CN113706796B - Temporary storage module on deposit core and deposit core - Google Patents

Abstract

The invention discloses a temporary storage module on a deposit machine core and the deposit machine core, which comprise a paper money guide plate, a paper money blocking plate, a side plate, a paper money supporting plate and a temporary storage space formed by the combination of the paper money guide plate, the paper money rubbing mechanism is arranged between the paper money guide plate and the side plate, paper money enters the temporary storage space through the paper money rubbing mechanism, the paper money blocking plate comprises a paper money blocking claw and a movement mechanism for controlling the movement of the paper money blocking claw, the paper money blocking claw is provided with two paper money blocking claws, namely a first paper money blocking claw and a second paper money blocking claw, the movement mechanism comprises a motor I, a gear and a synchronous belt, the gear comprises a power gear, a first transmission gear and a second transmission gear, the first transmission gear is respectively meshed with the power gear and the second transmission gear, the power gear and the second transmission gear are not meshed with each other, the first transmission gear and the synchronous belt synchronously rotate through the first synchronous wheel, the second synchronous wheel drives the first paper money blocking claw to swing through a rotating shaft, the second transmission gear drives the second banknote blocking claw to swing through the second rotating shaft; the cooperation of gear, hold-in range and lever mechanism (lateral motion's fender paper money claw) is utilized, arranges the bank note that gets into the module of keeping in order, prevents to deposit and present flying paper money and the oblique phenomenon of paper money.

Description

Temporary storage module on deposit core and deposit core

Technical Field

The invention belongs to the field of financial self-service equipment, and particularly relates to a temporary storage module on a deposit machine core and the deposit machine core.

Background

The automatic deposit machine is self-service equipment only having deposit function, and the machine types of the automatic deposit machine exist in large area in the underdeveloped countries at present. The more popular automatic deposit machines are generally provided with the following modules: deposit mouth, currency examine module, temporary storage module, paper money case and passageway. The temporary storage modules are arranged on the upper half part of the self-service equipment, the client deposit firstly flows into the temporary storage module, after the client clicks to confirm the deposit, the paper money flows into the paper money box from the temporary storage module, when the client clicks to cancel the deposit, the temporary storage module is opened, the client takes the paper money away, or the paper money flows into the cash outlet client again from the temporary storage module to be taken away.

Aiming at the temporary storage module on the deposit machine, because the speed of the paper money is high when the paper money enters, the problem that how to ensure that the entering paper money is orderly stacked on the premise of increasing the temporary storage space as much as possible needs to be considered is solved.

Disclosure of Invention

The invention aims to provide a temporary storage module on a deposit machine core and the deposit machine core aiming at the technical defects in the prior art, which utilize the cooperation of a gear, a synchronous belt and a lever mechanism (a transversely moving paper money blocking claw) to arrange paper money entering the temporary storage module, thereby preventing the phenomena of paper money flying and paper money inclination.

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

a temporary storage module on a deposit machine core is characterized by comprising a money guide plate, a money blocking plate, a side plate, a money supporting plate and a temporary storage space formed by enclosing the money guide plate, the money blocking plate, the side plate, the money supporting plate and the temporary storage space, wherein a money rubbing mechanism is arranged between the money guide plate and the side plate, paper money enters the temporary storage space through the money rubbing mechanism, the money blocking plate comprises two money blocking claws and a movement mechanism for controlling the movement of the money blocking claws, the two money blocking claws are respectively a first money blocking claw and a second money blocking claw, and after being stored, the two money blocking claws are distributed in any one of a left side-to-right side parallel distribution and a top-to-bottom parallel distribution;

the two banknote blocking claws which are distributed side by side on the left and the right synchronously rotate under the control of the motion mechanism;

two paper money blocking claws which are distributed in parallel up and down rotate synchronously under the control of the motion mechanism when falling, and one rotation speed of the paper money blocking claw is higher than that of the paper money blocking claw II when the paper money is stored.

