the electromagnetic wave generated by said electromagnetic wave transmitter of frequency adjustment module, and then transmit the electromagnetic wave amplified by said amplifier through said transmitting member. Said transmitting member is used to connect to the outer side of a chemical rechargeable battery, and can emit electromagnetic waves to its internal chemical substances from the outside of said chemical rechargeable battery, so the molecular crystal structure of the chemical substance is cracked and dissociated into ionic state to trigger the charging chemical reaction until said chemical rechargeable battery returns to the best discharge state.

Description

Rechargeable battery life booster

The present invention relates to a device for enhancing the endurance of rechargeable batteries; in particular, it refers to a device for enhancing the endurance of battery power applied to chemically rechargeable batteries.

In recent years, due to the rising issues such as global warming, environmental awareness, air pollution, health and safety, many machinery, transportation tools and daily necessities have been gradually electrified, and whether it is fuel-powered equipment, gasoline-electric power equipment or electric power equipment Power devices, when used as mobile devices, require batteries to power their internal electronics or motors. Among them, in rechargeable batteries, chemical batteries (also known as electrochemical batteries, electrochemical cells or electrochemical cells) refer to a type of device that converts the chemical energy of positive and negative active materials into electrical energy through redox reactions; The advantage of rechargeable batteries (also known as secondary batteries, secondary batteries or accumulators) is that they can be recycled many times after charging, and the output current load capacity of rechargeable batteries is higher than that of most disposable batteries.

However, for rechargeable batteries containing electrolyte and the electrolyte is involved in chemical reactions (such as lead storage batteries), the biggest problem in its use is that the battery life is too short (battery power decline due to incomplete charging and discharging), The battery needs to be replaced in an average of about 1 to 4 years, which makes the user spend a lot of money to maintain and replace the rechargeable battery, and for some devices, the battery replacement is more troublesome, and if the replacement is careless, the electronic equipment will be burned. , being charged or the battery is on fire. In addition, if a large number of replaced waste batteries are not properly recycled, it will also cause serious environmental pollution and cause serious harm to human health (for example, lead in lead batteries is a heavy metal that has a great impact on human health).

Therefore, in order to improve the use efficiency and battery life of the above-mentioned chemical rechargeable battery, the inventors have accumulated many years of research and experimental tests to solve the problems existing in the conventional chemical rechargeable battery, and came up with the present invention.

The purpose of the present invention is to provide an innovative rechargeable battery endurance enhancement device, which transmits electromagnetic waves of a specific frequency to a chemical rechargeable battery. The energy gap (that is, the energy level difference between the conduction band and the valence band), the excited electrons can jump to the position of high energy level, and under the driving of the electric field of the electromagnetic wave, show a simple harmonic motion (ie resonance effect or electromagnetic oscillation) ; At this time, the excited electrons collide with the lattice oscillation. When the oscillation force exceeds the binding force of its chemical bond, the molecular crystal structure inside the substance to be dissociated will be dissociated, so that the substance to be dissociated will be dissociated into an ionic state, and Trigger the charging chemical reaction until the chemically rechargeable battery returns to the optimal discharge state, so that the chemically rechargeable battery can maintain the best charging and discharging efficiency, thereby improving the battery life and service life of the chemically rechargeable battery, and can The charge degradation of chemically rechargeable batteries is minimized.

The main body of the rechargeable battery endurance enhancement device of the present invention at least includes a power module, a frequency adjustment module and a transmission module. The aforementioned power module is provided with a voltage stabilizing element, a conversion unit and a protection circuit, the voltage stabilizing element is used to provide stable voltage and current, and the conversion unit can automatically convert the input voltage and current to provide suitable The working voltage and current required for the operation of the main body, and the protection circuit can protect the main body from being damaged by abnormal current or abnormal voltage. The frequency adjustment module is provided with a frequency adjustment element and an electromagnetic wave transmitter, the frequency adjustment element is used to control the wavelength and frequency of the emitted electromagnetic wave, and the electromagnetic wave transmitter can generate a specific wavelength and frequency through the command of the frequency adjustment element. electromagnetic waves. The transmitting module is equipped with an amplifier and a transmitting element. The amplifier can amplify the power of the electromagnetic wave generated by the electromagnetic wave transmitter of the frequency adjustment module, and then transmit the electromagnetic wave amplified by the amplifier through the transmitting element. The transmitting element is a It is used to connect the outside of a chemical rechargeable battery, and can emit electromagnetic waves to its internal chemical substances from the outside of the chemical rechargeable battery.

