CN2296541Y - Dynamic magnetic violet infrared three identification banknote counter - Google Patents

Abstract

The utility model relates to a dynamic magnetic violet infrared three identification banknote counter, which adopts magnetic identification, and obtains signals by banknote through a sensor MS; after amplified and compared, a detection circuit alarms to a counterfeit banknote buzzer and shuts down; the true and counterfeit of the banknote can be indentified by adopting fluorescent effect which is acted on the banknote by a violet light; the sensor can also be adopted to collect signals which are amplified, and meanwhile the penetrating performance of the infrared is adopted; the counterfeit banknote can be indentified by the detection circuit and the buzzer is adopted to alarm; the banknote counter combines the function of banknote identification and can avoid false identification or miss identification.

Description

Infrared three fake-identifying bank-note counting machines of dynamic type magnetic purple light

The utility model relates to infrared three fake-identifying bank-note counting machines of a kind of dynamic type magnetic purple light, is that a kind of combining with purple light, Infrared and magnetic differentiated the dynamic type equipment of its counterfeit money, belongs to the technical field that paper money counter equipment is equipped with.

Counterfeit money has been upset economy, and the manufacturing technology of counterfeit money also keeps on improving, and degree true to nature also is enough to alert people, make general paper money counter commonly used or cash inspecting machine be difficult to identification, therefore need a kind of more perfect equipment badly, counting and currency examine are combined as a whole, can solve an above-mentioned difficult problem.

The purpose of this utility model is that a kind of dynamic type purple light magnetic, infrared three fake-identifying bank-note counting machines that penetrate will be provided, it can overcome above-mentioned shortcoming, can effectively check the counterfeit money that has or not fluorescent effect, add and utilize the detection of magnetic the printing ink used of seal paper money, can improve the efficient of detection, utilize papery, the printing ink difference of Infrared penetration performance in addition to true and false paper money, can judge genuine notes or counterfeit money by circuit, stop the situation of flase drop and omission, and it is simple in structure, cost is also lower, dependable performance during use.

The purpose of this utility model is achieved in that

A kind of dynamic type magnetic purple light, infrared, three fake-identifying bank-note counting machines, its paper money counter has magnetic sensor circuit, purple light testing circuit and infrared penetration-detection circuit;

A, magnetic detection circuit, chip IC ₁1 end and capacitor C ₁₄Join 8 termination capacitor C ₁₅, C ₁₅Another termination capacitor C ₁₉, be connected to the potentiometer W of MS magnetic sensor simultaneously ₄, the potentiometer W of sensor MS ₅Respectively with capacitor C ₁₈And C ₂₀And connect, be connected in resistance R simultaneously again ₃₅, be connected to-5V W again ₄And W ₅Join, again with capacitor C ₁₈And C ₂₀And C ₁₉The other end respectively and after connecing, be connected to capacitor C again ₁₄With-15V, IC ₁2 termination capacitor C ₁₃, IC ₁4 be terminated at capacitor C ₁₂And C ₁₁, be connected to resistance R again ₃₂After, be connected to+5V IC ₁5 ends and capacitor C ₁₂, C ₁₁The other end joins, IC ₁6 ends and 7 ends be connected to capacitor C respectively ₁₀And resistance R ₂₀Two ends, and 7 ends and C ₁₀And R ₃₀Together be connected to resistance R ₂₉, be connected to capacitor C again ₉, and 6 ends and C ₁₀The other end and R ₃₀Together be connected to capacitor C ₈, C ₈Other end branch is connected to resistance R ₂₈And capacitor C ₁₆, R ₂₈And C ₁₆The other end is connected to 2/4IC ₂8 ends, tap one resistance R again simultaneously ₂₀, ground connection divides to be connected to IC then again ₂13 ends, 2/4IC ₂9 be terminated at resistance R ₃₁After, ground connection again, and also connecting resistance R of 10 ends ₃₁After ground connection again, its 10 end is connecting resistance R also ₂₇After, ground connection again, 2/4IC ₂12 terminating resistor R ₂₅, tap one variable potentiometer W again ₃, ground connection again, R ₂₅Tap one resistance R again ₂₄, IC ₂14 terminating diode D ₃Positive pole, D ₃Negative pole connecting resistance R ₂₃, the other end is connected to resistance R again ₂₁, be connected to IC again ₃6 ends, resistance R ₂₃Simultaneously again with capacitor C in parallel ₇And resistance R ₂₂After the tap, ground connection again, IC ₃5 terminating resistor R ₁₉, ground connection divides again to be connected to resistance R simultaneously again ₂₀, IC ₃8 be terminated at resistance R ₂₀The other end divides to be connected to+5V IC again ₃7 terminating resistor R ₁₈, be connected to AND circuit 1/4IC again ₄1 end, IC ₄2 terminating resistor R ₃₄, be connected to counter again, IC ₄3 be terminated at 1/4IC ₅1 end, divide again simultaneously to be connected to capacitor C ₁₇After, ground connection again, IC ₅2 be terminated at K switch _2-3The contact, K switch _2-3Meet diode D again ₈Positive pole, D ₈Negative pole is connected to diode D ₄Negative pole.

