CN115271601A - Self-service cash delivery system - Google Patents

Abstract

The application provides a self-service cash distribution system which can be applied to the field of Internet of things or the field of finance, and the system comprises a server, a client and an unmanned aerial vehicle; the client is used for sending a cash transaction request to the server; the cash transaction request comprises transaction amount information and a transaction account; the server is used for issuing cash transportation instructions to the unmanned aerial vehicle; wherein the cash transportation instruction comprises transaction amount information; the unmanned aerial vehicle is used for responding to cash transportation instructions and transporting cash of the corresponding amount of the transaction amount information for the current user of the client. This scheme utilization unmanned aerial vehicle has realized the automatic delivery of going to the door of cash in the certain limit for the user need not to go to bank outlets or self-service cash deposit and withdrawal machine and withdraws cash, provides the method of more convenient cash withdrawal.

Description

Self-service cash delivery system

Technical Field

The invention relates to the technical field of automatic delivery, in particular to a self-service cash delivery system.

Background

The user of the bank often needs to draw a certain amount of cash (cash withdrawal) from his own account. At present, a user needs to draw cash and can only go to a bank outlet (a manual outlet or a self-service outlet) with a fixed position or a self-service deposit and withdrawal machine arranged at a specified position of a residential area in a bank for drawing, and the convenience degree is poor.

Disclosure of Invention

In view of the above disadvantages of the prior art, the present invention provides a self-service cash delivery system, which provides a more convenient cash withdrawal method for bank users.

The application provides a self-service cash distribution system which comprises a server, a client and an unmanned aerial vehicle;

the client is used for sending a cash transaction request to the server; wherein the cash transaction request comprises transaction amount information and a transaction account;

the server is used for issuing cash transportation instructions to the unmanned aerial vehicle; wherein the cash transportation instruction comprises the transaction limit information;

the unmanned aerial vehicle is used for responding to the cash transportation instruction and transporting cash of the corresponding amount of the transaction amount information for the current user of the client.

Optionally, the client is further configured to:

displaying an account selection interface containing at least one bank account, and appointing any one bank account in the account selection interface as a transaction account according to the operation of a current user;

displaying a self-service cash transaction interface containing a transaction limit column;

and generating a cash transaction request according to the transaction account and the credit input by the transaction credit field.

Optionally, the server is further configured to:

obtaining the cash allowance of the unmanned aerial vehicle and sending the cash allowance to the client;

when the client generates a cash transaction request according to the transaction account and the amount input by the transaction amount column, the client is specifically used for:

when the client determines that the amount is not less than the cash allowance, displaying a re-input prompt; wherein the re-entry prompt is used to instruct a current user of the client to enter a credit less than the cash balance;

and when the client determines that the amount is smaller than the cash allowance, generating a cash transaction request according to the transaction account and the amount input by the transaction amount field.

Optionally, the server is further configured to:

judging whether the corresponding amount of the transaction amount information is smaller than the account balance of the bank account appointed by the client;

and if the corresponding amount of the transaction amount information is not less than the account balance, sending a cash transaction failure prompt to the client.

Optionally, the transaction amount information and the cash transportation instruction both include currency information;

when the unmanned aerial vehicle transports cash of the corresponding amount of the transaction amount information for the current user of the client, the unmanned aerial vehicle is specifically used for:

and cash corresponding to the transport amount of the current user of the client and the transaction amount information and currency information.

Optionally, the drone includes a cash box and at least one bin;

when the unmanned aerial vehicle transports cash of the corresponding amount of the transaction amount information for the current user of the client, the unmanned aerial vehicle is specifically used for:

transferring the cash of the amount corresponding to the transaction amount information to any idle bin from the cash box; wherein the free bin refers to a bin currently not loaded with cash;

moving to the position of the client;

opening a bin for loading cash corresponding to the transaction amount information.

Optionally, the drone is further configured to:

sending randomly generated bin two-dimensional codes to the client through the server;

and after scanning the bin two-dimensional code displayed by the client, executing the step of opening and loading the bin of the money corresponding to the transaction amount information.

