CN107195135B - Coin conveying processing device and automatic teller machine - Google Patents

Abstract

The embodiment of the invention provides a coin conveying and processing device and an automatic teller machine, wherein the coin conveying and processing device comprises: coin input/output device, identification device, temporary storage device, first blade, a plurality of transmission wheelsets and a plurality of spacing subassembly. The first conveying port of the coin input and output device is connected with the first conveying port of the identification device through a guide rail. The first blade is rotationally connected with a first conveying port of the input and output device, each limiting assembly is located at a corresponding conveying wheel set, and the first end of each limiting assembly faces the second end of the adjacent limiting assembly. The limit assemblies are used for limiting the conveying direction of the coins during conveying among the conveying wheel sets, so that the coins can be smoothly conveyed to the devices, the radian problem caused by the guide rail is avoided, the manufacturing cost of the automatic teller machine is effectively reduced, and further miniaturization of the automatic teller machine is realized.

Description

Coin conveying processing device and automatic teller machine

Technical Field

The invention belongs to the technical field of cash recycling machines, and particularly relates to a coin conveying and processing device and an automatic cash recycling machine.

Background

With the continuous development and improvement of science and technology, the automatic teller machine is widely applied in society.

Coin receiving devices in automatic teller machines are important devices for storing coins. The automatic teller machine can extract the money stored in the money storage box in the money storage device so as to realize the operation of taking the money by a user, and can also place the received money into the money storage box in the money storage device so as to realize the operation of saving the money by the user.

At present, all devices in the automatic teller machine can be connected through an arc-shaped guide rail so as to realize the smoothness of coin conveying to all devices and prevent the occurrence of a coin card machine. However, the arc-shaped guide rail tends to increase the cost of the automatic teller machine, and the arc of the guide rail also seriously hampers the development of miniaturization of the automatic teller machine.

Disclosure of Invention

In view of the above, an object of the present invention is to provide a money transporting and handling device and an automatic teller machine that can effectively improve the above-described drawbacks.

Embodiments of the present invention are achieved by:

in a first aspect, an embodiment of the present invention provides a money transfer processing apparatus including: coin input/output device, identification device, temporary storage device, first blade, a plurality of transmission wheelsets and a plurality of spacing subassembly. The first conveying port of the coin input/output device is connected with the first conveying port of the identification device through a guide rail, a plurality of conveying wheel sets are sequentially arranged to form an arc-shaped structure, the conveying wheel set at the first end of the arc-shaped structure is located at the second conveying port of the coin input/output device, the other conveying wheel set at the first end of the arc-shaped structure is located at the second conveying port of the identification device, the first blade and the first conveying port of the input/output device are rotationally connected, the first end of the first blade is close to the first end of the arc-shaped structure, the second end of the first blade is close to the conveying port of the temporary storage device, each limiting assembly is located at a corresponding conveying wheel set, and the first end of each limiting assembly faces the second end of the adjacent limiting assembly. Further, each of the transmission wheel sets includes: the first transmission wheel is attached to the second transmission wheel.

Further, the first transfer wheel includes: the first wheel plates are sequentially arranged side by side, and the first connecting shafts sequentially penetrate through the centers of the first wheel plates side by side to fixedly connect each first wheel plate.

Further, the second transfer wheel includes: the second wheel plates are sequentially arranged side by side, and the second connecting shafts sequentially penetrate through the centers of the second wheel plates side by side to fixedly connect each second wheel plate.

Further, each of the spacing assemblies includes: the first limiting plates are located at the center of the first transmission wheel, the second limiting plates are located at the center of the second transmission wheel, the first ends of the first limiting plates face the second ends of the first limiting plates adjacently, and the first ends of the second limiting plates face the second ends of the second limiting plates adjacently.

Further, the distance between the first end of the first limiting piece and the second end of the second limiting piece in each limiting assembly is reduced towards the direction close to the transmission wheel set, and the distance between the first end of the first limiting piece and the second end of the second limiting piece in each limiting assembly is reduced towards the direction close to the transmission wheel set.

Further, the distance between the center of each of the transport wheel sets and the center of the adjacent transport wheel set is less than 1/2 of the banknote length.

Further, the number of the transmission wheel sets is 4.

Further, the money transporting and processing device further includes: the first conveying port of the identification device is connected with the conveying port of the storage device through a guide rail, and the second blade is positioned at the first conveying port of the identification device.

In a second aspect, embodiments of the present invention provide an automated teller machine comprising: the cash recycling machine body and the coin conveying and processing device are arranged in the cash recycling machine body.