In the rechargeable battery endurance enhancement device of the present invention, the main body can be connected to the positive electrode and the negative electrode of the chemical rechargeable battery, so as to supply the electric power of the main body through the chemical rechargeable battery; or an external power source can be used as the power source.

In the rechargeable battery endurance enhancement device of the present invention, the emitting module can be arranged on the main body or extend outside the main body. When the emitting module is arranged on the main body, the main body can be arranged on the side of the chemical rechargeable battery. Below, the aforementioned body can maintain stable contact between the two through the weight of the aforementioned chemically rechargeable battery; when the aforementioned emitting module is arranged outside the aforementioned body, the aforementioned emitting element must be provided with an anti-jamming element, and through the The anti-interference element attaches the aforementioned emitting element to any position of the aforementioned chemically rechargeable battery, and enables the aforementioned emitting element to have an anti-jamming function.

In order to further understand the present invention, the best rechargeable battery endurance enhancement device, as shown in FIG. 1 to FIG. 3 , the main body 1 of the rechargeable battery endurance enhancement device at least includes a power module 10 , a frequency adjustment module 11 and A launch module 12:

The main body 1 is made of a light, thin and high temperature resistant material, so that the main body 1 can be easily carried and installed, and can protect the electronic components inside the main body 1 in a high temperature environment (such as an engine room in a steam).

The power module 10 is provided with a voltage stabilizing element 100 , a conversion unit 101 and a protection circuit 102 . The voltage stabilizing element 100 is used to provide stable voltage and current to ensure that the main body 1 has a stable power input. The conversion unit 101 can automatically convert the input voltage and current to provide the operating voltage and current suitable for the operation of the main body 1 . The aforementioned protection circuit 102 can protect the aforementioned main body 1 from being damaged by abnormal current or abnormal voltage.

As shown in FIG. 2 , the main body 1 must be connected to the positive electrode and the negative electrode of a target chemical rechargeable battery A, so as to supply the electric power of the main body 1 through the chemical rechargeable battery A; or as shown in FIG. 3 , the main body 1 must be externally connected to a Power supply B (battery, mobile power supply, power socket, etc.) can be used as its power source. It is suitable to use the power supply method in Figure 3).

The frequency adjustment module 11 is provided with a frequency adjustment element 110 and an electromagnetic wave transmitter 111 . The frequency adjustment element 110 is used to control the wavelength and frequency of the emitted electromagnetic waves, and the electromagnetic wave transmitter 111 is set through the command of the frequency adjustment element 110 . Generates electromagnetic waves of specific wavelengths and frequencies. The aforementioned frequency adjustment module 11 must be provided with a switch 112, and the switch 112 can switch the wavelength and frequency of electromagnetic waves applicable to different chemical rechargeable batteries. Thus, when the rechargeable battery endurance enhancement device of the present invention is applied to various chemical rechargeable batteries, The user only needs to switch through the switch 112 to switch the frequency adjustment element 110 to the electromagnetic wave wavelength and frequency suitable for the chemical rechargeable battery, and make the electromagnetic wave transmitter 111 generate electromagnetic waves of the corresponding wavelength and frequency.

