阅读说明：本技术 一种送钞模块及其加钞机 (Send paper money module and add paper money machine thereof ) 是由 魏伟 方镇 陈德杯 关卫 蔡耀准 倪波涛 黎荣海 魏小兰 王茂兴 于 2019-10-10 设计创作，主要内容包括：一种送钞模块及其加钞机,其送钞模块包括下送钞板、上送钞板,上送钞板、下送钞板之间构成送钞间隙；送钞间隙内靠近上送钞板一侧处安装有上送钞皮带,送钞间隙内靠近下送钞板一侧安装有下送钞皮带,下送钞皮带、上送钞皮带之间相互夹紧纸币以对纸币进行输送；每一个钞箱对应一组下送钞皮带、上送钞皮带、换向组件,换向组件包括换向安装板,换向安装板固定在下送钞板底部,且换向安装板上方安装、固定有数个换向块,换向块通过换向轴与两块下送钞侧板可圆周转动装配,换向轴一端穿出其中一块下送钞侧板后与换向电磁铁的伸缩轴相切连接；换向块上分别设置有进钞弧面、过钞平面、拦截端,下送钞板与对应处安装有进钞导板。(A bank note sending module and a bank note adding machine thereof are disclosed, wherein the bank note sending module comprises a lower bank note sending plate and an upper bank note sending plate, and a bank note sending gap is formed between the upper bank note sending plate and the lower bank note sending plate; an upper banknote conveying belt is arranged in the banknote conveying gap and close to one side of the upper banknote conveying plate, a lower banknote conveying belt is arranged in the banknote conveying gap and close to one side of the lower banknote conveying plate, and banknotes are clamped between the lower banknote conveying belt and the upper banknote conveying belt to be conveyed; each cash box corresponds to a group of lower cash conveying belts, upper cash conveying belts and a reversing assembly, the reversing assembly comprises a reversing mounting plate, the reversing mounting plate is fixed at the bottom of the lower cash conveying plate, a plurality of reversing blocks are mounted and fixed above the reversing mounting plate, the reversing blocks and two lower cash conveying side plates can be assembled in a circumferential rotating mode through reversing shafts, and one end of each reversing shaft penetrates through one of the lower cash conveying side plates and then is connected with a telescopic shaft of a reversing electromagnet in a cutting mode; the reversing block is respectively provided with a banknote feeding cambered surface, a banknote passing plane and an intercepting end, and the lower banknote feeding plate and the corresponding part are provided with a banknote feeding guide plate.)

1. The utility model provides a send paper money module which characterized by: the cash-feeding device comprises a lower cash-feeding plate and an upper cash-feeding plate, wherein a cash-feeding gap is formed between the upper cash-feeding plate and the lower cash-feeding plate; an upper banknote conveying belt is arranged at one side, close to the upper banknote conveying plate, in the banknote conveying gap, a lower banknote conveying belt is arranged at one side, close to the lower banknote conveying plate, in the banknote conveying gap, and banknotes are clamped between the lower banknote conveying belt and the upper banknote conveying belt to be conveyed;

each cash box corresponds to a group of lower cash conveying belts, upper cash conveying belts and a reversing assembly, the reversing assembly comprises a reversing mounting plate, the reversing mounting plate is fixed at the bottom of the lower cash conveying plate, a plurality of reversing blocks are mounted and fixed above the reversing mounting plate, the reversing blocks and two lower cash conveying side plates can be circularly and rotatably assembled through reversing shafts, and one end of each reversing shaft penetrates through one of the lower cash conveying side plates and then is connected with a telescopic shaft of a reversing electromagnet in a cutting manner; the reversing block is respectively provided with a money inlet cambered surface, a money passing plane and an intercepting end, the money inlet guide plate is arranged at the position corresponding to the lower money conveying plate, and the intercepting end is arranged at one end, far away from the money box, of the money inlet cambered surface.

2. The banknote transport module of claim 1, wherein: in the initial state, the paper money passing plane does not enter the paper money feeding gap, and the paper money feeding cambered surface is attached and assembled with the paper money feeding guide plate.

3. The banknote transport module of claim 1, wherein: the upper banknote conveying plate and the lower banknote conveying plate are respectively provided with two banknote guide plates at one end in the banknote conveying direction, and the banknote receiving plate is arranged at the other end.

4. The banknote transport module of claim 1, wherein: the upper banknote feeding belt respectively bypasses the first banknote feeding belt wheel, the second banknote feeding belt wheel, the third banknote feeding belt wheel and the fourth banknote feeding belt wheel to form a belt transmission mechanism; last No. one send paper money band pulley, last No. two send paper money band pulley, last No. three send paper money band pulley, last No. four send paper money band pulleys to install respectively at last No. one send paper money axle, last No. two send paper money axle, last No. three send paper money axle, last No. four send paper money epaxially, but last No. one send paper money axle, last No. two send paper money axle, last No. three send paper money axle, last No. four send paper money axle respectively with fix at last send paper money curb plate circumferencial rotation assembly of both sides of board.

