CN210691492U - Bank note box integrated processing device and bank operation system - Google Patents

Abstract

The embodiment of the application provides a paper money case integration processing apparatus and bank operation system, and the apparatus includes: the automatic counting and cash processing system comprises a controller, a safe body, an automatic counting assembly, a tail box storage assembly and a cash processing assembly, wherein the automatic counting assembly, the tail box storage assembly and the cash processing assembly are respectively arranged in the safe body; the cash processing assembly, the automatic counting assembly and the tail box storage assembly are respectively in communication connection with the controller; the automatic counting assembly comprises a turnover box and a second transmission channel, wherein two ends of the second transmission channel are respectively connected with the first transmission channel and the turnover box so as to transmit the banknotes in the cash processing assembly into the turnover box for counting. This application can effectively reduce operation and human cost such as escort, cash check to can effectively improve the risk prevention level of bank outlets.

Description

Bank note box integrated processing device and bank operation system

Technical Field

The application relates to the technical field of bank financial equipment, in particular to a banknote box integrated processing device and a bank operation system.

Background

At present, the bank outlets need to process services such as cash in real time, and the cashboxes need to be paid to a bank cash center every day for subsequent counting. In addition, the procedures of handing over and escorting various media (uniformly stored in the tail box) before and after the business of the bank outlets are very complicated. Before business of bank outlets every day, business personnel of the bank outlets need to wait for escort and receive the tail boxes, and need to initially check various media in the tail boxes after receiving, including cash (large-amount RMB cash, small-amount RMB cash, foreign currency, coins and the like), valuable documents (checks, drafts and the like), important blank vouchers (checks, cards and the like) and managed media (precious metal products, insurance contracts and the like) and the like, so that business preparation is made.

In addition, when the business of the bank outlets is ended every day, the business personnel of the outlets need to check accounts, accounts and accounts according to the requirements of the system for various media in the tail box, including cash (large-amount RMB cash, small-amount RMB cash, foreign currency, currency which is difficult to circulate, damaged coins, coins and the like), valuable documents (checks, drafts and the like), important blank vouchers (checks, cards and the like) and escrow media (precious metal products, insurance contracts and the like), and check the balance of accounts. Meanwhile, escort vehicles are affected by distance, weather and traffic conditions, so that the network node handover work is advanced and delayed, and even the network node can not be normally operated under special conditions such as severe weather.

SUMMERY OF THE UTILITY MODEL

To the problem among the prior art, this application provides a paper money case integration processing apparatus and bank operation system, can effectively reduce operation and human cost such as escort, cash are checked to can effectively improve the risk prevention level of bank outlets.

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

in a first aspect, the present application provides a banknote cassette integrated processing apparatus, comprising: the automatic counting and cash processing system comprises a controller, a safe body, an automatic counting assembly, a tail box storage assembly and a cash processing assembly, wherein the automatic counting assembly, the tail box storage assembly and the cash processing assembly are respectively arranged in the safe body;

the cash processing assembly, the automatic counting assembly and the tail box storage assembly are respectively in communication connection with the controller;

the automatic counting assembly comprises a turnover box and a second transmission channel, wherein two ends of the second transmission channel are respectively connected with the first transmission channel and the turnover box so as to transmit the banknotes in the cash processing assembly into the turnover box for counting.

Further, the cash handling assembly includes: the cash recycling system comprises a cash processing box body, and a recycling box, a currency detector and at least one circulating box which are arranged in the cash processing box body; the first transmission channel is also arranged in the cash processing box body;

the recovery box and the at least one circulation box are communicated with the first transmission channel;

the banknote validator is arranged on the first transmission channel to verify banknotes transmitted in the first transmission channel.

Further, the automatic counting assembly further comprises: automatically counting the cabinet body;

the turnover box and the second transmission channel are both arranged in the automatic counting cabinet body;

the automatic counting cabinet body is connected with the cash processing box body.

Furthermore, the circulation box, the recovery box and the turnover box are all provided with a paper money circulation machine core;

and each paper currency circulating machine core is respectively connected with the controller.

Further, the boot storage assembly includes: at least one boot and a storage compartment for receiving the boot;

the storage cabinet is detachably arranged in the safe cabinet body, and the bottom of the storage cabinet is provided with at least one slot;

the quantity of trench is more than or equal to the quantity of boot, just the trench be used for with the bottom joint of boot.

Further, one side of trench is equipped with the recess, one side of boot be equipped with be used for with the boss of the detachable joint of recess.

Further, an RFID label is fixedly arranged on the boss; an RFID reader for reading the RFID label is fixedly arranged in the groove;

the RFID reader is connected with the controller.

Further, a photoelectric sensor is arranged at the bottom of the groove;

the photoelectric sensor is connected with the controller.

Furthermore, the automatic counting assembly and the cash processing assembly are fixedly connected, and the automatic counting assembly and the cash processing assembly are movably connected with the safe body through at least two first guide rails;

the tail box storage assembly is arranged on the safe body through at least two second guide rails;

guide rail locking pieces are respectively arranged on the first guide rail and the second guide rail;

each guide rail locking piece is connected with the controller respectively.

Furthermore, a dynamic coded lock is arranged on the safe body;

the dynamic coded lock is connected with the controller.

Furthermore, a fingerprint identification component is arranged on a panel provided with a gate on the safe body;

the fingerprint identification component is connected with the controller.

Further, the fingerprint identification component comprises: the semiconductor assembly is respectively connected to the identification chip of the semiconductor assembly and the LED indicator lamp;

the identification chip is connected with the controller.

Furthermore, a display assembly is arranged on a panel provided with a gate on the safe body;

the display assembly is connected with the controller.

Further, the display assembly includes: liquid crystal display screens and touch screens;

the liquid crystal display screen and the touch screen are respectively connected with the controller.

Further, still include: the communicator is arranged in the safe box body;

the communicator is connected with the controller to realize data transmission between the controller and an external operation platform.

In a second aspect, the present application provides a bank operation system, comprising: the operation platform and the banknote box integrated processing device;

and the operation platform is in communication connection with the banknote box integrated processing device.

And further, the mobile control terminal and/or the fixed control terminal are in communication connection with the operation platform.

Further, the operation platform comprises: the system comprises a communication unit, an authentication unit, a monitoring unit and an accounting processing unit, wherein the authentication unit, the monitoring unit and the accounting processing unit are respectively connected to the communication unit in a communication mode;

the communication unit is used for realizing data transmission between the banknote box integrated processing device and the authentication unit, the monitoring unit and the accounting processing unit respectively;

the authentication unit is used for performing identity authentication on a service request and/or an unlocking request of the banknote box integrated processing device according to a preset fingerprint comparison rule;

the monitoring unit is used for monitoring the tail box storage condition of the banknote box integrated processing device in real time;

and the accounting processing unit is used for performing accounting management and checking processing on the banknote box integrated processing device.

Further, the accounting management and reconciliation process comprises: at least one of inputting the amount of money to be pre-added of the money box integrated processing device, recording transaction data of the money box integrated processing device and checking and processing the financial condition reported by the money box integrated processing device.

In a third aspect, the present application provides an automatic banknote counting method implemented by applying the banknote cassette integrated processing apparatus, where the automatic banknote counting method includes:

receiving an automatic counting instruction;

controlling the banknotes in the cash processing assembly to sequentially enter the turnover box through the first transmission channel and the first transmission channel according to the automatic counting instruction so that the turnover box counts the banknotes one by one;

and controlling the banknotes in the turnover box after being counted one by one to reenter the cash processing assembly from the second transmission channel and the first transmission channel in sequence.

Further, still include:

and judging whether all the bank notes in the cash processing assembly enter the turnover box to be checked one by one, and if so, recording the total denomination and the total number of the bank notes checked one by one.

