阅读说明：本技术 多钞口的金融自助终端 (Financial self-service terminal with multiple banknote ports ) 是由 骆伯俊 阮东 覃今明 范艳军 于 2019-09-20 设计创作，主要内容包括：本申请实施例提供一种多钞口的金融自助终端,包括主控单元、出入钞口、以及与出入钞口相对设置的第一存取钞口,主控单元分别与出入钞口和第一存取钞口通信连接,还包括：钞口变换装置,以及与主控单元通信连接的至少一个第二存取钞口；第一存取钞口和第二存取钞口分别设置在钞口变换装置中的第一侧壁上,钞口变换装置中的与第一侧壁平行的第二侧壁上设有与出入钞口的大小相同且位置对应的槽口；钞口变换装置中设有用于在第一存取钞口和至少一个第二存取钞口中的任一个与出入钞口之间进行钞票传输的传输组件。本申请能够实现在一台金融自助终端满足多人同时操作存取款的功能,能够有效提高金融自助终端中钞箱的使用效率并减少终端数量的投入。(The embodiment of the application provides self-service terminal of finance of many paper money mouths, including the main control unit, go out paper money mouth and with the relative first access paper money mouth that sets up of income paper money mouth, the main control unit still includes with go out paper money mouth and first access paper money mouth communication connection respectively: the cash port conversion device is connected with the main control unit in a communication way, and at least one second cash port is connected with the main control unit in a communication way; the first money access port and the second money access port are respectively arranged on a first side wall in the money port conversion device, and a second side wall parallel to the first side wall in the money port conversion device is provided with a notch which has the same size as the money access port and corresponds to the money access port in position; the bill port conversion device is provided with a transmission assembly for transmitting bills between any one of the first bill access port and the at least one second bill access port and the bill access port. The method and the system can realize the function of simultaneously operating and depositing money by multiple people at one financial self-service terminal, effectively improve the service efficiency of the money box in the financial self-service terminal and reduce the investment of the number of the terminals.)

1. A multi-slot financial self-service terminal comprising: the main control unit, go out paper money mouth and with go out the relative first access paper money mouth that sets up of income paper money mouth, the main control unit respectively with go out income paper money mouth and first access paper money mouth communication connection, its characterized in that still includes: the cash port conversion device is connected with the main control unit in a communication way, and at least one second cash port is connected with the main control unit in a communication way;

the first money access port and the second money access port are respectively arranged on a first side wall in the money port conversion device, and a second side wall parallel to the first side wall in the money port conversion device is provided with a notch which has the same size as the money access port and corresponds to the money access port in position;

The banknote port conversion device is provided with a transmission assembly for transmitting banknotes between any one of the first banknote access port and the at least one second banknote access port and the banknote access port.

2. the multi-slot financial self-service terminal of claim 1, wherein the transport assembly comprises: the movable banknote conveying part is arranged close to the second side wall and can move along the length direction in the banknote port conversion device, and the first banknote conveying part and the at least one second banknote conveying part are fixedly arranged between the movable banknote conveying part and the first side wall respectively;

The first banknote conveying piece is opposite to the first banknote storing and taking port;

the second money conveying pieces are the same as the second money storing and taking ports in number, and each second money conveying piece is arranged opposite to the corresponding unique second money storing and taking port.

3. The multi-slot financial self-service terminal of claim 2, wherein the transport assembly further comprises: the sliding rail is fixedly arranged in the money port conversion device;

The slide rail is close to the second side wall and is arranged in parallel with the second side wall;

the movable banknote conveying piece is arranged on the sliding rail and can move along the sliding rail, and the initial position of the movable banknote conveying piece is arranged at the position corresponding to the notch;

remove and pass paper money piece along the slide rail move to with during the position that first paper money piece corresponds, remove pass paper money piece with first paper money piece contact with in this first access paper money mouth with go out and go into to carry out the bank note transmission between the paper money mouth, and remove and pass paper money piece along the slide rail move to with during the position that the second passes paper money piece corresponds, remove pass paper money piece with the second passes paper money piece contact with in this second access paper money mouth with go out and carry out the bank note transmission between the paper money mouth.

4. the multi-slot financial self-service terminal of claim 2, wherein the mobile banknote transport unit comprises a transport unit and two sensor groups respectively disposed on the transport unit;

Each sensor group comprises two photoelectric sensors;

Two photoelectric sensors in the same sensor group are respectively and oppositely arranged on two parallel side walls in the conveying component.

5. The multi-slot financial self-service terminal of claim 2, wherein each of the first and second banknote transport members comprises a transport unit and three sensor groups respectively disposed on the transport unit;

each sensor group comprises two photoelectric sensors;

two photoelectric sensors in the same sensor group are respectively and oppositely arranged on two parallel side walls in the conveying component.

6. The financial self-service terminal with multiple banknote ports according to claim 4 or 5, wherein the conveying component comprises a frame body, two transmission areas are contained in the frame body, and two transmission shafts are respectively arranged at two ends of each transmission area;

each transmission shaft is provided with a plurality of transmission wheels with the same quantity, and the same conveying belt is sleeved outside the two transmission wheels which are opposite to each other in position on the two transmission shafts in the same transmission area;

the transmission directions of the transmission belts in different transmission areas are opposite and the transmission speeds are the same.

7. The multi-slot financial self-service terminal of claim 6, wherein the transport component further comprises a drive motor;

The driving motor is respectively connected with one of the transmission shafts in each transmission area, which is close to the banknote inlet and outlet.

8. The multi-slot financial self-service terminal of claim 7, wherein the transport component further comprises a motor box;

The motor box is sleeved outside the driving motor and is fixedly connected with the frame body.

9. the multi-slot financial self-service terminal of claim 6, wherein two of the transmission areas are adjacent upper and lower transmission areas, respectively;

two ends of one transmission shaft in the upper transmission area, which is far away from the banknote inlet and outlet, are respectively provided with a spring;

One end of each spring is connected to one end of the corresponding transmission shaft, and the other end of each spring is fixed to the frame body.

10. The self-service financial terminal with multiple banknote ports according to claim 9, wherein two ends of a transmission shaft of the spring are respectively arranged in limiting grooves in the inner wall of the frame body.

11. The multi-slot financial self-service terminal of claim 1, wherein the first slot is disposed on a first panel and each of the second slots is disposed on a respective second panel.

12. The multi-slot financial self-service terminal of claim 11, wherein if there are a plurality of second panels, at least one of the second panels is disposed adjacent to the first panel, and other panels of the second panels are sequentially disposed adjacent to each other.