B, purple light testing circuit, IC ₆3 terminating resistor R ₁, ground connection again, and IC ₆2 terminating resistor R ₂, being connected to the positive pole of photosensitive tube TE again, the negative pole of TE is ground connection again, IC ₆2 ends be parallel to capacitor C again ₁And resistance R ₃, C ₁And R ₃Be connected to potentiometer W again ₁, W ₁One end ground connection, the other end and IC ₆6 end parallel connections, be connected to resistance R again ₄, R ₄Be connected to IC again ₃3 ends, R ₄Be connected in capacitor C again ₂And resistance R ₆, be connected to resistance R again ₇, ground connection again, IC ₇6 ends meet diode D again ₁Positive pole, D ₁Negative pole is connected to IC ₈6 ends, IC ₈4 ends and 8 ends be connected in resistance R ₈, resistance R ₈The other end and IC ₈2 end parallel connections after be connected to button switch K ₁, K ₁Contact ground connection again;

C, the infrared circuit that penetrates, its IC ₉1 end and 5 ends be parallel to capacitor C ₅, ground connection again, IC ₉4 ends and 8 ends be connected in+5V, be connected to simultaneously resistance R again ₁₃With potentiometer W ₂, resistance R ₁₃The other end is connected to photosensitive tube HGD ₁Positive pole, its negative pole is ground connection again, potentiometer W ₂Be connected to resistance R again ₁₄, R ₁₄The other end is connected to photosensitive tube HGD ₂Collector, HGD ₂Grounded emitter, R ₁₄Be connected to simultaneously resistance R again ₁₅, be parallel to IC again ₉6 ends and 2 ends, IC ₉3 terminating resistor R ₁₆, be connected to 1/4IC again ₄5 ends, 1/4/IC ₄6 terminating resistor R ₃₅After be connected to the synchronization pulse of fetching from counter again, IC ₄4 ends be connected to 1/6IC again ₅3 ends, connect simultaneously capacitor C again ₁₈After, ground connection, IC ₅4 terminating diode D ₄Positive pole, its negative pole again with diode D ₈Negative pole be parallel to IC ₈6 ends.

Warning circuit IC ₈3 terminating resistor R ₉, be connected to triode Q again ₁Base stage, Q ₁Grounded emitter, its collector again with relay J ₁Join, be parallel to diode D simultaneously ₂Positive pole, D ₂Negative pole again with J ₁Join.

The synoptic diagram of Fig. 1 long runway horizontal type cash counter;

The synoptic diagram of Fig. 2 long runway horizontal type cash counter;

Fig. 3 dash road horizontal type cash counter synoptic diagram;

Fig. 4 twists with the fingers the structural representation of paper money part;

Fig. 5 is the A-A cut-open view of Fig. 4

Fig. 6 cash dispenser axis part-structure synoptic diagram;

Fig. 7 cash dispenser axis bearing levelling synoptic diagram;

Fig. 8 twists with the fingers paper money and defeated paper money axle synoptic diagram;

Fig. 9 cash register circuit figure;

The counter sand intention of Figure 10 paper money counter;

Now in conjunction with the accompanying drawings the infrared structure that penetrates triple fake-identifying bank-note counting machines of purple light magnetic is described in detail:

By Fig. 1, the inner casing of paper money counter (6) is a polygon, the equal level of upper right side and left upper end, the middle part is downward-sloping from right to left, and the lower-left end is inwardly recessed again, outer cage (12) places between the inner casing (6) of both sides, the both ends horizontal middle part tilts, similar stepped appearance, and motor switch (2) power switch (3) and reset key (4) are equipped with in inner casing (6) left end top, the left upper end of rear portion inner casing (6) is equipped with display (13), and paper money bucket (7) is equipped with down at the paper money counter rear portion.The inner casing of paper money counter (6) lower-left end is equipped with arrangement amplitude bar (1), on the transmission shaft at paper money counter middle part cash dispenser axis (5) is housed, and infrared sensor (8) magnetic sensor (9) is equipped with, probe (10) infrared tube (11) successively in this top, right side of taking turns (5).

By Fig. 2, the structure of long runway horizontal type cash counter and structural similarity shown in Figure 1, just the lower-left end of paper money counter inner casing (6) is equipped with an arrangement amplitude knob (14), inner casing (6) left upper end has counting switch (15) and reset key (4), the left part of outer cage (11) has display (13), on the transmission shaft at paper money counter middle part money out wheel (5) is housed, top, wheel right side is infrared sensor (8), magnetic sensor (9) probe (10) and infrared tube (11) paper money counter, the rear portion has following paper money bucket (7) equally.

By Fig. 3, the horizontal type paper money counter in dash road is identical with Fig. 2 structure, and just runway is short slightly.

By Fig. 4, Fig. 5, rubber tire core (35) is housed on the counting shaft (36) and twists with the fingers paper money cushion rubber (34), there have been resistance rubber clamping plate (31) top, counting shaft (36) back, its underpart is connected with 4 and send paper money tongue (32), just in time be positioned between each rubber tire core (35) and the cushion rubber (34), be connected with a curved supporting plate (33) below clamping plate (31) right-hand member, banknote-sliding board (21) is screwed, banknote-sliding board (21) inboard is equipped with resistance rubber (22) and is sent paper money tongue clamping plate (23), its right side has up-down adjustment screw (24) to be fixed on to send on the paper money plate (25), on the front and back adjusting screw (26) spring (27) is arranged, this adjusting screw (26) is connected with adjustable column (28), adjustable column spring (29) is sleeved on the adjustable column (28), and resistance rubber clamping plate (31) right side has a shelf bracket (30).

By Fig. 6, Fig. 7, there is bearing seat (42) at cash dispenser axis (41) two ends, bearing (42) is contained on the bearing bridge (43), 4 core wheels (40) are housed on the cash dispenser axis (41) and twist with the fingers paper money cushion rubber (34), below the cash dispenser axis (41) three press-note bars (45), press-note bar (45) one ends have money pressing wheel (47) to be contained on the little axle of money pressing wheel (46), paper-note conveying belt (44) places below the press-note bar (45), be with a front shaft sleeve (48) on the front axle (49), be equipped with on the countershaft (51) runner circle (39), press-note bar axle (37) is contained on the press-note jack-post (38), and rear axle (52) is contained in the left side of press-note bar axle (37).

Bearing (42) is on support (43), and adjusting bolt (50) is arranged at the bottom, also is with spring (58) on the bolt (50).

By Fig. 8, belt pulley (53) is housed on the counting shaft (36), be connected with beating power wheel (56) by driving-belt (57), go out paper money power wheel (54) is housed out on the paper money transmission shaft (41), go up note conveying wheel (55-1) by driving-belt (57) and defeated paper money axle (52) and join, also have a note conveying wheel (55-2) and driving-belt outside surface to join in driving-belt (57) outside.