Preferably, the movement mechanism comprises a first motor, a first gear and a second gear, the first gear comprises a power gear, a first transmission gear and a second transmission gear, the first transmission gear is respectively in meshing transmission with the power gear and the second transmission gear, the power gear and the second transmission gear are not meshed with each other, the first transmission gear and the synchronous belt realize synchronous rotation through the first synchronous wheel, the other end of the synchronous belt is provided with the second synchronous wheel, the power gear rotates under the driving of the first motor, the first transmission gear and the second transmission gear realize reverse synchronous rotation of the first rotating shaft and the second rotating shaft, the first transmission gear and the first synchronous wheel realize synchronous rotation through a third rotating shaft, the first motor is positioned above the third rotating shaft, one end of the third rotating shaft is connected with the first synchronous wheel, and the other end of the third rotating shaft is fixed on the support plate through a bearing. Because drive gear one needs to drive the hold-in range and rotates, it is big in order to prevent that one side from rotating pressure, consequently will connect drive gear one and the pivot three of synchronizing wheel one and extend, fixed in the backup pad through the bearing, improved stability.

Preferably, in the two banknote blocking claws which are distributed side by side from left to right, the first banknote blocking claw is fixed on the first rotating shaft, the second banknote blocking claw is fixed on the second rotating shaft, and the first banknote blocking claw and the second banknote blocking claw rotate forwards or reversely synchronously along with the first rotating shaft and the second rotating shaft.

Preferably, in two paper money blocking claws which are distributed in parallel up and down, the first paper money blocking claw is fixed on the first rotating shaft and rotates forwards or backwards synchronously along with the first rotating shaft, the second paper money blocking claw is sleeved on the second rotating shaft in series and can rotate relatively, the second rotating shaft is provided with a reset spring and a pin, the second paper money blocking claw is provided with a raised platform, the pin acts on the raised platform to push the second paper money blocking claw to rotate downwards, and the reset spring enables the second paper money blocking claw to have an upward rotating trend all the time.

Preferably, a gate support is further arranged in the temporary storage module, and two through grooves are formed in the gate support; the moving mechanism is fixed on a support plate, the support plate is fixed above the paper money guide plate, and a notch is formed in the support plate; the paper money blocking claw has two stable states, the two stable states are respectively accommodated in the notch and fall into the through groove, and the maximum swing angle of the paper money blocking claw is 90 degrees. The backup pad realizes keeping in space and motion's isolated, because each part of motion all belongs to rotary motion, prevents that the bank note from being blocked by pivoted part, and causes the fault shutdown. The area size of breach slightly is greater than the size of two fender paper money claws, prevents that the breach area is too big, causes the card paper money.

Preferably, the banknote blocking claw is provided with a plurality of parallel arranged sawteeth on one side facing the temporary storage space, the moving mechanism is arranged above the gate support, the gate support is provided with a banknote blocking surface, the length of the banknote blocking surface is smaller than that of the banknote blocking claw, and the banknote blocking surface is provided with a plurality of parallel arranged sawteeth. Both the serrations have the same shape and are used for sorting the banknotes.

Preferably, the saw teeth comprise an upper receiving surface and a lower inclined surface, and the included angle between the inclined surface and the banknote blocking surface is less than 45 degrees. The shape of the sawtooth is further optimally designed according to the special condition of the paper money.

Preferably, the money guide plate is positioned above the temporary storage space, the money guide plate comprises an inclined money guide surface and a horizontal money guide surface, and symmetrical step-shaped friction reducing surfaces are arranged on the horizontal money guide surface. The lowest plane height of the stepped antifriction surface is lower than the highest point of the bank note blocking surface of the gate bracket. The temporary storage space is relatively closed, and high-speed paper money is prevented from being drilled out from the space between the paper money guide plate and the gate bracket.

Preferably, the banknote supporting plate moves up and down under the control of the lifting mechanism, the lifting mechanism comprises a second motor, a transmission shaft and a transmission belt, a clamping seat is fixedly arranged on the transmission belt to realize the fixation of the transmission belt and the banknote supporting plate, and the two transmission belts are symmetrically arranged and are respectively positioned on two sides of the banknote supporting plate. The transmission belts are designed symmetrically left and right, so that the stability of the lifting motion of the paper money supporting plate is ensured.

