KR20100080356A - The method and the system of the battery exchanging service - Google Patents

Abstract

PURPOSE: A storage battery replacing service system and a providing method thereof are provided to improve the convenience of a customer by easily replacing a storage battery regardless of a place and time. CONSTITUTION: A storage battery replacing service system comprises a service server(100). A service server manages storage battery information, member information, member store information and device information. The service server comprises an information receiver(110), a storage battery managing unit(116) and a members transaction managing unit(117). The information receiver receives identification information of the storage battery. The storage battery managing unit certifies the validity of the storage battery based on the identification information of the storage battery. The member transaction managing unit calculates the replacement service charge of the storage battery based on the identification information.

Description

Battery replacement service system and providing method {the Method and the System of the Battery Exchanging Service}

The electric prime mover is largely defined as a moving means that uses electricity, which is composed of a power supply unit, a power converter, a control unit, and an electric motor unit, as a driving force. In particular, the hybrid vehicle (HV), fuel storage battery electric vehicle (HEV), electric vehicle (EV) according to the power supply method, hybrid vehicles are produced for the purpose of improving fuel economy by combining electric power and gasoline power. It is the main way of accumulating electric power through power. It is a transitional form that basically relies on fossil fuels. Fuel cell electric vehicles produce electricity by supplying fuels such as hydrogen, methane, and gasoline when producing electricity, and purely electric power. Electric vehicles (EVs) are operated using a wealth, and electric vehicles (EVs) are mainly pure electric vehicles in which electricity is stored and operated by plugging in rechargeable batteries that can be charged and discharged.

In particular, electric vehicles using secondary batteries have recently been improved in performance through the performance improvement of lithium-ion secondary batteries, and are ready for commercialization. In addition, the commercialization of electric vehicles using nickel-metal hydride (NiFeH) accumulator has the advantage of a long life of more than 10 years in theory, but has a disadvantage that the weight is much higher than the lead-acid battery or lithium polymer battery.

In addition, lithium-ion secondary batteries are already widely used in a variety of electronic devices, such as laptops, mobile phones, digital cameras, game consoles, as well as electric vehicles.

Most of the prime movers powered by electricity use storage batteries or fuel cells. There is also a prime mover using solar cells or wind power, but most of them operate in parallel with gasoline engines.

Therefore, the majority of experts say that the prime mover using electricity or a combination of gasoline and electricity will be mainstream after crude oil, which is a raw material of gasoline or diesel, which is mostly used as the energy of the prime mover, is exhausted. In the case of an electric vehicle (EV) using only electric power, electric energy supply methods include a rechargeable secondary battery power supply that is commonly used, and a fuel storage method that supplies electricity using methane gas or hydrogen.

Electric charging type prime movers are currently used in some two-wheeled prime movers, and electric cars are operating in limited industrial ranges such as golf courses and airports, but technical challenges such as battery performance remain in order to supply more popular electric prime movers. .

A chemical cell directly derives free energy from electrochemical oxidation at the negative electrode and electrochemical reduction at the positive electrode without direct thermal energy. In this case, the reaction is irreversible and the type that cannot be reproduced is called a primary battery, and there is a typical manganes drycell. In addition, a secondary battery is one of a type which is reversible and can be regenerated by applying energy from the outside, and typical examples thereof include a lead acid battery and an alkaline storage battery.

As research on alkaline batteries continues, new types of Li-ion batteries that can be quickly charged and rapidly discharged have been researched and commercialized, which will solve the battery performance problem, which was the biggest problem of electric prime movers. to be.

On the other hand, even after the technical problems of electric motors have been improved, realistic considerations for electric vehicle charging service will be needed. First of all, when using a battery, it takes several minutes to several hours to charge, so long distance drivers cannot travel long distances without delay for a certain amount of time in order to charge during the trip, unless they have spare batteries. Also, if you have your own battery, purchasing a fully charged battery whenever necessary is not an efficient way. In addition, since the power consumption (W) required for the charging for each battery capacity (mAh) is also different, it is also necessary to have a reasonable pricing standard for charging.