By Fig. 9, chip IC ₁1 end and the capacitor C of (model BA328) ₁₄Join 8 termination capacitor C ₁₅, C ₁₅Another termination capacitor C ₁₉, be connected to the potentiometer W of MS magnetic sensor simultaneously ₄, the potentiometer W of sensor MS ₅Respectively with capacitor C ₁₈And C ₂₀And connect, be connected in resistance R simultaneously again ₃₃, be connected to-5V W again ₄And W ₅Join and capacitor C ₁₈And C ₂₀And C ₁₉The other end respectively and after connecing, be connected to capacitor C again ₁₄With-15V, IC ₁2 termination capacitor C ₁₃, IC ₁4 be terminated at capacitor C ₁₂And C ₁₁, be connected to resistance R again ₃₂After, be connected to+5V IC ₁5 ends and capacitor C ₁₂, C ₁₁The other end joins, IC ₁6 ends and 7 ends be connected to capacitor C respectively ₁₀And resistance R ₂₀Two ends, and 7 ends and C ₁₀And R ₃₀Together be connected to resistance R ₂₉, be connected to capacitor C again ₉₆End and C ₁₀The other end and R ₃₀Together be connected to capacitor C ₈, C ₈Other end branch is connected to resistance R ₂₈And capacitor C ₁₆, R ₂₈And C ₁₆The other end is connected to 1/4IC ₂12 ends, 2/4IC ₂9 be terminated at resistance R ₃₁After, ground connection again, 10 ends are connecting resistance R also ₂₇After ground connection again, 2/4IC ₂4 terminations+5V, 11 terminations-5V, 12 terminating resistor R ₂₅, tap one variable potentiometer W again ₃, ground connection again, R simultaneously ₂₅Tap one resistance R again ₂₄, 2/4 IC ₂14 terminating diode D ₃Positive pole, its negative pole connecting resistance R ₂₃, resistance R ₂₃Other end connecting resistance R ₂₁Be connected to IC again ₃8 ends of (model C F358), resistance R ₂₃Simultaneously again with capacitor C in parallel ₇And resistance R ₂₂After the tap, ground connection again.

Resistance R ₂₁Also tap capacitor C of the other end ₆, ground connection again, IC ₃4 terminations-5V, 5 terminating resistor R ₁₉, ground connection divides again to be connected to resistance R simultaneously again ₂₀, IC ₃8 be terminated at resistance R ₂₀The other end, together divide to be connected to+5V IC ₃7 terminating resistor R ₁₈, be connected to AND circuit 1/4IC again ₄1 end of (model C D4077), IC ₄2 terminating resistor R ₃₄, obtain synchronous pulse signal, IC by counter ₄3 be terminated at 1/4IC ₅₉Model 40106) 1 end, tap capacitor C simultaneously ₁₇After, ground connection again.

IC ₅2 termination K switch _2-3The contact, K switch _2-3The contact is connected to diode D again ₈Positive pole, its negative pole meets diode D ₄Negative pole, D ₄Positive pole and 1/6IC ₅4 ends of chip (model C D4077) join 1/6IC ₅3 termination capacitor C ₁₈Back ground connection, simultaneously 3 ends again with 1/4IC ₄4 ends join 1/4IG ₄5 terminating resistor R ₁₆Be connected to IC again ₉9 models 555) 3 ends, 1/4IC ₄6 terminating resistor R ₃₅, be connected K switch with the counter synchronisation pulse signal again _2-3Contact (4) connecting resistance R ₁₇, meet photodiode D again ₆Positive pole, D ₆Negative pole is ground connection again, K _2-3The contact 3 of switch is connected to IC ₈(model 555) 8 ends meet+5V IC again simultaneously ₈4 ends and 8 ends be connected in resistance R ₈, resistance R ₈The other end and IC ₈2 ends and connect after be connected to button switch K ₁, K switch ₁The contact is ground connection again, IC ₈5 termination capacitor C ₃, again with IC ₈End be connected in ground, IC ₈3 terminating resistor R ₉, be connected to triode Q again ₁Base stage, the Q utmost point grounded emitter, collector and relay J ₁Join, be connected in diode D simultaneously ₂Positive pole, D ₂Negative pole again with J ₁Relay joins, IC ₈3 ends meet simultaneously IC again ₅5 ends and 7 ends, be parallel to resistance R again ₁₁Be connected to light emitting diode D ₆Positive pole, its minus earth, IC ₅6 terminating resistor R ₁₀, be connected to triode Q again ₂Positive pole, Q ₂Grounded emitter, and collector meets hummer 2D, is parallel to capacitor C simultaneously ₄, 2/6IC ₅8 terminating resistor R ₁₂, be connected to light emitting diode D again ₆Positive pole, its minus earth, IC ₆(model 3140) 3 terminating resistor R ₁, ground connection again, 2 terminating resistor R ₂, connecing the positive pole of photosensitive tube (TE) again, the negative pole of TE is ground connection again, IC ₆2 ends of (model 3140) are connected in capacitor C again to be held and resistance R ₃, R ₃And C ₁Other end parallel connection, be connected to potentiometer W ₁, W ₁One end ground connection, the other end and IC ₆6 end parallel connections, be connected to resistance R ₄, R ₄The other end is connected to CI ₇3 ends, R simultaneously ₄Be connected in capacitor C again ₂And resistance R ₆, be connected to resistance R then ₇, ground connection again, IC ₇7 terminations+5V, 4 terminations-5V, 6 ends are parallel to diode D again ₁Positive pole, D ₁Negative pole is connected to IC again ₈6 ends of (model 555).

