CN217113406U - Safety door box and large-amount deposit machine thereof - Google Patents

Abstract

The utility model provides a security door case and large amount deposit machine thereof, its security door incasement portion is provided with paper currency passageway, safety lock spout, and paper currency passageway one side is installed safe jam plate and paper currency passageway and the inside intercommunication of paper money bag, the paper currency passageway passes through the emergency exit and seals, installs the emergency exit guide pulley on the both sides of emergency exit respectively, and the emergency exit guide pulley is packed into in the safety lock spout and block, slidable assembly with it, the emergency exit suit is on the emergency exit screw rod and with it through screw thread closure assembly, the one end of emergency exit screw rod is connected with the motor shaft of emergency exit motor. The utility model discloses a security door case passes through the emergency exit and realizes advancing the switching of paper money mouth safely, combines the use of mechanical lock to make the paper money bag still have protect function after being taken out, prevents that the paper currency in the paper money bag from receiving the loss. The utility model discloses can realize separating, selecting, keeping in, the storage to the qing dynasty of paper currency, and whole journey can the machine on duty to realize self-service large-sum deposit, the deposit is finally deposited in the paper money bag.

Description

Safety door box and large-amount deposit machine thereof

Technical Field

The utility model relates to a financial equipment especially relates to a security door case and large amount deposit machine thereof.

Background

The self-service deposit machine is a mature device, but the existing self-service deposit machine can only deposit a small amount of cash, and the large amount of cash needs to be operated by a manual counter, so that the labor cost is obviously increased, unattended operation and 24-hour unattended operation cannot be realized, and technical obstacles are caused for the development of subsequent unmanned banks. For large-amount deposit, the selection of damaged coins, counterfeit banknotes and unidentified banknotes is very important, the function of the conventional self-service deposit machine is not complete enough, partial users need to verify the authenticity and arrange the banknotes for integral deposit, and the conventional subsidy deposit machine does not have the function.

The applicant designs a large-amount deposit machine which can count and identify paper money, select unqualified paper money, temporarily store the paper money and finally store the paper money in a paper money bag in a unified manner so as to realize self-service large-amount deposit.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the utility model aims to solve the technical problem that a security door case and large amount deposit machine thereof are provided, its security door case passes through the break-make of emergency exit control paper money bag and paper money fill.

In order to achieve the purpose, the utility model provides a security door case, its inside paper currency passageway, safety lock spout that is provided with, paper currency passageway one side install safe jam plate and paper currency passageway and the inside intercommunication of paper money bag, the paper currency passageway passes through the emergency exit and seals, installs the emergency exit guide pulley on the both sides of emergency exit respectively, and the emergency exit guide pulley is packed into in the safety lock spout and block, slidable assembly with it, the emergency exit suit is on the emergency exit screw rod and with it through screw thread closure assembly, the one end of emergency exit screw rod is connected with the motor shaft of emergency exit motor.

As the utility model discloses a further improvement, be provided with the emergency exit on the emergency exit and survey the piece, the emergency exit surveys the piece and can pack into in first emergency exit sensor, the second emergency exit sensor, emergency exit surveys piece place position when the emergency exit seals the paper currency passageway totally, and emergency exit surveys piece place position when the emergency exit does not shelter from the paper currency passageway totally is installed to the second emergency exit sensor.

As a further improvement of the utility model, the outer wall of the safety door box is also provided with a door box slide rail, the door box slide rail is clamped and can be slidably arranged in a door box slide groove, the door box slide groove is arranged on a first mounting frame, and the first mounting frame is assembled with the safe box; and a second mounting frame is further mounted on the first mounting frame.

As the utility model discloses a further improvement, one side of safety door case is articulated through hinge and fixed frame one side of paper money bag mount, installs the lock frame on the opposite side of safety door case, and fixed frame and lock frame correspond the department and install the jam plate, are provided with the locked groove on the jam plate, but locked groove and lock hook plate block and sliding assembly, lock hook plate one end is installed on lock hook piece, is provided with the latch hook on the other end, and the latch hook closes the edge at the locked groove to make lock hook piece and jam plate relatively fixed.

As a further improvement of the utility model, the latch hook member is further provided with a latch hook member limiting plate and a latch hook member sliding groove, the latch hook member sliding groove is clamped with a latch hook member pin and can be assembled in a sliding manner, and the latch hook member pin is arranged on the lock frame; the lock hook part limiting plate is tightly attached to the lock hook driving plate, the lock hook driving plate is installed on the mechanical lock, the mechanical lock is installed on the lock frame, and the mechanical lock cannot rotate with the lock frame when not unlocked and can rotate with the lock frame after being unlocked.

As the utility model discloses a further improvement, lock hook spare one end and the one end assembly of the extension spring of locking of second, the second is locked the other end and the assembly of lock frame of jump ring to the elasticity of the extension spring of locking through the second compresses tightly the hook piece to the edge of locked groove, with the edge chucking that keeps latch hook and locked groove.

As the utility model discloses a further improvement, the one end of latch hook drive plate and the first one end assembly of the extension spring of locking, the first other end and the lock frame assembly of the extension spring of locking to exert to latch hook spare limiting plate pivoted pulling force to the latch hook drive plate through the first extension spring of locking.

As a further improvement, the safety door box is further provided with a handle, and the handle is used for facilitating the whole safe pulling out of the safety door box, the paper money bag fixing frame and the paper money bag by an operator.

The utility model also discloses a large-sum deposit machine, its application has above-mentioned safety door case.

The utility model has the advantages that:

1. the utility model discloses can realize the clear branch to paper currency, select, keep in, the storage, and whole journey can the machine on duty to realize self-service large sum deposit, in the paper money bag is finally deposited into to the deposit, in the staff later stage only need change the paper money bag can, it is very convenient and paper money bag memory space big to use, very suitable great large sum deposit of amount.

