CN109003387B - Modularized teller cash recycling machine and cash depositing and withdrawing method - Google Patents

Modularized teller cash recycling machine and cash depositing and withdrawing method Download PDF

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Publication number
CN109003387B
CN109003387B CN201810971495.0A CN201810971495A CN109003387B CN 109003387 B CN109003387 B CN 109003387B CN 201810971495 A CN201810971495 A CN 201810971495A CN 109003387 B CN109003387 B CN 109003387B
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China
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banknote
cash
paper money
turning plate
cabinet
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CN201810971495.0A
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CN109003387A (en
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陈崇军
郑巨轮
王河平
严陈
尹涛
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Kunshan Guao Electronic Machinery Co Ltd
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Kunshan Guao Electronic Machinery Co Ltd
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Abstract

The application discloses a modularized teller cash recycling machine and a cash depositing and withdrawing method. When the banknote is stored, a banknote storage instruction is input into the man-machine interaction interface, the banknote storage port is opened to put the banknote, the banknote is detected and counted by the counting banknote detector and then is sent to the cache box to be stored, the processor stores and displays the related data of the stored banknote, including denomination and quantity, for confirmation and selection, the banknote is moved into the first cash cabinet to be stored, and the banknote is not stored and is moved into the banknote outlet to be retrieved. When the banknote is taken, a banknote taking instruction is input, the banknote is sent out from the first cash cabinet, the banknote channel moves along the second direction, and the banknote is sent to the banknote outlet for picking after passing through the banknote checking counter. Through setting up operation module and the bank note storage module of block fixed from top to bottom, convenient installation and dismantlement to, when trouble such as card paper takes place, also easy maintenance gets rid of.

Description

Modularized teller cash recycling machine and cash depositing and withdrawing method
Technical Field
The application relates to the field of financial equipment for depositing and withdrawing, in particular to a modularized teller cash recycling machine and a depositing and withdrawing method.
Background
As socioeconomic performance has increased, the volume of paper currency circulated in the market has increased, and in financial institutions such as banks, as cash-related transactions have increased, the processing of machines has been increasingly conducted. Including automated teller machines (Auto TELLER MACHINE, ATM), automatic deposit machines (Auto Deposit Machine, ADM), and depositing and dispensing all-in-one machines (CASH RECYCLING SYSTEM, CRS) that are used directly by customer operations.
But these machines are simple to perform and only provide for the withdrawal or deposit of banknotes of a specific denomination. In the prior art, machines for customers to operate automatic deposit or withdrawal typically only support operation of 100-membered denomination notes, and at most some large financial institutions are equipped with cash recyclers that support operation of 50-membered denomination notes.
Thus, many cash transactions for customers still require going to the counter, which is done in interaction with the counter staff, which often means long queuing with waiting, and rapid and short counter conversation, and thus the customer experience is not good.
For bank counter staff, the bank counter staff can encounter various denominations of paper money, even foreign currency, for example, the business of depositing and withdrawing cash for a certain customer or the paper money operation business of changing the large denomination paper money with the small denomination paper money by zero paper money and the like according to the requirements of the customer, thus being trivial and simple, wasting the time of counter staff almost and being self-service by the customer through a machine. Thus, existing customer operated depositing and dispensing machines capable of handling only 50-or 100-denomination notes are clearly inadequate. Thus, there is a need to develop a processing machine that can identify a variety of notes, including notes of different denominations and different types. Meanwhile, if one cash teller machine sends faults such as banknote blocking and the like, maintenance is time-consuming and labor-consuming.
Accordingly, the prior art is still in need of improvement and development.
Disclosure of Invention
In view of the above-mentioned shortcomings of the prior art, the present application aims to provide a modular teller cash recycling machine (TELLER CASH RECYCLER, TCR) and a cash recycling method for self-service use by a banking customer, so as to facilitate the banking customer to quickly complete cash handling services including cash recycling and other services, and simultaneously facilitate installation, disassembly and maintenance.
