CN215814329U - Paper money sorter - Google Patents

Abstract

A paper money sorter comprises a machine body and a top cover, wherein a paper money feeding channel is formed between the machine body and the top cover, a second paper money twisting wheel, a first paper money conveying wheel and a second paper money conveying wheel are sequentially installed on the machine body along the paper money feeding channel in a paper money feeding direction, and the second paper money twisting wheel, the first paper money conveying wheel and the second paper money conveying wheel are respectively sleeved on a second rotating shaft, a third rotating shaft and a fourth rotating shaft; advance paper money passageway and function passageway one end intercommunication, in the function passageway, install two CIS sensors on along the paper money direction of delivery in proper order, first transfer gear and first pair of transfer gear, two ultraviolet disinfection lamps, the vice transfer gear of second transfer gear and second, the third send the paper money wheel, the vice transfer gear of third transfer gear and third, two CIS sensors, two ultraviolet disinfection lamps are installed respectively in the both sides of function passageway, thereby act on two terminal surfaces of paper currency respectively, wherein two CIS sensors are used for obtaining the image that paper currency corresponds on the terminal surface respectively and distinguish in order to carry out the true and false to paper currency, two ultraviolet disinfection lamps are used for sending ultraviolet ray respectively.

Description

Paper money sorter

Technical Field

The utility model relates to a paper money device, in particular to a paper money sorter.

Background

The paper currency sorter is a kind of equipment for discriminating paper currency and sorting paper currency, and its functions mainly include counting, true and false discriminating and sorting. Due to the currency characteristics of paper currency, there are numerous contacts and therefore it is necessary to sterilize paper currency, but there is no similar design on current sorters. In addition, after the paper money is sorted, how to sort different paper money and then convey the paper money to different paper money receiving mechanisms is also an important technical point, the current similar structure is more complicated, the paper money is generally sorted firstly and then conveyed to the paper money receiving structures through different conveying structures for storage, the design undoubtedly increases the complexity of the structure, and the problem that the size of the whole sorting machine is larger is also caused.

In view of the above, the applicant has devised a banknote sorter capable of ultraviolet sterilizing banknotes and integrating the banknote sorting and conveying structure.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned drawbacks of the prior art, the present invention provides a banknote sorter.

In order to achieve the purpose, the utility model provides a paper money sorter, which comprises a machine body and a top cover, wherein one end of the top cover is circumferentially and rotatably arranged at the top of the machine body, a paper money feeding plate is arranged at the top of the machine body, and the paper money feeding plate and a paper money feeding top plate on the top cover jointly form a paper money feeding channel; the paper money feeding plate is provided with a first paper money twisting wheel which is used for inputting paper money into the paper money feeding channel one by one, the first paper money twisting wheel is sleeved on a first rotating shaft, and two ends of the first rotating shaft are respectively assembled with a first side plate and a second side plate on the machine body in a circumferential rotating manner; the machine body is also sequentially provided with a second money twisting wheel, a first money conveying wheel and a second money conveying wheel along the money feeding channel in the money feeding direction, the second money twisting wheel, the first money conveying wheel and the second money conveying wheel are respectively sleeved on a second rotating shaft, a third rotating shaft and a fourth rotating shaft, and the second rotating shaft, the third rotating shaft and the fourth rotating shaft are respectively assembled with the first side plate and the second side plate in a circumferential rotating manner;

the banknote feeding channel is communicated with one end of the functional channel, two CIS sensors, a first transmission wheel, a first auxiliary transmission wheel, two ultraviolet disinfection lamps, a second transmission wheel, a second auxiliary transmission wheel, a third banknote transmission wheel, a third transmission wheel and a third auxiliary transmission wheel are sequentially arranged in the functional channel along the banknote transmission direction, the two CIS sensors and the two ultraviolet disinfection lamps are respectively arranged on two sides of the functional channel and are respectively acted on two end faces of the banknote, the two CIS sensors are respectively used for acquiring images on the corresponding end faces of the banknote to identify the authenticity of the banknote, and the two ultraviolet disinfection lamps are respectively used for emitting ultraviolet light; the third cash conveying wheel, the first conveying wheel and the first auxiliary conveying wheel, the second conveying wheel and the second auxiliary conveying wheel, and the third conveying wheel and the third auxiliary conveying wheel are respectively used for clamping and conveying paper money.

Preferably, the second banknote twisting wheel is respectively pressed with the first top cover wheel and the second top cover wheel, so that the banknotes are conveyed one by one; but first top cover wheel suit is on first top cover axle with circumferential rotation, but second top cover wheel installs on the top cover wheel carrier circumferentially, but the suit is epaxial at first top cover with circumferential rotation ground of top cover wheel carrier, first top cover axle is installed on the top cover axial plate, but top cover axial plate one end and the assembly of second top cover axle circumferential rotation, second top cover axle is installed on the top cover.

Preferably, the top cover and the top cover shaft plate are assembled with one end of the first top cover shaft assembly through a first top cover spring in a connecting mode, the first top cover spring applies elastic force to the top cover shaft plate to press the banknote feeding plate downwards, so that the first top cover wheel is tightly pressed on the second banknote twisting wheel corresponding to the first top cover wheel, the second top cover wheel is mounted on the top cover wheel frame in a circumferentially rotatable mode, the second top cover spring is mounted between the top cover wheel frame and the top cover, and the second top cover spring is used for applying elastic force to the top cover wheel frame to rotate the second banknote twisting wheel.

Preferably, the first transmission wheel and the first auxiliary transmission wheel are mutually attached to convey paper money, the first transmission wheel and the first auxiliary transmission wheel are respectively sleeved on a fifth rotating shaft and a fifth auxiliary rotating shaft, the fifth rotating shaft is respectively assembled with the first side plate and the second side plate in a circumferential rotating manner, and the fifth auxiliary rotating shaft is arranged on the machine body in a circumferential rotating manner;

the second conveying wheel and the second auxiliary conveying wheel are mutually attached to convey paper money, the second conveying wheel and the second auxiliary conveying wheel are respectively sleeved on a sixth rotating shaft and a sixth auxiliary rotating shaft, the sixth rotating shaft is respectively assembled with the first side plate and the second side plate in a circumferential rotating mode, and the sixth auxiliary rotating shaft is arranged on the machine body in a circumferential rotating mode;

the third transmission wheel and the third auxiliary transmission wheel are mutually attached to convey paper money, the third transmission wheel and the third auxiliary transmission wheel are respectively sleeved on an eighth rotating shaft and an eighth auxiliary rotating shaft, the eighth rotating shaft is respectively assembled with the first side plate and the second side plate in a circumferential rotating manner, and the eighth auxiliary rotating shaft is arranged on the machine body in a circumferential rotating manner;

the third money sending wheel is sleeved on a seventh rotating shaft, and the seventh rotating shaft is respectively assembled with the first side plate and the second side plate in a circumferential rotating mode.

