CN111127777A - Auxiliary banknote stacking device and working method thereof - Google Patents

Abstract

The invention discloses an auxiliary banknote stacking device which is positioned below a banknote outlet of a cash recycling machine, wherein the banknote outlet comprises a banknote supporting plate, a banknote guiding plate, a banknote receiving plate, an upper banknote digging wheel and a banknote outlet channel, a banknote rubbing device is further arranged below the banknote outlet and comprises a lower banknote digging wheel and a non-return wheel, the non-return wheel is arranged on a non-return wheel shaft, and the banknote outlet can achieve two functions of banknote outlet and banknote forgetting and withdrawing.

Description

Auxiliary banknote stacking device and working method thereof

Technical Field

The invention belongs to the technical field of financial machines and tools, and particularly relates to an auxiliary banknote stacking device and a working method thereof.

Background

The cash recycling machine is one of automatic teller machines used in banks, and has the name of English: CashRecycling System, the skilled person generally uses the abbreviations directly, namely: CRS. The cash recycling function of the Cash Recycling System (CRS) can improve the use efficiency of the ATM (automatic teller machine) to the maximum extent. In the past, the situation that the ATM cannot be timely added with money or all the full deposit boxes can be timely emptied due to the fact that an operator is too busy during normal working hours often causes the automatic teller machine to unnecessarily stop normal deposit and withdrawal functions, and the phenomenon is more prominent on weekends and long and fake periods.

When a customer withdraws money normally, the situation that the customer forgets to take away the bank notes at the bank note outlet occasionally occurs, in order to prevent the bank notes from being lost, a function of forgetting to take back the bank notes at the bank note outlet is required to be added, a bank note rubbing device is required to be added, and the fact that the original components need to be rearranged and designed is meant by adding one bank note rubbing device.

In addition, when the banknotes are discharged from the banknote outlet, the banknotes coming out of the channel have a certain speed, and the banknotes can fly out of the banknote outlet under the action of the speed, so that the banknotes coming out of the channel are required to be stacked in the banknote outlet in order by an auxiliary banknote stacking device, the basic principle of any auxiliary banknote stacking device is to reduce the speed of the banknotes coming out of the channel to 0, the conventional technology at present adopts a rotating hook to block the banknotes so as to reduce the speed of the banknotes to 0 by the force of the hook, and meanwhile, due to a newly-added function of forgetting to take back, the banknotes in the banknote outlet are required to be stacked in order to prepare for recycling of the banknotes, and therefore, an auxiliary banknote stacking device must be designed.

Disclosure of Invention

The invention provides an auxiliary banknote stacking device and a working method thereof, aiming at meeting the newly-added function of forgetting to take back and collecting banknotes and stacking banknotes orderly.

The technical scheme adopted for realizing the purpose of the invention is as follows:

the utility model provides an auxiliary paper money stacking device, the device is located the below of cash dispenser, the cash dispenser includes holds in the palm paper money board, leads paper money board, connects paper money board, digs paper money wheel and cash dispenser passageway on, cash dispenser below still is equipped with rubs paper money device, rub paper money device including digging paper money wheel and non-return wheel down, the non-return wheel is established on the non-return wheel axle, the cash dispenser can realize that cash dispenser and bank note forget to take back and receive two kinds of functions, its characterized in that, still be equipped with extrusion piece group and shifting vane on the non-return wheel axle, extrusion piece group includes extrusion piece and pretension bearing, and the extrusion piece realizes the cooperation installation with the non-return wheel axle through pretension bearing, and the extrusion piece upwards or downwards motion under the drive of non-return wheel axle realizes getting into and leaving the cash dispenser passageway to the cooperation realizes that cash dispenser of cash dispenser and bank note forget take back and.

Preferably, a high-limit claw and a banknote blocking claw are arranged above the banknote outlet.

Preferably, the two limiting planes are arranged on the squeezing sheet and respectively comprise an upper limiting plane and a lower limiting plane, and the squeezing sheet enters and leaves the banknote outlet channel through the contact of the two limiting planes and the banknote supporting plate.

Preferably, the pressing sheet is further provided with a pressing plane and a banknote guide plane, when the pressing sheet enters the banknote outlet channel, a Z-shaped gap is formed between the pressing plane and the banknote guide plate, banknotes can deform through the gap between the pressing plane and the banknote guide plate, and the included angle between the banknote guide plane and the banknote outlet channel is larger than 150 degrees.

