CN107093263B - Stacking module of whole stacking banknote dispenser - Google Patents

Abstract

The invention discloses a banknote stacking module of a whole-stack banknote dispenser, which is used for completing the banknote stacking function of the whole-stack banknote dispenser and comprises a first banknote stacking belt wheel, a second banknote stacking belt wheel, a third banknote stacking belt wheel, a second banknote stacking belt wheel and a third banknote stacking belt wheel; the first banknote stacking belt wheel, the second banknote stacking belt wheel and the third banknote stacking belt wheel are connected through a second banknote stacking belt to form a belt transmission structure; the second and the third banknote stacking belt wheels are connected through a first banknote stacking belt to form a belt transmission structure; the third first banknote stacking belt wheel and the third second banknote stacking belt wheel are connected through a third banknote stacking belt to form a belt transmission structure; a banknote stacking cam is arranged below the fourth banknote stacking plate and is arranged on an output shaft of the banknote stacking motor. The invention controls the paper money feeding or stacking through the paper money stacking cam, and is very convenient to use.

Description

Stacking module of whole stacking cash dispenser

Technical Field

The invention relates to financial equipment, in particular to a whole-stack cash dispenser, and particularly relates to a cash stacking module of the whole-stack cash dispenser.

Background

In the banknote handling devices existing in the market, banknote handling modules have formed a manufacturing and business model of modularizing important functional components. On the basis of continuous convenience of equipment application, the development speed of circulation equipment is more prominent. At the same time, personalized equipment based on market segments is also different from military prominence for each manufacturer. Among the above devices, a market for a simple full stack of cash dispensing devices is also emerging as a demand for a certain type of customer. The foreign whole-stack cash-out module has good product performance, but has complex structure and high price, and is not suitable for being used in the locality.

The technical scheme of the whole-stack banknote dispenser is described in the Chinese patent application named 'a whole-stack banknote dispenser' filed on the same date as the scheme.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention provides a stacking module of a stacking and dispensing machine, which is used for performing a stacking function of the stacking and dispensing machine.

In order to achieve the purpose, the invention provides a banknote stacking module of a whole banknote stacking and discharging machine, which comprises a first banknote stacking vertical plate and a second banknote stacking vertical plate, wherein the first banknote stacking vertical plate and the second banknote stacking vertical plate are connected through a banknote stacking connecting plate;

the first banknote stacking vertical plate and the second banknote stacking vertical plate are rotatably assembled with a seventh banknote stacking shaft, an eighth banknote stacking shaft, a ninth banknote stacking shaft, a first banknote stacking shaft, a second banknote stacking shaft and a fourth banknote stacking shaft;

one end of each of the first banknote stacking shaft, the second banknote stacking shaft and the fourth banknote stacking shaft extends out of the second banknote stacking vertical plate, and the extending parts of the first banknote stacking shaft, the second banknote stacking shaft and the fourth banknote stacking shaft are respectively provided with a first banknote stacking gear, a second banknote stacking gear and a fourth banknote stacking gear;

the second banknote stacking belt wheel is arranged on the first banknote conveying shaft, a first banknote conveying gear is further arranged on the first banknote conveying shaft, the first banknote conveying gear is meshed with a fifth banknote stacking gear, the fifth banknote stacking gear is meshed with a third banknote stacking gear, and the third banknote stacking gear is meshed with a fourth banknote stacking gear;

the third banknote stacking gear and the fifth banknote stacking gear are respectively arranged on the third banknote stacking shaft and the fifth banknote stacking shaft;

the ninth banknote stacking shaft is further fixed with the first banknote stacking plate, a seventh banknote stacking plate is arranged below the first banknote stacking plate, and two sides of the seventh banknote stacking plate are fixedly connected with the first banknote stacking vertical plate and the second banknote stacking vertical plate;

one end of the first banknote stacking plate, which is far away from the ninth banknote stacking shaft, is rotatably assembled with the thirteenth banknote stacking shaft;

the first banknote stacking vertical plate and the second banknote stacking vertical plate are also rotatably assembled with a banknote stacking plate shaft, the banknote stacking plate shaft is fixedly connected with the second banknote stacking plate, and a fourth banknote stacking plate and an eighth banknote stacking plate are arranged below the second banknote stacking plate;

