CN212379909U - Intelligent identifying platform for foreign currency - Google Patents

Abstract

The utility model discloses a this foreign currency intelligence appraises platform, include: the identification module and the control module are mutually connected in communication; the identification module comprises a RMB identification submodule and a foreign currency identification submodule and is used for identifying the RMB and/or the foreign currency and transmitting identification information to the control module; and the control module is used for receiving and processing the authentication information transmitted by the authentication module. The platform of the utility model comprises a RMB identification submodule and a foreign currency identification submodule, which can respectively identify the RMB and the foreign currency; the control module is included and can collect and process the identification information submitted by the two sub-modules. Furthermore, the RMB identification submodule is provided with a coin identifier, so that the authenticity of the common coins can be identified; furthermore, the foreign currency identification submodule is provided with a CIS image sensor which can identify the serial number of the paper currency; further, the control module generates an authentication report according to a preset format.

Description

Intelligent identifying platform for foreign currency

Technical Field

The utility model relates to a currency examine equipment technical field, concretely relates to this foreign currency intelligence appraisal platform.

Background

In order to improve the anti-counterfeit currency level of China and guarantee the currency circulation order and the national financial safety. Further standardize the orderly development of anti-counterfeit money work, perfect an anti-counterfeit money system frame, standardize the financial market order, maintain the reputation of the RMB, and establish and release the management methods of money identification and counterfeit money collection and identification of the China RMB, which are implemented from 4 months and 1 day of 2020.

The money identification obligation of banking financial institutions is added in the management method of money identification and counterfeit money collection and identification of the Chinese people bank, so that the precaution management is enhanced; meanwhile, the counterfeit money receiving and paying identification management of the bank to banking financial institutions and related identification units is strengthened, and the right protection of the received and paid people is enhanced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a this foreign currency intelligence appraises platform.

The utility model adopts the technical scheme as follows:

the utility model provides a platform is appraised to this foreign currency intelligence, includes: the identification module and the control module are mutually connected in communication; the identification module comprises a RMB identification submodule and a foreign currency identification submodule and is used for identifying the RMB and/or the foreign currency and transmitting identification information to the control module; and the control module is used for receiving and processing the authentication information transmitted by the authentication module.

According to the technical solution provided by the utility model, the embodiment of the utility model has the following advantage:

the RMB and foreign currency identification submodules are provided to respectively identify the RMB and the foreign currency, and the control module is provided to process the identification information submitted by the two submodules in a gathering way.

Furthermore, the RMB identification submodule is provided with a coin identifier, so that the authenticity of common coins can be identified.

Furthermore, the foreign currency identification submodule is provided with a CIS image sensor, and can identify the serial number of the paper currency.

Further, the control module generates an authentication report according to a preset format.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments and the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a structural diagram of the present intelligent foreign currency identification platform according to an embodiment of the present invention;

FIG. 2 is an external view of the RMB identification submodule according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a RMB identification submodule in an embodiment of the present invention;

FIG. 4 is a top sensor layout view of the RMB identification submodule in an embodiment of the present invention;

FIG. 5 is a bottom sensor layout view of the RMB identification submodule in an embodiment of the present invention;

FIG. 6 is an external view of a foreign currency identification submodule in an embodiment of the present invention;

FIG. 7 is a cross-sectional view of a foreign currency identification submodule in an embodiment of the present invention;

FIG. 8 is a top sensor layout of a foreign currency identification submodule in an embodiment of the present invention;

fig. 9 is a bottom sensor layout of the foreign currency identification submodule in an embodiment of the invention.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

The terms "first," "second," "third," and the like in the description and in the claims, and in the drawings described above, are used for distinguishing between different objects and not necessarily for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

The following are detailed descriptions of the respective embodiments.

Referring to fig. 1, an embodiment of the present invention provides an intelligent foreign currency identification platform (hereinafter referred to as a platform or a device).