Preferably, the pre-tightening bearing is of a hollow structure and is sleeved on the non-return wheel shaft, the pre-tightening bearing comprises a fixing ring and contraction portions, the fixing ring is located in the middle, the contraction portions are located at two ends of the fixing ring, the inner diameter of the fixing ring is equal to the outer diameter of the non-return wheel shaft, a plurality of uniformly distributed gaps are formed in the contraction portions, the contraction portions extend outwards from the fixing ring, and the inner diameter of the contraction portions is gradually reduced.

Preferably, the number of the poking blades is several, one poking blade is arranged in the center of the non-return wheel shaft, two non-return wheels are respectively arranged on two sides of the poking blade positioned in the center of the non-return wheel shaft, two extrusion blade groups are respectively positioned on the outer sides of the two non-return wheels, and the outer sides of the two extrusion blade groups are respectively symmetrically provided with the number of poking blades.

Preferably, the extrusion sheet is sleeved outside the pre-tightening bearing through a fixed seat, the length of the fixed seat is equal to that of the pre-tightening bearing, and the thickness of the extrusion sheet is smaller than that of the fixed seat.

Preferably, the banknote guide plate is provided with a boss, the two extrusion sheet groups are respectively positioned at two sides of the boss, and when the extrusion sheets enter the banknote outlet channel, two Z-shaped gaps are formed between the two extrusion sheets and the boss.

Preferably, the phases of the two extrusion sheet groups are the same, and a transmission gear is arranged between the extrusion sheet groups and the non-return wheel.

A working method of an auxiliary banknote stacking device comprises the following steps:

(1) when the paper money is discharged, the non-return wheel is driven by a transmission gear of the paper money rubbing device to move anticlockwise, the extrusion piece moves upwards, the extrusion piece stops moving when the upper limiting plane is contacted with the paper money supporting plate, the extrusion piece idles on a non-return wheel shaft under the action of a pre-tightening bearing, the paper money moves upwards from the paper money discharging channel, deforms through a Z-shaped gap between the extrusion piece and the paper money guiding plate and generates friction force under extrusion, the paper money is decelerated under the action of the friction force and is tightly attached to the paper money guiding plate to be conveyed until the speed is reduced to 0 when the paper money is separated from the paper money rubbing device and loses conveying force, and then the paper money is flapped onto the paper money receiving plate by the poking blade to be sequentially stacked.

(2) When the bank note is forgotten to be taken back, the non-return wheel moves clockwise under the driving of the transmission gear of the bank note rubbing device, the extrusion sheet moves downwards, the extrusion sheet stops moving when the lower limiting plane is contacted with the bank note supporting plate, the extrusion sheet leaves the bank note discharging passage and does not generate acting force on the passing bank note, the extrusion sheet idles on the non-return wheel shaft under the action of the pre-tightening bearing, and the bank note moves downwards to the bank note recycling box from the bank note discharging passage.

The invention has the beneficial effects that:

the designed extrusion piece group can adapt to two states of cash dispensing and forgetting to take back, the speed of the cash is reduced to 0 through friction force, the probability of the cash jamming is low due to the designed extrusion piece, and the cash which comes out from the channel can be neatly stacked in the cash dispensing port according to the technical scheme.

Drawings

Fig. 1 is a structural view of a bill outlet.

Fig. 2 is a structural view of a ratchet shaft.

Fig. 3 is a front view of an extruded sheet set.

FIG. 4 is a front view of a preloaded bearing.

FIG. 5 is a left side view of the preloaded bearing.

Fig. 6 is a perspective view of a group of crush lobes.

Fig. 7 is a top view of the pressing piece and the banknote guide plate in the banknote dispensing state.

Fig. 8 is a plan view of the pressing piece and the banknote guide plate in a state where the banknote collection is forgotten.

Fig. 9 is a side view of the pressing piece and the bill guide plate in the bill dispensing state (the arrow in the figure indicates the bill conveying direction).

Fig. 10 is a side view of the pressing piece and the bill guide plate in a state where the collection is forgotten (an arrow in the figure indicates a bill conveying direction).

Fig. 11 is a view showing the structure of a bill outlet with a high-limit claw and a bill-blocking claw.

