CN210895629U - Leaf shifting mechanism - Google Patents

Abstract

The utility model discloses a leaf-shifting mechanism, which is positioned in a high-speed large-amount cash recycling machine, wherein the high-speed large-amount cash recycling machine comprises a cash drawing port for temporarily placing and taking out paper money, a deposit port for temporarily placing and storing the paper money, an identification module for distinguishing the truth of the paper money, a paper money box for storing transaction paper money, a transmission path for transmitting the paper money and a control unit, wherein the lower part of the cash drawing port is provided with a leaf-shifting, the transmission path is provided with a commutator, when the paper money is stacked from the cash drawing port to the paper money box, the transmission path is from the cash drawing port to the paper money box, and the leaf-shifting is accommodated below the cash drawing port; when the paper money is discharged from the paper money box to the money withdrawing port, the conveying path is from the paper money box to the money withdrawing port, and the shifting blade is driven by the motor to rotate so as to flap and fold the conveyed paper money. The mechanism is simple and reliable, and can adapt to the function of forgetting to take back on the existing high-speed large-amount cash recycling machine.

Description

Leaf shifting mechanism

Technical Field

The utility model relates to a finance machines field especially relates to a be located dialling leaf mechanism on high-speed large amount of deposits and withdrawals machine.

Background

Compared with the common ATM which can only provide simple transaction functions such as depositing and withdrawing, transferring accounts, inquiring and the like for customers, the intelligent self-service equipment of the large-amount high-speed depositing and withdrawing all-in-one machine can support diversified complex business functions such as depositing and withdrawing, multi-face amount exchanging, multi-face amount storing and withdrawing, card opening, electronic bank signing, transferring accounts, financing, settlement and sales remittance, account management and the like. In the high-speed large-amount cash recycling machine, 1000 pieces of cash can be maximally supported by single deposit, continuous and uninterrupted cash discharge can be supported, and in the using process, it is found that the taken-out cash or the cash which is not successfully deposited is forgotten to be taken by a client.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a high-speed large-amount all-in-one of depositing and withdrawing newly-designed a leaf mechanism, this mechanism is simple reliable, adaptable increase on current high-speed large-amount all-in-one of depositing and withdrawing forgets to take back and receive the function.

The technical scheme of the utility model lies in:

a leaf shifting mechanism is positioned in a high-speed large-amount cash recycling integrated machine, the high-speed large-amount cash recycling integrated machine comprises a withdrawal port for temporarily placing withdrawn paper money, a deposit port for temporarily placing the deposited paper money, an identification module for identifying the authenticity of the paper money, a paper money box for storing transaction paper money, a conveying path for conveying the paper money and a control unit, and is characterized in that a leaf shifting blade is arranged below the withdrawal port, a reverser is arranged on the conveying path, when the paper money is stacked from the withdrawal port to the paper money box, the conveying path is from the withdrawal port to the paper money box, and the leaf shifting blade is accommodated below the withdrawal port; when the paper money is discharged from the paper money box to the money withdrawing port, the conveying path is from the paper money box to the money withdrawing port, and the shifting blade is driven by the motor to rotate so as to flap and fold the conveyed paper money.

Preferably, the poking blade comprises an annular base and a blade, the annular base of the poking blade is sleeved on the poking blade shaft, the blade comprises a flapping part and an elastic part, one end of the flapping part is open, the other end of the flapping part is fixed with the annular base, and two ends of the elastic part are fixed on the annular base to form a ring shape.

Preferably, the flapping part is attached to the elastic part, and the elastic part supports the flapping part.

Preferably, the length between the open end of the flapping part and the annular base is greater than the distance between the highest point of the elastic part and the annular base, when the paper money is discharged from the paper money box to the money outlet, the shifting blade is driven by the motor to rotate, and the open end of the flapping part contacts the moving paper money to generate a deformation force to flap and fold the paper money.

Preferably, there are two of the blades, and the corresponding central angle between the two blades is 120 °.

Preferably, the ratio of the maximum width to the minimum width of the elastic part forming the loop shape is between 1.5 and 2.5, and the ratio of the length between the open end of the flapping part and the annular base part to the diameter of the annular base part is between 1.5 and 2.5.

Preferably, two coded disks, namely a coded disk I and a coded disk II, are arranged at two ends of the shifting blade shaft, and the two coded disks respectively correspond to the two U-shaped sensors, namely the U-shaped sensor I and the U-shaped sensor II.

