CN200956179Y - Papermoney detecting device and paper money identifying system - Google Patents

Abstract

The utility model discloses a note detector and note identifying system. The device is applicable in detecting the special ink on the notes and includes at least a loading disc, at least a light source emitter, at least one first light source receiver and at least one second light source receiver. Wherein, the note is loaded on the loading disc, the light source emitter on one side of the loading disc emits at least a detecting light source to the note, the first light source receiver on the same side receives the first shadow reflected by the special ink on the note, the second light source receiver on the other side receives the second shadow transmitted by the special ink on the note, and finally, the processing unit judges whether the note is real or fake.

Description

Bill arrangement for detecting and bill identification system

Technical field:

The utility model is about a kind of bill arrangement for detecting and bill identification system, particularly about the image that receives reflection and the transmission true and false with the identification bill.

Background technology:

People are familiar day by day for the use of science and technology now, therefore also brought up the speculator and utilized science and technology as guilty tool, especially with the counterfeit money manufacturing technology for, the manufacturing of counterfeit money more and more is difficult to resolution with genuine notes in appearance along with scientific-technical progress makes it.Add to the saving manpower develops and the commercial activity of being undertaken by machine, as business machines such as vending machine, money exchanger, automatic cash dispenser or game equipment, so, disturbed the financial market, also caused the loss on dealer's interests of using business machine because of spreading unchecked of counterfeit money.So relevant dealer does one's utmost to promote the identification capability of bill receiver inside, guaranteeing dealer's interests itself, thereby develop and various arrangement for detecting at anti-counterfeiting characteristics different on the bill.For example: utilize two or more different wave length irradiation bill, change, do mutual comparison with the genuine notes data again, to reach the effect of accurate identification forge or true or paper money to respond to high and low wave form varies and various amplitude that this high and low waveform was produced.

Though above-mentioned known techniques can effectively reach the purpose of the identification bill true and false really, this creator is as satisfying, and further improves with hope and can have more perfect bill identification system to produce.Satisfy in the utility model proposes a kind of bill arrangement for detecting and bill identification system with as an implementation and foundation.

Novel content:

Because above-mentioned problem, the purpose of this utility model provides a kind of bill arrangement for detecting and bill identification system, particularly about the image that receives reflection and the transmission true and false with the identification bill.

Edge is for reaching above-mentioned purpose, to include a load plate group, at least one light emitted device, at least one first light source receiver and at least one secondary light source receiver at least according to bill arrangement for detecting of the present utility model; Wherein, bill is carried on the load plate group launches at least one detecting light source irradiation on bill by the light emitted device of a side that is arranged at the load plate group, and the first light source receiver through being arranged at the same side receives by first image that specialty inks reflected on the bill, or the secondary light source receiver that is arranged at opposite side receives second image that specialty inks transmitted that passes on the bill, at last, processing unit is via calculating to discern aforementioned first or the true and false of second image.

Continue, for reaching another above-mentioned purpose, be applicable to the true and false of bill receiving trap according to bill identification system of the present utility model with the specialty inks on the identification bill, and have bill receiving trap main body the basic function that receives bill is provided, simultaneously, the bill identification system is arranged in the bill receiving trap, and this system includes at least one light source and drives module, a bill arrangement for detecting, at least one Light source correction module, at least one Light source correction control die set, the conversion of at least one light source voltage module, at least one voltage numerical digit conversion and control module and a processing unit; Wherein, light source drives module provides driving voltage to make the detecting of bill arrangement for detecting obtain first image or second image, the Light source correction module according to a correction parameter to proofread and correct the color of first image or second image, first or second video conversion that light source voltage conversion module then will have been proofreaied and correct is a voltage mode, voltage numerical digit conversion and control module then is converted to voltage mode the numerical digit pattern, processing unit receives the numerical digit pattern after first or second video conversion, via the true and false of calculating with the specialty inks on this bill of identification.

From the above, because of complying with bill arrangement for detecting of the present utility model and bill identification system, the image of penetration and specialty inks that transmission is detected is with the true and false of identification bill.