Preferably, the third rotating shaft and the second rotating shaft are connected through a second synchronous belt to form a belt transmission mechanism, the first synchronous belt bypasses the first rotating shaft, the second rotating shaft, the first intermediate shaft and the first motor shaft respectively to form the belt transmission mechanism, the first motor shaft is installed in the first motor, and the first motor is installed in the machine body; the third synchronous belt respectively bypasses a third rotating shaft, a fourth rotating shaft and a fifth rotating shaft to form a belt transmission mechanism, the fifth rotating shaft and the sixth rotating shaft are connected through the fourth synchronous belt to form the belt transmission mechanism, and the sixth rotating shaft and the seventh rotating shaft are connected through the fifth synchronous belt to form the belt transmission mechanism.

Preferably, the other end of the functional channel is communicated with one end of the flat conveying channel, the other end of the flat conveying channel is communicated with one end of the shunting channel, the flat conveying channel is arranged between the first flat conveying plate and the second flat conveying plate, the first flat conveying plate and the second flat conveying plate are respectively arranged on the flat conveying seat, the first flat conveying belt and the second flat conveying belt are respectively arranged on the upper side and the lower side of the flat conveying channel, and the first flat conveying belt and the second flat conveying belt can clamp and convey paper money when in operation, so that the paper money is conveyed from one end, close to the functional channel, of the flat conveying channel to one end of the shunting channel;

the first flat conveying belt respectively bypasses a first primary flat conveying shaft, a first secondary flat conveying shaft and a flat conveying intermediate shaft to form a belt transmission mechanism, and the second flat conveying belt respectively bypasses a second primary flat conveying shaft, a second secondary flat conveying shaft and a flat conveying intermediate shaft to form a belt transmission mechanism; the first one-number flat conveying shaft, the first second one-number flat conveying shaft, the flat conveying intermediate shaft, the second one-number flat conveying shaft and the second one-number flat conveying shaft are respectively assembled with the first side plate and the second side plate in a circumferential rotating mode;

the sixth synchronous belt respectively bypasses a seventh rotating shaft, an eighth rotating shaft and a second motor shaft to form a belt transmission mechanism, the second motor shaft is arranged in a second motor, and the second motor is arranged in the machine body; the second motor shaft is connected with the second flat conveying shaft through a fourth synchronous belt to form a belt transmission mechanism, and the second flat conveying shaft is connected with the second main clear branch shaft through an eighth synchronous belt to form the belt transmission mechanism.

Preferably, the flow dividing channel is arranged in the sorting module, the two sides of the flow dividing channel are respectively provided with a main sorting frame and at least two independent sorting frames, the main sorting frame is provided with two first main sorting shafts and a second main sorting shaft, the second main sorting shaft is sleeved with a main sorting belt wheel, and the main sorting belt respectively bypasses the two first main sorting shafts and the main sorting belt wheel to form a belt transmission mechanism; one side of the main sorting belt, which is close to the shunting channel, enters the shunting channel so as to convey paper money;

each independent sorting frame corresponds to one banknote receiving mechanism respectively, the number of the banknote receiving mechanisms is at least two, a shunting rotating shaft is arranged between the two banknote receiving mechanisms, a plurality of shunting blocks are arranged on the shunting rotating shaft, two ends of the shunting rotating shaft are respectively assembled with a first shunting plate and a second shunting plate in a circumferential rotating mode, shunting curved surfaces, banknote passing planes, first shunting bulges, detection bulges and second shunting bulges are arranged on the shunting blocks respectively, and the banknote passing planes can be parallel to a main sorting belt so as to convey banknotes; the shunting curved surface can be smoothly communicated with the shunting channel, so that the paper money is guided to different money receiving mechanisms.

Preferably, each banknote receiving mechanism comprises a banknote receiving plate, a banknote receiving adjusting frame and a banknote receiving mounting frame, a first banknote receiving rotating shaft and a movable rotating shaft are mounted on the independent sorting frames respectively, the first banknote receiving rotating shaft and the movable rotating shaft on the same independent sorting frame are connected through a movable sorting belt to form a belt transmission mechanism, and the movable sorting belt enters the shunting channel at one side close to the main sorting frame and is attached to the main sorting belt to convey banknotes; the first and second sub-plates are also respectively assembled with a banknote receiving mounting frame, a first banknote receiving rotating shaft and a second banknote receiving rotating shaft of each banknote receiving mechanism, and the first and second banknote receiving rotating shafts are respectively assembled with the first and second sub-plates in a circumferential rotating manner;

the two ends of the independent sorting frame are respectively assembled with a first branch plate and a second branch plate which correspond to the independent sorting frame, the first branch plate, the second branch plate, the independent sorting frame and the banknote receiving mechanism jointly form a sorting module, and the first branch plate and the second branch plate are respectively installed on the sorting frame;

the sorting frame can be movably assembled and disassembled relative to the machine body, a connecting mounting plate is mounted on the first sorting plate, the connecting mounting plate can be assembled with the middle part of the switching power plate in a circumferential rotating mode through a second switching pin, a hooking clamping groove is formed in one end of the switching power plate, a first switching pin is arranged at the other end of the switching power plate, the hooking clamping groove is clamped on a third switching pin in a hooking mode, and the third switching pin is mounted on the first side plate, so that the sorting module and the machine body can be assembled and fixed; and a switching torsion spring is arranged between the connecting mounting plate and the switching power plate and is used for applying torque force for keeping the hooking clamping groove and the third switching pin clamped on the switching power plate.

Preferably, the second banknote receiving rotating shaft is respectively sleeved with a banknote receiving wheel and a banknote receiving conveying wheel, and the banknote receiving wheel and the banknote receiving conveying wheel are respectively matched with the side faces of the banknote receiving mounting frames corresponding to the banknote receiving wheel and the banknote receiving conveying wheel so as to convey banknotes in a shunting state to the banknote receiving plate; when the shunting block corresponding to the banknote receiving mechanism is in a shunting state, the banknotes enter the side surface of the banknote receiving mounting frame from the shunting channel along the shunting curved surface, then the banknote receiving conveying wheel rotates to drive the banknotes to move along the side surface of the banknote receiving mounting frame until the banknotes are rotated out of the banknote receiving mounting frame and then move towards the banknote receiving plate, and finally the banknotes are placed on the banknote receiving plate;

a plurality of banknote receiving strips are uniformly distributed in the circumferential direction of the banknote receiving wheel, and after the banknotes enter the side surface of the banknote receiving mounting frame, the banknotes can enter a groove between the two banknote receiving strips and then are stably placed on the banknote receiving plate one by one along with the rotation of the banknote receiving wheel so as to realize the stacking of the banknotes;

the banknote receiving rack is provided with a banknote receiving rack, a banknote receiving rack groove is formed in the banknote receiving rack, the banknote receiving connecting seat is sleeved on the banknote receiving connecting shaft and the banknote receiving limiting shaft, the banknote receiving connecting shaft penetrates through the banknote receiving rack groove and then is assembled with the banknote receiving gear, the banknote receiving gear is in meshing transmission with the banknote receiving rack, and the banknote receiving rack is arranged on the banknote receiving rack; the banknote receiving limiting shaft is arranged in the banknote receiving frame groove.

