CN107170145B

CN107170145B - Self-service deposit and withdrawal system

Info

Publication number: CN107170145B
Application number: CN201710292550.9A
Authority: CN
Inventors: 王应建; 赵子龙; 王秋雨
Original assignee: Shenzhen Yihua Computer Co Ltd; Shenzhen Yihua Time Technology Co Ltd; Shenzhen Yihua Financial Intelligent Research Institute
Current assignee: Shenzhen Yihua Computer Co Ltd; Shenzhen Yihua Time Technology Co Ltd; Shenzhen Yihua Financial Intelligent Research Institute
Priority date: 2017-04-27
Filing date: 2017-04-27
Publication date: 2021-02-02
Anticipated expiration: 2037-04-27
Also published as: CN107170145A

Abstract

The invention belongs to the technical field of automatic teller machines, and provides a self-service deposit and withdrawal system which comprises a cash door, a hub module, a cash distribution module and a transmission channel, wherein the transmission channel comprises a cash detection module and a plurality of nodes, the hub module is provided with a plurality of sub-bins, when a user deposits cash, the self-service deposit and withdrawal system opens the cash door to receive the cash, the cash enters the hub module and is transmitted along with the rotation of the hub module, and after being transmitted to the cash detection module through the cash distribution module and the transmission channel to be verified and identified, the identifiable cash finally enters a cash storage box; when a user withdraws money, the paper money is transmitted to the money detecting module from the money storing box to be verified and identified, and then transmitted to the hub module, and the hub module rotates and the self-service money depositing and withdrawing system opens the money door so that the paper money is taken out. Therefore, the hub module rotates around the axis center point and transmits the paper money, so that the transmission time of the paper money is effectively shortened, and the experience of a user is improved; meanwhile, the space structure is saved, so that the structure of the whole machine is more compact.

Description

Self-service deposit and withdrawal system

Technical Field

The invention belongs to the technical field of automatic teller machines, and particularly relates to a self-service deposit and withdrawal system.

Background

An Automatic Teller Machine (ATM) is a small Machine installed at different places in a bank, and a tape on a credit card is used to record basic account information (usually, a bank card) of a customer, so that the customer can perform bank counter services such as withdrawal, deposit, transfer and the like through the Machine.

However, in the core structure of the existing ATM system, usually, the customer receiving portion and the temporary storage portion are respectively designed with a banknote sorting mechanism to realize respective functions, so that the whole structure is not compact, the banknote transmission path is long, the problems of complex mechanism, high failure rate and high cost occur, and the user experience is reduced.

Therefore, the existing automatic teller machine control technology has the problems that the whole machine structure is not compact and the paper money transmission path is long due to the fact that the customer receiving part and the temporary storage part are respectively provided with the paper money separating mechanism, and therefore the operation efficiency is low and the user experience is reduced.

Disclosure of Invention

The invention aims to provide a self-service deposit and withdrawal system, and aims to solve the problems of low operation efficiency and reduced user experience caused by the fact that a whole machine structure is not compact and a paper money transmission path is long due to the fact that a customer receiving part and a temporary storage part are respectively provided with a paper money separating mechanism in the existing automatic teller machine control technology.

The invention provides a self-service depositing and withdrawing system, which comprises:

the cash dispenser comprises a cash door, a hub module, a cash distributing module and a transmission channel;

the transmission channel comprises a currency detection module and a plurality of nodes; the wheel hub module is connected with the banknote door and the banknote sorting module;

the hub module is provided with a plurality of sub-bins, wherein the sub-bins comprise a temporary storage bin, a paper money rejecting bin and a passenger receiving bin, and the sub-bins are used for storing paper money and rotate along the axis point;

the self-service deposit and withdrawal system is used for processing the paper money and specifically comprises the following steps:

when depositing or withdrawing, the self-service deposit and withdrawal system opens the banknote door to receive or withdraw the banknotes, and the hub module is used for transmitting the banknotes in a manner of rotating around the axial center point and distributing the banknotes through the banknote distribution module; the currency detecting module is used for verifying and identifying the paper currency, and the transmission channel is used for transmitting the paper currency.