The technical scheme of the application is as follows:
The application discloses a modularized teller cash recycling machine which comprises an operation module, wherein the operation module is clamped and fixed above a cash storage module and is connected with a cabinet top opening at the top of the cash storage module through at least one cabinet inlet opening at the bottom; the cash storage module comprises at least one first cash cabinet and at least one second cash cabinet; the operation module comprises a banknote storage port for a customer to put in banknotes, the banknote storage port is connected with a banknote channel, and a counting banknote detector is arranged along the banknote channel; the paper money channel is connected to the paper money outlet after sequentially passing through at least one bidirectional turning plate and at least one three-way turning plate from the paper money storage outlet to form a first direction; the first cash cabinet is opposite to and connected with a first cabinet inlet opening at the bottom of the operation module through a first cabinet top opening at the top and is used for paper money to enter and exit; the second cash cabinet positioned on the cash storage module is opposite to and connected with a second cabinet inlet opening at the bottom of the operation module through a second cabinet top opening at the top, and is used for paper money to enter and exit; the bidirectional turning plate is positioned between the paper money channel and the first cabinet inlet opening; when the bidirectional turning plate is at a first position, the first cabinet inlet opening is blocked, so that the paper currency continuously moves along the paper currency channel; when the bidirectional turning plate is at the second position, the bidirectional turning plate obliquely turns up in the upstream direction, and the paper money channel is communicated to the first cabinet inlet opening along the lower surface of the turning-up part and enters the first cash cabinet through the first cabinet top opening; the three-way turning plate is positioned between the paper money channel and the second cabinet inlet opening; when the three-way turning plate is at the first position, the three-way turning plate seals the second cabinet inlet opening, so that the paper currency continues to move along the paper currency channel; when the three-way turning plate is at the second position, the three-way turning plate obliquely turns up in the upstream direction, and the paper money channel is communicated to the second cash cabinet along the lower surface of the turned-up part; when the three-way turning plate is at the third position, the three-way turning plate obliquely turns up in the downstream direction, the upstream paper money channel of the three-way turning plate is plugged, and the downstream paper money channel is communicated with the second cash cabinet along the lower surface of the turned-up part; the second cash cabinet at least comprises a recycling box for recycling the problematic paper money, a buffer storage box for temporarily storing the paper money when the paper money is stored, and a paper money outlet; the processor is connected with a human-computer interaction interface, controls the communication mode of the bidirectional turning plate and the three-way turning plate, and is also respectively connected with the banknote storage port, the banknote outlet and the counting banknote detector for exchanging data; the upstream and the downstream are defined according to a first direction.
Preferably, the cabinet inlet opening is connected with the cabinet top opening in an inserting way.
Preferably, the bidirectional turning plate and the three-way turning plate are respectively and independently provided with a rotating shaft, a plate body rotating around the rotating shaft and a driving piece driving the plate body to rotate.
Preferably, the man-machine interaction interface is a touch screen, and comprises a display module and an input module, wherein the display module and the input module are used for displaying current operation to a client and receiving instructions input by the client.
Preferably, the counting currency detector comprises a counting module and a currency detecting module, wherein the currency detecting module is used for identifying and detecting authenticity of the paper currency, and the counting module is used for counting the number of the paper currency and calculating total amount.
Preferably, the banknote path is a conveyor belt.
Preferably, the banknote channel is further provided with at least one position detection sensor for detecting the position of the banknote
The application also discloses a deposit method of the modularized teller cash recycling machine, which comprises the following steps:
a. The processor receives a banknote deposit instruction;
b. The processor controls the banknote storage port to be opened for a customer to pay banknotes;
c. the paper money put in passes through the paper money channel and is sent into the counting currency detector for currency detection and counting;
d. the counting currency detector collects the denomination and the number of the paper money and sends the denomination and the number to the processor;
e. The processor adjusts each bidirectional turning plate to be in a first position, and seals the first cabinet inlet opening, so that the paper currency continuously moves along the paper currency channel;
f. The processor adjusts a buffer three-way turning plate connected with the buffer box to be positioned at the second position, and the buffer box is communicated with a paper money channel at the upstream of the buffer box and the buffer three-way turning plate through the second cabinet inlet opening, and paper money moves along a first direction through the paper money channel and is sent into the buffer box;
g. The processor stores and displays the denomination and the number of the paper money on the man-machine interaction interface for the client to check and select to confirm whether the paper money is correct or not.
Preferably, when the customer selects to confirm that the user is correct, the step g further includes:
h. The processor adjusts a three-way buffer turning plate connected to the buffer box to be in a third position, and communicates the buffer box with a paper money channel at the downstream of the three-way turning plate through the cabinet inlet opening, so that the paper money is conveyed from the buffer box to the paper money channel;
i. The processor adjusts the banknote channel to move along the first direction, and conveys the banknote to the position of one bidirectional turning plate after passing through the counting banknote identifier again;
j. The counting currency detector again identifies the denomination and the type of the paper money and sends the denomination and the type of the paper money to the processor;
k. The processor adjusts the bidirectional flap to a second position, corresponding to the banknote, to which a first cash container is connected, and communicates the banknote path with the first cash container through the container inlet opening so that the banknote is fed into the first cash container.
