CN108573564B - Paper money processing device and paper money processing method - Google Patents

Abstract

The invention relates to financial self-service equipment and discloses a paper money processing device and a paper money processing method. The paper money processing device comprises a paper money processing assembly, a paper money receiving assembly and a paper money conveying channel; the paper money processing assembly and the paper money receiving assembly are sequentially arranged along a first preset direction; the paper money receiving assembly comprises a filling box and a receiving box; the paper money processing component comprises a paper money outlet, a paper money inlet, a temporary storage mechanism, an identification mechanism and a reject box; the coin inlet and outlet, the temporary storage mechanism and the recognition mechanism are all positioned on one side of the reject box in the second preset direction; the second preset direction is vertical to the first preset direction; the paper currency conveying channel is used for conveying paper currency between the paper currency processing assembly and the paper currency receiving assembly. Compared with the paper money processing device in the related art, the paper money processing device disclosed by the invention can reduce the frequency of cleaning the reject box and reduce the workload of a user.

Description

Paper money processing device and paper money processing method

Technical Field

The invention relates to financial self-service equipment, in particular to a paper money processing device and a paper money processing method.

Background

Fig. 1 is a schematic structural view of a banknote handling apparatus provided in the related art, and as shown in fig. 1, the banknote handling apparatus includes an inlet and outlet mechanism 1', a recognition mechanism 2', a temporary storage mechanism 3', a reject box 4', a loading box 5', and four storage boxes 6', the recognition mechanism 2' is provided at an intermediate position of an upper portion of the apparatus, and the recognition mechanism 2' is provided on an annular passage 11' for recognizing banknotes; the inlet and outlet mechanism 1' is arranged in front of the upper part of the device, and the inlet and outlet mechanism 1' is communicated with the annular channel 11' through a conveying channel and is used for receiving and discharging paper money; the temporary storage mechanism 3 'and the reject box 4' are arranged at the rear of the upper part of the device and are arranged along the up-down direction, wherein the temporary storage mechanism 3 'is communicated with the annular channel 11' through a conveying channel and is used for temporarily storing paper money, and the reject box 4 'is used for accommodating the paper money which is judged to be rejected after being identified by the identification mechanism 2'; four storage boxes 6' and a filling box 5' are arranged in the lower portion of the apparatus in the front-to-rear direction, wherein the three storage boxes 6' communicate with the endless path 11' through respective circulation paths, the reject box 4', the filling box 5', and the storage boxes 6' communicate with the endless path 11' through a common path 12 '.

The banknote handling apparatus is problematic in that since the reject box 4' and the buffer mechanism 3' are stacked vertically behind the upper portion of the apparatus, the design size of the reject box 4' is limited due to the space above the apparatus, resulting in a small design capacity of the reject box 4', and thus frequent machine halt is required to clean the reject box 4', which severely affects the efficiency of use of the banknote handling apparatus and increases the workload of the user.

Disclosure of Invention

The present invention is directed to overcome the disadvantages of the prior art and to provide a paper money handling apparatus capable of obtaining a reject box having a large capacity without increasing the overall size of the apparatus, thereby increasing the capacity of the reject box, reducing the frequency of cleaning the reject box, and reducing the workload of a user.

Another object of the present invention is to provide a banknote handling method using the above banknote handling apparatus.

The embodiment of the invention is realized by the following technical scheme:

the paper money processing device comprises a paper money processing assembly, a paper money receiving assembly and a paper money conveying channel; the paper money processing assembly and the paper money receiving assembly are sequentially arranged along a first preset direction; the paper money receiving assembly comprises a filling box and a receiving box; the paper money processing component comprises a paper money outlet, a paper money inlet, a temporary storage mechanism, an identification mechanism and a reject box; the coin inlet and outlet, the temporary storage mechanism and the recognition mechanism are all positioned on the same side of the reject box in the second preset direction; the second preset direction is vertical to the first preset direction; the paper currency conveying channel is used for conveying paper currency between the paper currency processing assembly and the paper currency receiving assembly.

Preferably, the first preset direction is a vertical direction, and the second preset direction is a horizontal direction.

Preferably, the temporary storage mechanism and the recognition mechanism are positioned on the same side of the reject box in the second preset direction; the temporary storage mechanism and the recognition mechanism are sequentially arranged along a first preset direction.

Preferably, the reject box, the temporary storage mechanism and the coin inlet and outlet are arranged in sequence along a second preset direction.

Preferably, the recognition mechanism is provided on the bill conveying path; the coin inlet and outlet port is connected with the paper money conveying channel through the inlet and outlet channel; the temporary storage mechanism is connected with the paper money conveying channel through a temporary storage channel; the reject box is connected with the paper money conveying channel through a reject channel; the filling box is connected with the paper money conveying channel through a filling channel; the storage box is connected with the paper money conveying channel through the storage channel.

Preferably, the paper money conveying channel comprises an annular channel and a main channel, and two ends of the main channel are respectively connected with the annular channel; the identification mechanism is arranged on the annular channel; the inlet and outlet channel is connected with the annular channel; the temporary storage channel, the reject channel, the filling channel and the accommodating channel are respectively connected with the main channel.

Preferably, the coin inlet and outlet comprise a coin inlet and a coin outlet, and the coin inlet and outlet channel comprises a coin inlet path and a coin outlet path; the coin inlet is connected with the annular channel through a coin inlet path; the coin outlet is connected with the annular channel through a coin outlet path.

Preferably, on the annular channel, the connection point of the access channel with the annular channel, the connection point of the first end of the main channel with the annular channel, the identification means, the connection point of the second end of the main channel with the annular channel are arranged in sequence.

Preferably, on the main channel, a connection point of the temporary storage channel and the main channel, a connection point of the reject channel and the main channel, a connection point of the filling channel and the main channel, and a connection point of the receiving channel and the main channel are arranged in sequence.

Preferably, the banknote transport path further comprises a connecting path; the first end of the connecting channel is connected with the annular channel; the second end of the connecting channel is connected with the main channel, and the connecting point of the connecting channel and the main channel is positioned between the connecting point of the rejecting channel and the main channel and the connecting point of the filling channel and the main channel on the main channel.