the fourth banknote stacking plate is rotatably assembled with the eighth banknote stacking plate through a seventh banknote stacking shaft, the fourth banknote stacking plate is also rotatably assembled with one end of the banknote stacking support plate through an eleventh banknote stacking shaft, and the other end of the banknote stacking support plate is rotatably assembled with a third banknote stacking plate support block on the second banknote stacking plate through a tenth banknote stacking shaft;

the fourth banknote stacking plate is also provided with a sixth banknote stacking plate, and the sixth banknote stacking plate and the second banknote stacking shaft are rotatably assembled;

a fourteenth banknote stacking shaft is arranged on two sides of the eighth banknote stacking plate and is respectively assembled with the banknote stacking yielding grooves arranged on the first banknote stacking vertical plate or the second banknote stacking vertical plate; one end of the eighth banknote stacking plate, which is far away from the seventh banknote stacking shaft, is rotatably assembled with the fifth banknote stacking shaft;

the fifth banknote stacking shaft, the fourth banknote stacking shaft, the seventh banknote stacking shaft, the second banknote stacking shaft, the first banknote stacking shaft, the ninth banknote stacking shaft, the thirteenth banknote stacking shaft and the eighth banknote stacking shaft are respectively and fixedly provided with a first banknote stacking belt wheel, a second banknote stacking belt wheel, a third banknote stacking belt wheel, a second banknote stacking belt wheel, a third banknote stacking belt wheel and a third banknote stacking belt wheel;

the first banknote stacking belt wheel, the second banknote stacking belt wheel and the third banknote stacking belt wheel are connected through a second banknote stacking belt to form a belt transmission structure;

the group two first banknote stacking belt wheels, the group two second banknote stacking belt wheels and the group two third banknote stacking belt wheels are connected through a first banknote stacking belt to form a belt transmission structure;

the third first banknote stacking belt wheel and the third second banknote stacking belt wheel are connected through a third banknote stacking belt to form a belt transmission structure;

and a banknote stacking cam is arranged below the fourth banknote stacking plate and is arranged on an output shaft of the banknote stacking motor.

As a further improvement of the invention, a fifteenth banknote stacking shaft is further arranged on the first banknote stacking vertical plate and the second banknote stacking vertical plate, one end of a first banknote stacking tension spring is connected with the fifteenth banknote stacking shaft, and the other end of the first banknote stacking tension spring is connected with a banknote stacking tension spring connecting groove arranged on the fourth banknote stacking plate.

As a further improvement of the invention, the first banknote stacking plate is provided with a banknote stacking torsion spring at the assembly position of the two ends of the ninth banknote stacking shaft and the first banknote stacking vertical plate or the second banknote stacking vertical plate, and the banknote stacking torsion spring is used for generating torsion for pressing the first banknote stacking plate to the seventh banknote stacking plate; one end of the banknote stacking torsion spring is in contact with the first banknote stacking plate and is pressed tightly, and the other end of the banknote stacking torsion spring is connected and assembled with the first banknote stacking vertical plate or the second banknote stacking vertical plate.

As a further improvement of the invention, a first banknote guide part and a second banknote guide part are arranged at two ends of the seventh banknote stacking plate, a first banknote guide slot and a second banknote guide slot are respectively arranged on the first banknote guide part and the second banknote guide part, two ends of the third banknote stacking belt penetrate through the first banknote guide slot and the second banknote guide slot, and the third banknote stacking belt is distributed near the upper end face and the lower end face of the seventh banknote stacking plate.

As a further improvement of the invention, a banknote stacking baffle part is arranged on the second banknote stacking plate, a second banknote stacking belt through groove is arranged on the banknote stacking baffle part, and the second banknote stacking belt through groove is used for allowing a second banknote stacking belt and a first banknote stacking belt to pass through;

the first banknote stacking belts are respectively distributed near two end faces of the first banknote stacking plate and the third banknote stacking plate; the second banknote stacking belts are distributed near two end faces of the fourth banknote stacking plate and the eighth banknote stacking plate.