Preferably, three banknote receiving mechanisms are provided, and a linkage synchronous belt respectively bypasses a first banknote receiving rotating shaft and a second banknote receiving rotating shaft of the two banknote receiving structures positioned above and forms a belt transmission mechanism, so that the first banknote receiving rotating shaft and the second banknote receiving rotating shaft are ensured to synchronously rotate;

the second banknote receiving rotating shaft of the bottommost banknote receiving mechanism is connected with the second banknote receiving rotating shaft of the banknote receiving mechanism close to the second banknote receiving rotating shaft through a ninth synchronous belt to form a belt transmission mechanism; the second main sorting shaft is sleeved with a first sorting gear, a first banknote receiving rotating shaft closest to the second main sorting shaft is sleeved with a second sorting gear, and the first sorting gear and the second sorting gear are in meshed transmission, so that the transmission of the whole sorting module is realized.

Preferably, the ultraviolet disinfection lamp comprises a lamp bracket, the lamp bracket is respectively provided with a heat dissipation groove and a cover plate groove, a lamp plate is clamped in the heat dissipation groove, the lamp plate is provided with a plurality of ultraviolet lamp beads, the ultraviolet lamp beads emit ultraviolet light after being electrified, the lamp plate is coated with reflective paint, and the reflective paint is used for reflecting light rays of the ultraviolet lamp beads; lamp plate clamping ends capable of being clamped and assembled with the cover plate grooves are further arranged at the two ends of the lamp plate respectively; the cover plate groove is also assembled with the cover plate clamping ends in a clamping mode, the cover plate clamping ends are arranged at two ends of the cover plate, and the cover plate is made of transparent materials.

The utility model has the beneficial effects that:

1. the utility model can realize the identification, the metering and the ultraviolet disinfection of paper money, has comprehensive functions, can meet the functional requirements on the sorter at present, and has good market popularization prospect.

2. The sorting module can realize conveying and sorting of paper money, and finally the paper money is respectively input into different paper money receiving mechanisms through the guide of the shunting block, the sorting module integrates the sorting function while conveying the paper money, and the sorting module is simple in structure and small in size.

3. The paper money receiving mechanism adopts the damping spring as the main damping for the rotation of the paper money receiving plate, and realizes the downward rotation of the paper money receiving plate at almost equal angles by combining the meshing of the paper money receiving gear and the paper money receiving rack, thereby effectively ensuring the stacking quality of paper money.

Drawings

Fig. 1-13 are schematic structural views of the present invention. Wherein figure 6 is a cross-sectional view at the center plane of the main cleaning and separating belt 650.

Fig. 14-22 are schematic structural diagrams of the score clearing module.

FIGS. 23-33 are schematic structural views of a banknote receiving mechanism

Fig. 34 is a schematic structural diagram of a damping block and a banknote receiving mounting frame.

Fig. 35-36 are schematic views of the structure of the ultraviolet disinfection lamp.

Detailed Description

The technical solution in 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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to 36, the banknote sorter of the present embodiment includes a machine body 100 and a top cover 200, wherein one end of the top cover 200 is circumferentially and rotatably mounted on the top of the machine body 100, a door frame 110 is disposed on one side of the machine body 100, the door frame 110 is hinged to one side of a banknote door 120, and the banknote door 120 can be rotatably opened relative to the door frame 110; the top of the machine body 100 is provided with a paper money inlet plate 130, and the paper money inlet plate 130 and the paper money inlet top plate 260 on the top cover 200 together form a paper money inlet channel 103. When in use, paper money enters from the money inlet channel 103, and then is identified, sterilized, screened and discharged to the money receiving plate 750.

Two spacing adjustable limit for width boards 210 are installed on top cap 200, and two limit for width boards 210 are used for laminating with the both ends of paper money to fix a position paper money. In use, banknotes are stacked between the two width limiting plates 210 on the banknote inlet plate 130. The banknote feeding plate 130 is provided with a first banknote twisting wheel 310 at a position below the two width limiting plates 210, the first banknote twisting wheel 310 is used for inputting banknotes into the banknote feeding passage 103 one by one, the first banknote twisting wheel 310 is sleeved on a first rotating shaft 411, and two ends of the first rotating shaft 411 are respectively assembled with the first side plate 101 and the second side plate 102 on the machine body 100 in a circumferential rotation manner. The machine body 100 is further sequentially provided with a second money twisting wheel 321, a first money feeding wheel 331 and a second money feeding wheel 332 along the money feeding channel 103 in the money feeding direction, the second money twisting wheel 321, the first money feeding wheel 331 and the second money feeding wheel 332 are respectively sleeved on a second rotating shaft 412, a third rotating shaft 413 and a fourth rotating shaft 414, the second rotating shaft 412, the third rotating shaft 413 and the fourth rotating shaft 414 can be respectively assembled with the first side plate 101 and the second side plate 102 in a circumferential rotation manner, and one end of the second rotating shaft 412 penetrates through the second side plate 102 and then is assembled with the encoder 501. In use, the rotation angle of the second shaft 412 is detected by the encoder 501, and one rotation of the second shaft 412 is calculated to transport one banknote. The second banknote twisting wheel 321 is pressed against the first top cover wheel 322 and the second top cover wheel 323 respectively, so that the banknotes are conveyed one by one. The first top cover wheel 322 is sleeved on the first top cover shaft 241 in a rotatable manner, the second top cover wheel 323 is circumferentially arranged on the top cover wheel frame 220, the top cover wheel frame 220 is sleeved on the first top cover shaft 241 in a rotatable manner, the first top cover shaft 241 is arranged on the top cover shaft plate 230, one end of the top cover shaft plate 230 is circumferentially and rotatably assembled with the second top cover shaft 242, the second top cover shaft 242 is arranged on the top cover 200, the top cover 200 and the top cover shaft plate 230 are connected and assembled with one end of the first top cover shaft 241 through the first top cover spring 250, the first top cover spring 250 applies an elastic force for pressing down the banknote feeding plate 130 to the top cover shaft plate 230, so that the first top cover wheel 322 is pressed on the second banknote twisting wheel 321 corresponding to the first top cover wheel 322, the second top cover wheel 323 is circumferentially and rotatably arranged on the top cover wheel frame 220, and the second top cover spring 270 is arranged between the top cover wheel frame 220 and the top cover 200, the second cover spring 270 is used for applying an elastic force to the cover wheel frame 220 to rotate towards the second banknote twisting wheel 321, so that the cover wheel frame 220 is kept pressed against the second banknote twisting wheel 321 corresponding to the cover wheel frame, which is used for ensuring effective conveying of banknotes on one hand, and on the other hand, only one banknote is conveyed at a time, so that overlapping conveying of banknotes is prevented.

