CN109658635B - Bank note storage control system and method - Google Patents

Abstract

The invention relates to a bank note storage control system and a bank note storage control method. The method comprises the following steps: the device comprises a judgment device, a transmission device, an identification device and at least two storage devices; the judging device is electrically connected with the storage device and the transmission device respectively, the identification device is electrically connected with the judging device, and the transmission device is physically connected with the storage device; the identification device is used for identifying the authenticity and the type of the currency, the judgment device is used for acquiring the authenticity and the type of the currency identified by the identification device, and the corresponding storage device is started according to the authenticity and the type of the currency and a preset power consumption threshold; a transport device for transporting the money; and the storage device is used for storing the money. In this application, deposit paper money control system passes through the true and false and the type of recognition device discernment currency to through judging the device according to the true and false and the type of currency, and preset power dissipation threshold, start corresponding storage device, avoided at the in-process of currency storage, all storage devices are in the running state, and then avoided the consumption big and the wasting of resources that leads to.

Description

Bank note storage control system and method

Technical Field

The invention relates to the technical field of storage control, in particular to a bank note storage control system and a bank note storage control method.

Background

With the continuous progress of society, an Automatic Teller Machine (ATM) is used as a highly precise mechatronic device, and a magnetic code card or an intelligent card is used for realizing self-service of financial transactions, so that the ATM can replace the work of bank counter personnel and be more and more widely applied to the daily life of people.

A typical ATM includes an identification device, a transport device, a plurality of trigger devices, and a plurality of storage devices. When people need to store the money, the money is successfully identified by the identification device and then is transmitted to the trigger device through the transmission device, and the trigger device judges which storage device the money should be stored in one by one, so that the money is stored in the corresponding storage device, and the money storage is completed.

However, in the process of storing money, a plurality of storage devices are often required to operate simultaneously, so that the ATM consumes much power and wastes resources.

Disclosure of Invention

Therefore, a need exists for a cash deposit control system and method, which can solve the problems of large power consumption and resource waste of the ATM.

In a first aspect, a banknote deposit control system, the system comprising: the device comprises a judgment device, a transmission device, an identification device and at least two storage devices; the judging device is electrically connected with the storage device and the transmission device respectively, the identification device is connected with the judging device and the storage device respectively, and the transmission device is physically connected with the storage device;

the identification device is used for identifying the authenticity and type of the currency;

the judging device is used for acquiring the truth and the type of the currency identified by the identifying device and starting the corresponding storage device according to the truth and the type of the currency and a preset power consumption threshold;

the transport device is used for transporting the currency;

the storage device is used for storing the currency.

Above-mentioned bank note deposit control system includes: the device comprises a judgment device, a transmission device, an identification device and at least two storage devices; the judging device is electrically connected with the storage device and the transmission device respectively, the identification device is electrically connected with the judging device, and the transmission device is physically connected with the storage device; the identification device is used for identifying the authenticity and the type of the currency, the judgment device is used for acquiring the authenticity and the type of the currency identified by the identification device, and the corresponding storage device is started according to the authenticity and the type of the currency and a preset power consumption threshold; a transport device for transporting the money; and the storage device is used for storing the money. In this embodiment, the money storage control system identifies the authenticity and the type of the money through the identification device, and starts the corresponding storage device through the judgment device according to the authenticity and the type of the money and the preset power consumption threshold, so that the situation that all the storage devices are in an operating state in the money storage process is avoided, and further, the resource waste caused by large power consumption is avoided.

In one embodiment, the judging device is further used for controlling the conveying direction of the currency according to the authenticity and type of the currency; the direction of transport includes transport to the storage device, or return to a return exit.

In one embodiment, the determining device is specifically configured to control the transporting device to cache the money if the number of the storage devices in the running state is greater than a preset threshold; and if the number of the storage devices in the running state is not larger than a preset threshold value, controlling the transmission device to transmit the money to the corresponding storage device.

In one embodiment, the system further comprises an identification module, the identification module being connected to the transmission device;

the identification module is used for identifying the authenticity of the currency.