When the customer selects to confirm that the banknote is incorrect or cancel the banknote deposit, the method further comprises the following steps:
hh. the processor adjusts a three-way buffer turning plate connected to the buffer box to be in a third position, and communicates the buffer box with a downstream paper money channel of the three-way turning plate through the cabinet inlet opening, so that the paper money is conveyed from the buffer box to the paper money channel;
The processor adjusts the banknote channel to move along a first direction, and conveys the banknote to a banknote outlet three-way turning plate connected with the banknote outlet;
jj. the processor adjusts the three-way paper money outlet turning plate to be in a second position, and communicates the paper money channel with the paper money outlet, so that the paper money is conveyed to the paper money outlet for being picked up by a customer.
The application also discloses a withdrawal method of the modularized teller cash recycling machine, which comprises the following steps:
A. Inputting a banknote taking instruction from the man-machine interaction interface;
B. The processor controls the bidirectional flap to be in a second position and connects the first cash box and the paper money channel through the cabinet opening;
C. The processor controls the banknote path to move in a second direction opposite to the first direction, and sends out the banknote from the first cash cabinet to the operation module;
D. the paper money channel sends the paper money into the counting currency detector for counting and currency detection, and the counting result is fed back to the processor;
E. The processor controls the three-way cash-out turning plate to be in a third position, and the cash channel sends the cash into the cash-out port for a customer to take the cash.
The application discloses a modularized teller cash recycling machine and a cash depositing and withdrawing method, which are used for self-service cash operation service of bank customers. When a customer needs to deposit paper money, inputting a paper money depositing instruction on a human-computer interaction interface, opening the paper money depositing port for the customer to put paper money, automatically conveying the paper money to a cache box for storage after detection and counting by a counting paper money detector, and storing and displaying relevant data of the paper money deposited by the customer on the human-computer interaction interface by a processor, wherein the relevant data comprises denomination and quantity for the customer to confirm and select for decision; when the customer confirms correct and selects deposit of the banknote, the banknote will be moved into the first cash chest for storage, and when the customer selects no deposit of the banknote, the banknote will be moved into the banknote outlet for retrieval by the customer. And when the customer needs to take the paper money, the customer inputs a paper money taking instruction from the man-machine interaction interface, the modularized teller cash recycling machine automatically sends out the paper money with full amount from the cash cabinet, the paper money channel moves along the second direction, and the paper money is sent to the paper money outlet after passing through the paper money detecting counter for the customer to pick up. According to the modularized teller cash recycling machine and the cash depositing and withdrawing method disclosed by the application, the operation module and the cash depositing module which are clamped and fixed up and down are arranged, so that the modularized teller cash recycling machine is convenient to install and disassemble, and in addition, the modularized teller cash recycling machine is easy to maintain and remove when faults such as paper jam occur.
Drawings
FIG. 1 is a schematic diagram of the deposit time buffering operation of the modular teller cash recycling machine of the present application.
FIG. 2 is a schematic view of the position of the two-way/three-way flap of the modular teller cash recycling machine of the present application with counting.
Fig. 3 is a schematic view of the operation structure of the modular teller cash recycling machine of the present application after confirming deposit.
FIG. 4 is a schematic drawing of a withdrawal operation of the modular teller cash recycling machine of the present application.
In the figure, 1 cash outlet, 2 cash deposit mouths, 3 count currency examine appearance, 4 buffer storage case, 5 cash cabinet, 6 collection box, 8 two-way turning over board, 10 get paper money flap, 11 position detection sensor, 12 get paper money route, 13 income paper money route, 14 intermediate transmission route, 15 motor, 16 intra-cabinet passageway, 21 first position, 22 second position, 23 third position, 24 pivot, 25 paper currency passageway, 26 paper currency case, 91 play paper money three-way turning over board, 94 buffering three-way turning over board, 96 retrieve three-way turning over board, 100 operation module, 200 deposit paper money module, 101 bottom, 202 top, 1122 block structure.
Detailed Description
The application provides a modularized teller cash recycling machine and a cash recycling method, which are used for making the purposes, technical schemes and effects of the application clearer and more definite, and the application is further described in detail below by referring to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.
