CN113920659B - Intelligent supply system based on big data and scheduling method - Google Patents

Abstract

The invention relates to an intelligent supply system and a scheduling method based on big data, which comprises a mainframe box arranged in an independent room at the back of an ATM, and is characterized in that: the ATM machine comprises a main case, a back security door, a base, a back security door, a back door, a.

Description

Intelligent supply system based on big data and scheduling method

Technical Field

The invention relates to the field of ATM machines, in particular to an intelligent supply system and a scheduling method based on big data.

Background

As a self-service cash storage device, the ATM can well provide financial services for users, and simultaneously can reduce the working strength of bank workers, most banks select the wall-in ATM, and an independent room is arranged at the back of the ATM and used for carrying money or operating the back of the ATM by the bank workers. Generally, a bank can place a plurality of devices on the same ATM station, one part is a deposit machine which can only store money, the other part is a deposit and withdrawal machine which can store and withdraw money, the money in the deposit machine can be continuously reduced along with the continuous withdrawal of a user, the deposit and withdrawal machine cannot be used when the money is withdrawn, the deposit and withdrawal machine can carry out deposit and withdrawal, but part of the devices store the deposit and withdrawal separately, the deposited money cannot be withdrawn, and the ATM stops supplying corresponding services after a cash box for storing the money is full, so that a cash carrier is required to timely replenish the banknotes in the deposit and withdrawal machine and withdraw the banknotes in the cash box and a waste cash box and recycle the banknotes. And because the ATM needs to be processed by cash transporting personnel each time of being stopped, for ATM stations with large user quantity, the processing period of the cash transporting personnel is short, the processing is troublesome, and poor experience is brought to users during the stop of the ATM.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent supply system and a scheduling method based on big data. The technical scheme is as follows:

on one hand, the invention provides an intelligent supply system and a scheduling method based on big data, which comprises a mainframe box arranged in an independent room at the back of an ATM, wherein the mainframe box is in signal connection with each ATM, the using condition of each ATM can be fed back to the mainframe box, the mainframe box can also control the opening and closing of a safety door at the back of each ATM, a base which is right opposite to the back of each ATM is fixedly arranged on one side end surface of the mainframe box facing the ATM, a cross rod is rotatably arranged above the base, a rotary lifting mechanism for controlling the rotation and lifting of the cross rod is arranged between the base and the cross rod, telescopic cavities are respectively arranged in the cross rod facing the ATM and two ends of the mainframe box, telescopic rods are slidably arranged in the telescopic cavities, a box body is fixedly arranged at the bottom of one end of the telescopic rod extending out of the cross rod, openings are respectively arranged in the box body at two sides and face the ATM and a temporary storage cavity of the mainframe box, the temporary storage cavity is internally provided with a storing and taking mechanism for taking a money box in the ATM;

the cash deposit machine is characterized in that a deposit and withdrawal machine is arranged in the main machine box and is opposite to each ATM, a cash box can be placed in the deposit and withdrawal machine by the deposit and withdrawal mechanism, the deposit and withdrawal machine can deposit and withdraw money on the internal cash box, a spare cash box is placed in each deposit and withdrawal machine, a cash inlet and outlet with an upward opening are formed in the same side of each deposit and withdrawal machine, a sliding bottom plate is arranged at the top of the main machine box in a sliding mode, an opening penetrates through the sliding bottom plate up and down, the bottom of the opening can be switched to be communicated with any one of the openings at the top of the cash inlet and outlet through the movement of the sliding bottom plate, a large cash storage box is arranged on the sliding bottom plate, a large cash storage box is arranged in the large cash storage box, and a cash conveying channel with a downward opening and capable of being communicated with the top of the opening is arranged at one end of the large cash storage box.