IC ₉1 end and 5 ends of (model 555) are parallel to capacitor C ₅, ground connection again, IC ₉4 ends and 8 ends be connected in+5V, be connected to simultaneously resistance R again ₁₃With potentiometer W ₂, resistance R ₁₃The other end is connected to photosensitive tube HGD ₁Positive pole, its negative pole is ground connection again, potentiometer W ₂Be connected to resistance R again ₁₄, R ₁₄The other end is connected to photosensitive tube HGD ₂Collector, HGD ₂Grounded emitter, R ₁₄Be connected to simultaneously resistance R again ₁₅, be parallel to IC again ₉6 ends and 2 ends, IC ₉3 terminating resistor R ₁₆, be connected to 1/4IC again ₄5 ends (model C D4077), 1/4/IC ₄6 terminating resistor R ₃₅After be connected to the synchronization pulse of fetching from counter again, IC ₄4 ends be connected to 1/6IC again ₅3 ends, connect simultaneously capacitor C again ₁₈After, ground connection, IC ₅4 terminating diode D ₄Positive pole, its negative pole again with diode D ₈Negative pole be parallel to IC ₈6 ends.

Transformer B ₁Elementary winding connect-the 220V power supply, its secondary winding is connected to by diode D ₈- D ₁₁1,2 end of the bridge rectifier of forming time is connected to ground again around winding simultaneously, output terminal 3,4 ends of bridge rectifier, and it 3 is terminated at capacitor C ₂₆, C ₂₂And IC ₁₀1 end of (model 7905), and 4 ends of bridge rectifier also are parallel to capacitor C ₂₅And C ₂₁And IC ₁₁1 end of (model 7605), IC ₁₁3 ends be parallel to capacitor C ₂₇, C ₂₃And be connected to+5V IC ₁₀3 ends also be connected in capacitor C ₂₈And C ₂₄, and be connected to-5V IC ₁₀2 ends and IC ₁₁2 ends join and capacitor C ₂₁, C ₂₂, C ₂₃, C ₂₄, C ₂₅, C ₂₆, C ₂₇, C ₂₈The other end also connect ground connection again.

The 2 terminating resistor R of counter portion U1A (model 74HC04) ₅₁And 3 ends of U1B (model 74HC04), 4 of U1B (74HC04) is terminated at 5 ends of U1C, and 4,5 ends connect capacitor C again ₃₂After, ground connection again, 4 ends connect 13 ends of U1F simultaneously again, divide to be connected to resistance R again ₅₆, be connected to U again ₂1 end of chip, U ₂And L ₁Chip joins, and 6 of U1C is terminated at JP ₂3 ends of chip, JP ₂10 ends of 1 termination U1E of chip, 11 ends of U1E are connected with 8 ends of U1D, are connected to resistance R simultaneously again altogether ₅₇, again with U ₁, U ₂, U ₃15 ends (R) of chip, JP ₂2 ends and JP ₃6,5,8 ends join and ground connection, JP ₃9 ends of 4 termination U1D, divide again simultaneously to be connected to R ₅₉And V _Cc, tap capacitor C again ₃₃Back ground connection, U ₂And L ₁, U ₃With L ₂, U ₄And L ₃Join U successively ₂5 termination U ₃1 end, U ₃5 termination U ₄1 end.