The paper currency processing method is realized based on any one of the paper currency processing devices; the banknote processing method includes at least one of the following steps:

deposit counting: the paper money in the paper money outlet and inlet enters the paper money conveying channel through the paper money inlet and outlet channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the temporary storage channel along the paper money conveying channel and enters the temporary storage mechanism along the temporary storage channel; the paper money identified as unqualified by the identification mechanism continues to enter the inlet and outlet channel along the paper money conveying channel and enters the inlet and outlet coin inlet through the inlet and outlet channel;

deposit storage step: the paper money in the temporary storage mechanism enters the paper money conveying channel through the temporary storage channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the filling channel or the receiving channel along the paper money conveying channel; when the paper money enters the receiving channel, the paper money in the receiving channel enters the receiving box along the receiving channel, and when the paper money enters the filling channel, the paper money in the filling channel enters the filling box along the filling channel; the paper money identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enter the reject box along the reject channel;

withdrawing money: the paper money in the storage box enters the paper money conveying channel through the storage channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the in-out channel along the paper money conveying channel and enters the in-out coin inlet along the in-out channel; the paper money identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enter the reject box along the reject channel;

filling: the paper money in the filling box enters the paper money conveying channel through the filling channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the storage channel along the paper money conveying channel and enters the storage box along the storage channel; the paper money identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enter the reject box along the reject channel;

filling and recovering: the paper money in the storage box enters the paper money conveying channel through the storage channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the filling channel along the paper money conveying channel and enters the filling box along the filling channel; the paper money identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enter the reject box along the reject channel;

filling and withdrawing steps: the paper money in the filling box enters the paper money conveying channel through the filling channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the in-out channel along the paper money conveying channel and enters the in-out coin inlet along the in-out channel; the paper money identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enter the reject box along the reject channel;

forgetting to recover: the paper money in the paper money outlet and inlet enters the paper money conveying channel through the paper money inlet and outlet channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper currency passing through the recognition mechanism continues to enter the reject channel along the paper currency conveying channel and enters the reject box along the reject channel.

The technical scheme of the invention at least has the following advantages and beneficial effects:

according to the paper money processing device provided by the invention, the paper money receiving assembly and the paper money processing assembly are sequentially arranged along a first preset direction, the paper money outlet and inlet, the temporary storage mechanism and the recognition mechanism are all positioned on one side of the reject box in a second preset direction, and the second preset direction is vertical to the first preset direction. It can obtain a reject box with a large capacity without increasing the overall size of the apparatus, to reduce the frequency of cleaning the reject box, and to reduce the workload of a user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a banknote handling apparatus provided in the related art;

FIG. 2 is a schematic structural diagram of a banknote handling apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a conveying channel according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an annular channel provided in an embodiment of the present invention;

FIG. 5 is a schematic view of a banknote handling apparatus according to an embodiment of the present invention during deposit counting;

FIG. 6 is a schematic view of a banknote handling apparatus according to an embodiment of the present invention during deposit receipt;

fig. 7 is a schematic view of a banknote handling apparatus according to an embodiment of the present invention during withdrawal;

FIG. 8 is a schematic view of a banknote handling apparatus according to one embodiment of the present invention during loading;

FIG. 9 is a schematic view of a banknote handling apparatus according to an embodiment of the present invention in a loading and retrieving process;

FIG. 10 is a schematic view of a banknote handling apparatus according to an embodiment of the present invention during a withdrawal process;

fig. 11 is a schematic diagram illustrating a banknote handling apparatus according to an embodiment of the present invention when the banknote handling apparatus forgets to retrieve the banknote.

Icon: 1' -an inlet-outlet mechanism; 2' -an identification mechanism; 3' -temporary storage mechanism; 4' -reject bin; 5' -filling box; 6' -a storage box; 11' -a circular channel; 12' -a common channel; 10-banknote handling devices; 11-a banknote handling assembly; 12-a banknote receiving assembly; 110-coin in and out ports; 111-coin inlet; 112-coin outlet; 120-temporary storage mechanism; 130-an identification mechanism; 140-reject box; 150-a storage box; 160-a filling box; 200-banknote transport channels; 210-an annular channel; 220-a main channel; 211-a first branching channel; 212-a second branching channel; 213-third branch channel; 214-fourth branch channel; 215-fifth branching channel; 221-a first path; 222-a second path; 223-a third path; 224-a fourth path; 230-an access channel; 231-coin-in path; 232-coin out path; 233-temporary storage channel; 234-reject lane; 235-a loading channel; 236-a receiving channel; 240-connecting the channels.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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 invention.

It should be noted that the embodiments of the present invention and the features and technical solutions thereof may be combined with each other without conflict.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "first", "second", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance.

Referring to fig. 2, fig. 2 shows a specific structure of the banknote handling apparatus 10 provided in the embodiment. As can be seen in fig. 2, the banknote handling apparatus 10 includes a banknote handling assembly 11, a banknote storage assembly 12 and a banknote transport path 200.

As can also be seen in FIG. 2, the banknote storage assembly 12 includes a storage bin 150 and a loading bin 160, and the banknote handling assembly 11 includes an input and output slot 110, a escrow mechanism 120, a recognition mechanism 130 and a reject bin 140.

The banknote handling unit 11 and the banknote storage unit 12 are sequentially arranged in a first predetermined direction, and the banknote inlet/outlet 110, the temporary storage mechanism 120 and the recognition mechanism 130 are located on one side of the reject box 140 in a second predetermined direction. The second preset direction is perpendicular to the first preset direction. In this embodiment, the first predetermined direction is an up-down direction indicated by an arrow in the figure, i.e. a vertical direction; the second predetermined direction is a front-back direction indicated by arrows in the drawing, i.e., a horizontal direction.

Specifically, please refer to fig. 2, wherein the coin inlet/outlet 110 is used for the user to insert or take out the paper money; the temporary storage mechanism 120 is used for temporarily storing paper money; the recognition mechanism 130 can recognize and record the denomination, currency, authenticity, and state of the paper money, wherein when the paper money is recognized as genuine, the paper money is classified into reject money and normal money according to the state of the paper money recognized by the recognition mechanism 130, wherein the paper money which is not suitable for circulation and has not satisfied requirements such as damage degree, old and new degree, version, etc. is judged as reject money, and the paper money which is suitable for continuous circulation and has satisfied requirements such as damage degree, old and new degree, version, etc. is judged as normal money (normal money is also called as qualified paper money, reject money and counterfeit money is also called as unqualified paper money); the reject box 140 is used to receive unqualified bills; the storage box 150 is used for storing or outputting paper money according to currency; the loading box 160 is used to replenish the storage box 150 with bills. The loading box 160 may also be used as the storage box 150 for loading banknotes when the storage box 150 is full. The loading box 160 may also be used to count and sort the banknotes in each storage box 150. In this embodiment, four storage boxes 150 are provided in parallel.