Preferably, rotatory elevating system is including fixed locating the support column on base top, run through about in the support column and cut the rotation and be equipped with the sleeve, the support column bottom be equipped with fixed mounting in rotating electrical machines in the base, sleeve bottom power connect in rotating electrical machines, the round center splined connection has the integral key shaft in the sleeve, spline shaft top end fixed connection in horizontal pole bottom central point puts, be equipped with electric telescopic handle in the support column, the electric telescopic handle top fixed be equipped with surround in the bearing board of integral key shaft, the bearing board with horizontal pole bottom counterbalance and be used for the bearing the horizontal pole.

Preferably, access mechanism locates including the intercommunication the translation chamber at chamber top of keeping in, the translation intracavity is rotated and is equipped with the translation screw rod, a translation chamber lateral wall internal fixation is equipped with and is used for driving translation screw rod pivoted translation motor, the translation intracavity slip be equipped with threaded connection in the translation rod of translation screw rod, translation rod bottom extends to the intracavity of keeping in is fixed and is equipped with electric chuck, electric chuck can adsorb the paper money case surface.

Preferably, the flexible chamber is kept away from opening a lateral wall internal fixation and is equipped with flexible motor, flexible motor one end power connection has the flexible screw rod of flexible screw rod that extends to in the telescopic link and threaded connection.

Preferably, a first electric slide rail is arranged between the top of the main case and the bottom of the sliding bottom plate, and the sliding bottom plate can be driven to move horizontally on the upper surface of the main case.

Preferably, one end of the sliding bottom plate is fixedly provided with a support leg positioned on one side of the mainframe box far away from the ATM, and a pulley is installed at the bottom of the support leg.

Preferably, the number of the support legs can be adjusted according to the longest length of the suspended sliding bottom plate in the moving process.

The invention provides the scheduling method, which comprises the following steps:

(1) controlling the back security door of the ATM to be opened;

(2) taking out the spare money box in the access machine behind the ATM which needs to be processed correspondingly;

(3) taking out a money box to be processed in the ATM;

(4) exchanging the money box with a spare money box, placing the spare money box in an ATM, and placing the money box taken out of the ATM in an access machine;

(5) and according to the purpose of the money box placed in the storing and taking machine, money taking or money storing treatment is carried out on the money box through the storing and taking machine.

In conclusion, the invention has the following beneficial effects: the invention can automatically process the paper money box in each ATM, can automatically recycle the paper money stored in the paper money storage machine, can automatically replenish the paper money in the paper money box for the cash dispenser, can greatly reduce the processing frequency of the paper money transporting personnel to the ATM, can set a reasonable fixed period to process the ATM in a low ebb time period of the ATM at night through big data statistics, but not to process the ATM after the ATM cannot be used, avoids the phenomenon that a user cannot use the ATM, ensures the use experience of the user, does not need to process the ATM once every day, keeps a long processing period as possible under the premise of ensuring the use experience of the user, reduces the operation frequency, and increases the use period and the maintenance period.

Drawings

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

FIG. 1 is a schematic perspective view of example 1 of the present invention;

FIG. 2 is a schematic perspective view of example 2 of the present invention;

FIG. 3 is a schematic structural view of embodiment 1 of the present invention;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 3;

FIG. 5 is a schematic top view of the embodiment of FIG. 3;

FIG. 6 is a schematic view of the embodiment of the present invention in the direction B-B in FIG. 3;

FIG. 7 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 6;

fig. 8 is a schematic structural view of embodiment 2 of the present invention.

Detailed Description

The intelligent supply system and the dispatching method based on big data, which are described in conjunction with the attached drawings 1-8, include a mainframe box 11 installed in an independent room at the back of the ATM, the mainframe box 11 is in signal connection with each ATM, the using condition of each ATM can be fed back to the mainframe box 11, the mainframe box 11 can also control the opening and closing of a safety door at the back of each ATM, a base 12 facing the rear of each ATM is fixedly installed at one side end surface of the mainframe box 11 facing the ATM, a cross bar 13 is rotatably installed above the base 12, a rotary lifting mechanism for controlling the rotation and lifting of the cross bar 13 is arranged between the base 12 and the cross bar 13, telescopic cavities 14 are respectively formed in the two ends of the cross bar 13 facing the ATM and the mainframe box 11, a telescopic rod 15 is slidably arranged in the telescopic cavities 14, the telescopic rod 15 extends out of the bottom of one end of the cross bar 13 and is fixedly provided with a box body 16, temporary storage cavities 17 with openings facing the ATM and the mainframe box 11 are formed in the box bodies 16 on the two sides, and a storing and taking mechanism for taking money boxes in the ATM is arranged in the temporary storage cavities 17;