13. The multi-slot financial self-service terminal of claim 12, wherein a partition is disposed between adjacent first and second panels and between adjacent second panels.

14. The multi-slot financial self-service terminal as claimed in claim 11, wherein the second panel is provided with a second display screen and a second keyboard unit, which are respectively in communication connection with the main control unit.

Technical Field

the application relates to the technical field of financial equipment, in particular to a financial self-service terminal with multiple banknote ports.

background

With the rapid development of financial self-service terminals such as ATMs, customers of banks increasingly accept self-service cash transactions at financial self-service terminals. With the increasing transaction amount of financial self-service terminals, the financial self-service terminals have higher and higher importance in self-service transactions, and play an important role in the distribution bank counter business.

at present, the existing financial self-service terminal only has a single money outlet and money inlet, cannot serve multiple users at the same time, and needs to increase the investment cost of a bank by adding more financial self-service terminals.

in addition, the existing financial self-service terminal is generally configured with a plurality of cash boxes, and according to the existing mainstream configuration, the standard capacity of one cash box is about 3000 bills (about 30 ten thousand calculated according to a 100 yuan denomination value), but the daily average cash transaction amount of most equipment is about 20 ten thousand, only 1-2 cash boxes can be used in daily life, and the use efficiency of the financial self-service terminal is not fully utilized.

Disclosure of Invention

To the problem among the prior art, the application provides a self-service terminal of finance of many paper money mouths, can effectively realize satisfying many people function of depositing and withdrawing in self-service terminal of a finance, and can effectively improve the availability factor of paper money case among the self-service terminal of finance and reduce the input of self-service terminal quantity of finance.

In order to solve the technical problem, the application provides the following technical scheme:

The application provides self-service terminal of finance of many paper money mouths includes: the main control unit, go out paper money mouth and with go out the relative first access paper money mouth that sets up of income paper money mouth, the main control unit respectively with go out income paper money mouth and first access paper money mouth communication connection, still include: the cash port conversion device is connected with the main control unit in a communication way, and at least one second cash port is connected with the main control unit in a communication way;

the first money access port and the second money access port are respectively arranged on a first side wall in the money port conversion device, and a second side wall parallel to the first side wall in the money port conversion device is provided with a notch which has the same size as the money access port and corresponds to the money access port in position;

The banknote port conversion device is provided with a transmission assembly for transmitting banknotes between any one of the first banknote access port and the at least one second banknote access port and the banknote access port.

Further, the transmission assembly includes: the movable banknote conveying part is arranged close to the second side wall and can move along the length direction in the banknote port conversion device, and the first banknote conveying part and the at least one second banknote conveying part are fixedly arranged between the movable banknote conveying part and the first side wall respectively;

The first banknote conveying piece is opposite to the first banknote storing and taking port;

The second banknote conveying pieces are the same as the second banknote storing and taking ports in number, and each second banknote conveying piece is arranged opposite to the corresponding unique second banknote storing and taking port.

Further, the transmission assembly further comprises: the sliding rail is fixedly arranged in the money port conversion device;

The slide rail is close to the second side wall and is arranged in parallel with the second side wall;

the movable banknote conveying piece is arranged on the sliding rail and can move along the sliding rail, and the initial position of the movable banknote conveying piece is arranged at the position corresponding to the notch;

Remove and pass paper money piece along the slide rail move to with during the position that first paper money piece corresponds, remove pass paper money piece with first paper money piece contact with in this first access paper money mouth with go out to go into and carry out the bank note transmission between the paper money mouth, and remove and pass paper money piece along the slide rail move to with during the position that the second passes paper money piece corresponds, remove pass paper money piece with the second passes paper money piece contact with in this second access paper money mouth with carry out the bank note transmission between the paper money mouth.

further, the movable banknote conveying part comprises a conveying part and two sensor groups respectively arranged on the conveying part;

Each sensor group comprises two photoelectric sensors;

Two photoelectric sensors in the same sensor group are respectively oppositely arranged on two parallel side walls in the conveying component.

Furthermore, the first banknote conveying part and the second banknote conveying part respectively comprise a conveying part and three groups of sensor groups which are respectively arranged on the conveying part;

Each sensor group comprises two photoelectric sensors;

Two photoelectric sensors in the same sensor group are respectively oppositely arranged on two parallel side walls in the conveying component.

Furthermore, the conveying component comprises a frame body, the frame body comprises two transmission areas, and two ends of each transmission area are respectively provided with a transmission shaft;

Each transmission shaft is provided with a plurality of transmission wheels with the same quantity, and the same conveying belt is sleeved outside the two transmission wheels which are opposite to each other in position on the two transmission shafts in the same transmission area;

The transmission directions of the transmission belts in different transmission areas are opposite and the transmission speeds are the same.

further, the conveying component also comprises a driving motor;

The driving motor is respectively connected with one of the transmission shafts in each transmission area, which is close to the banknote inlet and outlet.

further, the transmission part also comprises a motor box;

The motor box is sleeved outside the driving motor and is fixedly connected with the frame body.

Further, the two transmission areas are respectively an upper transmission area and a lower transmission area which are adjacent;

Two ends of one transmission shaft in the upper transmission area, which is far away from the banknote inlet and outlet, are respectively provided with a spring;

one end of each spring is connected to one end of the corresponding transmission shaft, and the other end of each spring is fixed to the frame body.

Furthermore, two ends of a transmission shaft of the spring are respectively arranged in limiting grooves in the inner wall of the frame body.

furthermore, the first money access port is arranged on a first panel, and each second money access port is respectively arranged on each second panel.

Further, if there are a plurality of second panels, at least one of the second panels is adjacent to the first panel, and other panels of the second panels are sequentially adjacent to each other.