Wherein:

1. the banknote guide plate 2, the banknote guide plate 3, the banknote receiving plate 4, the upper banknote digging wheel 5, the banknote discharging channel 6, the lower banknote digging wheel 7, the non-return wheel 8, the non-return wheel shaft 9, the extrusion sheet 901, the upper limit plane 902, the lower limit plane 903, the extrusion plane 904, the banknote guide plane 10, the pre-tightening bearing 11, the high limit claw 12, the banknote blocking claw 13, the included angle 14, the Z-shaped gap 15, the gap Y16, the transmission gear 17, the fixed seat 18, the boss 19, the banknote 20, the fixed ring 21, the gap 22, the shifting blade 23, the extrusion sheet group 24, the contraction part 24

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, an auxiliary banknote stacking device is located below a banknote outlet of a cash recycling machine, the banknote outlet comprises a banknote supporting plate 1, a banknote guiding plate 2, a banknote receiving plate 3, an upper banknote digging wheel 4 and a banknote outlet channel 5, a banknote rubbing device is further arranged below the banknote outlet and comprises a lower banknote digging wheel 6 and a non-return wheel 7, the non-return wheel is arranged on a non-return wheel shaft 8, the banknote outlet can achieve two functions of banknote outlet and banknote forgetting to take back and take back, an extrusion sheet group 23 and a shifting blade 22 are further arranged on the non-return wheel shaft, the extrusion sheet group comprises an extrusion sheet 9 and a pre-tightening bearing 10, the extrusion sheet 9 is installed in a matched mode with the non-return wheel shaft 8 through the pre-tightening bearing 10, and the extrusion sheet moves upwards or downwards under the driving of the non-return wheel shaft to achieve entering and leaving of the banknote outlet, so that two functions of banknote outlet and banknote forgetting to take back of the banknote outlet are achieved in a matched.

As shown in fig. 10, a high-limit claw 11 and a banknote-blocking claw 12 are arranged above the banknote outlet, and a closed banknote outlet space is formed by the banknote supporting plate, the banknote guiding plate, the banknote receiving plate or the banknote receiving plate, and the high-limit claw or the banknote-blocking claw from four directions. The bank notes discharged from the bank note discharging channel firstly enter the bank note discharging space, and the bank notes discharged from the bank note discharging channel have certain speed, so that the closed bank note discharging space ensures that the bank notes cannot fly out of the bank note discharging opening.

As shown in fig. 3, two limiting planes, namely an upper limiting plane 901 and a lower limiting plane 902, are arranged on the pressing sheet, and the pressing sheet enters and leaves the banknote outlet channel through the contact between the two limiting planes and the banknote supporting plate.

The extrusion sheet is further provided with an extrusion plane 903 and a banknote guide plane 904, when the extrusion sheet enters the banknote outlet channel, a Z-shaped gap is formed between the extrusion plane and the banknote guide plate, banknotes can deform through the gap between the extrusion plane and the banknote guide plate, as shown in fig. 8, an included angle 13 between the banknote guide plane and the banknote outlet channel is larger than 150 degrees, and when the banknotes are discharged and pass through the banknote guide plane, the included angle is larger, so that the probability of banknote jamming is reduced. It should be noted that the illustration of the banknote in fig. 8 is only for convenience of drawing, and in practice, due to the folded state of the banknote itself, the banknote cannot be present in the "Z" shaped gap in such a neat and uniform manner, and the working position of the pressing sheet is actually adjusted to achieve the most suitable position for pressing the banknote.

As shown in fig. 6, the banknote guide plate is provided with a boss 18, the two pressing sheet sets are respectively located at two sides of the boss, and when the pressing sheets enter the banknote outlet channel, two "Z" -shaped gaps 14 are formed between the two pressing sheets and the boss. When the bank note comes out from the gap, the bank note is extruded to generate friction force, the bank note is decelerated under the action of the friction force and is conveyed along the bank note guide surface of the bank note guide plate, the speed is reduced to 0 when the bank note is separated from the bank note rubbing device and loses the conveying force, and the bank note is flapped on the bank note receiving plate by the poking blade and stacked in sequence.

The extrusion piece is installed with the non-return wheel shaft through the pre-tightening bearing in a matching mode and can generate certain damping with the non-return wheel shaft. When the bank note just enters the bank note rubbing device, the lower bank note digging wheel shaft drives the non-return wheel shaft to rotate anticlockwise (in the bank note stacking direction) through the gear, the non-return wheel shaft drives the extrusion piece to rotate anticlockwise through damping, and after the non-return wheel shaft rotates to a set angle, the bank note supporting plate limits the extrusion piece (the bank note supporting plate is abutted to the upper limiting plane of the extrusion piece), so that the extrusion piece idles on the non-return wheel shaft. Two Z-shaped gaps are formed between the two extrusion sheets and the lug boss.

When a customer forgets to take away the bank note at the bank note outlet, the bank note rubbing device is started under the control of the control unit to rub the bank note, the bank note at the bank note outlet is conveyed into the bank note recovery box through the bank note outlet channel, the bank note rubbing device has higher requirements on the uniformity of the bank note, and the bank note rubbing device cannot work smoothly when the bank note is not placed neatly, so that the bank note in the bank note outlet must be placed neatly, and the bank note taking device is prepared for forgetting to take back the bank note.