Optionally, the unmanned aerial vehicle includes a camera module;

the unmanned aerial vehicle is also used for:

after the bin two-dimensional code is scanned, the camera module is utilized to perform face recognition on the current user of the client;

and after the face recognition is determined to pass, executing the step of opening the bin position for loading cash corresponding to the trading credit information.

Optionally, when the unmanned aerial vehicle moves to the location of the client, the unmanned aerial vehicle is specifically configured to:

establishing real-time communication connection with the server, and moving to the position of the client according to navigation information issued by the server; and the navigation information is determined by the server according to the position information of the client.

Optionally, before the unmanned aerial vehicle transports cash of the credit corresponding to the transaction credit information for the current user of the client, the unmanned aerial vehicle is further configured to:

determining whether the state information of the unmanned aerial vehicle meets cash transportation conditions; the state information of the unmanned aerial vehicle comprises cash surplus information of the cash box and position use information of the unmanned aerial vehicle;

if the state information of the unmanned aerial vehicle meets the cash transportation condition, executing the step of transporting cash corresponding to the transaction amount information for the current user of the client;

if the state information of the unmanned aerial vehicle does not meet the cash transportation condition, the cash transportation instruction is stored in a queue, and when the state information of the unmanned aerial vehicle meets the cash transportation condition, the cash step of transporting the corresponding amount of the transaction amount information for the current user of the client is executed according to the cash transportation instruction in the queue.

The application provides a self-service cash distribution system which can be applied to the field of Internet of things or the field of finance, and the system comprises a server, a client and an unmanned aerial vehicle; the client is used for sending a cash transaction request to the server; the cash transaction request comprises transaction amount information and a transaction account; the server is used for issuing cash transportation instructions to the unmanned aerial vehicle; wherein, the cash transportation instruction comprises transaction amount information; the unmanned aerial vehicle is used for responding to cash transportation instructions and transporting cash of the corresponding amount of the transaction amount information for the current user of the client. The scheme utilizes the unmanned aerial vehicle to realize automatic cash delivery in a certain range, so that a user does not need to go to a bank outlet or a self-service cash recycling machine to collect cash, and a more convenient cash collecting method is provided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a block diagram of a self-service cash dispensing system according to an embodiment of the present invention;

FIG. 2 is a schematic view of a cash box of an unmanned aerial vehicle in a self-service cash dispensing system according to an embodiment of the present application;

fig. 3 is a schematic information interaction diagram of a self-service cash dispensing system according to an embodiment of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Along with the digital development of banks in China, intensive operation is deepened continuously, and in addition, epidemic situations are complicated continuously, cash dispenser equipment and network points are reduced continuously, so that the cash requirements of customers become difficult to meet gradually, the existing mode needs to be innovated to meet the continuously changing cash requirements of the customers, and the satisfaction degree of the customers is improved.

Establish a cash exchange system based on sharing unmanned aerial vehicle, reform transform current ripe unmanned aerial vehicle, make unmanned aerial vehicle and bank's server to dock through the form that the region covered, realize that customer's cash acquires the demand and accomplishes the quick transport of cash, reduce the traffic cost that customer's cash acquireed, bring good cash for the customer and collect experience.

How to realize the automatic cash drawing of customers in the unmanned aerial vehicle, how to schedule the demands of multiple customers in the area so as to cover numerous customer demands.

The technical scheme of the invention mainly comprises the following three modules:

unmanned aerial vehicle device: the cash drawing and queuing requirements of customers are realized by a mode of internally arranging a cash box, a metering box, a bin and a queue device.

A client: initiating a customer's cash withdrawal transaction while sending the customer's current location information, and scanning the bin code to assist the customer in the cash withdrawal.

The server side: the reservation and cash bin filling of a cash withdrawal client are realized by a built-in receiver and a scheduler, and meanwhile, the requirements of the reserved client can be received, and the client meeting the conditions is continuously served.