The escrow mechanism 120 and the recognition mechanism 130 are disposed at the middle of the upper portion of the apparatus, and are arranged at intervals in the vertical direction, and the reject box 140 is disposed at the rear of the upper portion of the apparatus. The plurality of storage boxes 150 and the loading box 160 are provided at the lower portion of the banknote handling apparatus 10, and are arranged in order in the front-rear direction.

Note that, in the present embodiment, the banknote handling unit 11 and the banknote storage unit 12 are preferably arranged in a vertical direction; the slot 110, the escrow mechanism 120, and the recognition mechanism 130 are preferably disposed on the same side of the reject box 140 in the horizontal direction.

In the present embodiment, by disposing the coin inlet 110, the temporary storage mechanism 120, and the recognition mechanism 130 on one side of the reject box 140, the reject box 140 with a large capacity can be obtained without increasing the overall size of the banknote processing apparatus 10, so as to increase the capacity of the banknote processing apparatus 10 for storing unqualified banknotes, delay the interval time after the banknote processing apparatus 10 cleans the reject box 140, avoid the situation that the banknote processing apparatus 10 is suspended for use due to the fact that the reject box 140 is full of unqualified banknotes, and influence the user experience, and reduce the cleaning frequency of the reject box 140 and the maintenance cost while reducing the workload of the user because the interval time after cleaning the reject box 140 is prolonged.

It should be noted that in other embodiments of the present invention, the temporary storage mechanism 120 and the identification mechanism 130 may be arranged in different orders along the first preset direction to adapt to different usage scenarios. Next, the number of the storage boxes 150 may be adjusted according to the installation space and the capacity of the storage boxes 150, and the number or capacity of the loading boxes 160 may be adjusted according to the use requirement.

Referring to fig. 2 again, in the present embodiment, the coin inlet/outlet 110 is connected to the banknote transport path 200 through the coin inlet/outlet path 230, and the coin inlet/outlet 110 is disposed at the front end of the upper portion of the apparatus along the first predetermined direction. The recognition mechanism 130 is provided on the bill conveyance path 200 and located below the escrow mechanism 120. The temporary storage mechanism 120 is connected with the paper money conveying channel 200 through a temporary storage channel 233; the reject box 140 is connected to the bill conveyance path 200 through a reject path 234 and traverses the upper part of the apparatus in the vertical direction; the storage box 150 is connected to the bill conveyance path 200 through the storage path 236; the hopper 160 is connected to the bill conveyance path 200 through a filling path 235.

Specifically, in the present embodiment, please refer to fig. 3, and fig. 3 shows a specific structure of the banknote transportation path 200 provided in the embodiment. As can be seen in fig. 3, the banknote transport path 200 includes an annular path 210 and a main path 220 (the thick solid line in the drawing indicates the main path 220). The main channel 220 includes a first end and a second end opposite to each other, the main channel 220 includes a first path 221, a second path 222, a third path 223, and a fourth path 224 connected in sequence, and the first end of the main channel 220 near the first path 221 and the second end near the fourth path 224 are respectively connected to the annular channel 210. Further, the storage box 150, the loading box 160, the reject box 140, and the buffer mechanism 120 are sequentially communicated with the main passage 220. The temporary storage mechanism 120 is communicated with the fourth path 224 through a temporary storage channel 233; the reject bin 140 communicates with the second path 222 through a reject passage 234; the charge tank 160 communicates with the first path 221 through a charge passage 235; the receiving box 150 communicates with the first path 221 through the receiving passage 236.

Further, in the present embodiment, referring to fig. 4, fig. 4 shows a specific structure of the annular channel 210 provided in the embodiment (a thick solid line in the figure represents the annular channel 210). As can be seen in fig. 4, the access channel 230 is connected to the annular channel 210, and the identification mechanism 130 is disposed on the annular channel 210; the ring channel 210 includes a first branch channel 211, a second branch channel 212, a third branch channel 213, a fourth branch channel 214, and a fifth branch channel 215; the identification mechanism 130 is disposed between the first branch channel 211 and the second branch channel 212, and is connected to the first branch channel 211 and the second branch channel 212.

Further, in this embodiment, as can be seen from fig. 3 and 4, the first branch channel 211, the fifth branch channel 215 and the first path 221 intersect; the second branch channel 212 communicates with the third branch channel 213; the fourth path 224, the third branch channel 213 and the fourth branch channel 214 meet. Thus, on the annular channel 210, the connection point of the access channel 230 to the annular channel 210, the connection point of the first end of the main channel 220 to the annular channel 210, the identification means 130, and the connection point of the second end of the main channel 220 to the annular channel 210 are arranged in this order. On the main passage 220, a connection point of the temporary storage passage 233 to the main passage 220, a connection point of the reject passage 234 to the main passage 220, a connection point of the charge passage 235 to the main passage 220, and a connection point of the take-in passage 236 to the main passage 220 are arranged in this order. It should be noted that, the intersection of the passage and the passage is provided with a reversing mechanism, and any two passages at the intersection can be selectively communicated by the reversing mechanism.

Next, in the present embodiment, referring to fig. 2 again, and with reference to fig. 3 and 4, the coin inlet/outlet 110 includes a coin inlet 111 and a coin outlet 112. The bill input port 111 is used for inputting bills, and the bill output port 112 is used for outputting bills. The coin inlet and outlet channel 230 includes a coin inlet path 231 and a coin outlet path 232, the coin inlet 111 is connected to the coin inlet path 231, the first path 221, the first branch path 211 and the fifth branch path 215 are intersected, the coin outlet 112 is connected to the coin outlet path 232, and the coin outlet path 232, the fourth branch path 214 and the fifth branch path 215 are intersected. The independent arrangement of the money inlet 111 and the money outlet 112 prevents the paper money from being carried out in the same channel when the paper money is input into and output from the paper money processing device 10, thereby improving the operation efficiency of the paper money processing device 10 while avoiding the blockage caused by the two-way movement of the paper money in the same channel.