In addition, various mobile devices have become widely used, and the charging service of secondary batteries has also been very diversified.

There was a problem of delayed time until charging when connecting electric power to the electric vehicle to operate the electric vehicle, and a problem of having to install an expensive charging facility to expand the charging facility infrastructure.

In addition, as the types of portable electronic devices such as notebooks and mobile communication devices are rapidly increasing with the improvement of the performance of secondary batteries, the number of facilities for rapidly charging storage batteries is increasing, but it takes several ten minutes for rapid charging. In the absence of spare batteries, portable electronic devices could not be used.

In addition, if the battery is expensive and once purchased, the battery should be used until the battery life is exhausted. In the case of an electric motor, it is reasonable to use batteries with different performances according to long-distance operation or short-range operation. The cost is increased by having to buy all the batteries, and even if a person has several batteries, other batteries that are not used while using one battery are used up over time, resulting in waste. .

The present invention provides a method for providing a battery replacement service using a system for managing battery information, the method comprising: a first step of receiving at least one of battery identification information to be replaced or battery identification information to be replaced; Inquiring and authenticating battery information using the respective battery identification information received in the first step; A third step of calculating a replacement service fee based on at least one of the battery identification information to be replaced and the battery information to be replaced or paid in the second step; And a fourth step of updating the two battery information after the replacement service charge storage processing calculated in the second step.

In addition, in the above configuration, the differential charges are charged according to the charge amount and the battery performance of the battery to be replaced and the charge and storage capacity of the battery to be replaced when the battery is replaced so that it is possible to preserve the profit and loss due to the change of the battery.

According to the present invention, it is possible to shorten the time required for recharging a battery which has already been charged and received without recharging the portable electronic device including the electric prime mover using the battery as a power source.

In addition, in the case of electric motors, expensive batteries with high current capacity are rented when driving over long distances, and low-cost batteries with low current capacity or a certain period of use when traveling over short distances such as commute. Can be rented out, so it is more effective to buy a battery and use only one.

In addition, if a high-speed charging system is installed around the country for the operation of the electric motor, it may be very costly and may cause safety problems due to high voltage current.However, when using a battery replacement service, these problems can be solved. You can increase the number of battery replacement franchisees.

In addition, the aging battery is recovered to the merchant and disposed of or disposed of or recycled.

The present invention provides a method of providing a battery replacement service using a system for managing battery information, the method comprising: a first step of receiving at least one of battery identification information to be replaced or battery identification information to be replaced; Inquiring and authenticating battery information using the respective battery identification information received in the first step; A third step of calculating a replacement service fee based on at least one of the battery identification information to be replaced and the battery information to be replaced or paid in the second step; And a fourth step of updating the two battery information after the replacement service charge storage processing calculated in the second step.

In the above configuration, in the first step, inputting member identification information through a member identifier issued at the time of membership registration, and in the second step, inquiring member information previously stored with the member identification information input in the step Further comprising the step of authenticating.

In addition, the replacement service fee is reduced on the basis of the authenticated two battery information is reduced as the performance and the amount of charge of the battery to be replaced, and is increased and calculated as the performance and charge of the battery to be replaced replacement is increased.

In addition, at the end of the step, when the life of the battery is exhausted, exceeds the number of effective charge and discharge, or if the battery is damaged or broken, updating the battery information so that no further replacement authentication by querying the battery It further includes.

In still another embodiment of the present invention, in a system for managing battery information, an information receiving unit which receives at least one of battery identification information to be replaced or battery identification information to be replaced and an identification of the battery to be replaced received by the information receiver A battery management unit for querying and authenticating battery information with information and battery identification information to be replaced and a member transaction management unit for calculating a replacement service fee when the battery information to be replaced and the information of the battery to be replaced are authenticated by the battery management unit. And storing the replacement service charge, and the battery management unit provides a battery replacement service providing system, wherein the battery management unit updates the battery information including a lease state of the two storage batteries.