Description of drawings:

Fig. 1 is the calcspar of a bill arrangement for detecting of the present utility model;

Fig. 2 is the calcspar of a bill arrangement for detecting of preferred embodiment of the present utility model;

Fig. 3 is the bill arrangement for detecting entity cut-open view of preferred embodiment of the present utility model;

Fig. 4 is the bill receiving trap entity cut-open view according to preferred embodiment of the present utility model;

Fig. 5 is the infrared light light-emittingdiode that is assembled into one among Fig. 3 and the entity stereographic map of light-emitting diodes build infrared light OPTICAL SENSORS;

Fig. 6 is the calcspar of bill identification system of the present utility model;

Fig. 7 is the interlock circuit figure of light emitted device of the preferred embodiment of Fig. 6;

Fig. 8 is the interlock circuit figure of light source receiver of the preferred embodiment of Fig. 6;

Fig. 9 is the Light source correction process flow diagram of preferred embodiment of the present utility model;

Figure 10 is the calcspar of another bill arrangement for detecting of the present utility model;

Figure 11 is the calcspar of another bill arrangement for detecting of preferred embodiment of the present utility model;

Figure 12 is the calcspar of a bill arrangement for detecting more of the present utility model;

Figure 13 is the calcspar of a bill arrangement for detecting again of preferred embodiment of the present utility model.

The figure number explanation:

10 bill arrangement for detecting, 11 load plate groups

111 bills, 12 light emitted devices

121 detecting light sources, 122 reflection signals

123 transmission signals, 13 first light source receivers

14 secondary light source receivers, 21 UV-light luminous diodes

211 ultraviolet lights detecting light source, 212 second images

22 infrared light light-emittingdiodes, 221 infrared lights detecting light source

222 first images, 23 photoelectric crystals

24 photoelectric crystals, 31 passages

32 light-emittingdiodes, 33 OPTICAL SENSORS

34 infrared light light-emittingdiode and the photoelectric crystals that are assembled into one

40 bill receiving traps, 41 bill Department of Transportation

42 bill reservoir, 51 pedestals

6 bill receiving traps, 60 bill identification systems

61 light sources drive module 62 Light source correction modules

63 Light source correction control die set, 64 light source voltage conversion module

65 voltage numerical digits conversion module, 66 processing units

70 circuit, 71 Control of Voltage modules

72 controlling signal, 73 voltage signals

74 driving voltages, 75 detecting light sources

80 circuit, 81 reflection signals

82 transmission signals, 83 correction parameters

84 voltage modes, 85 numerical digit patterns

S91～S95 process step A0 bill arrangement for detecting

A1 load plate group A11 bill

A2 light emitted device A21 detects light source

A23 transmission signal A3 light source receiver

A31 UV-light luminous diode A311 ultraviolet light detecting light source

A312 image A32 photoelectric crystal

B0 bill arrangement for detecting B1 load plate group

B11 bill B2 light emitted device

B21 detecting light source B22 reflection signal

B3 light source receiver B31 infrared light light-emittingdiode

B311 infrared light detecting light source B312 image

The B32 photoelectric crystal

Embodiment:

Below be the preferred embodiment of bill arrangement for detecting of the present utility model and bill identification system, be convenient to understand that the component symbol of components identical will be illustrated with identical reference marks among the following embodiment for making.

Seeing also Fig. 1, is the calcspar of bill arrangement for detecting of the present utility model.This bill arrangement for detecting 10 is applicable to the specialty inks of detecting bill, and this device includes a load plate group 11, at least one light emitted device 12, at least one first light source receiver 13 and at least one secondary light source receiver 14 at least; Wherein, load plate group 11 is used to carry bill 111, the side that 12 of light emitted devices are arranged at load plate group 11 is used to launch at least one detecting light source 121 and shines in bill 111, the first light source receiver 13 and light emitted device 12 are arranged at the same side of load plate group 11, be used to receive a reflection signal 122 by the detecting light source that specialty inks reflected of bill 111, secondary light source receiver 14 and light emitted device 12 are relatively arranged on the opposite side of load plate group 11, are used to receive the transmission signal 123 that the detecting light source of the specialty inks on the bill 111 is crossed in transmission.

Seeing also Fig. 2, is the calcspar of the bill arrangement for detecting of preferred embodiment of the present utility model.This bill arrangement for detecting 10 includes a load plate group 11, a UV-light luminous diode 21, an infrared light light-emittingdiode 22 and photoelectric crystal 23 and 24.Wherein, load plate group 11 is used to carry bill 111, infrared light light-emittingdiode 22 and photoelectric crystal 23 are arranged at the same side of load plate group 11, infrared light light-emittingdiode 22 is used to launch infrared light detecting light source 221 and shines in bill 111,23 receptions of photoelectric crystal are by one first image 222 of the infrared light that specialty inks reflected of bill 111 detecting light source, UV-light luminous diode 21 and 24 of photoelectric crystals are relatively arranged on the not homonymy of load plate group 11, UV-light luminous diode 21 is used to launch ultraviolet light detecting light source 211 and shines in bill 111, and 24 of photoelectric crystals receive one second image 212 that the ultraviolet light detecting light source of the specialty inks on the bill 111 is crossed in transmission.