In the present embodiment, referring to fig. 2 again, the banknote transportation path 200 further includes a connection path 240; the connecting channel 240 includes opposite first and second ends, the first end of the connecting channel 240 is connected with the second branch channel 212 of the annular channel 210; a second end of the connecting channel 240 is connected to the main channel 220, and on the main channel 220, a connection point of the connecting channel 240 to the main channel 220 is located between a connection point of the reject channel 234 to the main channel 220 and a connection point of the charge channel 235 to the main channel 220. Since the junction of the connecting path 240 and the main path 220 is close to the junction of the loading path 235 and the main path 220, the banknote handling apparatus 10 can shorten the moving distance of the banknotes inside the main path 220 close to the loading path 235 into the recognition mechanism 130 during the operation, thereby improving the efficiency of the operation, especially the efficiency of the operation during the loading process.

The operation of the banknote handling apparatus 10 according to the present invention will be described.

Referring to fig. 5, fig. 5 is a schematic view of the banknote handling apparatus 10 according to the embodiment of the present invention during deposit counting (arrows and thick solid lines in the figure indicate the movement path of banknotes). As shown in fig. 5, when a user places a banknote in the banknote inlet 111, the corresponding reversing mechanism is first controlled to communicate the banknote inlet path 231 with the first branch path 211, the banknotes at the banknote inlet 111 are fed into the first branch path 211 through the banknote inlet path 231 one by one and moved to the recognition mechanism 130 along the first branch path 211, the authenticity, denomination and state of the banknotes are recognized by the recognition mechanism 130, the banknotes recognized by the recognition mechanism 130 continue to move along the second branch path 212 of the circular path 210, when the banknotes are judged to be qualified according to the recognition result of the recognition mechanism 130, the corresponding reversing mechanism is controlled to communicate the fourth path 224 with the third branch path 213 of the circular path 210, the banknotes move along the circular path 210, enter the fourth path 224 after passing through the third branch path 213, and the corresponding reversing mechanism is controlled to communicate the fourth path 224 with the temporary storage path 233, the paper money is sent to the temporary storage mechanism 120 for storage through the temporary storage channel 233; if the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the paper money outlet path 232 to be communicated with the fourth branch channel 214 of the annular channel 210, and the unqualified paper money is sent back to the paper money outlet 112 along the fourth branch channel 214 through the paper money outlet path 232 and is returned to the user. When the user inputs information for canceling deposit transactions, the corresponding reversing mechanism is controlled, so that the temporary storage channel 233 is communicated with the fourth path 224 of the main channel 220, the fourth path 224 of the main channel 220 is communicated with the third branch channel 213 of the annular channel 210, the coin outlet path 232 is communicated with the fourth branch channel 214 of the annular channel 210, and after entering the fourth path 224 of the main channel 220 along the temporary storage channel 233, the paper money enters the coin outlet 112 through the fourth branch channel 214 and the coin outlet path 232 and is taken out by the user. When the deposit is cancelled, since the banknotes can be returned to the dispensing opening 112 through the path, the processing efficiency of the banknote processing apparatus 10 can be improved.

Referring to fig. 6, fig. 6 is a schematic view of the banknote handling apparatus 10 according to the embodiment of the present invention when depositing and storing banknotes (arrows and thick solid lines in the figure indicate the movement path of the banknotes). As shown in fig. 6, when the user inputs information for confirming the deposit transaction, the corresponding reversing mechanism is controlled, the temporary storage passage 233 is communicated with the fourth path 224, while the fourth path 224 is made to communicate with the third branch path 213 of the circular path 210, the bills temporarily received in the escrow mechanism 120 are entered into the circular path 210 through the fourth path 224 along the escrow path 233, then, after moving along the third branch channel 213 and the second branch channel 212, the recognition mechanism 130 recognizes again, according to the recognition result of the recognition mechanism 130, when the paper currency is judged to be qualified, the corresponding reversing mechanism is controlled to enable the first branch channel 211 to be communicated with the first path 221 of the main channel 220, meanwhile, the receiving passage 236 of the corresponding receiving box 150 is communicated with the first path 221 of the main passage 220, and the bills move along the first branch passage 211 and enter the first path 221 of the main passage 220, pass through the receiving passage 236, and enter the corresponding receiving box 150 for storage. When the banknote is determined to be an unqualified banknote, the banknote moves through the first path 221 and the second path 222 after entering the first path 221. At this time, the corresponding reversing mechanism is controlled to communicate the reject passage 234 with the second path 222, and the banknotes move along the main passage 220, pass through the reject passage 234, and enter the reject box 140 for storage. When the storage box 150 cannot continuously store bills during storage, the loading path 235 is communicated with the main path 220 by controlling the corresponding reversing mechanism, and the loading box 160 is used as the storage box 150. The operation and principle are similar to the storage step of the storage box 150, and are not described herein again.

Referring to fig. 7, fig. 7 is a schematic diagram of the banknote handling device 10 according to an embodiment of the present invention when dispensing banknotes (arrows and thick solid lines in the diagram indicate movement paths of banknotes). As shown in fig. 7, when the user performs the dispensing operation through the banknote handling device 10, the corresponding reversing mechanism is first controlled to make the receiving channel 236 of the corresponding receiving box 150 communicate with the first path 221, and the first path 221 communicates with the first branch channel 211 of the annular channel 210, at this time, the banknote to be fed enters the first path 221 of the main channel 220 through the receiving channel 236, moves along the first path 221 to enter the first branch channel 211, continues to move on the first path 221 of the annular channel 210, and is fed to the recognition mechanism 130 for recognition, and according to the recognition result of the recognition mechanism 130, when the banknote is judged to be qualified, the corresponding reversing mechanism is controlled to make the fourth branch channel 214 communicate with the banknote outlet path 232, and the banknote moves along the annular channel 210, and passes through the fourth branch channel 214, and enters the banknote outlet 112 from the banknote outlet path 232 for the user to take out. When the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the fourth path 224 to be communicated with the third branch channel 213 of the annular channel 210 and enable the third path 223 to be communicated with the reject channel 234, the paper money moves along the annular channel 210 and enters the fourth path 224, and after passing through the third path 223 and the reject channel 234, the paper money enters the reject box 140 to be stored.