As a further improvement of the invention, a first banknote stacking sensor is arranged on the banknote stacking connecting plate, a first banknote stacking sensing hole through which light of the first banknote stacking sensor passes is arranged on the first banknote stacking plate, a first secondary banknote stacking sensor opposite to the first banknote stacking sensor is arranged on the seventh banknote stacking plate, and the first banknote stacking sensor and the first secondary banknote stacking sensor are used for detecting whether banknotes pass through and counting.

As a further improvement of the invention, a banknote stacking space is formed between the first banknote stacking belt and the second banknote stacking belt, a banknote checking and sending out plate part of the banknote checking and sending module enters the bottom of the second banknote stacking plate, and a banknote checking and sending out plate groove for the second banknote stacking belt to pass through is further arranged on the banknote checking and sending out plate.

The beneficial effects of the invention are:

compared with the prior art, the invention has simple structure, and is very convenient to use by controlling the bill conveying or the bill stacking through the bill stacking cam.

Drawings

Fig. 1 is a schematic structural diagram of a whole-stack cash dispenser.

Fig. 2 is a schematic structural diagram of a whole stack cash dispenser.

Fig. 3 is a schematic structural diagram of a stacked banknote dispenser.

Fig. 4 is a schematic structural diagram of a whole stack banknote dispenser.

Fig. 5 is a schematic view of the entire stack of banknote dispenser.

Fig. 6 is a schematic structural diagram of a banknote stacking module of the entire banknote dispenser.

Fig. 7 is a schematic structural diagram of a banknote stacking module of the entire banknote dispenser.

Fig. 8 is a schematic structural diagram of a banknote stacking module of the entire banknote dispenser.

Fig. 9 is a schematic structural diagram of a banknote stacking module of the entire banknote dispenser.

Fig. 10 is a schematic structural diagram of a banknote stacking module of the entire banknote dispenser.

Fig. 11 is a schematic structural diagram of a banknote stacking module of the banknote stacking and dispensing machine.

Fig. 12 is a schematic structural diagram of a banknote checking and feeding module and a banknote stacking module of the entire stack banknote dispenser.

Detailed Description

The invention is further illustrated with reference to the following figures and examples:

the sensors referred to in this case are all photoelectric sensors.

Referring to fig. 1 to 5, the whole-stack banknote dispenser includes a banknote stacking module a, a banknote checking and conveying module B, and a banknote box module C, wherein the banknote box module C is used for storing banknotes and conveying the banknotes to the banknote checking and conveying module B when in use; the banknote checking and sending module B is used for identifying counterfeit banknotes and sending real banknotes to the banknote stacking module A; the bank note stacking module A is used for stacking the bank notes conveyed from the bank note checking and conveying module B and finally conveying the bank notes out of the whole bank note stacking and discharging machine.

Referring to fig. 1 to 12, the banknote stacking module a includes a first banknote stacking vertical plate a201 and a second banknote stacking vertical plate a202, and the first banknote stacking vertical plate a201 and the second banknote stacking vertical plate a202 are connected by a banknote stacking connecting plate a 211;

the first banknote stacking vertical plate A201 and the second banknote stacking vertical plate A202 are also rotatably assembled with a seventh banknote stacking shaft A117, an eighth banknote stacking shaft A118, a ninth banknote stacking shaft A119, a first banknote stacking shaft A110, a second banknote stacking shaft A112 and a fourth banknote stacking shaft A114;

one end of each of the first banknote stacking shaft A110, the second banknote stacking shaft A112 and the fourth banknote stacking shaft A114 extends out of the second banknote stacking vertical plate A202, and the extending parts of the first banknote stacking shaft A110, the second banknote stacking shaft A112 and the fourth banknote stacking shaft A114 are respectively provided with a first banknote stacking gear A101, a second banknote stacking gear A102 and a fourth banknote stacking gear A104, the first banknote stacking gear A101 is meshed with a sixth banknote stacking gear A106 arranged on a sixth banknote stacking shaft A116, the sixth banknote stacking gear A106 is meshed with the second banknote stacking gear A102, the second banknote stacking shaft A112 is further provided with a first banknote stacking belt wheel D101, and the first banknote stacking belt wheel D101 is connected with a second banknote stacking belt wheel D102 on the banknote checking and feeding module B through a first banknote feeding belt D110 to form a belt transmission structure;