After the function of forgetting to take back and take back is started, the stacked banknotes need to be separated out of the banknote outlet, the banknote digging wheel shaft drives the non-return wheel shaft to rotate clockwise (banknote separating direction) through the gear, the non-return wheel shaft drives the extrusion piece to rotate clockwise through damping, and after the non-return wheel shaft rotates to a set angle, the banknote supporting plate limits the extrusion piece (the banknote supporting plate is abutted to the lower limiting plane of the extrusion piece), so that the extrusion piece rotates on the metal shaft in the air. At this time, as shown in fig. 7, a set gap Y15 is generated between the pressing sheet and the banknote guide plate, and since the gap Y is larger than the banknote conveying gap of the banknote outlet channel, the separated banknotes are not pressed any more, that is, the movement of the banknotes in the banknote outlet channel is not affected by the pressing sheet group, so that the banknotes are smoothly separated and conveyed into the banknote recovery box, wherein it should be noted that the width of the banknotes in fig. 7 is only schematic, and is not the ratio of the gap Y to the thickness of the banknotes in an actual situation.

As shown in fig. 4, the pre-tightening bearing is a hollow structure and is sleeved on the non-return wheel shaft, the pre-tightening bearing comprises a fixing ring 20 located in the middle and a contracting portion 24 located at two ends, the inner diameter of the fixing ring is equal to the outer diameter of the non-return wheel shaft, a plurality of uniformly distributed notches 21 are arranged on the contracting portion, the contracting portion extends outwards from the fixing ring, and the inner diameter is gradually reduced. When the extrusion piece group is installed, the gap can generate micro deformation, so that the installation is convenient, after the installation is finished, the gap is recovered, the contraction part is tightened on the non-return wheel shaft, the extrusion piece group can be firmly installed on the non-return wheel shaft, and meanwhile, the extrusion piece can also move relative to the non-return wheel shaft under the action of the pre-tightening bearing, namely, idle running.

As shown in fig. 2, there are several of the shifting blades, in this embodiment, there are 7 shifting blades, one shifting blade is disposed in the center of the non-return wheel shaft, two non-return wheels are disposed on both sides of the shifting blade located in the center of the non-return wheel shaft, two extrusion blade sets are disposed and located outside the two non-return wheels, and 3 shifting blades are symmetrically disposed on the outer sides of the two extrusion blade sets. The phases of the two extrusion sheet groups are the same, a transmission gear 16 is arranged between the extrusion sheet groups and the non-return wheel, and the non-return wheel shaft can be driven by the motor to rotate under the action of the transmission gear.

As shown in fig. 5, the extrusion sheet is sleeved outside the pre-tightening bearing through a fixing seat 17, the length of the fixing seat is equal to that of the pre-tightening bearing, and the thickness of the extrusion sheet is smaller than that of the fixing seat.

A working method of an auxiliary banknote stacking device comprises the following steps:

(1) when the paper money is discharged, the non-return wheel is driven by a transmission gear of the paper money rubbing device to move anticlockwise, the extrusion piece moves upwards, the extrusion piece stops moving when the upper limiting plane is contacted with the paper money supporting plate, the extrusion piece idles on a non-return wheel shaft under the action of a pre-tightening bearing, the paper money moves upwards from the paper money discharging channel, deforms through a Z-shaped gap between the extrusion piece and the paper money guiding plate and generates friction force under extrusion, the paper money is decelerated under the action of the friction force and is tightly attached to the paper money guiding plate to be conveyed until the speed is reduced to 0 when the paper money is separated from the paper money rubbing device and loses conveying force, and then the paper money is flapped onto the paper money receiving plate by the poking blade to be sequentially stacked.

(2) When the bank note is forgotten to be taken back, the non-return wheel moves clockwise under the driving of the transmission gear of the bank note rubbing device, the extrusion sheet moves downwards, the extrusion sheet stops moving when the lower limiting plane is contacted with the bank note supporting plate, the extrusion sheet leaves the bank note discharging passage, as shown in fig. 9, acting force is not generated on the passing bank note, the extrusion sheet idles on the non-return wheel shaft under the action of the pre-tightening bearing, and the bank note moves downwards from the bank note discharging passage to the bank note recycling box.