In a fourth aspect, the present application provides an automatic banknote adding method implemented by using the banknote box integrated processing apparatus, where the automatic banknote adding method includes:

if the identity authentication passing information and the money adding instruction of the current personnel triggering the money box integrated processing device are received, the currency type, the number and the amount of the physical money input by the personnel are obtained;

controlling a gate of the integrated money box processing device to be opened so as to enable current personnel to carry out money adding processing;

receiving a storage finishing instruction and controlling the gate to be closed;

judging whether the deposited physical bank notes are consistent with the currency, the number and the amount of the physical bank notes recorded by personnel, and if so, automatically counting all the bank notes in the integrated bank note box processing device;

and sending the statistical information corresponding to the stored physical bank notes and the results corresponding to the automatic counting to an operation platform so that the operation platform checks the statistical information corresponding to the stored physical bank notes and the results corresponding to the automatic counting with the pre-acquired financial data respectively.

In a fifth aspect, the present application provides a method for storing a tail box, which is implemented by applying the banknote box integrated processing apparatus, and includes:

if the identity authentication passing information of the current personnel triggering the banknote box integrated processing device and a tail box storage instruction are received, receiving the information of the articles correspondingly placed in different tail boxes input by the current personnel item by item;

if identity authentication passing information of current personnel triggering the money box integrated processing device and a safe opening instruction are received, the safe body is controlled to be opened, so that the current personnel store the tail box in the safe body;

and after the safe is detected to be closed, sending a corresponding tail box detection result and the article information to an operation platform, so that the operation platform performs tail box accounting according to the tail box detection result and the article information.

According to the technical scheme, the integrated processing device for the cash box and the bank operation system provided by the application comprise: the automatic counting and cash processing system comprises a controller, a safe body, an automatic counting assembly, a tail box storage assembly and a cash processing assembly, wherein the automatic counting assembly, the tail box storage assembly and the cash processing assembly are respectively arranged in the safe body; the cash processing assembly, the automatic counting assembly and the tail box storage assembly are respectively in communication connection with the controller; the automatic subassembly of checking includes turnover case and second transmission path, the both ends of second transmission path are connected respectively first transmission path with the turnover case is in order to incite somebody to action bank note in the cash processing subassembly transmits extremely check in the turnover case, can realize intelligent, the automatic remote financial affairs of site operation and automatic remote monitoring, can realize simultaneously on same equipment that local cash is handled and the automatic functions such as checking and reconciliation, local medium is deposited overnight, under the prerequisite that improves risk prevention ability, operation and human cost such as furthest reduction escort, cash check, further guarantee the punctuality of site business, comprehensively promote the operation efficiency of bank site.

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 it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a banknote cassette integrated processing device in an embodiment of the present application;

FIG. 2 is a schematic diagram of the relationship of components of the banknote cassette integrated processing device in the embodiment of the present application;

FIG. 3 is a schematic structural diagram of a cash processing component in the integrated banknote cassette processing apparatus according to the embodiment of the present application;

fig. 4 is a schematic structural diagram of a cash processing assembly and an automatic counting cabinet in the banknote cassette integrated processing apparatus in the embodiment of the present application;

fig. 5 is a first structural schematic diagram of a tail box storage assembly in the banknote box integrated processing apparatus in the embodiment of the present application;

fig. 6 is a second structural schematic diagram of a tail box storage assembly in the banknote box integrated processing apparatus in the embodiment of the present application;

fig. 7 is a third schematic structural diagram of a tail box storage assembly in the banknote box integrated processing apparatus in the embodiment of the present application;

FIG. 8 is a schematic structural view of a cassette integrated processing unit including a rail lock in an embodiment of the present application;

FIG. 9 is a schematic structural diagram of a banknote cassette integrated processing apparatus including a dynamic combination lock in an embodiment of the present application;

fig. 10 is a schematic structural diagram of a banknote cassette integrated processing apparatus including a fingerprint identification component in the embodiment of the present application;

fig. 11 is a schematic structural diagram of a fingerprint identification component in the banknote cassette integrated processing apparatus in the embodiment of the present application;

fig. 12 is a schematic structural diagram of a banknote cassette integrated processing apparatus including a display module in an embodiment of the present application;

fig. 13 is a schematic structural diagram of a display module in the banknote cassette integrated processing apparatus in the embodiment of the present application;

FIG. 14 is a schematic connection diagram of a communicator and a controller in the banknote cassette integrated processing apparatus according to the embodiment of the present application;

fig. 15 is a schematic connection diagram between an operation platform and a banknote cassette integrated processing apparatus in a bank operation system in the embodiment of the present application;

FIG. 16 is a schematic diagram of the connection of components of a banking system in an embodiment of the present application;

fig. 17 is a schematic component connection diagram of an operation platform in a bank operation system in an embodiment of the present application;

FIG. 18 is a schematic view of a tail box storage assembly according to an exemplary embodiment of the present disclosure;

figure 19 is a schematic view of the safe assembly according to the specific application example of the present application;

FIG. 20 is a schematic diagram illustrating connection of components of a banking system in an exemplary embodiment of the present application;

fig. 21 is a schematic connection diagram of components of the banknote cassette integrated processing device in the specific application example of the present application;

fig. 22 is a detailed component diagram of the banknote cassette integrated processing device in the specific application example of the present application;

fig. 23 is a structural schematic diagram of a state in which a cash processing assembly, an automatic counting assembly, and a tail box storage assembly in the banknote box integrated processing apparatus in the specific application example of the present application are all pulled out of a safe body;

fig. 24 is a structural diagram illustrating a state in which only the tail box storage assemblies in the banknote box integrated processing apparatus are pulled out of the safe body in the specific application example of the present application;

fig. 25 is a structural diagram illustrating a state in which only the cash handling component and the automatic counting component in the banknote cassette integrated processing apparatus are pulled out of the safe body in the specific application example of the present application;

fig. 26 is a first schematic flow chart of a method for automatically counting banknotes in an embodiment of the present application;

fig. 27 is a second flowchart of the automatic banknote counting method according to the embodiment of the present application;

fig. 28 is a schematic structural diagram of a banknote cassette integrated processing apparatus corresponding to the banknote automatic counting method in the embodiment of the present application;

FIG. 29 is a schematic view of a first process for automatically counting banknotes using a cash handling assembly and an automatic counting assembly in accordance with an embodiment of the present application;

FIG. 30 is a schematic diagram of a second process for automatically counting banknotes using the cash handling assembly and the automatic counting assembly in an embodiment of the present application;

fig. 31 is a schematic flow chart illustrating an automatic banknote adding method according to an embodiment of the present application;

FIG. 32 is a schematic flow chart of an automatic banknote charging method according to an exemplary embodiment of the present application;

FIG. 33 is a flowchart illustrating a method for storing a boot in an embodiment of the present application;

fig. 34 is a schematic flow chart of a method for storing a boot in an embodiment of the present application.

Reference numerals:

1. an operation platform;

11. a communication unit;

12. an authentication unit;

13. a monitoring unit;

14. an accounting processing unit;

2. a banknote box integrated processing device;

21. a controller;

22. a display component;

221. a liquid crystal display screen;

222. a touch screen;

23. a gate opening;

24. a fingerprint identification component;

241. identifying a chip;

242. a semiconductor component;

243. an LED indicator light;

25. a communicator;

26. a cash handling component;

261. a banknote validator;

262. a circulation box;

263. a first transmission channel;

264. a recycling bin;

27. an automatic inventory component;

271. a turnover box;

272. a second transmission channel;

28. a boot storage assembly;

281. a storage cabinet;

2811. 2812, groove position;

282. a tail box;

2821. 2822, a box body;

283. 2831, 2832, RFID tags;

284. 2841, 2842, RFID reader;

285. 2851, 2852, a photosensor;

286. an upper rail lock;

287. a lower rail lock;

29. a safe assembly;

291. a safe body;

292. a dynamic coded lock;

3. a mobile control terminal;

4. and fixing the control terminal.

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.