the second banknote stacking belt wheel D102 is mounted on a first banknote conveying shaft B111, a first banknote conveying gear B101 is further mounted on the first banknote conveying shaft B111, the first banknote conveying gear B101 is meshed with a fifth banknote stacking gear A105, the fifth banknote stacking gear A105 is meshed with a third banknote stacking gear A103, and the third banknote stacking gear A103 is meshed with a fourth banknote stacking gear A104;

the third banknote stacking gear A103 and the fifth banknote stacking gear A105 are respectively arranged on a third banknote stacking shaft A113 and a fifth banknote stacking shaft A115; when the banknote stacking device is used, the first banknote sending gear B101 drives the third banknote stacking gear A103, the fifth banknote stacking gear A105 and the fourth banknote stacking gear A104 to rotate; the second banknote stacking gear is driven to rotate by the first banknote feeding belt D110, and the first banknote stacking gear A101 is driven to rotate by the second banknote stacking gear through the sixth banknote stacking gear A106.

The ninth banknote stacking shaft A119 is further fixed with a first banknote stacking plate A212, a seventh banknote stacking plate A217 is arranged below the first banknote stacking plate A212, and two sides of the seventh banknote stacking plate A217 are fixedly connected with a first banknote stacking vertical plate A201 and a second banknote stacking vertical plate A202;

one end of the first banknote stacking plate A212, which is far away from the ninth banknote stacking shaft A119, is rotatably assembled with the thirteenth banknote stacking shaft A123;

the first banknote stacking vertical plate A201 and the second banknote stacking vertical plate A202 are also rotatably assembled with a banknote stacking plate shaft A215, the banknote stacking plate shaft A215 is fixedly connected with a second banknote stacking plate A213, and a fourth banknote stacking plate A214 and an eighth banknote stacking plate A218 are arranged below the second banknote stacking plate A213;

the fourth banknote stacking plate a214 is rotatably assembled (hinged) with the eighth banknote stacking plate a218 through a seventh banknote stacking shaft a117, the fourth banknote stacking plate a214 is further rotatably assembled with one end of a banknote stacking support plate a312 through an eleventh banknote stacking shaft a121, and the other end of the banknote stacking support plate a312 is rotatably assembled with a third banknote stacking plate supporting block a2132 on the second banknote stacking plate a213 through a tenth banknote stacking shaft a 120;

the fourth banknote stacking plate A214 is also provided with a sixth banknote stacking plate A216, and the sixth banknote stacking plate A216 and the second banknote stacking shaft A116 are rotatably assembled;

the two sides of the eighth banknote stacking plate A218 are provided with fourteenth banknote stacking shafts A124, the fourteenth banknote stacking shafts are respectively assembled with banknote stacking yielding grooves A2013 formed in the first banknote stacking plate A201 or the second banknote stacking plate A202, and the banknote stacking yielding grooves A2013 can be properly adjusted at installation positions for enabling the eighth banknote stacking plate A218, the first banknote stacking plate A201 and the second banknote stacking plate A202 to increase assembly accuracy.

One end of the eighth banknote stacking plate A218, which is far away from the seventh banknote stacking shaft A117, is rotatably assembled with the fifth banknote stacking shaft A115;

the fifth banknote stacking shaft a115, the fourth banknote stacking shaft a114, the seventh banknote stacking shaft a117, the second banknote stacking shaft a112, the first banknote stacking shaft a110, the ninth banknote stacking shaft a119, the thirteenth banknote stacking shaft a123 and the eighth banknote stacking shaft a118 are respectively and fixedly provided with a group of first banknote stacking belt wheels a401, a group of second first banknote stacking belt wheels a411, a group of second banknote stacking belt wheels a402, a group of third banknote stacking belt wheels a403, a group of third banknote stacking belt wheels a421, a group of second banknote stacking belt wheels a412, a group of second banknote stacking belt wheels a413 and a group of third banknote stacking belt wheels a422;

the first banknote stacking belt wheel A401, the second banknote stacking belt wheel A402 and the third banknote stacking belt wheel A403 are connected through a second banknote stacking belt D320 to form a belt transmission structure;

the group of second first banknote stacking belt wheels A411, the group of second banknote stacking belt wheels A412 and the group of second third banknote stacking belt wheels A413 are connected through a first banknote stacking belt D310 to form a belt transmission structure;

the group of the third first banknote stacking belt wheel A421 and the group of the third second banknote stacking belt wheel A422 are connected through a third banknote stacking belt D330 to form a belt transmission structure;

a banknote stacking cam A301 is arranged below the fourth banknote stacking plate A214, and the banknote stacking cam A301 is arranged on an output shaft of the banknote stacking motor A200.

