KR20200009836A - Method for donating using cryptocurrency and system for the same - Google Patents

Abstract

Disclosed are a donation method using a cryptocurrency and an apparatus thereof. According to the present invention, in the method, a blockchain node issues cryptocurrency corresponding to a deposit amount to a donor, donates the cryptocurrency of the donor to a beneficiary, and, when an affiliate receives transaction details using the cryptocurrency, incinerates the cryptocurrency corresponding to the transaction details.

Description

Method for donating using cryptocurrency and system for the same}

The present invention relates to a donation method and a donation system, and more particularly, to a method and system for making a donation using cryptocurrency.

The conventional donation system has a problem that it is difficult to prevent fraudulent use or fraudulent receipt of beneficiaries since it is virtually impossible to track how the beneficiary has been sponsored and how it has been used since the donor has made a donation to any group or recipient. It is also difficult to determine whether donor organizations have used the donations transparently.

Patent Publication No. 10-1797109 "How to donate using the app"

The technical problem to be achieved by the present invention is to provide a method and system for donating using cryptocurrency to track how the beneficiary used the donation.

In order to achieve the above technical problem, an example of a donation method using a cryptocurrency according to an embodiment of the present invention, in the donation method using a cryptocurrency by a blockchain node, the cryptocurrency corresponding to the deposit amount to the donor Issuing; Donating the donor's cryptocurrency to the recipient; Receiving transaction details using cryptocurrency at the affiliated store; And incineration of the cryptocurrency corresponding to the transaction details.

In order to achieve the above technical problem, according to an embodiment of the present invention, a method of using a donation using a cryptocurrency, in the method of using a donation using a cryptocurrency by a financial server, payment amount and card number at the merchant Receiving a payment request comprising a; Determining a cryptocurrency balance of the electronic wallet mapped to the card number; And approving the payment if the payment amount is less than the cryptocurrency balance.

In order to achieve the above technical problem, an example of a donation system using a cryptocurrency according to an embodiment of the present invention, a blockchain node for storing the details of issuance, transaction or incineration of the cryptocurrency in the blockchain; In addition, the blockchain node issues a cryptocurrency corresponding to the deposit amount, and when the member receives the usage history of the cryptocurrency, the blockchain node compares the business type of the merchant and the usage purpose of the cryptocurrency to determine whether it is fraudulent.

According to an embodiment of the present invention, the donor may designate a beneficiary to make a direct donation. Rather than donating cash itself to the beneficiary, the cash equivalent of the cryptocurrency can be donated to the beneficiary to track whether the beneficiary has justly used the donation. In addition, since the personal information of the recipient is not included in the electronic wallet and the public server, the privacy of the recipient can be protected, and the donor's satisfaction can be improved by tracking the beneficiary's usage history in real time and notifying the donor. In addition, the donation details, sponsorship details, etc. are stored and managed on the blockchain, thereby securing donation transparency and preventing counterfeiting. Recipients can use donations received in cryptocurrencies at merchants in the same way as conventional card payment methods. In addition, when the cryptocurrency is used at the merchant, it can be prevented from being deteriorated as a speculative means by incineration. In this way, transparency of donation can be enhanced to further develop donation culture.

1 is a view showing a schematic configuration of a system for using a cryptocurrency in the base according to an embodiment of the present invention,
2 is a view showing an example of the configuration of a blockchain according to an embodiment of the present invention,
3 is a view showing an example of the configuration of an electronic wallet according to an embodiment of the present invention,
4 is a diagram illustrating a circulation process of a cryptocurrency for donation according to an embodiment of the present invention;
5 is a view showing an example of a method for identifying the illegal use of donations according to an embodiment of the present invention,
6 is a view showing an example of illegal use of donations according to an embodiment of the present invention,
7 illustrates an example of a method of using a donated cryptocurrency using a card according to an embodiment of the present invention;
8 is a view showing an example of a method of using a donation received in cryptocurrency in a merchant according to an embodiment of the present invention;
9 is a view showing another example of a method of using a donation received in cryptocurrency in a merchant in accordance with an embodiment of the present invention, and
FIG. 10 is a diagram illustrating an example of notifying a donor of usage details when using a cryptocurrency according to an embodiment of the present invention. FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail a donation method and apparatus using a cryptocurrency according to an embodiment of the present invention.