Referring to fig. 8, fig. 8 is a schematic view of the banknote handling apparatus 10 according to the embodiment of the present invention during loading (arrows and thick solid lines in the figure indicate the movement path of the banknotes). As shown in fig. 8, the banknotes in the loading cassette 160 are fed into the storage cassette 150, and the banknotes are replenished into the storage cassette 150. By controlling the corresponding reversing mechanism, the loading channel 235 is communicated with the first path 221 of the main channel 220, the first path 221 is communicated with the connecting channel 240, the connecting channel 240 is communicated with the second branch channel 212 of the annular channel 210, and the paper money enters the first path 221 through the loading channel 235, moves along the first path 221, passes through the connecting channel 240 and the second branch channel 212 in sequence, and then enters the recognition mechanism 130 for recognition. According to the recognition result of the recognition mechanism 130, when the banknote is judged to be qualified, the corresponding reversing mechanism is controlled to enable the first branch channel 211 to be communicated with the first path 221 and enable the corresponding storage channel 236 to be communicated with the first path 221, and the banknote enters the first path 221 after passing through the first branch channel 211, moves along the first path 221, passes through the storage channel 236, and enters the corresponding storage box 150 for storage. When the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the first branch channel 211 to be communicated with the fifth branch channel 215, the fourth branch channel 214 to be communicated with the fourth path 224, the third path 223 to be communicated with the reject channel 234, and the paper money moves along the annular channel 210, enters the fourth path 224, and enters the reject box 140 through the third path 223 and the reject channel 234 to be stored.

Referring to fig. 9, fig. 9 is a schematic view of the banknote handling apparatus 10 according to the embodiment of the present invention during loading and collection (arrows and thick solid lines in the figure indicate the movement path of the banknotes). As shown in fig. 9, by feeding a part of the banknotes in the storage box 150 into the loading box 160, the operation efficiency of the banknote handling apparatus 10 can be improved, the operation can be simplified, maintenance of the banknote handling apparatus 10 can be completed by replacing the loading box 160, and the difficulty and cost of maintenance can be reduced. The storage channel 236 is communicated with the first path 221 by controlling the corresponding reversing mechanism, the first path 221 is communicated with the first branch channel 211 of the annular channel 210, the paper money enters the first path 221 after passing through the storage channel 236, and enters the recognition mechanism 130 along the first path 221 through the first branch channel 211 for recognition, when the paper money is judged to be qualified according to the recognition result of the recognition mechanism 130, the corresponding reversing mechanism is controlled, the third branch channel 213 of the annular channel 210 is communicated with the fourth path 224 of the main channel 220, the loading channel 235 is communicated with the first path 221, the paper money enters the fourth path 224 through the third branch channel 213, moves along the fourth path 224, passes through the third path 223, the second path 222 and the loading channel 235, and enters the loading box 160 for storage. When the paper money is judged to be unqualified, the difference from the above process is that after the paper money enters the third path 223, the corresponding reversing mechanism is controlled to communicate the reject channel 234 with the third path 223, and the paper money moves along the third path 223 and enters the reject box 140 through the reject channel 234 to be stored.

Referring to fig. 10, fig. 10 is a schematic diagram of a banknote handling apparatus 10 according to an embodiment of the present invention when filling and dispensing banknotes (arrows and thick solid lines in the diagram indicate movement paths of banknotes). As shown in fig. 10, when the storage box 150 does not satisfy the withdrawal condition or the filling box 160 is used as the storage box 150, the withdrawal operation can be completed by the filling box 160, thereby preventing a shutdown problem due to a small amount of bills in the storage box 150 and improving the operation efficiency of the apparatus. When a user inputs withdrawal information, the corresponding reversing mechanism is controlled to enable the filling channel 235 to be communicated with the first path 221, meanwhile, the connecting channel 240 is enabled to be communicated with the second path 222 and the second branch channel 212, at this time, paper money to be sent enters the first path 221 through the filling channel 235 and moves in the first path 221, enters the recognition mechanism 130 to be recognized after sequentially passing through the connecting channel 240 and the second branch channel 212, and according to the recognition result of the recognition mechanism 130, when the paper money is judged to be qualified paper money, the corresponding reversing mechanism is controlled to enable the first branch channel 211 to be communicated with the fifth branch channel 215, the fifth branch channel 215 to be communicated with the money outlet path 232, the paper money continues to move along the annular channel 210 and enters the money outlet 112 after passing through the money outlet path 232 to be taken out by the user. When the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the fourth path 224 to be communicated with the fourth branch channel 214 and enable the reject channel 234 to be communicated with the third path 223, and the paper money moves along the annular channel 210 and enters the third path 223 to enter the reject box 140 through the reject channel 234 to be stored.

Referring to fig. 11, fig. 11 is a schematic view showing the banknote handling apparatus 10 according to the embodiment of the present invention when left-behind collection is performed (arrows and thick solid lines in the figure indicate the movement route of banknotes). When the user forgets to remove the banknotes in the banknote outlet 112, the banknote handling apparatus 10 may collect the forgotten banknotes in the reject box 140 to store them in order to secure the user's right. First, the corresponding diverter mechanisms are controlled so that the coin dispensing path 232 communicates with the fifth branch passage 215 of the circular passage 210, the fifth branch passage 215 communicates with the first branch passage 211, the fourth path 224 communicates with the third branch passage 213 of the circular passage 210, the fourth path 224 communicates with the third path 223, and the third path 223 communicates with the reject passage 234. At this time, the forgotten bills enter the fifth branch passage 215 of the annular passage 210 through the bill discharge passage 232, move along the fifth branch passage 215 and the first branch passage 211 of the annular passage 210, pass through the recognition mechanism 130, the second branch passage 212, the third branch passage 213, the fourth passage 224 and the third passage 223 of the main passage 220 in this order, and then enter the reject box 140 through the reject passage 234.

The embodiment also provides a banknote processing method. The banknote processing method provided by the present embodiment can be implemented by the banknote processing apparatus 10 provided by the present embodiment.