In the above-described configuration, it is preferable that the information receiver inputs member identification information through a member identifier issued at the time of membership registration, and that the member transaction management unit inquires and authenticates the member information stored in advance before calculating the replacement service fee. .

In addition, the member transaction management unit calculates a replacement service fee that decreases as the performance and charge remaining amount of the battery to be replaced is increased based on the authenticated two battery information, and increases as the performance and charge remaining amount of the battery to be replaced and paid increases. It features.

In addition, the battery management unit, while providing the battery replacement service, if the expiration life of the battery is exhausted, exceeded the effective number of charge and discharge, or if the battery is damaged or broken, so that the battery is no longer replaced by the inquiry Characterized by updating the battery information.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intention or custom of a user or an operator. Therefore, the definition should be based on the contents throughout the present title.

In addition, preferred embodiments of the present invention to be carried out below are provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or system functions commonly provided in the technical field to which the present invention belongs. The configuration is omitted as much as possible, and will be mainly described for the functional configuration that should be further provided for the present invention.

If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components that are conventionally used among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the following embodiments will be used to appropriately modify the terms so that those skilled in the art to clearly understand the technical features of the present invention to effectively understand, but by this means the present invention This is by no means limited.

In addition, those skilled in the art to which the present invention pertains, the technical configuration of the present invention is not used only in the battery charging service of the prime mover, it can also be used in battery charging services of bicycles, mobile phones, electronic devices, etc. Will be clearly understood.

1 is a view illustrating a configuration of a battery replacement service system according to an exemplary embodiment of the present invention, which will be described in detail with reference to the accompanying drawings. FIG. 1 illustrates battery information, use member information, affiliate store information, and device information. A service server 100 for authenticating time-registered information, calculating and storing a battery replacement service fee, and generating a battery replacement service history; A database (120) for storing, inquiring and updating information at the request of the service server (100); Network 130; Connected to the service server 100 through the network 130, when the storage battery is replaced at the affiliated store receives battery identification information, member identification information and device information, and transmits to the service server 100 and the service server 100 Display the transmitted authentication information and the replacement service fee, request a payment to the payment server 160 connected to the network 130 when requesting a credit card payment for the replacement service fee, and return the payment completion information when the payment is completed. Merchant store terminal (150) for transmitting to the service server (100); And a payment server 160 that performs electronic payment for the replacement service fee at the request of the affiliated store terminal 150 and transmits the result back to the affiliated store terminal 150.

In the above-described configuration, the service server 100 specifically receives data including member identification information, battery identification information and device information received and transmitted by the affiliated store terminal 150, or directly member identification information and battery identification. An information receiver 110 receiving information and device information; An information transmitter 111 which receives this information and transmits data including the authentication result and the replacement service fee to the affiliated store terminal 150; The information receiving unit 110 inquires the stored battery information stored as the battery identification information received to authenticate the validity, the information receiving unit authenticates the member identification information received, the information receiving unit is sent to replace the storage battery is used A member transaction management unit 117 for authenticating device identification information being calculated and calculating a replacement service fee based on the inquired information; A member management unit 114 for receiving and storing member information during membership registration and updating data including the storage battery information of the member when the member transaction management unit 117 generates replacement service details; A device management unit 141 for receiving a device information for receiving a battery replacement service when a new member is joined to the member management unit 114; When the new battery is received, battery identification information is given, battery information including the identification information is received and stored, and when the member transaction management unit 117 generates a final service history, battery information including lease state of two batteries exchanged with each other. Battery management unit 116 for updating the information, so as to update the information so as not to approve the service by querying the battery over the period of use, the number of times of damage / failure to the effective charge and discharge; When entering into a contract with a new merchant, receiving the new merchant information, when the new battery storage or replacement of the battery occurs, the merchant management unit 115 for changing the merchant information including the battery information of the existing merchant stores; is made.