5. The banknote transport module of claim 4, wherein: and the upper banknote feeding plate is also provided with a belt pinch roller which is used for tightly pressing the upper banknote feeding belt.

6. The banknote transport module of claim 4, wherein: the two upper banknote conveying side plates are respectively arranged on the inner sides of the two lower banknote conveying side plates, the lower part of the corresponding position of the two lower banknote conveying side plates and the last banknote conveying shaft is also assembled with the next banknote conveying shaft in a circumferential rotating mode, one end of the next banknote conveying shaft penetrates through one lower banknote conveying side plate and then is respectively assembled and fixed with the coding disc, the second first belt wheel and the first second belt wheel, the first second belt wheel is connected with the first belt wheel through a first belt to form a belt transmission mechanism, the first belt wheel is arranged on an output shaft of the banknote conveying motor, and the banknote conveying motor is fixed inside the shell;

the second belt wheel is connected with the second belt wheel through a second belt and forms a belt transmission mechanism, the second belt wheel is installed on a lower third banknote conveying shaft, a third belt wheel is further installed on the lower third banknote conveying shaft, the third belt wheel is connected with the third second belt wheel through a third belt and forms the belt transmission mechanism, the third second belt wheel is installed on a lower fifth banknote conveying shaft, and the lower fifth banknote conveying shaft is respectively assembled with the first shaft holes formed in the two lower banknote conveying side plates in a circumferential rotation mode and provided with a connecting belt wheel.

7. The banknote transport module of claim 6, wherein: the next banknote feeding belt wheel is arranged at the position of the next banknote feeding shaft, which corresponds to the previous banknote feeding belt wheel, and the next banknote feeding belt wheel is connected with the next banknote feeding belt wheel through a lower banknote feeding belt to form a belt transmission mechanism; the lower third banknote feeding shaft is provided with another second banknote feeding belt wheel, the lower second banknote feeding belt wheel is connected with another next banknote feeding belt wheel through another lower banknote feeding belt to form a belt transmission mechanism, the next banknote feeding belt wheel is arranged on the lower fourth banknote feeding shaft, and the lower fourth banknote feeding shaft and the two lower banknote feeding side plates can be assembled in a circumferential rotating mode.

8. The banknote transport module of claim 7, wherein: and a lower connecting limiting plate is further arranged between the two lower banknote conveying side plates and at the assembly position of the lower banknote conveying plate and the pressing guide wheel, the lower connecting limiting plate is used for connecting the two lower banknote conveying side plates, and the bottom of the pressing guide wheel penetrates out of the lower connecting limiting plate and then is tightly assembled with the top of the banknote box.

9. A money adding machine is characterized in that: use of a banknote transport module according to any one of claims 1 to 8.

10. The banknote transport module of claim 9, wherein: the integrated box is provided with an opening at one side and is internally provided with an integrated box, the bottom of the shell is a bottom plate, and the integrated box is assembled with the inner wall of the shell in a drawing and sliding manner through a sliding rail; the opening of the shell is opened and closed through a box door mechanism; a paper money box is arranged in the integrated box, and a positioning driving mechanism is arranged at the bottom of the paper money box;

a banknote receiving wheel is arranged in the banknote box, the banknote receiving wheel is arranged on a banknote receiving shaft, and the banknote receiving shaft and the inner wall of the banknote box can be assembled in a circumferential rotating mode; the banknote receiving wheel is in meshing transmission with the driving wheel, the banknote receiving wheel is positioned below a gap between the banknote inlet arc surface and the banknote inlet guide plate, the driving wheel is installed on the driving shaft, a second belt wheel is also installed on the driving shaft, the driving shaft is installed on the supporting plate in a circumferential rotation mode, the supporting plate is fixed on the outer wall of the banknote box, the second belt wheel is connected with the first belt wheel through a driving belt and forms a belt transmission mechanism, the first belt wheel is fixed on an output shaft of the banknote receiving motor, and the banknote receiving motor is fixed on the supporting plate;

the box door mechanism comprises a box door, a box door through groove is formed in the box door, a box door switch plate is installed in the box door through groove, the box door switch plate is fixedly assembled with a box door shaft, a box door shaft fixing plate and a box door channel steel are respectively fixed on one side of the box door, which is positioned inside the shell, the box door shaft fixing plate seals the part, close to the inside of the shell, of the box door through groove, and the box door lock shaft and the box door shaft fixing plate can be assembled in a circumferential rotating mode;

the two ends of the box door lock shaft are fixedly assembled with a box door lock plate respectively, a box door lock groove and a box door spring hole are formed in the box door lock plate respectively, the box door lock groove is assembled with a box door lock rod in a clamping mode, and one end of the box door lock rod is fixed on the inner wall of the shell; the box door spring hole is assembled with one end of a box door tension spring in a hooking way, the other end of the box door tension spring is assembled with the box door tension spring hole in a hooking way, the box door tension spring hole is formed in a box door spring plate, and the box door spring plate is fixed on the shell;

the top of the shell is closed through the lower banknote feeding plate, and the shell is close to three side walls of the integrated box, and the lower banknote feeding plate is respectively provided with a pressing guide wheel which can rotate circumferentially; the pressing guide wheels on the inner wall of the shell are respectively pressed with three side surfaces of the integration box, and the pressing guide wheels on the lower paper money conveying plate are respectively pressed with the top surface of the paper money box.