Preferably, the first rotating shaft and the second rotating shaft are provided with stop blocks, sensors are arranged above the first rotating shaft and the second rotating shaft, and the sensors are fixed on the supporting plate through the positioning platform. The sensor is a U-shaped sensor with the model of OJ-455-J38, and is matched with the stop block to detect whether the banknote stop claw is in place.

Preferably, in order to achieve the above object, the present invention further provides a deposit core, which includes a deposit module, a banknote detection module and the temporary storage module on the deposit core, the temporary storage module is sequentially communicated with the deposit module, a recovery inlet and a deposit inlet are arranged between the banknote detection module and the temporary storage module, the deposit module includes a deposit module and an abnormal banknote take-out port, the deposit module is communicated with the banknote detection module in one way, and the banknote detection module is communicated with the abnormal banknote take-out port in one way.

The invention has the beneficial effects that:

the paper money blocking claw is arranged on the paper money guiding plate through the supporting plate, the structure of the original paper money guiding plate is not changed, the strength of the original paper money guiding plate is not influenced, and the transverse movement work of the paper money blocking plates on the two sides is realized by the transmission of the gear and the synchronous belt wheel. When the position of the paper money blocking claw works, the paper money blocking claw is vertical to the paper money guide plate, and when the paper money blocking claw does not work, the paper money blocking claw is folded from two sides to the center. When the bank notes enter the temporary storage space, the flying-out direction of the bank notes is limited, and the phenomenon that the bank notes are separated from the bank note supporting plate and are not orderly stacked is prevented.

Drawings

Fig. 1 is a three-dimensional structure diagram of a temporary storage module.

Fig. 2 is a schematic structural view of the banknote blocking claw in embodiment 1.

Fig. 3 is a schematic view of the structure of the gate support.

FIG. 4 is a schematic cross-sectional view of a banknote guide plate.

Fig. 5 is a schematic view of a sawtooth enlarging structure.

Fig. 6 is a schematic view of a portion of a credit core.

Fig. 7 is a first structural diagram of the banknote blocking claw in embodiment 2.

Fig. 8 is a second schematic structural view of the banknote blocking claw in embodiment 2.

Wherein:

1. the banknote recycling system comprises a banknote guide plate 2, a side plate 3, a banknote support plate 4, a temporary storage space 5, a banknote friction mechanism 6, a gate 7, a banknote blocking claw 71, a banknote blocking claw I72, a banknote blocking claw II 8, a motor I9, a synchronous belt 10, a power gear 11, a transmission gear I12, a transmission gear II 13, a synchronous wheel I14, a synchronous wheel II 15, a rotating shaft I16, a rotating shaft II 17, a notch 18, a through groove 19, an inclined banknote guide surface 20, a horizontal banknote guide surface 21, a step-shaped antifriction surface 22, a gate support 23, a banknote blocking surface 24, a support plate 25, a rotating shaft III 26, a bearing 27, a sawtooth 28, a receiving surface 29, a downward inclined surface 30, a stop block 31, a sensor 32, a positioning platform 33, a motor II 34, a transmission shaft 35, a transmission belt 36, a cassette 37, a fixed wheel 38, a deposit module 381, a deposit port 382, an abnormal banknote outlet 39, a banknote detection module 40, a temporary storage module 41, a recycling module Inlet 42, deposit inlet 43, return spring 44, pin 45, raised platform.