The platform comprises a control module 10 and an authentication module which are mutually communicated and connected, wherein the authentication module further comprises a RMB sub-module 20 and a foreign currency authentication sub-module 30. The identification module is used for identifying the RMB and/or the foreign currency and transmitting the identification information to the control module; the control module is used for receiving and processing the authentication information transmitted by the authentication module.

The RMB identification submodule can adopt a RMB currency detector with a RMB currency detection function, the foreign currency identification submodule can adopt a foreign currency detector with a foreign currency detection function, and the control module can adopt computer equipment with the software system of the foreign currency intelligent identification platform.

When the intelligent identification of the foreign currency is realized, two sub-modules of the platform can be respectively accessed into the computer equipment through serial ports. When the foreign currency is required to be intelligently identified, the foreign currency intelligent identification platform software can be started firstly, the RMB identification submodule and the foreign currency identification submodule are in a standby state, then the RMB and the foreign currency can be respectively identified by utilizing the two submodules, and the two submodules can transmit identification information to the foreign currency intelligent identification platform software on the computer equipment while outputting identification and judgment results respectively.

It should be noted that the software components involved in the platform may be implemented using conventional techniques, such as transmitting and receiving authentication information, performing conventional processing on the authentication information, and so forth. In particular, the computer device may receive the authentication information and generate an authentication report in a predetermined format using conventional techniques.

The utility model discloses what protect is the hardware architecture of this platform, follows and combines the figure to carry out the detailed description respectively to the concrete structure of RMB appraisal submodule 20 and foreign currency appraisal submodule 30.

[ I ] RMB appraisal submodule 20

Referring to fig. 2 to 5, the layout of the appearance, the cross-sectional structure, the upper sensor layout and the lower sensor layout of the rmb sub-module 20 are shown, respectively.

The RMB identification submodule comprises an equipment body and a detection circuit system arranged in the equipment body.

As shown in fig. 2 and 3, the apparatus body includes an upper case 201 and a lower case 202 which are fastened to each other. The upper shell 201 can be provided with a money inlet 203, an operation button 204, a display screen 205 and a coin inlet 206. The bottom case 202 may be provided with a switch 207, a serial port 208, a power socket 209, and the like. The equipment body can be internally provided with: a currency detecting channel communicated with the currency inlet 203, a conveying mechanism positioned in the currency detecting channel, a coin recognizer communicated with the coin inlet 206, a main board assembly 210, a power supply board assembly 211 and the like. The transport mechanism may include a conveyor belt 212 disposed within the path, a cash wheel 213 for driving the conveyor belt, a motor 214 for controlling the cash wheel, and a cash wheel 215 for applying notes to the conveyor belt. The switch 207 and the power socket 209 are connected to a power board assembly 211, and the power board assembly 211, the operation keys 204, the display 205, the serial port 208, the motor 214, and the like are connected to the motherboard assembly.

As shown in fig. 4 and 5, the detection circuitry includes a processor disposed on the motherboard assembly 210 and a banknote position sensor and a banknote authenticity sensor communicatively coupled to the processor. The banknote position sensor may include a banknote-in detection sensor 216 disposed at the banknote-in port, a start detection sensor 217 disposed at a front end of the banknote detection passage, and an end detection sensor 218 disposed at a rear end of the banknote detection passage. The banknote authentication sensor may include a watermark detection sensor 219, a fluorescence detection sensor 220, an infrared reflection sensor 221, an infrared penetration sensor 222, a paper detection sensor 223, a color-changing ink sensor 224, a magnetic detection sensor 225, etc. provided in the banknote authentication passage.

The watermark detection sensor 219 may be formed by a pair of a violet light emitting tube and a color receiving sensor arranged on the same side at a certain angle to each other, the fluorescence detection sensor 220 may be formed by a pair of a fluorescent light emitting tube and a color receiving sensor arranged on the same side at a certain angle to each other, the infrared reflection sensor 221 may be formed by a pair of an infrared light emitting tube and an infrared receiving tube arranged on the same side at a certain angle to each other, the infrared penetration sensor 222 may be formed by a plurality of sets of infrared light emitting tubes and infrared receiving tubes arranged on the same side at a certain angle to each other, the paper detection sensor 223 may be formed by a pair of a violet light emitting tube and a color receiving sensor arranged on the same side at a certain angle to each other, and the magnetic detection sensor.