Technical Field

The invention relates to financial equipment, in particular to a money sending module and a money adding machine thereof.

Background

In the process of dispensing paper money, a financial institution generally needs to store paper money in an independent paper money box and then deposit the paper money into the paper money box, so that the paper money is convenient to transport. However, most of the storage of the banknotes in the banknote box is performed by a large-scale and independent banknote distribution assembly line, and the device mainly aims at the condition of large-scale delivery of the banknotes. However, for some small financial institutions, the production line is too large, and the purchasing and management cost of the financial institutions is increased.

In view of the above, the applicant designs a banknote feeding module and a banknote adding machine thereof, which have a small banknote adding machine volume and can automatically add banknotes to a banknote box.

Disclosure of Invention

In view of the above-mentioned defects of the prior art, the present invention provides a banknote feeding module and a banknote adding machine thereof, wherein the banknote feeding module can select one banknote to be fed into a banknote box.

In order to achieve the aim, the invention provides a banknote feeding module which comprises a lower banknote feeding plate and an upper banknote feeding plate, wherein a banknote feeding gap is formed between the upper banknote feeding plate and the lower banknote feeding plate; an upper banknote conveying belt is arranged at one side, close to the upper banknote conveying plate, in the banknote conveying gap, a lower banknote conveying belt is arranged at one side, close to the lower banknote conveying plate, in the banknote conveying gap, and banknotes are clamped between the lower banknote conveying belt and the upper banknote conveying belt to convey the banknotes;

each cash box corresponds to a group of lower cash conveying belts, upper cash conveying belts and a reversing assembly, the reversing assembly comprises a reversing mounting plate, the reversing mounting plate is fixed at the bottom of the lower cash conveying plate, a plurality of reversing blocks are mounted and fixed above the reversing mounting plate, the reversing blocks and the two lower cash conveying side plates can be circularly and rotatably assembled through reversing shafts, and one end of each reversing shaft penetrates through one of the lower cash conveying side plates and then is connected with a telescopic shaft of a reversing electromagnet; the reversing block is respectively provided with a money inlet cambered surface, a money passing plane and an intercepting end, the money inlet guide plate is arranged at the corresponding position of the lower money conveying plate, and the intercepting end is arranged at one end of the money inlet cambered surface, which is far away from the money box.

Preferably, in the initial state, the banknote passing plane does not enter the banknote feeding gap, and the banknote feeding arc surface is attached to the banknote feeding guide plate.

Preferably, two banknote guide plates are respectively arranged at one ends of the upper banknote conveying plate and the lower banknote conveying plate in the banknote conveying direction, and a banknote receiving plate is arranged at the other end of the upper banknote conveying plate and the lower banknote conveying plate.

Preferably, the upper banknote feeding belt respectively bypasses the first banknote feeding belt wheel, the second banknote feeding belt wheel, the third banknote feeding belt wheel and the fourth banknote feeding belt wheel to form a belt transmission mechanism; last No. one send paper money band pulley, last No. two send paper money band pulley, last No. three send paper money band pulley, last No. four send paper money band pulleys to install respectively at last No. one send paper money axle, last No. two send paper money axle, last No. three send paper money axle, last No. four send paper money epaxially, but last No. one send paper money axle, last No. two send paper money axle, last No. three send paper money axle, last No. four send paper money axle respectively with fix at last send paper money lateral plate circular rotation assembly of paper money board both sides.

Preferably, the upper banknote feeding plate is further provided with a belt pressing wheel, and the belt pressing wheel is used for pressing the upper banknote feeding belt.