2. The utility model discloses a divide clearly the module and can discern paper currency to acquire information such as paper currency quantity, denomination, whether incomplete, whether unable discernment, finally deposit the paper currency that the inspection passes through and connect paper money bench to keep in, whether deposit in so that the follow-up affirmation of operator. In addition, the paper money which cannot be identified and is incomplete is conveyed to a paper money returning plate so as to be convenient for an operator to process in time.

3. The utility model discloses a connect paper money platform tilting mechanism piles up paper currency through connecing the paper money platform to connect paper money platform upset after acquireing to deposit the order, thereby pour paper currency into paper money bag storage in the module, can also realize quick deposit when realizing the storage.

4. The utility model discloses a safety cover mechanism can carry out open-close type to connecing the paper money platform and shelter from, can effectively improve the security of paper currency on the one hand, and on the other hand also can prevent to connect the paper currency loss of paper money bench, causes the dispute.

5. The utility model discloses a paper money bag module can carry paper currency segmentation and final storage in the paper money bag, and paper money bag, paper money bag mount, safety door case can dismantle, has made things convenient for the staff to carry out the change of paper money bag greatly.

6. The utility model discloses a shutter mechanism utilizes shutter control paper money fill and connects the intercommunication of paper money board or cut off to utilize the shutter to prevent that the paper currency in the paper money bag from being tak away when the protective cover is opened, it is also very convenient when the storage paper currency.

7. The utility model discloses a security door case passes through the emergency exit and realizes advancing the switching of paper money mouth safely, combines the use of mechanical lock to make the paper money bag still have protect function after being taken out, prevents that the paper currency in the paper money bag from receiving the loss.

Drawings

Fig. 1-5 are schematic structural views of the present invention, wherein fig. 4 is a cross-sectional view of the first channel 01 in the width direction.

Fig. 6-13 are partial structural schematic diagrams of the sorting module 120 and the banknote bag module.

Fig. 14-20 are schematic structural views of the score calculating module 120.

Fig. 21-23 are schematic views of partial structures of the score calculating module 120.

Fig. 24-25 are partial schematic views of the banknote receiving wheel 554.

Fig. 26-28 are partial schematic views of the banknote receiving station 340.

Fig. 29 is a schematic structural view of the first gear 571 and the second gear 571.

Fig. 30-31 are schematic structural views of banknote bag modules.

Fig. 32-38 are schematic structural diagrams of the banknote bag module after the banknote bag a210 is taken out.

Fig. 39-41 are schematic views of the structure at the locking hook.

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 should 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 orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 29, the large-amount depositor comprises a safe 110, wherein the safe 110 is hollow and is opened at one side, the opening side is closed by a door 111, one side of the door 111 is hinged with the safe 110, and the other side is in locking assembly with the safe 110 through a door lock. The safe 110 is internally provided with a banknote bag module which contains deposited banknotes through a banknote bag A210.

The score clearing module 120 and the operation desk 130 are installed above the safe 110, the touch screen 211 and the identity card reader 212 are installed on the operation desk 130, and the touch screen 211 is used for displaying pictures and inputting instructions through touch; the identification card reader 212 is used to read identification card information. The sorting module 120 is used for sorting the banknotes to be deposited, so as to sort out unqualified banknotes, such as counterfeit banknotes, damaged banknotes, unidentifiable banknotes, and the like. The sorting module 120 is further provided with a receipt printer 213, and after the operator finishes depositing money, the receipt printer prints and outputs the receipt.

The sorting module 120 is provided with a sorting seat 121, the sorting seat 121 is provided with a first sorting side plate 123, a second sorting side plate 124, a sorting front rail 122 and a sorting rear rail 125, and the sorting front rail 122 and the sorting rear rail 125 are respectively arranged at two ends of the first sorting side plate 123 and the second sorting side plate 124; the first sorting side plate 123 is composed of a first sorting plate 1231 and a first second sorting plate 1232, the first sorting plate 1231 is hinged with a sorting hook plate 1233, and the sorting hook plate 1233 is assembled with the sorting pins 102 installed on the first second sorting plate 1232 in a clamping manner, so that the first sorting plate 1231 and the first second sorting plate 1232 are assembled and fixed; the second separating side plate 124 has the same structure as the first separating side plate 123, and is also composed of two plates.

The first and second sorting plates 1232 are assembled with the lower part of the second sorting side plate 124 through the connecting plate 126, the first and first sorting plates 1231 are assembled with the upper part of the second sorting side plate 124 through the banknote inlet table 140, and the banknote inlet table 140 is used for placing banknotes to be sorted; two width limiting plates 150 are further mounted at the position, where the paper money is placed, of the paper money feeding table 140, two ends of the paper money are close to or attached between the two width limiting plates 150, the two width limiting plates 150 are respectively assembled with different width limiting racks 151, and the two width limiting racks 151 are respectively in meshing transmission with two sides of the width limiting gear 152, so that the two width limiting plates 150 can be guaranteed to keep a central plane symmetrical state when the width is adjusted, and subsequent paper money can be conveyed and processed conveniently. The width limiting rack 151 and the width limiting gear 152 are both mounted on the width limiting frame 172, the width limiting frame 127 is hinged with the first separating side plate 123 and the second separating side plate 124 on two sides through the second rotating shaft 402, and the design can greatly facilitate later-stage maintenance. During later period maintenance, the width limiting frame 127 can be opened by directly rotating the second rotating shaft 402. Preferably, the second rotating shaft 402 is sleeved with a first torsion spring 630, and two ends of the first torsion spring 630 are respectively assembled or pressed with the width limiting frame 127 and the second transport frame 180, so as to apply a torsion force to the width limiting frame 127 to rotate towards the banknote inlet table 140.