The overall structure of the modular teller cash recycling machine disclosed by the application is shown in fig. 1, and the modular teller cash recycling machine comprises an operation module 100, wherein the operation module is clamped and fixed above a cash storage module 200 through at least one clamping structure 1122, and is connected with a cabinet top opening of a top 202 of the cash storage module through at least one cabinet inlet opening of a bottom 101, and when the operation module 100 is clamped on the cash storage module 200, the cabinet top opening is close to and opposite to the cabinet inlet opening, so that paper money can conveniently enter and exit.
The engaging structure 1122 may be any structure capable of fixing the positions of the bottom 101 and the top 202, such as the protrusion and recess engaging structure shown in fig. 1.
In a more preferred embodiment, the cabinet entrance opening and the cabinet top opening are also in a mutually nested structure, and are mutually inserted and connected, that is, are also in a structure of being clamped between the protrusion and the recess, and the two openings are located at the central positions of the protrusion and the recess, so that the stability of the clamping between the operation module 100 and the banknote storage module 200 can be further increased, the installation is convenient, and the displacement is not easy to occur.
The operation module 100 includes a bill deposit port 2 for depositing bills from customers, and the bills deposited from the bill deposit port 2 are carried by a bill path 25 and transported along a bill deposit path 13 to the inside of the modular teller cash recycling machine. The banknote path 25 may be any transport means, in this embodiment a conveyor belt. In order to ensure that the banknote is positioned correctly on the conveyor belt, in a preferred embodiment, at least one position detection sensor 11 is also distributed on the banknote path to detect the position of the passing banknote in real time.
The banknote channel 25 conveys the banknote through a counting banknote identifier 3, wherein the counting banknote identifier 3 comprises a counting module and a banknote identifier module, the banknote identifier module is used for identifying and detecting the authenticity of the banknote, and the counting module is used for counting the number of the banknote to calculate the total amount. In the counting currency detector 3, the denomination is first identified by the currency detecting module and the authenticity is identified, and only the true currency, including the incomplete currency meeting the requirement, can be identified and sent to the counting module for counting the number and calculating the total amount; but the banknotes that cannot be identified, including counterfeit and damaged banknotes, are either sent to the banknote outlet 1 for withdrawal to the customer or sent to a recycling bin 6 for withdrawal by the bank.
After passing through the counting currency detector 3, the banknote passageway 25 becomes an intermediate transport path 14, and the banknote continues to be transported forward on the banknote passageway 25, passes through at least one bidirectional flap 8 and at least one three-way flap connected to the banknote passageway 25, and then is placed into a buffer box 4 for temporary storage, and waits for customer selection. The banknote path 25 is connected to a banknote outlet 1 through which a customer picks up banknotes after passing through the three-way flaps. The direction of movement of the banknote described above constitutes the first direction. The upstream and downstream directions present in the present application are defined in terms of the first direction. Each bidirectional turning plate 8 or each three-way turning plate on the paper money channel 25 is connected with and controls the on-off of a paper money box 26 for storing paper money.
Each bidirectional turning plate 8 is connected to one of the cabinet inlet openings, and after the operation module 100 is fastened and fixed on the banknote storage module 200, the cabinet inlet opening is opposite to and close to the top opening of the cabinet, so that banknotes can be smoothly output and input into the other opening through one opening under the driving. Especially, when setting into between the cabinet opening with the cabinet top opening is nested structure each other, not only can guarantee that the connection between two modules can not shift, can also convenient installation and dismantlement maintenance.
The notes pass through the chest opening into one of the first cash cabinets 5 to which the deposit module 200 is connected and are deposited in one of the first cash cabinets 5 according to their denominations.
The specific structure of the bidirectional turning plate 8 or the three-way turning plate is shown in fig. 2, and the bidirectional turning plate 8 and the three-way turning plate are respectively and independently provided with a rotating shaft 24, a plate body rotating around the rotating shaft and a driving piece driving the plate body to rotate. Wherein each of the two-way flaps 8 can provide two communication modes, one is that when being positioned at the first position 21, the paper currency continues to move forward along the paper currency channel 25, namely, as shown in fig. 1, at the moment, the first cash box 5 is equivalent to being isolated and disconnected; the other is at the second position 22, as shown in fig. 3, the communication mode is changed to connect the banknote passageway 25 with the cabinet inlet opening, and connect to the cabinet top opening through the cabinet inlet opening, and then connect to the first cash cabinet 5, so as to change the moving direction of the banknote, send the banknote from the banknote passageway 25 into the first cash cabinet 5 for storage, or take the banknote out of the first cash cabinet 5 along the original path.