Preferably, the two upper banknote conveying side plates are respectively arranged on the inner sides of the two lower banknote conveying side plates, the lower parts of the corresponding positions of the two lower banknote conveying side plates and the upper banknote conveying shaft are also assembled with the lower banknote conveying shaft in a circumferential rotating mode, one end of the lower banknote conveying shaft penetrates through one of the lower banknote conveying side plates and then is respectively assembled and fixed with the coding disc, the second first belt wheel and the second first belt wheel, the second first belt wheel is connected with the first belt wheel through a first belt to form a belt transmission mechanism, the first belt wheel is arranged on an output shaft of the banknote conveying motor, and the banknote conveying motor is fixed inside the shell;

the second belt wheel is connected with the second belt wheel through a second belt and forms a belt transmission mechanism, the second belt wheel is installed on a lower third banknote conveying shaft, a third belt wheel is further installed on the lower third banknote conveying shaft, the third belt wheel is connected with the third second belt wheel through a third belt and forms the belt transmission mechanism, the third second belt wheel is installed on a lower fifth banknote conveying shaft, and the lower fifth banknote conveying shaft is respectively assembled with the first shaft holes arranged on the two lower banknote conveying side plates in a circumferential rotation mode and is provided with a connecting belt wheel.

Preferably, the next banknote feeding belt wheel is arranged at the position of the next banknote feeding shaft, which corresponds to the previous banknote feeding belt wheel, and the next banknote feeding belt wheel is connected with the next banknote feeding belt wheel through a lower banknote feeding belt to form a belt transmission mechanism; the lower third banknote conveying shaft is provided with another lower second banknote conveying belt wheel, the lower second banknote conveying belt wheel is connected with another lower first banknote conveying belt wheel through another lower banknote conveying belt and forms a belt transmission mechanism, the lower fourth banknote conveying belt wheel is arranged on the lower fourth banknote conveying shaft, and the lower fourth banknote conveying shaft and the two lower banknote conveying side plates can be assembled in a circumferential rotating mode.

Preferably, the lower connecting limiting plate is arranged between the two lower banknote feeding side plates and at the assembly position of the lower banknote feeding plate and the pressing guide wheel, the lower connecting limiting plate is used for connecting the two lower banknote feeding side plates, and the bottom of the pressing guide wheel penetrates out of the lower connecting limiting plate and then is tightly assembled with the top of the banknote box.

The invention also discloses a banknote adding machine which is applied with the banknote sending module.

Preferably, the integrated box is provided with an opening at one side and internally provided with the integrated box, the bottom of the shell is a bottom plate, and the integrated box is assembled with the inner wall of the shell in a drawing and sliding manner through a sliding rail; the opening of the shell is opened and closed through a box door mechanism; a paper money box is arranged in the integrated box, and a positioning driving mechanism is arranged at the bottom of the paper money box;

a banknote receiving wheel is arranged in the banknote box, the banknote receiving wheel is arranged on a banknote receiving shaft, and the banknote receiving shaft and the inner wall of the banknote box can be assembled in a circumferential rotating mode; the banknote receiving wheel is in meshing transmission with the driving wheel, the banknote receiving wheel is positioned below a gap between the banknote inlet arc surface and the banknote inlet guide plate, the driving wheel is installed on the driving shaft, a second belt wheel is also installed on the driving shaft, the driving shaft is installed on the supporting plate in a circumferential rotation mode, the supporting plate is fixed on the outer wall of the banknote box, the second belt wheel is connected with the first belt wheel through a driving belt to form a belt transmission mechanism, the first belt wheel is fixed on an output shaft of the banknote receiving motor, and the banknote receiving motor is fixed on the supporting plate;

the box door mechanism comprises a box door, a box door through groove is formed in the box door, a box door switch plate is installed in the box door through groove, the box door switch plate is fixedly assembled with a box door shaft, a box door shaft fixing plate and a box door channel steel are respectively fixedly arranged on one side of the box door positioned in the shell, the box door shaft fixing plate seals the part, close to the interior of the shell, of the box door through groove, and the box door lock shaft and the box door shaft fixing plate can be circumferentially and rotatably assembled;

the two ends of the box door lock shaft are fixedly assembled with a box door lock plate respectively, a box door lock groove and a box door spring hole are formed in the box door lock plate respectively, the box door lock groove is assembled with a box door lock rod in a clamping manner, and one end of the box door lock rod is fixed on the inner wall of the shell; the box door spring hole is in hooking assembly with one end of a box door tension spring, the other end of the box door tension spring is in hooking assembly with the box door tension spring hole, the box door tension spring hole is formed in a box door spring plate, and the box door spring plate is fixed on the shell;

the top of the shell is closed through the lower banknote feeding plate, and the shell is close to three side walls of the integrated box, and the lower banknote feeding plate is respectively provided with a pressing guide wheel which can rotate circumferentially; the pressing guide wheels on the inner wall of the shell are respectively pressed with three side surfaces of the integration box, and the pressing guide wheels on the lower paper money feeding plate are respectively pressed with the top surface of the paper money box.

The invention has the beneficial effects that:

1. the invention has simple structure and smaller volume, and can realize the one-by-one money adding of the two money boxes, thereby realizing the rapid money distribution. In addition, the integrated box can be pulled out of the shell independently, so that the money box is convenient to take out and replace.

2. The money conveying assembly can realize the conveying and reversing of paper money, so that the independent money adding of each money box is realized.