A first channel 01, a second channel 02 and a third channel 03 are respectively arranged in the sorting module 120, the first channel 01 is arranged between the first conveying frame 170 and the second conveying frame 180, the second channel 02 is arranged between the first conveying frame 170 and the third conveying frame 190, and the third channel 03 is arranged between the reversing plate 610 and the third conveying frame 190; the second conveying frame 180 is hinged to the first separating side plate 123 and the second separating side plate 124 on two sides through a third rotating shaft 403, a second torsion spring 620 is sleeved on the third rotating shaft 403, two ends of the second torsion spring 620 are respectively pressed against the second conveying frame 180, the first separating side plate 123 or the second separating side plate 124, and therefore torsion force for rotating and pressing the first conveying frame 170 is applied to the second conveying frame 180. The outer side of the end of the second conveying frame 180 far away from the first conveying frame 170 is provided with a rear cover 160, the rear cover 160 is hinged with the sorting rear stop 125 through a first rotating shaft 401, the rear cover 160 is hinged with the middle part of a rear cover hook plate 161, one end of the rear cover hook plate 161 is hooked with a rear cover pin 101, the other end of the rear cover hook plate 161 is assembled with the rear cover 160 through a tension spring 601, the tension spring 601 is used for applying elastic force to the rear cover hook plate 161 to rotate towards the rear cover pin 101, so that the rear cover hook plate 161 is kept in clamping assembly with the rear cover pin 101, and the rear cover pin 101 is arranged on the first sorting side plate 123 and/or the second sorting side plate 124. During maintenance, the rear cover hook plate 161 is separated from the rear cover pin, the first rotating shaft 401 is used as the center to rotate to open the rear cover, and after the rear cover is rotated to be opened, the third rotating shaft 403 can be used as the center to rotate to open the second conveying frame 180, so that the maintenance is greatly facilitated.

The bottom of the banknote inlet table 140 is provided with a banknote twisting wheel 510, the banknote twisting wheel 510 is sleeved on a banknote twisting wheel shaft 410, and two ends of the banknote twisting wheel shaft 410 are respectively assembled with the first sorting side plate 123 and the second sorting side plate 124 in a circumferential rotation manner; a first cash conveying wheel 511, a second cash conveying wheel 512, a third matching wheel 525, a currency detection sensor 261, a first transfer wheel 531, a first driven wheel 501, a sterilization assembly 262, a second transfer wheel 532, a second driven wheel 502, a photoelectric counter 263, a third transfer wheel 533, a third driven wheel 503, a fourth driven wheel 504 and a reversing plate 610 are sequentially arranged on the first channel 01 along the moving direction of the cash; the first cash conveying wheel 511 is sleeved on the first cash conveying shaft 421, the first cash conveying shaft 421 and the width limiting frame 127 are assembled in a circumferential rotating manner, the width limiting frame 127 is positioned on two sides of the first cash conveying wheel 511 and is further respectively provided with a first matching wheel 523 and a second matching wheel 524 in a circumferential rotating manner, the first matching wheel 523 and the second matching wheel 524 are respectively arranged on the first matching shaft 423 and the second matching shaft 424 in a circumferential rotating manner, and the first matching shaft 423 and the second matching shaft 424 are respectively arranged on the width limiting frame 127.

The first matching wheel 523, the third matching wheel 524 and the first cash conveying wheel 511 are respectively attached to the second cash conveying wheel 512 to convey the cash one by one; the second banknote conveying wheel 512 is sleeved on the second banknote conveying shaft 422, and the second banknote conveying shaft 422, the first sorting side plate 123, the second sorting side plate 124 and the first conveying frame 170 can be assembled in a circumferential rotating mode; the third matching wheel 525 is sleeved on the third matching shaft 425 in a rotatable manner, the third matching shaft 425 is assembled with the second conveying frame 180 in a rotatable manner, and the third matching shaft 425 and the second conveying wheel 512 are attached to convey paper money.

The banknote detection sensor 261 is used for verifying authenticity of banknotes and identifying banknote information, and in the embodiment, a part with a banknote detection function in the existing banknote detector is adopted, and the part can be a CIS sensor, a TMR financial magnetic head and the like, so long as the part can identify banknotes and detect banknotes. The bill information including denomination, whether damaged, etc. is recognized by the bill identifying sensor 261 for subsequent processing.

The first transfer wheel 531 is sleeved on the first transfer shaft 431, and the first transfer shaft 431, the first sorting side plate 123, the second sorting side plate 124 and the first conveying frame 170 can be assembled in a circumferential rotating mode; a first driven pulley 501 is circumferentially rotatably mounted on the second carriage 180, and the first driven pulley 501 cooperates with the first transfer pulley 531 to transfer the bill.

The two sterilizing assemblies 262 are respectively arranged at two sides of the first channel 01, and when the sterilizing assembly 262 is used, ultraviolet light is emitted to the first channel, so that the passing paper money is irradiated to sterilize. The second conveying wheel 532 is sleeved on the second conveying shaft 432, and the second conveying shaft 432, the first separating side plate 123, the second separating side plate 124 and the first conveying frame 170 can be assembled in a circumferential rotating mode; a second driven wheel 502 is circumferentially rotatably mounted on the second carriage 180, and the second driven wheel 502 cooperates with a second transfer wheel 532 to transport the banknotes.

The photoelectric counter 263 is used for detecting whether the paper money passes through the first channel 01 or not, and counting the number of the paper money passing through to obtain the number of the paper money passing through, so as to accumulate the number. The third transfer wheel 533 is sleeved on the third transfer shaft 433, and the third transfer shaft 433 is circumferentially and rotatably assembled with the first sorting side plate 123, the second sorting side plate 124 and the first conveying frame 170; the third driven pulley 503 is circumferentially rotatably mounted on the second carriage 180, and the third driven pulley 503 cooperates with the third transfer pulley 533 to convey the banknotes. A fourth driven wheel 504 is circumferentially rotatably mounted on the third carriage 190, and the fourth driven wheel 504 cooperates with the third transfer wheel 533 to convey the banknotes.