In one embodiment, the transmission device comprises a first trigger module, a second trigger module and a transmission module; the first trigger module is connected with the identification device, the second trigger module is connected with the storage device, and the transmission module is connected with the judgment device and the storage device;

the first triggering module is used for determining the conveying direction of the currency according to the authenticity of the currency;

the second trigger module is used for storing the currency according to the currency type and the storage device type;

the transmission module is used for transmitting the currency according to the transmission direction.

In one embodiment, the first triggering module is specifically configured to determine that the transport direction corresponding to the piece of money is to be transported to the storage device if the piece of money is true; and if the currency is false, determining that the corresponding conveying direction of the currency is to return to the return outlet.

In one embodiment, the second triggering module is specifically configured to store the currency if the currency type and the storage device type have a preset corresponding relationship; and if the currency type and the storage device type do not have the preset corresponding relation, transmitting the currency.

In one embodiment, the transmission module comprises a first transmission channel and a second transmission channel;

the first transmission channel is used for transmitting the money to the corresponding storage device;

the second transport path is for transporting the currency to the return outlet.

In one embodiment, the judging means is further configured to judge whether the money is present in the transporting means;

and if not, controlling all the storage devices to stop working.

In one embodiment, the system further comprises a separation device; the separation device is connected with the identification device;

the separating device is used for separating a plurality of pieces of money and feeding the money into the identifying device one by one.

In a second aspect, a method of controlling banknote deposit, the method comprising:

acquiring the authenticity and type of currency and the total power consumption of a system;

and starting the corresponding storage device according to the authenticity and type of the currency, the total power consumption of the system and a preset power consumption threshold.

The money storage control system and the method comprise the following steps: the device comprises a judgment device, a transmission device, an identification device and at least two storage devices; the judging device is electrically connected with the storage device and the transmission device respectively, the identification device is electrically connected with the judging device, and the transmission device is physically connected with the storage device; the identification device is used for identifying the authenticity and the type of the currency, the judgment device is used for acquiring the authenticity and the type of the currency identified by the identification device, and the corresponding storage device is started according to the authenticity and the type of the currency and a preset power consumption threshold; a transport device for transporting the money; and the storage device is used for storing the money. In this application, deposit paper money control system passes through the true and false and the type of recognition device discernment currency to through judging the device according to the true and false and the type of currency, and preset power dissipation threshold, start corresponding storage device, avoided at the in-process of currency storage, all storage devices are in the running state, and then avoided the consumption big and the wasting of resources that leads to.

Drawings

Fig. 1 is a schematic diagram of a banknote deposit control system according to an embodiment;

fig. 2 is a schematic diagram of a banknote deposit control system according to an embodiment;

fig. 3 is a schematic diagram of a banknote deposit control system according to an embodiment;

fig. 4 is a flowchart illustrating a banknote storing control method according to an embodiment.

Description of the reference numerals

10. A judging device; 20. A transmission device; 30. A storage device;

40. an identification device; 50. A separation device; 201. A first trigger module;

202. a second trigger module; 203. And a transmission module.

Detailed Description

With the continuous progress of society, ATMs are widely applied to daily life of people, and a common ATM comprises an identification device, a transmission device, a plurality of trigger devices and a plurality of storage devices. When people need to store the money, the money is successfully identified by the identification device and then is transmitted to the trigger device through the transmission device, and the trigger device judges which storage device the money should be stored in one by one, so that the money is stored in the corresponding storage device, and the money storage is completed. However, in the process of storing money, a plurality of storage devices are often required to operate simultaneously, so that the ATM consumes much power and wastes resources. The bank note storage control system and the bank note storage control method aim at solving the problems of large ATM power consumption and resource waste.

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. 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.

Fig. 1 is a schematic diagram of a banknote storage control system according to an embodiment, and as shown in fig. 1, the banknote storage control system 100 includes: the judging device 10, the transmitting device 20, at least two storage devices 30 and the identifying device 40; the judging device 10 is electrically connected with the storage device 30 and the transmission device 20 respectively, the identifying device 40 is electrically connected with the judging device 10 and the storage device 30 respectively, and the transmission device 20 is physically connected with the storage device 30; the identification device 40 is used for identifying the authenticity and type of the currency, and the judgment device 10 is used for acquiring the authenticity and type of the currency identified by the identification device 40 and starting the corresponding storage device according to the authenticity and type of the currency and a preset power consumption threshold; the transport device 20 is used for transporting money; the storage device 30 is used to store currency, such as currency cassettes in ATMs.