The banknote inlet channel 103 is communicated with one end of the functional channel 104, the other end of the functional channel 104 is communicated with one end of the flat conveying channel 143, two CIS sensors 590, a first conveying wheel 341, a first auxiliary conveying wheel 342, two ultraviolet disinfection lamps 530, a second conveying wheel 343, a second auxiliary conveying wheel 344, a third conveying wheel 333, a third conveying wheel 345 and a third auxiliary conveying wheel 346 are sequentially arranged in the functional channel 104 along the banknote conveying direction, the two CIS sensors 590 and the two ultraviolet disinfection lamps 530 are respectively arranged on two sides of the functional channel 104 and respectively act on two end faces of the banknote, wherein the two CIS sensors 590 are respectively used for obtaining images on the corresponding end faces of the banknote to identify the authenticity of the banknote, and the two ultraviolet disinfection lamps 530 are respectively used for emitting ultraviolet light to irradiate the two end faces of the banknote to sterilize and disinfect the banknote.

The first transmission wheel 341 and the first auxiliary transmission wheel 342 are attached to each other to transport the paper money, the first transmission wheel 341 and the first auxiliary transmission wheel 342 are respectively sleeved on a fifth rotating shaft 415 and a fifth auxiliary rotating shaft (not labeled), the fifth rotating shaft 415 is respectively assembled with the first side plate 101 and the second side plate 102 in a circumferential rotation manner, and the fifth auxiliary rotating shaft is installed on the machine body 100 in a circumferential rotation manner. The second transport wheel 343 and the second sub transport wheel 344 are attached to each other to transport the bills, the second transport wheel 343 and the second sub transport wheel 344 are respectively sleeved on a sixth rotating shaft 416 and a sixth sub rotating shaft (not shown), the sixth rotating shaft 416 is respectively assembled with the first side plate 101 and the second side plate 102 in a circumferential rotation manner, and the sixth sub rotating shaft is circumferentially rotatably installed on the machine body 100. The third transport wheel 345 and the third auxiliary transport wheel 346 are attached to each other to transport the paper money, the third transport wheel 345 and the third auxiliary transport wheel 346 are respectively sleeved on an eighth rotating shaft 418 and an eighth rotating shaft (not labeled), the eighth rotating shaft 418 is respectively assembled with the first side plate 101 and the second side plate 102 in a circumferential rotation manner, and the eighth rotating shaft is installed on the machine body 100 in a circumferential rotation manner. The third banknote sending wheel 333 is sleeved on a seventh rotating shaft 417, the seventh rotating shaft 471 is respectively assembled with the first side plate 101 and the second side plate 102 in a circumferential rotating manner, a photoelectric counter 502 is installed at the third banknote sending wheel 333, and the photoelectric counter 502 is used for calculating the number of banknotes passing through the third banknote sending wheel 333.

The third rotating shaft 413 and the second rotating shaft 412 are connected through a second synchronous belt 612 to form a belt transmission mechanism, the first synchronous belt 611 respectively bypasses the first rotating shaft 411, the second rotating shaft 412, the first intermediate shaft 401 and the first motor shaft 511 to form the belt transmission mechanism, the first motor shaft 511 is installed in the first motor 510, and the first motor 510 is installed in the machine body 100; the third timing belt 613 bypasses the third rotating shaft 413, the fourth rotating shaft 414, and the fifth rotating shaft 415 to form a belt transmission mechanism, the fifth rotating shaft 415 and the sixth rotating shaft 416 are connected by a fourth timing belt 614 to form a belt transmission mechanism, and the sixth rotating shaft 416 and the seventh rotating shaft 417 are connected by a fifth timing belt 615 to form a belt transmission mechanism. When the paper money conveying device is used, the first motor 510 is started, so that the first motor shaft 511 is driven to rotate circumferentially, the first motor shaft 511 drives the first rotating shaft 411 to the eighth rotating shaft 417 to rotate circumferentially respectively, and conveying of paper money in the functional channel 104 is achieved.

The other end of the flat conveying channel 143 is communicated with one end of the flow dividing channel 105, the flat conveying channel 143 is arranged between the first flat conveying plate 141 and the second flat conveying plate 142, the first flat conveying plate 141 and the second flat conveying plate 142 are respectively installed on the flat conveying base 140, a first flat conveying belt 630 and a second flat conveying belt 640 are respectively installed on the upper side and the lower side of the flat conveying channel 143, and the first flat conveying belt 630 and the second flat conveying belt 640 can clamp and convey paper money when running, so that the paper money is conveyed from one end, close to the functional channel 104, of the flat conveying channel 143 to one end of the flow dividing channel 105. The first flat conveying belt 630 respectively bypasses a first flat conveying shaft 421, a first second flat conveying shaft 422 and a flat conveying intermediate shaft 423 to form a belt transmission mechanism, and the second flat conveying belt 640 respectively bypasses a second first flat conveying shaft 431, a second flat conveying shaft 432 and the flat conveying intermediate shaft 423 to form the belt transmission mechanism; the first flat feeding shaft 421, the first second flat feeding shaft 422, the flat feeding intermediate shaft 423, the second first flat feeding shaft 431 and the second flat feeding shaft 432 are respectively assembled with the first side plate 101 and the second side plate 102 in a circumferential rotating manner. The sixth synchronous belt 616 respectively winds around the seventh rotating shaft 417, the eighth rotating shaft 418 and the second motor shaft 521 to form a belt transmission mechanism, the second motor shaft 521 is installed in the second motor 520, the second motor 520 is installed in the machine body, and the second motor 520 can drive the second motor shaft 521 to rotate circumferentially after being started. The second motor 520 and the first motor 510 are stepping motors or servo motors and rotate synchronously, so that paper money can be driven to be conveyed at a constant speed in the paper money inlet channel, the function passing channel, the flat conveying channel and the shunting channel.

The second motor shaft 521 is connected with the second flat feeding shaft 432 through a fourth timing belt 617 to form a belt transmission mechanism, and the second flat feeding shaft 432 is connected with the second main separating shaft 652 through an eighth timing belt 618 to form a belt transmission mechanism.

The flow dividing channel 105 is arranged in the sorting module, the main sorting frame 150 and at least two independent sorting frames 720 are respectively arranged on two sides of the flow dividing channel 105, two first main sorting shafts 651 and one second main sorting shaft 652 are arranged on the main sorting frame 150, a main sorting belt wheel 653 is sleeved on the second main sorting shaft 652, and the main sorting belt 650 respectively bypasses the two first main sorting shafts 651 and the main sorting belt wheel 653 to form a belt transmission mechanism. The second motor can drive the second main sorting shaft 652 to rotate circularly after being started, thereby driving the main sorting belt 650 to operate to convey paper money. The side of the main sorting belt 650 close to the diversion channel enters the diversion channel to transport the banknotes.