Further, a partition board is arranged between the adjacent first panel and the second panel and between the adjacent two second panels.

furthermore, a second display screen and a second keyboard unit which are respectively in communication connection with the main control unit are arranged on the second panel.

according to the technical scheme, the financial self-service terminal of many paper money mouths that this application provided, including main control unit, go out paper money mouth and with the relative first access paper money mouth that sets up of go out paper money mouth, main control unit still includes with going out paper money mouth and first access paper money mouth communication connection respectively: the cash port conversion device is connected with the main control unit in a communication way, and at least one second cash port is connected with the main control unit in a communication way; the first money access port and the second money access port are respectively arranged on a first side wall in the money port conversion device, and a second side wall parallel to the first side wall in the money port conversion device is provided with a notch which has the same size as the money access port and corresponds to the money access port in position; the cash port conversion device is internally provided with a transmission assembly for transmitting cash between any one of the first cash port and the at least one second cash port and the cash inlet/outlet port, on one hand, a plurality of cash outlet/inlet ports are configured by one machine, the function of simultaneously operating and depositing cash by a plurality of people can be effectively realized at one financial self-service terminal, a plurality of users can be simultaneously served, other cash ports capable of rapidly depositing and withdrawing cash are provided besides the original cash inlet/outlet ports, the cost is reduced, the at least one financial self-service terminal is increased, and the investment in the number and maintenance of the financial self-service terminals can be reduced to a certain extent; on the other hand, the actual cash output amount of the single financial self-service terminal can be effectively increased through the design of the plurality of cash access ports, the service efficiency of a cash box of the financial self-service terminal can be effectively improved, and the waste of cash box resources is avoided.

Drawings

in order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive work.

fig. 1 is a schematic structural diagram of a financial self-service terminal with multiple cash ports in an embodiment of the present application.

fig. 2 is a general schematic diagram of a financial self-service terminal with multiple cash ports in an embodiment of the application.

fig. 3 is an internal schematic view of a financial self-service terminal with multiple cash ports in an embodiment of the application.

Fig. 4 is a schematic structural diagram of a first panel in a self-service financial terminal with multiple cash ports according to an embodiment of the present application.

fig. 5 is a schematic general structure diagram of a bill-slot changing device in a multi-bill-slot financial self-service terminal in an embodiment of the present application.

Fig. 6A is a top view of a bill slot changing device in a multi-bill-slot financial self-service terminal according to an embodiment of the present disclosure.

Fig. 6B is a left side view of a bill-slot changing device in a multi-bill-slot financial self-service terminal according to an embodiment of the present application.

fig. 6C is a right side view of a bill slot changing device in a multi-bill-slot financial self-service terminal according to an embodiment of the present application.

fig. 6D is a right side view of the bill inlet and outlet changer according to the embodiment of the present application.

fig. 7 is a detailed structural diagram of a transmission assembly in a financial self-service terminal with multiple cash ports in an embodiment of the application.

Fig. 8A is a schematic diagram of a first state during a bill-slot changing operation in the multi-bill-slot financial self-service terminal according to the embodiment of the present application.

Fig. 8B is a second state diagram of the banknote port changing operation in the multi-banknote port financial self-service terminal according to the embodiment of the present application.

Fig. 8C is a third state diagram of the banknote port changing operation in the multi-banknote port financial self-service terminal according to the embodiment of the present application.

Fig. 8D is a fourth state diagram of the banknote port changing operation in the multi-banknote port financial self-service terminal according to the embodiment of the present application.

Reference numerals:

1: a financial self-service terminal with a plurality of cash ports;

2: a main control unit;

3: a main display unit;

4: a main card reading unit;

5: a printing unit;

6: a main keyboard unit;

7: a cash processing unit;

71: a cash handling device;

72: a safe;

721: a money inlet and outlet;

8: a bill port changing device;

81: a transmission assembly;

811: moving the banknote transfer member;

812: a slide rail;

821: a first banknote transport member;

822: a second banknote transport member;

823: a second banknote transport member;

8111. 8211, 8221, 8231: a frame body;

8112. 8212, 8222, 8232: a conveyor belt;

8113. 8213, 8223, 8233: a photosensor;

8114: a driving wheel;

8115. 8215, 8225, 8235: a drive shaft;

8116. 8216, 8226, 8236: a spring;

8117: a limiting groove;

8118. 8218, 8228, 8238: a motor box;

8119: a drive motor;

83: a first side wall;

84: a second side wall;

85: a notch;

831: a first money access port;

832. 833: a second money access port;

9: a quick withdrawal display unit;

91. 92: a second display screen;

10: an express withdrawal keyboard unit;

101. 102: a second keyboard unit;

11: a first panel;

111. 112, 112: a second panel;

121. 122: a partition plate;

12: a banknote.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

with the popularization of mobile phones and the support of mobile banking software, the mobile phones are used for card-free reservation or code-scanning quick withdrawal, the flow is more convenient and simpler, and the mobile phones are used by more and more users.

The non-card cash withdrawal means that a bank card is not provided, cash can be withdrawn on the ATM equipment as long as a mobile phone is provided, and the cash can be withdrawn easily and quickly without inserting the bank card on the ATM equipment of the bank according to information such as a mobile phone number, an appointment code and the like when needed as long as corresponding appointment cash withdrawal operation is performed through a mobile phone bank in advance.

on the basis, the bank further provides a mobile phone scanning two-dimensional code cash withdrawal service, a user does not need to use a bank card, the user only needs to open a scanning function in a user side of the mobile phone bank, the two-dimensional code displayed on the screen of the ATM equipment is scanned, and cash can be withdrawn easily and quickly by inputting a withdrawal amount and a payment password. This convenient, secure and fashionable financial service approach has become more and more popular with multiple users.

Considering that the existing financial self-service terminal only has a single money inlet and outlet port and cannot serve multiple users simultaneously, and more financial self-service terminals must be added, so that the investment cost of a bank is increased, and the existing financial self-service terminals are generally configured with a plurality of money boxes, and according to the existing mainstream configuration, the standard capacity of one money box is about 3000 banknotes (about 30 ten thousands calculated according to 100 yuan of denomination value), but the daily average cash transaction amount of most equipment is about 20 ten thousands, only 1-2 money boxes can be used in daily life, and the use efficiency of the financial self-service terminal is not fully utilized, the application provides a financial self-service terminal with multiple money ports, which comprises: the main control unit, go out paper money mouth and with go out the relative first access paper money mouth that sets up of income paper money mouth, the main control unit respectively with go out income paper money mouth and first access paper money mouth communication connection, still include: the cash port conversion device is connected with the main control unit in a communication way, and at least one second cash port is connected with the main control unit in a communication way; the first money access port and the second money access port are respectively arranged on a first side wall in the money port conversion device, and a second side wall parallel to the first side wall in the money port conversion device is provided with a notch which has the same size as the money access port and corresponds to the money access port in position; the bank note port conversion device is provided with a transmission assembly for transmitting bank notes between any one of the first bank note access port and the at least one second bank note access port and the bank note access port, and the bank note access port conversion device is provided with a plurality of bank note access ports; on the other hand, the actual cash output amount of the single financial self-service terminal can be effectively increased through the design of the plurality of cash access ports, the service efficiency of a cash box of the financial self-service terminal can be effectively improved, and the waste of cash box resources is avoided.