Specifically, the determining device 10 may be a hardware circuit, a software program, or a device combining a software program and a hardware circuit, which is not limited in this embodiment of the present application. The identification device 40 may include one identification device, or may include a plurality of identification devices, which is not limited in the embodiment of the present application. The transmission device 20 may include a conveying track, or may be a device in which a conveying track is combined with a triggering element, which is not limited by the embodiment of the present application. The storage device 30 may include a storage container, and may also include a storage container and a detection element, where the detection element may be used to detect whether the money stored in the storage container is stored in place, and the embodiment of the present application is not limited thereto. The number of the storage devices 30 may be obtained according to the user requirement, or may be the number of the corresponding storage devices obtained according to the denomination number of the money, which is not limited in the embodiment of the present application. For example, the deposit control system 100 is configured to store 4 denominations of 100 yuan, 50 yuan, 20 yuan, and 10 yuan, and the number of the storage devices 30 is determined to be 4 according to the denominations of the stored money.

The above-mentioned judging device 10 is electrically connected to the storage device 30 and the transmission device 20, respectively, the identifying device 40 is electrically connected to the judging device 10 and the storage device 30, respectively, and the transmission device 20 is physically connected to the storage device 30. The identification device 40 is used for identifying the authenticity and type of the currency, and the identification device 40 may identify the authenticity and type of the currency through image recognition, fluorescence recognition, magnetic analysis or infrared penetration, which is not limited in the embodiments of the present application. The category of the money may include a denomination of the money, for example, the category of the money may be 100-yuan, 50-yuan, and 20-yuan. In the process of identifying the authenticity and the type of the currency through the identification device 40, the authenticity of the currency is identified through fluorescence identification, the currency fluorescence anti-counterfeiting mark can be irradiated by light emitted by a purple light source to excite fluorescence, a light guide fiber is used for acquiring the fluorescence excited by the currency anti-counterfeiting mark and leading the fluorescence into an entrance slit of a grating monochromator, a sine mechanism is used for scanning the wavelength, the exit slit outputs monochromatic light with different wavelengths, the fluorescence spectrum intensity of the currency to be detected under various wavelengths is further obtained through a photomultiplier detector, the fluorescence spectrum intensity of the preset genuine currency is compared, and the authenticity and the type of the currency are judged. When the identification device 40 identifies the authenticity and type of the currency, the identification device 40 starts the corresponding storage device according to the authenticity and type of the currency and according to the preset power consumption threshold. The judging device 10 is used for acquiring the authenticity and type of the money identified by the identifying device, and starting the corresponding storage device according to the authenticity and type of the money and a preset power consumption threshold. After the judging device 10 obtains the authenticity and type of the currency identified by the identifying device 40, the storage device corresponding to the currency type can be started according to the authenticity and type of the currency and the power consumption threshold preset by the system. For example, when the recognition means 40 recognizes that the money is counterfeit, the control means 10 does not activate any storage means based on the information; when the identifying device 40 identifies that the currency is true and the currency type is 100 yuan RMB, the judging device 10 starts the storage device corresponding to the 100 yuan RMB when the preset condition is met according to whether the total power consumption of the current money saving control system and the preset power consumption threshold are met.

Further, the conveying device 20 is used for conveying the money, and may be configured to directly convey the money acquired by the conveying crawler to an area needing to be conveyed, or detect whether the conveying crawler meets the conveying condition by using a detection element, and then convey the money to the area needing to be conveyed according to the conveying condition, which is not limited in the embodiment of the present application. The storage device 30 is used for storing money, and may store the money directly in an area corresponding to each storage device, or detect whether the money is stored in a preset position by using a detection element when the money reaches the area corresponding to the storage device, which is not limited in the embodiment of the present application.