Seeing also Fig. 3, is the bill arrangement for detecting entity cut-open view of preferred embodiment of the present utility model.As shown in the figure, forming a passage 31 in the load plate group 11 passes through for bill, when bill admission passage 31, sense 31 of bill admission passages by light-emittingdiode 32 and OPTICAL SENSORS 33 and sent controlling signal, to start the bill arrangement for detecting, behind bill admission passage 31, detect second image that specialty inks on the bill is crossed in transmissions by UV-light luminous diode 21 that is arranged at load plate group both sides respectively and photoelectric crystal 24, and detect by first image of specialty inks reflection on the bill by infrared light light-emittingdiode that is assembled into one and photoelectric crystal 34.

Seeing also Fig. 4, is the bill receiving trap entity cut-open view according to preferred embodiment of the present utility model.As shown in the figure, bill receiving trap 40 includes a housing (not being shown among the figure), a bill arrangement for detecting 10, a bill Department of Transportation 41 and a bill reservoir 42; Wherein, bill, then is transported to bill reservoir 42 by bill Department of Transportation 41 with bill and deposits by behind bill arrangement for detecting 10 check of genuineness by 41 transportations of bill Department of Transportation.

Seeing also Fig. 5, is the infrared light light-emittingdiode that is assembled into one among Fig. 3 and the entity stereographic map of photoelectric crystal.As shown in the figure, infrared light light-emittingdiode 22 and photoelectric crystal 23 are arranged at respectively in the compartment out of the ordinary of a pedestal 51, form tool emission infrared light detecting light source and receive the infrared light light-emittingdiode that is assembled into one of reflection signal and the member of photoelectric crystal 34.

Among above-mentioned Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, the light emitted device 12 preferable UV-light luminous diodes 21 or infrared light light-emittingdiode 22 or the two of can be are also used; The first light source receiver 13 is preferably the infrared light OPTICAL SENSORS, and general infrared light OPTICAL SENSORS is preferably photoelectric crystal 23, can also be pure with photoelectric crystal 24 replacements; Secondary light source receiver 14 is preferably OPTICAL SENSORS, and general OPTICAL SENSORS is preferably photoelectric crystal 24, can also the infrared light OPTICAL SENSORS replace it; Detecting light source 121 then is a ultraviolet light detecting light source 211 as being sent by UV-light luminous diode 21, and being sent by infrared light light-emittingdiode 22 then is infrared light detecting light source 221; Reflection signal 122 is preferably and forms first image 222, also can be the color of reflected light or reflection; Transmission signal 123 is preferably and forms second image 212, also can be the color of transmitted light or transmission; And, bill arrangement for detecting 10 more can connect a Light source correction module, be used to proofread and correct the reflection signal 122 that received and color, image or the light of transmission signal 123, and the Light source correction module is controlled by at least one correction parameter that a Light source correction control die set is provided; Again, bill arrangement for detecting 10 more connects a light source and drives module and send detecting light source 121 with driving light source transmitter 12.

Seeing also Fig. 6, is the calcspar of bill identification system of the present utility model.This bill identification system 60 is applicable to the true and false of a bill receiving trap 6 with the specialty inks on identification one bill, bill receiving trap 6 has a bill receiving trap main body provides the basic function that receives bill, simultaneously, bill identification system 60 is arranged in the bill receiving trap 6, and this system includes at least one light source at least and drives module 61, a bill arrangement for detecting 10, at least one Light source correction module 62, at least one Light source correction control die set 63, at least one light source voltage conversion module 64, at least one voltage numerical digit conversion module 65 and a processing unit 66; Wherein, light source drives module 61 provides driving voltage to make bill arrangement for detecting 10 detecting bills obtain a reflection signal and a transmission signal, Light source correction module 62 provides at least one correction parameter to proofread and correct the color of reflection signal and transmission signal by Light source correction control die set 63, reflection signal and transmission signal that 64 of modules of light source voltage conversion will have been proofreaied and correct are converted to a voltage mode, 65 of voltage numerical digit conversion and control modules are converted to a numerical digit pattern with voltage mode, processing unit 66 receives the numerical digit pattern after reflection signal and the conversion of transmission signal, via the true and false of calculating with the specialty inks on the identification bill.In addition, bill arrangement for detecting 10 includes a load plate group 11, at least one light emitted device 12, at least one first light source receiver 13 and at least one secondary light source receiver 14 as shown in Figure 1, by detecting light source 121 detect reflection signal 122 and transmission signal 123.