Furthermore, a fifteenth banknote stacking shaft a125 is further arranged on the first banknote stacking vertical plate a201 and the second banknote stacking vertical plate a202, one end of a first banknote stacking tension spring a311 is connected with the fifteenth banknote stacking shaft a125, and the other end of the first banknote stacking tension spring a311 is connected with a banknote stacking tension spring connecting groove a2141 arranged on the fourth banknote stacking plate a 214. By the structure, after the banknote stacking cam A301 jacks up the fourth banknote stacking plate A214, the fourth banknote stacking plate A214 returns to the original position under the action of the first banknote stacking tension spring A311 when the banknote stacking cam A301 returns to the original state.

Further, the first banknote stacking plate a212 is provided with a banknote stacking torsion spring a312 at the assembly position of the two ends of the ninth banknote stacking shaft a119 and the first banknote stacking vertical plate a201 or the second banknote stacking vertical plate a202, and the banknote stacking torsion spring is used for generating torsion for pressing the first banknote stacking plate a212 to the seventh banknote stacking plate a 217. One end of the banknote stacking torsion spring is in contact with and pressed against the first banknote stacking plate A212, and the other end of the banknote stacking torsion spring is connected and assembled with the first banknote stacking vertical plate A201 or the second banknote stacking vertical plate A202.

Furthermore, a first banknote guiding portion a2171 and a second banknote guiding portion a2172 are arranged at two ends of the seventh banknote stacking plate a217, a first banknote guiding slot a21711 and a second banknote guiding slot a21721 are respectively arranged on the first banknote guiding portion a2171 and the second banknote guiding portion a2172, two ends of the third banknote stacking belt D330 penetrate through the first banknote guiding slot a21711 and the second banknote guiding slot a21721, and the third banknote stacking belt D330 is distributed near the upper end face and the lower end face of the seventh banknote stacking plate a 217. This structure allows the third bank note stacking belt D330 to directly contact the bank notes to convey the bank notes.

Further, a banknote stacking baffle part a2133 is arranged on the second banknote stacking plate a213, a second banknote stacking belt through groove a2131 is arranged on the banknote stacking baffle part a2133, and the second banknote stacking belt through groove a2131 is used for allowing the second banknote stacking belt and the first banknote stacking belt to pass through. The banknote stacking baffle part A2133 is used for stopping banknotes during banknote stacking.

Further, the first banknote stacking belt D310 is respectively distributed near two end surfaces of the first banknote stacking plate a212 and the third banknote stacking plate a 213; the second banknote stacking belt D320 is distributed near two end faces of the fourth banknote stacking plate a214 and the eighth banknote stacking plate a 218. The design enables the first banknote stacking belt D310, the second banknote stacking belt D320 and the third banknote stacking belt D330 to be in contact with the banknotes, so that the banknotes can be effectively conveyed.

Further, the stacking connecting plate a211 is provided with a first stacking sensor a801, the first stacking plate a212 is provided with a first stacking sensing hole a2122 through which light of the first stacking sensor a801 passes, and the seventh stacking plate a217 is provided with a first secondary stacking sensor a811 opposite to the first stacking sensor a 801. The first banknote stacking sensor a801 and the first secondary banknote stacking sensor a811 are used for detecting whether the banknotes pass through and counting.

Further, the first bank note stacking belt and the second bank note stacking belt D320 form a bank note stacking space A01, a bank note checking and feeding guide-out plate B296 of the bank note checking and feeding module B partially enters the bottom of the second bank note stacking plate A213, and a bank note checking and feeding guide-out plate groove B2961 which enables the second bank note stacking belt D320 to pass through is further arranged on the bank note checking and feeding guide-out plate B296.

When stacking bills, the bill stacking motor a200 drives the bill stacking cam a301 to rotate so as to jack up the fourth bill stacking plate a214 upwards, so that the bottom of the fourth bill stacking plate a214 is tightly attached to the bottom of the second bill stacking belt D320.