In conclusion, the invention provides a self-service deposit and withdrawal system, which comprises a banknote door, a hub module, a banknote distribution module and a transmission channel, wherein the transmission channel comprises a banknote detection module and a plurality of nodes, the hub module is provided with a plurality of sub-bins comprising a temporary storage bin, a banknote rejecting bin and a guest receiving bin, when a user deposits, the self-service deposit and withdrawal system opens the banknote door to receive banknotes, the banknotes enter the hub module and are transmitted along with the rotation of the hub module, and after being transmitted to the banknote detection module through the banknote distribution module and the transmission channel for verification and identification, the identifiable banknotes enter a banknote storage box; when a user withdraws money, the paper money is transmitted to the money detection module from the money storage box, and is transmitted to the hub module after being verified by the money detection module, and the hub module rotates and the self-service money depositing and withdrawing system opens the money door so that the paper money is taken out. Therefore, the hub module rotates around the axis center point and transmits the paper money, so that the transmission time of the paper money is effectively shortened, and the experience of a user is improved; meanwhile, the space structure is saved, the whole machine structure is more compact, and the problems that the whole machine structure is not compact and the paper money transmission path is long due to the fact that the customer receiving part and the temporary storage part are respectively provided with the paper money separating mechanism in the existing automatic teller machine control technology, and accordingly the operation efficiency is low and the user experience is reduced are solved.

Drawings

Fig. 1 is a schematic structural diagram of a self-service deposit and withdrawal system according to an embodiment of the present invention.

In the drawings:

101. a bill door; 102. a hub module; 1021. a passenger receiving bin; 1022. a temporary storage bin; 1023. a bank note rejecting bin; 103. a banknote sorting module; 104. a currency detecting module; 105. a transmission channel; 1051. a first node; 1052. a second node; 1053. a third node; 1054. a fourth node; 1055. a fifth node; 106. an upper channel; 1061. a sixth node; 107. a lower channel; 1071. a seventh node; 1072. an eighth node; 1073. a ninth node; 1074. a tenth node; 1075. an eleventh node; 108. forget to take back the box; 1091. a first circulating money box; 1092. a second circulating money box; 1093. a third circulating money box; 1094. a fourth circulating money box; 110. a waste paper money box.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The self-service deposit and withdrawal system provided by the invention has a compact structure and a simple path, and can divide the bins through the hub module, so that the defect that an independent banknote dividing mechanism is required to be designed when banknotes enter and exit the temporary storage module and the receiving module in the traditional machine core is overcome, the use efficiency of equipment is effectively increased, and the effects of simplifying the mechanism design, reducing the cost, reducing the failure rate and the like are achieved.

Fig. 1 shows a specific structure of a self-service deposit and withdrawal system according to an embodiment of the present invention, and for convenience of description, only the parts related to the embodiment of the present invention are shown, and detailed descriptions are as follows:

the self-service deposit and withdrawal system comprises:

the banknote door 101, the hub module 102, the banknote sorting module 103 and the transmission channel 105;

the transmission channel 105 includes a banknote validation module 104 and a plurality of nodes; the hub module 102 is connected with the banknote door 101 and the banknote sorting module 103;

the hub module 102 is provided with a plurality of sub-bins, including a temporary storage bin 1022, a banknote rejecting bin 1023 and a passenger receiving bin 1021, wherein the plurality of sub-bins are used for storing banknotes and rotate along the axial center point;

during deposit or withdrawal, the self-service deposit and withdrawal system opens the banknote door 101 to receive or withdraw banknotes, and the hub module 102 is used for transmitting the banknotes in a manner of rotating around a shaft center point and distributing the banknotes through the banknote distribution module 103; the banknote validating module 104 is used for validating and identifying banknotes, and the transport channel 105 is used for transporting banknotes.

The structure of the hub module 102 is a cylindrical hub, the center of the hub module 102 is an axial center point, the whole hub module 102 can rotate around the axial center point, the hub module 102 is provided with a plurality of sub-bins along the circumferential direction, and each sub-bin can be used for conveying paper money; meanwhile, the hub module 102 transmits the paper money in a mode of rotating around the axis center point, so that the transmission time of the paper money is shortened, and the structure of the whole machine system is more compact.