1 is a view showing a schematic configuration of a system for using a cryptocurrency in the base according to an embodiment of the present invention.

Referring to FIG. 1, an example of a system for using cryptocurrency includes a public server 100, a blockchain node 102, a financial server 130, donors and recipients' electronic wallets 112 and 122.

The public server 100 registers the donor 110 and the beneficiary 120, requests the creation of an electronic wallet to the blockchain node 102, selects the beneficiary 120 or the beneficiary group of the donor 110, and a donation method (smart). Contract) creation (selection), blockchain node transaction record disclosure, fraudulent receipt and donation coin status (issuance volume, circulation volume, etc.), fraudulent recipient issuance and sanction processing through big data analysis.

The blockchain node 102 is a collection of servers that perform issuance and incineration of cryptocurrency, recording and verifying transaction details. The blockchain node 102 may perform forgery prevention and verification through peer-to-peer transaction history storage and blockchain technology.

The financial server 130 is a linked server linked to a bank or a card company, and after confirming a deposit of a donor, notifies the blockchain node 102 so that a cryptocurrency can be issued. In addition, when checking the use of the cryptocurrency at the merchant, the balance check and incineration of the cryptocurrency may be generated as an event to the blockchain node 102. That is, the financial server 130 interlocks the financial information and the cryptocurrency information recorded in the blockchain node.

The donor 110 and the beneficiary 120 are first issued with electronic wallets 112 and 122 for the transaction of cryptocurrency. The blockchain node 102 may issue the electronic wallets 112 and 122 or a separate server may issue the electronic wallets 112 and 122. The electronic wallets 112 and 122 include electronic wallet addresses generated using asymmetric key encryption-based private keys and public keys for cryptocurrency transactions. An example of the electronic wallets 112 and 122 according to the present embodiment is illustrated in FIG. 3.

The electronic wallets 112 and 122 may be issued in the form of software and stored in the public server 100, a separate management server (not shown), or a user terminal. Alternatively, the electronic wallets 112 and 122 may be issued in a form embedded in a hardware device such as a universal serial bus (USB) memory, so that a donor or a beneficiary may mount and use the respective terminal whenever a cryptocurrency transaction is required. In addition, the electronic wallets 112 and 122 may be manufactured in various conventional forms.

When the donor 110 deposits a predetermined amount into the financial server 130, the blockchain node 102 issues a cryptocurrency corresponding to the deposit amount to the donor 110. For example, when a virtual account mapped to the electronic wallet 112 of the donor 110 is opened in a financial institution such as a bank, and the amount is deposited in the virtual account, the blockchain node 102 issues a cryptocurrency. Payment to the electronic wallet 112 of the donor (110). The public server 100 may create a smart contract using the donor 110 and the blockchain and store it in the blockchain node 102. The public server 100 may be selected from the donor 110 through the smart contract donation conditions (for example, one-time donation or a certain period of donation, recipient conditions, etc.).

In the present embodiment, the cryptocurrency does not change its price like the conventional bitcoin, etc., and the blockchain node 102 issues the cryptocurrency according to a predefined exchange rate (for example, 1,000 won = 1 coin). . Ripple, which is a conventional cryptocurrency, is a structure in which a limited cryptocurrency is issued in advance and then circulated therein, and bitcoin is a structure in which a certain amount of money is newly issued and circulated when mined by a miner. This embodiment is characterized in that the issuer is issued when the donor deposits, unlike the conventional cryptocurrency, and incinerated when the beneficiary 120 uses the cryptocurrency in a merchant. The conventional cryptocurrency can be inflation by limiting the amount of issuance, the conventional cryptocurrency can not be used for purchase of goods in real life due to the sharp rise in price. This will be described again with reference to FIG. 4.