The transmitting module 12 is provided with an amplifier 120 and a transmitting element 121. The amplifier 120 can amplify the power of the electromagnetic wave generated by the electromagnetic wave transmitter 111, so as to achieve a sufficient vibration force (more than the target molecule of the chemically rechargeable battery A). chemical bonding force), and then transmit the electromagnetic waves amplified by the amplifier 120 through the emitting element 121, the emitting element 121 is used to connect the outside of the chemically rechargeable battery A, and can be used for chemical substances inside the chemically rechargeable battery from the outside of the chemically rechargeable battery. The electromagnetic wave is emitted, so that the electromagnetic wave of a specific frequency can penetrate into the target molecular structure of the aforementioned chemical rechargeable battery A, and the crystal structure of the target molecule is cracked and dissociated into an ionic state. The aforementioned emission module 12 must be arranged on the aforementioned main body 1 or extended to the outside of the aforementioned main body. When the aforementioned aforementioned emission module 12 is arranged on the aforementioned aforementioned main body 1, the aforementioned aforementioned main body 1 must be arranged under the aforementioned chemically rechargeable battery A, as described above. The body 1 can maintain stable contact between the two through the weight of the chemically rechargeable battery A; as shown in FIGS. An anti-jamming element 122 is provided, and the aforementioned anti-jamming element 122 is an anti-jamming patch, so that the aforementioned radiating element 121 can be attached to any position of the aforementioned chemically rechargeable battery A, and the aforementioned emitting element 121 can be made anti-jamming function.

The main body 1 must be provided with a wireless signal transmission module 13, such as a Bluetooth module or a WIFI module, through the wireless signal transmission module 13, the main body 1 can be connected to the user's mobile phone, tablet, computer, trip computer or other equipment The control system is provided, so that the user can monitor the operation of the rechargeable battery endurance enhancement device at any time through his mobile device, and even enable or disable the rechargeable battery endurance enhancement device through remote control.

The aforementioned main body 1 must be provided with a display element 14, and the aforementioned display element 14 can be an LED indicator light, a display screen or a touch-sensitive display screen, which can display the operating status of the aforementioned main body 1, so as to facilitate the user to interpret the operation status of the main body 1. operational status. For example, when the aforementioned display element is an LED indicator light, the user can judge whether the aforementioned main body 1 is working through the on-off state of the LED indicator light, and it is convenient for the user to judge whether the aforementioned main body 1 is normal through the color change of the LED indicator light. Running (green light), error (yellow light), component damage (red light), or abnormal temperature (blue light), etc. When the display element 14 is a touch display screen, the user can interpret the operation status of the main body 1 through the touch display screen, or can set various functions of the main body 1 .

In this way, when the rechargeable battery endurance enhancement device of the present invention is in use, it can be directly installed on a chemical rechargeable battery A of a mechanical device, or can be used alone on a chemical rechargeable battery A; Either the chemical rechargeable battery A or an external power source B can be connected to the power source of the main body 1 of the rechargeable battery endurance enhancement device. When the main body 1 is activated, the emitting element 121 of the emitting module 12 will emit an electromagnetic wave of a specific frequency to the chemical rechargeable battery A. When the energy of the incident electromagnetic wave is greater than the energy gap of the substance to be dissociated, the excited electron energy It transitions to a position of high energy level, and is driven by the electric field of the electromagnetic wave, showing a simple harmonic motion (ie resonance effect or electromagnetic oscillation); at this time, the excited electrons collide with the lattice oscillation, and when the oscillation force exceeds the combination of its chemical bonds When the force is applied, the molecular crystal structure inside the substance to be dissociated will dissociate, dissociating the substance to be dissociated into an ionic state, and triggering a charging chemical reaction until the chemically rechargeable battery A returns to the optimal discharge state.

After the actual test, it is known that when a fully charged lead-acid battery (the lead-acid battery model used in the experiment is YTX5L-BS from YUASA) is connected to a 21-watt LED bulb for a 1-hour discharge test, and the discharge test before and after the discharge is measured. Voltage and current, it can be measured that the voltage drop ratio before and after discharge is 4%, and the current drop ratio before and after discharge is 20.48%. When the lead-acid battery is connected to the rechargeable battery endurance enhancement device of the present invention and optimized, the fully-charged lead-acid battery is connected to the same 21-watt LED bulb for a 1-hour discharge test and the voltage and current before and after discharge are measured. , it can be measured that the voltage drop ratio before and after discharge is 2.58%, and the current drop ratio before and after discharge is about 5.98%.

It can be seen from the above that the device for enhancing the battery life of the rechargeable battery of the present invention can indeed maintain the best charge-discharge efficiency of the chemical rechargeable battery, improve the battery life and service life of the chemical rechargeable battery, and reduce the power decline of the chemical rechargeable battery to The lowest, in order to improve its endurance, environmental protection and economic benefits, the composition of this case.