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. 6, be the first half structure diagram of deposit core, the deposit core is including deposit module 38, currency examine module 39 and the module of keeping in 40 that sets gradually, currency examine module 39 with be provided with between the module of keeping in 40 and retrieve entry 41 and deposit entry 42, deposit module 38 includes deposit port 381 and unusual paper money and takes out mouth 382, deposit port 381 extremely the one-way intercommunication of currency examine module 39, currency examine module 39 extremely unusual paper money takes out the one-way intercommunication of mouth 382, and the latter half of this deposit core is the paper money case, and not shown in the figure. The customer can put in the paper money through the deposit opening 381 of the deposit module 38, the paper money put in the deposit module 38 is identified as normal paper money and abnormal paper money through the money detecting module 39, the normal paper money enters the temporary storage module 40, the abnormal paper money enters the abnormal paper money output opening 382, and the customer takes the abnormal paper money out of the abnormal paper money output opening 382. For normal bank notes, after a customer clicks and confirms deposit, the bank notes in the temporary storage module 40 enter a bank note box from the deposit entrance 40; if the customer does not confirm within the preset time, the paper money in the temporary storage module 40 enters the paper money box from the recycling inlet 41; when the customer clicks to cancel deposit, the gate of the temporary storage module is directly opened, the customer takes away the paper money, if the customer does not take away the paper money within the designated time, the gate is closed, and the paper money in the temporary storage module 40 enters the paper money box from the recycling inlet 41. In order to facilitate the bank to manage the paper money, the paper money boxes corresponding to the deposit entrance and the recovery entrance can be two paper money boxes which are not communicated with each other.

As shown in fig. 6, the deposit module 38 and the temporary storage module 40 in the deposit movement in the embodiment are respectively disposed on the upper side and the lower side and are disposed opposite to each other, and the banknote identifying module 39 is disposed on one of the left and right sides of the deposit module 38 and the temporary storage module 40, so that the inlet and the outlet of the banknote identifying module 39 are conveniently communicated with both the deposit module 38 and the temporary storage module 40. In this embodiment, the deposit port 381 of the deposit module 38, the banknote checking module 39 and the temporary storage module 40 are temporary storage circulation paths of banknotes; the temporary storage module 40 enters the banknote box through a recovery inlet 41 and a deposit inlet 42 to respectively serve as a recovery path and a deposit path of the banknotes; the deposit port 381 of the deposit module 38 and the abnormal banknote outlet port 382 from the banknote testing module 39 to the deposit module 38 are the circulation paths of the abnormal banknotes.

The temporary storage module structures configured on different machine types are different, and a channel from a deposit module to the temporary storage module is designed to be unidirectional aiming at the deposit machine core, so that a gate is designed on the temporary storage module, and after a customer cancels a deposit, the gate is opened to directly take away paper money. The advantage of the one-way channel design is that the load of the channel motor is reduced, the structural complexity of the channel transmission wheel is reduced, and the cost is reduced.

The utility model provides a module of keeping in on deposit core, encloses the space of keeping in 4 that forms including leading paper money board 1, blocking paper money board, curb plate 2, holding in the palm paper money board 3 and above-mentioned part, it rubs paper money mechanism 5 to lead to be equipped with between paper money board and the curb plate, and paper currency gets into the space of keeping in through rubbing paper money mechanism, because this module of keeping in is used for the deposit core, when the customer cancellation deposit, need directly take away paper currency from keeping in the module, consequently still is equipped with the gate, and the gate sets up with rubbing paper money mechanism relatively, and 300 paper currency can once only be accomodate in the space of keeping in of design in this embodiment, and it is capacious to deposit paper money.

When paper currency is operated in the passageway, through the paper money wheel that rubs of mechanism with dig the paper money wheel motion, in leading the paper money board and getting into the space of keeping in, at high-speed motion in-process, because the pliability and the elasticity of bank note still can have the power of dashing forward, and speed is very fast, can reach 10/second, flies into the space of keeping in so to speak, and to the module of keeping in of all-in-one of depositing and withdrawing, owing to do not need the gate, consequently can be with the relative one side global design of mechanism of rubbing the paper money for keeping off the paper money board structure. Because the gate 6 exists, the design cannot be carried out, and therefore the money blocking claw is designed in the technical scheme. The banknote blocking plate comprises a banknote blocking claw 7 and a movement mechanism for controlling the movement of the banknote blocking claw, the banknote blocking claw is provided with two banknote blocking claws, namely a banknote blocking claw I and a banknote blocking claw II, the movement mechanism comprises a motor I8, a gear and a synchronous belt 9, the gear comprises a power gear 10, a transmission gear I11 and a transmission gear II 12, the transmission gear I is respectively in meshing transmission with the power gear and the transmission gear II, the power gear and the transmission gear II are not meshed with each other, the transmission gear I and the synchronous belt synchronously rotate through a synchronous wheel I13, the other end of the synchronous belt is provided with a synchronous wheel II 14, the synchronous wheel II drives the banknote blocking claw I to swing through a rotating shaft I15, and the transmission gear II drives the banknote blocking claw II to swing through a rotating shaft II 16; the banknote blocking claw has two stable states, namely being accommodated in the notch 17 and falling into the through groove 18, and the maximum swing angle of the banknote blocking claw is 90 degrees.