Above-mentioned bank note deposit control system includes: the device comprises a judgment device, a transmission device, an identification device and at least two storage devices; the judging device is electrically connected with the storage device and the transmission device respectively, the identification device is connected with the judging device and the storage device respectively, and the transmission device is physically connected with the storage device; the identification device is used for identifying the authenticity and the type of the currency, the judgment device is used for acquiring the authenticity and the type of the currency identified by the identification device, and the corresponding storage device is started according to the authenticity and the type of the currency and a preset power consumption threshold; the direction of transport includes transport to the storage device, or return to a return exit. In this embodiment, the money storage control system identifies the authenticity and the type of the money through the identification device, and starts the corresponding storage device through the judgment device according to the authenticity and the type of the money and the preset power consumption threshold, so that the situation that all the storage devices are in an operating state in the money storage process is avoided, and further, the resource waste caused by large power consumption is avoided.

As further shown in fig. 1, the judging means 10 is also for controlling the transport direction of the money according to the genuineness and type of the money; the direction of transport includes transport to the storage device 30, or return to a return exit.

Specifically, on the basis of the above-described embodiment, when the identification device 40 identifies the authenticity and type of the money, the judgment device 10 acquires the authenticity and type of the money identified by the identification device 40, and controls the transport direction of the money according to the authenticity and type of the money, wherein the transport direction includes transport to the storage device or return to the return outlet. The currency conveying direction can be directly controlled according to the authenticity and the type of the currency, or can be dynamically controlled according to the authenticity and the type of the currency, and the currency conveying direction is not limited in the embodiment of the application. For example, when the identification device 40 identifies the currency as true and the currency type is 50 yuan, and the total power consumption of the deposit control system does not satisfy the predetermined condition with the predetermined power consumption threshold, the determination device 10 dynamically adjusts the currency transmission direction to be the return/return outlet.

Optionally, the determining device 10 is specifically configured to control the transporting device 20 to transport the money to the return outlet if the number of the storage devices 30 in the running state is greater than a preset threshold; and if the number of the storage devices 30 in the running state is not more than the preset threshold value, controlling the conveying device 20 to convey the money to the corresponding storage device.

Specifically, the preset threshold may be a numerical value obtained according to a user requirement, or a numerical value obtained according to a cash deposit control system, which is not limited in the embodiment of the present application. For example, the preset threshold may be a value determined according to the number of storage devices 30 included in the deposit control system, and assuming that the number of storage devices 30 in the deposit control system is 10, according to which the deposit control system may operate 70% of the storage devices 30, the preset threshold is determined to be 7. The refund outlet is used for returning the money to the customer, and may also be used for buffering the money at the refund outlet, and when the number of the storage devices 30 in the running state is not greater than the preset threshold value, the money is transferred to the transfer device, which is not limited in the embodiment of the present application.

On the basis of the above embodiment, when the number of the storage devices 30 in the running state acquired by the determination device 10 is greater than the preset threshold, the transport device 20 is controlled to transport the money to the return outlet; when the number of storage devices 30 in the running state acquired by the determination device 10 is not more than the preset threshold, the transport device 20 is controlled to transport the money. For example, when the number of storage devices 30 in the running state acquired by the determination device 10 is 5 and the preset threshold value is 5, the transport device is controlled to transport the money to the corresponding storage device according to the fact that the number of storage devices 30 in the running state is not greater than the preset threshold value.

In the embodiment, the judging device is used for acquiring the authenticity and the type of the money, the identifying device is used for identifying the authenticity and the type of the money, the corresponding storage device is started according to the authenticity and the type of the money and the preset power consumption threshold, and the conveying direction of the money is judged according to the authenticity and the type of the money. Further, when the money is transported by the transporting device, the money transporting storage position may be determined again during the transporting process.

Fig. 2 is a schematic diagram of a banknote deposit control system according to an embodiment, and as shown in fig. 2, the transport device 20 includes a first triggering module 201, a second triggering module 202, and a transport module 203; the first trigger module 201 is connected with the identification device 40, the second trigger module 202 is connected with the storage device 30, and the transmission module 203 is connected with the judgment device 10 and the storage device 30; the first triggering module 201 is used for determining the conveying direction of the currency according to the authenticity of the currency; the second trigger module 202 is used for storing the money according to the money type and the storage device type; the transport module 203 is used to transport money according to a transport direction.