The blockchain node 102 stores the details of issuance, transaction (eg, donation), use (eg, use at a merchant), incineration, etc. of cryptocurrency using the blockchain. An example of a blockchain is shown in FIG. Since the transaction details of the cryptocurrency are all interconnected and stored in the blockchain, the public server 100 issues a specific cryptocurrency to any donor 110 based on the contents stored in the blockchain, and the donor 110 is a beneficiary. Donate the cryptocurrency to 120, the recipient 120 can track all of the cryptocurrency used. However, the electronic wallet of the recipient, the blockchain node and the public server 100 does not include the personal information of the recipient, there is an advantage that can protect the privacy of the recipient, which is an important element of the donation.

The public server 100 may be one of the nodes storing the blockchain, or may be a server connected to the blockchain node 102. In order to enhance security and operate without compensation due to cryptocurrency mining, the node 102 of the present embodiment may be operated by voluntary participation or donation, and may be configured in a consortium form by limiting participating nodes by an administrator. . Conventional cryptocurrencies, such as Bitcoin, have a structure to compensate cryptocurrencies to mining nodes through a mining competition called a consensus algorithm, but these consensus algorithms cause a slow transaction time for cryptocurrencies. Therefore, in the present embodiment, the algorithm 102 for selecting miners to be compensated for cryptocurrency is unnecessary because all nodes 102 generate blocks of the block chain in an even order sequentially, thus enabling fast processing of cryptocurrency transactions.

The public server 100 may register the recipient information in advance. For example, an administrator of the public server 100 may register a beneficiary, or the beneficiary 120 may directly register itself with the public server 100. The donor 110 or the recipient 120 may be an individual, an organization, a company, or the like. When the beneficiary 120 is a group or a company such as a welfare foundation, the beneficiary 120 may deliver the donated cryptocurrency to an individual in need, and the usage history of the individual who received the cryptocurrency may also be tracked.

The donor 110 may directly select the recipient 120 through the public server 100 and then donate the cryptocurrency. When the donor 110 requests the beneficiary 120 to donate the cryptocurrency, the blockchain node 102 transfers the cryptocurrency of the donor electronic wallet 112 to the beneficiary electronic wallet 122 as in the conventional cryptocurrency transaction. Move and record the transaction.

The donor 110 may donate the cryptocurrency to a plurality of recipients or donate at regular intervals. For example, when the donor 110 deposits the donation at a predetermined period (monthly, etc.) into the virtual account of the financial company, the blockchain node 102 issues a cryptocurrency to the donor's electronic wallet 112, and The issued cryptocurrency is identified to beneficiaries who meet certain conditions set by the designated beneficiaries or donors and transferred to the corresponding beneficiary electronic wallet.

The public server 100 may also include a function of discovering fraud using various matching algorithms such as big data, machine learning, condition search, etc. of the transaction details of the donor 110 and the beneficiary 120.

2 is a diagram illustrating an example of a configuration of a blockchain according to an embodiment of the present invention.

Referring to FIG. 2, each block 200 of the blockchain includes a header 210 and at least one transaction 220. The header 210 is connected to the hash value of the previous block and the next block to prevent forgery of the transaction details. Various conventional blockchain techniques for storing transaction details of cryptocurrency can be applied to this embodiment. Therefore, hereinafter, the description will be focused on contents that are different from the prior art.

This embodiment includes a usage 240 with the transaction history 230 of the corresponding cryptocurrency in the transaction 220, unlike the conventional blockchain. For example, if donor A donated 5 coins of cryptocurrency to beneficiary B, specific use designated by donor A together with transaction details 230 of "donor A-> donor B" for the 5 coins. ) (I.e., the code value for usage) are recorded together in a transaction. Since all transactions of the cryptocurrency are stored in the blockchain, even if the cryptocurrency is traded several times through the beneficiary, the usage 240 set by the donor 110 or the public server 100 for the cryptocurrency can still be identified. .