In this embodiment, 2 extrusion sheet groups are set, and in practical application, the number of the extrusion sheet groups used is not limited by 2 according to the equipment state.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides an auxiliary paper money stacking device, the device is located the below of cash dispenser, the cash dispenser includes holds in the palm paper money board, leads paper money board, connects paper money board, digs paper money wheel and cash dispenser passageway on, cash dispenser below still is equipped with rubs paper money device, rub paper money device including digging paper money wheel and non-return wheel down, the non-return wheel is established on the non-return wheel axle, the cash dispenser can realize that cash dispenser and bank note forget to take back and receive two kinds of functions, its characterized in that, still be equipped with extrusion piece group and shifting vane on the non-return wheel axle, extrusion piece group includes extrusion piece and pretension bearing, and the extrusion piece realizes the cooperation installation with the non-return wheel axle through pretension bearing, and the extrusion piece upwards or downwards motion under the drive of non-return wheel axle realizes getting into and leaving the cash dispenser passageway to the cooperation realizes that cash dispenser of cash dispenser and bank note forget take back and.

2. The auxiliary banknote stacking device of claim 1, wherein a high-limit claw and a banknote blocking claw are arranged above the banknote outlet.

3. The auxiliary banknote stacking device of claim 1, wherein the pressing piece is provided with two limiting planes, namely an upper limiting plane and a lower limiting plane, and the pressing piece enters and leaves the banknote outlet channel through the contact of the two limiting planes and the banknote supporting plate.

4. The auxiliary banknote stacking device as claimed in claim 3, wherein the pressing plate is further provided with a pressing plane and a banknote guiding plane, when the pressing plate enters the banknote outlet channel, a Z-shaped gap is formed between the pressing plane and the banknote guiding plate, a banknote is deformed through the gap between the pressing plane and the banknote guiding plate, and the banknote guiding plane and the banknote outlet channel form an included angle of more than 150 °.

5. The auxiliary banknote stacking device of claim 1, wherein the pre-tightening bearing is a hollow structure and is sleeved on the non-return wheel shaft, the pre-tightening bearing comprises a fixing ring and a contraction portion, the fixing ring is located in the middle of the fixing ring, the contraction portion is located at two ends of the fixing ring, the inner diameter of the fixing ring is equal to the outer diameter of the non-return wheel shaft, a plurality of uniformly distributed gaps are formed in the contraction portion, the contraction portion extends outwards from the fixing ring, and the inner diameter of the contraction portion is gradually reduced.

6. The auxiliary banknote stacking device of claim 1, wherein the plurality of the shifting blades are provided, one shifting blade is provided at the center of the non-return wheel shaft, two non-return wheels are provided at two sides of the shifting blade at the center of the non-return wheel shaft, two extrusion blade sets are provided and are respectively provided at the outer sides of the two non-return wheels, and the plurality of the shifting blades are symmetrically provided at the outer sides of the two extrusion blade sets.

7. The auxiliary banknote stacking device of claim 1, wherein the pressing piece is sleeved outside the pre-tightening bearing through a fixing seat, the length of the fixing seat is equal to that of the pre-tightening bearing, and the thickness of the pressing piece is smaller than that of the fixing seat.

8. The auxiliary banknote stacking device as claimed in claim 6, wherein the banknote guide plate is provided with a boss, the two pressing sheet sets are respectively arranged at two sides of the boss, and when the pressing sheets enter the banknote outlet channel, two Z-shaped gaps are formed between the two pressing sheets and the boss.

9. The auxiliary banknote stacking device of claim 6, wherein the two extrusion sheet sets have the same phase, and a transmission gear is arranged between the extrusion sheet sets and the non-return wheel.

10. A working method of an auxiliary banknote stacking device comprises the following steps:

(1) when the paper money is discharged, the non-return wheel is driven by a transmission gear of the paper money rubbing device to move anticlockwise, the extrusion piece moves upwards, the extrusion piece stops moving when the upper limiting plane is contacted with the paper money supporting plate, the extrusion piece idles on a non-return wheel shaft under the action of a pre-tightening bearing, the paper money moves upwards from the paper money discharging channel, deforms through a Z-shaped gap between the extrusion piece and the paper money guiding plate and generates friction force under extrusion, the paper money is decelerated under the action of the friction force and is tightly attached to the paper money guiding plate to be conveyed until the speed is reduced to 0 when the paper money is separated from the paper money rubbing device and loses conveying force, and then the paper money is flapped onto the paper money receiving plate by the poking blade to be sequentially stacked.

(2) When the bank note is forgotten to be taken back, the non-return wheel moves clockwise under the driving of the transmission gear of the bank note rubbing device, the extrusion sheet moves downwards, the extrusion sheet stops moving when the lower limiting plane is contacted with the bank note supporting plate, the extrusion sheet leaves the bank note discharging passage and does not generate acting force on the passing bank note, the extrusion sheet idles on the non-return wheel shaft under the action of the pre-tightening bearing, and the bank note moves downwards to the bank note recycling box from the bank note discharging passage.

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