Seeing also Fig. 7, is the interlock circuit figure of light emitted device of the preferred embodiment of Fig. 6.As shown in the figure, circuit 70 includes a light source driving module 61, at least one light emitted device 12 and a Control of Voltage module 71; Wherein, Control of Voltage module 71 receives a controlling signal 72, drives module 61 to export a voltage signal 73 to light source, and light source drives module 61 after receiving voltage signal 73, exports a driving voltage 74 to start light emitted device 12 emission detecting light sources 75.

Seeing also Fig. 8, is the interlock circuit figure of light source receiver of the preferred embodiment of Fig. 6.As shown in the figure, circuit 80 includes at least one light source receiver 13 and 14, at least one Light source correction module 62, at least one Light source correction control die set 63, at least one light source voltage conversion module 64, at least one voltage numerical digit conversion module 65 and a processing unit 66; Wherein, after light source receiver 13 and 14 receives reflection signal 81 or transmission signal 82, provide at least one correction parameter 83 to give Light source correction module 62 by Light source correction control die set 63 earlier to proofread and correct the color of reflection signal 81 or transmission signal 82, reflection signal 81 or transmission signal 82 that 64 of modules of light source voltage conversion will have been proofreaied and correct are converted to a voltage mode 84,65 of voltage numerical digit conversion and control modules are converted to a numerical digit pattern 85 with voltage mode 84, processing unit 66 receives the numerical digit pattern 85 after reflection signal 81 or 82 conversions of transmission signal, via the true and false of calculating with the specialty inks on the identification bill.

Seeing also Fig. 9, is the Light source correction process flow diagram of preferred embodiment of the present utility model.This flow process comprises the following step by beginning expansion:

Step S91: set light emitted device height border grade;

Step S92: judge that whether the light emitted device height border grade set can accept for the light source receiver; If then carry out step S93; If not, then carry out step S94;

Step S93: store a numerical value that goes out by light emitted device height border rating calculation;

Step S94: the problem of light source receiver;

Step S95: but adjustment light emitted device is this numerical value and judges whether to be light source receiver range of receiving; If then finish the Light source correction flow process; If not, then carry out step S91.

Above-mentioned Fig. 6, Fig. 7, Fig. 8 and Fig. 9, the light emitted device 12 preferable UV-light luminous diodes 21 or infrared light light-emittingdiode 22 or the two of can be are also used; The first light source receiver 13 is preferably the infrared light OPTICAL SENSORS, and general infrared light OPTICAL SENSORS is preferably photoelectric crystal 23, can also be pure with photoelectric crystal 24 replacements; Secondary light source receiver 14 is preferably OPTICAL SENSORS, and general OPTICAL SENSORS is preferably photoelectric crystal 24, can also the infrared light OPTICAL SENSORS replace it; Detecting light source 121 as sent by UV-light luminous diode 21 and then to be the detecting light source 75 of ultraviolet light is sent by infrared light light-emittingdiode 22 and then is the detecting light source 75 of infrared light; Reflection signal 81 is preferably and forms an image signal, also can be the color of reflected light or reflection; Transmission signal 82 is preferably and forms an image signal, also can be the color of transmitted light or transmission; Processing unit 66 is preferably microprocessor; And bill identification system 60 more comprises a bill feature data bank, is located in the bill receiving trap 6, is used to provide the usefulness of feature to distinguish true from false as processing unit 66 of the specialty inks of bill; Processing unit 66 is via the true and false of calculating with color, image or the light of perception reflex signal 81 and transmission signal 82.