the cash recycling system is characterized in that a deposit and withdrawal machine 18 is arranged in the main machine box 11 and is opposite to each ATM, a cash box can be placed in the deposit and withdrawal machine 18 by the deposit and withdrawal mechanism, the deposit and withdrawal machine 18 can deposit and withdraw money for the internal cash box, a spare cash box is placed in each deposit and withdrawal machine 18, a cash inlet and outlet 19 with an upward opening is arranged on the same side of each deposit and withdrawal machine 18, a sliding bottom plate 20 is arranged at the top of the main machine box 11 in a sliding mode, through holes 21 penetrate through the sliding bottom plate 20 from top to bottom, the bottom of each through hole 21 can be switched to be communicated with any opening in the top of the corresponding cash inlet and outlet 19 through the movement of the sliding bottom plate 20, a large cash storage box 22 is arranged on the sliding bottom plate 20, a large cash storage box 23 is arranged in the large cash storage box 22, and a cash conveying channel 24 with a downward opening and capable of being communicated with the top of each through hole 21 is arranged at one end of the large cash storage box 23.

The number and positions of the base 12 and the accessor 18 can be adjusted according to the number and positions of the ATM.

Wherein, rotatory elevating system is including fixed locating the support column 27 on base 12 top, run through from top to bottom in the support column 27 and surely rotate and be equipped with sleeve 28, support column 27 bottom be equipped with fixed mounting in rotating electrical machines 29 in the base 12, 28 bottom power of sleeve connect in rotating electrical machines 29, circle heart splined connection has integral key shaft 30 in the sleeve 28, integral key shaft 30 top fixed connection in horizontal pole 13 bottom central point puts, be equipped with electric telescopic handle 31 in the support column 27, electric telescopic handle 31 top is fixed be equipped with encircle in integral key shaft 30's supporting plate 39, supporting plate 39 with horizontal pole 13 bottom counterbalance and the bearing horizontal pole 13.

Wherein, access mechanism locates including the intercommunication the translation chamber 32 at chamber 17 top of keeping in, the internal rotation of translation chamber 32 is equipped with translation screw rod 33, 32 lateral wall internal fixation in translation chamber is equipped with and is used for driving translation screw rod 33 pivoted translation motor 34, it is equipped with threaded connection in to slide in translation chamber 32 translation rod 35 of translation screw rod 33, translation rod 35 bottom extends to the chamber 17 internal fixation of keeping in is equipped with electric suction cup 36, electric suction cup 36 can adsorb the paper money case surface.

Wherein, flexible chamber 14 keeps away from opening a lateral wall internal fixation and is equipped with flexible motor 37, flexible motor 37 one end power connection has the flexible screw rod 38 of the flexible screw rod that extends to in the telescopic link 15 and threaded connection.

A first electric slide rail 25 is arranged between the top of the main cabinet 11 and the bottom of the sliding bottom plate 20, and the sliding bottom plate 20 can be driven by the first electric slide rail 25 to translate on the upper surface of the main cabinet 11.

Wherein, the sliding bottom plate 20 is fixedly provided with a support leg 40 at one end of the main cabinet 11 far away from the ATM machine, and a pulley 41 is installed at the bottom of the support leg 40.

The number of the support legs 40 can be adjusted according to the longest length of the sliding bottom plate 20 suspended in the moving process, and therefore, when the sliding bottom plate 20 is suspended, the suspended part of the sliding bottom plate 20 can be well supported.

Wherein, the through opening 21 and the banknote conveying channel 24 are both provided with rollers for conveying banknotes.