In order to effectively reduce the operation and labor costs of escort, cash counting and the like and effectively improve the risk prevention level of bank outlets, the present application provides an embodiment of a cash box integrated processing device, which specifically includes the following contents with reference to fig. 1 and 2:

the automatic cash counting device comprises a controller 21, a safe body 291, an automatic counting assembly 27, a tail box storage assembly 28 and a cash processing assembly 26, wherein the automatic counting assembly 27, the tail box storage assembly 28 and the cash processing assembly 26 are respectively arranged in the safe body 291; the cash handling assembly 26, the automatic counting assembly 27 and the tail box storage assembly 28 are respectively in communication with the controller 21; the automatic counting assembly 27 comprises a turnover box 271 and a second transmission channel 272, and two ends of the second transmission channel 272 are respectively connected with the first transmission channel 263 and the turnover box 271 so as to transmit the banknotes in the cash processing assembly 26 to the turnover box 271 for counting.

It can be understood that the controller 21 may adopt an existing high-performance computer host or a professional industrial personal computer or a single chip microcomputer, and may process the service operation request of the user and perform real-time processing according to the related service flow.

In order to improve the connection reliability between the cash processing component and the automatic counting component, so as to further improve the application reliability and the intelligence degree of the automatic counting component, in an embodiment of the banknote cassette integrated processing apparatus of the present application, referring to fig. 3, the cash processing component 26 in the banknote cassette integrated processing apparatus specifically includes the following contents:

a cash handling cabinet, and a recycling bin 264, a validator 261 and at least one recycling bin 262 disposed within the cash handling cabinet; the first transporting path 263 is also provided in the cash handling cassette body; the recovery tank 264 and the at least one circulation tank 262 are both in communication with the first transfer passage 263; the bill validator 261 is provided on the first transporting path 263 to verify bills transported from the first transporting path 263.

It is understood that the recycling bin 262, the recycling bin 264, the first transporting path 263 and the bill validator 261 are each communicatively connected to the controller 21.

In order to further improve the setting reliability of the automatic cash counting assembly, so as to further improve the counting efficiency, the application reliability and the intelligence degree in the automatic banknote counting process, in an embodiment of the banknote and cassette integrated processing apparatus of the present application, referring to fig. 4, the automatic cash counting assembly 27 in the banknote and cassette integrated processing apparatus further includes the following contents:

automatically counting the cabinet body; the turnover box 271 and the second transmission channel 272 are both arranged in the automatic counting cabinet body; the automatic counting cabinet body is connected with the cash processing box body.

It is understood that the turnaround box 271 and the second transmission channel 272 are each communicatively coupled to the controller 21.

In order to further improve the automation degree of the automatic cash counting assembly, in the embodiment of the integrated banknote box processing device, banknote circulating machine cores are arranged in the circulating box 262, the recycling box 264 and the turnover box 271; each of the banknote circulating cores is connected to the controller 21, wherein the banknote circulating cores in the circulation box 262 and the recovery box 264 are connected to the first transmission channel 263, and the banknote circulating core in the turnover box 271 is connected to the second transmission channel 272.

In order to improve the application reliability of the tail box storage assembly, so as to further improve the application reliability, automation degree and intelligent degree of the tail box storing and taking process, in an embodiment of the banknote box integrated processing apparatus of the present application, referring to fig. 5, the tail box storage assembly 28 in the banknote box integrated processing apparatus specifically includes the following contents:

at least one boot 282 and a storage case 281 for accommodating the boot 282; the storage cabinet 281 is detachably arranged in the safe body 291, and the bottom of the storage cabinet 281 is provided with at least one slot 2811; the number of the slots 2811 is greater than or equal to the number of the tail boxes 282, and the slots 2811 are used for being clamped with the bottoms of the tail boxes 282.

It is understood that the boot 282 is communicatively coupled to the controller 21.

In order to prevent the tail box 282 from being placed in the storage cabinet 281 in a wrong position, so as to further improve the application reliability of the access process of the tail box 282, in an embodiment of the banknote box integrated processing apparatus of the present application, a groove is provided at one side of the slot 2811 in the banknote box integrated processing apparatus, and a boss for detachably engaging with the groove is provided at one side of the tail box 282.

In order to monitor the access state of the trunk in real time and further improve the automation degree and the intelligence degree of the access process of the trunk, in an embodiment of the banknote-and-coin-box integrated processing device, referring to fig. 6, an RFID tag 283 is fixedly arranged on the boss; an RFID reader 284 for reading the RFID tag 283 is fixedly arranged in the groove; the RFID reader 284 is connected to the controller 21.

In order to assist in judging whether each tail box is respectively located in the corresponding slot position, so as to further improve the automation degree and the intelligence degree of the tail box storing and taking process, in an embodiment of the banknote box integrated processing device, referring to fig. 7, a photoelectric sensor 285 is arranged at the bottom of the groove; the photosensor 285 is connected to the controller 21.

In order to ensure the independent operation and safety of the relevant units when the personnel in the branch perform different services, in the embodiment of the banknote cassette integrated processing device, the automatic counting assembly 27 and the cash processing assembly 26 are fixedly connected, and the automatic counting assembly 27 and the cash processing assembly 26 are movably connected with the safe body 291 via at least two first guide rails; the boot storage assembly 28 is mounted to the safe body 291 via at least two second rails; guide rail locking pieces are respectively arranged on the first guide rail and the second guide rail; each of the rail lock members is connected to the controller 21.

Referring to fig. 8, the rail lock may be divided into an upper rail lock 286 and a lower rail lock 287, the upper rail lock 286 being disposed on the first rail (upper rail), and the lower rail lock 287 being disposed on the second rail (lower rail).

In order to thoroughly solve the potential safety hazard of the traditional mechanical coded lock management mode, and reduce the safety risk of the safety box in the daily business operation and maintenance work process of the equipment to the maximum extent while ensuring the work efficiency, in the embodiment of the banknote box integrated processing device of the application, referring to fig. 9, a dynamic coded lock 292 is arranged on a safety box body 291; the dynamic combination lock 292 is connected to the controller 21.

In order to further improve the application reliability and safety of the banknote box integrated processing device, in an embodiment of the banknote box integrated processing device of the present application, referring to fig. 10, a fingerprint identification component 24 is arranged on a panel provided with a gate 23 on the safe cabinet 291; the fingerprint recognition component 24 is connected to the controller 21.

In order to further improve the reliability, safety and intelligence of fingerprint identification, in an embodiment of the banknote and cassette integrated processing apparatus of the present application, referring to fig. 11, the fingerprint identification component 24 in the banknote and cassette integrated processing apparatus specifically includes the following contents:

a semiconductor assembly 242 connected to the identification chip 241 and the LED indicator light 243 of the semiconductor assembly 242, respectively; the identification chip 241 is connected to the controller 21.

It is understood that the LED indicator 243 may be located on an outer wall of the safe body 291.

In order to improve the application reliability and the intelligent degree of the integrated banknote box processing device, in an embodiment of the integrated banknote box processing device of the present application, referring to fig. 12, a display assembly 22 is arranged on a panel provided with a gate 23 and arranged on the safe cabinet 291 in the integrated banknote box processing device; the display module 22 is connected to the controller 21.

In order to further improve the application reliability and the intelligent degree of the integrated banknote and cassette processing device, in an embodiment of the integrated banknote and cassette processing device of the present application, referring to fig. 13, the display component 22 in the integrated banknote and cassette processing device specifically includes the following contents:

a liquid crystal display 221 and a touch panel 222; the liquid crystal display 221 and the touch screen 222 are respectively connected to the controller 21.

In order to further increase the degree of intellectualization of the integrated banknote box processing device, in an embodiment of the integrated banknote box processing device according to the present application, referring to fig. 14, the integrated banknote box processing device further includes the following contents:

a communicator 25 disposed within the safe body 291; the communicator 25 is connected to the controller 21 to realize data transmission between the controller 21 and the external operation platform 1.