Seeing also Figure 10, is the calcspar of bill arrangement for detecting of the present utility model.This bill arrangement for detecting A0 is applicable to the specialty inks of detecting bill, and this device includes a load plate group A1, at least one light emitted device A2 and at least one light source receiver A3 at least; Wherein, load plate group A1 is used to carry bill A11, the side that light emitted device A2 then is arranged at load plate group A1 is used to launch at least one detecting light source A21 and shines in bill A11, light source receiver A3 and light emitted device A2 are relatively arranged on the opposite side of load plate group A1, are used to receive the transmission signal A23 that the detecting light source of the specialty inks on the bill A11 is crossed in transmission.

Seeing also Figure 11, is the calcspar of the bill arrangement for detecting of preferred embodiment of the present utility model.This bill arrangement for detecting A0 includes a load plate group A1, a UV-light luminous diode A31 and a photoelectric crystal A32.Wherein, load plate group A1 is used to carry bill A11, UV-light luminous diode A31 and photoelectric crystal A32 then are relatively arranged on the not homonymy of load plate group A1, UV-light luminous diode A31 is used to launch ultraviolet light detecting light source A311 and shines in bill A11, and photoelectric crystal A32 then receives the image A312 that the ultraviolet light detecting light source of the specialty inks on the bill A11 is crossed in transmission.

Among above-mentioned Figure 10 and Figure 11, the preferable UV-light luminous diode A31 or infrared light light-emittingdiode or the two of can be of light emitted device A2 also uses; Light source receiver A3 is preferably OPTICAL SENSORS, and general OPTICAL SENSORS is preferably photoelectric crystal A32; Detecting light source A21 then is ultraviolet light detecting light source A311 as being sent by UV-light luminous diode A31, is sent by the infrared light light-emittingdiode then to be infrared light detecting light source; Transmission signal A23 is preferably and forms image A312, also can be the color of transmitted light or transmission; And bill arrangement for detecting A0 more can connect a Light source correction module, be used to proofread and correct color, image or the light of the transmission signal A23 that is received, and the Light source correction module is controlled by at least one correction parameter that a Light source correction control die set is provided; Again, bill arrangement for detecting A0 more connects a light source and drives module and send detecting light source A21 with driving light source transmitter A2.

Seeing also Figure 12, is the calcspar of bill arrangement for detecting of the present utility model.This bill arrangement for detecting B0 is applicable to the specialty inks of detecting bill, and this device includes a load plate group B1, at least one light emitted device B2 and at least one light source receiver B3 at least; Wherein, load plate group B1 is used to carry bill B11, the side that light emitted device B2 then is arranged at load plate group 11 is used to launch at least one detecting light source B21 and shines in bill B11, light source receiver B3 and light emitted device B2 are arranged at the same side of load plate group B1, are used to receive the reflection signal B22 by the detecting light source that specialty inks reflected of bill B11.

Seeing also Figure 13, is the calcspar of the bill arrangement for detecting of preferred embodiment of the present utility model.This bill arrangement for detecting B0 includes a load plate group B1, an infrared light light-emittingdiode B31 and a photoelectric crystal B32.Wherein, load plate group B1 is used to carry bill B11, infrared light light-emittingdiode B31 and photoelectric crystal B32 are arranged at the same side of load plate group B1, infrared light light-emittingdiode B31 is used to launch infrared light detecting light source B311 and shines in bill B11, and photoelectric crystal B32 then receives by an image B312 of the infrared light that specialty inks reflected of bill B11 detecting light source.

Among above-mentioned Figure 12 and Figure 13, the preferable infrared light light-emittingdiode B31 or UV-light luminous diode or the two of can be of light emitted device B2 also uses; Light source receiver B3 is preferably OPTICAL SENSORS, and general OPTICAL SENSORS is preferably photoelectric crystal A32; Detecting light source B11 then is infrared light detecting light source B311 as being sent by infrared light light-emittingdiode B31, is sent by the UV-light luminous diode then to be ultraviolet light detecting light source; Reflection signal B22 is preferably and forms image B312, also can be the color of reflected light or reflection; And bill arrangement for detecting B0 more can connect a Light source correction module, be used to proofread and correct color, image or the light of the reflection signal B22 that is received, and the Light source correction module is controlled by at least one correction parameter that a Light source correction control die set is provided; Again, bill arrangement for detecting B0 more connects a light source and drives module and send detecting light source B11 with driving light source transmitter B2.

The above only is an illustrative, but not is restricted person.Anyly do not break away from spirit of the present utility model and category, and, all should be contained in the claim scope of this case its equivalent modifications of carrying out or change.