The embodiment of the invention has the beneficial effects that:

when the coins are transmitted among the coin input and output device, the identification device and the temporary storage device, the rotary transmission is realized by a plurality of transmission wheel sets which form a simple arc-shaped structure. The limit assemblies limit the conveying direction of the coins during conveying among the conveying wheel sets, so that the coins can be smoothly conveyed to the devices, the radian problem caused by the guide rail is avoided, the manufacturing cost of the automatic teller machine is effectively reduced, and further miniaturization of the automatic teller machine is realized.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the embodiments of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. The above and other objects, features and advantages of the present invention will become more apparent from the accompanying drawings. Like reference numerals refer to like parts throughout the several views of the drawings. The drawings are not intended to be drawn to scale, with emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a schematic diagram of an ATM according to an embodiment of the present invention;

fig. 2 is a schematic view showing a first structure of a money transporting and processing device according to an embodiment of the present invention;

fig. 3 is a schematic view showing a second structure of a money transporting and processing device according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a transport wheel set in a money transporting and processing device according to an embodiment of the present invention.

Icon: 10-an automated teller machine; 11-a cash recycler body; 100-a money transporting and processing device; 110-coin input and output device; 120-authentication means; 130-temporary storage device; 140-first blade; 150-a storage device; 151-a storage unit; 152-third blade; 160-second blades; 170-a transmission wheel set; 171-a first transfer wheel; 1711-first round piece; 1712-a first connection shaft; 172-a second transfer wheel; 1721-second round pieces; 1722-a second connecting shaft; 180-limiting components; 181-a first limiting piece; 182-second limiting piece.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "left", "right", "parallel", "horizontal", "middle", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships that are conventionally put in use of the inventive product, are merely for convenience in describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present invention.

Furthermore, the terms "horizontal," "vertical," "overhang," and the like do not denote a requirement that the component be absolutely horizontal or overhang, but rather may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

The terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to FIG. 1, an embodiment of the present invention provides an ATM 10, the ATM 10 comprising: a depositing and dispensing machine body 11 and a money transporting and processing device 100.

The depositing and dispensing machine body 11 is a main body of the automatic depositing and dispensing machine 10. The depositing and dispensing machine body 11 has an interactive interface with display capability and operation capability, so that a user can control the automatic depositing and dispensing machine 10 to generate a control signal through the interactive interface, and control the money transporting and processing device 100 through the control signal, and the functions of depositing, withdrawing, transferring money and the like of the automatic depositing and dispensing machine 10 can be realized through the money transporting and processing device 100. The depositing and dispensing machine body 11 also has a corresponding cavity therein for mounting the money transfer processing apparatus 100. The money depositing and dispensing device in the money depositing and dispensing machine main body 11 is embedded in the money transporting and processing device 100. When the depositing and dispensing machine body 11 acquires a deposit instruction or a withdrawal instruction from the user, the depositing and dispensing machine body 11 generates a control instruction to the money transporting and processing device 100 based on the deposit instruction. The money transfer processing apparatus 100 recognizes the placement of money deposited by the user based on the control instruction, stores recognized money, and returns unidentified money. The depositing and dispensing machine main body 11 also generates a control command to the money transporting and processing device 100 based on the withdrawal command. The money transfer processing apparatus 100 takes out the stored money according to the control instruction and transfers the money to the interactive interface, so that the user obtains the taken out money through the interactive interface.

Referring to fig. 2, an embodiment of the present invention provides a money transporting and processing device 100, where the money transporting and processing device 100 includes: coin input output device 110, authentication device 120, escrow device 130, first blade 140 storage device 150, second blade 160, transport wheel assembly 170, and stop assembly 180.

The coin input/output device 110 is installed in the housing of the coin conveying processing device 100 in a fixed connection manner, and the fixed connection manner is not particularly limited in this embodiment. The money input-output device 110 is used to input or output money. Specifically, the money item input/output device 110 may be provided with 3 conveyance ports, which are a first conveyance port, a second conveyance port, and a third conveyance port of the money item input/output device 110, respectively. The first delivery port of the money input/output device 110 is connected to the discriminator 120 through a guide rail, and when the money input/output device 110 obtains a deposit control command, the money input/output device 110 receives the money deposited by the user through the third delivery port, and the banknote is delivered to the discriminator 120 through the first delivery port and the guide rail by an internal transmission mechanism. And receives the money unrecognizable by the authentication device 120 inputted by the transfer wheel set 170 through the second delivery port, and returns the unrecognizable money to the user through the third delivery port. In addition, the coin input/output device 110 obtains a withdrawal control instruction, and the coin input/output device 110 further receives the coins input by the transport wheel set 170 through the second transport port, and then transports the coins to the user through the third transport port, so as to realize withdrawal.