The fourth banknote stacking plate a214 jacks up the second banknote stacking plate a213 through the banknote stacking support plate a312, so that a banknote stacking space a01 is formed between the bottom surface of the first banknote stacking belt D310 and the second banknote stacking belt D320;

at this time, the eighth banknote stacking plate a218 moves towards the first banknote stacking shaft a110, so that the fifth banknote stacking gear a105 is not engaged with the first banknote feeding gear B101, and the sixth banknote stacking gear a106 is not engaged with the second banknote stacking gear a102, that is, the second banknote stacking belt, the first banknote stacking belt and the third banknote stacking belt stop rotating, so that the banknotes can be stacked in the banknote stacking space a 01.

After stacking the paper money, the paper money stacking motor A200 rotates to enable the paper money stacking cam to recover the original state, at the moment, the fifth paper money stacking gear A105 and the first paper money conveying gear B101 rotate in a meshed mode, the sixth paper money stacking gear A106 and the second paper money stacking gear A102 rotate in a meshed mode, the second paper money stacking belt and the first paper money stacking belt rotate until stacked paper money is conveyed to a position between the first paper money stacking belt and the third paper money stacking belt, and finally the stacked paper money is conveyed out of the machine body through the first paper money stacking belt and the third paper money stacking belt.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the above teachings. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (5)

1. A banknote stacking module of a whole-stack banknote dispenser comprises a first banknote stacking vertical plate and a second banknote stacking vertical plate, wherein the first banknote stacking vertical plate and the second banknote stacking vertical plate are connected through a banknote stacking connecting plate; the method is characterized in that:

the first banknote stacking vertical plate and the second banknote stacking vertical plate are rotatably assembled with a seventh banknote stacking shaft, an eighth banknote stacking shaft, a ninth banknote stacking shaft, a first banknote stacking shaft, a second banknote stacking shaft and a fourth banknote stacking shaft;

one end of each of the first banknote stacking shaft, the second banknote stacking shaft and the fourth banknote stacking shaft extends out of the second banknote stacking vertical plate, and the extending parts of the first banknote stacking shaft, the second banknote stacking shaft and the fourth banknote stacking shaft are respectively provided with a first banknote stacking gear, a second banknote stacking gear and a fourth banknote stacking gear;

the second banknote stacking belt wheel is arranged on the first banknote conveying shaft, a first banknote conveying gear is further arranged on the first banknote conveying shaft, the first banknote conveying gear is meshed with a fifth banknote stacking gear, the fifth banknote stacking gear is meshed with a third banknote stacking gear, and the third banknote stacking gear is meshed with a fourth banknote stacking gear;

the third banknote stacking gear and the fifth banknote stacking gear are respectively arranged on the third banknote stacking shaft and the fifth banknote stacking shaft;

the ninth banknote stacking shaft is further fixed with the first banknote stacking plate, a seventh banknote stacking plate is arranged below the first banknote stacking plate, and two sides of the seventh banknote stacking plate are fixedly connected with the first banknote stacking vertical plate and the second banknote stacking vertical plate;

one end of the first banknote stacking plate, which is far away from the ninth banknote stacking shaft, is rotatably assembled with the thirteenth banknote stacking shaft;

the first banknote stacking vertical plate and the second banknote stacking vertical plate are also rotatably assembled with a banknote stacking plate shaft, the banknote stacking plate shaft is fixedly connected with the second banknote stacking plate, and a fourth banknote stacking plate and an eighth banknote stacking plate are arranged below the second banknote stacking plate;

the fourth banknote stacking plate is rotatably assembled with the eighth banknote stacking plate through a seventh banknote stacking shaft, the fourth banknote stacking plate is also rotatably assembled with one end of the banknote stacking support plate through an eleventh banknote stacking shaft, and the other end of the banknote stacking support plate is rotatably assembled with a third banknote stacking plate support block on the second banknote stacking plate through a tenth banknote stacking shaft;

the fourth banknote stacking plate is also provided with a sixth banknote stacking plate, and the sixth banknote stacking plate and the second banknote stacking shaft can be rotatably assembled;