The invention establishes a cash exchange system based on a shared unmanned aerial vehicle, which satisfies the cash demands of customers in an area by means of the unmanned aerial vehicle, and the realization principle is as follows:

firstly, the unmanned aerial vehicle is modified, units such as a cash box, a measuring device, a bin, a queue device and the like are arranged in the unmanned aerial vehicle, wherein the cash box is divided into cash types according to regions, for example, the cash box is divided into regions such as RMB, USD, euro and the like. The measuring device is arranged in the cash box, the working unit of the measuring device comprises induction labels and a money scratching needle, the induction labels are arranged on two sides of the cash box, the height of cash is identified among the induction labels, meanwhile, the cash box is used for carrying out flattening operation on the cash, bin filling is carried out on the identified cash amount in a mode that the money scratching needle scratches and buckles one by one, and the capacity of the current cash box can be updated in real time in the measuring device according to the operated cash amount and is notified to the server side receiver. The cash required by the customer is stored in the positions, each position is opened through the position code, the customer identity verification is required before the position code identification, and the position completes the identification of the customer information through the built-in camera. The unmanned aerial vehicle further includes a queuing device, and when each of the spaces is full, the queuing device continues to receive a request from a customer and queues information such as a corresponding cash withdrawal amount, a corresponding delivery time, and a corresponding delivery location.

The client can initiate cash payment through the client, the server is an APP of the mobile phone bank under the common condition, after the client logs in through the mobile phone bank, the mobile phone bank sends position information to the server, and the operation can be completed after the cash payment is clicked on a function menu responded by the mobile phone bank.

The server side completes central control of cash withdrawal, a receiver and a scheduler are arranged in the server side, wherein the receiver can receive cash box capacity information in a measuring instrument of the unmanned aerial vehicle device, and therefore control over the unmanned aerial vehicle is achieved in the scheduler.

The interaction relationship of the three modules comprises the following steps:

1, a client logs in a mobile phone bank APP terminal, the mobile phone bank APP sends position information to a server terminal, and the client clicks a cash payment function.

And 2, the unmanned aerial vehicle device provides services in each area, and the metering module sends the residual amount information of the cash box to the server in real time.

And 3, the server side receives the cash allowance of the unmanned aerial vehicle and then shows the maximum payment amount to the client at the APP side of the mobile banking.

And 4, retrieving the balance information of the bank card of the customer, and displaying a bank card list for the user to select.

And 5, checking the input value of the amount field of the customer cash payment function based on the minimum balance value in the steps 3 and 4.

6, after the customer end sent cash information to the server, the scheduler controlled unmanned aerial vehicle according to current regional unmanned aerial vehicle's cash surplus, mainly included: the cash box draws money, updates the measuring device and fills the bin, and when the balance of the cash is insufficient, the required content of the customer is filled into the queue.

7, after the unmanned aerial vehicle device finishes the position of a storehouse and fills, to the position of a storehouse random position code of generation to send to the server through the measurement ware, the server is forwarded in the cell-phone bank APP.

8, the unmanned aerial vehicle device navigates according to the positional information of customer end, selects the best route to go to the customer position. After customer and unmanned aerial vehicle met, the customer at first carried out authentication to the position in a warehouse, and the position in a warehouse code of collecting through mobile banking APP end after the verification sweeps the sign indicating number and collects cash.

9, the current customer service is finished, whether the unserviced customer exists in the queue is checked, if yes, step 6 is executed, and the next customer service is carried out.

Referring to fig. 1, a schematic structural diagram of a self-service cash dispensing system provided in the embodiment of the present application is shown, where the self-service cash dispensing system includes a server 101 (also called a server), a client 102 and a drone 103.

Wherein, the number of the clients 102 and the drones 103 can be multiple.

When the unmanned aerial vehicle 103 does not work, the unmanned aerial vehicle can be parked in bank outlets in different areas, and each bank outlet can be provided with a certain unmanned aerial vehicle parking area for parking the unmanned aerial vehicle 103.