Here, the member information includes personal information such as the member's name, social security number, address, and contact information, the member's latest service usage date, service usage history, service subscription period, monthly flat fee payment amount, battery identification information currently rented, etc. Regarding the service usage status, in particular, the service usage status information is calculated by the member transaction management unit based on this. For example, as the date of recent service usage increases, the depreciation cost of the battery increases, and the battery may be charged at home or in the office. Therefore, the charge is set in proportion to the use of the service. As the number of times is reduced, the fee is reduced, and as the member pays a large monthly amount for the battery replacement service, the fee can be reduced and calculated.

The member identification information may be an ID, a serial number, a certificate, a fingerprint information, a social security number, or the like, and the member identifier storing the member identification information may be an IC card or a barcode. It may be a card or RFID chip, and it may be defined as a member carrying it to a merchant when using the service.

In addition, the battery information, the average voltage (V), current capacity (mAh), maximum power (W), the number of constituent cells, charging efficiency (%), discharge efficiency (%), weight ( Kg), volume (m ³ ), etc., which indicates the number of days of use of the battery usage history, the number of charge / discharge cycles, the status of renting or being stored in the franchise, the member that owns the lease or the battery And the like.

In addition, the performance of the battery is determined by the battery resource and usage history information. In this case, as the value is larger, the elements which are considered to be superior to the battery are defined as 'performance superiority factor' and the product of the values is 'performance superiority factor'. Value, and the smaller the value, the elements that can be regarded as inferior in battery performance will be defined as 'performance inferior factor' and the product of these values will be defined as 'performance inferior element value'.

Accordingly, the average voltage (V) of the battery information is stable and efficient power supply as the voltage is higher, the higher the current capacity (mAh), the higher the amount of charge that can be stored, and the larger the maximum power (W), the battery The amount of current that can be discharged instantaneously is high, and the larger the number of constituent cells, the more electric charges are stably stored. The higher the charging efficiency (%), the lower the cost of charging and the discharge efficiency (% The higher), the lower the amount of power lost during discharge, so these factors can be separated into 'performance superior factors'. In addition, as the weight (kg) of the battery increases, the driving efficiency decreases in the case of an electric motor, and as the volume of the battery increases, it takes up a lot of space, making it inconvenient to handle, and the performance of the battery deteriorates as the days of use of the battery become longer. In addition, as the number of charge / discharge cycles increases, the efficiency of the battery decreases, so these elements can be separated into 'performance inferior elements'. In addition, it is easy to recognize that in addition to the above-described factors, those that can be expressed in terms of relative and absolute values can be classified into 'performance inferior factor' and 'performance superiority factor'. .

In addition, the battery identification information may be an ID (ID) or a serial number using an alphanumeric character assigned to distinguish the battery, and the battery identifier containing the battery identification information may be RFID chip or barcode. It may be an OCR character.

In addition, the device identification information may be a vehicle number or a manufacturing serial number of a vehicle in the case of an electric motor, a serial number or a telephone number in the case of a mobile communication device, or a manufacturing serial number in the case of other electronic devices. Can be.

Next, the affiliated store terminal 150 is a device that processes and manages a replacement service at an affiliated store, specifically, an input unit 152 that receives battery identification information, member identification information, and device identification information; A battery recognition unit 153 connected directly to the input unit 152 to read the battery identifier and input the battery identification information to the input unit 152; The information input through the input unit 152 is transmitted to the information receiving unit 110 of the service server 100 through the network 130, and the service server 100 authenticates the battery and member identification information. A communication unit 154 for receiving a result and a service replacement fee from the information transmitter 111, transmitting a payment processing request to the payment server 130 through the network 130, and receiving a result; And a display unit 151 for displaying a replacement service fee received through the communication unit 154 and data received from the input unit 152.

In the above-described configuration, the battery recognition unit 153 reads a battery identifier attached to the battery, and is preferably a barcode scanner, an OC optical reader, or an RF chip reader according to the battery identifier.

Next, the network 130 includes the Internet and a dedicated line, where the Internet is a wired or wireless network, which is accessed through a mobile communication network based on a platform such as WIPI, or accessed through a public wireless LAN and an access point. Wireless Internet, a high-speed Internet using a telephone line or a dedicated line, and a portable Internet (WiBro or WiMax) for high-speed Internet access even during stop or slow travel.