From the above description, the utility model provides a money case integration processing apparatus, through cash real-time processing, automatic check technique, the boot is deposited and RFID monitoring technology, cooperation dynamic trick lock, realize the intellectuality of website business operation, automatic remote financial affairs are handled and automatic remote monitoring, can realize local cash processing and automatic check account checking simultaneously on same equipment, functions such as local medium is deposited overnight, under the prerequisite that improves risk prevention ability, furthest reduces the operation and human cost such as escort, cash check, further guarantee the punctuality of website business, the operation efficiency of bank website is promoted comprehensively.

Based on the above, in order to effectively reduce the operation and labor costs of escort, cash counting, and the like, and effectively improve the risk prevention level of the bank outlets, the present application provides an embodiment of a bank operation system provided with the aforementioned banknote box integrated processing apparatus, which is shown in fig. 15, and the bank operation system specifically includes the following contents:

an operation platform 1 and the banknote box integrated processing device 2; the operation platform 1 is in communication connection with the cash box integrated processing device 2.

In order to further improve the application reliability and the intelligent degree of the bank operation system, in an embodiment of the bank operation system of the present application, referring to fig. 16, the bank operation system further includes:

and the mobile control terminal 3 and/or the fixed control terminal 4 are/is in communication connection with the operation platform 1.

It is understood that the mobile control terminal 3 or the fixed control terminal 4 may include a smart phone, a tablet electronic device, a network set-top box, a portable computer, a desktop computer, a Personal Digital Assistant (PDA), a vehicle-mounted device, a smart wearable device, and the like. Wherein, intelligence wearing equipment can include intelligent glasses, intelligent wrist-watch, intelligent bracelet etc..

The mobile control terminal 3 or the fixed control terminal 4 may have a communication module (i.e., a communication unit), and may be in communication connection with a remote controller to implement data transmission with the controller.

The controller may communicate with the mobile control terminal 3 or the fixed control terminal 4 using any suitable network protocol, including network protocols not yet developed at the filing date of this application. The network protocol may include, for example, a TCP/IP protocol, a UDP/IP protocol, an HTTP protocol, an HTTPS protocol, or the like. Of course, the network Protocol may also include, for example, an RPC Protocol (Remote Procedure Call Protocol), a REST Protocol (Representational State Transfer Protocol), and the like used above the above Protocol.

In order to implement the intelligent, automatic, remote accounting processing and automatic remote monitoring of the network business operation, the functions of local cash processing, automatic checking and reconciliation, overnight storage of local media, and the like can be simultaneously implemented on the same device, in the embodiment of the bank operation system of the present application, referring to fig. 17, an operation platform 1 in the bank operation system specifically includes the following contents:

a communication unit 11, and an authentication unit 12, a monitoring unit 13, and an accounting processing unit 14, which are communicatively connected to the communication unit 11, respectively;

the communication unit 11 is used for realizing data transmission between the banknote box integrated processing device 2 and the authentication unit 12, the monitoring unit 13 and the accounting processing unit 14 respectively;

the authentication unit 12 is configured to perform identity authentication for a service request and/or an unlocking request of the banknote cassette integrated processing apparatus 2 according to a preset fingerprint comparison rule;

the monitoring unit 13 is configured to monitor the storage condition of the tail box 282 of the banknote box integrated processing apparatus 2 in real time;

the accounting processing unit 14 is configured to perform accounting management and checking processing on the banknote and cassette integrated processing apparatus 2.

It is to be understood that the accounting management and reconciliation process comprises: at least one of inputting the amount of money to be pre-added of the money box integrated processing device 2, recording transaction data of the money box integrated processing device 2 and checking the accounting condition reported by the money box integrated processing device 2.

From the above description, the bank operation system that this application provided, one, through cash real-time processing, automatic check technology, the boot is deposited and RFID monitoring technology, cooperation dynamic trick lock, realize the intellectuality of website business operation, automatic remote financial affairs are handled and automatic remote monitoring, can realize local cash processing and automatic check reconciliation simultaneously on same equipment, functions such as local medium is deposited overnight, under the prerequisite that improves risk prevention ability, operation and human cost such as furthest reduction escort, cash check, further guarantee the punctuality of website business, the operation efficiency of bank website is promoted comprehensively.

To further explain the scheme, the present application also provides a specific application example of a bank operation system including a bank note box integrated processing device, referring to fig. 18, in the bank note box integrated processing device of the bank operation system, a storage cabinet may include two slot positions, namely a slot position 2811 and a slot position 2812; there may be two tail boxes 282, which are box 2821 and box 2822; RFID tag 283 may comprise two, RFID tag 2831 and RFID tag 2832; RFID reader 284 may include two, RFID reader 2841 and RFID reader 2842; correspondingly, the photo sensor 285 may include two photo sensors 2851 and 2852; in addition, referring to fig. 19, the safe body 291 and the dynamic combination lock 292 jointly form a safe assembly 29. The method specifically comprises the following steps:

referring to fig. 20, the banking system includes: the system comprises an operation platform 1, a cash box integrated processing device 2, a mobile control terminal 3 and a fixed control terminal 4.

The operation platform 1 comprises a communication unit 11, an authentication unit 12, a monitoring unit 13 and an accounting processing unit 14, the operation platform 1 communicates with the banknote box integrated processing device 2, the mobile control terminal 3 and the fixed control terminal 4 through the communication unit 11, and specifically:

(1) the authentication unit 12 is used for performing identity authentication on the service request and the unlocking request of the service personnel of the banknote box integrated processing device 2 through fingerprint comparison.

(2) The monitoring unit 13 is used for monitoring the storage condition of the tail box of the banknote box integrated processing device 2 in real time.

(3) The accounting processing unit 14 is used for accounting management and checking work of the banknote-cassette integrated processing device 2, and includes recording the amount of pre-added banknotes of the banknote-cassette integrated processing device 2, recording transaction data of the banknote-cassette integrated processing device 2, checking the accounting condition sent from the banknote-cassette integrated processing device 2, and the like.

The mobile control terminal 3 is a mobile phone or other terminal, and is connected with the operation platform 1 through the communication unit 11, so that related accounting data entry, tail box monitoring and accounting result query can be performed.

And the fixed control terminal 4 is a terminal such as a PC (personal computer) and the like, is connected with the operation platform 1 through the communication unit 11, and is used for carrying out related financial data entry, tail box monitoring and financial result query.

Referring to fig. 21 and 22, the banknote cassette integrated processing apparatus 2 is mainly composed of a controller 21, a display component 22, a gate 23, a fingerprint identification component 24, a communicator 25, a cash processing component 26, an automatic counting component 27, a tail cassette storage component 28 and a safe box component 29, wherein the controller 21, the display component 22, the gate 23, the cash processing component 26 and the safe box component 29 are basic components of cash processing equipment such as a mainstream ATM at present, the design and the technology are very mature, and the principle of the cash processing equipment is only briefly described in the application and is not described in detail.

Specifically, the method comprises the following steps:

(1) the controller 21 is a high-performance computer host or a professional industrial personal computer, can process the service operation request of the user, performs real-time processing according to related service processes, is connected with the display component 22, the gate 23, the fingerprint identification component 24, the communicator 25, the cash processing component 26, the automatic counting component 27, the tail box storage component 28 and the safety box component 29, and controls the work of each unit and receives and processes related information.

(2) The display component 22 is a display screen with a touch function, and specifically may be composed of a liquid crystal display 221 and a touch screen 222, where the liquid crystal display 221 and the touch screen 222 are respectively connected with the controller 21, and display various services and operation interfaces according to control information of the controller 21.

The liquid crystal display screen 221 is a small-screen high-brightness LCD, can automatically adjust the brightness function according to the change of ambient light, has a peep-proof screen, ensures that the visual angle of the screen is less than 60 degrees, and prevents other people from peeping at information displayed on the screen from the side. The touch screen 222 is a multi-touch capacitive touch screen, which can prevent static electricity and magnetic field interference and has a USB interface; dustproof, riot-proof and scratch-proof.