The length of two paper money blocking claws is researched and designed, the paper money blocking claws can be completely accommodated in the notches, and the paper money blocking claws can fall into the through grooves, namely, the paper money blocking claws can block paper money under the working state.

Because holding in the palm the design of paper money board is liftable, when the deposit machine began to deposit promptly, holding in the palm the paper money board and being located the top in the space of keeping in, along with the paper currency that gets into progressively increases, and progressively descends, and to descending to the least significant end, then the space of keeping in is all full, and what this embodiment designed is 300. It should be noted that the length of the lowermost edge of the banknote blocking claw does not need to reach the lowermost end of the temporary storage space, so that when banknotes are just stored, the effective temporary storage space is formed by encircling the banknote supporting plate, the banknote blocking claw, the banknote guide plate and the side plates, but along with the increase of the banknotes, the banknote supporting plate moves downwards, the effective temporary storage space is formed by encircling the banknotes placed at the uppermost end of the banknote supporting plate and other components, namely, as long as the banknote supporting plate is ensured to move downwards, the banknotes placed at the uppermost end can be always abutted against the banknote blocking claw to form the effective temporary storage space.

The paper money guiding plate is positioned above the temporary storage space and comprises an inclined paper money guiding surface 19 and a horizontal paper money guiding surface 20, and symmetrical step-shaped anti-friction surfaces 21 are arranged on the horizontal paper money guiding surface; the conventional paper money guide plate is a paper money guide surface, the paper money guide surface is a plane, and along with the radian of the paper money rubbing wheel, paper money enters the temporary storage space along the paper money guide surface, but the plane area of the paper money guide surface is too large, the contact surface with the paper money is large, and the surface abrasion to the paper money is large. Therefore, in the technical scheme, the horizontal banknote guide surface is provided with the symmetrical stepped anti-friction surfaces, as shown in fig. 4, only the lowest plane of the stepped anti-friction surfaces is in contact with the banknote, and the height of the lowest plane of the stepped anti-friction surfaces is lower than the highest point of the banknote blocking surface of the gate bracket, so that the banknote guide plate and the gate bracket can be relatively closed, and the banknote clamping phenomenon at the contact position can be avoided.

The movement mechanism is arranged above the gate support 22, the gate support is provided with a paper money blocking surface 23, and the length of the paper money blocking surface is smaller than that of the paper money blocking claw; in the existing design, only the paper money blocking surface is designed, but the length of the paper money blocking surface is increased in order to realize regular paper money stacking, but the temporary storage space has to be sacrificed in order to open a gate so that a customer can take the paper money without depositing from the paper money. The design increases the temporary storage space as much as possible by reducing the length of the paper money blocking surface, and further realizes the function of prolonging the paper money blocking surface through the paper money blocking claw.

Because the paper money blocking plate is additionally arranged, the supporting plate 24 is designed on the basis that the original design is not influenced as much as possible, the moving mechanism is fixed on the supporting plate, the supporting plate is fixed above the paper money guiding plate, and the supporting plate is provided with a notch which is used for accommodating the two paper money blocking claws. The support plate is used for supporting the movement mechanism, so that the weight of the movement mechanism is prevented from pressing the money guide plate, the money guide plate is prevented from generating micro deformation, and the money guide function is formed.