for the cost input that further reduces equipment, improve the availability factor of unit equipment, provide more convenient financial service for the user, make user experience continuously promote, this application provides the financial self-service terminal 1's of a many paper money mouths embodiment, the financial self-service terminal 1 of many paper money mouths specifically can be a many paper money mouths ATM equipment, also can be other financial self-service operating device that have the function of depositing and withdrawing, refer to fig. 1, contain in the financial self-service terminal 1 of many paper money mouths: the main control unit 2, go out paper money mouth 721 and with go out the relative first access paper money mouth 831 that sets up of paper money mouth 721, the main control unit 2 respectively with go out and go out paper money mouth 721 and first access paper money mouth 831 communication connection, the self-service terminal 1 of finance of many paper money mouths still specifically includes as follows:

The cash port conversion device 8 is connected with at least one second cash port in communication with the main control unit 2; in this embodiment, the number of the second banknote receiving and dispensing ports is two for example, and specifically, the second banknote receiving and dispensing port 832 and the second banknote receiving and dispensing port 833 in fig. 1 may be used.

The first banknote access port 831, the second banknote access port 832 and the second banknote access port 833 are respectively arranged on a first side wall 83 in the banknote port conversion device 8, and a notch 85 which is the same as the banknote access port 721 in size and corresponds to the banknote access port in position is arranged on a second side wall 84 parallel to the first side wall 83 in the banknote port conversion device 8; the bill port changer 8 is provided with a transport assembly 81 for transporting bills between the bill inlet 721 and any one of the first bill inlet 831, the second bill inlet 832 and the second bill inlet 833.

in order to further explain the specific structure of the multi-slot financial self-service terminal of the present application, in one or more embodiments of the present application, reference is made to the multi-slot financial self-service terminal shown in fig. 2, and the specific structure is described as follows:

(1) the financial self-service terminal with multiple cash ports mainly comprises a main control unit 2, a main display unit 3, a main card reading unit 4, a printing unit 5, a main keyboard unit 6, a cash processing unit 7, a cash port conversion device 8, a quick cash drawing display unit 9, a quick cash drawing keyboard unit 10 and a first panel 11, wherein the first panel 11 can also be called as an external service panel or a main panel.

The main control unit 2, the main display unit 3, the main card reading unit 4, the printing unit 5, the main keyboard unit 6 and the cash processing unit 7 are basic components of the current ATM equipment, the design and the technology are mature, the application is only briefly explained, and the principle of the application is not described in detail.

(2) The main control unit 2 can adopt a high-performance computer host, a single chip microcomputer of the existing type or a professional industrial personal computer, can process the service operation request of a user, carries out real-time processing according to related service flow, and is connected with the main display unit 3, the main card reading unit 4, the printing unit 5, the main keyboard unit 6, the cash processing unit 7, the cash port changing device 8, the fast cash withdrawal display unit 9 and the fast cash withdrawal keyboard unit 10 to control the work of each unit and receive and process related information.

The operating system of the main control unit 2 can realize the function of multi-picture independent display and multi-task, can display different services and operation interfaces on a plurality of displays, and can respond to and process service requests of a plurality of users at the same time.

(3) The main display unit 3 may be a liquid crystal display with a touch function, is connected to the main control unit 2, and can display various services and operation interfaces according to control information of the main control unit 2.

the liquid crystal display screen can adopt a large-screen high-brightness LCD, has the functions of being visible under sunlight and automatically adjusting brightness according to ambient light, and can be further provided with an anti-riot screen (having a radiation protection function) and/or a peeping-proof screen, and the screen visible angle of the liquid crystal display screen can be smaller than 60 degrees so as to prevent non-traders from peeping personal data displayed by the screen from the side.

In addition, the liquid crystal display screen with the touch function can adopt a multi-point touch capacitive touch screen, has the functions of static electricity prevention and magnetic field interference resistance, and also has a USB interface; in addition, the liquid crystal display screen with the touch function can also have the functions of dust prevention, riot prevention, scratch prevention and the like.

(4) The main card reading unit 4 can adopt a card-swallowing type electric card reader, supports high/low density magnetic stripe cards, can read and write 1, 2 and 3 magnetic tracks and IC cards, supports ISO7810, ISO7811 and ISO7816 standards, is authenticated by a certain bank card detection center PBOC3.0Level 1, conforms to the EMV2000 standard, has a magnetic judgment card entrance safety gate, has a card recovery function, and can also have a waterproof design, a fraud prevention device and a magnetic stripe anti-theft reading device.

(5) The printing unit 5 can adopt a thermosensitive receipt to print, the printing width of the paper roll is adjustable, black mark identification is supported, and patterns, Chinese character internal codes and ASCII code printing modes are provided, and the paper cutting machine has the functions of paper shortage, paper jam, paper-free detection, alarm and automatic paper cutting.

(6) The main keyboard unit 6 can adopt a standard EPP hardware encryption keyboard, the keyboard comprises 11 number keys of 0-9 and 00, functional keys of Cancel, Correct, Confirm, decimal and the like, and 1 blank extensible key. The terminal product safety certification is accepted through a China Bank card detection center PBOC3.0 certification and a Unionpay card; water-proof, dust-proof, explosion-proof, support the hard encryption; the DES, 3DES and RSA encryption algorithms, MAC calculation and various international PINBlock standards are supported, and SM2/SM3/SM4 domestic encryption algorithms are supported; the functions of unsealing self-destruction, local and remote key downloading are supported; the keys have Chinese and English prompt, braille prompt and single-tone prompt functions.

wherein, the main keyboard unit 6 is also provided with a password keyboard peep-proof cover; it can be configured with 2 pieces of 1X 4 key metal function keys and has the functions of water-proofing, dust-proofing and explosion-proofing, etc.

(7) Referring to fig. 3, the cash handling unit 7 is composed of a cash handling device 71 and a safe 72.

The cash processing device 71 adopts a high-performance single withdrawal or paper currency circulating machine core and supports RMB 5 edition 100 yuan, 50 yuan, 20 yuan and 10 yuan; the 4 th edition is 100 yuan, 50 yuan and 10 yuan, wherein the paper currency circulating machine core has the functions of currency examination, cash circulation, sorting, currency stacking and recycling.

The cash processing device 71 has an automatic counting function, and can determine the number of banknotes in each banknote cassette; the cash deposit processing device 71 also supports the functions of automatic detection and automatic reset of the cash card, so as to reduce the manual intervention processing.