(3) The paper money gate that comes in and out of gate 23 adopts motor drive to guarantee the security of coming in and out the paper money gate from structural design, the gate has adopted the strong metal material of destruction resistance, has improved the ability of taking precautions against to actions such as sled door, adopts dual gate, possesses gate state preliminary examination function. The gate 23 is connected to the controller 21, and is opened and closed according to control information from the controller 21.

(4) The cash handling unit 26 is mainly composed of a bill validator 261, a circulation box 262, a first transfer passage 263 and a recycling box 264, is used for access service of large amount cash at a network site, can realize overnight safe storage of the cash, is connected with the controller 21, performs various operations according to a control command of the controller 21 and transmits related information to the controller 21.

The cash processing component 26 adopts a high-performance paper currency circulating machine core, supports RMB of each edition and each currency, and comprises a 5 th edition of 100 yuan, a 50 yuan, a 20 yuan and a 10 yuan; the 4 th edition is 100 yuan, 50 yuan and 10 yuan, wherein the paper currency circulating core has the functions of currency examination, cash circulation, sorting, currency stacking and recycling; the automatic counting device has an automatic counting function and can determine the number of paper money in each paper money box; the automatic detection and automatic reset of the card money are supported, and the human intervention treatment is reduced. Specifically, the method comprises the following steps:

1) the banknote validator 261 can identify various counterfeit banknotes and altered banknotes by adopting various counterfeit banknote identification technologies and means; 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 blacklists.

2) The circulation box 262 is a large-capacity banknote box with a capacity of 3500 banknotes, and banknotes can enter and exit the banknote box as required to realize recycling.

3) The first transporting path 263 can transport the bills, and can transport the bills in the forward direction or the reverse direction as required, and a maximum number of the transported bills is 300.

4) The recycling box 264 is a large-capacity banknote box, the capacity of the recycling box is 3500, banknotes which are not suitable for circulation can be stored or left banknotes can be recycled, and normal banknotes can enter the recycling box 264 under the condition that the recycling box 262 is full of banknotes.

(5) The safe assembly 29 is composed of a safe body 291 and a dynamic combination lock 292, is connected to the controller 21, and performs various operations and transmits related information to the controller 21 according to a control command of the controller 21.

The safe body 291 can be made of special steel plates, conforms to the CEN L standard and the national standard GB/T18789.1-2013, and can prevent riot, pick and fire.

(6) The fingerprint identification component 24 is a fingerprint identification module adopting a capacitive semiconductor sensor technology, and is composed of an identification chip 241, a semiconductor component 242 and an LED indicator light 243.

1) The recognition chip 241 is used for fingerprint recognition, and specifically performs the following preprocessing on the acquired fingerprint image: the method comprises the steps of image quality judgment, image enhancement, fingerprint area detection, fingerprint directional diagram and frequency estimation, image binarization (setting the gray value of each pixel point in a fingerprint image to be 0 or 255) and image refinement. And acquiring ridge line data of the fingerprint from the preprocessed image. Feature point information required for fingerprint recognition is extracted from ridge line data of the fingerprint. The above feature point information is transmitted to the controller 2, transmitted through the communicator 25, and matched with the fingerprint feature information stored in the database of the authentication unit 12 in the operation platform 1 one by one, to determine whether the fingerprint is the same.

2) The semiconductor component 242 is mainly composed of a capacitive semiconductor sensor, a 'flat plate' integrated with thousands of semiconductor devices is provided, fingers are attached to the 'flat plate' to form the other surface of a capacitor, the actual distances between the convex points and the concave points contacting the flat plate are different due to the fact that the plane of the fingers is uneven, the formed capacitance values are different, the collected different values are collected according to the principle, and the collection of fingerprint images is completed.

3) The LED indicator 243 is a single color LED, and is controlled to be turned on or off by the identification chip 241. Specifically, the service personnel is prompted to collect the fingerprint by lighting, the fingerprint continuously flickers in the collection working process, and the fingerprint is extinguished and kept in a normally closed state after collection is completed.

(7) The communicator 25 is a general communication module, can support communication modes such as wired, WIFI, 4G and the like, and is mainly used for data transmission with the operation platform 1 to realize related information transmission. The communicator 25 is connected to the controller 21 to transmit internal data.

(8) The automatic counting assembly 27 is composed of a turnover box 271 and a second transmission channel 272, is connected with the controller 21, and performs various operations and transmits related information to the controller 21 according to a control command of the controller 21.

1) The turnover box 271 is a large-capacity banknote box with a capacity of 3500 banknotes, and banknotes can enter and exit the banknote box as required to realize circulation, so that the turnover box 271 is used for counting the banknotes in the circulation box 262 of the cash processing assembly 26.

2) The second transport path 272 can transport the bills, and can transport the bills in the forward direction or the reverse direction as required, wherein the maximum number of the bills transported in a single stroke is 300.

(9) The trunk storage module 28 is mainly composed of a storage cabinet 281 and a trunk 282, and is connected to the controller 21 to transmit relevant information to the controller 21.

1) The two trunk boxes 282 are respectively a box body 2821 and a box body 2822, which are made of high-strength plastic materials, and can store various service media of bank outlets in a classified manner and realize overnight safe storage of the service media.

2) The storage cabinet 281 is provided with two slots, which may be a slot 2811 and a slot 2812, respectively, and the slot 2811 and the slot 2812 may be placed on the box 2821 and the box 2822, respectively. The slot 2811 and slot 2812 of the storage cabinet 281 are both provided with grooves, which are respectively engaged with single-side bosses of the box 2821 and box 2822, so as to ensure that the box 2821 and box 2822 cannot be placed in reverse positions.

Photoelectric sensors 285, which may be photoelectric sensors 2851 and 2852, are respectively disposed at one side of the bottoms of the slots 2811 and 2812 of the storage cabinet 281, and can assist in determining whether each boot is respectively located in the corresponding slot. When the boot was placed at the trench, the photoelectric sensor who corresponds was in and shelters from the state, and when the boot was taken out, photoelectric sensor was in and does not shelter from the state.

The unilateral bellied box inboard of boot 282 is pasted and is had anti-disassembly's RFID label 283, specifically can be set up RFID label 2831 and the RFID label 2832 inside box 2821 and box 2822 respectively, has built-in RFID reader 284 respectively in the recess of two trench of storing cabinet 281, specifically can be RFID reader 2841 and RFID reader 2842. The access state of the tail box is monitored in real time by reading the information of the RFID tag 2831 and the RFID tag 2832 through the RFID reader 2841 and the RFID reader 2842 respectively. The design of the slot groove and the single-sided boss of the tail box ensures that the RFID readers 2841 and 2842 can correctly read the information of the corresponding RFID tags 2831 and 2832.

Specifically, the RFID is a non-contact automatic identification technology, which automatically identifies a target object and obtains related data through a radio frequency signal, and manual intervention is not needed in identification.

Specifically, the storage process of the trunk is specifically described as follows:

the RFID tag 283 is a passive tag, and the RFID reader 284 is always in an operating state, and periodically transmits a radio frequency signal and performs a reading operation, and periodically transmits tag information or blank information (in the case of no tag) to the controller 21.

The controller 21 stores therein the status information of the boot in the two slots of the storage rack 281, where 0 indicates no boot and 1 indicates a boot.

When the trunk 282 is accurately stored in the slot of the storage cabinet 281, the RFID tag 283 of the trunk 282 receives a radio frequency signal sent out at regular time by the RFID reader 284 which is always in a working state in the storage cabinet 281, and sends out encrypted trunk information (trunk code) stored in a tag chip by means of energy obtained by induction current, the RFID reader 284 reads and decrypts the information and sends the trunk code, the slot number information and the state of the photoelectric sensor to the controller 21, the controller 21 compares the trunk state information (the current trunk state is 0, since the controller 21 receives the trunk number information and the photoelectric sensor is in a shielding state at this time, it indicates that the trunk exists, the trunk state is changed from 0 to 1), because the trunk state is changed at this time, the controller 21 sends the information such as the device number, the trunk code and the slot number to the operation platform 1 through the communicator 25, and matching the tail box code information stored in the database of the monitoring unit 13 in the operation platform 1 with the tail box code information, wherein the matching is correct, the tail box is legal and is in a storage state, and at the moment, the monitoring unit 13 updates the tail box state of the corresponding equipment corresponding to the slot position number into the storage state and records the storage time.