Each three-way turning plate can provide three communication modes for paper money to move, and specifically comprises the following steps: one is in the first position 21, continuing the banknote to move forward along the banknote path 25, i.e. isolating the connected banknote cassette 26, such as the recovery three-way flap 96 of fig. 1, connected to the recovery cassette 6, in this communication; the other two communication modes are the second position 22 and the third position 23, and the connected banknote boxes 26 are respectively connected with the banknote channels 25 in a left connection mode and a right connection mode, and the communication modes are mainly determined by whether the banknote channels 25 move along the first direction or the second direction, namely, whether the banknote channels move clockwise or anticlockwise in the figure. In short, the bill is fed into each bill box 26 as smoothly as possible along the moving direction of the bill path 25. Each three-way flap provides the three communication modes described above, and, similarly to the connection mode of the two-way flap 8, when the three-way flap is connected to a certain banknote box 26 placed on the banknote storage module 200, the three-way flap is also connected to the corresponding inlet opening through the corresponding passage, and then enters the corresponding banknote box 26 through the corresponding top opening.
In this embodiment, the banknote box 26, i.e. the second cash box, connected to the three-way flap, includes at least one recycling box 6 for recycling problematic banknotes, including counterfeit banknotes and damaged banknotes, a buffer box 4 for temporarily storing banknotes when they are stored, and the banknote outlet 1; correspondingly, the three-way turning plate comprises at least three parts, namely: a three-way bill outlet turning plate 91 connected with the bill outlet 1, a three-way bill outlet turning plate 94 connected with a bill outlet box 4 and a three-way bill outlet turning plate 96 connected with the bill outlet box 6. Of course, each financial institution can add other containers for placing paper money according to actual needs.
For convenience of structural arrangement, the buffer box 4 may be placed on the bottom plate 101 of the operation module 100, so that the buffer three-way flap 94 and the cash-out three-way flap 91 may be directly connected to the respective cash boxes 26, and since the recovery box 6 is placed on the cash storage module 200, the recovery three-way flap 96 needs to be connected to the corresponding cabinet-in opening, and then connected to the cash boxes 26 through the cabinet-top opening.
Because each of the first cash cabinets 5 or the recovery boxes 6 provided on the cash storage module 200 is independently operated from the banknote passageway 25, a driving device, such as a motor 15 provided inside each of the first cash cabinets 5 or the recovery boxes 6 in the drawing, is required to drive the in-cabinet passageway 16 provided closely to the motor 15 to move up and down to take in or out the first cash cabinet 5 or the recovery boxes 6 from the top opening, and because the top opening is close to and opposite to the entrance opening, the banknote can easily enter one opening after coming out of the other opening and be carried and moved continuously by the banknote passageway 25 therein.
The modular teller cash recycling machine disclosed by the application further comprises a processor which is connected with a personal computer interaction interface and controls the concrete communication mode of each bidirectional turning plate 8 and each three-way turning plate in the working process. Of course, the processor is also respectively connected with the banknote deposit port 2, the banknote outlet port 1 and the counting banknote identifier 3 and exchanges data, so that the whole working process can be monitored in the whole process. If the position detection sensor 11 is mounted, the processor is also connected to the position detection sensor 11 and receives the banknote position information fed back from the position detection sensor, so as to compare the banknote position supplied from the counter banknote validator 3 stored in the processor, and prevent any error from occurring, so that the first cash container 5 in which the banknote is to be stored and the denomination recognition of the banknote do not correspond.
The man-machine interaction interface comprises a display module and an input module, and is used for displaying operation information of each step to a client and receiving a selection instruction input by the client, so that the man-machine interaction interface is preferably a touch screen.
In this embodiment, the buffer box 4 is used for temporarily storing all the banknotes that are verified by the counting currency detector 3, especially when the clients deposit the banknotes, all the deposited banknotes are temporarily stored in the buffer box 4 first, and meanwhile, the data collected by the counting currency detector 3 sent by the processor, including the denomination and the number of the banknotes deposited by the clients and the calculated deposit total, are displayed on the man-machine interface, and the clients wait for confirmation whether to select deposit or discard deposit.
If the customer confirms that the deposit is incorrect and chooses to discard, the processor adjusts the connection of the three-way buffer flap 94 in the following manner: in a third position 23, i.e. clockwise in the figure, connecting the buffer bin 4 and the downstream banknote passageway 25, while the processor also adjusts the banknote outlet three-way flap 91 to switch to a second position 22, connecting the banknote outlet 1 and the upstream banknote passageway 25, and the processor also adjusts the banknote passageway 25 to move in the first direction, which allows the banknote to be withdrawn from the buffer bin 4, through the banknote outlet three-way flap 91 in the second position 22, into the banknote outlet 1, along the banknote removal path 12, to the banknote removal opening, and the customer opens the banknote removal flap 10 to pick up the deposited banknote.