As an embodiment of the present invention, the plurality of nodes include a first node 1051, a second node 1052, a third node 1053, a fourth node 1054, and a fifth node 1055, where each node is provided with a commutator, and the commutator is used to turn on or off the corresponding node;

the banknote sorting module 103 is connected to the banknote checking module 104 through the first node 1051 and the second node 1052 in sequence, and the banknote checking module 104 is connected to the hub module 102 through the third node 1053, the fourth node 1054 and the fifth node 1055 in sequence.

As an embodiment of the present invention, the self-service deposit and withdrawal system further includes:

an upper channel 106 and a lower channel 107;

the upper passage 106 is provided with a sixth node 1061, and the lower passage 107 is provided with a seventh node 1071, an eighth node 1072, a ninth node 1073, a tenth node 1074, and an eleventh node 1075 in sequence;

the sixth node 1061 is connected to both the second node 1052 and the third node 1053; the sixth node 1061 of the upper gallery 106 is connected to the seventh node 1071 of the lower gallery 107.

forget to take back the collection box 108, the waste cash box 110 and a plurality of circulating cash boxes;

the left-behind collection box 108 is connected with the fourth node 1054, the waste banknote box 110 is connected with the tenth node 1074, and the plurality of circulating banknote boxes are respectively connected with the seventh node 1071, the eighth node 1072, the ninth node 1073 and the eleventh node 1075;

the left-behind collection box 108 is used for storing banknotes that the customer has forgotten to take out, the recycling cassettes are used for storing recognizable banknotes, and the waste cassette 110 is used for storing unidentifiable banknotes.

As an embodiment of the present invention, the recognizable banknote is specifically a flat and clean banknote, that is, a banknote that can be circulated; the unrecognizable paper money specifically comprises stains, stacked corners, damages, excessive bending, written handwriting, oil-immersed paper money or counterfeit paper money, namely paper money which cannot be circulated circularly, and the self-service deposit and withdrawal system cannot recognize the paper money.

As an embodiment of the present invention, if a deposit instruction is received, the self-service teller system opens the banknote door 101, puts the banknote into the receiving bin 1021 in the hub module 102 and closes the banknote door 101, controls the hub module 102 to rotate clockwise to enable the receiving bin 1021 to be located right above the banknote sorting module 103, and transmits the banknote to the banknote checking module 104 after sequentially passing through the banknote sorting module 103 and the transmission channel 105, so that the banknote checking module 104 performs verification and identification on the banknote.

As an embodiment of the present invention, after the banknote checking module 104 verifies and identifies the banknote, the method further includes:

the self-service deposit and withdrawal system transmits the recognizable paper money to a temporary storage bin 1022 of the hub module 102 after sequentially passing through a third node 1053, a fourth node 1054 and a fifth node 1055, after a user confirms the number and the amount of the deposited paper money, the hub module 102 is controlled to rotate clockwise to enable the temporary storage bin 1022 to be positioned right above the money dividing module 103, the paper money is transmitted to the money detecting module 104 for re-verification and recognition after sequentially passing through the money dividing module 103 and the transmission channel 105, and then the paper money is transmitted to the lower channel 107 through a sixth node 1061 to enable the recognizable paper money to be transmitted to the circulating money box;

or comprises the following steps:

the self-service depositing and withdrawing system transmits the unidentifiable paper money to the paper money rejecting bin 1023 of the hub module 102 after passing through the third node 1053, the fourth node 1054 and the fifth node 1055 in sequence, controls the hub module 102 to rotate clockwise so that the paper money rejecting bin 1023 is positioned right below the paper money door 101, and opens the paper money door 101 so that the unidentifiable paper money can be taken out.

As an embodiment of the present invention, if receiving a withdrawal instruction, the self-service deposit and withdrawal system passes the banknotes stored in the circulating banknote cassette through the lower channel 107 and then enters the upper channel 106, passes through the sixth node 1061 and the second node 1052, and then transmits the banknotes to the banknote checking module 104 for verification and identification, transmits the recognizable banknotes to the hub module 102 after passing through the third node 1053, the fourth node 1054, and the fifth node 1055 in sequence, transmits the unrecognizable banknotes to the temporary storage bin 1022 of the hub module 102 after passing through the third node 1053, the fourth node 1054, and the fifth node 1055 in sequence, and outputs the banknotes to the waste banknote cassette 110 after passing through the sixth node 1061 and the lower channel 107 in sequence after the banknotes are sorted by the banknote sorting module 103.