The first conveying frame 170 is further provided with a first channel belt shaft 441 and a second channel belt shaft 442 at the positions of the first channel 01 and the second channel 02 respectively in a circumferential rotation mode, a channel belt 540 bypasses the first channel belt shaft 441 and the second channel belt shaft 442 and forms a belt transmission mechanism, and the channel belt 540 is used for being matched with the end face of the third conveying frame 190 to convey paper money; the third carriage 190 is mounted with a third output wheel 553 at the outlet end of the second path 02, and the third output wheel 553 cooperates with the path belt 540 to output the bills from the second path 02 to the bill reject plate 310. The cash returning plate 310 is installed between the first sorting side plate 123 and the second sorting side plate 124. When the paper money returning plate is used, abnormal paper money such as unidentifiable paper money, damaged paper money, counterfeit paper money and the like is input into the second channel and then input into the paper money returning plate 310 from the second channel, so that an operator can take and dispose the paper money in time. The third output shaft 453 is fitted around the third output shaft 453, and the third output shaft 453 is assembled with the first sorting side plate 123, the second sorting side plate 124, and the third carriage 190 so as to be rotatable circumferentially.

The third transport frame 190 is also provided with a first output wheel 551 and a second output wheel 552 at the third channel 03, the first output wheel 551 and the second output wheel 552 are matched with each other to transport paper money, the first output wheel 551 and the second output wheel 552 are respectively sleeved on a first output shaft 451 and a second output shaft 452, and the first output shaft 451, the first sorting side plate 123, the second sorting side plate 124 and the third transport frame 190 can be assembled in a circumferential rotation manner. The second output shaft 452 is circumferentially rotatably mounted on the third carriage 190. The third transport frame 190 is further provided with a banknote receiving wheel 554 at the outlet of the third channel 03, the banknote receiving wheel 554 is sleeved on a banknote receiving shaft 470, the banknote receiving shaft 470 and the banknote receiving frame 128 are assembled in a circumferential rotating mode, the banknote receiving frame 128 is installed on the sorting seat 121, the banknote receiving shaft 470 is connected with a motor shaft of a banknote receiving motor 273, and after the banknote receiving motor 273 is started, the banknote receiving wheel 554 can be driven to rotate circumferentially to receive and transfer banknotes output from the third channel one by one onto the banknote receiving table 340 for stacking.

The reversing plate 610 is used for controlling one of the first channels 01 to be communicated with the second channel 02 and the third channel 03, the reversing plate 610 is sleeved on the reversing shaft 460, the first sorting side plate 123, the second sorting side plate 124 and the first conveying frame 170 can be assembled in a circumferential rotating mode, and the reversing shaft 460 is connected with an output shaft of the rotary electromagnet 250, so that the rotary electromagnet can drive the reversing shaft 460 to rotate after being started, and the reversing plate 610 is driven to rotate synchronously. The diverter plate 610 is provided with a first guide surface 611 and a second guide surface 612, respectively, and when the first path 01 communicates with the second path 02, the first guide surface 611 is parallel to the first carriage end surface on the side of the second path, and the second guide surface 612 enters the third path 03 to close the third path, so that the banknotes can enter the second path 02 from the first path. After the rotary electromagnet is started, the reversing plate rotates, so that one end of the reversing plate is attached to the first conveying frame 170 to close the second channel 02, the second guide surface 612 is matched with the first output wheel 551 to form a third channel 03, and the third channel is communicated with the first channel. The banknote is guided by the second guide surface 612 to be guided from the first channel to the third channel and finally stacked on the banknote receiving platform 340 by the banknote receiving wheel.

The first synchronous belt 561 bypasses the money twisting wheel shaft 410, the second money conveying shaft 422 and the first money conveying motor shaft 2711 respectively to form a belt transmission mechanism, the first money conveying motor shaft 2711 is installed in the first money conveying motor 271, and the first synchronous belt 561 can be driven to run after the first money conveying motor 271 is started, so that the money twisting wheel shaft 410 and the second money conveying shaft 422 are driven to rotate to convey paper money. The second synchronous belt 562 winds around the second banknote sending shaft 422, the second banknote sending motor shaft 2721, the first channel belt shaft 441, the second intermediate shaft 455, the third transport shaft 433, the second transport shaft 432, the second intermediate shaft 434 and the first transport shaft 431 and forms a belt transmission mechanism, the second banknote sending motor shaft 2721 is installed in the second banknote sending motor 272, and the second banknote sending motor shaft 2721 can be driven to rotate after the second banknote sending motor 272 is started, so that the second synchronous belt 562 is driven to run. The third timing belt 563 is wound around the second banknote feeding motor shaft 2721, the third intermediate shaft 454, the first transfer shaft 431, the second intermediate shaft 434, the second transfer shaft 432, the first transfer shaft 433, the first intermediate shaft 455, and the first passage belt shaft 441, respectively, and constitutes a belt transmission mechanism. When the second banknote sending motor shaft 2721 rotates, the second synchronous belt 562 and the third synchronous belt 563 are driven to operate respectively, so that the second banknote sending shaft 422, the second banknote sending motor shaft 2721, the first channel belt shaft 441, the second intermediate shaft 455, the third transfer shaft 433, the second transfer shaft 432, the second intermediate shaft 434 and the first transfer shaft 431 are driven to rotate circumferentially to convey banknotes.