The processor is used for controlling the conveying mechanism to operate according to the banknote position information detected by the banknote position sensor, and is used for judging the authenticity of the banknote according to the banknote authenticity identification information detected by the banknote authenticity identification sensor and outputting a judgment result.

As described above, the rmb identification submodule is a rmb validator with a rmb checking function, and a coin identifier for checking the authenticity of a coin is further provided in the rmb validator.

The operational principle of the RMB identification submodule is as follows:

when the RMB needs to be identified, the RMB paper money is put into a money inlet of the RMB identification submodule. The money-entering detection sensor detects that the money is put in and feeds back a signal to a processor (CPU). The processor controls the starting motor to work, and the motor drives the conveying belt to feed the bank notes into the bank note detecting channel. When the banknote passes the start detection sensor, the sensor feeds back a signal to the processor. The processor controls a series of banknote counterfeit distinguishing sensors such as a watermark detection sensor, a fluorescence detection sensor, an infrared reflection sensor, an infrared penetration sensor, a paper detection sensor, a color-changing ink sensor, a magnetic detection sensor and the like to start working, and detects optical signals and/or magnetic signals and the like to be converted into electric signals.

After the paper money passes through a series of paper money discrimination sensors, each sensor feeds back received signals to a processor. The processor is used for judging the authenticity of the bank note through operation processing and outputting a judgment result. When the rear edge of the paper money passes through the end detection sensor, the sensor feeds an end signal back to the processor, the processor controls to close each paper money false distinguishing sensor, controls the motor to stop working, and ends the money detecting process. Furthermore, when the sub-module is connected to computer equipment, the intelligent foreign currency identification platform software system installed on the computer equipment can be operated to realize one-key intelligent identification and analysis of paper currency and generate an identification report.

[ II ] foreign currency identification submodule 30

Referring to fig. 6 to 9, the external layout, the upper sensor layout, the lower sensor layout and the cross-sectional structure of the foreign currency evaluation sub-module 30 are respectively shown.

The foreign currency identification submodule comprises a mechanism body and a detection circuit device inside the mechanism body.

As shown in fig. 6 and 7, the mechanism body includes a front case 301 and a bottom case 302 that are engaged with each other. The front shell 301 may have a cash inlet 303, a button 304, a display 305, and a printer system. A positioning plate 311 for positioning the width of the banknote can be arranged at the banknote inlet 303. The printer system may include a printer frame 306, a printer 307 mounted on the printer frame 306, a printing plate 308 attached to the printer frame 306, and a printing fixing cover 309, and a printing paper 310 fixed between the printing plate 308 and the printing fixing cover 309. Bottom case 302 may be provided with a switch, a serial port, a power socket, etc.

The mechanism body can be internally provided with: a currency examination channel communicated with the currency inlet 303, a conveying mechanism positioned in the currency examination channel, a main board assembly 312, a power board assembly, an image board assembly 313 and the like. The conveying mechanism can comprise a banknote pressing bottom plate 314 arranged at a banknote inlet, a conveyor belt arranged in the banknote detection channel, a banknote passing wheel 315 for driving the conveyor belt, a motor 316 for controlling the banknote passing wheel, and a banknote pressing wheel 317 acting on banknotes on the conveyor belt; optionally, a pinch roller 318 is included for compressing the belt.

The switch and the power socket are connected to the power board assembly, and the power board assembly, the image board assembly 313, the keys 304, the display 305, the serial port, the motor 316, and the like are connected to the main board assembly 312.