3. The top cover lock assembly can effectively lock the paper money sending assembly, is very convenient to unlock, and is very beneficial to later-stage maintenance.

4. The box door mechanism can realize the opening and closing of the shell, thereby facilitating the pulling out and the loading of the integrated box, and has simple structure and convenient use.

Drawings

Fig. 1-5 are schematic structural views of the present invention.

Fig. 6-9 are schematic views of the door mechanism of the present invention.

Fig. 10-16 are schematic views of the structure of the present invention.

Fig. 17 is a schematic structural diagram of a positioning driving assembly of the present invention.

Fig. 18-20 are schematic structural views of the banknote sending assembly of the present invention.

Fig. 21-25 are schematic views of the top lock assembly of the present invention.

Fig. 26-31 are schematic views of the banknote dispensing assembly of the present invention.

Fig. 32-34 are schematic views of the structure of the present invention. Wherein fig. 33 is an enlarged view at F1 in fig. 32.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 34, a money adding machine includes a housing 110, wherein one side of the housing 110 is open and an integration box 130 is installed inside the housing 110, a bottom plate 120 is arranged at the bottom of the housing 110, and the integration box 130 is assembled with the inner wall of the housing 110 through a slide rail 140, so that the integration box 130 can be pulled out of the housing 110 through the slide rail; the opening of the shell 110 is closed through a box door mechanism, the box door mechanism comprises a box door A110, a box door through groove A111 is formed in the box door A110, a box door switch plate A210 is installed in the box door through groove A111, the box door switch plate A210 and a box door shaft A220 are assembled and fixed, a box door shaft fixing plate A130 and a box door channel steel A120 are respectively fixed on one side, located inside the shell, of the box door A110, the box door shaft fixing plate A130 closes the part, close to the inside of the shell, of the box door through groove A111, and the box door lock shaft A220 and the box door shaft fixing plate A130 can be circumferentially;

the two ends of the box door lock shaft A220 are fixedly assembled with a box door lock plate A310 respectively, a box door lock groove A311 and a box door spring hole A312 are arranged on the box door lock plate A310 respectively, the box door lock groove A311 is assembled with a box door lock rod A410 in a clamping manner, and one end of the box door lock rod A410 is fixed on the inner wall of the shell 110; the door spring hole a312 is hooked with one end of a door tension spring a420, the other end of the door tension spring a420 is hooked with a door tension spring hole a431, the door tension spring hole a431 is formed in a door spring plate a430, and the door spring plate a430 is fixed to the casing 110. In use, door tension spring 420 acts to apply a rotational force to door lock plate A310 against door lock lever A410, thereby maintaining door lock slot A311 in snap fit with the door lock lever.

When the box door a110 needs to be opened, only a hand needs to be stretched into the box door lock groove a111, so that the finger can pull the box door switch plate a210 outwards, thereby driving the box door lock shaft a220 to rotate circumferentially, the box door lock shaft a220 drives the box door lock plate a310 to rotate synchronously, thereby enabling the box door lock groove a311 to rotate towards the direction far away from the box door lock rod a410 by overcoming the elasticity of the box door tension spring a420, until the box door lock groove a311 is separated from the box door lock rod a410, the box door a110 can be rotated upwards to be opened at the moment, thereby opening the opening of the shell 110, and then pulling out the integration box 130 to take, place and replace the money box.

The integrated box 130 is internally provided with a cash box 500, the bottom of the cash box 500 is provided with a positioning driving mechanism 300, and the positioning driving mechanism 300 and the cash box 500 of the embodiment can refer to the positioning driving mechanism and the cash box which are stated in the patent application of the invention on the same date as the present application and named as a manual cash adding box.

The top of the outer shell 110 is closed by a lower banknote feeding plate C182, three side walls (except for the side wall on which the box door a110 is installed) of the outer shell 110 close to the integration box 130 and the lower banknote feeding plate C182 are respectively provided with a pressing guide wheel 410, and the pressing guide wheels 410 can rotate circumferentially; the pressing guide wheels 410 on the inner wall of the shell 110 are respectively pressed against three side surfaces of the integration box, and the pressing guide wheels 410 on the lower banknote conveying plate C182 are respectively pressed against the top surface of the banknote box, so that the banknote box and the integration box can be clamped, and the friction force between the banknote box, the integration box and the pressing guide wheels can be reduced.

The lower banknote conveying plate C182 belongs to a banknote conveying module, the banknote conveying module further comprises an upper banknote conveying plate C181, a banknote conveying gap C101 is formed between the upper banknote conveying plate C181 and the lower banknote conveying plate C182, two banknote guide plates C161 are further respectively mounted at one end of the upper banknote conveying plate C181 and the lower banknote conveying plate C182 in the banknote conveying direction, and a banknote receiving plate C150 is mounted at the other end of the upper banknote conveying plate C181 and the lower banknote conveying plate C182. When in use, paper money enters the money conveying gap C101 from the space between the two money guide plates C161, then is conveyed into each money box through the reversing assembly, and if all the money boxes are full, the paper money is conveyed to the money receiving plate C150 through the money conveying gap C101 to be temporarily stacked.