Next, the database 120, specifically, a member DB (123) for storing the information of the member subscribed to the battery replacement service; A device DB 125 for storing information of a device used by the member for service; A storage battery DB 124 storing storage battery information distributed to an affiliated store and a storage battery being rented to a member; Merchant shop DB (122) for providing information of the merchant to provide the battery replacement service; And a transaction history DB 121 for storing a transaction history when the member uses the battery replacement service.

Next, the payment server 200 may perform a payment process using a function of a payment gateway (PG), and also perform a payment process for a product purchased with a credit point provided by a credit card company. You could do it.

7 and 8 is a configuration diagram of an affiliated store terminal 150 for explaining a battery replacement service providing method according to another embodiment of the present invention, Figure 7 is a merchant terminal 150 of the self-processing function is added 8 is a device configuration diagram and FIG. 8 is a device schematic diagram of a merchant terminal 150 to which a self processing function is added.

As shown in FIG. 7, the merchant terminal 150 to which the self-processing function is added includes a battery box 470 that receives a battery and discharges the selected battery; A dedicated charger 450 for charging the discharged battery received in the battery box 470; A battery recognizer 153 which recognizes an identifier of a battery received in the battery box 470 and inputs battery identification information; A battery meter 460 for measuring and inputting a residual charge of the battery received in the battery box 470; A member recognizer 420 recognizing a member identifier proving membership of the battery replacement service and inputting member identification information; An input unit 152 for selecting a battery to be directly replaced or paid for by a member or inputting various types of information; A payment processor 430 for processing a payment by directly inserting a credit card or cash into a replacement service fee calculated after authentication of battery identification information and member identification information; A display unit 151 for displaying the replacement service fee, the input battery identification information and the member identification information, and displaying the battery information stored in the battery box 470 so that the battery to be replaced may be selected as the input unit 152; ; A communication unit 154 connected to the service server 100 and the network to transmit and receive data including various input data and replacement service charges; And a central controller 155 for controlling each device and processing the inputted information and the information received through the communication unit 154.

As shown in FIG. 8, the merchant terminal 150 to which the self-processing function is added is basically configured in the form of a vending machine, inserts a battery through the battery insertion hole 480, and recognizes a member identifier through the member recognizer 420. While operating the display unit 151, the device is operated through the input unit 152. After selecting the battery to be replaced and the battery to be replaced and completing member authentication, the fee is displayed on the display unit 151 and the member inserts a credit card or cash through the payment processor 430 to make a payment, and pays If the process succeeds, the battery discharged to the battery outlet 490 is discharged.

Meanwhile, the merchant terminal 150 to which the self-processing function is added is connected to the service server 100 and the network 130 to authenticate the battery identification information and the member identification information at the service server 100 and calculate a replacement service fee. Transmit to the merchant terminal 150.

In addition, the merchant terminal 150 is added to the self-processing function can be used during unmanned store operation and the battery replacement service member is to direct all processing, such as battery return and mounting and storage processing.

In particular, the merchant terminal 150 to which the self-processing function is added is easy to use by replacing the battery of a device such as a portable communication device or a notebook using a small battery.

2, 3, 4, 5 and 6 is a flow chart for explaining a battery replacement service providing method according to an embodiment of the present invention, Figure 2 is a flow chart at the time of membership, Figure 3 is a new battery It is a flowchart at the time of registration, FIG. 4 is a flowchart at the time of providing a battery replacement service, and FIG. 5 is a flowchart at the time of updating a non-serviceable battery.

As shown in FIG. 2, the battery replacement service system receives the personal information of the member and the battery mounting device information held by the member in step S10, assigns and registers member identification information in step S11, and registers in step S11 a step S11. The member identification information assigned in step S13 is stored and issued, and in step S13, the battery identification information first rented by the member is input / stored in connection with the member identification information. In step S14, the member information input in step S13 is entered. And battery identification information.

On the other hand, when inputting the battery identification information in the member registration procedure (step S13), a method of receiving and storing a password for the battery and using the replacement service may also be considered.