As shown in fig. 8 and 9, the detection circuitry includes a processor disposed on the motherboard assembly 312 and a banknote position sensor and a banknote authenticity sensor communicatively coupled to the processor. The banknote position sensor comprises a banknote inlet detection sensor 321 arranged at the banknote inlet, a starting detection sensor 322 arranged at the front end of the banknote detection channel, and an ending detection sensor 323 arranged at the rear end of the banknote detection channel. The banknote authentication sensor may include a paper detection sensor 324, a fluorescence detection sensor 325, an infrared reflection sensor 326, an infrared penetration sensor 327, a magnetic detection sensor 328, and a CIS image sensor 329 disposed in the banknote validation channel. The CIS is a Contact Image Sensor, which is called a Contact Image Sensor.

The paper detection sensor can be formed by a pair of purple light emitting tubes and color receiving sensors which are arranged on the same side at a certain angle, the fluorescence detection sensor can be formed by a pair of fluorescence emitting tubes and color receiving sensors which correspond up and down at a certain angle, the infrared reflection sensor can be formed by a pair of infrared emitting tubes and infrared receiving tubes which are arranged on the same side at a certain angle, and the infrared penetration sensor can be formed by a plurality of groups of infrared emitting tubes and infrared receiving tubes which correspond up and down.

The processor is used for controlling the conveying mechanism to operate according to the banknote position information detected by the banknote position sensor, and is used for judging the authenticity of the banknote according to the banknote fake identification information detected by the banknote fake identification sensor and outputting a judgment result, a banknote crown word number and an image.

As described above, the foreign currency identification submodule is a foreign currency detector having a foreign currency checking function, and is suitable for banknotes of multiple countries such as american countries, european countries, harbours, english, and korean countries, and particularly, a CIS image sensor for identifying a crown word number of a foreign currency and an image board assembly for performing image processing in cooperation with the CIS image sensor are further provided in the foreign currency detector, and can be used for identifying the crown word number of the banknote and an image thereof.

The working principle of the foreign currency identification submodule is as follows:

when the foreign currency needs to be identified, the positioning plate of the foreign currency identification submodule is positioned to the width of the bank note, and then the foreign currency paper money is put into the paper money inlet of the foreign currency identification submodule. When the money-entering detection sensor detects that the money is put in, the money-entering detection sensor feeds back a signal to the control processor. The processor controls the starting motor to work, and the motor drives the paper money passing wheel to feed paper money into the paper money detecting channel. When the banknote passes the start detection sensor, the sensor feeds back a signal to the processor. The processor controls and starts a series of banknote counterfeit discriminating sensors such as a paper detecting sensor, a fluorescence detecting sensor, an infrared reflection sensor, an infrared penetration sensor, a magnetic detecting sensor, a CIS image sensor, etc. to work, and detects a light signal and/or a magnetic signal, etc. to be converted into an electric signal.

After the banknote passes through a series of banknote authenticity detection sensors, each sensor feeds back received signals to the processor. The processor judges the authenticity of the bank note through operation processing, and outputs a judgment result, a bank note crown word number and an image. When the rear edge of the bank note passes through the end detection sensor, the sensor feeds an end signal back to the processor, the processor controls to close each counterfeit detection sensor, controls the motor to stop working, and ends the bank note detection process.

Furthermore, when the sub-module is connected to a computer device, the foreign currency intelligent identification platform software system installed on the computer device can be operated, one-key intelligent identification and analysis of the foreign currency can be achieved, an identification report can be generated, and the identification report can be printed through a printer.

To sum up, the utility model provides a this foreign currency intelligence appraises platform. According to the technical solution provided by the utility model, the embodiment of the utility model has the following advantage:

the RMB and foreign currency identification submodules are provided to respectively identify the RMB and the foreign currency, and the control module is provided to process the identification information submitted by the two submodules in a gathering way.