Specifically, the first triggering module 201 may be a hardware circuit, a software program, or a module combining the hardware circuit and the software program, which is not limited in this embodiment of the application. The second triggering module 202 may be a hardware circuit, a software program, or a module combining a hardware circuit and a software program, which is not limited in this embodiment of the present application. The transport module 203 may include one transport track or a plurality of transport tracks, which is not limited in this embodiment.

The first triggering module 201 is connected with the identification device 40, the second triggering module 202 is connected with the storage device 30, and the transmission module 203 is connected with the judgment device 10 and the storage device 30; the first triggering module 201 may be connected with the identification device 40 in a wireless or wired manner; the second triggering module 202 can be connected with the storage device 30 in a wireless or wired manner; the transmission module 203 may be physically connected with the judgment apparatus 10 and the storage apparatus 30; the embodiment of the present application does not limit this.

The first triggering module 201 is configured to determine a currency conveying direction according to authenticity of the currency; on the basis of the above embodiment, after the identification device 40 identifies the authenticity of the currency, the first triggering module 201 may be connected to the identification device 40 in a wireless or wired manner, and obtain the identification result of the identification device 40, that is, after the authenticity of the currency is identified, the transportation direction of the currency is determined according to the authenticity of the currency.

The second triggering module 202 is used for storing the money according to the money type and the storage device type. The currency type may be a type determined according to the denomination or face value of the currency, and for example, the currency types may include types of 100-yuan, 50-yuan, and 20-yuan. The storage device type may be set according to the currency type, for example, it may be a storage device of 100 yuan, a storage device of 50 yuan, a storage device of 20 yuan, etc., which is not limited in the embodiments of the present application. Based on the above embodiment, the second triggering module 202 may be a plurality of triggering modules corresponding to the storage devices 30 one to one, for example, if there are 5 storage devices in the banknote storage control system, there are 5 second triggering modules 202 corresponding to the storage devices one to one, and the banknote storage control system also includes 5 second triggering modules 202. When the money is transferred to the second triggering module 202, the second triggering module 202 determines whether the money is stored in the storage device according to the type of the money and the storage type of the storage device corresponding to the second triggering module.

The transporting module 203 is used for transporting the money according to the transporting direction, and can transport the money according to the transporting direction through a transporting crawler; or a plurality of conveying crawler belts are used, wherein each conveying crawler belt corresponds to the respective conveying direction, and the money is conveyed according to the conveying direction of each conveying crawler belt.

In the cash storage control system, the transmission device comprises a first trigger module, a second trigger module and a transmission module; the first trigger module is connected with the identification device, the second trigger module is connected with the storage device, and the transmission module is connected with the judgment device and the storage device; the first trigger module is used for determining the conveying direction of the currency according to the authenticity of the currency; the second trigger module is used for storing the currency according to the currency type and the storage device type; the transport module is used for transporting the currency according to a transport direction. In this embodiment, the first triggering module determines the transmission direction of the money according to the authenticity of the money, the second triggering module stores the money according to the type of the money and the type of the storage device, and the transmission module transmits the money according to the transmission direction, so that the money storage control system can determine the transmission direction and the storage position of the money according to the authenticity of the money, the type of the money and the type of the storage device, thereby avoiding the storage of counterfeit money in the storage device and the storage of the money in a wrong storage device, and improving the safety of the money storage control system.

Optionally, the first triggering module 201 is specifically configured to determine, if the piece of money is true, that the corresponding transporting direction of the piece of money is transporting to the storage device 30; and if the currency is false, determining that the corresponding conveying direction of the currency is returning to the return outlet.

Specifically, the first triggering module 201 may determine the transmission direction of the money according to the authenticity of the money, and on the basis of the above embodiment, when the identification device 40 identifies that the money is genuine, the first triggering module 201 obtains the information through wireless communication or wired communication, and determines that the transmission direction corresponding to the money is to be transmitted to the storage device 30; further, when the recognition device 40 recognizes that the money is counterfeit, the first triggering module 201 may obtain the information by wireless communication or wired communication, and determine that the money is transported in the return direction to the return outlet.