In the initial state, the diverter plate 610 connects the third channel to the first channel and closes the second channel, and if the banknotes pass the inspection, the banknotes are fed into the third channel 03 and stacked on the banknote receiving station 340 by the banknote receiving wheel 554. If the paper money in the first channel does not pass the checking, the reversing plate 610 closes the third channel, connects the first channel and the second channel, inputs the paper money into the second channel, and then enters the paper money returning plate 310 to be stored.

Preferably, the banknote twisting wheel shaft 410 is further sleeved with a first encoding disc 411, and an edge of the first encoding disc 411 is installed in the first encoder 223, so that the first encoder 223 is matched with the first encoding disc 411 to detect the rotation speed and the rotation angle of the banknote twisting wheel shaft 410.

Preferably, the second banknote feeding shaft 422 is sleeved with a second encoding disc 4221, and the edge of the second encoding disc 4221 is installed in the second encoder 224, so that the second encoder 224 is matched with the second encoding disc 4221 to detect the rotation speed and the rotation angle of the second banknote feeding shaft 422.

Preferably, the reversing shaft 460 is provided with a reversing detection piece 461, and the reversing detection piece 461 can be installed in the reversing sensor 227, so that the reversing sensor 227 sends a signal to the industrial personal computer, and at this time, the second channel is judged to be communicated with the first channel. In the initial state, the commutation detecting piece 461 is not installed in the commutation sensor 227, and the first channel and the third channel are communicated.

Because the number of the checked paper money is generally large, the checked paper money is directly exposed outside, potential safety hazards exist, the checked paper money can be directly stored in the paper money bag (counting and face value accumulation are finished) when the checked paper money needs to be stored, and if the paper money on the paper money receiving table is not protected, an operator can take out part of the paper money before the paper money is stored in the paper money bag, so that disputes can be caused. Therefore, a protective cover mechanism is designed, and the money receiving table 340 is enclosed in the sorting module 120 by the protective cover 320 of the protective cover mechanism, so as to avoid the above problems.

The protective cover mechanism comprises a protective cover 320, two sides of the protective cover 320 are respectively hinged with a first sorting side plate 123 and a second sorting side plate 124 through protective cover shafts 409, one protective cover shaft 409 penetrates through the first sorting baffle 123 and then is assembled and fixed with an induction plate 710, the protective cover shaft 409 is assembled and fixed with the protective cover, the induction plate 710 is provided with a first power pin 405, and the first power pin 405 is clamped with a guide arc groove 103 arranged on the first sorting baffle 123 and can be assembled in a sliding mode; a first power rod 720 is arranged on one side of the sensing plate 710, a sensing edge 711 is arranged on the other side of the sensing plate 710, the sensing edge 711 can be selectively arranged in the first sensor 221 and the second sensor 222, and the first sensor 221 and the second sensor 222 are arranged on two maximum displacement points of the sensing plate 710 rotating by taking the protective cover shaft 409 as a center; in the initial state, the sensing edge 711 is inserted into the first sensor 221, and the top of the protection cover 320 abuts against the connecting plate 126 and the bottom of the protection cover enters the inner side of the sorting front rail 122, so that the bill receiving table 340 is closed.

The first power rod 720 is provided with a first rod sliding groove 721, the first rod sliding groove 721 is clamped with the second power pin 406 and can be assembled in a sliding manner, the second power pin 406 is installed on the second power rod 730, the second power rod 730 is provided with a second rod sliding groove 731, and one end of the second power rod 730, which is far away from the second power pin 406, is hinged with the first sorting baffle 123 through the rod rotating shaft 408; the second lever slide 731 is slidably engaged with a third power pin 407, the third power pin 407 is eccentrically (not coaxially) mounted on a power plate 740, and the power plate 740 is mounted on a motor shaft of the shield motor 274. When the protective cover 320 needs to be opened, the protective cover motor 274 is started to drive the power disc 740 to rotate circumferentially, the power disc 740 drives the second power rod 730 to rotate around the rod rotating shaft 408 through the third power pin 407, the second power rod 730 drives the induction plate 710 to rotate around the protective cover shaft 409 through the second power pin 406, so that the protective cover 320 is driven to rotate synchronously, and in the process, the first power pin 405 is matched with the guide arc groove 103 to improve the stability of the rotation of the induction plate 710. When the protective cover is fully opened, the cash receiving station is exposed and the sensing edge 711 is now fitted with the second sensor 222. The first sensor 221 and the second sensor 222 are photoelectric sensors, and generate an electrical signal when the sensing edge 711 is installed, and then input into the industrial personal computer, so that the industrial personal computer can determine the current position of the protective cover.

Preferably, in order to prevent the protective cover from being violently opened, the first and second clearly-dividing side plates 123 and 124 are respectively provided with the electromagnets 240, and the telescopic shafts 241 of the electromagnets 240 penetrate through the first clearly-dividing side plate 123 or the second clearly-dividing side plate 124 and enter the inner side of the protective cover 320, so that the protective cover 320 cannot rotate downwards, and the top of the protective cover 320 cannot rotate upwards due to the limitation of the connecting plate 126, so that the protective cover 320 can be prevented from being undesirably opened and violently opened. When the protective cover needs to be opened, the electromagnet 240 is started first, so that the telescopic shaft of the electromagnet 240 retracts to a position where the telescopic shaft does not interfere with the rotation of the protective cover, and then the protective cover motor 274 is started to drive the protective cover to rotate and open by taking the protective cover shaft as a center. When the protective cover needs to be closed, the protective cover motor rotates reversely to drive the protective cover to reset, and then the electromagnet drives the telescopic shaft to extend and reset.

The sorted paper money needs to be temporarily stored on the paper money receiving platform 340, and the paper money needs to be separated from the paper money receiving platform 340 and then fall into the paper money bags of the paper money bag module for storage after deposit is confirmed, so that the mode that the paper money receiving platform 340 can rotate to release the paper money is necessary, and the function is realized through the turnover mechanism of the paper money receiving platform.