AC ₁Meet diode D ₁₁Positive pole, AC ₂Meet diode D ₁₂Positive pole, D ₁, D ₂Negative pole joins, again the tap capacitor C ₃₄And C ₃₅And U ₅(model LM7005) 1 end, C ₃₄And C ₃₅And U ₅2 ends and capacitor C ₃₆, capacitor C ₃₇After joining, ground connection again.

The principle of work of three false distinguishings:

1, magnetic detection

Bank note to by sensor MS produces a magnetoelectricity dynamic formula signal, by IC ₁Signal to this collection carries out first order amplification, by 1/2IC ₂Carry out the second time and amplify, shaping is later on by IC ₃Compare and deliver to 1/4IC again ₄1 end, 1/4IC ₄2 ends absorb synchronizing signal from counter, through 1/6IC ₅Pass through double-break switch K after the guiding _2-2 Trigger IC ₈6 ends, make IC ₈Upset, and make the circuit breaker action, so motor shuts down while buzzer warning, counterfeit money pilot lamp D ₆Light.

2, purple light detects

Operating bank note is subjected to exciting of purple light, produces different fluorescent effects, is gathered by optical sensor TE, through IC ₆After the preposition amplification, through IC ₇Carry out the second time and amplify, again by D ₁Deliver to IC ₈So genuine note passes through smoothly, and counterfeit money will trigger IC ₈Sending out changes, and causes the actuating of relay, and motor just stops moving the commentaries on classics, so hummer is just reported to the police the pilot lamp D of expression counterfeit money ₆Shinny.

3, infrared penetration-detection

HGD ₁Produce fixing transmitting illuminant, when banknote in service passes through, HGD ₂Different partial pressure value signals will be collected, control IC ₉Counter-rotating or bundle, deliver to 1/4IC again ₄5 ends, synchronously whether the 6th end is got the counter synchronisation signal,, make 4 to bring out existing no pulse number, and 1/6IC ₅After the paraphase, trigger IC again ₈To counterfeit money with regard to stopping alarm, pilot lamp D simultaneously ₅Shinny.

Compared with prior art, infrared three fake-identifying bank-note counting machines of dynamic type magnetic purple light have following advantage:

1, magnetic detection, purple light detection and the detection of infrared light are combined as a whole, make the false distinguishing performance aobvious Work improves, and can stop omission and mistake inspection situation;

2, have warning circuit in the circuit, capable of automatic alarm to counterfeit money;

3, infrared light penetration capacity is strong, utilizes infrared light to the difference of the genuine notes counterfeit money amount of penetrating, can True or false with correct detection banknote;

4, purple light is different to the fluorescence effect of genuine notes and counterfeit money, can reflect thus and survey the true or false of banknote;

5, magnetic head can correctly be judged the true or false of banknote to the magnetic reaction of the printing ink of printing of bank note;

6, simple in structure, cost is low.

Claims (2)

1, a kind of dynamic type magnetic purple light, infrared, three fake-identifying bank-note counting machines is characterized in that paper money counter has magnetic sensor circuit, purple light testing circuit and infrared penetration-detection circuit;