Every independent clear frame 720 that divides corresponds one respectively and connects paper money mechanism, every connects paper money mechanism to include respectively that connect paper money board 750, lead paper money board 760, connect paper money alignment jig 740, connect paper money mounting bracket 730, install first paper money pivot 451, activity pivot 661 on the independent clear frame 720 respectively, connect and constitute belt drive mechanism through activity clear branch area 660 between the first paper money pivot 451, the activity pivot 661 on the same independent clear frame 720, the activity clear branch area 660 is close to the main clear one side of dividing frame 150 and gets into in the reposition of redundant personnel passageway 105 to divide the laminating of area 650 in order to carry paper currency with the main clear.

The two ends of the independent sorting frame 720 are respectively assembled with a first sorting plate 161 and a second sorting plate 162 which correspond to the independent sorting frame, the first sorting plate 161, the second sorting plate 162, the independent sorting frame 720 and the banknote receiving mechanism jointly form a sorting module, the first sorting plate 161 and the second sorting plate 162 are respectively installed on the sorting frame 160, and the sorting frame 160 can be movably disassembled and assembled relative to the machine body 100; the connecting mounting plate 701 is mounted on the first separating plate 161, the connecting mounting plate 701 is assembled with the middle portion of the switching power plate 710 in a circumferential rotation mode through a second switching pin 712, one end of the switching power plate 710 is provided with a hooking clamping groove 714, the other end of the switching power plate 710 is provided with a first switching pin 711, the hooking clamping groove 714 is hooked and clamped on a third switching pin 713, and the third switching pin 713 is mounted on the first side plate 101, so that the assembling and fixing of the sorting module and the machine body 100 are achieved. When the sorting module needs to be disassembled, a torque force rotating around the second switching pin 712 is applied to the switching power plate 710 through the first switching pin 711, so that the sorting module can be disassembled after the hooking slot 714 rotates out of the third switching pin 713. Preferably, a switching torsion spring 840 is installed between the connecting installation plate 701 and the switching power plate 710, and the switching torsion spring 840 is used for applying a torsion force for keeping the hooking slot 714 engaged with the third switching pin 713 to the switching power plate 710, so as to ensure that the hooking slot 714 keeps engaged with the third switching pin 713, that is, to ensure stable assembly of the sorting module and the machine body 100.

The first and second sub-plates 161 and 162 are further respectively assembled with the banknote receiving mounting frame 730, the first banknote receiving rotating shaft 451 and the second banknote receiving rotating shaft 452 of each banknote receiving mechanism, the first banknote receiving rotating shaft 451 and the second banknote receiving rotating shaft 452 are respectively assembled with the first sub-plate 161 and the second sub-plate 162 in a circumferential rotation manner, a shunting rotating shaft 441 is arranged between the two banknote receiving mechanisms, a plurality of shunting blocks 810 are arranged on the shunting rotating shaft 441, two ends of the shunting rotating shaft 441 are respectively assembled with the first shunting plate 161 and the second shunting plate 162 in a circumferential rotating manner, the diverting block 810 is respectively provided with a diverting curved surface 811, a banknote passing plane 812, a first diverting protrusion 813, a detecting protrusion 814 and a second diverting protrusion 815, the banknote passing plane 812 can be parallel to the main sorting belt 650, so as to convey the bills, the shunting curved surface 811 may smoothly communicate with the shunting passage 105, thereby facilitating passage of the bills to shunt (sort) the bills. The banknote receiving mounting frame 730 is provided with a shunt sensor 560, the shunt sensor 560 is a photoelectric sensor, when in an initial state (a shunt curved surface 811 is parallel to the main sorting belt 650), the detection bulge 814 does not enter the shunt sensor 560, and the shunt sensor 560 does not output a signal; in a shunting state (the shunting curved surface 811 is smoothly communicated with the shunting channel 105), the shunting rotating shaft 441 drives the shunting block 810 to rotate, so that the second shunting protrusion 815 is attached to the end face of the main sorting frame 150, the shunting curved surface 811 is smoothly communicated with the end face of the main sorting frame 150, at this time, the detection protrusion 814 enters the shunting sensor 560, the shunting sensor 560 outputs a signal to the industrial personal computer, and the industrial personal computer judges that the shunting block 810 is in a shunting state.

Preferably, the shunting rotating shaft 441 is driven to rotate by an external power device to realize the state switching of the shunting block 810, and the external power device may be a motor, an electromagnet, or the like, as long as the shunting rotating shaft 441 can rotate at a fixed angle theoretically.

The second banknote receiving rotating shaft 452 is respectively sleeved with a banknote receiving wheel 674 and a banknote receiving conveying wheel 673, and the banknote receiving wheel 674 and the banknote receiving conveying wheel 673 are respectively matched with the side faces of the banknote receiving mounting frames 730 corresponding to the banknote receiving wheel 674 and the banknote receiving conveying wheel 673 so as to convey banknotes in a shunting state to the banknote receiving plate 750. Specifically, when the shunting block 810 corresponding to the banknote receiving mechanism is in a shunting state, the banknotes enter the side surface of the banknote receiving mounting frame 730 from the shunting channel 105 along the shunting curved surface 811, and then the banknotes are driven to move along the side surface of the banknote receiving mounting frame 730 by the rotation of the banknote receiving conveying wheel 673 until the banknotes are moved out of the banknote receiving mounting frame 730 and then move to the banknote receiving plate 750, and finally are placed on the banknote receiving plate 750. And a plurality of banknote receiving strips are uniformly distributed in the circumferential direction of the banknote receiving wheel 674, and after the banknotes enter the side surface of the banknote receiving mounting frame 730, the banknotes can enter a groove between the two banknote receiving strips and then are placed on the banknote receiving plate one by one and stably along with the rotation of the banknote receiving wheel 674, so that the banknotes are stacked.

Connect one end of paper money board 750 to install and connect paper money connecting seat 751, connect to be provided with on the paper money connecting seat 751 and connect paper money tablet 752, connect paper money tablet 752 can pack into and connect in paper money sensor 540, connect paper money sensor 540 to install on independent clear branch frame 720, when connect paper money tablet 752 to pack into and connect in paper money sensor 540, connect paper money sensor 540 to send the signal of telecommunication to the industrial computer, the industrial computer judges that should connect the paper currency quantity on the paper money board 750 to reach the biggest, need take out to the operator sends the notice. In the initial state, the bill receiving plate 750 is at the maximum angle of upward rotation, and the bill receiving sensor 752 does not enter the bill receiving sensor 540.