Furthermore, the RMB identification submodule is provided with a coin identifier, so that the authenticity of the common coins can be identified;

furthermore, the foreign currency identification submodule is provided with a CIS image sensor which can identify the serial number of the paper currency;

further, the control module generates an authentication report according to a preset format.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; those of ordinary skill in the art will understand that: the technical solutions described in the above embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (7)

1. The utility model provides a platform is appraised to this foreign currency intelligence which characterized in that includes:

the identification module and the control module are mutually connected in communication;

the identification module comprises a RMB identification submodule and a foreign currency identification submodule and is used for identifying the RMB and/or the foreign currency and transmitting identification information to the control module;

and the control module is used for receiving and processing the authentication information transmitted by the authentication module.

2. The intelligent foreign currency identification platform as claimed in claim 1,

the RMB identification submodule adopts a RMB currency detector with a RMB checking function, and a coin recognizer for checking the authenticity of the coin is also arranged in the RMB currency detector;

the foreign currency identification submodule adopts a foreign currency detector with a foreign currency detection function, and a CIS image sensor for identifying foreign currency crown word numbers is also arranged in the foreign currency detector.

3. The intelligent foreign currency identification platform according to claim 2,

the RMB identification submodule comprises an equipment body and a detection circuit system arranged in the equipment body, wherein the equipment body comprises a money inlet, a money detection channel and a transmission mechanism, and the detection circuit system comprises a processor, a money position sensor and a money identification sensor which are in communication connection with the processor;

the banknote position sensor comprises a banknote inlet detection sensor arranged at the banknote inlet, a start detection sensor arranged at the front end of the banknote detection channel and an end detection sensor arranged at the rear end of the banknote detection channel, and the banknote counterfeit detection sensor comprises a watermark detection sensor, a fluorescence detection sensor, an infrared reflection sensor, an infrared penetration sensor, a paper detection sensor, a color-changing ink sensor and a magnetic detection sensor which are arranged in the banknote detection channel;

the processor is used for controlling the conveying mechanism to operate according to the banknote position information detected by the banknote position sensor, and is used for judging the authenticity of the banknote according to the banknote authenticity identification information detected by the banknote authenticity identification sensor and outputting a judgment result.

4. A foreign currency intelligent authentication platform according to claim 3,

the conveying mechanism comprises a conveying belt arranged in the currency detecting channel, a currency passing wheel driving the conveying belt, a motor controlling the currency passing wheel, and a currency pressing wheel acting on the currency on the conveying belt.

5. The intelligent foreign currency identification platform according to claim 2,

the foreign currency identification submodule comprises a mechanism body and a detection circuit device inside the mechanism body, wherein the mechanism body comprises a currency inlet, a currency detection channel and a transmission mechanism, and the detection circuit device comprises a processor, a currency position sensor and a currency identification sensor which are in communication connection with the processor;

a positioning plate for positioning the width of the bank note is arranged at the bank note inlet;

the banknote position sensor comprises a banknote inlet detection sensor arranged at the banknote inlet, a starting detection sensor arranged at the front end of the banknote detection channel and an ending detection sensor arranged at the rear end of the banknote detection channel;

the banknote counterfeit detection sensor comprises a paper detection sensor, a fluorescence detection sensor, an infrared reflection sensor, an infrared penetration sensor, a magnetic detection sensor and a CIS image sensor which are arranged in a banknote detection channel;

the processor is used for controlling the conveying mechanism to operate according to the banknote position information detected by the banknote position sensor, and is used for judging the authenticity of the banknote according to the banknote fake identification information detected by the banknote fake identification sensor and outputting a judgment result, a banknote crown word number and an image.

6. The intelligent foreign currency identification platform according to claim 5,

the conveying mechanism comprises a conveying belt arranged in the currency detecting channel, a currency passing wheel driving the conveying belt, a motor controlling the currency passing wheel, and a currency pressing wheel acting on the currency on the conveying belt.

7. The intelligent foreign currency identification platform as claimed in claim 1,

the control module is a computer device which is provided with the foreign currency intelligent identification platform software system, and the computer device is used for receiving identification information and then generating an identification report according to a preset format.

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