The banknote receiving table turnover mechanism comprises a banknote receiving table 340, a banknote receiving front rail 330 and a banknote receiving side rail 341, wherein two sides of the banknote receiving front rail 330 are respectively assembled with the banknote receiving side rail 341, and the banknote receiving side rail 341 is installed on the first sorting side plate 123 or the second sorting side plate 124 close to the banknote receiving side rail; one end of the banknote receiving platform 340 far away from the banknote receiving front stop 330 is hinged with the banknote receiving side stop 341 through the banknote receiving rotating shaft 404; the banknote receiving rotary shaft 404 is sleeved with a banknote receiving torsion spring 640, and two ends of the banknote receiving torsion spring 640 are respectively assembled with the banknote receiving platform 340 and the banknote receiving front stop 341 so as to apply a torque force to the banknote receiving platform 340 to rotate towards the banknote receiving front stop 341, so that the banknote receiving platform 340 is kept tightly attached to the banknote receiving front stop 341. The banknote receiving front stop 341 is further provided with a mounting hole 3411, a screw passes through the mounting hole 3411 and then is assembled with the banknote receiving front stop 330, and the telescopic shaft 241 of the electromagnet 240 is preferably pressed or inserted into the mounting hole 3411 of the banknote receiving front stop 341, so that the locking force on the protective cover 320 is greatly improved.

The bottom of the bill receiving platform 340 is provided with a bill receiving hinged seat 342, the bill receiving hinged seat 342 is hinged to one end of a bill receiving connecting rod 343, the other end of the bill receiving connecting rod 343 is hinged to a force arm plate 650 through a pin shaft 660, a second gear 572 is sleeved on the pin shaft 660 and is in meshing transmission with the first gear 571, the first gear 571 is sleeved on a turnover motor shaft 2751, the turnover motor shaft 2751 is installed in a turnover motor 275, the turnover motor 275 is started to drive the turnover motor shaft 2751 to rotate circumferentially, the force arm plate 650 rotates by taking the turnover motor shaft 2751 as a center, and the bill receiving platform 340 is driven to rotate downwards through the bill receiving connecting rod 343 when the force arm plate 650 rotates, so that the bill receiving platform rotates downwards to discharge bills or rotates upwards to reset. The rotation of the bill receiving platform drives the bill receiving rotating shaft 404 to rotate synchronously.

Preferably, connect to be provided with on the paper money pivot 404 and connect paper money detection piece 4041, connect paper money detection piece 4041 alternative and pack into first connecing paper money sensor 225, the second connects in paper money sensor 226, connect paper money platform 340 and connect paper money side to keep off 341 and paste when tight, connect paper money detection piece 4041 to pack into the second and connect in paper money sensor 226, judge this moment and connect paper money platform 340 to normally connect paper money, and connect paper money platform 340 to rotate down and put in place the back, connect paper money detection piece 4041 to pack into first connecing in paper money sensor 225, judge this moment and connect paper money platform 340 row paper money to accomplish. The first banknote receiving sensor 225 and the second banknote receiving sensor 226 may be photoelectric sensors, and generate an electrical signal when the banknote receiving detection piece 4041 is loaded into the banknote receiving sensor and then input into the industrial personal computer, so that the industrial personal computer judges the position of the banknote receiving table according to the signal.

Referring to fig. 1-5, and 30-40, the banknote bag module includes a banknote bag a210, a banknote bag fixing frame a220, a security door box a230, and a protection door frame a240, wherein the banknote bag a210 is used for storing banknotes and has an opening at the top; the banknote bag fixing frame A220 comprises a fixing frame A222 and a pressing strip A221, wherein the opening in the top of the banknote bag A210 is sleeved on the fixing frame A222, and the pressing strip A221 is fixedly assembled with the fixing frame A222 through screws, so that the banknote bag A210 is pressed on the fixing frame A222 to fix the banknote bag. The fixing frame A222 is hinged to one side of the safety door box A230 through a hinge A610, a lock frame A235 is installed on the other side of the safety door box A230, a lock plate A223 is installed at a position, corresponding to the lock frame A222, of the fixing frame A235, a lock groove A2231 is formed in the lock plate A223, the lock groove A2231 is clamped with a lock hook plate A713 and assembled in a sliding mode, one end of the lock hook plate A713 is installed on the lock hook member A710, a lock hook A711 is arranged at the other end of the lock hook plate A713, and the lock hook A711 is hooked at the edge of the lock groove A2231, so that the lock hook member and the lock plate are fixed relatively. The locking hook piece A710 is further provided with a locking hook piece limiting plate A714 and a locking hook piece sliding groove A712 respectively, the locking hook piece sliding groove A712 is clamped with a locking hook piece pin A720 and can be assembled in a sliding mode, and the locking hook piece pin A720 is installed on a lock frame A235; the latch hook element limiting plate A714 is tightly attached to the latch hook driving plate A730, the latch hook driving plate A730 is installed on the mechanical lock A232, the mechanical lock A232 is installed on the lock frame A235, the mechanical lock A232 cannot rotate with the lock frame A235 when not unlocked, and the mechanical lock A232 can rotate with the lock frame A235 after being unlocked. One end of the latch hook member a710 is assembled with one end of the second locking tension spring a530, and the other end of the second locking spring a530 is assembled with the latch frame a235, so that the latch hook member a710 is pressed against the edge of the latch groove a2231 by the elastic force of the second locking tension spring a530, so as to keep the latch hook a711 clamped against the edge of the latch groove a 2231. One end of the latch hook driving plate a730 is assembled with one end of the first locking tension spring a520, and the other end of the first locking tension spring a520 is assembled with the lock frame a235, so that a tensile force rotating towards the latch hook member limiting plate a714 is applied to the latch hook driving plate a730 through the first locking tension spring a 520. After the mechanical lock 232 is unlocked, the latch hook driving plate a730 can be relatively easily driven to rotate by the auxiliary tension of the first latch tension spring a520, so that the latch hook member a710 is driven to move, the latch hook a711 is separated from the edge of the latch groove a2231 and then enters the latch groove a2231, and the latch frame a235 can be separated from the latch plate. The security door box A230 can be opened by rotating around the hinge, so that the paper money in the money bag can be taken out conveniently. Preferably, a handle 231 is further installed on the security door box a230, and the handle 231 is used for facilitating an operator to pull the security door box a230, the banknote bag fixing frame a220 and the banknote bag a210 out of the safe 110 as a whole.