The disclosure server 100 may store a plurality of predefined uses, and may provide an interface screen on which the donor 110 may select any of a plurality of uses when a donation is made. In another embodiment, the donor 110 may make a donation without specifying a use purpose. In this case, the usage 240 of the transaction 220 may be empty or a code containing all usages may be recorded.

3 is a diagram illustrating an example of a configuration of an electronic wallet according to an embodiment of the present invention.

Referring to FIG. 3, the electronic wallet 300 includes a private key 310, an electronic wallet address 320, and balance information 330, 332, 340, and 342 for each use purpose. Private key 310 is a key used for trading (ie, donation) of cryptocurrency. For example, all transactions (issuance, donation, use, incineration, etc.) of cryptocurrency are signed with a private key and passed to each node 102, and each node 102 is signed and verified using the public key of the corresponding transaction requester. Counterfeiting of transactions can be prevented. The electronic wallet address 320 is a value generated by hashing a public key generated by performing asymmetric encryption based on a private key, and is unique for each electronic wallet 300. The transaction of the cryptocurrency may be made based on the electronic wallet address 320. For example, as money is transferred from the bank's A account to the B account, the cryptocurrency is moved from the A wallet address to the B wallet address.

The electronic wallet 300 may include balance information 340 and 342 of the cryptocurrency. For example, if the beneficiary received 10 coins from donor A and donated 20 coins from donor B, the balance 30 coins are recorded in the recipient's electronic wallet 300. As another example, the electronic wallet 300 may store balance information 340 and 342 for each use purpose 330 and 332. For example, if 10 coins of donor A are designated for the first use 330, and 20 coins of donor B are designated for the second use 332, the electronic wallet 300 is used for the first use. 10 coins balance 340 for 330 and 20 coins balance information 342 for the second usage 332 is stored.

4 is a diagram illustrating a circulation process of a cryptocurrency for donation according to an embodiment of the present invention.

Referring to FIG. 4, when a donor deposits a predetermined amount into a predetermined financial institution, the blockchain node 102 issues a cryptocurrency corresponding to the deposit amount to the donor electronic wallet 112 (S410). When the donor donates the cryptocurrency to the beneficiary, the cryptocurrency moves from the donor electronic wallet 112 to the beneficiary electronic wallet 122 (S420).

Cryptocurrency may move from the beneficiary (welfare institution) to the beneficiary (individual) while maintaining the use purpose 332, and the welfare institution may pay the cryptocurrency to the individual.

When the beneficiary uses the donated cryptocurrency in the affiliate store 400 (S430), the blockchain node 102 receives the usage history (S440), stores it in the blockchain (S450), and incinerates the cryptocurrency. (S460). In this embodiment, the merchant 400 may pay the cryptocurrency in the same manner as the conventional card payment method, without having to provide a separate device, etc. for the use of cryptocurrency, which will be described again in FIGS. 8 and 9. Take a look.

In the present embodiment, for the purpose of understanding, the merchant terminal 400 transmits the usage history of the cryptocurrency to the blockchain node 102, but according to the embodiment, the blockchain node 102 is used at the merchant. The details can be received in real time or at regular intervals through a separate financial server or public server.

In another embodiment, the public server 100 may check in real time or periodically whether the recipient's cryptocurrency is used within a predetermined use, which will be described again with reference to FIGS. 5 and 6.

In another embodiment, the blockchain node 102 may incinerate the cryptocurrency after the cost settlement for the merchant is completed (S460). When the settlement of the merchant is completed by the donor's deposit amount, the cryptocurrency used by the merchant may be incinerated so that the actual currency and the cryptocurrency are always maintained in a one-to-one correspondence.

5 is a diagram illustrating an example of a method for identifying an illegal use of a donation according to an exemplary embodiment of the present invention.