The banknote handling method includes at least one of the following steps, see fig. 5 to 11:

deposit counting: the paper money in the money inlet and outlet 110 enters the paper money conveying channel 200 through the inlet and outlet channel 230; the paper money enters the recognition mechanism 130 along the paper money conveying channel 200; the paper money identified as qualified by the identification mechanism 130 continues to enter the temporary storage channel 233 along the paper money conveying channel 200 and enters the temporary storage mechanism 120 along the temporary storage channel 233; the paper money identified as unqualified by the identification mechanism 130 continues to enter the in-out channel 230 along the paper money conveying channel 200 and enters the in-out coin inlet 110 through the in-out channel 230;

deposit storage step: the paper money in the temporary storage mechanism 120 enters the paper money conveying channel 200 through the temporary storage channel 233; the paper money enters the recognition mechanism 130 along the paper money conveying channel 200; the paper money identified as being qualified by the identification mechanism 130 continues to enter the filling channel 235 or the receiving channel 236 along the paper money conveying channel 200, and when the paper money enters the receiving channel 236, the paper money in the receiving channel 236 enters the receiving box 150 along the receiving channel 236; when the paper money enters the filling channel 235, the paper money in the filling channel 235 enters the filling box 160 along the filling channel 235; the banknotes recognized as being defective by the recognition mechanism 130 continue to enter the reject passage 234 along the banknote conveyance passage 200 and enter the reject box 140 along the reject passage 234;

withdrawing money: the banknotes in the storage box 150 enter the banknote conveyance path 200 via the storage path 236; the paper money enters the recognition mechanism 130 along the paper money conveying channel 200; the paper money identified as qualified by the identification mechanism 130 continues to enter the in-out channel 230 along the paper money conveying channel 200 and enters the in-out coin inlet 110 along the in-out channel 230; the banknotes recognized as being defective by the recognition mechanism 130 continue to enter the reject passage 234 along the banknote conveyance passage 200 and enter the reject box 140 along the reject passage 234;

filling: the banknotes in the hopper 160 enter the banknote conveyance path 200 via the filling path 235; the paper money enters the recognition mechanism 130 along the paper money conveying channel 200; the banknotes recognized as being qualified by the recognition mechanism 130 continue to enter the storage passage 236 along the banknote transport passage 200 and enter the storage box 150 along the storage passage 236; the banknotes recognized as being defective by the recognition mechanism 130 continue to enter the reject passage 234 along the banknote conveyance passage 200 and enter the reject box 140 along the reject passage 234;

filling and recovering: the banknotes in the storage box 150 enter the banknote conveyance path 200 via the storage path 236; the paper money enters the recognition mechanism 130 along the paper money conveying channel 200; the banknotes recognized as being acceptable by the recognition mechanism 130 continue along the banknote transport path 200 into the loading path 235 and along the loading path 235 into the loading bin 160; the banknotes recognized as being defective by the recognition mechanism 130 continue to enter the reject passage 234 along the banknote conveyance passage 200 and enter the reject box 140 along the reject passage 234;

filling and withdrawing steps: the banknotes in the hopper 160 enter the banknote conveyance path 200 via the filling path 235; the paper money enters the recognition mechanism 130 along the paper money conveying channel 200; the paper money identified as qualified by the identification mechanism 130 continues to enter the in-out channel 230 along the paper money conveying channel 200 and enters the in-out coin inlet 110 along the in-out channel 230; the banknotes recognized as being defective by the recognition mechanism 130 continue to enter the reject passage 234 along the banknote conveyance passage 200 and enter the reject box 140 along the reject passage 234;

forgetting to recover: the paper money in the money inlet and outlet 110 enters the paper money conveying channel 200 through the inlet and outlet channel 230; the paper money enters the recognition mechanism 130 along the paper money conveying channel 200; the paper money passed through the recognition mechanism 130 continues along the paper money transporting path 200 into the reject path 234, and along the reject path 234 into the reject box 140.

The following further describes the banknote handling method:

in the deposit counting step, referring to fig. 5 (the arrow and the thick solid line in the figure indicate the moving route of the paper money), the corresponding reversing mechanism is controlled to make the paper money inlet path 231 communicate with the first branch channel 211, the paper money at the paper money inlet 111 is fed into the first branch channel 211 through the paper money inlet path 231 one by one, and moves to the recognition mechanism 130 along the first branch channel 211, the authenticity, the currency and the state of the paper money are recognized by the recognition mechanism 130, the paper money recognized by the recognition mechanism 130 continues to move along the second branch channel 212 of the annular channel 210, when the paper money is judged to be qualified according to the recognition result of the recognition mechanism 130, the corresponding reversing mechanism is controlled to make the fourth path 224 communicate with the third branch channel 213 of the annular channel 210, the paper money moves along the annular channel 210, and enters the fourth path 224 after passing through the third branch channel 213, and controls the corresponding reversing mechanism to make the fourth path 224 communicate with the temporary storage channel 233, and the paper money is sent to the temporary storage mechanism 120 for storage through the temporary storage channel 233; if the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the paper money outlet path 232 to be communicated with the fourth branch channel 214 of the annular channel 210, and the unqualified paper money is sent back to the paper money outlet 112 along the fourth branch channel 214 through the paper money outlet path 232 and is returned to the user. When the user inputs information for canceling deposit transactions, the corresponding reversing mechanism is controlled, so that the temporary storage channel 233 is communicated with the fourth path 224 of the main channel 220, the fourth path 224 of the main channel 220 is communicated with the third branch channel 213 of the annular channel 210, the coin outlet path 232 is communicated with the fourth branch channel 214 of the annular channel 210, and after entering the fourth path 224 of the main channel 220 along the temporary storage channel 233, the paper money enters the coin outlet 112 through the fourth branch channel 214 and the coin outlet path 232 and is taken out by the user.