In one or more embodiments of the present application, the cash handling device 71 is disposed in the safe 72, and the cash inlet/outlet 721 is disposed at a side of the safe 72 close to the cash port changing device 8.

The currency detecting module of the paper currency circulating machine core of the cash processing device 71 adopts various counterfeit currency identification technologies and means, and can identify various counterfeit currency and altered currency; the method has the function of identifying the serial number of the bank note, acquires the image of the bank note at a high speed through a photoelectric sensor, identifies characters in the image through an OCR technology, extracts the serial number of the bank note, and stores the serial number in the form of the image and the characters. The system automatically scans and identifies, supports the query and retrieval functions, and has the function of automatically rejecting the blacklist.

(8) Referring to fig. 4 and 5, the money mouth changing device 8 is a core device of the present application, and mainly includes a mobile money conveying part 811, a sliding rail 812, a first money conveying part 821, a second money conveying part 822, and a second money conveying part 823, where the first money conveying part 821 is disposed corresponding to the first money access mouth 831, the second money conveying part 822 is disposed corresponding to the second money access mouth 832, and the second money conveying part 823 is disposed corresponding to the second money access mouth 833, and conveys the money among the first money conveying part 821, the second money conveying part 822, and the second money conveying part 823 by moving the money conveying part 811, so as to realize the function of discharging the money at different money mouths, where the mobile money conveying part may also be referred to as a money mouth changing and transmitting module, the sliding rail may also be referred to as a rail module, the first money conveying part may also be referred to as a main buffer, the second money conveying part 822 may also be referred to as a buffer one, the second banknote transmitting part 823 may also be referred to as a second buffer, wherein the first banknote access port 831 may be referred to as a main banknote port, and the second banknote access port 832 and the second banknote access port 833 may also be referred to as a fast withdrawal banknote port.

(9) The second display screen 91 and the second display screen 92 are both liquid crystal display screens with touch functions, are connected to the main control unit 2, and display various services and operation interfaces according to the control information of the main control unit 2, wherein the second display screen 91 and the second display screen 92 may also be referred to as a fast display unit.

the liquid crystal display screen can adopt a small-screen high-brightness LCD (considering that the business process of rapid withdrawal is relatively simple, the screen size of the rapid display unit is smaller than that of the main display unit 3 screen from the cost design consideration), has the functions of being visible under the sunlight and automatically adjusting the brightness according to the change of ambient light, has an anti-riot screen (having an anti-radiation function), and can ensure that the visual angle of the screen is smaller than 60 degrees, so that non-trading personnel can be prevented from peeping personal data displayed on the screen from the side.

the second display screen 91 and the second display screen 92 are multi-touch capacitive touch screens, and are anti-static and anti-magnetic field interference, and USB interfaces; dustproof, riot-proof and scratch-proof.

(10) Express withdrawal keyboard unit 10 is also a standard EPP hardware encryption keyboard, configured consistent with main keyboard unit 6.

In view of the relative simplicity of the business process of quick withdrawal, only 1 block of 1 × 4 key metal function keys are configured.

(11) The operation panel of the financial self-service terminal comprises the first panel 11, and further comprises a second panel 111 and a second panel 112 adjacent to the left and right sides of the first panel 11, and if the second panel is a third or other multiple, these additional second panels may be sequentially adjacent to the second panel 111 or the second panel 112, wherein both the second panel 111 and the second panel 112 may be called as a quick withdrawal panel.

The partition boards 121 and 122 are disposed between the first panel 11 and the second panel 111, and between the second panel 112, so that different users can operate simultaneously without affecting each other.

a main display unit 3 is arranged in the center of the first panel 11, and a main card reading unit 4 and a printing unit 5 are respectively arranged below the main display unit 3; a first money access inlet 831 is arranged below the main card reading unit 4 and the printing unit 5.

the lowest platform of the first panel 11 is provided with a keyboard main body of the main keyboard unit 6, and both sides of the main display unit 3 are provided with function keys of the main keyboard unit 6.

The second panel 111 and the second panel 112 on the left and right sides are in the same layout, the center is respectively provided with a second display screen 91 and a second display screen 92, and a second cash access port 832 and a second cash access port 833 are respectively arranged below the second display screen 91 and the second display screen 92.

the lowermost platforms of the second panel 111 and the second panel 112 on the left and right sides are provided with keyboard bodies of the second keyboard unit 101 and the second keyboard unit 102, respectively, and one sides of the second display screen 91 and the second display screen 92 are provided with function keys of the second keyboard unit 101 and the second keyboard unit 102, respectively.

In order to further improve the utilization efficiency of the money box in the financial self-service terminal and reduce the number of the financial self-service terminals, the application provides an embodiment of a financial self-service terminal with multiple money openings, and referring to fig. 6A, 6B, 6C and 6D, the transmission assembly 81 in the financial self-service terminal with multiple money openings specifically includes the following:

a movable bill transfer part 811 disposed near the second side wall 84 and movable in the length direction inside the bill port changing device 8, and a first bill transfer part 821 and at least one second bill transfer part fixedly disposed between the movable bill transfer part 811 and the first side wall 83, respectively; in this example, there are two second banknote conveying members, namely a second banknote conveying member 822 and a second banknote conveying member 823.

The first banknote transfer part 821 is opposite to the first banknote storing and taking port 831;

The second passes paper money piece 822 with the quantity of second access paper money mouth is the same, and each the second passes paper money piece respectively with respectively only corresponding the second access paper money mouth sets up relatively, in this example, the second passes paper money piece 822 with respectively only corresponding the second access paper money mouth 832 sets up relatively, the second passes paper money piece 823 with respectively only corresponding the second access paper money mouth 833 sets up relatively.

Based on the above, the transmission component 81 further includes: a slide rail 812 fixedly provided inside the bill port changing device 8; the slide rails 812 are disposed adjacent to the second side wall 84 and parallel to the second side wall 84; the movable banknote transmission piece 811 is arranged on the slide rail 812 and can move along the slide rail 812, and the initial position of the movable banknote transmission piece 811 is arranged at the position corresponding to the notch 85; remove and pass paper money piece 811 along slide rail 812 remove with during the position that first paper money piece 821 corresponds, remove and pass paper money piece 811 with first paper money piece 821 contact with carry out the bank note transmission between this first access paper money mouth 831 with go out and go into between paper money mouth 721, and remove and pass paper money piece 811 along slide rail 812 remove with second pass paper money piece 822 or second pass when the position that paper money piece 823 corresponds, remove and pass paper money piece 811 with second pass paper money piece 822 or second pass paper money piece 823 contact with access the paper money mouth with go out and carry out the bank note transmission between the paper money mouth 721 corresponding second, wherein, the second that second passes paper money piece 822 corresponds accesses the paper money mouth and is second access paper money mouth 832, the second that second passed paper money piece 823 corresponds accesses the mouth and is second access mouth 833.