The discriminating device 120 is installed in the housing of the money transporting processing device 100 in a fixed connection manner, and the fixed connection manner is not particularly limited in this embodiment. In this embodiment, the discriminating device 120 is installed below the money transporting and processing device 100 with a certain distance from the money transporting and processing device 100. The first delivery port of the discriminator 120 is connected to the first delivery port of the money transfer processing device 100 via a rail. When the discriminating device 120 acquires a control instruction of deposit, the discriminating device 120 sequentially receives each money item to be discriminated through the first transporting port. When the identification device 120 identifies that the money is identifiable, the identification device 120 sends identifiable information to the cash recycling machine body, and when the identification device 120 identifies that the money is not identifiable, the identification device 120 sends unidentifiable information to the cash recycling machine body, and finally, the second conveying port of the identification device 120 sequentially outputs each identified money to the conveying wheel set 170. The first delivery port of the identifying device 120 is also connected to the delivery port of the storage device 150 through a guide rail, so that deposit is made on the user, and each time the identifying device 120 identifies a coin, the corresponding identification accumulated number information is sent to the cash recycling machine body, and the cash recycling machine body determines whether the identification is finished based on the accumulated number information. When it is determined that the authentication is completed, the authentication device 120 sequentially receives each money item inputted from the temporary storage device 130 through the transfer wheel set 170 through the second transfer port, and the first transfer port of the authentication device 120 sequentially transfers each money item to the storage device 150 through the guide rail for storage. When the discriminating device 120 acquires the withdrawal control instruction, the first delivery port of the discriminating device 120 sequentially acquires the coins output from the storage device 150 through the guide rail, and the second delivery port of the discriminating device 120 sequentially outputs each coin to the transport wheel set 170.

The temporary storage device 130 is installed in the casing of the money transporting and processing device 100, and may be installed in a fixed connection manner, and the fixed connection manner is not particularly limited in this embodiment. In this embodiment, the temporary storage 130 is installed above the money transporting and processing device 100 and spaced apart from the money transporting and processing device 100 by a certain distance. In addition, the first blade 140 is installed at the first delivery port of the money input-output device 110 and is rotatably connected at the first delivery port of the money input-output device 110, and the manner of rotation connection thereof is not particularly limited in this embodiment. The escrow device 130 and the first blade 140 can cooperate to effect escrow of coins. Specifically, the first end of the first blade 140 is close to the conveying wheel set 170, and the second end of the first blade 140 is close to the conveying port of the temporary storage device 130. In the initial state, the first end of the first blade 140 is located above the path between the transport wheel set 170 and the first delivery port of the money item input output device 110. When the cash recycling machine body obtains the identifiable information of the identifying device 120, the cash recycling machine body drives the first blade 140 to rotate anticlockwise, so that the first end of the first blade 140 is located between the transmission wheel set 170 and the first conveying port of the coin input/output device 110. At this time, the path between the transport wheel set 170 and the first transporting port of the money input/output device 110 is blocked by the first blade 140, and each identifiable money transported by the transport wheel set 170 changes the transporting direction by the limit of the first blade 140, so that each identifiable money is transported to the transporting port of the temporary storage device 130 and is temporarily stored in the temporary storage device 130. Every time the temporary storage device 130 acquires a piece of money, the temporary storage device 130 sends acquisition information to the cash recycling machine body so that the cash recycling machine body drives the first blade 140 to restore to an initial rotation state. When the cash recycling machine body judges that the authentication is finished, the cash recycling machine body drives the first blade 140 to rotate anticlockwise, so that the first end of the first blade 140 is located between the transmission wheel set 170 and the first conveying port of the coin input/output device 110. At this time, the escrow device 130 delivers the escrow money out under the control of the cash dispenser body, and the escrow money is delivered to the transport wheel set 170 by the first blade 140.