The banknote receiving frame 740 is mounted on the banknote receiving mounting frame 730, and a banknote receiving frame groove 741 is arranged on the banknote receiving frame 740; the banknote receiving connecting seat 751 is sleeved on the banknote receiving connecting shaft 461 and the banknote receiving limiting shaft 462, the banknote receiving connecting shaft 461 penetrates through the banknote receiving frame groove 741 and then is assembled with the banknote receiving gear 672, the banknote receiving gear 672 is in meshing transmission with the banknote receiving rack 671, and the banknote receiving rack 671 is installed on the banknote receiving frame 740; the banknote receiving limiting shaft 462 is arranged in the banknote receiving frame groove 741. When the banknote receiving limiting shaft 462 is used for limiting the maximum rotation angle of the banknote receiving plate 750 relative to the banknote receiving frame groove 741, and the banknote receiving gear 672 and the banknote receiving rack 671 are matched with the banknote receiving rack 671 to provide damping for downward rotation of the banknote receiving plate 750, so that the banknote receiving plate gradually rotates downward along with the increase of the stacked weight of banknotes. According to the design, in the initial state, the banknote receiving plate rotates upwards as much as possible to be close to the banknote receiving wheel, so that the stacking of the banknotes is facilitated, and along with the increase of the stacking weight of the banknotes, the banknote receiving plate gradually rotates downwards, so that the distance between the topmost banknote and the banknote receiving wheel is basically kept, and the stacking effect of the banknotes is ensured.

Preferably, a damping chute 731 and a damping through groove 732 are arranged on the banknote receiving mounting frame 730, a damping block 770 is mounted in the damping chute 731 in a clamping and sliding manner, a resistance lug 771 is arranged at one end of the damping block 770, the resistance lug 771 is inserted into the damping through groove 732 and clamped and slidably assembled with the same, a damping rod 773 is mounted in the damping chute 731, the damping rod 773 is assembled with one end of the damping spring 830, and the other end of the damping spring 830 is assembled with the damping block 770. Connect paper money connecting seat 751 to remain throughout and compress tightly with damping piece 770, and connect paper money board 750 in-process of down rotation, connect paper money connecting seat 751 to extrude damping piece 770, make damping piece 770 overcome the elasticity of damping spring 830 and slide, thereby the butt joint paper money board move down and provide elastic damping, and connect paper money gear 672 this moment, the setting that connects paper money rack 671 can make and connect the paper money board according to connect paper money gear 672, the almost equal angle downwardly turned of coefficient of meshing that connects paper money rack 671, thereby increase and connect the stability of paper money board downwardly turned, guarantee the effect of piling up of paper money. After the banknote receiving plate rotates downwards to the maximum angle, the banknote receiving sensing plate 752 enters the banknote receiving sensor 540, it is determined that the number of banknotes reaches the maximum number and the banknotes need to be taken out, an operator can take out the banknotes only by opening the banknote door 120, and after the banknotes are taken out, the banknote receiving plate resets under the action of the damping block and the resistance spring.

A money guide plate 760 is further installed above the money receiving plate, money guide rotating shafts 761 are installed on two sides of the money guide plate 760, the money guide rotating shafts 761 are assembled with the first branch plate 161 and the second branch plate 162 which are close to the money guide rotating shafts 761, a spring piece 820 is further installed at one end, close to the money receiving mounting frame 730, of the money guide plate 760, and the spring piece 820 has elasticity. When receiving bills, the bills pass through the bill receiving mounting frame 730 and are guided by the spring pieces 820 and the bill guide plate 760 to be orderly stacked on the bill receiving plate 750, and the spring pieces 820 can play a role in compressing the bills when the bills are stacked high. Preferably, the banknote receiving strip of the banknote receiving wheel 674 corresponds to the spring piece 820, when the banknote receiving wheel 674 drives the banknotes to rotate, the spring piece 820 is pushed upwards through the banknote receiving strip, so that the spring piece does not compress the banknotes any more, the banknotes on the banknote receiving wheel can be placed conveniently, after the banknotes are placed on the banknote receiving wheel, the banknote receiving strip is separated from the spring piece 820, and the spring piece 820 is restored to compress the banknotes, so that the banknotes can be stacked orderly.

Preferably, a banknote receiving photoelectric counter 550 is mounted on the banknote receiving mounting frame 730 of each banknote receiving mechanism, and the banknote receiving photoelectric counter 550 is used for detecting the number of passing banknotes.

Preferably, connect and install binocular camera 505 on the bottom surface of paper money board 750, binocular camera is used for acquireing its below and connects the image of paper money board 750 to through this image estimation binocular camera 505 and its below connect the interval of paper money board 750, thereby supplementary judgement is installed and is connected paper money on the paper money board of binocular camera and whether reach preset height. The mode is mainly used for avoiding the faults that paper money is damaged and a paper money receiving wheel is blocked and the like caused by the fact that the paper money is always stacked when the paper money is light and the paper money receiving plate cannot be driven to rotate in time.

Preferably, there are three banknote receiving mechanisms, and the linked synchronous belt 620 bypasses the first banknote receiving rotating shaft 451 and the second banknote receiving rotating shaft 452 of the two banknote receiving structures above and forms a belt transmission mechanism, so as to ensure that the first banknote receiving rotating shaft 451 and the second banknote receiving rotating shaft 452 rotate synchronously. The second banknote receiving rotating shaft 452 of the bottommost banknote receiving mechanism is connected with the second banknote receiving rotating shaft 452 of the banknote receiving mechanism close to the ninth timing belt 619 and forms a belt transmission mechanism. The second main sorting shaft 652 is sleeved with a first sorting gear 601, the first banknote receiving rotating shaft 451 closest to the second main sorting shaft 652 is sleeved with a second sorting gear 602, and the first sorting gear 601 and the second sorting gear 602 are in meshing transmission, so that the transmission of the whole sorting module is realized. When the sorting module is disassembled relative to the machine body 100, the first sorting gear 601 and the second sorting gear 602 are separated, the design can realize the power output of the sorting module, and the influence of the sorting module after being disassembled and assembled is avoided.

Referring to fig. 35-36, ultraviolet disinfection lamp 530 includes lighting fixture 531, is provided with radiating groove 5312, apron groove 5311 on the lighting fixture 531 respectively, lamp plate 532 is installed in radiating groove 5312 the joint, installs many ultraviolet lamp pearls 501 on the lamp plate 532, and ultraviolet lamp pearl 501 sends ultraviolet ray after the circular telegram, just scribble the reflectorized paint on lamp plate 532, the reflectorized paint is used for the light reflection with ultraviolet lamp pearl 501. And lamp panel clamping ends 5321 which can be clamped and assembled with the cover plate grooves 5311 are further arranged at the two ends of the lamp panel 532 respectively. The design enables the lamp panel to be suspended on the heat dissipation groove 5312, heat dissipation efficiency of the lamp panel can be greatly increased, and meanwhile, the lamp bracket 531 is made of copper alloy, and heat dissipation effect on the lamp panel can be further increased. The cover plate groove 5311 is also assembled with a cover plate clamping end 5331 in a clamping manner, the cover plate clamping end 5331 is arranged at two ends of the cover plate 533, and the cover plate 533 is made of a transparent material, so that ultraviolet light can penetrate through the cover plate 533 and irradiate the paper money. The ultraviolet disinfection lamp of this embodiment adopts detachable split type structure, and the convenience of follow-up maintenance that can greatly increased of this kind of design to reduce the later maintenance cost.