Referring to Figure 5, after the cryptocurrency is issued and donated to the beneficiary, all the processes used in the merchant are recorded in the blockchain. Therefore, the public server 100 may determine whether the cryptocurrency is used in the affiliate store of the industry through the transaction history of the cryptocurrency stored in the blockchain node 102 (S500). The public server 100 may determine whether or not fraudulent use by comparing the business use information or purchase items of the merchant and the cryptocurrency used merchants pre-set usage (S510).

For example, referring to FIG. 6, the public server 100 uses usages 620 and merchant business information 630 for each electronic wallet address 610 of the beneficiary electronic wallet through the transaction history of the cryptocurrency stored in the blockchain. The amount of use of cryptocurrency 640 and whether or not fraudulent use 650 may be stored and managed in the database 600.

For example, it can be seen that the cryptocurrency 30 coins donated to the first electronic wallet address was used in the hospital according to the medical expenses usage purpose. However, the cryptocurrency 50 coins donated to the second electronic wallet address has been used by the beneficiary in karaoke, even though the use thereof is food expenses, the public server 100 recognizes this as fraudulent use. The disclosure server 100 may suspend the use of the electronic wallet of the second electronic wallet address for a predetermined period of time or recover or close the electronic wallet if the number of fraudulent usage is more than a predetermined number of times.

7 is a diagram illustrating an example of a method of using a donated cryptocurrency using a card according to an embodiment of the present invention.

Referring to FIG. 7, a server (hereinafter referred to as a financial server) of a financial company such as a bank or a card company that issues various types of conventional cards such as a credit card, a prepaid card, a debit card, a check card, and a gift card is issued to a recipient. The card numbers 700 and 702 of the card and the electronic wallet addresses 710 and 712 of the recipient's electronic wallet are mapped and stored. For example, if the card number A 700 is issued to the first recipient, the financial server maps and stores the card number A 700 and the first wallet address 710 of the electronic wallet of the first recipient. .

The following embodiments, including the present embodiment, illustrate a financial server and a public server as separate servers for convenience of description, but according to the embodiment, the financial server and the public server are one server or a server operated by one company. Can be.

8 is a diagram illustrating an example of a method of using a donation received in cryptocurrency in a merchant according to an embodiment of the present invention.

Referring to FIG. 8, when the recipient 120 presents the card (for example, a mobile card or a real card) issued in FIG. 7 (S810), the merchant terminal 800 reads the card number from the corresponding card and then pays the bill. The payment request including the amount, card number, industry information, purchase item, etc. is transmitted to the VAN server 810 (S820). After identifying the financial company corresponding to the card number, the VAN server 810 transmits an approval request including a payment amount, a card number, business information, and transaction details such as a purchase list to the corresponding financial server 130 (S830). ). When using a mobile payment application other than a physical card, the VAN server may be excluded.

The financial server 130 inquires the balance of the electronic wallet of the recipient through the blockchain node 102 based on the card number or the electronic wallet address (S840). For example, if the financial server 130 stores the mapping relationship between the card number and the electronic wallet address as shown in FIG. 7, the financial server 130 sends the balance inquiry request including the electronic wallet address to the block chain node 102. To send.

The blockchain node 102 inquires the balance of the recipient's electronic wallet and transmits it to the financial server 130 (S850). As shown in FIG. 3, when the beneficiaries receive the donations of different uses 330 and 332, the blockchain node 102 receives the type of business information from the financial server 130 and then balances the remaining use amount corresponding to the type of business information. Inquiry may be sent to the financial server 130. In another embodiment, when the blockchain node 102 receives a balance inquiry request including payment amount information from the financial server 130, the blockchain node 102 compares the payment amount with the balance of the beneficiary electronic wallet and balances the balance. The comparison result (such as over or under balance) may be provided to the financial server 130.

The financial server 130 compares the payment amount with the balance of the electronic wallet determined through the blockchain node 102 and if the payment amount is smaller than the balance of the electronic wallet, approves the card payment and returns the result to the VAN server 810. Transmit to the merchant terminal 800 through (S860). On the contrary, if the payment amount exceeds the balance of the electronic wallet, the financial server 130 rejects the approval and transmits the result to the affiliated store terminal 800 through the VAN server 810. According to an embodiment, the financial server 130 may further include or may not include the step (S870) of providing the approval to the recipient terminal.