In one or more embodiments of the present application, the mobile banknote transport 811 includes a transport part and two sensor groups respectively disposed on the transport part; each sensor group comprises two photoelectric sensors; two photoelectric sensors in the same sensor group are respectively and oppositely arranged on two parallel side walls in the conveying component. The photoelectric sensors arranged on the movable banknote transport member 811 are photoelectric sensors 8113.

In one or more embodiments of the present application, each of the first banknote transferring member 821 and the second banknote transferring member includes a transferring part and three sensor groups respectively disposed on the transferring part; each sensor group comprises two photoelectric sensors; two photoelectric sensors in the same sensor group are respectively and oppositely arranged on two parallel side walls in the conveying part. Each photoelectric sensor 8213 is arranged on the first banknote transferring part 821, each photoelectric sensor 8223 is arranged on the second banknote transferring part 822, and each photoelectric sensor 8233 is arranged on the second banknote transferring part 823.

Based on the above, the conveying component comprises a frame body, the frame body comprises two transmission areas, and two ends of each transmission area are respectively provided with a transmission shaft; each transmission shaft is provided with a plurality of transmission wheels with the same quantity, and the same conveying belt is sleeved outside the two transmission wheels which are opposite to each other in position on the two transmission shafts in the same transmission area; the transmission directions of the transmission belts in different transmission areas are opposite and the transmission speeds are the same.

the conveying component further comprises a driving motor; the driving motor is connected to one of the transmission shafts in each of the transmission areas, which is close to the banknote outlet 721.

The transmission part also comprises a motor box; the motor box is sleeved outside the driving motor and is fixedly connected with the frame body.

The two transmission areas are respectively an upper transmission area and a lower transmission area which are adjacent; two ends of one transmission shaft in the upper layer transmission area, which is far away from the banknote inlet/outlet 721, are respectively provided with a spring; one end of each spring is connected to one end of the corresponding transmission shaft, and the other end of each spring is fixed to the frame body.

And two ends of a transmission shaft of the spring are respectively arranged in the limiting grooves on the inner wall of the frame body.

To further illustrate the above-mentioned transport component, in a specific application example of a multi-slot financial self-service terminal of the present application,

(1) In fig. 5, the bill port changer 8 is located immediately adjacent to the cash handling unit 7 above the safe 72 of the cash handling unit 7, and the safe has a bill inlet/outlet port 721, and the bills processed by the cash handling unit 71 in the cash handling unit 7 enter the bill port changer 8 through the bill inlet/outlet port 721.

(2) in fig. 5, the bill slot changing device 8 is composed of a mobile bill transmission part 811, a sliding rail 812, a first bill slot 831, a second bill slot 832 and a second bill slot 833, and according to the business requirements of the actual users, the mobile bill transmission part 811 moves horizontally on the sliding rail 812 as a whole, and bills are transmitted between three bill slot buffers, so that the function of outputting bills at different bill slots is realized.

the initial operating position of the movable banknote transfer member 811 is located between the banknote outlet/inlet 721 and the first banknote inlet/outlet 831, and is located immediately adjacent to and opposite to the banknote outlet/inlet 721 and at the same time, immediately adjacent to and opposite to the first banknote inlet/outlet 831.

the first banknote conveying part 821, the second banknote conveying part 822 and the second banknote conveying part 823 are respectively close to and just face the first banknote storing and taking port 831, the second banknote storing and taking port 832 and the second banknote storing and taking port 833, and the first banknote storing and taking port 831, the second banknote storing and taking port 832 and the second banknote storing and taking port 833 are electric gates and can be opened or closed according to needs.

(3) In fig. 5, 6A, 6B, 6C and 6D, the structures of the movable banknote conveying part 811, the first banknote conveying part 821, the second banknote conveying part 822 and the second banknote conveying part 823 are substantially the same, and the main components include a frame, a conveyor belt, a sensor, a transmission wheel, a transmission shaft, a spring, a limiting groove and an internal motor. The following describes the structure of the movable banknote transport member 811 in detail.

in fig. 6A, 6B, 6C, and 6D, the movable banknote transport member 811 is mainly composed of a frame 8111, a conveyor belt 8112, a photosensor 8113, a transmission wheel 8114, a transmission shaft 8115, a spring 8116, a limit groove 8117, a motor case 8118, and a driving motor 8119.

Four transmission shafts 8115 are arranged in the frame body 8111 and distributed at the upper, lower, front and rear four corners in the frame body 8111, each transmission shaft is connected with a group of three transmission wheels 8114 and four groups of twelve transmission wheels 8114, a ring-shaped conveying belt 8112 is tightly wound on each two transmission wheels 8114 distributed in the front and rear direction, and a banknote conveying channel is formed by three pairs of six conveying belts 8112.

One side of the frame body 8111 is provided with a motor box 8118, a driving motor 8119 is arranged in the motor box 8118, when a bill 12 enters the movable bill transfer member 811 from the bill inlet/outlet 721, the driving motor 8119 simultaneously drives the two transmission shafts 8115 near one side of the bill inlet/outlet 721 to rotate in different directions and synchronously through the gear train (as shown in fig. 6B, namely, the upper transmission shaft 8115 near one side of the bill inlet/outlet 721 rotates in a counterclockwise direction, and the lower transmission shaft 8115 near one side of the bill inlet/outlet 721 rotates in a clockwise direction at the same speed), and drives the transmission wheel 8114 on the transmission shaft to roll in a linkage manner, the transmission wheel 8114 drives the transmission belt 8112 to move, the upper transmission belt 8112 circularly moves in the anticlockwise direction, meanwhile, the lower transmission belt 8112 circularly moves in the clockwise direction at the same speed, the bills are gradually fed into the moving bill transfer member 811 by the frictional force of the upper and lower belts.