As an embodiment of the present invention, if the self-service deposit and withdrawal system detects that there is a banknote in the sub-compartment of the hub module 102 within a preset time, the self-service deposit and withdrawal system controls the hub module 102 to rotate clockwise, so that the banknote is sequentially transmitted to the banknote checking module 104 through the banknote depositing and withdrawal module 103, the first node 1051, and the second node 1052, for performing banknote checking counting, and then sequentially transmitted to the left-to-retrieve receiving box 108 through the third node 1053 and the fourth node 1054.

As an embodiment of the present invention, the plurality of recycling cassettes include a first recycling cassette 1091, a second recycling cassette 1092, a third recycling cassette 1093, and a fourth recycling cassette 1094;

the first circulating cash box 1091 is connected with the seventh node 1071, the second circulating cash box 1092 is connected with the eighth node 1072, the third circulating cash box 1093 is connected with the ninth node 1073, and the fourth circulating cash box 1094 is connected with the eleventh node 1075;

the first recycle cash box 1091 is used for storing the paper money with the denomination of 10 yuan, the second recycle cash box 1092 is used for storing the paper money with the denomination of 20 yuan, the third recycle cash box 1093 is used for storing the paper money with the denomination of 50 yuan, and the fourth recycle cash box 1094 is used for storing the paper money with the denomination of 100 yuan. Of course, not limited to the above, the phenomenon of mixed storage can also be realized in each circulation cash box, for example: the first recycling cassette 1091 can store 10-yuan and 20-yuan bills or 50-yuan and 100-yuan bills, and thus, the denomination and the type of bills stored in each recycling cassette can be set according to the user's needs.

The working principle of the self-service deposit and withdrawal system is described in the following with reference to fig. 1:

1. deposit transport path capable of identifying paper money

When a customer deposits money, the money door 101 is opened, the customer stores paper money into the receiving bin 1021 of the hub module 102, the whole hub module 102 rotates, the system is arranged, when the receiving bin 1021 rotates to the butting position of the money distribution module 103 (namely, the position is right above the money distribution module 103), the receiving bin 1021 is opened, the paper money enters the money distribution module 103 and is pushed to the position of the money distribution wheel through the pushing action of the pushing plate to distribute the money, the paper money distributed enters the money detection module 104 to detect the money, recognizable paper money sequentially passes through the third node 1053, the fourth node 1054 and the fifth node 1055 and enters the temporary storage bin 1022 of the hub module 102, when the customer confirms the deposit quantity and the amount, the temporary storage bin 1022 is opened by controlling the rotation of the hub module 102, when the temporary storage bin 1022 is butted with the money distribution module 103, the paper money enters the money detection module 103 and enters the money detection module 104 again, the banknote is transported to the sixth node 1061, into the upper channel 106, through the transport action of the upper channel 106, into the lower channel 107 and to the recycling bin.

2. Paper money returning transmission path capable of not identifying paper money

After the currency detection module 104 detects the currency, the unidentifiable currency enters the currency returning path through the third node 1053 and enters the currency rejecting bin 1023 through the fourth node 1054, the hub module 102 rotates under the control of the system, the currency rejecting bin 1023 is rotated to the position of the currency door, the currency door 101 is opened, and the customer takes the unidentifiable currency away.

3. Paper money moving path capable of identifying paper money during drawing

When a customer withdraws money, paper money is conveyed from the circulating cash box to the lower channel 107, enters the upper channel 106 through the transmission of the lower channel 107, sequentially passes through the sixth node 1061 and the second node 1052, and then enters the money detection module 104 for detecting the money, recognizable paper money sequentially passes through the third node 1053, the fourth node 1054 and the fifth node 1055 and then enters the customer receiving bin 1021 in the hub module 102, at the moment, the hub module 102 rotates, when the customer receiving bin 1021 rotates to the position of the cash door 101, the cash door 101 is opened, and the customer takes the paper money.