The number of unmanned aerial vehicles parked at each bank outlet can be determined according to the number of people expected to serve at the bank outlet, and the number is not limited in the embodiment.

When the unmanned aerial vehicle is called to deliver cash for a user of the client, the server can select a bank outlet closest to the position of the client from a plurality of bank outlets in which the unmanned aerial vehicle is parked according to the position information of the client, and then the unmanned aerial vehicle of the selected bank outlet is called to deliver cash.

The client is used for sending a cash transaction request to the server.

Wherein, the cash transaction request comprises transaction limit information and a transaction account.

The server is used for issuing cash transportation instructions to the unmanned aerial vehicle.

Wherein the cash transportation instruction comprises transaction amount information.

The unmanned aerial vehicle is used for responding to cash transportation instructions and transporting cash of the corresponding amount of the transaction amount information for the current user of the client.

In this embodiment, an unmanned aerial vehicle for carrying out cash delivery can carry out certain improvement and then obtain on the basis of arbitrary current commercial unmanned aerial vehicle of a section. The drone of the present embodiment, in addition to the components of a conventional drone, i.e. including a processor, memory, power components, and moving components (e.g. rotors) driven by the power components, mainly includes a cash access component as shown in fig. 2. The schematic shown in fig. 2 can be understood as a top view of the cash access assembly.

As shown in fig. 2, the cash access assembly mainly includes a cash box and a plurality of compartments connected to the cash box, and taking fig. 2 as an example, the cash access assembly may specifically include 4 compartments, one end of each compartment is connected to the cash box, and the other end of each compartment is provided with a door of the compartment, and the door of each compartment can be independently opened or closed under the control of the processor.

Inside both sides of cash box are provided with the response label, and the cash box is provided with on keeping away from the wall in position and draws the paper money needle, draws the paper money needle and responds to the label and has constituted the measure ware in the cash box. The height of the cash in the cash box can be sensed through the sensing tag, and the amount of cash in the current cash box is determined. The money drawing needle can move cash of a specified amount from the cash box into any one specified bin under the control of the processor of the unmanned aerial vehicle, so that a user can take out the cash in the bin after opening the bin door of the bin.

Further alternatively, the cash cassette shown in FIG. 2 may be divided into upper and lower layers, each for holding cash in one currency, e.g., three layers, a first layer for RMB, a second layer for USD, a third layer for Euro, etc.

Except for the above components, the unmanned aerial vehicle of this embodiment can also include camera module, and other components that may use, and this embodiment does not do the restriction to unmanned aerial vehicle's concrete constitution.

In some alternative embodiments, the cash transaction request may be generated based on a credit amount entered by the user.

Specifically, after the user opens the cash dispensing function at the client, the client may be configured to:

and displaying an account selection interface containing at least one bank account, and designating any one bank account in the account selection interface as a transaction account according to the operation of the current user.

The account selection interface can display each bank account bound by a user who logs in at the client in advance, the current user can operate in a mode of clicking any one of the bank accounts, and after the user clicks any one of the bank accounts, the client determines that the bank account is a transaction account appointed by the current user.

After determining the transaction account, the client is configured to:

displaying a self-service cash transaction interface containing a transaction amount column;

and generating a cash transaction request according to the transaction account and the amount input by the transaction amount field.

Specifically, the self-service cash transaction interface includes an input box, i.e. a transaction amount field, and prompt information is displayed outside the input box for prompting the current user to input a cash amount (generally defined as an integral multiple of 100) to be withdrawn in the input box, and after the user inputs the cash amount, the client can generate a cash transaction request, where the cash transaction request includes a transaction account and the cash amount (i.e. the transaction amount) input by the user.

In some optional embodiments, the server is further configured to:

obtain unmanned aerial vehicle's cash surplus and send the cash surplus to the customer end.

Referring to the embodiment corresponding to fig. 2, the processor of the unmanned aerial vehicle determines the current cash amount in the cash box, that is, the cash remaining amount of the unmanned aerial vehicle, through the inductive tag in the cash box, and then sends the cash remaining amount to the server, and the server then transfers the cash remaining amount to the client.