a fourteenth banknote stacking shaft is arranged on two sides of the eighth banknote stacking plate and is respectively assembled with the banknote stacking yielding grooves arranged on the first banknote stacking vertical plate or the second banknote stacking vertical plate; one end of the eighth banknote stacking plate, which is far away from the seventh banknote stacking shaft, is rotatably assembled with the fifth banknote stacking shaft;

the fifth banknote stacking shaft, the fourth banknote stacking shaft, the seventh banknote stacking shaft, the second banknote stacking shaft, the first banknote stacking shaft, the ninth banknote stacking shaft, the thirteenth banknote stacking shaft and the eighth banknote stacking shaft are respectively and fixedly provided with a first banknote stacking belt wheel, a second banknote stacking belt wheel, a third banknote stacking belt wheel, a second banknote stacking belt wheel, a third banknote stacking belt wheel and a third banknote stacking belt wheel;

the first banknote stacking belt wheel, the second banknote stacking belt wheel and the third banknote stacking belt wheel are connected through a second banknote stacking belt, and a belt transmission structure is formed;

the group two first banknote stacking belt wheels, the group two second banknote stacking belt wheels and the group two third banknote stacking belt wheels are connected through a first banknote stacking belt to form a belt transmission structure;

the third first banknote stacking belt wheel and the third second banknote stacking belt wheel are connected through a third banknote stacking belt to form a belt transmission structure;

a banknote stacking cam is arranged below the fourth banknote stacking plate and is arranged on an output shaft of the banknote stacking motor;

a first banknote guide part and a second banknote guide part are arranged at two ends of the seventh banknote stacking plate, a first banknote guide slot and a second banknote guide slot are respectively arranged on the first banknote guide part and the second banknote guide part, two ends of the third banknote stacking belt penetrate through the first banknote guide slot and the second banknote guide slot, and the third banknote stacking belt is distributed near the upper end face and the lower end face of the seventh banknote stacking plate;

the second banknote stacking plate is provided with a banknote stacking baffle part, the banknote stacking baffle part is provided with a second banknote stacking belt through groove, and the second banknote stacking belt through groove is used for enabling a second banknote stacking belt and the first banknote stacking belt to penetrate through;

the first banknote stacking belts are respectively distributed near two end faces of the first banknote stacking plate and the third banknote stacking plate; the second banknote stacking belts are distributed near two end faces of the fourth banknote stacking plate and the eighth banknote stacking plate.

2. The stacking module of a full stack dispenser of claim 1, further comprising: the first note stacking vertical plate and the second note stacking vertical plate are further provided with a fifteenth note stacking shaft, one end of a first note stacking tension spring is connected with the fifteenth note stacking shaft, and the other end of the first note stacking tension spring is connected with a note stacking tension spring connecting groove arranged on the fourth note stacking plate.

3. The stacking module of a full stack dispenser of claim 1, further comprising: the first banknote stacking plate is provided with a banknote stacking torsion spring at the assembly position of the two ends of the ninth banknote stacking shaft and the first banknote stacking vertical plate or the second banknote stacking vertical plate, and the banknote stacking torsion spring is used for generating torsion for pressing the first banknote stacking plate to the seventh banknote stacking plate; one end of the banknote stacking torsion spring is in contact with the first banknote stacking plate and is pressed tightly, and the other end of the banknote stacking torsion spring is connected and assembled with the first banknote stacking vertical plate or the second banknote stacking vertical plate.

4. The stacking module of a full stack dispenser of claim 1, further comprising: fold paper money even and be equipped with first pile of paper money sensor on the board, first pile of paper money board on be equipped with and be the first pile of paper money response hole that first pile of paper money sensor light passed, seventh pile of paper money board on be equipped with first pile of paper money sensor just right first pair of paper money sensor, first pile of paper money sensor and first pair pile of paper money sensor be used for detecting paper money and pass and count.

5. The stacking module of a full stack dispenser of claim 1, further comprising: the first bank note belt of folding and the second of folding constitute between fold the paper money space, the bank note board bottom is folded to the second of the bank note of delivery conducting plate portion entering of bank note module of testing, just the testing of delivering the conducting plate on still be equipped with the testing that makes the second fold the bank note belt and pass and send the conducting plate groove.

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