When the trunk is continuously located at the slot position, the photoelectric sensor is continuously in a shielding state, the RFID reader 284 can read the tag information all the time and transmit the related information at regular time, because the trunk state information of the controller 21 corresponding to the slot position number does not change, the related information is not sent to the operation platform 1, the trunk state of the operation platform 1 monitoring unit 13 corresponding to the slot position number is always in a storage state, and meanwhile, the trunk state can be monitored in real time through the mobile control terminal 3 and the fixed control terminal 4.

When the trunk 282 is taken out from the slot of the storage cabinet 281, the RFID reader 284 in the working state does not read the tag information, the RFID reader 284 transmits blank information and slot number information to the controller 21, the controller 21 compares the trunk state information corresponding to the slot number (the current trunk state is 1, since the controller 21 receives the blank information and the photoelectric sensor is in the unshielded state at this time, it indicates that no trunk exists, the trunk state is changed from 1 to 0), because the trunk state changes at this time, the controller 21 transmits the information such as the device number, the blank code, the slot number and the like to the operation platform 1 through the communicator 25, and at this time, the monitoring unit 13 updates the trunk state corresponding to the slot number of the device to the taking-out state and records the taking-out time.

When the trunk is not in the slot position continuously, the photoelectric sensor is in the non-shielding state continuously, the RFID reader 284 can read the blank trunk coding information all the time and transmit the related information at regular time, because the trunk state information of the controller 21 corresponding to the slot position number does not change, the related information is not sent to the operation platform 1, the trunk state of the operation platform 1 monitoring unit 13 corresponding to the slot position number is in the taking-out state all the time, and meanwhile, the trunk state can be monitored in real time through the mobile control terminal 3 and the fixed control terminal 4.

If the photoelectric sensor 285 is in a shielding state but the RFID reader 284 reads blank information, an illegal trunk or photoelectric sensor fault may exist in an abnormal situation, and the operation platform 1 monitoring unit 13 may send an alarm signal to the mobile control terminal 3 and the fixed control terminal 4.

Based on the above, referring to fig. 23, the cash handling assembly 26, the automatic counting assembly 27 and the tail box storage assembly 28 are placed in the safe assembly 29, wherein the cash handling assembly 26 and the automatic counting assembly 27 are located at the upper portion of the safe assembly 29, and the unit is integrally and independently drawn out and pushed in through the upper rail provided with the upper rail locking member 286 which is independently opened and closed according to the control command of the controller 21, and when the upper rail locking member 286 is closed, the cash handling assembly 26 and the automatic counting assembly 27 are integrally not drawn out. The tail box storage unit 28 is located at the lower portion of the safe unit 29, and is integrally drawn out and pushed in by a lower rail provided with a lower rail lock 287 which is independently opened and closed according to a control command of the controller 21, and the tail box storage unit 28 cannot be integrally drawn out when the lower rail lock 287 is closed.

The locking mechanism has the function of ensuring the independent operation and safety of the related units when the network site carries out different services for personnel. Referring to FIG. 24, when a chest access operation is performed, the lower rail lock 287 is opened and the upper rail lock 286 remains closed, so that the operator can only pull out and push in the chest storage assembly, but cannot pull out the cash handling assembly 26 and the automated counting assembly 27 as a whole, to avoid the operator from contacting the cash. Referring to fig. 25, when only a cassette access operation is required for counting or maintenance, the upper rail lock 286 is opened and the lower rail lock 287 remains closed, so that the operator can only pull out and push in the cash handling assembly 26 and the automatic counting assembly 27 as a whole, but cannot pull out the tail cassette storage assembly 28, thereby preventing the operator from touching the tail cassette.

Specifically, the dynamic combination lock 292 is implemented by a special hardware called a dynamic token, and includes a power supply, a fingerprint module, a password generation chip, a display screen, and a USB interface. The centralized authorization, the one-time unlocking password mechanism and the complete process management function of the dynamic password electronic lock management system thoroughly solve the potential safety hazard of the traditional mechanical password lock management mode, and furthest reduce the safety risk of the safety box in the daily business operation and maintenance working process of equipment while ensuring the working efficiency.

The basic principle is that the authentication unit 12 of the operation platform 1 generates a one-time unlocking password through the received information of the dynamic password lock 292, the fingerprint information of the service unlocking personnel, the equipment code and other constraint information. In the present application, the one-time password is encrypted and sent to the controller 21 by the operation platform 1 through the communication unit 11, and the controller 21 sends to the dynamic password lock 292 through the USB interface. The one-time unlocking password adopts advanced algorithm and technology, and the password cannot be reused.

Based on the above, in order to effectively reduce the operation and labor costs of escort, cash counting, and the like, and effectively improve the risk prevention level of bank outlets, so as to further improve the automation degree and the intelligence degree of the automatic banknote counting process, the present application provides an embodiment of an automatic banknote counting method implemented by applying the banknote cassette integrated processing apparatus or the bank operation system, referring to fig. 26, an execution main body of the automatic banknote counting method may be a controller 21, and the automatic banknote counting method specifically includes the following contents:

step 110: receiving an automatic counting instruction;

step 120: controlling the banknotes in the cash processing assembly to sequentially enter the turnover box through the first transmission channel and the first transmission channel according to the automatic counting instruction so that the turnover box counts the banknotes one by one;

step 130: and controlling the banknotes in the turnover box after being counted one by one to reenter the cash processing assembly from the second transmission channel and the first transmission channel in sequence.

In order to further improve the application reliability of the automatic banknote counting process, so as to further improve the automation degree and the intelligence degree of the automatic banknote counting process, in an embodiment of the automatic banknote counting method according to the present application, referring to fig. 27, the automatic banknote counting method further includes the following contents:

step 140: judging whether all the banknotes in the cash processing assembly enter the turnover box to be checked one by one, if so, executing a step 150;

step 150: the total denomination and total number of banknotes counted one by one is recorded.

In a specific application example of the automatic banknote counting method, the automatic banknote counting method is described as follows:

(1) the cash handling assembly 26 is comprised of a validator 261, 3 recycling bins 262, a first transport path 263 and 1 recycling bin 264.

(2) The automatic counting assembly 27 is composed of a turnover box 271 and a second transmission channel 272.

(3) The automatic counting is that the banknote cassette integrated processing device 2 counts all the real objects of the banknotes in each circulation cassette 262 of the cash processing assembly 26 one by using the turnover box 271 of the automatic counting assembly 27 as a buffer according to the instruction, and realizes the automatic checking of the real objects of the banknotes and the financial data under the condition of not opening the safe box.

Specifically, referring to fig. 28, 29 and 30, according to the control command of the controller 21, the banknotes are drawn out one by one from one of the circulation boxes 262 (current target circulation box) of the cash handling assembly 27, pass through the first transmission channel 263 and the banknote validator 261, enter the second transmission channel 272 of the automatic counting assembly 27, finally enter the turnover box 271, complete the transmission of one banknote, and circulate in such a way until all the banknotes in the circulation box 262 (same target circulation box) are transmitted to the turnover box 271, and the total denomination and total number of the banknotes are recorded.

The banknotes are drawn out one by one from the turnover box 271 of the automatic counting assembly 27, enter the first conveying channel 263 of the cash processing assembly 26 through the second conveying channel 272, pass through the first conveying channel 263 and the banknote validator 261, and reenter the previous circulation box 262 (the same target circulation box), so as to complete the returning of one banknote, and the circulation is performed until all the banknotes in the turnover box 271 are conveyed back to the circulation box 262 (the same target circulation box), and the total denomination and total number of the banknotes are recorded.