When the client generates a cash transaction request according to the transaction account and the amount input by the transaction amount column, the client is specifically used for:

when the client determines that the amount is not less than the cash allowance, displaying a re-input prompt; wherein the re-input prompt is used for indicating the current user input of the client to be less than the amount of the cash allowance;

and when the client determines that the amount is smaller than the cash allowance, generating a cash transaction request according to the transaction account and the amount input by the transaction amount field.

Further optionally, when there are many unmanned aerial vehicles in idle state at the bank outlet, can be for the current user of customer end when delivering cash, the server can select the unmanned aerial vehicle that the cash surplus is the highest among many unmanned aerial vehicles in idle state, if the cash surplus of many unmanned aerial vehicles in idle state is side by side the highest, then select an unmanned aerial vehicle wantonly from the unmanned aerial vehicle that the cash surplus is side by side the highest idle state, carry out the above-mentioned step of this embodiment based on the unmanned aerial vehicle who selects, the cash surplus that the unmanned aerial vehicle that will select sends the customer end to promptly.

Correspondingly, if the current user of the client is determined to be cash delivery, the server sends a cash delivery instruction to the selected unmanned aerial vehicle, so that the selected unmanned aerial vehicle delivers cash for the current user.

The benefit of this embodiment lies in, prevents that the cash quota that current user will withdraw from exceeding unmanned aerial vehicle's cash allowance, avoids appearing the unmanned aerial vehicle and reachs the not enough condition of cash quota that the discovery carried behind the appointed place, improves user's use and experiences.

In some optional embodiments, the server is further configured to:

judging whether the amount corresponding to the transaction amount information is smaller than the account balance of the bank account appointed by the client;

and if the corresponding amount of the transaction amount information is not less than the account balance, sending a cash transaction failure prompt to the client.

And after receiving the cash transaction failure prompt, the client displays the cash transaction failure prompt. The content of the cash transaction failure prompt may include prompting the user that the account currently designated is in insufficient balance and prompting the user to select another account.

Further optionally, after receiving the cash transaction request, the server may prompt the current user to input a password of the transaction account through the client, so as to preliminarily verify whether the current user is a valid user of the transaction account.

In some optional embodiments, as mentioned above, cash of multiple currencies can be loaded in the unmanned aerial vehicle, and based on the currency information, the transaction amount information and the cash transportation instruction comprise the currency information;

when unmanned aerial vehicle transports the cash of the corresponding amount of transaction amount information for the current user of client, specifically be used for:

and cash corresponding to the transport limit information and the transaction limit information of the current user of the client and currency information.

Further optionally, in the foregoing embodiment, when the server obtains and forwards the cash allowance of the unmanned aerial vehicle to the client, the server may obtain and forward the cash allowance of each currency of the unmanned aerial vehicle, so that the client checks whether the cash allowance of the currency in the unmanned aerial vehicle is greater than a transaction amount specified by the current user according to the currency specified by the current user.

In some alternative embodiments, as shown in fig. 2, the drone includes a cash box and at least one bin;

when unmanned aerial vehicle transports the cash of the corresponding amount of transaction amount information for the current user of client, specifically be used for:

transferring the cash with the corresponding amount of the transaction amount information to any idle bin from the cash box; wherein the idle bin refers to a bin currently not loaded with cash;

moving to the position of the client;

opening the bin for loading the cash corresponding to the trading limit information.

With reference to the example of fig. 2, taking the transaction amount as rmb 1000 as an example, the unmanned aerial vehicle may control the paper money scratching needle to transfer 1000 yuan cash from the cash box to the idle bay 1, and then the unmanned aerial vehicle flies to the position where the client is located, opens the bay door 1 corresponding to the bay 1, and then the current user may take out the 1000 yuan cash in the bay 1, thereby completing the transaction.

Alternatively, the processor of the drone may specifically determine which bin is free as follows.