In the first embodiment, when the bank used allows the banknotes deposited by the user to be directly supplied to the user for taking the banknotes without being recovered by the banknote transporting personnel, only one large banknote storage box 23 and one banknote transporting channel 24 are arranged in the large banknote storage box 22, and the large banknote storage box 22 is fixedly installed at the top of the sliding bottom plate 20, so that the bottom of the banknote transporting channel 24 is always communicated with the top of the through opening 21.

In the second embodiment, when a bank needing to recover banknotes deposited by a user through a banknote transport person and unable to be directly supplied to the user for taking banknotes, two large banknote storage boxes 23 and two banknote transport channels 24 are arranged in the large banknote storage box 22, one of the large banknote storage boxes 23 is used for storing banknotes, the other large banknote storage box 23 is used for discharging banknotes, the large banknote storage box 22 is slidably arranged on the upper surface of the sliding bottom plate 20, a second electric slide rail 26 is arranged between the bottom of the large banknote storage box 22 and the upper end surface of the sliding bottom plate 20, and the second electric slide rail 26 can drive the large banknote storage box 22 to move, so that the switching port 21 is communicated with one of the banknote transport channels 24, and further the switching between the banknote storage and banknote discharge operations is performed.

The invention provides the scheduling method, which comprises the following steps:

(1) controlling the back security door of the ATM to be opened;

(2) taking out the spare money box in the access machine behind the ATM which is correspondingly required to be processed;

(3) taking out a money box to be processed in the ATM;

(4) exchanging the money box with a spare money box, placing the spare money box in an ATM, and placing the money box taken out of the ATM in an access machine;

(5) and according to the purpose of the money box placed in the storing and taking machine, money taking or money storing treatment is carried out on the money box through the storing and taking machine.

The invention provides an intelligent supply system and a scheduling method based on big data, which comprises two parts:

firstly, when a certain ATM is fully stored or is about to be fully stored, the main case 11 controls the security door on the back of the ATM to be opened, at the same time, the telescopic motor 37 facing the back of the ATM and facing one side of the main case 11 is started and drives the telescopic screw 38 on the same side to rotate, further, the telescopic rod 15 is driven to extend and drive the case body 16 to approach the corresponding access machine 18 through threaded connection, meanwhile, the translation motor 34 on the same side is started and drives the translation screw 33 to rotate, the translation rod 35 is driven to move and drives the electric suction cup 36 to abut against the surface of a spare cash box in the access machine 18 through threaded connection, at the same time, the electric suction cup 36 adsorbs the spare cash box, the translation motor 34 rotates reversely, further, the spare cash box is moved to the temporary storage cavity 17 on one side close to the main case 11, at the same time, the electric telescopic rod 31 is started to extend and drives the bearing plate 39 to ascend, further, the lining cross rod 13 ascends and lengthens the spline shaft 30 until the temporary storage cavity 17 on one side close to the ATM faces the back of the full cash box in the ATM, at the moment, a telescopic motor 37 and a translation motor 34 which are close to one side of the ATM are started, a cash box in the ATM is moved into a temporary storage cavity 17 which is close to one side of the ATM through a same-side electric suction disc 36, at the moment, a rotating motor 29 is started and drives a sleeve 28 to rotate, further, a transverse rod 13 is driven to rotate for one hundred eighty degrees through a spline shaft 30, further, two box bodies 16 are exchanged, at the moment, a standby cash box is moved into the ATM for use, the electric suction disc 36 is controlled to reset, at the moment, an electric telescopic rod 31 is controlled to shorten and the transverse rod 13 is driven to descend and reset, at the moment, the cash box is adsorbed and driven to move into an access machine 18 through controlling the electric suction disc 36 which faces one side of a main machine box 11,

the application method of the first embodiment comprises the following steps: the sliding bottom plate 20 is driven to move through the control 25, so that the through hole 21 is communicated with a note inlet and outlet 19 corresponding to the ATM, notes in the note box are output through the note inlet and outlet 19 through the access machine 18, and the output notes are input into a large note storage box 23 through the through hole 21 and the note conveying channel 24 for storage;