The storage device 150 is installed in the housing of the money transporting processing device 100 in a fixed connection manner, and the fixed connection manner is not particularly limited in this embodiment. In this embodiment, the storage device 150 is installed below the authentication device 120 and spaced apart from the authentication device 120 by a certain distance. The delivery port of the storage device 150 is connected to the first delivery port of the authentication device 120 by a rail. Further, a second blade 160 is installed at the first delivery port of the authentication device 120 to achieve cooperation of the storage device 150 and the authentication device 120 in delivering money items through the second blade 160. Specifically, the second blade 160 is initially in a state parallel to the horizontal plane. When the depositing and dispensing machine body determines that authentication is completed, the depositing and dispensing machine body drives the second blade 160 to rotate clockwise so that the first end of the second blade 160 is positioned on the guide rails of the authentication device 120 and the money input-output device 110. At this time, the money item output from the first delivery port of the discriminator 120 is input to the delivery port of the storage 150 through the guide rail due to the restriction of the second blade 160.

Referring to fig. 3, in the present embodiment, the storage device 150 includes: a plurality of storage units 151 and a plurality of third blades 152, wherein the number of storage units 151 and the number of third blades 152 are the same, and the plurality of storage units 151 are sequentially installed in the housing of the money transporting processing device 100 in the horizontal direction. The guide rail between the storage device 150 and the authentication device 120 is divided into a plurality of sub-guide rails of the same number as the storage units 151 when approaching the storage device 150, each sub-guide rail is connected to the delivery port of a corresponding one of the storage units 151, each storage unit 151 delivery port is installed at the bifurcation port of a corresponding sub-guide rail, and the initial state of each third blade 152 is that the first end of the third blade 152 is not in contact with the corresponding sub-guide rail. The cash recycling machine body rotates the third blade 152 correspondingly according to the amount of money stored in each storage unit 151. As one embodiment, when the authentication device 120 outputs money to the storage device 150 for storage, the money is transported to each storage unit 151 for storage. When the cash recycling machine body determines that the coin storage of a certain storage unit 151 is saturated, the third blade 152 corresponding to the storage unit 151 is controlled to rotate clockwise to the sub-guide rail. The path of the storage unit 151 is closed by the corresponding third blade 152, and the input money is transferred to the other unsaturated storage unit 151. In addition, when the cash recycling machine body generates a control instruction for recycling, the small-stored-coin storage unit 151 is preferentially controlled by the cash recycling machine body, so that coins are output to the sub-guide rail of the delivery outlet of the storage unit 151, and further, the operation of taking out the coins by a user is realized.

Referring to fig. 3 and 4, the transport roller sets 170 are multiple sets, and the transport roller sets 170 are installed in the casing of the money transporting and processing device 100 and located between the money input/output device 110 and the discriminating device 120, so as to realize the function of transporting money between the input/output device and the discriminating device 120. In this embodiment, the plurality of transmission wheel sets 170 are sequentially arranged to form an arc structure. It is understood that the plurality of transmission wheel sets 170 are sequentially arranged to form an arc structure, that is, the center point of each transmission wheel set 170 may be located on a section of arc. As one way, if the number of the transport wheel sets 170 is too large, the manufacturing cost is increased, but if the number of the transport wheel sets 170 is too small, smoothness of the transport of money through the transport wheel sets 170 is affected. Preferably, the number of the transmission wheel sets 170 is four, and the radian of the arc-shaped structure formed by sequentially arranging the four transmission wheel sets 170 is 180 degrees. In this embodiment, the transmission wheel set 170 at the first end of the arc structure is located at the second conveying opening of the money input/output device 110, and the other transmission wheel set 170 at the second end of the arc structure is located at the second conveying opening of the identification device 120. In addition, the distance between the centers of every two adjacent transport wheel sets 170 is the same, and the distance between the center of each transport wheel set 170 and the center of an adjacent transport wheel set 170 is less than 1/2 of the banknote length. It can also be understood that the distance between the center of each transport wheel set 170 and the center of the adjacent transport wheel set 170 is less than 1/2 of the length of the banknote, that is, when each banknote is transported in four transport wheel sets 170, no matter where the banknote is located, at least two transport wheel sets 170 are transporting the banknote, so that smoothness of banknote transportation is effectively ensured.

Each transfer wheelset 170 includes: a first transfer wheel 171 and a second transfer wheel 172, wherein the first transfer wheel 171 and the second transfer wheel 172 of each transfer wheel set 170 are in engagement. When the transport wheel sets 170 transport coins, each coin enters the joint of the first transport wheel 171 and the second transport wheel 172 of each transport wheel set 170, and then each transport wheel set 170 realizes the transport of each coin by the reverse rotation of the first transport wheel 171 and the second transport wheel 172 of the transport wheel set 170.