First, when the drone is powered on, the processor defaults to mark all the bays of the drone as idle bays. During the operation of the unmanned aerial vehicle, each time the processor controls the paper money scratching needle to move cash to a certain idle bin, the processor marks the idle bin as a non-idle bin, and then, when a bin door of any one non-idle bin is opened and automatically closed after a period of time, the processor determines that the cash in the non-idle bin is removed, and then marks the non-idle bin as an idle bin again.

In some optional embodiments, the drone is further to:

sending randomly generated bin two-dimensional codes to a client through a server;

and after scanning the bin two-dimensional code displayed by the client, executing a step of opening a bin for loading cash corresponding to the transaction amount information.

Specifically, after the operation of transferring cash in the previous embodiment is completed, the unmanned aerial vehicle may randomly generate the bin two-dimensional code according to the serial number of the bin into which cash is transferred, and the bin two-dimensional code carries the serial number of the bin into which cash is transferred. And then, the unmanned aerial vehicle sends the generated bin two-dimensional code to the client through the server.

After the unmanned aerial vehicle reaches the current user position of the client, the client responds to the user operation and displays the received bin two-dimensional code, and after the unmanned aerial vehicle scans the bin two-dimensional code, the serial number of the bin carried in the bin can be analyzed, so that which bin needs to be opened currently is determined.

In some optional embodiments, the drone includes a camera module;

the unmanned aerial vehicle is also used for:

after the bin two-dimensional code is scanned, a camera module is used for carrying out face recognition on a current user of the client;

and after the face recognition is determined to pass, executing a step of opening a bin position for loading cash of a limit corresponding to the transaction limit information.

Specifically, after the unmanned aerial vehicle scans the bin two-dimensional code, voice prompt can be output, the camera module that the unmanned aerial vehicle was aimed at with face to the suggestion current user, then the unmanned aerial vehicle shoots user's face image with camera module, the face image passback of will shooing gives the server, the reference face image that prestores in the face image that the server compared the shooting and the database, accomplish face identification, then the server feeds back the face identification result to unmanned aerial vehicle.

If the face recognition result is that the cabin door of the cabin corresponding to the scanned cabin two-dimensional code is opened by the unmanned aerial vehicle, and if the face recognition result is that the cabin door of each cabin is not closed by the unmanned aerial vehicle, the unmanned aerial vehicle keeps the cabin door of each cabin closed.

Optionally, when the unmanned aerial vehicle moves to the position of the client, the unmanned aerial vehicle is specifically configured to:

establishing real-time communication connection with the server, and moving to the position of the client according to the navigation information issued by the server; and the navigation information is determined by the server according to the position information of the client.

The location information of the client may be sent to the server together when the client sends a cash transaction request.

Optionally, before the unmanned aerial vehicle transports cash of the corresponding amount of the transaction amount information for the current user of the client, the unmanned aerial vehicle is further used for:

determining whether the state information of the unmanned aerial vehicle meets cash transportation conditions; the state information of the unmanned aerial vehicle comprises cash surplus information of a cash box and position use information of the unmanned aerial vehicle;

if the state information of the unmanned aerial vehicle meets the cash transportation condition, executing a cash step of transporting a credit corresponding to the transaction credit information of the current user of the client;

if the state information of the unmanned aerial vehicle does not meet the cash transportation condition, the cash transportation instruction is stored in the queue, and when the state information of the unmanned aerial vehicle meets the cash transportation condition, a cash step of transporting the cash corresponding to the credit of the current user transportation transaction credit information of the client is executed according to the cash transportation instruction in the queue.

Specifically, the cash transportation condition may be that a free position exists and the cash allowance is larger than the transaction amount.

If the unmanned aerial vehicle receives the cash transportation instruction, the current state information is found not to meet the condition of having an idle position, namely, the current idle position is determined according to the position use information; or the current state information is found not to meet the condition that the cash allowance is larger than the transaction amount, namely the current cash allowance is found to be smaller than the transaction amount specified by the user according to the cash allowance information, and the unmanned aerial vehicle stores the received cash transportation instruction into the queue.