The security door box A230 is also provided with a paper money channel A234 and a security lock chute A236, one side of the paper money channel A234 is provided with a security lock plate A237, the paper money channel A234 is communicated with the inside of the paper money bag A210, the paper money channel A234 is sealed by a safety door A260, safety door guide wheels A261 are respectively arranged on two sides of the safety door A260, the safety door guide wheels A261 are arranged in a safety lock sliding groove A236 and are clamped and assembled with the safety lock sliding groove A261 in a sliding way, the safety door A260 is sleeved on the safety door screw A430 and assembled with the safety door screw A through threaded screwing, one end of the safety door screw A260 is connected with a motor shaft of the safety door motor A340, the safety door motor A340 can drive the safety door screw A260 to rotate circumferentially after being started, thereby driving the safety door a260 to move along the safety door screw a260, and thus realizing that the safety door is pulled to the side far away from the paper money channel a234 to open the paper money channel a234 or moves to the paper money channel a234 to close the paper money channel a 234.

Preferably, the security door a260 is provided with a security door detection piece a262, the security door detection piece a262 can be installed in a first security door sensor a351 and a second security door sensor a352, the first security door sensor a351 is installed at a position where the security door detection piece a262 is located when the security door a260 completely closes the paper money passage a234, and the second security door sensor a352 is installed at a position where the security door detection piece a262 is located when the security door a260 does not completely shield the paper money passage a 234. Photoelectric sensors may be used as the first and second emergency gate sensors a351 and a352, and when the emergency gate detection piece a262 is mounted, a signal is input to an industrial personal computer, and the industrial personal computer determines the current position of the emergency gate based on the signal.

Preferably, the outer wall of the safety door box a230 is further provided with a door box slide rail a233, the door box slide rail a233 is clamped and slidably installed in a door box slide groove a111, the door box slide groove a111 is installed on a first installation frame a110, and the first installation frame a110 is assembled with the safe box 110; the first mounting frame A110 is further provided with a second mounting frame A150, the second mounting frame A150 is provided with a protection door frame A240, a paper money bucket A242 is arranged on the protection door frame A240, the paper money bucket A242 is hollow and is provided with openings at two ends, the bottom of the paper money bucket A242 is communicated with a safety paper money inlet A238 on the safety door box A230, and the safety paper money inlet A238 is communicated with a paper money channel A234. When in use, paper money firstly enters the paper money hopper, the paper money enters the paper money passage A234 from the paper money hopper and the safe paper money inlet A238 after the safety door A260 is opened, and finally falls into the paper money bag A210 for storage.

The top opening of the banknote bucket A242 is communicated with the inside of the connecting pipe 129, the connecting pipe 129 is installed on the sorting module and communicates the bottom of the banknote receiving platform 340 with the top of the banknote bucket A242, and therefore banknotes falling off from the banknote receiving platform can be guided into the banknote bucket A242.

In order to prevent the banknotes in the banknote bucket from being taken out and causing loss when the protection cover 320 is opened, a protection door mechanism is further added in the embodiment, the protection door mechanism includes a protection door frame a240 and a protection door a250, a door frame sliding groove a241 is further arranged on the protection door frame a240, the door frame sliding groove a241 is clamped with a protection door guide wheel a254 and can be assembled in a sliding mode, the protection door guide wheel a254 is installed on the protection door a250, a door through groove a251, a door driving plate a252 and a door driving groove a253 which penetrate through the protection door a250 are arranged on the protection door a250, the door driving groove a253 is clamped with the door a411 and can be assembled in a sliding mode, the door driving pin a411 is installed on the door driving rod a410, and the door driving rod a410 is installed on a motor shaft of the protection door motor a 310. In the initial state, the door opening groove a251 is not communicated with the top of the banknote bucket a242 but is displaced, so that the protection door a250 separates the banknote bucket a242 from the connection pipe 129. When storing paper money, the protection door motor a310 is started, so as to drive the door driving rod a410 to rotate, and the door driving rod a410 drives the protection door a250 to slide along the door frame sliding groove a241 until the door through groove a251 communicates the paper money bucket a242 with the connecting pipe 129, and at this time, the paper money can fall into the paper money bucket 242. Then, the shutter motor a310 rotates reversely to drive the shutter to reset.

Preferably, the door driving lever a410 is further provided with a door detection plate a412, the protection door frame a240 is provided with a protection door sensor a320, when the door through groove a251 communicates the banknote bucket a242 with the connecting pipe 129, the detection plate a412 is loaded into the protection door sensor a320, the protection door sensor a320 sends a signal to the industrial computer, and the industrial computer determines that the door through groove a251 communicates the banknote bucket a242 with the connecting pipe 129. The protective door sensor a320 may be a photoelectric sensor.

