KR20110092499A - Automatic teller machine - Google Patents

Abstract

Financial automation device of the present invention, the media transfer unit for transferring the paper medium supplied from the medium storage unit for storing the paper media; And a media carrier disposed at a rear end region of the media conveying part through which the paper medium is discharged, and on which paper media discharged from the media conveying part are stacked. And a media carrier comprising: a first carrier having a first belt portion for conveying a paper medium; And a second belt portion rotatably axially coupled to the first carrier and positioned above the first carrier when the paper medium is stacked from the medium conveying portion, the second belt portion being mounted at a corresponding position with the first belt portion, and the medium from the medium conveying portion. And a second carrier having a contact retardation portion that is selectively repositioned to prevent the paper medium from contacting the belt of the second belt portion when the paper medium is conveyed into the carrier. According to the present invention, when the paper medium is stacked from the medium conveying portion to the medium carrier, it is possible to prevent the paper medium and the belt from contacting by the contact blocking portion, so that the paper medium can be accurately stacked in the medium carrier. .

Description

Financial Teller Machine {Automatic Teller Machine}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a financial automation device, and more particularly, when a paper medium is stacked from a medium conveying unit to a medium carrier, the contact blocking unit can prevent the paper medium and the belt from contacting the paper. A financial automation device in which media can be accurately stacked in a media carrier.

In general, Automatic Teller Machines (ATMs) can provide basic financial services such as cash and check deposits and withdrawals by credit card or bankbook without the need for a bank employee regardless of time and place. It is an automated device.

Recently, the use of financial automation devices is expanding in not only financial institutions such as banks, but also convenience stores, department stores, and public places.

In addition, financial automated devices can be classified into withdrawal machines, deposit machines and withdrawal machines according to whether or not they are withdrawn or withdrawn.In recent years, financial automation devices have been used for various purposes such as cash withdrawal, withdrawal, withdrawal, bankbook payment, giro fee payment and ticket release. It is used.

Referring to the schematic configuration of the financial automation device used as a withdrawal machine among such financial automation devices, the financial automation device includes a media storage unit for storing paper media such as cash, and a paper media supplied from the media storage unit. And a media conveying unit for conveying the paper medium received from the media conveying unit to the withdrawal unit, and a conveying unit position adjusting unit for adjusting the media conveying unit with the withdrawal unit.

Among these, when the configuration of the medium conveying unit is described in detail, the medium conveying unit is axially coupled to one side of the first conveying unit, which is positioned at the conveying unit position adjusting unit, and is approached or spaced apart from the first conveying unit. And a second conveying portion for temporarily stacking a paper medium in a space between the conveying portions.

The first conveying part and the second conveying part may be provided with corresponding belt parts, and the paper media stacked therein may be discharged to the withdrawal part. Therefore, in order to prevent the paper medium from being pushed when moving the paper medium, the belt provided in the belt part is made of a rubber or the like having a predetermined frictional force.

However, in the conventional financial automation device, when the paper medium is transferred from the medium conveying part to the medium conveying part, the paper medium collides with the guide part provided inside the medium conveying part and then is stacked on the upper surface of the first conveying part. Heavy paper media may fall before being hit by the belt of the belt part and hit the medium guide part, and may be caught between the medium conveying part and the medium conveying part. In other words, as described above, the belt portion having the predetermined frictional force may interfere with the accurate stacking of the paper medium, so that the paper medium may be sandwiched between the medium conveying part and the medium conveying part.

Thus, when the paper medium is transferred from the medium conveying part to the medium conveying part, it is possible to prevent the interference by the belt, and accordingly, there is a need for the development of a financial automation device having a new structure so that the stack of the paper medium can be made accurately.

It is an object of the present invention to prevent contact between the paper medium and the belt by the contact blocking portion when the paper medium is stacked from the medium conveying portion to the medium carrier, so that the paper medium can be accurately fixed in the medium carrier. It is to provide a financial automation device that can be stacked.

In addition, another object of the present invention is to provide a financial automation device capable of preventing a paper medium from being pulled out or pinched into a space between a medium transporting unit and a medium carrier by accurately stacking a paper medium in a medium carrier.

According to an aspect of the present invention, there is provided a financial automation device comprising: a media conveying unit configured to convey the paper media supplied from a media storage unit storing paper media; And a media carrier disposed at a rear end region of the media conveying part through which the paper medium is discharged, and stacking paper media discharged from the media conveying part, wherein the media carrier is configured to convey the paper medium. A first carrier having a first belt portion; And a second belt portion rotatably coupled to the first carrier and positioned above the first carrier when the paper medium is stacked from the medium conveying portion and mounted at a corresponding position with the first belt portion. And a second carrier having a contact stopper that is selectively repositioned to prevent contact of the paper carrier with the belt of the second belt part when the paper carrier is transferred from the medium carrier into the media carrier. have.

With this arrangement, when the paper medium is stacked from the medium conveying portion to the medium carrier, it is possible to prevent the paper medium and the belt from contacting by the contact blocking portion, so that the paper medium can be accurately stacked in the medium carrier. .

Here, the second carrier further includes a second carrier body on which the second belt part and the contact blocking part are mounted, and the contact blocking part is axially rotatable to one side of the second carrier body and is self-contained. Rotating member to maintain the rotation state downward by the weight; And it may include a limiting member provided on the rotating member to limit the rotation range of the rotating member.

When the paper medium is stacked from the medium conveying part to the medium carrier, the lower end of the rotating member is located below the lower end of the belt, thus preventing the paper medium from contacting the belt.

The rotating member may include a rotating part disposed inside the belt and axially rotating around an engagement portion with a second carrier body; And a pair of contact blocking wings which are formed along both side surfaces of the rotating part and cover the side of the belt or maintain the elevated state from the belt according to the position of the second carrier with respect to the first carrier. can do.