An upper banknote feeding belt C540 is installed at one side, close to the upper banknote feeding plate C181, in the banknote feeding gap C101, and the upper banknote feeding belt C540 bypasses the last banknote feeding belt wheel C541, the last second banknote feeding belt wheel C542, the last third banknote feeding belt wheel C543 and the last fourth banknote feeding belt wheel C544 to form a belt transmission mechanism. The last banknote feeding belt wheel C541, the last second banknote feeding belt wheel C542, the last third banknote feeding belt wheel C543 and the last fourth banknote feeding belt wheel C544 are respectively installed on the last banknote feeding shaft C611, the last second banknote feeding shaft C612, the last third banknote feeding shaft C613 and the last fourth banknote feeding shaft C614, and the last banknote feeding shaft C611, the last second banknote feeding shaft C612, the last third banknote feeding shaft C613 and the last fourth banknote feeding shaft C614 are respectively assembled with the upper banknote feeding side plates C184 fixed on two sides of the last banknote feeding plate C181 in a circumferential rotation mode. Preferably, a belt pinch roller C545 is further mounted on the upper banknote feeding plate C181, and the belt pinch roller C545 is used for pinching the upper banknote feeding belt C540.

The two upper banknote sending side plates C184 are respectively arranged on the inner sides of the two lower banknote sending side plates C183, the lower parts of the corresponding positions of the two lower banknote sending side plates C183 and the previous banknote sending shaft C611 are also circularly assembled with the next banknote sending shaft C631, one end of the next banknote sending shaft C631 penetrates through one lower banknote sending side plate C183 and then is respectively assembled and fixed with the encoding disc C621, the second first belt wheel C521 and the first second belt wheel C512, the first second belt wheel C512 is connected with the first belt wheel C511 through the first belt C510 to form a belt transmission mechanism, the first belt wheel C511 is arranged on an output shaft of the banknote sending motor C410, and the banknote sending motor is fixed inside the shell 110; be provided with the logical groove that the several runs through on the encoding disc C621, and near the encoding disc C621 install the detection end just to the eddy current sensor C621 of encoding disc C621 terminal surface, during the use, rotate through encoding disc C621 and constantly switch logical groove and eddy current sensor C621's detection end just right to make eddy current sensor output signal of telecommunication in order to detect the encoding disc rotational speed.

The second belt wheel C521 is connected with the second belt wheel C522 through a second belt C520 to form a belt transmission mechanism, the second belt wheel C522 is installed on a lower third banknote sending shaft C633, a third belt wheel C531 is further installed on the lower third banknote sending shaft C633, the third belt wheel C531 is connected with a third second belt wheel (not shown) through a third belt C530 to form a belt transmission mechanism, the third belt wheel is installed on a lower fifth banknote sending shaft (not shown), the lower fifth banknote sending shaft is respectively assembled with a first shaft hole C1831 formed in two lower banknote sending side plates C183 in a circumferential rotation mode, and a connecting belt wheel is installed on the lower fifth banknote sending shaft.

The next banknote sending shaft C631 is provided with a next banknote sending belt wheel C551 corresponding to the previous banknote sending belt wheel C541, and the next banknote sending belt wheel C551 is connected with a next banknote sending belt wheel C552 through a lower banknote sending belt C550 to form a belt transmission mechanism; the lower third banknote sending shaft C633 is provided with another lower second banknote sending belt wheel C552, the lower second banknote sending belt wheel C552 is connected with another lower second banknote sending belt wheel C551 through another lower banknote sending belt C550 to form a belt transmission mechanism, the lower fourth banknote sending belt wheel C551 is arranged on a lower fourth banknote sending shaft C634, and the lower fourth banknote sending shaft C634 and the two lower banknote sending side plates C183 can be assembled in a circumferential rotation mode;

the top of the lower banknote conveying belt C550 enters the banknote conveying gap C101 at the side close to the lower banknote conveying plate C182, and the banknotes are clamped between the lower banknote conveying belt C550 and the upper banknote conveying belt C540 to be conveyed.

Preferably, a lower connecting limiting plate C191 is further installed between the two lower banknote feeding side plates C183 and at the assembling position of the lower banknote feeding side plate C182 and the pressing guide wheel 410, the lower connecting limiting plate C191 is used for connecting the two lower banknote feeding side plates C183, and the bottom of the pressing guide wheel 410 penetrates through the lower connecting limiting plate C191 and then is tightly assembled with the top of the banknote box 500.