Two springs 8116 are respectively arranged at two ends of an upper transmission shaft 8115 far away from the banknote inlet 721, one end of each spring 8116 is connected to the transmission shaft 8115, and the other end of each spring 8116 is fixed on the frame body 8111. Meanwhile, the two ends of the upper transmission shaft 8115 are arranged in the limiting grooves 8117 and can vertically move in a limited range in a small range, and the design can accommodate one or more banknotes, meanwhile, the banknotes with different thicknesses can be tightly pressed and can pass through the transmission channel in order, and mess cannot occur.

specifically, in fig. 6C, in the case where there is no bill in the conveyance path, the upper and lower pair of conveyance belts 8112 are pressed against each other under the tension of the spring 8116. In fig. 6D, when a stack of banknotes 12 of the cash processing unit 7 enters the movable banknote transmission member 811 from the banknote inlet/outlet 721 through the banknote inlet/outlet 721, the driving motor 8119 is activated, the transmission belts 8112 synchronously and reversely move to enable the banknotes 12 to gradually enter the movable banknote transmission member 811 at a constant speed, when the banknotes 12 enter the rear portion of the movable banknote transmission member 811, under the mutual action of the tension and the tension of the spring 8116, an upper transmission shaft (including the transmission wheel) far from the banknote inlet/outlet 721 side starts to move vertically and slightly along the whole limiting slot 8117, but the upper and lower pair of transmission belts 8112 can still tightly press the stack of banknotes with a certain thickness, so that the stack of banknotes can be transmitted regularly.

Two pairs of photoelectric sensors 8113 are arranged in a banknote conveying channel in the movable banknote conveying piece 811 and distributed at two ends of the frame body 8111, and the current conveying position of the banknote is judged by sensing whether the banknote covers the sensors or not. When a banknote simultaneously obstructs the two pairs of photosensors 8113, it indicates that the banknote has completely entered the moving banknote transport 811.

(4) In fig. 7, the first banknote transferring member 821 is similar to the structure of the moving banknote transferring member 811 in that its main components are composed of a frame 8211, a transfer belt 8212, a photoelectric sensor 8213, a driving wheel, a driving shaft 8215, a spring 8216, a limit groove, a motor box 8218 and a driving motor.

different from the movable banknote conveying piece 811, the first banknote conveying piece 821 is provided with three pairs of photoelectric sensors 8213 which are distributed at two ends and the center of the frame body 8211, the current conveying position of the banknote is judged by sensing whether the banknote covers the photoelectric sensors, and different processing is carried out according to different conveying positions.

(5) In fig. 7, the second banknote transferring member 822 is structured similarly to the moving banknote transferring member 811, and mainly includes a frame 8221, a transfer belt 8222, a photoelectric sensor 8223, a driving wheel, a driving shaft 8225, a spring 8226, a limit groove, a motor case 8228, and a driving motor.

Different from the movable banknote conveying piece 811, the second banknote conveying piece 822 has three pairs of photoelectric sensors 8223 which are distributed at two ends and the center of the frame body 8221, the current conveying position of the banknote is judged by sensing whether the banknote covers the photoelectric sensors, and different processing is carried out according to different conveying positions.

(6) In fig. 7, the second banknote transferring member 823 is configured similarly to the movable banknote transferring member 811, and mainly includes a frame 8231, a transfer belt 8232, a photosensor 8233, a driving wheel, a driving shaft 8235, a spring 8236, a limit groove, a motor case 8238, and a driving motor.

Different from the movable banknote conveying piece 811, the second banknote conveying piece 823 is provided with three pairs of photoelectric sensors 8233 which are distributed at two ends and the center of the frame 8231, the current conveying position of the banknote is judged by sensing whether the banknote covers the photoelectric sensors, and different processing is carried out according to different conveying positions.

(7) The first banknote transmission part 821, the second banknote transmission part 822 and the second banknote transmission part 823 are respectively arranged at one side of the first banknote access opening 831, the second banknote access opening 832 and the second banknote access opening 833, and when the electric gate of the banknote access opening is opened, the banknotes buffered in the banknote access opening are sent out to a user. The first banknote transferring member 821, the second banknote transferring member 822 and the second banknote transferring member 823 are respectively adjacent to and opposite to the first banknote access opening 831, the second banknote access opening 832 and the second banknote access opening 833.

In addition, the first banknote storing and taking port 831 is disposed on a first panel 11, and each of the second banknote storing and taking ports is disposed on each of the second panels. The second banknote access port 832 is disposed on the second panel 111, and the second banknote access port 833 is disposed on the second panel 112. If the number of the second panels is multiple, at least one of the second panels and the first panel 11 are adjacently arranged, and other panels of the second panels are sequentially adjacently arranged. And a partition board is arranged between the adjacent first panel 11 and the second panel and between the adjacent two second panels. In an example, a partition 121 is disposed between the first panel 11 and the second panel 111, and a partition 122 is disposed between the first panel 11 and the second panel 112. The first panel 11 is provided with a main display unit 3 and a main keyboard unit 6 which are respectively in communication connection with the main control unit 2; and a second display screen and a second keyboard unit which are respectively in communication connection with the main control unit 2 are arranged on the second panel. The second panel 111 is provided with a second display screen 91 and a second keyboard unit 101, which are respectively in communication connection with the main control unit 2, and the second panel 112 is provided with a second display screen 92 and a second keyboard unit 102, which are respectively in communication connection with the main control unit 2.

Based on the above, the money mouth changing operation process of the financial self-service terminal with multiple money mouths is also provided, and referring to fig. 8A, 8B, 8C and 8D, the money mouth changing operation process is described as follows:

For further description, the operation process of the bill slot changing will be described in detail in the following with an operation process scenario in which two users perform fast cash withdrawal simultaneously. Other application scenarios are similar and not all are described in this specification.

(1) the cash processing unit 7 and the cash port conversion device 8 are initialized and reset, all sensors work normally, and the financial self-service terminal 1 with multiple cash ports can provide normal withdrawal business operation.

the movable bill transfer member 811 is now in the initial operating position, immediately adjacent to and facing the bill inlet 721. The electric gates of the first banknote access 831, the second banknote access 832 and the second banknote access 833 are all in the closed position.

(2) Two users with fast money withdrawing service requirements use mobile phones and operate through the second keyboard unit 101 and the second keyboard unit 102 to carry out fast money withdrawing requests according to the prompts of service pictures on the second display screen 91 and the second display screen 92 respectively, wherein the first user is positioned in front of the second money access opening 833 and sends out a request for withdrawing 1000 yuan first, and the second user is positioned in front of the second money access opening 832 and then sends out a request for withdrawing 500 yuan.

After the request information is transmitted to the main control unit 2, the main control unit 2 processes and confirms the generation of the cash-out sequence instruction according to the time sequence, and sends a control instruction to the cash processing unit 7 and the cash port changing device 8.

(3) First, the cash dispensing sequence is started, and according to a first request of 1000 yuan from a user, after the cash processing device 71 successfully withdraws 10 100 yuan bills from the internal cash box, the 10 100 yuan bills are conveyed to the cash inlet 721 through the internal conveying channel.