Optionally, the second triggering module 202 is specifically configured to determine a target storage device corresponding to each piece of money according to a correspondence between the money type and the storage device type, and store the piece of money in the corresponding target storage device

Specifically, the correspondence may be that the currency type is consistent with the currency denomination corresponding to the storage device type, for example, the currency type is 100-dollar denomination currency, the storage device 30 includes a storage device for 100-dollar currency, a storage device for 50-dollar currency, and a storage device for 20-dollar currency, and then according to the correspondence between the currency type and the storage device type, a target storage device corresponding to 100-dollar denomination currency is determined as the storage device for 100-dollar currency, and the 100-dollar currency is stored in the corresponding target storage device.

Optionally, the transmission module 203 includes a first transmission channel 2031 (not shown) and a second transmission channel 2032 (not shown); the first transport path 2031 is used for transporting the money to the corresponding storage device 30; the second transport path 2031 is used for transporting the money to the return outlet.

Specifically, on the basis of the above embodiment, when the first triggering module 201 determines the transportation direction of the money according to the authenticity of the money, the money is transported through the first transportation channel 2031 and the second transportation channel 2032; when the money is true, the first triggering module 201 determines that the money is transported to the storage device 30 according to the information that the money is true, and then transports the money to the storage device through the first transporting channel 2031; when the currency reaches the second triggering module 202, if a preset corresponding relationship exists between the currency type of the currency and the storage device type, the currency is stored, and if the preset corresponding relationship does not exist between the currency type of the currency and the storage device type, the currency is continuously transmitted through the first transmission channel 2031; when the money is false, the first triggering module 201 determines that the money is transported in the return direction to the return outlet according to the information that the money is false, and returns the money to the return outlet through the second transporting path 2032.

On the basis of the above embodiment, the judging device can also judge whether the money still exists in the conveying device, so that the storage device is controlled to stop working under the condition that the money does not exist on the conveying device, and the resources are further saved. Optionally, the judging means 10 is also for judging whether there is money in the transporting means 20; if not, all the storage devices 30 are controlled to stop working.

Specifically, the judging means 10 is also used for judging whether or not the money is present in the transporting means 20, and may judge whether or not the money is present in the transporting means 20 based on a sensor provided on the transporting means 20, or may judge whether or not the money is present in the transporting means 20 based on an operation state of the transporting means 20. For example, if the operation state of the transport device 20 is the operation state, it is determined that the money exists in the transport device 20; if the transport device 20 is in the stopped state, it is determined that no money is present in the transport device 20. When the judging means 10 judges that no money is present in the transporting means, all the storage means 30 are controlled to stop operating.

The money storage control system is characterized in that the judging device is also used for judging whether the money exists in the transmission device; if not, all the storage devices are controlled to stop working. In this embodiment, the banknote storage control system determines whether there is money in the transport device through the determination device, controls all the storage devices to stop working when there is no money in the transport device, and stops all the storage devices when the system is idle, thereby further saving power consumption of the banknote storage control system and avoiding waste of resources.

Fig. 3 is a schematic diagram of the banknote deposit control system according to an embodiment, and as shown in fig. 3, the banknote deposit control system 100 further includes a separating device 50, and the separating device 50 is connected to the identifying device 40; the separator 50 is used to separate a plurality of banknotes and feed them one by one into the validator 40.

Specifically, the separating device 50 may use a differential separating technology to separate the money, or may use a suction-type money separator to separate the money, which is not limited in the embodiments of the present application. The separating device 50 is connected with the identifying device 40, and can be connected with the transmitting device 20 through the identifying device 40; the separator 50 is used to separate a plurality of banknotes and feed them one by one into the validator 40. After the separating device 50 separates the plurality of pieces of money, the plurality of pieces of money are fed one by one into the recognition device 40, so that the recognition device 40 recognizes the authenticity and type of the pieces of money, and then the pieces of money are fed into the transport device 20 and finally deposited into the corresponding storage device 30.