The first transmission gear and the first synchronizing wheel realize synchronous rotation through a third rotating shaft 25, the first motor is located above the third rotating shaft, one end of the third rotating shaft is connected with the first synchronizing wheel, and the other end of the third rotating shaft is fixed on the supporting plate through a bearing 26. Because the transmission gear plays a key role in transmission together, the two banknote blocking claws can move synchronously, and because the synchronizing wheel I and the transmission gear I are positioned in the position within one half of the rotating shaft III, in order to ensure the rotating stability of the rotating shaft III, the other end of the rotating shaft III is fixed on the supporting plate through a bearing, so that the rotating shaft III is prevented from being inclined to a small extent due to the over-speed rotation of the transmission gear I, and the accuracy of gear transmission is influenced.

The paper money blocking claw is provided with a plurality of parallel arranged saw teeth 27 at one side facing the temporary storage space, and the paper money blocking surface is provided with a plurality of parallel arranged saw teeth. The saw teeth comprise an upper receiving surface 28 and a lower inclined downward surface 29, and the included angle between the inclined downward surface and the banknote blocking surface is less than 45 degrees. The paper money blocking claws with the sawteeth on the two sides are used for blocking paper money in the forward direction, and the paper money is prevented from excessively inclining or flying out of the range of the paper money pushing plate. The specific structure of sawtooth can see figure 5, and after paper currency contacted the receiving face, can descend the landing to hold in the palm the paper money board through downward inclined plane, and such sawtooth structural design can accelerate the accomodating and the arrangement of paper currency.

The power gear is driven by the motor I to rotate, the rotating shaft I and the rotating shaft II synchronously rotate in the opposite directions through the transmission gear I and the transmission gear II, and the bill blocking claw I and the bill blocking claw II further swing in the opposite directions.

The first rotating shaft and the second rotating shaft are provided with a stop block 30, a sensor 31 is arranged above the first rotating shaft and the second rotating shaft, and the sensor is fixed on the supporting plate through a positioning platform 32. Whether pivot one and pivot II rotate and target in place, then can learn two fender paper money claws and whether rotate and target in place, especially when keeping off in the paper money claw accomodates the breach after, just can open the gate, otherwise, two fender paper money claws can influence the customer and take away paper currency, so must detect the condition of target in place of keeping off the paper money claw.

The banknote supporting plate moves up and down under the control of the lifting mechanism, the lifting mechanism comprises a second motor 33, a transmission shaft 34 and a transmission belt 35, and a clamping seat 36 is fixedly arranged on the transmission belt to realize the fixation of the transmission belt and the banknote supporting plate. Two transmission belts are symmetrically arranged and are respectively positioned on two sides of the paper money supporting plate. The left side and the right side are provided with the transmission belts, so that the stability of the banknote supporting plate during up-and-down lifting movement is ensured.

The second motor drives the transmission shaft to rotate, the two transmission belts are respectively positioned on two sides of the transmission shaft, the transmission shaft is positioned below the paper money supporting plate, the upper ends of the transmission belts are serially sleeved on the fixed wheel 37, the fixed wheel is fixed on a metal plate of the equipment (not shown in the figure), and the transmission shaft rotates under the action of the second motor, so that the two transmission belts synchronously rotate, the clamping seats on the transmission belts are further driven to move up and down, and the clamping seats and the paper money supporting plate are fixed, so that the paper money supporting plate is driven to move up and down.

Regarding the specific positions of the two banknote blocking claws, two designs are made, respectively: as shown in fig. 1-3, the two banknote blocking claws are arranged side by side left and right when being accommodated in the notch; as shown in fig. 7 to 8, the two bill blocking claws are arranged in parallel up and down when being accommodated in the notch. The corresponding through groove positions are also different. Considering the height of the temporary storage space and the size problem of the whole temporary storage module, two banknote blocking claws overlap with each other at a certain part when being stored in the notch, the overlapped part can collide when being opened and stored, and in order to prevent collision, two forms are designed. As described in example 1 and example 2.

Example 1

As shown in fig. 3, two through grooves are formed on the gate bracket; for the banknote blocking claws which are arranged side by side at the left and the right, the two through grooves are not on the same plane. Two fender paper money claws side by side about with pivot one and pivot II fixed mutually, even can have the coincidence taking in the breach, owing to not being in same motion plane in the motion process, also can not bump.