This completes the counting of all the banknotes in one recycling cassette 262 with banknotes.

The counting of all the banknotes in the next banknote recycling cassette 262 (the other recycling cassette except the target recycling cassette) is then performed until the counting of all the banknotes in all the banknote recycling cassettes 262 is completed.

In order to further improve the application reliability of the automatic banknote adding process, so as to further improve the automation degree and the intelligent degree of the automatic banknote adding process, the application provides an embodiment of an automatic banknote adding method implemented by applying the banknote box integrated processing device or the bank operation system, referring to fig. 31, an execution main body of the automatic banknote adding method may be a controller 21, and the automatic banknote adding method specifically includes the following contents:

step 210: if the identity authentication passing information and the money adding instruction of the current personnel triggering the money box integrated processing device are received, the currency type, the number and the amount of the physical money input by the personnel are obtained;

step 220: controlling a gate of the integrated money box processing device to be opened so as to enable current personnel to carry out money adding processing;

step 230: receiving a storage finishing instruction and controlling the gate to be closed;

step 240: judging whether the deposited physical bank note is consistent with the currency, the number and the amount of the physical bank note input by personnel, if so, executing a step 250;

step 250: automatically counting all banknotes in the banknote box integrated processing device;

step 260: and sending the statistical information corresponding to the stored physical bank notes and the results corresponding to the automatic counting to an operation platform so that the operation platform checks the statistical information corresponding to the stored physical bank notes and the results corresponding to the automatic counting with the pre-acquired financial data respectively.

In an example of an application of the automatic banknote adding method, referring to fig. 32, the automatic banknote adding method is specifically described as follows:

the note adding means that under the condition that existing notes in the note box integrated processing device 2 are insufficient and normal business cannot be met, additional notes need to be manually stored externally by a branch business person for supplement.

Step 501: the cash-adding service processing is ready to start, and the network service personnel select the cash-adding service function on the display component 22 of the cash box integrated processing device 2.

Step 502: the LED indicator light 243 of the fingerprint identification component 24 of the banknote and cassette integrated processing device 2 is turned on to prompt a website service worker to enter a fingerprint for identity authentication, the LED indicator light 243 continuously flickers in the fingerprint entering process, and after fingerprint collection is completed, the banknote and cassette integrated processing device 2 sends a service identity authentication request to the operation platform 1.

Step 503: the authentication unit 12 receives the service identity authentication request, and authenticates the identity of the service personnel according to the relevant fingerprint information in the request.

Step 504: if the authentication is passed, step 505 is executed, and if the authentication is not passed, step 513 is executed.

Step 505: the branch service personnel inputs the currency type, the number and the amount of money to be added and stored into the real object bank note on the display component 22 of the bank note box integrated processing device 2 and confirms the currency type, the number and the amount of money.

The currency, number and amount information of the banknotes to be billed are pre-recorded into the accounting data to be billed of the corresponding device in the accounting processing unit 14 of the operation platform 1 through the mobile control terminal 3 or the fixed control terminal 4.

Step 506: the gate of the gate 23 of the integrated banknote and cassette processing device 2 is opened, the network service personnel starts to continuously put banknotes into the deposit equipment, during the deposit process, the cash processing component 26 of the integrated banknote and cassette processing device 2 carries out banknote detection and banknote deposit processing on the deposited banknotes, and simultaneously displays the deposited currency type, number and amount information on the display component 22 of the integrated banknote and cassette processing device 2 in real time. When all the banknotes are deposited, the network point service personnel select to finish the depositing on the display component 22 of the banknote and cassette integrated processing device 2.

Step 507: the gate of the gate 23 of the cassette integrated processing apparatus 2 is closed.

Step 508: the integrated processing device 2 of the paper money box judges whether the real object of the deposited paper money is consistent with the currency type, the number and the amount of money which is input to be added and deposited. If yes, go to 509, and if not, go to 514.

Step 509: under the condition that accounts of the machine are consistent, the banknote box integrated processing device 2 automatically checks all banknotes, and after the counting is finished, the previous manual banknote adding and storing result and the current counting result are uploaded to the operation platform 1.

Step 510: the accounting processing unit 14 of the operation platform 1 respectively performs accounting and real checking according to the manual money adding and storing result and the counting result and the related accounting data (the accounting data to be added with money and the original accounting data) of the corresponding device.

Step 511: and judging whether the credits are consistent, if so, executing step 509, and otherwise, executing step 515.

Step 512: and ending the bill adding service.

Step 513: the authentication unit 11 returns the service identity authentication failure information to the cash box integrated processing device 2 through the communication unit 11.

Step 514: and (4) errors occur in manual money adding and real account, and site processing is carried out by network business personnel.

Step 515: the accounting processing unit 14 sends account checking failure information to the cash box integrated processing device 2 through the communication unit 11 of the operation platform 1, and the branch service personnel performs field processing.

In order to further improve the application reliability of the tail box storage process and further improve the automation degree and the intelligence degree of the tail box storage process, the application provides an embodiment of a tail box storage method implemented by applying the banknote box integrated processing device or the bank operation system, referring to fig. 33, an execution main body of the tail box storage method may be the controller 21, and the tail box storage method specifically includes the following contents:

step 310: if the identity authentication passing information of the current personnel triggering the banknote box integrated processing device and a tail box storage instruction are received, receiving the information of the articles correspondingly placed in different tail boxes input by the current personnel item by item;

step 320: if identity authentication passing information of current personnel triggering the money box integrated processing device and a safe opening instruction are received, the safe body is controlled to be opened, so that the current personnel store the tail box in the safe body;

step 330: and after the safe is detected to be closed, sending a corresponding tail box detection result and the article information to an operation platform, so that the operation platform performs tail box accounting according to the tail box detection result and the article information.

In a specific application example of a trunk storage method, referring to fig. 34, the trunk storage method is described as follows:

the utility model provides a boot is deposited and is meant that after the branch business is ended, the branch office operation personnel according to the system requirement to the various media in the boot, including cash (the small amount RMB cash, foreign currency, difficult circulation coin, incomplete coin and coin), valuable document (check, draft etc.), important blank voucher (check, card etc.) and trusteeship medium (precious metal product, insurance close the same) etc. deposit in two boots after counting by classification, the boot is put in the boot of paper money case integrated processing apparatus 2 again and is deposited the subassembly and go on night, supply the next day the branch business to reuse.

Step 601: the preparation of the tail box storage service processing is started, and the network business personnel select the tail box storage service function on the display component 22 of the banknote box integrated processing device 2.

Step 602: the LED indicator light 243 of the fingerprint identification component 24 of the banknote and cassette integrated processing device 2 is turned on to prompt a website service worker to enter a fingerprint for identity authentication, the LED indicator light 243 continuously flickers in the fingerprint entering process, and after fingerprint collection is completed, the banknote and cassette integrated processing device 2 sends a service identity authentication request to the operation platform 1.

Step 603: the authentication unit 12 receives the service identity authentication request, and authenticates the identity of the service personnel according to the relevant fingerprint information in the request.

Step 604: if the authentication is passed, step 605 is executed, and if the authentication is not passed, step 614 is executed.

Step 605: after receiving the authentication pass instruction of the operation platform 1, the banknote box integrated processing device 2 prompts the next step of entering a flow on the display component 22, the network business personnel begin to count various media and store the media in two tail boxes in a classified manner, and the counting process enters related information (selecting article names, inputting article quantity and the like) of articles correspondingly placed in different tail boxes one by one according to the prompt of the display component 22.

Step 606: after the network business personnel finish the counting, storage and input work of the articles in the tail box, the tail box cover is closed, the next safe box opening process is selected on the display component 22, the operation is carried out on the dynamic coded lock 292 on the safe box component 29 of the cash box integrated processing device 2, the fingerprint is input, then the unlocking is applied, and the unlocking authentication request is sent to the operation platform 1.