Claims (46)

1, a kind of bill arrangement for detecting is applicable to the specialty inks of detecting a bill, it is characterized in that this device comprises at least:

One load plate group is used to carry this bill;

At least one light emitted device, a side that is arranged at this load plate group is used to launch at least one detecting light source irradiation in this bill;

At least one first light source receiver is arranged at the same side of this load plate group with this light emitted device, is used to receive the reflection signal by this detecting light source that specialty inks reflected of this bill;

At least one secondary light source receiver is relatively arranged on the opposite side of this load plate group with this light emitted device, is used to receive a transmission signal of this detecting light source of the specialty inks on this bill of transmission.

2, bill arrangement for detecting as claimed in claim 1 is characterized in that, those light emitted devices are a UV-light luminous diode or an infrared light light-emittingdiode.

3, bill arrangement for detecting as claimed in claim 1 is characterized in that, those first light source receivers are infrared light OPTICAL SENSORS.

4, bill arrangement for detecting as claimed in claim 3 is characterized in that, this infrared light OPTICAL SENSORS is a photoelectric crystal.

5, bill arrangement for detecting as claimed in claim 1 is characterized in that, those secondary light source receivers are OPTICAL SENSORS.

6, bill arrangement for detecting as claimed in claim 5 is characterized in that, this OPTICAL SENSORS is a photoelectric crystal.

7, bill arrangement for detecting as claimed in claim 1 is characterized in that, this detecting light source is an infrared light or ultraviolet light.

8, bill arrangement for detecting as claimed in claim 1 is characterized in that, this reflection signal is to form one first image.

9, bill arrangement for detecting as claimed in claim 1 is characterized in that, this transmission signal is to form one second image.

10, bill arrangement for detecting as claimed in claim 1 is characterized in that, this bill arrangement for detecting more connects a Light source correction module, is used to proofread and correct the color of this reflection signal that is received and the color of this transmission signal

11, bill arrangement for detecting as claimed in claim 10 is characterized in that, this Light source correction module is controlled by a Light source correction control die set.

12, bill arrangement for detecting as claimed in claim 11 is characterized in that, this Light source correction control die set more comprises at least one correction parameter with the usefulness as control.

13, bill arrangement for detecting as claimed in claim 1 is characterized in that, this bill arrangement for detecting more connects light source driving module and sends those detecting light sources to drive those light emitted devices.

14, a kind of bill identification system, be applicable to the true and false of a bill receiving trap with specialty inks on identification one bill, this bill receiving trap has a bill receiving trap main body and provides the basic function that receives this bill, it is characterized in that this system comprises at least:

At least one light source drives module, is located in this bill receiving trap, and a driving voltage is provided;

One bill arrangement for detecting, be located in this bill receiving trap, this bill arrangement for detecting has a load plate group, at least one light emitted device, at least one first light source receiver and at least one secondary light source receiver, wherein, this load plate group is used to carry this bill, those light emitted devices are sides that are arranged at this load plate group, be used to receive this driving voltage to launch at least one detecting light source irradiation in this bill, those first light source receivers and those light emitted devices are arranged at the same side of this load plate group, be used to receive a reflection signal by this detecting light source that specialty inks reflected of this bill, those secondary light source receivers and those light emitted devices are relatively arranged on the opposite side of this load plate group, are used to receive a transmission signal of this detecting light source of the specialty inks on this bill of transmission;

One Light source correction module is located in this bill receiving trap, according to a correction parameter with the color of proofreading and correct this reflection signal and the color of this transmission signal;

One processing unit is located in this bill receiving trap, receives this reflection signal proofreaied and correct and this transmission signal of having proofreaied and correct, via the true and false of calculating with the specialty inks on this bill of identification.

15, bill identification system as claimed in claim 14 is characterized in that, those light emitted devices are a UV-light luminous diode or an infrared light light-emittingdiode.

16, bill identification system as claimed in claim 14 is characterized in that, those first light source receivers are infrared light OPTICAL SENSORS.

17, bill detecting system as claimed in claim 16 is characterized in that, this infrared light OPTICAL SENSORS is a photoelectric crystal.

18, bill identification system as claimed in claim 14 is characterized in that, those secondary light source receivers are OPTICAL SENSORS.

19, bill detecting system as claimed in claim 18 is characterized in that, this OPTICAL SENSORS is a photoelectric crystal.

20, bill identification system as claimed in claim 14 is characterized in that, this detecting light source is an infrared light or a ultraviolet light.