In this embodiment, each banknote box corresponds to a group of lower banknote feeding belts C550 and a reversing assembly, the reversing assembly includes a reversing mounting plate C710, the reversing mounting plate C710 is fixed at the bottom of the lower banknote feeding plate C182, a plurality of reversing blocks C740 are mounted and fixed above the reversing mounting plate C710, the reversing blocks C740 are circumferentially and rotatably assembled with the two lower banknote feeding side plates C183 through a reversing shaft C720, one end of the reversing shaft C720 penetrates through one of the lower banknote feeding side plates C183 and then is connected with a telescopic shaft of the reversing electromagnet C420 in a cutting manner, that is, the telescopic shaft of the reversing electromagnet C420 is connected with an outer wall of the reversing shaft C720 in the circumferential direction in a cutting manner. This enables the reversing shaft C720 to be driven to rotate in the circumferential direction when the telescopic shaft of the reversing electromagnet C420 is moved. Thereby driving the reversing block C740 to synchronously rotate along with the reversing block C;

the reversing block C740 is provided with a banknote feeding arc surface C741, a banknote passing plane C742 and an intercepting end C743 respectively, the lower banknote feeding plate C182 and the corresponding position are provided with a banknote feeding guide plate C730, and the intercepting end C743 is arranged at one end, far away from the banknote box, of the banknote feeding arc surface C741. In the initial state, the banknote passing plane C742 does not enter the banknote feeding gap C101, and the banknote feeding arc surface C741 and the banknote feeding guide plate C730 are attached to each other. At this time, the paper money directly moves from above the paper money passing plane C742 without entering the gap between the paper money feeding arc C741 and the paper money feeding guide C730, that is, the paper money box corresponding to the reversing component does not feed paper money. When the money box corresponding to the reversing component needs to feed money, the telescopic shaft of the reversing electromagnet C420 drives the reversing shaft C720 to rotate circumferentially, so that one end of the reversing block C740, which is provided with the intercepting end C743, is tilted to cut off the money feeding gap C101, at the moment, the gap between the money feeding arc surface C741 and the money feeding guide plate C730 is opened, and the paper money can enter the gap and then is conveyed into the money box 500; thereby completing the selection of money from the money box and the money adding. After the money is added, the telescopic shaft of the reversing electromagnet driver rotates reversely to reset the reversing block C740, the reversing block C740 corresponding to the next money box tilts, and the paper money enters the next money box.

Referring to fig. 9 and 30, a banknote receiving wheel 620 is installed in the banknote box 500, the banknote receiving wheel 620 is installed on a banknote receiving shaft 730, and the banknote receiving shaft 730 and the inner wall of the banknote box 500 can be circularly and rotatably assembled; the banknote receiving wheel 620 is in meshing transmission with the driving wheel 610, the banknote receiving wheel 620 is located below a gap between the banknote inlet arc surface C741 and the banknote inlet guide plate C730, the driving wheel 610 is mounted on the driving shaft 720, a second belt wheel 712 is further mounted on the driving shaft 720, the driving shaft 720 is circumferentially and rotatably mounted on the supporting plate 810, the supporting plate 810 is fixed on the outer wall of the banknote box 500, the second belt wheel 712 is connected with a first belt wheel 711 through a driving belt 710 to form a belt transmission mechanism, the first belt wheel 711 is fixed on an output shaft of the banknote receiving motor 210, and the banknote receiving motor 210 is fixed on the supporting plate 810. When the paper money box enters paper money, the paper money receiving motor is powered on to drive the paper money receiving wheel 620 to rotate circumferentially, a plurality of paper money receiving grooves (tooth grooves) are formed in the circumferential direction of the paper money receiving wheel 620, when the paper money falls to the position of the paper money receiving wheel 620, one end of the paper money can be loaded into the paper money receiving grooves, then the paper money is driven by the paper money receiving wheel 620 to rotate to the horizontal direction and then slide out of the paper money receiving grooves under the action of gravity, and at the moment, the paper money is in a horizontal flat state (the end face is horizontal), so that the. In this embodiment, when the paper money drops to the paper money receiving wheel 620 from the gap between the paper money inlet arc surface C741 and the paper money inlet guide plate C730, the length direction of the paper money is from top to bottom, and the paper money drops from the position close to the paper money inlet guide plate C730 to the paper money receiving wheel 620, and then the paper money drops after rotating to the horizontal direction through the paper money receiving wheel 620, so that the paper money is prevented from being folded and bent in the paper money box to affect the later output.