(4) In fig. 8A, when 10 100 dollar banknotes are conveyed to the banknote inlet/outlet 721, the driving motor 8119 of the movable banknote transport member 811 is operated, and the transport belt 8112 circulates in a counter-synchronous manner.

At this time, the cash handling device 71 continues to send out the bills, and 10 100 yuan bills 12 start to enter the interior of the moving bill conveying member 811 at a constant speed under the action of the conveying belt 8112 of the moving bill conveying member 811.

the driving motor 8119 of the moving banknote transport member 811 is continuously operated, and 10 banknotes 12 of 100 dollar are continuously fed into the moving banknote transport member 811, and when the banknotes 12 simultaneously block the two pairs of photoelectric sensors 8113 of the moving banknote transport member 811, indicating that the banknotes 12 have completely entered the moving banknote transport member 811, the driving motor 8119 of the moving banknote transport member 811 stops operating, and the cash handling device 71 also stops the feeding operation.

(5) In fig. 8B, after 10 100 dollar banknotes 12 completely enter the movable banknote transport member 811, the movable banknote transport member 811 carries the banknotes 12, and the banknotes leave the initial operating position, and move horizontally on the slide rails 812 to approach the second banknote transport member 823.

(6) in fig. 8C, the horizontal movement is stopped when the movable banknote transferring member 811 reaches the operating position of the second banknote transferring member 823 (immediately opposite to the second banknote transferring member 823).

the driving motor 8119 of the movable banknote conveying part 811 starts to work, the conveying belt 8112 synchronously and circularly moves in different directions to convey 10 pieces of 100 yuan banknotes 12 out of the movable banknote conveying part 811, and at the same time, the driving motor of the second banknote conveying part 823 starts to work, the conveying belt 8232 synchronously and circularly moves in different directions to suck 10 pieces of 100 yuan banknotes 12 into the second banknote conveying part 823.

The driving motor 8119 of the moving banknote conveying piece 811 and the driving motor of the second banknote conveying piece 823 continuously work, 10 banknotes 12 of 100 yuan are continuously conveyed into the second banknote conveying piece 823, when the banknotes 12 simultaneously shield the three pairs of photoelectric sensors 8233 of the second banknote conveying piece 823, the banknotes 12 are indicated to completely enter the second banknote conveying piece 823, at this time, the driving motor of the second banknote conveying piece 823 stops working, and the driving motor 8119 of the moving banknote conveying piece 811 also stops working at the same time.

The moving bill transfer member 811 is separated from the second bill transfer member 823, and is moved horizontally on the slide rails 812 as a whole, approaches the initial operating position, and finally returns to the initial operating position.

(7) In fig. 8D, when 10 sheets of 100 m banknotes 12 have completely entered the second banknote transport member 823, the electric shutter of the second banknote deposit and withdrawal port 833 is opened, and at the same time, the driving motor of the second banknote transport member 823 is activated again, and the conveyor belt 8232 performs a counter-synchronous circulating motion to feed the 10 sheets of 100 m banknotes 12 to the second banknote deposit and withdrawal port 833.

The driving motor of the second banknote transfer member 823 is continuously operated, 10 banknotes 12 with 100 dollar in size are continuously sent out of the second banknote access opening 833, when the two sets of the photoelectric sensors 8233 far away from the second banknote access opening 833 are not shielded by the banknotes at the same time, it indicates that 10 banknotes 12 with 100 dollar in size have been sent to the second banknote access opening 833, the driving motor of the second banknote transfer member 823 is stopped, and then the user can take out 10 banknotes 12 with 100 dollar in size. After the banknote 12 is taken out, none of the three pairs of photosensors 8233 of the second banknote transfer member 823 is shielded, the electric gate of the second banknote storing and taking port 833 is closed, and the withdrawal operation by the first user is ended.

(8) in fig. 8C and 8D, when the movable banknote transport 811 returns to the initial working position, the second banknote out sequence is immediately processed, and the cash handling device 71 successfully withdraws 5 banknotes of 100 dollars from the internal banknote cassette according to the 500 dollars of withdrawal request sent by the second user, and then transports the 5 banknotes of 100 dollars to the banknote inlet and outlet 721 through the internal transport channel, and simultaneously starts to feed into the movable banknote transport 811.

after the 5 100 dollar bills 12 completely enter the movable bill transfer member 811, the movable bill transfer member 811 carries the bills 12, leaves the initial operating position, and moves horizontally on the slide 812 as a whole to approach the second bill transfer member 822.

The operation of the second banknote transport 822 and the second banknote receiving and dispensing port 832 for the subsequent banknotes 12 is similar to that described above and will not be described in detail.

(9) for the first user and the second user, even if the two users send withdrawal requests almost at the same time, since the working processes are all performed inside the financial self-service terminal 1 with multiple cash outlets, and the two cash-out sequences are performed continuously and closely, the actual waiting time of the users is not too long, and the experience is not affected.

In addition, the situation that three users simultaneously perform the operation of the withdrawal service is similar to the above description, and the main control unit 2 can also generate and respectively process three cash-out sequence instructions according to the sequence of the requests.

It is 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, 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 an … …" does not exclude the presence of other like elements in a process, article, or apparatus that comprises the element. The terms "upper", "lower", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly, removably, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

in the description of the present application, numerous specific details are set forth. It can be appreciated, however, that embodiments of the application may be practiced without these specific details. In some instances, well-known structures and techniques have not been shown in detail in order not to obscure an understanding of this description. Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the present application, various features of the present application are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various application aspects. However, the disclosed method should not be interpreted as reflecting an intention that: this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains. Rather, as the following claims reflect, application is directed to less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this application. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application is not limited to any single aspect, nor is it limited to any single embodiment, nor is it limited to any combination and/or permutation of these aspects and/or embodiments. Moreover, each aspect and/or embodiment of the present application may be utilized alone or in combination with one or more other aspects and/or embodiments thereof.

finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and are not limited thereto; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present application, and are intended to be covered by the claims and the specification of the present application.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. The foregoing description describes certain embodiments of this specification. Other embodiments are within the scope of the following claims. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. Reference throughout this specification to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of an embodiment of the specification. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without conflicting therewith.

The above description is only an example of the embodiments of the present disclosure, and is not intended to limit the embodiments of the present disclosure. Various modifications and variations to the embodiments described herein will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the embodiments of the present specification should be included in the scope of the claims of the embodiments of the present specification.