The cash storage control system also comprises a separating device, and the separating device is connected with the identification device; the separating device is used for separating a plurality of pieces of money and feeding the money into the conveying device respectively. In this embodiment, deposit paper money control system still includes separator, and separator separates a plurality of currencies to send into transmission device respectively, send into recognition device respectively with currency through transmission device, make recognition device can discern the true and false of currency respectively, improved recognition device discernment currency true and false accuracy, and then improved deposit paper money control system's accuracy.

An embodiment of the present application further provides a banknote storage control method, where an execution main body of the method may be a control device, as shown in fig. 4, the method includes:

s101, obtaining the authenticity and type of currency and the total power consumption of a system;

and S102, starting the corresponding storage device according to the authenticity and type of the currency, the total power consumption of the system and a preset power consumption threshold.

The implementation principle and the beneficial effects of the embodiment can refer to the implementation principle and the beneficial effects of the embodiment of the banknote storage control system shown in fig. 1, and are not described herein again.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A banknote deposit control system, the system comprising: the device comprises a judgment device, a transmission device, an identification device and at least two storage devices; the judging device is electrically connected with the storage device and the transmission device respectively, the identifying device is electrically connected with the judging device, and the transmission device is physically connected with the storage device;

the identification device is used for identifying the authenticity and type of the currency;

the judging device is used for acquiring the authenticity and type of the currency identified by the identifying device, judging whether a preset condition is met between the total power consumption of the current currency storage control system and a preset power consumption threshold when the currency is true, and judging whether the number of the storage devices in the running state is greater than a preset threshold if the preset condition is met;

if the number of the storage devices in the running state is larger than a preset threshold value, controlling the conveying device to convey the currency to a return outlet; if the number of the storage devices in the running state is not larger than a preset threshold value, starting the storage devices corresponding to the currency types, and controlling the transmission device to transmit the currency to the storage devices corresponding to the currency types;

the transport device is used for transporting the currency;

the storage device is used for storing the currency.

2. The system of claim 1, wherein the transmission device comprises a first triggering module, a second triggering module and a transmission module; the first trigger module is connected with the identification device, the second trigger module is connected with the storage device, and the transmission module is connected with the judgment device and the storage device;

the first triggering module is used for determining the conveying direction of the currency according to the authenticity of the currency;

the second trigger module is used for storing the currency according to the currency type and the storage device type;

the transmission module is used for transmitting the currency according to the transmission direction.

3. The system according to claim 2, wherein the first triggering module is specifically configured to determine that the transportation direction of the money is transportation to the storage device if the money is true; and if the currency is false, determining that the corresponding conveying direction of the currency is to return to the return outlet.

4. The system according to claim 2, wherein the second triggering module is specifically configured to determine a target storage device corresponding to each piece of money according to the correspondence between the money type and the storage device type, and store the piece of money in the corresponding target storage device.

5. The system of claim 2, wherein the transmission module comprises a first transmission channel and a second transmission channel;

the first transmission channel is used for transmitting the money to the corresponding storage device;

the second transport path is for transporting the currency to the return outlet.

6. The system according to claim 1, wherein said judging means is further configured to judge whether said money is present in said transporting means;

and if not, controlling all the storage devices to stop working.

7. The system of claim 1, further comprising a detaching device coupled to the identification device;

the separating device is used for separating a plurality of pieces of money and feeding the money into the identifying device one by one.

8. A method for controlling the deposit of banknotes, said method being used in a system according to any one of the preceding claims 1 to 7; the method comprises the following steps:

acquiring the authenticity and type of currency and the total power consumption of a system;

when the currency is true, judging whether a preset condition is met between the total power consumption of the current currency storage control system and a preset power consumption threshold, and if the preset condition is met, judging whether the number of the storage devices in the running state is greater than a preset threshold;

if the number of the storage devices in the running state is larger than a preset threshold value, controlling the conveying device to convey the currency to a return outlet; and if the number of the storage devices in the running state is not larger than the preset threshold value, starting the storage devices corresponding to the currency types, and controlling the conveying device to convey the currency to the storage devices corresponding to the currency types.

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