Referring to fig. 20-25 and fig. 1-3, in actual use, the banknote feeding module needs to be periodically overhauled, and due to different old and new degrees of banknotes, folding and breakage, and the like, the banknotes are easily jammed between the upper banknote feeding belt C540 and the lower banknote feeding belt C550, or jammed in a gap between the banknote feeding arc C741 and the banknote feeding guide plate C730, which requires opening the banknote feeding gap C101, so as to clean the jammed banknotes or maintain the banknote feeding module. In view of the above, the applicant designs a top cover lock assembly, where the top cover lock assembly includes a top cover C110, a top cover through groove C111 is provided on the top cover C110, a top cover switch plate B110 is installed in the top cover through groove C111, the top cover switch plate B110 is fixed on a switch groove plate B230, the switch groove plate B230 is respectively assembled and fixed with a first top cover lock shaft B411 and a second top cover lock shaft B412, the first top cover lock shaft B411 is attached to one side of a sliding lock plate B241, and the other side of the sliding lock plate B241 is attached to the second top cover lock shaft B412;

the sliding lock piece B241 is arranged on the unlocking sliding plate B240, an unlocking pulley B330 is arranged on one side, away from the sliding lock piece B241, of the unlocking sliding plate B240, the unlocking pulley B330 is clamped and circumferentially rotatably arranged in an unlocking sliding groove B261, the unlocking sliding groove B261 is arranged on the unlocking fixing plate B260, and the unlocking fixing plate B260 is arranged on the unlocking mounting plate B620; be provided with unblock channel-section steel B210, unblock deflector B220 on the unblock fixed plate B260 respectively, be provided with unblock guide way B221 on the unblock deflector B220, first top cap lock axle B411, second top cap lock axle B412 both ends are packed into respectively in unblock guide way B221 and can be slided the assembly with it, first top cap lock axle B411 is fixed with top cap lock extension spring B310 one end assembly, and top cap lock extension spring B310 other end is packed into in unblock channel-section steel B210 and is assembled with unblock draw spring hole B211 hook. The top cover lock tension spring B310 is used for providing a pulling force for pulling the first top cover lock shaft B411 to the unlocking channel B210.

The bottom of the unlocking fixing plate B260 is provided with an upper locking plate B250, the upper locking plate B250 is provided with an upper locking shaft B251, and the upper locking shaft B251 and the upper locking groove B521 are clamped and assembled to lock the unlocking fixing plate B260 on the top cover C110;

the upper locking groove B521 is arranged at one end of the upper locking plate B520, the upper locking plate B520 is fixedly arranged on a locking plate rotating shaft B420, an unlocking side plate B530 is further fixed on the locking plate rotating shaft B420, the unlocking side plate B530 is fixed on an unlocking connecting plate B270, two locking shaft clamping grooves B271 are arranged on the unlocking connecting plate B270, and the two locking shaft clamping grooves B271 are respectively clamped and assembled with the first top cover locking shaft B411 and the second top cover locking shaft B412, so that the unlocking connecting plate B270 can be driven to synchronously move when the first top cover locking shaft B411 and the second top cover locking shaft B412 move towards the upper locking plate B520;

two ends of the locking plate rotating shaft B420 are respectively hinged with a locking mounting plate B510, the locking mounting plate B510 is fixed on an upper locking fixing plate B610, and the locking fixing plate B610 is fixed on the inner wall of the shell 110; the lock plate rotating shaft B420 is sleeved with a lock shaft torsion spring B320, and the lock shaft torsion spring B320 is used for generating a torsion force for rotating the upper lock plate B520 to the lower banknote feeding side plate C183.

The top cover C110 is fixedly assembled with the unlocking mounting plate B620 through a reinforcing channel steel B280 and an unlocking channel steel B210, the reinforcing channel steel B280 is assembled with the top cover hinged plate C120 in a hinged mode through a first top cover rotating shaft C210, a top cover torsion spring C310 is sleeved on the first top cover rotating shaft C210, and the top cover torsion spring C310 is used for generating torsion force enabling the top cover C110 to rotate towards the upper locking plate; a top cover hinge plate C120 is fixed to the top of the housing 110.

Preferably, the upper banknote conveying plate C181 is further fixedly assembled with an upper rotating shaft plate C193, the upper rotating shaft plate C193 is hinged with a lower rotating shaft plate C192 through an upper rotating shaft C220, and the lower rotating shaft plate C192 is fixed on the lower banknote conveying plate C183.

When the banknote feeding gap needs to be opened, a hand is stretched into the top cover through groove C111, then the top cover switch plate B110 is pulled towards the direction far away from the unlocking channel steel by fingers to overcome the elastic force of the top cover lock tension spring B310, so that the unlocking connecting plate B270 drives the upper locking plate B520 and the locking plate rotating shaft B520 to rotate towards the direction far away from the upper banknote inlet side plate C184, the upper locking groove B521 is separated from the upper locking shaft B251, and at the moment, the top cover C110, the unlocking mounting plate B620 and parts mounted on the top cover and the unlocking mounting plate B620 can be rotated by taking the first top cover rotating shaft C210 as the center. Then, the upper banknote feeding plate C181 may be rotated and opened around the upper rotating shaft C220, thereby opening the banknote feeding gap C101 for easy maintenance and repair.

The invention is not described in detail, but is well known to those skilled in the art.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. 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.