If the customer selects to confirm deposit, as shown in fig. 3, the three-way buffer plate 94 is turned to the second position 22 to communicate the buffer box 4 with the downstream bill channel 25, and output bills, while the three-way bill outlet plate 91 is turned to the first position 21 to communicate the bill channel 25 to bypass the bill outlet 1, so that the bills in the buffer box 4 can be conveyed back to the counter-bill validator 3 along the first direction by the bill channel 25, after receiving the re-bill validation and recognition and counting processes, the counter-bill validator 3 sends the processed results to the processor, and the bills continue to pass through the intermediate conveying route 14, pass through the corresponding two-way flap 8, and be sent into the corresponding first cash cabinet 5 by the processor. At this time, the bidirectional flap 8 connected to the first cash container 5 corresponding to the denomination and the type of the banknote is controlled by the processor to be turned to the second position 22 to communicate the first cash container 5 with the banknote path 25, and the banknote is turned from the moving direction of the banknote path 25 along the bidirectional flap 8 to the communicating direction along the bidirectional flap 8 at the bidirectional flap 8 to enter the first cash container 5 corresponding to the denomination and the type to be stored.
In the present application, the number of the first cash cabinets 5 is designed according to the denomination and kind of the existing paper money, and paper money with various denominations is separately and independently stored, thereby providing convenience for withdrawal.
When a customer needs to withdraw money, a corresponding money-taking instruction is input into the man-machine interaction interface, then the whole working process of the cash recycling machine of the modularized teller is as shown in fig. 4, according to the specific situation that the customer needs to withdraw money, the processor controls to open the corresponding first cash cabinet 5, namely the cash cabinet 5 is connected with the two-way turning plate 8 to be connected with the cash cabinet to be connected with the cash channel 25, meanwhile, the processor controls the cash channel 25 to move in the anticlockwise direction in the figure, namely the second direction, and opposite to the first direction, the cash is identified and counted again through the counting currency detector 3, and then the cash is sent into a cash-taking opening through the three-way turning plate 91 at the second position 22 along the cash-taking route 12, and the customer opens the cash-taking cover 10 to pick up.
At this time, if a certain banknote fails to pass the authentication of the counting currency detector 3, the processor controls the three-way turning plate at the corresponding position on the banknote channel 25, and finally the three-way turning plate is sent into the recycling bin 6 for manual authentication by a bank staff later.
In summary, when a customer needs deposit, firstly, inputting a banknote deposit instruction from the man-machine interaction interface; then, the working process of the modularized teller cash recycling machine is that firstly, as shown in figure 1, the processor controls the banknote deposit port 2 to be opened for a customer to deposit banknotes; the paper money put in by the customer passes through the paper money channel 25 and is sent into the counting currency detector 3 for identification, currency detection and counting; meanwhile, the counting currency detector 3 collects the denomination and the number of the deposited paper money, sends the denomination and the number to the processor, and is stored by the processor and displayed on the man-machine interaction interface for the customer to check and choose whether to confirm the correctness or not.
The processor simultaneously adjusts each bidirectional turning plate 8 to be at a first position 21, the communication mode is to isolate the cabinet entrance opening, the paper currency is continued to move along the paper currency channel 25, and adjusts a three-way caching turning plate 94 connected with the caching box 4 to be at a second position 22, the paper currency channel 25 is communicated with the cabinet entrance opening, and the paper currency is accessed into the caching box 4, so that the paper currency can be sent into the caching box 4 for temporary storage through the paper currency channel 25. While awaiting the results of the customer's selection.
If the customer confirms and selects to continue deposit, the processor adjusts the connection mode of the three-way buffer flap 94 connected to the buffer box 4 to be at the third position 23, so that the paper money is conveyed from the buffer box 4 to the downstream paper money channel 25 along the first direction, namely clockwise in fig. 4, and then conveyed to the intermediate conveying route 14 after being subjected to denomination and category identification again through the counting currency detector 3, and then enters a certain first cash cabinet 5 corresponding to the paper money and connected with the two-way flap 8 at the second position 22 through the two-way flaps 8 which are controlled and adjusted by the processor. The corresponding cash container 5 is preferably selected separately according to the denomination and type of banknote, so that the processor can more conveniently and easily find the banknote positioned to the desired denomination during the withdrawal operation.