The foregoing embodiments or drawings do not limit the aspect or usage of the present invention, and any appropriate changes or modifications made by those with ordinary knowledge in the technical field should be regarded as not departing from the scope of the present invention.

1: Ontology

10: Power Module

100: Voltage Stabilizer Components

101: Conversion unit

102: Protection circuit

11: Frequency adjustment module

110: Frequency adjustment components

111: Electromagnetic wave transmitter

112: toggle switch

12: Launch module

120: Amplifier

121: launch element

122: Anti-interference components

13: Wireless signal transmission module

14: Display components

A:Chemical rechargeable battery

B: Power

FIG. 1 is a system structure diagram of the rechargeable battery endurance enhancement device of the present invention. FIG. 2 is a schematic diagram of the rechargeable battery endurance enhancement device of the present invention powered by a chemically rechargeable battery. 3 is a schematic diagram of the rechargeable battery endurance enhancement device of the present invention powered by an external power source.

1: Ontology

10: Power Module

100: Voltage Stabilizer Components

101: Conversion unit

102: Protection circuit

11: Frequency adjustment module

110: Frequency adjustment components

111: Electromagnetic wave transmitter

112: toggle switch

12: Launch module

120: Amplifier

121: launch element

13: Wireless signal transmission module

14: Display components

A:Chemical rechargeable battery

B: Power

Claims (10)

A device for enhancing the endurance of a rechargeable battery, at least comprising: a body, which is provided with a power module, a frequency adjustment module and a transmitting module; the power module is provided with a voltage regulator element, a conversion unit and a protection circuit, the aforementioned The voltage stabilizing element is used to provide stable voltage and current. The conversion unit can automatically convert the input voltage and current to provide the working voltage and current suitable for the operation of the main body. The protection circuit can protect the main body from being damaged. The frequency adjustment module is set with a frequency adjustment element and an electromagnetic wave transmitter, and the frequency adjustment element is used to control the wavelength and frequency of the emitted electromagnetic wave. The aforementioned electromagnetic wave transmitter generates electromagnetic waves of a specific wavelength and frequency; the aforementioned transmitting module is provided with an amplifier and a transmitting element, and the aforementioned amplifier can amplify the power of the electromagnetic wave generated by the electromagnetic wave transmitter of the aforementioned frequency adjustment module, and then transmits the aforementioned transmitting element. The electromagnetic wave amplified by the aforesaid amplifier is emitted, and the aforesaid emitting element is used to connect the outside of a chemically rechargeable battery, and can emit electromagnetic waves to its internal chemical substances from the outside of the chemically rechargeable battery. According to the rechargeable battery endurance enhancement device of claim 1, the aforementioned system is made of a light, thin and high temperature resistant material. According to the rechargeable battery endurance enhancement device of claim 1, the main body is connected to the positive electrode and the negative electrode of the chemical rechargeable battery, so as to supply the electric power of the main body through the chemical rechargeable battery. According to the rechargeable battery endurance enhancement device of claim 1, the main body is externally connected to a power supply to supply the power of the main body. According to the rechargeable battery endurance enhancement device of claim 1, the frequency adjustment module is provided with a switch, which can switch the wavelength and frequency of electromagnetic waves suitable for different chemical rechargeable batteries. According to the rechargeable battery endurance enhancement device described in claim 1, the emission module is disposed on the main body, and the emission module can be disposed under the chemical rechargeable battery, and utilizes the chemical rechargeable battery. The weight keeps the two in stable contact. According to the rechargeable battery endurance enhancement device of claim 1, the transmitting module extends to the outside of the main body, and the transmitting element of the transmitting module is provided with an anti-jamming element. According to the rechargeable battery endurance enhancement device of claim 7, the anti-jamming element is an anti-jamming patch. According to the rechargeable battery endurance enhancement device of claim 1, the aforementioned system is provided with a wireless signal transmission module. According to the rechargeable battery endurance enhancement device of claim 1, the system is provided with a display element, and the display element can be an LED indicator, a display screen or a touch display screen.

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