In the deposit receipt step, as shown in fig. 6 (the arrow and the thick solid line in the figure indicate the moving route of the banknote), the corresponding reversing mechanism is controlled to make the temporary storage passage 233 communicate with the fourth passage 224 and make the fourth passage 224 communicate with the third branch passage 213 of the circular passage 210, the banknote temporarily stored in the temporary storage mechanism 120 enters the circular passage 210 along the temporary storage passage 233 via the fourth passage 224, then passes through the recognition mechanism 130 again after moving along the third branch passage 213 and the second branch passage 212, when the banknote is judged to be a qualified banknote according to the recognition result of the recognition mechanism 130, the corresponding reversing mechanism is controlled to make the first branch passage 211 communicate with the first passage 221 of the main passage 220 and make the corresponding storage passage 236 of the storage box 150 communicate with the first passage 221 of the main passage 220, the banknote moves along the first branch passage 211 and enters the first passage 221 of the main passage 220, through the receiving channel 236 and into the corresponding receiving box 150 for storage. When the banknote is determined to be an unqualified banknote, the banknote moves through the first path 221 and the second path 222 after entering the first path 221. At this time, the corresponding reversing mechanism is controlled to communicate the reject passage 234 with the second path 222, and the banknotes move along the main passage 220, pass through the reject passage 234, and enter the reject box 140 for storage. When the receiving box 150 cannot continuously receive the paper money, the loading channel 235 is communicated with the main channel 220 by controlling the corresponding reversing mechanism, and the paper money moves along the first branch channel 211 and enters the first path 221 of the main channel 220, passes through the loading channel 235 and enters the loading box 160 for storage.

In the withdrawal step, as shown in fig. 7 (the arrow and the thick solid line in the figure indicate the moving route of the bill), the corresponding reversing mechanism is first controlled so that the storage passage 236 of the corresponding storage box 150 communicates with the first path 221, the first path 221 communicates with the first branch passage 211 of the circular passage 210, and at this time, the bills to be fed out enter the first path 221 of the main path 220 through the receiving path 236, and move along the first path 221 into the first branch path 211, the first path 221 of the circular channel 210 continues to move, and is sent to the recognition mechanism 130 for recognition, according to the recognition result of the recognition mechanism 130, when the paper currency is judged to be qualified, the corresponding reversing mechanism is controlled to enable the fourth branch channel 214 to be communicated with the currency outlet path 232, the paper currency moves along the annular channel 210, and through the fourth branch channel 214, the coin passes through the coin outlet path 232 and enters the coin outlet 112 for the user to take out. When the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the fourth path 224 to be communicated with the third branch channel 213 of the annular channel 210 and enable the third path 223 to be communicated with the reject channel 234, the paper money moves along the annular channel 210 and enters the fourth path 224, and after passing through the third path 223 and the reject channel 234, the paper money enters the reject box 140 to be stored.

In the loading step, as shown in fig. 8 (the arrow and the thick solid line in the figure indicate the moving route of the bill), the loading path 235 is communicated with the first path 221 of the main path 220, the first path 221 is communicated with the connecting path 240, the connecting path 240 is communicated with the second branch path 212 of the circular path 210 by controlling the corresponding reversing mechanism, and the bill enters the first path 221 through the loading path 235, moves along the first path 221, passes through the connecting path 240 and the second branch path 212 in order, and then enters the recognition mechanism 130 for recognition. According to the recognition result of the recognition mechanism 130, when the banknote is judged to be qualified, the corresponding reversing mechanism is controlled to enable the first branch channel 211 to be communicated with the first path 221 and enable the corresponding storage channel 236 to be communicated with the first path 221, and the banknote enters the first path 221 after passing through the first branch channel 211, moves along the first path 221, passes through the storage channel 236, and enters the corresponding storage box 150 for storage. When the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the first branch channel 211 to be communicated with the fifth branch channel 215, the fourth branch channel 214 to be communicated with the fourth path 224, the third path 223 to be communicated with the reject channel 234, and the paper money moves along the annular channel 210, enters the fourth path 224, and enters the reject box 140 through the third path 223 and the reject channel 234 to be stored.

In the loading and collecting step, as shown in fig. 9 (the arrow and the thick solid line in the figure indicate the moving route of the bill), the storage path 236 is communicated with the first path 221 by controlling the corresponding reversing mechanism, while the first path 221 is made to communicate with the first branch passage 211 of the annular passage 210, the bills enter the first path 221 after passing through the receiving passage 236, and enters the recognition mechanism 130 along the first path 221 via the first branch channel 211 for recognition, when the paper money is judged to be qualified according to the result of the recognition by the recognition mechanism 130, the corresponding reversing mechanism is controlled to communicate the third branch channel 213 of the annular channel 210 with the fourth path 224 of the main channel 220, while the loading passage 235 is made to communicate with the first path 221, the bills are introduced into the fourth path 224 through the third branch passage 213, and moves along the fourth path 224, passes through the third path 223, the second path 222, and the filling path 235, and enters the filling box 160 to be stored. When the paper money is judged to be unqualified, the difference from the above process is that after the paper money enters the third path 223, the corresponding reversing mechanism is controlled to enable the reject channel 234 to be communicated with the third path 223, and the paper money moves along the third path 223 and enters the reject box 140 through the reject channel 234 to be stored.

In the filling and dispensing step, as shown in fig. 10 (the arrow and the thick solid line in the figure indicate the moving route of the paper money), the corresponding reversing mechanism is controlled to make the filling channel 235 communicate with the first path 221, while allowing the connecting channel 240 to communicate with the second path 222 and the second branch channel 212, at this time, the bill to be fed enters the first path 221 through the loading path 235 and moves in the first path 221, after passing through the connecting channel 240 and the second branch channel 212 in sequence, the identification mechanism 130 is entered for identification, according to the recognition result of the recognition mechanism 130, when the paper money is judged to be qualified, the corresponding reversing mechanism is controlled to enable the first branch channel 211 to be communicated with the fifth branch channel 215, the fifth branch channel 215 to be communicated with the money outlet path 232, the paper money continuously moves along the annular channel 210 and enters the money outlet 112 after passing through the money outlet path 232, and the paper money is taken out by a user. When the paper money is judged to be unqualified, the corresponding reversing mechanism is controlled to enable the fourth path 224 to be communicated with the fourth branch channel 214 and enable the reject channel 234 to be communicated with the third path 223, and the paper money moves along the annular channel 210 and enters the third path 223 to enter the reject box 140 through the reject channel 234 to be stored.