A, magnetic detection circuit, chip IC ₁1 end and capacitor C ₁₄Join 8 termination capacitor C ₁₅, C ₁₅Another termination capacitor C ₁₉, be connected to the potentiometer W of MS magnetic sensor simultaneously ₄, the potentiometer W of sensor MS ₅Respectively with capacitor C ₁₈And C ₂₀And connect, be connected in resistance R simultaneously again ₃₃, be connected to-5V W again ₄And W ₅Join, again with capacitor C ₁₈And C ₂₀And C ₁₉The other end respectively and after connecing, be connected to capacitor C again ₁₄With-15V, IC ₁2 termination capacitor C ₁₃, IC ₁4 be terminated at capacitor C ₁₂And C ₁₁, be connected to resistance R again ₃₂After, be connected to+5V IC ₁5 ends and capacitor C ₁₂, C ₁₁The other end joins, IC ₁6 ends and 7 ends be connected to capacitor C respectively ₁₀And resistance R ₂₀Two ends, and 7 ends and C ₁₀And R ₃₀Together be connected to resistance R ₂₉, be connected to capacitor C again ₉, and 6 ends and C ₁₀The other end and R ₃₀Together be connected to capacitor C ₈, C ₈Other end branch is connected to resistance R ₂₈And capacitor C ₁₆, R ₂₈And C ₁₆The other end is connected to 2/4IC ₂8 ends, tap one resistance R again simultaneously ₂₀, ground connection divides to be connected to IC then again ₂13 ends, 2/4IC ₂9 be terminated at resistance R ₃₁After, ground connection again, and also connecting resistance R of 10 ends ₃₁After ground connection again, its 10 end is connecting resistance R also ₂₇After, ground connection again, 2/4IC ₂12 terminating resistor R ₂₅, tap one variable potentiometer W again ₃, ground connection again, R ₂₅Tap one resistance R again ₂₄, IC ₂14 terminating diode D ₃Positive pole, D ₃Negative pole connecting resistance R ₂₃, the other end is connected to resistance R again ₂₁, be connected to IC again ₃6 ends, resistance R ₂₃Simultaneously again with capacitor C in parallel ₇And resistance R ₂₂After the tap, ground connection again, IC ₃5 terminating resistor R ₁₉, ground connection divides again to be connected to resistance R simultaneously again ₂₀, IC ₃8 be terminated at resistance R ₂₀The other end divides to be connected to+5V IC again ₃7 terminating resistor R ₁₈, be connected to AND circuit 1/4IC again ₄1 end, IC ₄2 terminating resistor R ₃₄, be connected to counter again, IC ₄3 be terminated at 1/4IC ₅I end, divide again simultaneously to be connected to capacitor C ₁₇After, ground connection again, IC ₅2 be terminated at K switch _2-3The contact, K switch _2-3Meet diode D again ₈Positive pole, D ₈Negative pole is connected to diode D ₄Negative pole.

B, purple light testing circuit, IC ₆3 terminating resistor R ₁, ground connection again, and IC ₆2 terminating resistor R ₂, being connected to the positive pole of photosensitive tube TE again, the negative pole of TE is ground connection again, IC ₆2 ends be parallel to capacitor C again ₁And resistance R ₃, C ₁And R ₃Be connected to potentiometer W again ₁, W ₁One end ground connection, the other end and IC ₆6 end parallel connections, be connected to resistance R again ₄, R ₄Be connected to IC again ₃3 ends, R ₄Be connected in capacitor C again ₂And resistance R ₆, be connected to resistance R again ₇, ground connection again, IC ₇6 ends meet diode D again ₁Positive pole, D ₁Negative pole is connected to IC ₈6 ends, IC ₈4 ends and 8 ends be connected in resistance R ₈, resistance R ₈The other end and IC ₈2 end parallel connections after be connected to button switch K ₁, K ₁Contact ground connection again;

C, the infrared circuit that penetrates, its IC ₉1 end and 5 ends be parallel to capacitor C ₅, ground connection again, IC ₉4 ends and 8 ends be connected in+5V, be connected to simultaneously resistance R again ₁₃With potentiometer W ₂, resistance R ₁₃The other end is connected to photosensitive tube HGD ₁Positive pole, its negative pole is ground connection again, potentiometer W ₂Be connected to resistance R again ₁₄, R ₁₄The other end is connected to photosensitive tube HGD ₂Collector, HGD ₂Grounded emitter, R ₁₄Be connected to simultaneously resistance R again ₁₅, be parallel to IC again ₉6 ends and 2 ends, IC ₉3 terminating resistor R ₁₆, be connected to 1/4 IC again ₄5 ends, 1/4/IC ₄6 terminating resistor R ₃₅After be connected to the synchronization pulse of fetching from counter again, IC ₄4 ends be connected to 1/6IC again ₅3 ends, connect simultaneously capacitor C again ₁₈After, ground connection, IC ₅4 terminating diode D ₄Positive pole, its negative pole again with diode D ₈Negative pole be parallel to IC ₈6 ends.

2, paper money counter according to claim 1 is characterized in that warning circuit IC ₈3 terminating resistor R ₉, be connected to triode Q again ₁Base stage, Q ₁Grounded emitter, its collector again with relay J ₁Join, be parallel to diode D simultaneously ₂Positive pole, D ₂Negative pole again with J ₁Join.

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