In the former case, the drone may complete one delivery (the door is opened and closed once to be regarded as completing one delivery), and immediately take out a cash transportation instruction deposited because no empty door is available from the queue after the door is available, so as to perform the next delivery based on the cash transportation instruction.

For the latter case, the drone may take out the corresponding cash transport order and deliver it after finding that the remaining amount of cash in the cash box is greater than the transaction amount.

Generally, when the remaining amount of cash in the unmanned aerial vehicle is too low, the unmanned aerial vehicle can send a request for supplementing cash to the server, the server displays the request to a bank clerk, and the bank clerk supplements a certain amount of cash in a cash box of the unmanned aerial vehicle returned to a bank outlet.

When the unmanned aerial vehicle delivers based on the cash transportation instruction taken out from the queue, the unmanned aerial vehicle can transmit the cash transportation instruction back to the server, and therefore the server determines the position of a user to be delivered by the unmanned aerial vehicle according to the transmitted cash transportation instruction so as to navigate for the unmanned aerial vehicle.

In some optional embodiments, the server may also send the location information of the client to the unmanned aerial vehicle, and the unmanned aerial vehicle performs navigation according to the location information, so as to go to the location of the client. In this case, the drone may store the received location information synchronously while storing the cash transport instructions in the queue.

The information interaction process of the self-service cash dispensing system of the embodiment in operation can be seen in fig. 3.

And A31, the client sends a request for acquiring the cash allowance to the server.

The request may be sent after the current user turns on the cash dispensing function of the client.

And A32, the server acquires the cash allowance from the unmanned aerial vehicle.

And A33, the server sends the cash allowance of the unmanned aerial vehicle to the client.

And A34, the client displays an interface for selecting a transaction account and inputting a transaction amount.

And A35, the client generates a cash transaction request.

A36, the client sends a cash transaction request to the server.

And B31, the server sends a cash transaction request to the unmanned aerial vehicle.

And B32, generating a bin two-dimensional code by the unmanned aerial vehicle.

And B33, the unmanned aerial vehicle sends the bin two-dimensional code to the server.

And B34, the server sends the bin two-dimensional code to the client.

And B35, the unmanned aerial vehicle goes to the position of the client.

And C31, scanning the bin two-dimensional code displayed by the client by the unmanned aerial vehicle.

And C32, the unmanned aerial vehicle carries out face recognition on the current user of the client.

C33, the unmanned aerial vehicle opens the door of the corresponding position of the two-dimensional code of the position of the bin, and closes the door at regular time.

After step C33 is finished, the drone completes one delivery. As previously described, if there are unprocessed cash transport instructions in the queue after C33 is executed, they may be removed and processing may continue.

For specific implementation of the above steps, reference may be made to the foregoing embodiments, which are not described again.

The application provides a self-service cash distribution system which can be applied to the field of Internet of things or the field of finance, and the system comprises a server, a client and an unmanned aerial vehicle; the client is used for sending a cash transaction request to the server; the cash transaction request comprises transaction amount information and a transaction account; the server is used for issuing cash transportation instructions to the unmanned aerial vehicle; wherein the cash transportation instruction comprises transaction amount information; the unmanned aerial vehicle is used for responding to cash transportation instructions and transporting cash of the corresponding amount of the transaction amount information for the current user of the client. The scheme utilizes the unmanned aerial vehicle to realize automatic cash delivery in a certain range, so that a user does not need to go to a bank outlet or a self-service cash recycling machine to collect cash, and a more convenient cash collecting method is provided.

It should be noted that the self-service cash distribution system provided by the invention can be used in the field of internet of things or the financial field. The foregoing is merely an example and is not intended to limit the scope of applications of the self-service cash dispensing system of the present invention.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

It should be noted that the terms "first", "second", and the like in the present invention are only used for distinguishing different devices, modules or units, and are not used for limiting the order or interdependence relationship of the functions performed by the devices, modules or units.