In the forgotten collection step, as shown in fig. 11 (the arrow and the thick solid line in the figure indicate the moving path of the bill), first, the corresponding reversing mechanism is controlled so that the bill discharge path 232 communicates with the fifth branch passage 215 of the endless passage 210, the fifth branch passage 215 communicates with the first branch passage 211, the fourth path 224 communicates with the third branch passage 213 of the endless passage 210, the fourth path 224 communicates with the third path 223, and the third path 223 communicates with the reject passage 234. At this time, the forgotten bills enter the fifth branch passage 215 of the annular passage 210 through the bill discharge passage 232, move along the fifth branch passage 215 and the first branch passage 211 of the annular passage 210, pass through the recognition mechanism 130, the second branch passage 212, the third branch passage 213, the fourth passage 224 and the third passage 223 of the main passage 220 in this order, and then enter the reject box 140 through the reject passage 234.

In the banknote handling apparatus 10 of the present embodiment, the banknote handling unit 11 and the banknote storage unit 12 are sequentially arranged along a first predetermined direction, and the banknote inlet/outlet 110, the temporary storage mechanism 120 and the recognition mechanism 130 are all located on one side of the reject box 140 in a second predetermined direction, which is perpendicular to the first predetermined direction. Which can obtain a reject box 140 of a large capacity without increasing the overall size of the apparatus, to reduce the frequency of cleaning the reject box 140, and to reduce the workload of a user.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A banknote processing device is characterized in that:

the paper money processing device comprises a paper money processing assembly, a paper money receiving assembly and a paper money conveying channel;

the paper money processing assembly and the paper money receiving assembly are sequentially arranged along a first preset direction; the paper money receiving assembly comprises a filling box and a receiving box;

the paper money processing component comprises a paper money outlet, a paper money inlet, a temporary storage mechanism, an identification mechanism and a reject box; the coin inlet and outlet, the temporary storage mechanism and the recognition mechanism are all positioned on the same side of the reject box in a second preset direction; the second preset direction is perpendicular to the first preset direction;

the paper money conveying channel is used for conveying paper money between the paper money processing assembly and the paper money receiving assembly;

the recognition mechanism is arranged on the paper money conveying channel; the coin inlet and outlet port is connected with the paper money conveying channel through a coin inlet and outlet channel; the temporary storage mechanism is connected with the paper money conveying channel through a temporary storage channel; the reject box is connected with the paper money conveying channel through a reject channel; the filling box is connected with the paper money conveying channel through a filling channel; the storage box is connected with the paper money conveying channel through a storage channel;

the paper money conveying channel comprises an annular channel and a main channel, and two ends of the main channel are respectively connected with the annular channel; the identification mechanism is arranged on the annular channel; the inlet and outlet channel is connected with the annular channel; the temporary storage channel, the reject channel, the filling channel and the receiving channel are respectively connected with the main channel;

the paper money conveying channel also comprises a connecting channel; the first end of the connecting channel is connected with the annular channel; the second end of the connecting channel is connected with the main channel, and on the main channel, the connecting point of the connecting channel and the main channel is positioned between the connecting point of the rejecting channel and the main channel and the connecting point of the filling channel and the main channel.

2. The banknote handling apparatus according to claim 1, wherein:

the first preset direction is a vertical direction, and the second preset direction is a horizontal direction.

3. The banknote handling apparatus according to claim 1, wherein:

the temporary storage mechanism and the recognition mechanism are positioned on the same side of the reject box in the second preset direction;

the temporary storage mechanism and the recognition mechanism are sequentially arranged along the first preset direction.

4. The banknote handling apparatus according to claim 3, wherein:

the reject box, the temporary storage mechanism and the coin outlet and inlet are sequentially arranged along the second preset direction.

5. The banknote handling apparatus according to claim 1, wherein:

on the annular channel, the connection point of the access channel and the annular channel, the connection point of the first end of the main channel and the annular channel, the identification mechanism, and the connection point of the second end of the main channel and the annular channel are sequentially arranged.

6. The banknote handling apparatus according to claim 1, wherein:

on the main channel, the connection point of the temporary storage channel and the main channel, the connection point of the rejection channel and the main channel, the connection point of the filling channel and the main channel, and the connection point of the receiving channel and the main channel are sequentially arranged.

7. A banknote processing method is characterized in that:

the banknote processing method is realized based on the banknote processing device according to any one of claims 1 to 6;

the banknote processing method includes at least one of the following steps:

deposit counting: the paper money in the paper money outlet and inlet enters the paper money conveying channel through the paper money inlet and outlet channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the temporary storage channel along the paper money conveying channel and enters the temporary storage mechanism along the temporary storage channel; the paper money identified as unqualified by the identification mechanism continues to enter the in-and-out channel along the paper money conveying channel and enters the in-and-out coin inlet through the in-and-out channel;

deposit storage step: the paper money in the temporary storage mechanism enters the paper money conveying channel through the temporary storage channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the filling channel or the receiving channel along the paper money conveying channel; when entering the receiving channel, the paper money in the receiving channel enters the receiving box along the receiving channel, and when entering the loading channel, the paper money in the loading channel enters the loading box along the loading channel; the paper money which is identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enters the reject box along the reject channel;

withdrawing money: the paper money in the storage box enters the paper money conveying channel through the storage channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the access channel along the paper money conveying channel and enters the coin inlet and outlet along the access channel; the paper money which is identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enters the reject box along the reject channel;

filling: the paper money in the filling box enters the paper money conveying channel through the filling channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the storage channel along the paper money conveying channel and enters the storage box along the storage channel; the paper money which is identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enters the reject box along the reject channel;

filling and recovering: the paper money in the storage box enters the paper money conveying channel through the storage channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the filling channel along the paper money conveying channel and enters the filling box along the filling channel; the paper money which is identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enters the reject box along the reject channel;

filling and withdrawing steps: the paper money in the filling box enters the paper money conveying channel through the filling channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper money identified as qualified by the identification mechanism continues to enter the access channel along the paper money conveying channel and enters the coin inlet and outlet along the access channel; the paper money which is identified as unqualified by the identification mechanism continues to enter the reject channel along the paper money conveying channel and enters the reject box along the reject channel;

forgetting to recover: the paper money in the paper money outlet and inlet enters the paper money conveying channel through the paper money inlet and outlet channel; the paper money enters the recognition mechanism along the paper money conveying channel; the paper currency passing through the recognition mechanism continues to enter the reject channel along the paper currency conveying channel and enters the reject box along the reject channel.

Images