When the card payment is approved, the financial server 130 delivers the result to the blockchain node 102, and the blockchain node 102 subtracts the balance of the beneficiary electronic wallet by the payment amount, and the deducted cryptocurrency is incinerated immediately. do. For example, as shown in FIG. 3, when the beneficiary receives a donation of cryptocurrency of different uses 330 and 332, the blockchain node 102 deducts the remaining balance of the use corresponding to the business information of the merchant and deducts the cryptocurrency. Is incinerated immediately.

In another embodiment, the public server 100 may determine whether the fraudulent use is in real time (S845). For example, when the public server 100 receives a balance inquiry request including the industry information of the affiliated store from the financial server 130, the public server 100 compares the use usage specified in the cryptocurrency and the industry information of the affiliated store to determine whether it is illegally used. .

The disclosure server 100 may notify the financial server 130 and the blockchain node 102 such that the card payment is denied in the case of misappropriation. Alternatively, the disclosure server 100 may transmit only the balance inquiry result to the financial server 130 when the number of fraudulent use is less than a preset number, and the card payment may be normally performed. Alternatively, the disclosure server 100 may make the balance of the electronic wallet of the beneficiary 120 zero or recover or close the electronic wallet when the number of fraudulent use is more than a preset number. When the balance of the beneficiary's electronic wallet is zeroed or collected and closed, the public server 100 may return the donor of the cryptocurrency or return the deposit amount of the actual currency.

In the present embodiment, the step (S845) of real time determining whether or not fraudulent use may be omitted. The public server 100 may determine whether or not the illegal use of each recipient is based on the card usage history received from the blockchain node 102 in real time or at a predetermined cycle as shown in FIG. 6.

In the present embodiment, since the merchant performs card payment in the same manner as in the prior art, it is not possible to know whether the payer is a beneficiary who received a donation. The beneficiary can also use the donation comfortably without revealing that he or she is being donated.

9 is a diagram illustrating another example of a method of using a donation received by a cryptocurrency in an affiliated store according to an embodiment of the present invention.

Referring to FIG. 9, when a donation application (hereinafter, an app) installed in the beneficiary terminal 900 is executed (S920), the merchant terminal 910 receives an electronic wallet address of the beneficiary electronic wallet from the app (S930). For example, when the app displays information such as an electronic wallet address on the screen of the recipient terminal 900 with a QR code or a barcode, the merchant terminal 910 displays information such as an electronic wallet address through a camera or a barcode reader. Can be input. Alternatively, the merchant terminal 910 may receive an electronic wallet address or the like from the recipient terminal 900 through wireless communication such as Bluetooth.

The merchant terminal 910 requests the payment to the financial server 130 by treating the electronic wallet address as a kind of card number (S940). The payment request may include an electronic wallet address, payment amount, industry information, transaction item information, and the like.

The financial server 130 inquires the balance of the beneficiary's electronic wallet through the blockchain node 102 based on the electronic wallet address (S950), and the public server 100 donates to the merchant's business information or transaction details and the beneficiary. The usage of the cryptocurrency is compared to determine whether it is used illegally (S960). If the payment amount is less than the balance of the electronic wallet, the financial server 130 approves the payment, otherwise rejects the payment (S970). When there are a plurality of uses of the cryptocurrency donated by the donor as shown in FIG. 3, the financial server 130 may determine whether to approve the based on the cryptocurrency balance of the use corresponding to the industry information of the merchant.

According to an embodiment, the financial server 130 may further include or may not include the step (S980) of notifying the recipient terminal 900 of the approval. If the payment is approved, the blockchain node 102 subtracts the balance of the recipient's electronic wallet by the payment amount and immediately burns the deducted cryptocurrency.