As shown in FIG. 3, the battery replacement service system receives battery information including a resource of the battery at step S20, issues battery identification information at step S21 and registers it with the system, and at step S21 at step S22. One battery identification information is produced as a battery identifier and attached to the storage battery. In step S23, the lease state of the battery and the affiliated store information of the storage battery are registered while distributing the storage battery to which the battery identification information is registered.

As illustrated in FIG. 4, the battery replacement service system receives member identification information in step S30, and in step S31, inquires for member information previously registered with the member identification information input in step S30 and validates. In step S32, the controller receives the battery identification information to be replaced, which is held by the member. In step S33, the battery information stored in advance is stored as the battery identification information to be input in step S32. In step S34, the remaining charge amount of the battery to be replaced is measured, and a value thereof is input, and in step S35, battery identification information to be replaced and received is input. In step S36, the battery identification information input in step S35 is input. Inquire the battery information to be replaced replacement stored in the storage to authenticate the validity, in step S37 After receiving and inputting the amount of charge of the battery to be paid, the step S38 calculates a replacement service fee based on the member information, the battery information, and the charge amount of each battery, which are inquired in the step, and in step S39, the replacement calculated in the step S38. The service charge is stored to generate an order, and in step S40, the lease state of the exchanged battery and the information including the holder are updated, and the battery information of the member and the storage battery information of the corresponding merchant that provided the service are updated. .

In addition, when a password is set in the battery identification information, the step of receiving the password of the battery to be replaced in step S32 and may include the step of authenticating the password with the battery identification information in step S33.

On the other hand, the calculation of the replacement service fee based on the charge of the battery to be replaced and the charge of the battery to be replaced, the higher the remaining charge of the battery to be replaced, the more merchants to recover it, the lower the power cost to fully buffer it here. It would be desirable to subtract the cost of the charge, even if the battery to be replaced is not fully charged and only partially charged.

In addition, in the detailed method of calculating the battery replacement service fee, the performance coefficient is a numerical value that can compare and evaluate the performance of the battery calculated using the 'performance superior factor' and the 'performance inferior factor' of the aforementioned battery. And the product of the voltage (V), the current capacity (Ah) and the maximum power (W) of the battery which is the minimum 'performance superior element value', and the battery life which is the minimum 'performance inferior element value', The 'performance coefficient' may be expressed by Equation 1 using the product of charge / discharge times and weights (kg).

As shown in Equation 1, the 'performance coefficient' of the battery is proportional to the 'performance superior element value' and inversely proportional to the 'performance inferior element value'. Calculation of the battery replacement fee using the 'performance coefficient' and the remaining charge of the battery can be obtained as shown in Equation 2.

Battery replacement service charge = (charged battery charge of the battery to be replaced × charge rate-charge battery charge of the battery to be replaced × charge rate) + (performance factor of the battery to be replaced-performance coefficient of the battery to be replaced) × correction constant + Service charge (labor cost) + additional cost

In Equation 2, the 'correction constant' is a constant for converting the performance coefficient difference into an appropriate fee.

1: Schematic diagram of battery replacement system

100: service server, 111: information transmitter, 110: information receiver, 117: member transaction management, 116: battery management, 114: member management, 141: device management, 115: merchant management

120: database, 121: transaction history DB, 122: merchant DB, 123: member DB, 124: battery DB, 125: device DB

130: network

150: merchant terminal, 151: display unit, 152: input unit, 153: battery recognizer, 154: communication unit

160: payment server

2: Membership procedure of battery replacement service method

3: Battery input procedure diagram of battery replacement service method

4: Battery replacement procedure diagram of the battery replacement service method

5: Battery information update procedure diagram of the battery replacement service method

6: Merchant terminal configuration diagram of the battery replacement system added self function

100: service server

150: merchant terminal, 151: display unit, 152: input unit, 153: battery recognizer, 154: communication unit, 155: central controller, 420: member recognizer, 430: payment processor, 450: dedicated charger, 460: battery meter, 470: Battery box