Preferably, when paper money is stacked from the money withdrawing port into the money box, the U-shaped sensor I detects a signal of the code disc I, the U-shaped sensor I is in a blocking state, and the shifting blade is accommodated below the money withdrawing port; when paper money is discharged from the money box to the money withdrawal port, the U-shaped sensor II detects a signal of the coded disc II, so that the U-shaped sensor II is in a blocking state, and the shifting blade is driven by the motor to rotate.

Preferably, the poking blade shaft is further provided with a single poking blade, the single poking blade comprises an annular base and two single blades, the central angle corresponding to the two single blades is 120 degrees, and the length of each single blade is smaller than that of each blade.

Preferably, the vane on the vane-driving shaft and the single vane are in the same phase.

The beneficial effects of the utility model reside in that:

the shifting blade and the single shifting blade are both provided with two blades, when paper money is stacked from the money drawing port to the recovered paper money box, the conveying path is from the money drawing port to the recovered paper money box, and the shifting blade and the single shifting blade can be stored below the money drawing port, specifically, the shifting blade is stored below a channel surface; when the paper money is discharged from the circulating paper money box to the withdrawal port, the conveying path is from the circulating paper money box to the withdrawal port, the shifting blade extends out of the conveying path and rotates under the driving of the motor, and the beating and paper money stacking effects are achieved on the conveyed paper money. The design of the leaf-pulling structure achieves two purposes by one, so that the requirement of normal withdrawal can be met, and the requirement of forgetting to take back can be realized.

Drawings

Fig. 1 is a drawing of a leaf-plucking mechanism.

Fig. 2 is a drawing of a paddle shaft mechanism.

Fig. 3 is a diagram showing the position of the dispensing blade (broken lines indicate the bill transport path) in the dispensing state.

Fig. 4 is a diagram showing the position of the leaf in the left-behind state (broken lines indicate the bill conveying path).

FIG. 5 is a high-speed large-denomination cash dispenser configuration diagram (solid arrows indicate bill conveyance paths).

Wherein:

1. withdrawal opening 2, deposit opening 3, identification module 4 and cash recycling box

5. Circulating money box 6, upper front end conveying assembly 7, upper rear end conveying assembly 8 and lower conveying assembly

9. Banknote inlet and outlet channel 10, shifting blade 101, annular base 102 and blade

1021. Flap part 1022, elastic part 11, commutator 12 and channel surface

13. Shifting blade shaft 14, coded disc I15, coded disc II 16 and U-shaped sensor I

17U-shaped sensor II 18 single poking blade 1801 single blade

Detailed Description

In order to make the technical field of the present invention better understand, the present invention is further described in detail with reference to the accompanying drawings and embodiments.

As shown in fig. 5, the schematic diagram of the forgotten retrieving state of the high-speed large-amount cash recycling machine includes a withdrawal port 1 for temporarily placing the withdrawn paper money, a deposit port 2 for temporarily placing the deposited paper money, a recognition module 3 for discriminating the authenticity of the paper money, a paper money box for storing the transaction paper money, a transmission path for transmitting the paper money, and a control unit. The cash recycling machine is divided into an upper part, a middle part and a lower part from the spatial structure, wherein the upper part comprises a cash withdrawal port and a deposit port, the middle part comprises an upper front end transmission assembly 6, an upper rear end transmission assembly 7, a lower part transmission assembly 8 and an identification module 3, the lower part comprises a cash box, the cash box comprises a recovered cash box 4 and a circulating cash box 5, the upper part and the middle part are connected through a cash inlet and outlet channel 9, the upper front end transmission assembly 6 is communicated with the cash withdrawal port 1 and the deposit port 2 through the cash inlet and outlet channel 9, and the identification module 3 is positioned between the upper front end transmission assembly 6 and the upper rear end transmission assembly 7.

A shifting blade 10 is arranged below the withdrawal port 1, a diverter 11 is arranged on the conveying path, when paper money is stacked from the withdrawal port 1 to the recovered paper money box 4, the conveying path is from the withdrawal port 1 to the recovered paper money box 4, the shifting blade 10 is stored below the withdrawal port 1, specifically, the shifting blade 10 is stored below a channel surface 12, as shown in fig. 4; when the paper money is discharged from the circulating paper money box 5 to the withdrawal port 1, the conveying path is from the circulating paper money box 5 to the withdrawal port 1, the poking blade 10 extends out of the conveying path and is driven by the motor to rotate, and the flapping and paper money stacking effects are achieved on the conveyed paper money, as shown in fig. 3.