21, bill identification system as claimed in claim 14 is characterized in that, this processing unit is a microprocessor.

22, bill identification system as claimed in claim 14, it is characterized in that, this bill identification system more comprises a bill feature data bank, is located in this bill receiving trap, is used to provide the usefulness of feature to distinguish true from false as this processing unit of the specialty inks of this bill.

23, bill identification system as claimed in claim 14 is characterized in that, this processing unit is via the true and false of calculating with the color of the color of discerning this reflection signal and this transmission signal.

24, bill identification system as claimed in claim 14 is characterized in that, this reflection signal is an image signal.

25, bill identification system as claimed in claim 14 is characterized in that, this transmission signal is an image signal.

26, bill identification system as claimed in claim 14 is characterized in that, this bill identification system more comprises light source voltage conversion module and voltage numerical digit conversion module.

27, a kind of bill arrangement for detecting is applicable to the specialty inks of detecting a bill, it is characterized in that this device comprises at least:

One load plate group is used to carry this bill;

At least one light emitted device, a side that is arranged at this load plate group is used to launch at least one detecting light source irradiation in this bill;

At least one light source receiver is relatively arranged on the opposite side of this load plate group with this light emitted device, is used to receive a transmission signal of this detecting light source of the specialty inks on this bill of transmission.

28, bill arrangement for detecting as claimed in claim 27 is characterized in that, those light emitted devices are a UV-light luminous diode or an infrared light light-emittingdiode.

29, bill arrangement for detecting as claimed in claim 27 is characterized in that, this light source receiver is an OPTICAL SENSORS.

30, bill arrangement for detecting as claimed in claim 29 is characterized in that, this OPTICAL SENSORS is a photoelectric crystal.

31, bill arrangement for detecting as claimed in claim 27 is characterized in that, this detecting light source is an infrared light or ultraviolet light.

32, bill arrangement for detecting as claimed in claim 27 is characterized in that, this transmission signal is to form an image.

33, bill arrangement for detecting as claimed in claim 27 is characterized in that, this bill arrangement for detecting more connects a Light source correction module, is used to proofread and correct the color of this transmission signal that is received.

34, bill arrangement for detecting as claimed in claim 33 is characterized in that, this Light source correction module is controlled by a Light source correction control die set.

35, bill arrangement for detecting as claimed in claim 34 is characterized in that, this Light source correction control die set more comprises at least one correction parameter with the usefulness as control.

36, bill arrangement for detecting as claimed in claim 27 is characterized in that, this bill arrangement for detecting more connects light source driving module and sends those detecting light sources to drive those light emitted devices.

37, a kind of bill arrangement for detecting is applicable to the specialty inks of detecting a bill, it is characterized in that this device comprises at least:

One load plate group is used to carry this bill;

At least one light emitted device, a side that is arranged at this load plate group is used to launch at least one detecting light source irradiation in this bill;

At least one light source receiver is arranged at the same side of this load plate group with this light emitted device, is used to receive the reflection signal by this detecting light source that specialty inks reflected of this bill.

38, bill arrangement for detecting as claimed in claim 37 is characterized in that, those light emitted devices are a UV-light luminous diode or an infrared light light-emittingdiode.

39, bill arrangement for detecting as claimed in claim 37 is characterized in that, this light source receiver is an OPTICAL SENSORS.

40, bill arrangement for detecting as claimed in claim 39 is characterized in that, this OPTICAL SENSORS is a photoelectric crystal.

41, bill arrangement for detecting as claimed in claim 37 is characterized in that, this detecting light source is an infrared light or ultraviolet light.

42, bill arrangement for detecting as claimed in claim 37 is characterized in that, this reflection signal is to form an image.

43, bill arrangement for detecting as claimed in claim 37 is characterized in that, this bill arrangement for detecting more connects a Light source correction module, is used to proofread and correct the color of this reflection signal that is received.

44, bill arrangement for detecting as claimed in claim 43 is characterized in that, this Light source correction module is controlled by a Light source correction control die set.

45, bill arrangement for detecting as claimed in claim 44 is characterized in that, this Light source correction control die set more comprises at least one correction parameter with the usefulness as control.

46, bill arrangement for detecting as claimed in claim 37 is characterized in that, this bill arrangement for detecting more connects light source driving module and sends those detecting light sources to drive those light emitted devices.

Images