The utility model is not described in detail, but is well known to those skilled in the art.

The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. A paper money sorter comprises a machine body and a top cover, wherein one end of the top cover is circumferentially and rotatably arranged at the top of the machine body, a paper money feeding plate is arranged at the top of the machine body, and the paper money feeding plate and a paper money feeding top plate on the top cover jointly form a paper money feeding channel; the paper money feeding plate is provided with a first paper money twisting wheel which is used for inputting paper money into the paper money feeding channel one by one, the first paper money twisting wheel is sleeved on a first rotating shaft, and two ends of the first rotating shaft are respectively assembled with a first side plate and a second side plate on the machine body in a circumferential rotating manner; the machine body is also sequentially provided with a second money twisting wheel, a first money conveying wheel and a second money conveying wheel along the money feeding channel in the money feeding direction, the second money twisting wheel, the first money conveying wheel and the second money conveying wheel are respectively sleeved on a second rotating shaft, a third rotating shaft and a fourth rotating shaft, and the second rotating shaft, the third rotating shaft and the fourth rotating shaft are respectively assembled with the first side plate and the second side plate in a circumferential rotating manner;

the banknote feeding channel is communicated with one end of the functional channel, two CIS sensors, a first transmission wheel, a first auxiliary transmission wheel, two ultraviolet disinfection lamps, a second transmission wheel, a second auxiliary transmission wheel, a third banknote transmission wheel, a third transmission wheel and a third auxiliary transmission wheel are sequentially arranged in the functional channel along the banknote transmission direction, the two CIS sensors and the two ultraviolet disinfection lamps are respectively arranged on two sides of the functional channel and are respectively acted on two end faces of the banknote, the two CIS sensors are respectively used for acquiring images on the corresponding end faces of the banknote to identify the authenticity of the banknote, and the two ultraviolet disinfection lamps are respectively used for emitting ultraviolet light; the third cash conveying wheel, the first conveying wheel and the first auxiliary conveying wheel, the second conveying wheel and the second auxiliary conveying wheel, and the third conveying wheel and the third auxiliary conveying wheel are respectively used for clamping and conveying paper money.

2. The banknote sorter of claim 1 wherein said second wheel is pressed against said first and second top cover wheels, respectively, to transport banknotes one by one; but first top cover wheel suit is on first top cover axle with circumferential rotation, but second top cover wheel installs on the top cover wheel carrier circumferentially, but the suit is epaxial at first top cover with circumferential rotation ground of top cover wheel carrier, first top cover axle is installed on the top cover axial plate, but top cover axial plate one end and the assembly of second top cover axle circumferential rotation, second top cover axle is installed on the top cover.

3. The banknote sorter as claimed in claim 2 wherein the top cover and the top cover shaft plate are assembled with the first top cover shaft at one end thereof by a first top cover spring, the first top cover spring applies a downward pressing force to the banknote feeding plate to the top cover shaft plate, so that the first top cover wheel is pressed against the corresponding second banknote twisting wheel, the top cover wheel frame is provided with the second top cover wheel in a circumferentially rotatable manner, the second top cover spring is installed between the top cover wheel frame and the top cover, and the second top cover spring is used for applying a rotating force to the top cover wheel frame to the second banknote twisting wheel.

4. The banknote sorter according to claim 1 wherein the first transport wheel and the first secondary transport wheel are engaged with each other to transport banknotes, the first transport wheel and the first secondary transport wheel are respectively fitted around a fifth rotating shaft and a fifth secondary rotating shaft, the fifth rotating shaft is respectively fitted to the first side plate and the second side plate in a circumferentially rotatable manner, and the fifth secondary rotating shaft is circumferentially rotatably mounted on the machine body;

the second conveying wheel and the second auxiliary conveying wheel are mutually attached to convey paper money, the second conveying wheel and the second auxiliary conveying wheel are respectively sleeved on a sixth rotating shaft and a sixth auxiliary rotating shaft, the sixth rotating shaft is respectively assembled with the first side plate and the second side plate in a circumferential rotating mode, and the sixth auxiliary rotating shaft is arranged on the machine body in a circumferential rotating mode;

the third transmission wheel and the third auxiliary transmission wheel are mutually attached to convey paper money, the third transmission wheel and the third auxiliary transmission wheel are respectively sleeved on an eighth rotating shaft and an eighth auxiliary rotating shaft, the eighth rotating shaft is respectively assembled with the first side plate and the second side plate in a circumferential rotating manner, and the eighth auxiliary rotating shaft is arranged on the machine body in a circumferential rotating manner;

the third money sending wheel is sleeved on a seventh rotating shaft, and the seventh rotating shaft is respectively assembled with the first side plate and the second side plate in a circumferential rotating manner; the third rotating shaft and the second rotating shaft are connected through a second synchronous belt to form a belt transmission mechanism, the first synchronous belt respectively bypasses the first rotating shaft, the second rotating shaft, the first intermediate shaft and the first motor shaft to form the belt transmission mechanism, the first motor shaft is arranged in the first motor, and the first motor is arranged in the machine body; the third synchronous belt respectively bypasses a third rotating shaft, a fourth rotating shaft and a fifth rotating shaft to form a belt transmission mechanism, the fifth rotating shaft and the sixth rotating shaft are connected through the fourth synchronous belt to form the belt transmission mechanism, and the sixth rotating shaft and the seventh rotating shaft are connected through the fifth synchronous belt to form the belt transmission mechanism.

5. The banknote sorter according to claim 4 wherein the other end of the functional channel communicates with one end of a flat feed channel, the other end of the flat feed channel communicates with one end of a diversion channel, the flat feed channel is disposed between a first flat feed plate and a second flat feed plate, the first flat feed plate and the second flat feed plate are respectively mounted on a flat feed base, the upper and lower sides of the flat feed channel are respectively mounted with a first flat feed belt and a second flat feed belt, the first flat feed belt and the second flat feed belt are operable to clamp and transport banknotes so that the banknotes are transported from the end of the flat feed channel adjacent to the functional channel to the end of the diversion channel;

the first flat conveying belt respectively bypasses a first primary flat conveying shaft, a first secondary flat conveying shaft and a flat conveying intermediate shaft to form a belt transmission mechanism, and the second flat conveying belt respectively bypasses a second primary flat conveying shaft, a second secondary flat conveying shaft and a flat conveying intermediate shaft to form a belt transmission mechanism; the first one-number flat conveying shaft, the first second one-number flat conveying shaft, the flat conveying intermediate shaft, the second one-number flat conveying shaft and the second one-number flat conveying shaft are respectively assembled with the first side plate and the second side plate in a circumferential rotating mode;

the sixth synchronous belt respectively bypasses a seventh rotating shaft, an eighth rotating shaft and a second motor shaft to form a belt transmission mechanism, the second motor shaft is arranged in a second motor, and the second motor is arranged in the machine body; the second motor shaft is connected with the second flat conveying shaft through a fourth synchronous belt to form a belt transmission mechanism, and the second flat conveying shaft is connected with the second main clear branch shaft through an eighth synchronous belt to form the belt transmission mechanism.