4. Banknote-feeding path for recovering unidentifiable banknotes during withdrawal

When a customer withdraws money, after paper money coming out of the circulating paper money box enters the money detection module 104, unidentifiable paper money sequentially passes through the third node 1053, the fourth node 1054 and the fifth node 1055 and then enters the temporary storage bin 1022 of the hub module 102, at the moment, the hub module 102 rotates, when the temporary storage bin 1022 rotates to be right above the money distribution module 103, the push plate is opened, the unidentifiable paper money in the temporary storage bin 1022 passes through the money distribution module 103 to be subjected to money distribution, then passes through the transportation function of the upper channel 106 and then enters the lower channel 107, at the moment, the commutators of the seventh node 1071, the eighth node 1072, the ninth node 1073 and the eleventh node 1075 are closed, the commutators at the tenth node 1074 are opened, and the paper money enters the waste paper money box 110 to realize recycling.

5. Withdrawal forgotten-to-take paper money recycling transmission path

When a customer withdraws money and forgets to take the money, the paper money left in the receiving bin 1021 rotates along with the rotation of the hub module 102, enters the money distribution module 103 for money distribution, enters the money detection module 104 for money detection and counting through the transportation of the first node 1051 and the second node 1052, and enters the forgetting and taking receiving box 108 through the third node 1053 and the fourth node 1054. Therefore, when the customer forgets to withdraw the money, the banknotes are transferred to the forgetting-to-take-back receiving box 108, and of course, there may be banknotes in the banknote rejecting bin 1023.

In summary, the embodiment of the present invention provides a self-service deposit and withdrawal system, which includes a banknote door, a hub module, a banknote distribution module and a transmission channel, wherein the transmission channel includes a banknote detection module and a plurality of nodes, the hub module is provided with a plurality of sub-bins, including a temporary storage bin, a banknote reject bin and a guest receiving bin, when a user deposits a banknote, the self-service deposit and withdrawal system opens the banknote door to receive the banknote, the banknote enters the hub module and is transmitted along with the rotation of the hub module, and is transmitted to the banknote detection module through the banknote distribution module and the transmission channel to be verified and identified, and the identifiable banknote finally enters the banknote storage box; when a user withdraws money, the paper money is transmitted to the money detection module from the money storage box, and is transmitted to the hub module after being verified by the money detection module, and the hub module rotates and the self-service money depositing and withdrawing system opens the money door so that the paper money is taken out. Therefore, the hub module rotates around the axis center point and transmits the paper money, so that the transmission time of the paper money is effectively shortened, and the experience of a user is improved; meanwhile, the space structure is saved, the whole machine structure is more compact, and the problems that the whole machine structure is not compact and the paper money transmission path is long due to the fact that the customer receiving part and the temporary storage part are respectively provided with the paper money separating mechanism in the existing automatic teller machine control technology, and accordingly the operation efficiency is low and the user experience is reduced are solved.

Those of ordinary skill in the art will understand that: the steps or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, the program may be stored in a computer-readable storage medium, and when executed, the program performs the steps including the above method embodiments, and the storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will 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 technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A self-service deposit and withdrawal system, characterized in that the self-service deposit and withdrawal system comprises:

when depositing or withdrawing, the self-service deposit and withdrawal system opens the banknote door to receive or withdraw the banknotes, and the hub module is used for transmitting the banknotes in a manner of rotating around the axial center point and distributing the banknotes through the banknote distribution module; the currency detecting module is used for verifying and identifying the paper currency, and the transmission channel is used for transmitting the paper currency;

the currency examine module is right after the discernment is verified to paper currency, still include:

the self-service deposit and withdrawal system transmits unidentifiable paper money to the paper money rejecting bin of the hub module, the hub module is controlled to rotate clockwise to enable the paper money rejecting bin to be located right below the paper money door, and the paper money door is opened so that the unidentifiable paper money can be taken out;

the self-service money depositing and withdrawing system also comprises a plurality of circulating money boxes, wherein the circulating money boxes comprise a first circulating money box, a second circulating money box, a third circulating money box and a fourth circulating money box;