the use method of the second embodiment is as follows: the sliding bottom plate 20 is driven to move through the control 25, so that the through hole 21 is communicated with a banknote inlet and outlet 19 corresponding to the ATM, the large banknote storage box 22 is driven to move to a banknote conveying channel 24 for storing banknotes through the control 26 to be communicated with the through hole 21, banknotes in the banknote box are output through the banknote inlet and outlet 19 through the access machine 18, and the output banknotes are input into a large banknote storage box 23 for storing banknotes through the through hole 21 and the banknote conveying channel 24 for storage;

secondly, when the ATM finishes withdrawing and taking out the money, the back security door of the ATM is controlled to be opened, the control 25 moves the sliding bottom plate 20 until the through hole 21 is communicated with the money inlet and outlet 19 corresponding to the back of the ATM, at this time,

the use method of the embodiment I comprises the following steps: the large banknote storage box 23 discharges banknotes, then the banknotes are conveyed into the storing and taking machine 18 through the banknote conveying channel 24, the through hole 21 and the banknote inlet and outlet 19, the banknotes are stored in the spare banknote box in the storing and taking machine 18, the spare banknote box and the empty banknote box which is taken out of the ATM are exchanged according to the same process in the first part, and then the ATM security door is closed;

the use method of the second embodiment is as follows: the control 26 moves the large banknote storage box 22 until the banknote conveying channel 24 for discharging banknotes is communicated with the through opening 21, at the moment, the large banknote storage box 23 for discharging banknotes conveys the banknotes into the storing and taking machine 18 through the banknote conveying channel 24, the through opening 21 and the banknote inlet and outlet 19, then the banknotes are stored in the spare box in the storing and taking machine 18, at the moment, the spare box and the empty banknote box which is taken out of the ATM are exchanged in the same process in the first part, and then the ATM security door is closed.

In the using method of the first embodiment, the bank notes in the multiple ATMs can be scheduled in time, the money stored in the deposit machine can be directly supplied to other cash dispensers for use, meanwhile, the ratio of deposit and withdrawal of the bank can be counted according to big data, and further, according to the using condition of the bank ATM, the bank note storage box and the bank note taking box of each ATM can be periodically processed in a low ebb period at night and the like, so that the processing period of the bank note transporting personnel on the ATM station can be effectively prolonged, meanwhile, the condition that a user cannot use the ATM can be well avoided, and the using experience of the user is improved;

in the second embodiment of the usage method, since the banknotes deposited by the user cannot be directly used for withdrawal of the user, the money deposited by the user cannot be circulated well inside, and therefore, two large banknote boxes are provided, one large banknote box is used as a banknote storage box and is empty in the initial state, and the other large banknote box is used as a banknote outlet box and contains banknotes in the initial state, the banknote storage banknote box and the banknote outlet box of each ATM can be periodically processed at low ebb and valley periods at night according to big data statistics, when the banknote storage box in the large banknote boxes is full or the banknote outlet box is empty, a signal is sent to the banknote transport company to arrange the banknote transport staff to process the two large banknote boxes and the banknote box in each ATM, and the banknote transport staff can also be regularly arranged to process the banknotes through the big data statistics, so that the situation that the use of the user is affected due to the fact that the ATM and the large banknote boxes cannot work is avoided, and the processing period of the banknote transport staff to the ATM station can be effectively prolonged, the situation that the user cannot use the ATM can be well avoided, and the use experience of the user is improved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (8)