In this embodiment, the first transfer wheel 171 in each transfer wheel set 170 includes: a first wheel 1711 and a first connection shaft 1712, wherein the first wheel 1711 is a plurality. The plurality of first wheel pieces 1711 are sequentially arranged side by side in the horizontal direction, and each first wheel piece 1711 is separated from the adjacent first wheel piece 1711 by a certain distance, so as to effectively reduce the manufacturing materials and cost of the first transmission wheel 171. The first connecting shaft 1712 passes through the center of each first wheel piece 1711 side by side in sequence to form the first transfer wheel 171 in the transfer wheel set 170 by fixedly connecting each first wheel piece 1711. The second transfer wheel 172 in each transfer wheel set 170 includes: a second wheel 1721 and a second connecting shaft 1722, wherein the second wheel 1721 is also a plurality. The plurality of second wheel segments 1721 are arranged side by side in the horizontal direction, and each second wheel segment 1721 is spaced apart from the adjacent second wheel segment 1721 by a certain distance, so as to effectively reduce the manufacturing materials and cost of the second transfer wheel 172. A second connecting shaft 1722 also passes through the center of each of the second wheel plates 1721 side by side in sequence to form the second transfer wheel 172 of the transfer wheel set 170 by fixedly connecting each of the second wheel plates 1721.

The number of the spacing assemblies 180 is a plurality, in this embodiment 4, which matches the number of the transmission wheel sets 170. Each spacing component 180 is installed in the casing of the money transporting and processing device 100, each spacing component 180 is located on a corresponding one of the transmission wheel sets 170, and the first end of each spacing component 180 faces the second end of the adjacent spacing component 180, so that a spacing effect is formed when the money on the transmission wheel set 170 is transported to the adjacent transmission wheel set 170 through the orientation of the first end of the spacing component 180. Specifically, each of the spacing assemblies 180 includes: a first limit piece 181 and a second limit piece 182. The first stop tab 181 of each stop assembly 180 is mounted in the housing of the money transfer processing device 100 and is positioned at the center of the first transfer wheel 171 of the transfer wheel set 170 where the stop assembly 180 is located. The second stop tab 182 of each stop assembly 180 is also mounted in the housing of the money item handling device 100 and is centered on the second transfer wheel 172 of the transfer wheel set 170 where the stop assembly 180 is located. The first end of each first limiting piece 181 faces the other second end of the adjacent first limiting piece 181, and the first end of each second limiting piece 182 faces the second end of the adjacent second limiting piece 182. Each first limiting piece 181 and each first limiting piece 181 are bent, the angle of the bent shape is 120 degrees, and then the limit of each limiting component 180 enables the coin to change the 60-degree transmission direction when the corresponding transmission wheel set 170 is transmitted, so that the transmission direction of the coin is changed by 360 degrees through the limit of the 4 limiting components 180. In addition, the distance between the first end of the first limiting plate 181 and the first end of the second limiting plate 182 in each limiting assembly 180 is reduced towards the direction close to the transmission wheel set 170, and the distance between the second end of the first limiting plate 181 and the second end of the second limiting plate 182 in each limiting assembly 180 is reduced towards the direction close to the transmission wheel set 170.

The working principle of the coin conveying processing device 100 provided in this embodiment is as follows:

when the user deposits, the money input-output device 110 receives the money deposited by the user through the third transporting port, and the money is transported to the discriminating device 120 through the first transporting port and the guide rail by the internal transmission mechanism. The discriminating device 120 sequentially receives each coin to be discriminated through the first delivery port, and the second delivery port of the discriminating device 120 sequentially outputs each recognized coin to the transport wheel set 170 at the other first end of the arc structure. The transport wheel set 170 at the first end of the arc structure transports each identified money item to the temporary storage device 130 through the first blade 140 for temporary storage, and transports each unidentified money item to the second transport port of the money item input/output device 110, so that the third transport port of the money item input/output device 110 returns each unidentified money item to the user. After the user finishes all the discrimination of the money stored for the first time, the conveying port of the temporary storage device 130 conveys the temporarily stored money to the conveying wheel set 170 at the first end of the arc-shaped structure through the first blade 140, so that the money is conveyed to the second conveying port of the discrimination device 120 through the four conveying wheel sets 170 and the limit conveying of the four limit components 180 by the conveying wheel set 170 at the second end of the arc-shaped structure. The first delivery port of the validator 120 then delivers money items through the second blade 160 to the storage device 150 for storage.