In summary, the application discloses a modularized teller cash recycling machine and a cash recycling method for a bank customer to perform cash operation service by self, comprising an operation module 100, which is fastened and fixed above a cash storage module 200 and is connected with a cabinet top opening at the top of the cash storage module through at least one cabinet inlet opening at the bottom. When a customer needs to deposit paper money, the customer inputs a paper money depositing instruction on a human-computer interaction interface, the paper money depositing port 2 is opened for the customer to put paper money, the paper money is automatically sent to a cache box 4 for storage after being detected and counted by a counting paper money detector 3, and the processor stores and displays relevant data of the paper money deposited by the customer on the human-computer interaction interface, including denomination and quantity for the customer to confirm and select for decision; when the customer confirms that the banknote is correct and selects to deposit a banknote, the banknote will be moved into the first cash chest 5 for storage, and when the customer selects to not deposit a banknote, the banknote will be moved into the banknote outlet 1 for retrieval by the customer. And when the customer needs to take the banknote, the customer inputs a banknote taking instruction from the man-machine interaction interface, the modular teller cash recycling machine automatically sends out the banknote with full amount from the first cash cabinet 5, the banknote channel moves along the second direction, and the banknote passes through the banknote checking counter 3 and is sent to the banknote outlet 1 for the customer to pick up. According to the modularized teller cash recycling machine and the cash depositing and withdrawing method disclosed by the application, the operation module and the cash depositing module which are clamped and fixed up and down are arranged, so that the modularized teller cash recycling machine is convenient to install and disassemble, and in addition, the modularized teller cash recycling machine is easy to maintain and remove when faults such as paper jam occur.
It is to be understood that the application is not limited in its application to the examples described above, but is capable of modification and variation in light of the above teachings by those skilled in the art, and that all such modifications and variations are intended to be included within the scope of the appended claims.

Claims (10)

1. The modularized teller cash recycling machine is characterized by comprising an operation module, wherein the operation module is clamped and fixed above a cash storage module and is connected with a cabinet top opening at the top of the cash storage module through at least one cabinet inlet opening at the bottom;
The cash storage module comprises at least one first cash cabinet and at least one second cash cabinet; the operation module comprises a banknote storage port for a customer to put in banknotes, the banknote storage port is connected with a banknote channel, and a counting banknote detector is arranged along the banknote channel; the paper money channel is connected to the paper money outlet after sequentially passing through at least one bidirectional turning plate and at least one three-way turning plate from the paper money storage outlet to form a first direction;
The first cash cabinet is opposite to and connected with a first cabinet inlet opening at the bottom of the operation module through a first cabinet top opening at the top and is used for paper money to enter and exit;
The second cash cabinet positioned on the cash storage module is opposite to and connected with a second cabinet inlet opening at the bottom of the operation module through a second cabinet top opening at the top, and is used for paper money to enter and exit;
the bidirectional turning plate is positioned between the paper money channel and the first cabinet inlet opening;
When the bidirectional turning plate is at a first position, the first cabinet inlet opening is blocked, so that the paper currency continuously moves along the paper currency channel;
when the bidirectional turning plate is at the second position, the bidirectional turning plate obliquely turns up in the upstream direction, and the paper money channel is communicated to the first cabinet inlet opening along the lower surface of the turning-up part and enters the first cash cabinet through the first cabinet top opening;
the three-way turning plate is positioned between the paper money channel and the second cabinet inlet opening and comprises a paper money outlet three-way turning plate, a buffer storage three-way turning plate and a recycling three-way turning plate;
when the three-way turning plate is at the first position, the three-way turning plate seals the second cabinet inlet opening, so that the paper currency continues to move along the paper currency channel;
When the three-way turning plate is at the second position, the three-way turning plate obliquely turns up in the upstream direction, and the paper money channel is communicated to the second cash cabinet along the lower surface of the turned-up part;
When the three-way turning plate is at the third position, the three-way turning plate obliquely turns up in the downstream direction, the upstream paper money channel of the three-way turning plate is plugged, and the downstream paper money channel is communicated with the second cash cabinet along the lower surface of the turned-up part;
the second cash cabinet comprises a recycling box for recycling problematic paper money, a buffer box for temporarily storing paper money when the paper money is stored, and a paper money outlet;
The processor is connected with a human-computer interaction interface, controls the communication mode of the bidirectional turning plate and the three-way turning plate, and is also respectively connected with the banknote storage port, the banknote outlet and the counting banknote detector for exchanging data;
The counting currency detector comprises a counting module and a currency detecting module, wherein the currency detecting module is used for identifying and detecting authenticity of paper currency, and the counting module is used for counting the number of the paper currency and calculating total amount;
the upstream and the downstream are defined according to a first direction.