Step 607: the authentication unit 12 receives the unlocking authentication request and verifies the related fingerprint information.

Step 608: if the authentication is passed, step 606 is executed, and if the authentication is not passed, step 615 is executed.

Step 609: after generating the password, the authentication unit 12 of the operation platform 1 transmits the unlocking password back to the banknote box integrated processing device 2 through the communication unit 11.

Step 610: the dynamic coded lock 292 of the banknote box integrated processing device 2 automatically unlocks after receiving the unlocking code, the network business personnel open the safe according to the prompt of the display component 22, the lower guide rail locking piece 294 of the safe component 29 unlocks at the moment, the network business personnel open the whole tail box storage component 28 according to the prompt of the display component 22 and place two tail boxes 282, then the safe is closed, and the dynamic coded lock 292 automatically locks after detecting that the cabinet door is closed.

Step 611: and the banknote box integrated processing device 2 uploads the detection result of the tail box and the tail box article information recorded before to the operation platform 1, and the tail box account checking is carried out. The accounting processing unit 14 of the operation platform 1 performs accounting check on the uploaded trunk item information and the trunk item accounting information of the corresponding device. The monitoring unit 13 of the operation platform 1 changes the trunk access state.

Step 612: and judging whether the account of the tail box is consistent, if so, executing step 610, and otherwise, executing step 615.

Step 613: and ending the tail box storage service.

Step 614: the authentication unit 11 returns the service identity authentication failure information to the cash box integrated processing device 2 through the communication unit 11.

Step 615: the authentication unit 11 returns unlocking authentication failure information to the cash box integrated processing device 2 through the communication unit 11.

Step 616: the accounting processing unit 14 of the operation platform 1 sends account checking failure information to the cash box integrated processing device 2 through the communication unit 11, and the branch service personnel perform field processing.

From the above description, the paper money case integration processing apparatus and bank operation system that this application provided, through cash real-time processing, the automatic technology of checking, the boot is deposited and the RFID monitoring technology, cooperate dynamic trick lock, realize the intellectuality of website business operation, automatic remote accounting is handled and automatic remote monitoring, can realize local cash processing and automatic checking reconciliation simultaneously on same equipment, functions such as local medium is deposited overnight, under the prerequisite that improves risk prevention ability, furthest reduces the operation and human cost such as transportation of escort, cash is checked, further guarantee the punctuality of website business, comprehensively promote the operation efficiency of bank website.

The money box integrated processing device and the bank operation system have the following advantages:

(1) the functionality is strong: through automatic check technology and RFID monitoring technology on same equipment, realize the control to the high security of all kinds of media, reduce the bank note simultaneously and check work, under the prerequisite that improves risk prevention ability, operation and human cost such as operation and the cost are checked to the at utmost reduction equipment, escort, cash.

(2) The practicability is strong: deposit the technique through the boot, realize that local medium deposits function such as overnight, under the prerequisite that improves risk prevention ability, when reducing the operation cost of escort, further guarantee the punctuality of website business, promote the operation efficiency of bank website comprehensively.

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, 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 article or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element. The terms "upper", "lower", and the like, indicate orientations or positional relationships that are 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 referenced devices or elements must have a particular orientation, be constructed and operated in a particular 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 connected, detachably connected, 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 application, various features of the 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.

It should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; 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 present disclosure, and the present disclosure should be construed as being covered by the claims and the specification.

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. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean 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 contradiction.

The principle and the implementation mode of the present application are explained by applying specific embodiments in the present application, and the description of the above embodiments is only used to help understanding the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (17)

1. A money box integrated processing device is characterized by comprising: the automatic counting and cash processing system comprises a controller, a safe body, an automatic counting assembly, a tail box storage assembly and a cash processing assembly, wherein the automatic counting assembly, the tail box storage assembly and the cash processing assembly are respectively arranged in the safe body;

the cash processing assembly, the automatic counting assembly and the tail box storage assembly are respectively in communication connection with the controller;

the automatic counting assembly comprises a turnover box and a second transmission channel, wherein two ends of the second transmission channel are respectively connected with the first transmission channel and the turnover box so as to transmit the banknotes in the cash processing assembly into the turnover box for counting.

2. A cassette integrated processing apparatus as claimed in claim 1, wherein said cash handling assembly comprises: the cash recycling system comprises a cash processing box body, and a recycling box, a currency detector and at least one circulating box which are arranged in the cash processing box body; the first transmission channel is also arranged in the cash processing box body;

the recovery box and the at least one circulation box are communicated with the first transmission channel;

the banknote validator is arranged on the first transmission channel to verify banknotes transmitted in the first transmission channel.

3. A banknote cassette integrated processing apparatus as claimed in claim 2, wherein said automatic counting assembly further comprises: automatically counting the cabinet body;

the turnover box and the second transmission channel are both arranged in the automatic counting cabinet body;

the automatic counting cabinet body is connected with the cash processing box body.

4. A banknote cassette integrated processing apparatus as claimed in claim 3, wherein the circulation cassette, the recycling cassette and the turnover cassette are provided with banknote circulation cores;

and each paper currency circulating machine core is respectively connected with the controller.

5. A cassette integrated processing apparatus as claimed in claim 1, wherein said tail cassette storage assembly comprises: at least one boot and a storage compartment for receiving the boot;

the storage cabinet is detachably arranged in the safe cabinet body, and the bottom of the storage cabinet is provided with at least one slot;

the quantity of trench is more than or equal to the quantity of boot, just the trench be used for with the bottom joint of boot.

6. A banknote cassette integrated processing device as claimed in claim 5, wherein one side of said slot is provided with a groove, and one side of said tail cassette is provided with a boss detachably engaged with said groove.

7. The integrated processing device of a bank note box as claimed in claim 6, wherein an RFID tag is fixedly arranged on the boss; an RFID reader for reading the RFID label is fixedly arranged in the groove;

the RFID reader is connected with the controller.

8. A banknote cassette integrated processing apparatus as claimed in claim 6, wherein a photoelectric sensor is arranged at the bottom of said recess;

the photoelectric sensor is connected with the controller.

9. A banknote cassette integrated processing apparatus as claimed in claim 1, wherein said automatic counting assembly and said cash handling assembly are fixedly connected and movably connected to said safe body via at least two first guide rails;

the tail box storage assembly is arranged on the safe body through at least two second guide rails;

guide rail locking pieces are respectively arranged on the first guide rail and the second guide rail;

each guide rail locking piece is connected with the controller respectively.

10. A banknote cassette integrated processing apparatus as claimed in claim 1, wherein a dynamic coded lock is provided on the safe body;

the dynamic coded lock is connected with the controller.

11. A banknote cassette integrated processing device as claimed in claim 1, wherein a fingerprint identification component is arranged on a panel provided with a gate on the safe body;

the fingerprint identification component is connected with the controller.

12. A banknote cassette integrated processing unit as claimed in claim 11, wherein said fingerprint identification assembly comprises: the semiconductor assembly is respectively connected to the identification chip of the semiconductor assembly and the LED indicator lamp;

the identification chip is connected with the controller.

13. A banknote cassette integrated processing apparatus as claimed in claim 1 wherein a display assembly is provided on a panel provided with a gate on the safe body;

the display assembly is connected with the controller.

14. A cassette integrated processing apparatus as claimed in claim 13, wherein said display assembly comprises: liquid crystal display screens and touch screens;

the liquid crystal display screen and the touch screen are respectively connected with the controller.

15. The cassette integrated processing apparatus as set forth in claim 1, further comprising: the communicator is arranged in the safe box body;

the communicator is connected with the controller to realize data transmission between the controller and an external operation platform.

16. A banking system, comprising: an operation platform and the banknote cassette integrated processing device of any one of claims 1 to 15;

and the operation platform is in communication connection with the banknote box integrated processing device.

17. The banking system of claim 16, further comprising: and the mobile control terminal and/or the fixed control terminal are in communication connection with the operation platform.

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