Preferably, the first mounting bracket a110 is located at one end of the door box sliding groove a111 close to the door 111 and is provided with a blocking block a120, the blocking block a120 is axially slidably sleeved on a blocking shaft a440, the blocking shaft a440 is located between the blocking block a120 and the first mounting bracket a110 and is sleeved with a blocking spring (not shown), and the blocking spring is used for applying an elastic force to the blocking block a120 to push the second mounting bracket a150, so that in an initial state, the blocking block a120 blocks the end of the door box sliding groove a111, and the door box sliding rail a233 cannot be pulled out of the door box sliding groove a111, so as to position and fix the safety door box a 230. More preferably, the second mounting bracket a150 is further provided with a blocking unlocking rod a450 in an axial sliding manner, and the bottom of the blocking unlocking rod a450 is pressed against the top surface of the blocking block a120, so that when the safety door box a230 needs to be pulled out, the blocking unlocking rod a450 is directly pressed downwards, the blocking unlocking rod a450 drives the blocking block a120 to move downwards against the elastic force of the blocking spring, so that the blocking block a120 does not block the door box sliding groove a111 any more, and the safety door box a230 is pulled out and put in conveniently.

Preferably, the safe 110 is further internally provided with a detection frame a130, the detection frame a130 is provided with a detection sliding pin a420 and a detection sensor a330, the detection sliding pin a420 is arranged in the detection plate groove a141 and is clamped and slidably assembled with the detection plate groove a141, the detection plate groove a141 is arranged on the detection plate a140, the detection plate a140 is assembled with one end of a detection tension spring a510, the other end of the detection tension spring a510 is assembled with the detection frame a130, and the detection tension spring a510 applies an elastic force to the detection plate a140 to pull the safety door box a 230. The detection plate A140 is provided with a detection edge A142, the detection edge A142 can be installed in the detection sensor A330, so that the detection sensor A330 sends a signal to an industrial personal computer, and the industrial personal computer judges that the safety door box A230 is installed in place. After the security door box a230 is pulled out of the door box chute a111, the detection plate a140 moves towards the door 111 under the pulling force of the detection tension spring a510, so that the detection edge a142 moves out of the detection sensor a330, the detection sensor a330 sends a signal to the industrial personal computer, and the industrial personal computer judges that the security door box a230 is pulled out or is not installed in place.

When the banknote receiving platform needs to output banknotes, the protective door is opened, so that the banknote hopper is communicated with the banknote receiving platform, and then the banknotes fall into the banknote hopper from the banknote receiving platform; the cash receiving platform resets, the protective door is closed, then the safety door is opened, the paper money in the cash hopper falls into the cash bag from the paper money channel to be stored, the safety door is closed, and the operation is repeated in this way, so that the paper money is continuously stored. The safety door is designed to be opened only through the safety door motor A340, so that the safety of paper money in the paper money bag A210 is greatly improved.

The details of the present invention are well known to those skilled in the art.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (9)

1. The utility model provides a security door case, its characterized in that, its inside paper currency passageway, safety lock spout that is provided with, paper currency passageway one side install safe jam plate and paper currency passageway and the inside intercommunication of paper money bag, the paper currency passageway passes through the emergency exit and seals, installs the emergency exit guide pulley on the both sides of emergency exit respectively, and the emergency exit guide pulley is packed into in the safety lock spout and block, slidable assembly with it, the emergency exit suit is on the emergency exit screw rod and closes the assembly with it through the screw thread soon, and the one end of emergency exit screw rod is connected with the motor shaft of emergency exit motor.

2. The security door box according to claim 1, wherein the security door is provided with a security door sensing piece which can be incorporated into a primary security door sensor installed at a position where the security door sensing piece is located when the security door completely closes the paper money passage, and a secondary security door sensor installed at a position where the security door sensing piece is located when the security door does not block the paper money passage at all.

3. The security door box according to claim 1, wherein a door box slide rail is further provided on an outer wall of the security door box, the door box slide rail is engaged and slidably fitted into a door box slide groove, the door box slide groove is mounted on a first mounting bracket, and the first mounting bracket is assembled with the safe box; and a second mounting frame is further mounted on the first mounting frame.

4. The security door box as claimed in claim 1, wherein one side of the security door box is hinged to one side of a fixing frame of the banknote bag fixing frame through a hinge, a locking frame is installed on the other side of the security door box, a locking plate is installed at a position of the fixing frame corresponding to the locking frame, a locking groove is formed in the locking plate, the locking groove is engaged with a locking hook plate and can be slidably assembled, one end of the locking hook plate is installed on the locking hook member, a locking hook is arranged at the other end of the locking hook plate, and the locking hook is hooked at the edge of the locking groove, so that the locking hook member and the locking plate are relatively fixed.

5. The safety door box according to claim 4, wherein the latch hook member is further provided with a latch hook member stopper plate and a latch hook member sliding groove, respectively, the latch hook member sliding groove is engaged with and slidably assembled with a latch hook member pin, and the latch hook member pin is mounted on the latch frame; the lock hook part limiting plate is tightly attached to the lock hook driving plate, the lock hook driving plate is installed on the mechanical lock, the mechanical lock is installed on the lock frame, and the mechanical lock cannot rotate with the lock frame when not unlocked and can rotate with the lock frame after being unlocked.

6. The security door box of claim 5, wherein one end of the latch hook member is assembled with one end of a second latch tension spring, and the other end of the second latch clip is assembled with the latch frame, so that the latch hook member is pressed toward the edge of the latch groove by the elastic force of the second latch tension spring to maintain the latch hook clamped with the edge of the latch groove.

7. The security door box of claim 5 or 6, wherein one end of the latch hook driving plate is assembled with one end of a first locking tension spring, and the other end of the first locking tension spring is assembled with the lock frame, so that the latch hook driving plate is applied with a tensile force rotating toward the latch hook stopper plate by the first locking tension spring.

8. The security door box of claim 4, further comprising a handle mounted to the security door box for facilitating an operator to pull the security door box, the banknote bag holder, and the banknote bag together out of the security box.

9. A high-value depository characterized in that a security door box according to any one of claims 1 to 8 is used.

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