7: Schematic diagram of the merchant terminal of the battery replacement system added the self-function

151: display unit, 152: input unit, 420: member recognition machine, 430: payment processor, 470: battery box, 480: battery insertion hole, 490: battery discharge port

Claims (29)

In the battery storage service providing method using a system for managing battery information, A first step of receiving at least one of battery identification information to be replaced or battery identification information to be replaced or replaced; Inquiring and authenticating battery information using the respective battery identification information received in the first step; A third step of calculating a replacement service fee based on at least one of the battery identification information to be replaced and the battery information to be replaced or paid in the second step; A fourth step of updating the two battery information after the replacement service fee storage processing calculated in the second step; Storage battery replacement service providing method comprising a. The method according to claim 1, The first step may include inputting member identification information previously issued; The second step is a step of authenticating whether the member is a valid member using the input member identification information. Battery replacement service providing method characterized in that it further comprises. The method according to claim 2, In the second step, authenticating that the member is a normal current holder of the battery to be replaced. Battery replacement service providing method characterized in that it further comprises. The method according to claim 2, In the third step, the replacement service fee is calculated based on the member information. Battery replacement service providing method characterized in that it further comprises. The method according to any one of claims 1 to 2, After the fourth step, updating the battery information so that the battery is no longer rented by inquiring a battery which is in an unusable state among the batteries; Battery replacement service providing method characterized in that it further comprises. In a system for managing battery information, An information receiving unit which receives at least one of battery identification information to be replaced or battery identification information to be replaced; A storage battery management unit for querying the storage battery information with the storage battery identification information received through the information receiving unit and authenticating the validity; Member transaction management unit for calculating a replacement service fee based on any one or more of the battery information to be replaced to the replacement battery information to be certified by the battery management unit Including, The battery management unit updates the battery information of the two batteries after storing the replacement service fee generated in the member transaction management unit. Battery replacement service providing system, characterized in that. The method according to claim 6, The information receiving unit receives the member identification information issued in advance, Wherein the member transaction management unit is to authenticate the normal membership by inquiring the member identification information input from the information receiving unit Battery replacement service providing system, characterized in that. The method according to claim 6, The member transaction management unit authenticates that the member is a normal current holder of the battery to be replaced. Battery replacement service providing system, characterized in that. The method according to claim 6, The member transaction management unit calculates the replacement service fee based on the member information. Battery replacement service providing system, characterized in that. The method according to any one of claims 6 to 7, The battery management unit updates the battery information so that the battery is no longer approved for replacement by inquiring a battery which is in an unusable state among the batteries. Battery replacement service providing system, characterized in that. The method according to any one of claims 6 to 7, The system is composed of a service server networked with at least one merchant terminal. Battery replacement service providing system, characterized in that. In the battery storage service providing method using a system for managing battery information, A first step of receiving any one or more of the battery information to be replaced or the battery information to be replaced; A second step of calculating a replacement service fee based on at least one of the battery information to be replaced or the battery information to be replaced; A third step of generating transaction information when the replacement service fee calculated in the second step is received; Storage battery replacement service providing method comprising a. The method according to claim 1, The first step may include receiving a password assigned to the battery to be replaced previously registered; The second step, the step of authenticating the validity by inquiring the password stored assigned to the battery to be replaced with the password received in the first step Battery replacement service providing method, characterized in that further comprises a. The method according to claim 1, Measuring and inputting any one or more of charge amounts of the two storage batteries after the first step; In the second step, calculating a replacement service fee based on at least one of the charge amounts of the two storage batteries. Battery replacement service providing method characterized in that it further comprises. The method according to claim 1, The replacement service fee is calculated based on the coefficients of performance of the two batteries which are proportional to the value of each element of superior performance of the two batteries and inversely proportional to the value of each element of performance inferiority of the two batteries. Member-based storage battery replacement service providing method characterized in that. The method according to claim 15, The performance superiority factor value is any one of a current capacity (mAh), a