2. The modular teller cash recycling machine of claim 1, wherein said cabinet entrance opening is in a snap-fit connection with said cabinet top opening.
3. The modular teller cash recycling machine of claim 1, wherein the two-way flap and the three-way flap are each independently provided with a spindle, a plate body rotating around the spindle, and a driving member driving the plate body to rotate.
4. The modular teller cash recycling machine of claim 1, wherein the human-machine interface is a touch screen comprising a display module and an input module for displaying current operations to a customer and receiving instructions entered by the customer.
5. The modular teller cash recycling machine of claim 1, wherein said banknote path is a conveyor belt.
6. The modular teller cash recycling machine of claim 1, wherein said banknote path further includes at least one position sensor for detecting the position of a banknote.
7. A deposit method of a modular teller cash recycling machine according to any of claims 1 to 6, comprising:
a. The processor receives a banknote deposit instruction;
b. The processor controls the banknote storage port to be opened for a customer to pay banknotes;
c. the paper money put in passes through the paper money channel and is sent into the counting currency detector for identification, currency detection and counting;
d. the counting currency detector collects the denomination and the number of the paper money and sends the denomination and the number to the processor;
e. The processor adjusts each bidirectional turning plate to be in a first position, and seals the first cabinet inlet opening, so that the paper currency continuously moves along the paper currency channel;
f. The processor adjusts a buffer three-way turning plate connected with the buffer box to be positioned at the second position, and the buffer box is communicated with a paper money channel at the upstream of the buffer box and the buffer three-way turning plate through the second cabinet inlet opening, and paper money moves along a first direction through the paper money channel and is sent into the buffer box;
g. The processor stores and displays the denomination and the number of the paper money on the man-machine interaction interface for the client to check and select to confirm whether the paper money is correct or not.
8. The deposit method according to claim 7, characterized in that, when the customer selects to confirm correct, said step g further comprises, after:
h. The processor adjusts a three-way buffer turning plate connected to the buffer box to be in a third position, and communicates the buffer box with a paper money channel at the downstream of the three-way turning plate through the cabinet inlet opening, so that the paper money is conveyed from the buffer box to the paper money channel;
i. The processor adjusts the banknote channel to move along the first direction, and conveys the banknote to the position of one bidirectional turning plate after passing through the counting banknote identifier again;
j. The counting currency detector again identifies the denomination and the type of the paper money and sends the denomination and the type of the paper money to the processor;
k. The processor adjusts the bidirectional flap to a second position, corresponding to the banknote, to which a first cash container is connected, and communicates the banknote path with the first cash container through the container inlet opening so that the banknote is fed into the first cash container.
9. The deposit method according to claim 7, characterized in that, when the customer selects to confirm incorrect or cancel deposit of money, said step g further comprises, after:
hh. the processor adjusts a three-way buffer turning plate connected to the buffer box to be in a third position, and communicates the buffer box with a downstream paper money channel of the three-way turning plate through the cabinet inlet opening, so that the paper money is conveyed from the buffer box to the paper money channel;
The processor adjusts the banknote channel to move along a first direction, and conveys the banknote to a banknote outlet three-way turning plate connected with the banknote outlet;
jj. the processor adjusts the three-way paper money outlet turning plate to be in a second position, and communicates the paper money channel with the paper money outlet, so that the paper money is conveyed to the paper money outlet for being picked up by a customer.
10. A method of withdrawing money from a modular teller cash recycling machine according to any one of claims 1 to 6, comprising:
A. Inputting a banknote taking instruction from the man-machine interaction interface;
B. The processor controls the bidirectional flap to be in a second position and connects the first cash box and the paper money channel through the cabinet opening;
C. The processor controls the banknote path to move in a second direction opposite to the first direction, and sends out the banknote from the first cash cabinet to the operation module;
D. the paper money channel sends the paper money into the counting currency detector for counting and currency detection, and the counting result is fed back to the processor;
E. The processor controls the three-way cash-out turning plate to be in a third position, and the cash channel sends the cash into the cash-out port for a customer to take the cash.
CN201810971495.0A 2018-08-24 2018-08-24 Modularized teller cash recycling machine and cash depositing and withdrawing method Active CN109003387B (en)

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