6. The banknote sorter according to claim 5 wherein a diversion channel is provided in the sorting module, a main sorting frame and at least two independent sorting frames are respectively provided on both sides of the diversion channel, two first main sorting shafts and one second main sorting shaft are provided on the main sorting frame, a main sorting belt wheel is sleeved on the second main sorting shaft, and the main sorting belt is wound around the two first main sorting shafts and the main sorting belt wheel respectively to form a belt transmission mechanism; one side of the main sorting belt, which is close to the shunting channel, enters the shunting channel so as to convey paper money;

each independent sorting frame corresponds to one banknote receiving mechanism respectively, the number of the banknote receiving mechanisms is at least two, a shunting rotating shaft is arranged between the two banknote receiving mechanisms, a plurality of shunting blocks are arranged on the shunting rotating shaft, two ends of the shunting rotating shaft are respectively assembled with a first shunting plate and a second shunting plate in a circumferential rotating mode, shunting curved surfaces, banknote passing planes, first shunting bulges, detection bulges and second shunting bulges are arranged on the shunting blocks respectively, and the banknote passing planes can be parallel to a main sorting belt so as to convey banknotes; the shunting curved surface can be smoothly communicated with the shunting channel, so that the paper money is guided to different money receiving mechanisms.

7. The paper currency sorter according to claim 6 wherein each paper currency receiving mechanism comprises a paper currency receiving plate, a paper currency receiving adjusting frame and a paper currency receiving mounting frame, the independent sorting frame is provided with a first paper currency receiving rotating shaft and a movable rotating shaft, the first paper currency receiving rotating shaft and the movable rotating shaft on the same independent sorting frame are connected through a movable sorting belt to form a belt transmission mechanism, and the movable sorting belt enters the shunting passage at one side close to the main sorting frame so as to be attached to the main sorting belt to convey paper currency; the first and second sub-plates are also respectively assembled with a banknote receiving mounting frame, a first banknote receiving rotating shaft and a second banknote receiving rotating shaft of each banknote receiving mechanism, and the first and second banknote receiving rotating shafts are respectively assembled with the first and second sub-plates in a circumferential rotating manner;

the two ends of the independent sorting frame are respectively assembled with a first branch plate and a second branch plate which correspond to the independent sorting frame, the first branch plate, the second branch plate, the independent sorting frame and the banknote receiving mechanism jointly form a sorting module, and the first branch plate and the second branch plate are respectively installed on the sorting frame;

the sorting frame can be movably assembled and disassembled relative to the machine body, a connecting mounting plate is mounted on the first sorting plate, the connecting mounting plate can be assembled with the middle part of the switching power plate in a circumferential rotating mode through a second switching pin, a hooking clamping groove is formed in one end of the switching power plate, a first switching pin is arranged at the other end of the switching power plate, the hooking clamping groove is clamped on a third switching pin in a hooking mode, and the third switching pin is mounted on the first side plate, so that the sorting module and the machine body can be assembled and fixed; and a switching torsion spring is arranged between the connecting mounting plate and the switching power plate and is used for applying torque force for keeping the hooking clamping groove and the third switching pin clamped on the switching power plate.

8. The banknote sorter as claimed in claim 7 wherein the second banknote receiving spindle is sleeved with a banknote receiving wheel and a banknote receiving and conveying wheel respectively, and the banknote receiving wheel and the banknote receiving and conveying wheel are respectively matched with the side surfaces of the banknote receiving mounting frames corresponding to the banknote receiving wheel and the banknote receiving wheel to convey banknotes in a shunting state to the banknote receiving plate; when the shunting block corresponding to the banknote receiving mechanism is in a shunting state, the banknotes enter the side surface of the banknote receiving mounting frame from the shunting channel along the shunting curved surface, then the banknote receiving conveying wheel rotates to drive the banknotes to move along the side surface of the banknote receiving mounting frame until the banknotes are rotated out of the banknote receiving mounting frame and then move towards the banknote receiving plate, and finally the banknotes are placed on the banknote receiving plate;

a plurality of banknote receiving strips are uniformly distributed in the circumferential direction of the banknote receiving wheel, and after the banknotes enter the side surface of the banknote receiving mounting frame, the banknotes can enter a groove between the two banknote receiving strips and then are stably placed on the banknote receiving plate one by one along with the rotation of the banknote receiving wheel so as to realize the stacking of the banknotes;

the banknote receiving rack is provided with a banknote receiving rack, a banknote receiving rack groove is formed in the banknote receiving rack, the banknote receiving connecting seat is sleeved on the banknote receiving connecting shaft and the banknote receiving limiting shaft, the banknote receiving connecting shaft penetrates through the banknote receiving rack groove and then is assembled with the banknote receiving gear, the banknote receiving gear is in meshing transmission with the banknote receiving rack, and the banknote receiving rack is arranged on the banknote receiving rack; the banknote receiving limiting shaft is arranged in the banknote receiving frame groove.

9. The banknote sorter according to claim 7 wherein there are three banknote receiving mechanisms, the timing belt is linked to bypass the first banknote receiving shaft and the second banknote receiving shaft of the two banknote receiving mechanisms located above and to form a belt drive mechanism, thereby ensuring that the first banknote receiving shaft and the second banknote receiving shaft rotate synchronously;

the second banknote receiving rotating shaft of the bottommost banknote receiving mechanism is connected with the second banknote receiving rotating shaft of the banknote receiving mechanism close to the second banknote receiving rotating shaft through a ninth synchronous belt to form a belt transmission mechanism; the second main sorting shaft is sleeved with a first sorting gear, a first banknote receiving rotating shaft closest to the second main sorting shaft is sleeved with a second sorting gear, and the first sorting gear and the second sorting gear are in meshed transmission, so that the transmission of the whole sorting module is realized.

10. The banknote sorter according to claim 1, wherein the ultraviolet disinfection lamp comprises a lamp holder, the lamp holder is provided with a heat dissipation groove and a cover plate groove respectively, a lamp plate is installed in the heat dissipation groove in a clamping mode, a plurality of ultraviolet lamp beads are installed on the lamp plate, the ultraviolet lamp beads emit ultraviolet light after being electrified, reflective paint is coated on the lamp plate, and the reflective paint is used for reflecting light rays of the ultraviolet lamp beads; lamp plate clamping ends capable of being clamped and assembled with the cover plate grooves are further arranged at the two ends of the lamp plate respectively; the cover plate groove is also assembled with the cover plate clamping ends in a clamping mode, the cover plate clamping ends are arranged at two ends of the cover plate, and the cover plate is made of transparent materials.

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