voltage (V), a maximum power capacity (W), a charging efficiency (%), a discharge efficiency (%), a number of constituent cells, and a manufacturing cost of the storage battery. Calculating based on the above values, The performance inferior element value is calculated based on any one or more of the weight (kg), volume (m ³ ), days of use, the number of charge and discharge of the battery, Battery replacement service providing method characterized in that. The method according to claim 4, The member information is any one or more of the latest service usage date, service usage history, service subscription period, monthly flat payment amount Storage battery replacement service providing method characterized in that. The method according to claim 6, The information receiving unit, receiving a password assigned to the battery to be replaced previously registered; The battery management unit is to authenticate the battery information to be replaced by querying the password received from the information receiving unit Battery replacement service providing system, characterized in that. The method according to claim 9, The member information is any one or more of the latest service usage date, service usage history, service subscription period, monthly flat payment amount Battery replacement service providing system, characterized in that. The method according to claim 6, A battery measuring unit for measuring any one or more of the charging amount of the battery to be replaced or the charging amount of the battery to be replaced and inputting the measured information to the information receiving unit; The member transaction management unit calculates a replacement service fee based on any one or more of the charge amount of the battery to be replaced or the charge amount of the battery to be replaced and measured by the battery meter. Battery replacement service providing system, characterized in that. The method according to claim 6, The member transaction management unit calculates a replacement service fee based on a performance factor of the battery to be replaced; The coefficient of performance is proportional to the value of the element of superior performance of the battery and inversely proportional to the value of the element of inferior performance. Battery replacement service providing system, characterized in that. 23. The method of claim 21, The performance superior factor value may include at least one of a current capacity (mAh), a voltage (V), a maximum power capacity (W), a charging efficiency (%), a discharge efficiency (%), a number of components, and a manufacturing cost of the battery. Calculating based on values, The performance inferior element value is calculated based on any one or more of a weight (kg), a volume (m ³ ), a period of use, and the number of charge and discharge cycles of the battery. Battery replacement service providing system, characterized in that. The method according to claim 6, Wherein the information receiving unit, receiving the device identification information mounted on the battery to be replaced Characterized by, The member transaction management unit is to authenticate the validity by inquiring the device information of the member registered in advance with the device identification information received from the information receiving unit Battery replacement service providing system, characterized in that. The method according to claim 6, Battery recognizer for receiving battery identification information by recognizing a battery identifier attached to the battery Battery replacement service providing system further comprises a. The method according to claim 6, Dedicated battery charger for charging only the battery certified by the battery management unit Battery replacement service providing system further comprises a. The method according to claim 6, A battery box for storing the battery to be replaced and discharging the battery to be replaced when the replacement service charge storing process is completed; A battery recognizer for recognizing a battery identifier of a battery stored in the battery box and inputting battery identification information. Battery replacement service providing system further comprises a. In the battery storage service providing method using a system for managing battery information, A battery box for storing the battery to be replaced and discharging the battery to be replaced when the storing process is completed; A battery recognizer for recognizing a battery identifier attached to the battery and inputting battery identification information; A display unit displaying battery information stored in the battery box; An input unit for selecting a storage battery to be replaced and provided among the storage batteries displayed on the display unit; A battery management unit which queries the battery information stored in advance with the battery identification information to be replaced received from the battery recognizer and authenticates the validity; A member transaction management unit calculating a replacement service fee based on the battery information of the battery selected by the input unit and the returned battery information; Dedicated battery charger for performing the charge only for the battery certified by the battery management unit of the battery stored in the battery box More, The battery compartment is for discharging the battery to be replaced, selected by the input unit Battery replacement service providing system, characterized in that. The method of claim 27, Member recognizer that recognizes member identifier and inputs member identification information More, The member transaction management unit is to authenticate the member information by querying the member information registered in advance with the received member identification information Battery replacement service providing system, characterized in that. The method of claim 27, The input unit further receives a password previously assigned to the battery to be replaced; The battery management unit is to authenticate the validity by querying the stored password assigned to the battery to be replaced with the received password; Battery replacement service providing system, characterized in that.

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