As shown in fig. 1, the paddle 10 includes an annular base 101 and a blade 102, the annular base 101 of the paddle 10 is fitted around the paddle shaft 13, the blade includes a flapping part 1021 and an elastic part 1022, one end of the flapping part 1021 is open, the other end is fixed to the annular base 101, and both ends of the elastic part 1022 are fixed to the annular base 101 to form a ring shape.

When the money is normally withdrawn or rejected during deposit, the paper money flows out from the money taking port, and when the paper money arrives at the money withdrawing port, the paper money needs to pass through the shifting blade and firstly passes through the elastic part of one blade and then is patted by the patting part of the other blade, so that the elastic part also plays a role in receiving the money, the elastic part is arranged into a ring shape, the money is more smoothly received, and the probability of paper money clamping is reduced.

The flapping part 1021 is attached to the elastic part 1022, and the elastic part supports the flapping part. When withdrawing money, the paper money is discharged from the circulating paper money box to the withdrawal opening and passes through the shifting blade extending to the conveying path, the flapping part is tightly attached to the elastic part, and the elastic part is in a ring shape and small in deformation and can play a supporting role for the flapping part of the same blade, so that the acting force of the flapping part on the paper money is greater than that of the flapping part.

The length between the open end of the flapping part 1021 and the annular base part 101 is larger than the distance between the highest point of the elastic part 1022 and the annular base part 101, when the paper money is discharged from the circulating paper money box to the money outlet, the shifting blade is driven by the motor to rotate, and the open end of the flapping part contacts the moving paper money and generates a deformation force to flap and fold the paper money.

The ratio of the maximum width W1 and the minimum width W2 of the elastic part 1022 in a ring shape is 1.5-2.5, the minimum width is positioned at the fixing positions of the two ends of the elastic part on the annular base part, the included angle aa between the flapping part and the annular base part is an acute angle, the poking blade rotates anticlockwise under the drive of the motor, the flapping part contacts the paper money before the supporting plate, and the acute angle is arranged and the supporting function of the elastic part is added, so that the flapping part can achieve a good flapping and banknote stacking function on the paper money.

The ratio of the length between the open end of the beating part 1021 and the annular base part 101 to the diameter of the annular base part 101 is 1.5-2.5, the beating part generates deformation force under the driving of the annular base part, the deformation force is larger due to too low ratio, the beating force for paper money is overlarge, the damage to the paper money can be caused, the deformation force is smaller due to too high ratio, the beating force for the paper money is too small, the paper money stacking effect is poor, the length of the beating part is combined with the diameter of the annular base part in the technical scheme, the ratio of the length of the beating part to the diameter of the annular base part is designed to be 1.5-2.5, the beating force for the paper money by the beating part is moderate, and the.

The number of the two blades 102 is two, and the corresponding central angle bb between the two blades is 120 degrees. When a customer forgets to take away the paper money at the money drawing port, the function of forgetting to take back the paper money at the money drawing port can be started under the control of the control unit, namely the paper money at the money drawing port rubs back to the money collection box, two blades on the shifting blade are arranged, when the function of forgetting to take back the paper money is started, the two blades can be stored below the money drawing port, as shown in fig. 3, the two blades cannot extend to a transmission path, and therefore the movement of the paper money cannot be blocked.

Paper money is stacked from a money drawing port into a money box or is discharged from the money box to the money drawing port, a shifting blade is driven to be in different states to be matched through rotation of a shifting blade shaft 13, two coded discs, namely a coded disc I14 and a coded disc II 15, are arranged at two ends of the shifting blade shaft, and correspond to two U-shaped sensors, namely a U-shaped sensor I16 and a U-shaped sensor II 17 respectively.

When paper money is stacked from a money withdrawal port into a money box, the control unit sends information to the U-shaped sensor, the U-shaped sensor is started, the U-shaped sensor I detects a coded disc I signal, the U-shaped sensor I is in a blocking state, and the shifting blade is stored below the money withdrawal port at the moment, as shown in fig. 3; when paper money is discharged from the money box to the money withdrawal port, the U-shaped sensor I is in an inoperative state, the U-shaped sensor II is in an operative state, and signals of the coded disc II are continuously detected, so that the U-shaped sensor II is in a blocking state, and the shifting blade is driven by the motor to rotate, as shown in fig. 4.