the first circulating money box is used for storing paper money with a face value of 10 yuan, the second circulating money box is used for storing paper money with a face value of 20 yuan, the third circulating money box is used for storing paper money with a face value of 50 yuan, and the fourth circulating money box is used for storing paper money with a face value of 100 yuan;

if a withdrawal instruction is received, the self-service deposit and withdrawal system enables the paper money stored in the circulating paper money box to enter the upper channel after passing through the lower channel, and transmits the paper money to the money detection module for verification and identification after passing through the sixth node and the second node, transmits recognizable paper money to the passenger receiving bin of the hub module after sequentially passing through the third node, the fourth node and the fifth node, transmits unidentifiable paper money to the temporary storage bin of the hub module after sequentially passing through the third node, the fourth node and the fifth node, divides the paper money through the money division module, and outputs the paper money to the waste paper money box after sequentially passing through the sixth node and the lower channel;

the plurality of nodes comprise a first node, a second node, a third node, a fourth node and a fifth node, each node is provided with a commutator, and the commutators are used for conducting or closing the corresponding nodes;

the money distribution module is connected with the money detection module after sequentially passing through the first node and the second node, and the money detection module is connected with the hub module after sequentially passing through the third node, the fourth node and the fifth node;

the self-service deposit and withdrawal system further comprises:

an upper channel and a lower channel;

the upper channel is provided with a sixth node, and the lower channel is sequentially provided with a seventh node, an eighth node, a ninth node, a tenth node and an eleventh node;

the sixth node is connected with the second node and the third node; the sixth node of the upper channel is connected with the seventh node of the lower channel.

2. The self-service depositing and dispensing system of claim 1, wherein: the self-service deposit and withdrawal system further comprises:

forgetting to take back the collection box, the waste paper money box and the plurality of circulating paper money boxes;

the left-behind collection box is connected with the fourth node, the waste money box is connected with the tenth node, and the plurality of circulating money boxes are respectively connected with the seventh node, the eighth node, the ninth node and the eleventh node;

the left-to-take collection box and the plurality of circulating paper money boxes are used for storing identifiable paper money, and the waste paper money box is used for storing unidentifiable paper money.

3. The self-service depositing and dispensing system of claim 2,

if receiving the deposit instruction, the self-service deposit and withdrawal system opens the paper money door, will paper currency is deposited in connect the guest storehouse and close in the wheel hub module the paper money door, control wheel hub module clockwise rotates so that connect the guest storehouse to be located divide the paper money module directly over, and will paper currency passes through according to the preface divide the paper money module with transmit behind the transmission path and transmit for the currency examine module, so that the currency examine module is right paper currency is verified the discernment.

4. The self-service depositing and dispensing system of claim 3, wherein the banknote validating module, after validating and identifying the banknote, further comprises:

the self-service money depositing and withdrawing system transmits recognizable paper money to a temporary storage bin of the hub module after passing through the third node, the fourth node and the fifth node in sequence, controls the hub module to rotate clockwise so that the temporary storage bin is positioned right above the money distribution module, transmits the paper money to the money detection module after passing through the money distribution module and the transmission channel in sequence to perform secondary verification and identification, and transmits the paper money to the lower channel through the sixth node so that the recognizable paper money is transmitted to the circulating money box.

5. The self-service depositing and dispensing system of claim 2, wherein:

if the self-service deposit and withdrawal system detects that paper currency exists in the sub-bin of the wheel hub module within the preset time, the self-service deposit and withdrawal system controls the wheel hub module to rotate clockwise, so that the paper currency sequentially passes through the paper currency distribution module, the first node and the second node and is transmitted to the paper currency examination module to carry out currency examination counting, and sequentially passes through the third node and the fourth node and is transmitted to the box which is forgotten to take back to receive the paper currency.

6. The self-service depositing and dispensing system of claim 2, wherein: the plurality of circulating money boxes comprise a first circulating money box, a second circulating money box, a third circulating money box and a fourth circulating money box;

the first circulating money box is connected with the seventh node, the second circulating money box is connected with the eighth node, the third circulating money box is connected with the ninth node, and the fourth circulating money box is connected with the eleventh node.