1. An intelligent supply system based on big data, which comprises a main case installed in an independent room at the back of an ATM, and is characterized in that: the mainframe box is in signal connection with each ATM, the service condition of each ATM can be fed back to the mainframe box, the mainframe box can also control the opening and closing of a back security door of each ATM, a base which is right opposite to the rear part of each ATM is fixedly installed on the end surface of the mainframe box facing to one side of the ATM, a cross rod is rotatably arranged above the base, a rotary lifting mechanism for controlling the rotation and lifting of the cross rod is arranged between the base and the cross rod, telescopic cavities are respectively formed in the cross rod facing to the ATM and two ends of the mainframe box, telescopic rods are arranged in the telescopic cavities and can slide, a box body is fixedly arranged at the bottom of one end, extending out of the cross rod, of each telescopic rod, openings are formed in the box bodies at two sides and respectively face to the ATM and a temporary storage cavity of the mainframe box, and an access mechanism for taking money boxes in the ATM is arranged in the temporary storage cavity;

the cash depositing and withdrawing machine is arranged at the position, right opposite to each ATM, in the main cabinet, the cash box can be placed in the cash depositing and withdrawing machine by the depositing and withdrawing mechanism, the cash depositing and withdrawing machine can deposit and withdraw money on the internal cash box, a spare cash box is placed in each cash depositing and withdrawing machine, a cash inlet and outlet with an upward opening are formed in the same side of each cash depositing and withdrawing machine, a sliding bottom plate is arranged at the top of the main cabinet in a sliding mode, an opening penetrates through the sliding bottom plate from top to bottom, the bottom of the opening can be switched to be communicated with any one of the openings at the top of the cash inlet and outlet through the movement of the sliding bottom plate, a large cash storing box is arranged on the sliding bottom plate, a large cash storing box is arranged in the large cash storing box, and a cash conveying channel with a downward opening and capable of being communicated with the top of the opening is formed in one end of the large cash storing box.

2. The big data based intelligent supply system according to claim 1, wherein: rotatory elevating system is including fixed locating the support column on base top, run through about in the support column and surely rotate and be equipped with the sleeve, the support column bottom be equipped with fixed mounting in rotating electrical machines in the base, sleeve bottom power connect in rotating electrical machines, circle heart splined connection has the integral key shaft in the sleeve, spline shaft top end fixed connection in horizontal pole bottom central point puts, be equipped with electric telescopic handle in the support column, the fixed being equipped with in electric telescopic handle top encircle in the bearing board of integral key shaft, the bearing board with horizontal pole bottom counterbalance and the bearing the horizontal pole.

3. The big data based intelligent supply system according to claim 1, wherein: access mechanism locates including the intercommunication the translation chamber at chamber top of keeping in, the translation intracavity is rotated and is equipped with the translation screw rod, a translation chamber lateral wall internal fixation is equipped with and is used for driving translation screw rod pivoted translation motor, the translation intracavity slip be equipped with threaded connection in the translation pole of translation screw rod, translation pole bottom extends to the intracavity of keeping in is fixed and is equipped with electric chuck, electric chuck can adsorb the paper money case surface.

4. The intelligent big data-based supply system according to claim 1, wherein: the telescopic cavity is far away from opening a lateral wall internal fixation and is equipped with flexible motor, flexible motor one end power connection has the flexible screw rod that extends to in the telescopic link and threaded connection.

5. The big data based intelligent supply system according to claim 1, wherein: a first electric slide rail is arranged between the top of the mainframe box and the bottom of the sliding bottom plate, and the first electric slide rail can drive the sliding bottom plate to move horizontally on the upper surface of the mainframe box.

6. The big data based intelligent supply system according to claim 1, wherein: the fixed stabilizer blade that is located of sliding bottom plate one end the mainframe box is kept away from ATM one side, the pulley is installed to the stabilizer blade bottom.

7. The big data based intelligent supply system according to claim 6, wherein: the number of the supporting feet can be adjusted according to the longest length of the sliding bottom plate in the suspension process.

8. A big data based intelligent supply system as claimed in any one of claims 1-7, its usage method comprising:

(1) controlling the back security door of the ATM to be opened;

(2) taking out the spare money box in the access machine behind the ATM which needs to be processed correspondingly;

(3) taking out a money box to be processed in the ATM;

(4) exchanging the money box with a spare money box, placing the spare money box in an ATM, and placing the money box taken out of the ATM in an access machine;

(5) and (4) carrying out money taking or money storing treatment on the money box through the storing and taking machine according to the purpose of the money box placed in the storing and taking machine.

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