Those skilled in the art can make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A self-service cash distribution system is characterized by comprising a server, a client and an unmanned aerial vehicle;

the client is used for sending a cash transaction request to the server; wherein the cash transaction request comprises transaction amount information and a transaction account;

the server is used for issuing cash transportation instructions to the unmanned aerial vehicle; wherein the cash transport instruction comprises the transaction amount information;

the unmanned aerial vehicle is used for responding to the cash transportation instruction and transporting cash of the corresponding amount of the transaction amount information for the current user of the client.

2. The system of claim 1, wherein the client is further configured to:

displaying an account selection interface containing at least one bank account, and appointing any one bank account in the account selection interface as a transaction account according to the operation of a current user;

displaying a self-service cash transaction interface containing a transaction amount column;

and generating a cash transaction request according to the transaction account and the amount input by the transaction amount field.

3. The system of claim 2, wherein the server is further configured to:

obtaining the cash allowance of the unmanned aerial vehicle and sending the cash allowance to the client;

when the client generates a cash transaction request according to the transaction account and the amount input by the transaction amount column, the client is specifically used for:

when the client determines that the amount is not less than the cash allowance, displaying a re-input prompt; wherein the re-entry prompt is used to instruct a current user of the client to enter a credit less than the cash balance;

and when the client determines that the amount is smaller than the cash allowance, generating a cash transaction request according to the transaction account and the amount input by the transaction amount field.

4. The system of claim 3, wherein the server is further configured to:

judging whether the corresponding amount of the transaction amount information is smaller than the account balance of the bank account appointed by the client;

and if the corresponding amount of the transaction amount information is not less than the account balance, sending a cash transaction failure prompt to the client.

5. The system of claim 1, wherein the transaction amount information and the cash transportation instruction each include currency information;

unmanned aerial vehicle is for when the current user of customer end transports the cash of trade quota information corresponding quota, specifically be used for:

and cash corresponding to the transport amount of the current user of the client and the transaction amount information and currency information.

6. The system of claim 1, wherein the drone includes a cash box and at least one bin;

when the unmanned aerial vehicle transports cash of the corresponding amount of the transaction amount information for the current user of the client, the unmanned aerial vehicle is specifically used for:

transferring the cash of the amount corresponding to the transaction amount information to any idle bin from the cash box; wherein the free bin refers to a bin currently not loaded with cash;

moving to the position of the client;

opening a bin for loading cash corresponding to the transaction amount information.

7. The system of claim 6, wherein the drone is further configured to:

sending randomly generated bin two-dimensional codes to the client through the server;

and after scanning the bin two-dimensional code displayed by the client, executing the step of opening the bin for loading cash corresponding to the transaction amount information.

8. The system of claim 7, wherein the drone includes a camera module;

the unmanned aerial vehicle is also used for:

after the bin two-dimensional code is scanned, the camera module is utilized to perform face recognition on the current user of the client;

and after the face recognition is determined to pass, executing the step of opening the bin position for loading cash corresponding to the trading credit information.

9. The system of claim 6, wherein when the drone moves to the location of the client, the drone is specifically configured to:

establishing real-time communication connection with the server, and moving to the position of the client according to navigation information issued by the server; and the navigation information is determined by the server according to the position information of the client.

10. The system of claim 6, wherein before the unmanned aerial vehicle transports cash of the amount corresponding to the transaction amount information for the current user of the client, the unmanned aerial vehicle is further configured to:

determining whether the state information of the unmanned aerial vehicle meets cash transportation conditions; the state information of the unmanned aerial vehicle comprises cash surplus information of the cash box and position use information of the unmanned aerial vehicle;

if the state information of the unmanned aerial vehicle meets the cash transportation condition, executing the cash step of transporting the credit corresponding to the transaction credit information for the current user of the client;

if the state information of the unmanned aerial vehicle does not meet the cash transportation condition, the cash transportation instruction is stored in a queue, and when the state information of the unmanned aerial vehicle meets the cash transportation condition, the cash step of transporting the corresponding amount of the transaction amount information for the current user of the client is executed according to the cash transportation instruction in the queue.

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