As shown in fig. 1, the blade shifting shaft is further provided with a single shifting blade 18, the single shifting blade comprises an annular base and two single blades 1801, a corresponding central angle between the two single blades is 120 °, and the length of each single blade is smaller than that of each blade. The single blade does not establish elasticity portion, only has the portion of patting, and the single blade is the portion of patting promptly, and single leaf setting of dialling is patting the both ends of leaf axle, and the both ends to paper currency are patted, and the setting of single leaf of dialling is less to the dynamics of patting at paper currency both ends, has guaranteed the planarization of paper currency, if adopt the above-mentioned leaf of dialling that has elasticity portion, then it is big to the dynamics of patting at paper currency both ends for dog-ear takes place at the paper currency both ends, leads to the unevenness of paper currency.

In this embodiment, an optimal design is adopted, as shown in fig. 2, 3 dial leaves and 2 single dial leaves are provided, and the two single dial leaves are respectively disposed close to the two code disks.

The phase of the blade on the blade shifting shaft is the same as that of the single blade, the material of the blade and the material of the single blade are polyimide, and the blade made of the polyimide has certain hardness and also can be deformed and has a certain buffering effect.

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

Claims (10)

1. A leaf shifting mechanism is positioned in a high-speed large-amount cash recycling integrated machine, the high-speed large-amount cash recycling integrated machine comprises a withdrawal port for temporarily placing withdrawn paper money, a deposit port for temporarily placing the deposited paper money, an identification module for identifying the authenticity of the paper money, a paper money box for storing transaction paper money, a conveying path for conveying the paper money and a control unit, and is characterized in that a leaf shifting blade is arranged below the withdrawal port, a reverser is arranged on the conveying path, when the paper money is stacked from the withdrawal port to the paper money box, the conveying path is from the withdrawal port to the paper money box, and the leaf shifting blade is accommodated below the withdrawal port; when the paper money is discharged from the paper money box to the money withdrawing port, the conveying path is from the paper money box to the money withdrawing port, and the shifting blade is driven by the motor to rotate so as to flap and fold the conveyed paper money.

2. The paddle mechanism as claimed in claim 1, wherein the paddle comprises an annular base and a blade, the annular base of the paddle is sleeved on the paddle shaft, the blade comprises a flapping part and an elastic part, one end of the flapping part is open, the other end of the flapping part is fixed to the annular base, and both ends of the elastic part are fixed to the annular base to form a ring shape.

3. The paddle mechanism of claim 2, wherein the flapping portion engages with a spring portion, the spring portion supporting the flapping portion.

4. The mechanism as claimed in claim 2, wherein the length between the open end of the flapping portion and the annular base is greater than the distance between the highest point of the elastic portion and the annular base, and when the banknote is discharged from the banknote cassette to the withdrawal opening, the paddle is driven by the motor to rotate, and the open end of the flapping portion contacts the moving banknote and generates a deforming force to flap and fold the banknote.

5. A paddle mechanism according to claim 2, wherein there are two of the vanes, the corresponding central angle between the two vanes being 120 °.

6. A paddle shift mechanism according to claim 2, wherein the ratio of the maximum width to the minimum width of the resilient portion forming the loop is between 1.5 and 2.5, and the ratio of the length of the open end of the paddle portion to the diameter of the annular base is between 1.5 and 2.5.

7. The paddle mechanism of claim 2, wherein two code wheels are provided at two ends of the paddle shaft, code wheel i and code wheel ii, respectively, and the two code wheels correspond to two U-shaped sensors, i and ii, respectively.

8. The leaf shifting mechanism of claim 7, wherein when the paper money is stacked from the money drawing port into the money box, the U-shaped sensor I detects a coded disc I signal, so that the U-shaped sensor I is in a blocking state, and the leaf shifting mechanism is accommodated below the money drawing port; when paper money is discharged from the money box to the money withdrawal port, the U-shaped sensor II detects a signal of the coded disc II, so that the U-shaped sensor II is in a blocking state, and the shifting blade is driven by the motor to rotate.

9. The leaf pulling mechanism as claimed in claim 2, wherein the leaf pulling shaft is further provided with a single pulling leaf, the single pulling leaf comprises an annular base and two single blades, the central angle between the two single blades is 120 degrees, and the length of the single blade is smaller than that of the blade.

10. A vane-shifting mechanism according to claim 9, wherein the vane on the vane-shifting shaft and the single vane are in phase.

Images