As shown in fig. 2, the timing belt, the first timing wheel and the second timing wheel are located outside the support plate.

Example 2

In fig. 7-8, two banknote blocking claws are arranged side by side up and down, wherein the banknote blocking claw is an upper banknote blocking claw, the banknote blocking claw is a lower banknote blocking claw, the two banknote blocking claws, the first transmission gear and the second transmission gear are respectively designed into an integrated structure, the gate support is provided with two through grooves, and the two through grooves are positioned on the same horizontal plane under the condition. Under this condition, upper and lower fender paper money claw is located the coplanar that moves, in order to prevent to bump in the motion process, we will keep off paper money claw design for with pivot one fixed form mutually, follow pivot one synchronous motion, keep off paper money claw design for the active form down, the drive gear two that keeps off paper money claw connection down only be the cluster cover on pivot two promptly, both can take place relative rotation, through reset spring and pin, realize keeping off paper money claw down and rotate the purpose that is slower than last fender paper money claw. Specifically, the method comprises the following steps:

the lower banknote blocking claw is additionally provided with a reset spring 43, the reset spring is a torsion spring, one end of the reset spring is hung on the banknote blocking claw, the other end of the reset spring is fixed on the supporting plate, a pin 44 is arranged on the first rotating shaft 15, the lower banknote blocking claw is provided with a raised platform 45, the pin acts on the raised platform, the pin rotates along with the first rotating shaft, the raised platform is pushed, the lower banknote blocking claw is further pushed to move downwards, and the lower banknote blocking claw is made to fall into the through groove from being accommodated in the notch.

When the two banknote blocking claws are accommodated in the notches and need to fall into the through groove, the upper banknote blocking claw moves downwards along with the first rotating shaft to push the lower banknote blocking claw to move downwards, when the lower banknote blocking claw moves to a vertical state, the first rotating shaft and the second rotating shaft do not rotate any more, the upper banknote blocking claw is stabilized in the vertical state, the pin acts on the protruding platform of the lower banknote blocking claw to prevent the lower banknote blocking claw from moving upwards under the action force of the torsion spring, the action force of the torsion spring also limits the lower banknote blocking claw to continue to rotate, and the lower banknote blocking claw is in a stable vertical state; when needs are accomodate in the breach again, because keep off the paper money claw down be the cluster cover in pivot two, be different from last fender paper money claw and pivot one to be less than pivot one's revolving force with the effort design of torsional spring, consequently, go up to keep off the paper money claw under the drive of pivot one, upwards pack up earlier, keep off the paper money claw down and be later than last fender paper money claw under the effort of torsional spring, upwards pack up, make to keep off paper money claw rotation speed and be faster than fender paper money claw two, consequently two keep off the paper money claw also can not bump.

As shown in fig. 7, the timing belt, the first timing wheel and the second timing wheel are located at the inner side of the support plate.

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 (9)

1. A temporary storage module on a deposit machine core is characterized by comprising a money guide plate, a money blocking plate, a side plate, a money supporting plate and a temporary storage space formed by enclosing the money guide plate, the money blocking plate, the side plate, the money supporting plate and the temporary storage space, wherein a money rubbing mechanism is arranged between the money guide plate and the side plate, paper money enters the temporary storage space through the money rubbing mechanism, the money blocking plate comprises two money blocking claws and a movement mechanism for controlling the movement of the money blocking claws, the two money blocking claws are respectively a first money blocking claw and a second money blocking claw, and after being stored, the two money blocking claws are distributed in any one of a left side-to-right side parallel distribution and a top-to-bottom parallel distribution;

the two banknote blocking claws which are distributed side by side on the left and the right synchronously rotate under the control of the motion mechanism;

two banknote blocking claws which are distributed in parallel up and down rotate synchronously under the control of the motion mechanism when falling, and the rotating speed of one banknote blocking claw is higher than that of the second banknote blocking claw when the banknote blocking claws are stored;