When a user withdraws money, the money stored in the storage device 150 is conveyed to the first conveying port of the identifying device 120 through the guide rail, and then the money is output to the conveying wheel set 170 at the second end of the arc-shaped structure through the second conveying port of the identifying device 120. Through the spacing transportation of four transmission wheelsets 170 and four spacing subassemblies 180, all carry the coin to the second delivery port of coin input output device 110 by the transmission wheelset 170 of the first end of arc structure, output the coin to the user by the third delivery port of coin input output device 110 at last.

In summary, the embodiment of the invention provides a coin conveying and processing device and an automatic teller machine, the coin conveying and processing device includes: coin input/output device, identification device, temporary storage device, first blade, a plurality of transmission wheelsets and a plurality of spacing subassembly. The first conveying port of the coin input and output device is connected with the first conveying port of the identification device through a guide rail. The plurality of transmission wheel sets are sequentially arranged to form an arc-shaped structure, the transmission wheel set at the first end of the arc-shaped structure is positioned at the second conveying port of the coin input and output device, and the other transmission wheel set at the second end of the arc-shaped structure is positioned at the second conveying port of the identification device. The first blade is rotationally connected with the first conveying port of the input and output device, the first end of the first blade is close to the first end of the arc-shaped structure, the second end of the first blade is close to the conveying port of the temporary storage device, each limiting component is located at a corresponding conveying wheel set, and the first end of each limiting component faces the second end of the adjacent limiting component.

When the coins are transmitted among the coin input and output device, the identification device and the temporary storage device, the rotary transmission is realized by a plurality of transmission wheel sets which form a simple arc-shaped structure. The limit assemblies limit the conveying direction of the coins during conveying among the conveying wheel sets, so that the coins can be smoothly conveyed to the devices, the radian problem caused by the guide rail is avoided, the manufacturing cost of the automatic teller machine is effectively reduced, and further miniaturization of the automatic teller machine is realized.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A money transfer processing apparatus, comprising: the coin input and output device, the identification device, the temporary storage device, the first blade, the plurality of transmission wheel sets and the plurality of limiting components; the first conveying port of the coin input and output device is connected with the first conveying port of the identification device through a guide rail, a plurality of conveying wheel sets are sequentially arranged to form an arc-shaped structure, the conveying wheel set at the first end of the arc-shaped structure is positioned at the second conveying port of the coin input and output device, the other conveying wheel set at the first end of the arc-shaped structure is positioned at the second conveying port of the identification device, the first blade is rotationally connected with the first conveying port of the input and output device, the first end of the first blade is close to the first end of the arc-shaped structure, the second end of the first blade is close to the conveying port of the temporary storage device, each limiting assembly is positioned at a corresponding conveying wheel set, and the first end of each limiting assembly faces the second end of the adjacent limiting assembly;

wherein each of the transfer wheel sets comprises: the first transmission wheel is attached to the second transmission wheel; each of the spacing assemblies includes: the first limiting plates are positioned at the center of the first transmission wheel, the second limiting plates are positioned at the center of the second transmission wheel, the first ends of the first limiting plates face the second ends of the adjacent first limiting plates, and the first ends of the second limiting plates face the second ends of the adjacent second limiting plates; the distance between the first end of the first limiting piece and the first end of the second limiting piece in each limiting assembly is reduced towards the direction approaching the transmission wheel set, and the distance between the second end of the first limiting piece and the second end of the second limiting piece in each limiting assembly is reduced towards the direction approaching the transmission wheel set.

2. The money transfer handling apparatus of claim 1 wherein the first transfer wheel comprises: the first wheel plates are sequentially arranged side by side, and the first connecting shafts sequentially penetrate through the centers of the first wheel plates side by side to fixedly connect each first wheel plate.

3. A money transfer handling apparatus according to claim 1, wherein the second transfer wheel comprises: the second wheel plates are sequentially arranged side by side, and the second connecting shafts sequentially penetrate through the centers of the second wheel plates side by side to fixedly connect each second wheel plate.

4. A money handling apparatus according to claim 1, wherein the distance between the centre of each said transport wheel set and the centre of an adjacent said transport wheel set is less than 1/2 of the length of a banknote.

5. A money transfer handling apparatus according to claim 1, wherein the number of transfer wheel sets is 4.

6. The money transfer processing device of claim 1, further comprising: the first conveying port of the identification device is connected with the conveying port of the storage device through a guide rail, and the second blade is positioned at the first conveying port of the identification device.

7. An automated teller machine, the automated teller machine comprising: a cash recycling machine body and a money transporting processing device as recited in any one of claims 1-6, the money transporting processing device being mounted within the cash recycling machine body.

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