In another embodiment, the financial server 130 may consider whether the unauthorized use together in the determination of approval (S960). For example, the financial server 130 may refuse to approve payment if the fraudulent use of cryptocurrency is identified through the public server 100. Alternatively, the public server 100 may approve payment if the number of fraudulent use is less than a predetermined number of times, and may send a warning text to the recipient terminal 900. Alternatively, if the number of fraudulent use is more than a predetermined number of times, the public server 100 may reject the payment and stop using the beneficiary electronic wallet or collect the balance. The identifying step S960 of misuse of the present embodiment may be omitted as illustrated in FIG. 8, and may be performed at a predetermined period after the payment process is not performed.

FIG. 10 is a diagram illustrating an example of notifying a donor of usage details when using a cryptocurrency according to an embodiment of the present invention. FIG.

Referring to FIG. 10, when the beneficiary 120 uses the cryptocurrency at the affiliate store, the public server 100 traces back the transaction record of the blockchain node 102 to the donor 110 who donated the cryptocurrency used at the affiliate store. ) Can be notified of the usage history of cryptocurrency by text message or push message. The public server 100 may transmit the usage history of the cryptocurrency to the donor in real time or at regular intervals. However, since the recipient's electronic wallet 122, the blockchain node 102, and the public server 100 do not include the personal information of the recipient 120, the recipient's privacy can be protected. The donor 110 can check in real time how and where their donations are used, thereby enhancing transparency and further developing a donation culture.

In another embodiment, the recipient 120 may anonymously send a thank-you message to the donor 110 when using the cryptocurrency. When the public server 100 receives the audit message from the beneficiary 120, the public server 100 may deliver the audit message to the donor 110 who donated the cryptocurrency to the beneficiary 120.

In addition to donations, the present embodiment can be applied to various fields that want to limit the use of the youth dividend system, childbirth incentives, childcare allowances, and SME national project grants.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

Claims (9)

In the donation method using a cryptocurrency by the blockchain node,
Issuing a cryptocurrency corresponding to the deposit amount to the donor;
Donating the donor's cryptocurrency to the recipient;
Receiving transaction details using cryptocurrency at the affiliated store; And
Incineration of the cryptocurrency corresponding to the transaction history; and a donation method using a cryptocurrency. The method of claim 1,
Issuance, donation or transaction details of the cryptocurrency is stored in the blockchain donation method using a cryptocurrency. The method of claim 1,
The use method of the cryptocurrency donated to the beneficiary and comparing the type of business or the transaction item of the merchant to determine whether the fraudulent use; further comprising a donation method using a cryptocurrency. The method of claim 1, wherein the incineration step,
If there are a plurality of uses of the cryptocurrency donated to the beneficiary, the method of using a cryptocurrency comprising the step of incinerating the cryptocurrency of the use for the industry of the merchant. In the method of using the donation using the cryptocurrency by the financial server,
Receiving a payment request including a payment amount and a card number at an affiliated store;
Determining a cryptocurrency balance of the electronic wallet mapped to the card number; And
If the payment amount is less than the cryptocurrency balance, the step of approving the payment; using a donation comprising a. The method of claim 5,
The payment request includes industry information of the merchant,
If it is determined that the use of the industry information of the merchant and the use of the cryptocurrency issued in the electronic wallet, the step of rejecting or warning the approval; further comprising a donation method. And a blockchain node that stores details of issuance, transaction or incineration of cryptocurrency in the blockchain.
When the blockchain node issues a cryptocurrency corresponding to the deposit amount and receives the usage history of the cryptocurrency at the merchant, the blockchain node compares the merchant industry and the usage purpose of the cryptocurrency to determine whether the cryptocurrency is used illegally. Used donation system. The method of claim 7, wherein
Receiving a card number or an electronic wallet address of the electronic wallet from the financial server, a public server for grasping the balance of the electronic wallet mapped to the card number or electronic wallet address provided to the financial server; Donation system using cryptocurrency. A computer-readable recording medium having recorded thereon a computer program for performing the method according to any one of claims 1 to 6.

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