the moving mechanism comprises a first motor, a first gear and a second gear, the first gear comprises a power gear, a first transmission gear and a second transmission gear, the first transmission gear is respectively in meshing transmission with the power gear and the second transmission gear, the power gear and the second transmission gear are not meshed with each other, the first transmission gear and the synchronous belt realize synchronous rotation through the first synchronous wheel, the other end of the synchronous belt is provided with the second synchronous wheel, the power gear rotates under the driving of the first motor, the first transmission gear and the second transmission gear realize reverse synchronous rotation of the first rotating shaft and the second rotating shaft, the first transmission gear and the first synchronous wheel realize synchronous rotation through the third rotating shaft, the first motor is located above the third rotating shaft, one end of the third rotating shaft is connected with the first synchronous wheel, and the other end of the third rotating shaft is fixed on the supporting plate through a bearing.

2. The temporary storage module on a deposit machine core as claimed in claim 1, characterized in that, of the two banknote blocking claws which are distributed side by side on the left and right, the first banknote blocking claw is fixed on the first rotating shaft, the second banknote blocking claw is fixed on the second rotating shaft, and the first banknote blocking claw and the second banknote blocking claw rotate forward or backward synchronously along with the first rotating shaft and the second rotating shaft.

3. The temporary storage module on a deposit machine core as claimed in claim 1, characterized in that, of two banknote blocking claws arranged side by side up and down, the first banknote blocking claw is fixed on the first rotating shaft and rotates forward or backward synchronously with the first rotating shaft, the second banknote blocking claw is sleeved in series on the second rotating shaft and can rotate relatively, the second rotating shaft is provided with a reset spring and a pin, the second banknote blocking claw is provided with a raised platform, the pin acts on the raised platform to push the banknote blocking claw to rotate downward, and the reset spring enables the second banknote blocking claw to always have a tendency of rotating upward.

4. A temporary storage module on a deposit machine core as claimed in claim 1, wherein a gate bracket is further arranged in the temporary storage module, and two through grooves are arranged on the gate bracket; the moving mechanism is fixed on a support plate, the support plate is fixed above the paper money guide plate, and a notch is formed in the support plate; the paper money blocking claw has two stable states, the two stable states are respectively accommodated in the notch and fall into the through groove, and the maximum swing angle of the paper money blocking claw is 90 degrees.

5. The buffer module of claim 1, wherein the banknote stop claw has a plurality of parallel saw teeth on a side facing the buffer space, the movement mechanism is arranged above the gate bracket, the gate bracket has a banknote stop surface, the length of the banknote stop surface is less than the length of the banknote stop claw, and the banknote stop surface has a plurality of parallel saw teeth.

6. The temporary storage module on a deposit machine core as claimed in claim 5, wherein the saw teeth comprise an upper receiving surface and a lower inclined surface, and the included angle between the inclined surface and the banknote blocking surface is less than 45 °.

7. The temporary storage module on a depositing machine core as claimed in claim 1, wherein the banknote guide plate is located above the temporary storage space, the banknote guide plate comprises an inclined banknote guide surface and a horizontal banknote guide surface, and symmetrical stepped friction reducing surfaces are arranged on the horizontal banknote guide surface.

8. The temporary storage module on a deposit core according to claim 1, wherein the banknote supporting plate moves up and down under the control of a lifting mechanism, the lifting mechanism comprises a second motor, a transmission shaft and a transmission belt, a clamping seat is fixedly arranged on the transmission belt to realize the fixation of the transmission belt and the banknote supporting plate, and the two transmission belts are symmetrically arranged and are respectively positioned at two sides of the banknote supporting plate.

9. A deposit core is characterized by comprising a deposit module, a money detection module and a temporary storage module, wherein the deposit module, the money detection module and the temporary storage module are sequentially communicated, the temporary storage module is arranged on the deposit core according to any one of claims 1 to 8, a recovery inlet and a deposit inlet are arranged between the money detection module and the temporary storage module, the deposit module comprises a deposit module and an abnormal money taking-out port, the deposit module is communicated with the money detection module in a one-way mode, and the money detection module is communicated with the abnormal money taking-out port in a one-way mode.

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