The limiting member is provided on both upper sides of the rotating member, and has a moving hole penetrating along the rotational direction of the rotating member, and a portion of the second belt part is coupled to the moving hole to the limiting member. It is possible to limit the range of rotation of the rotating member by this, thereby preventing the contact blocking portion from interfering with other components.

The contact blocking unit is integrally formed, and is made of a plastic material having a relatively small frictional magnitude compared to the belt of the second belt unit, so that when the paper medium is introduced into the stack space of the media carrier, the paper medium is connected to the contact blocking unit. Can be prevented from moving.

The second belt portion may be rotatably coupled to an inner portion and an outer portion of the second carrier body, and a pair of pulleys to which the belt is cyclically coupled; And a pressing member mounted to the second carrier body so as to be positioned between the belts and urging a portion of the belt moving inwardly to move the inner region of the second carrier body, thus stacking within the stack space. Paper media can be firmly supported.

The pressing member may include a leaf spring in which an elastic force is generated in a direction of pressing the paper medium stacked on the medium carrier; And a press roller coupled to the leaf spring to support movement of the belt.

According to an embodiment of the present invention, when the paper medium is stacked from the medium conveying part to the medium carrier, it is possible to prevent the paper medium and the belt from contacting by the contact blocking part, so that the paper medium is in the medium carrier. Can be stacked exactly at

In addition, according to an embodiment of the present invention, the stacking operation of the paper medium in the media carrier is performed accurately, thereby preventing the phenomenon of the paper medium falling out or pinching into the space between the medium transporting unit and the medium carrier.

1 is a view schematically showing the configuration of a financial automation device according to an embodiment of the present invention.
FIG. 2 is an enlarged view of part II of FIG. 1.
3 is a perspective view of the media carrier shown in FIG.
4 is a perspective view of the first carrier shown in FIG. 3.
FIG. 5 is a perspective view of the second carrier shown in FIG. 3 viewed from another direction.
FIG. 6 is a view showing a state of a contact blocking unit when a paper medium is stacked with the media carrier shown in FIG.
7 is a view showing a state of the contact blocking portion when the medium carrier of FIG. 3 moves to the withdrawal portion or the like.
8 is a view illustrating the contact blocking unit shown in FIG. 3 independently.

Hereinafter, configurations and applications according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following description is one of several aspects of the patentable invention and the following description forms part of the detailed description of the invention.

In the following description, well-known functions or constructions are not described in detail for the sake of clarity and conciseness.

1 is a view schematically showing a configuration of a financial automation device according to an embodiment of the present invention, FIG. 2 is an enlarged view of part II of FIG. 1, and FIG. 3 is a perspective view of the media carrier shown in FIG. 2. 4 is a perspective view of the first carrier shown in FIG. 3, FIG. 5 is a perspective view of the second carrier shown in FIG. 3 viewed from another direction, and FIG. 6 is a media carrier shown in FIG. 3. FIG. 7 is a view showing a state of the contact blocking portion when stacked, and FIG. 7 is a view showing a state of the contact blocking portion when the media carrier of FIG. 3 moves to the withdrawal portion, etc., and FIG. It is a figure shown.

As shown in these figures, the financial automation device 100 according to an embodiment of the present invention, the media storage unit 110, the paper medium (P) is stored and the paper supplied from the media storage unit 110 A medium conveying unit 120 for conveying the medium P, a medium carrier 130 for conveying the paper medium P conveyed through the medium conveying unit 120 to a withdrawal unit (not shown), and the medium carrier 130. ) Moves to the withdrawal unit and includes a carrier transfer unit 140 forming a movement path, and a carrier position adjusting unit 150 for adjusting the position of the medium carrier 130.

In addition, an abnormality is detected during the transfer of the paper medium P through the medium transfer unit 120 to recover the rejected paper medium P or withdrawal from the withdrawal unit, but is not received and retracted. Reject medium transport unit 160 for transporting the rejected paper medium (P) by connecting the recovery medium storage unit 170 for recovering the paper medium (P), the medium transport unit 120 and the recovery medium storage unit (170) ) May be further included.

Referring to each configuration, first, the media storage unit 110 is responsible for storing the paper medium (P). The paper medium P may be a bill, a check, a gift certificate, a ticket, or the like. The media storage unit 110 may be provided as a cassette that can be detachably coupled to the plurality of storage spaces 110S provided in the height direction in the financial automation device 100. As such, the paper medium P may be stored in the media storage unit 110, and the media storage unit 110 may be selectively coupled to the inside of the financial automation device 100 so that the media storage unit 110 may be used. Paper media P may be supplied or drawn therein.

The media transporter 120 is a portion for transporting the paper media P stored in the media storage unit 110 sheet by sheet, and as shown in FIG. 1, between the media storage unit 110 and the carrier position adjusting unit 150. The paper medium P may be supplied sheet by sheet into the media carrier 130 disposed on the carrier position adjusting unit 150. The media conveying unit 120 includes a plurality of rollers and belts for conveying the paper medium (P). In other words, the belt is circulated during the rotation of the roller to transport the paper medium (P).

In addition, the media transporter 120 may be provided with a media sensor 122 for detecting whether the paper medium P transported from the media storage unit 110 is a sheet. That is, the media sensor 122 detects the change in the thickness of the paper medium P conveyed by the medium transporter 120 to determine whether the paper medium P is cut.

In addition, a sheet roller 128 is provided at the outlet of the media conveying unit 120 to feed the paper medium P conveyed by the media conveying unit 120 into the media carrier 130 one by one. The sheet roller 128 includes a plurality of wing members 128a extending in the radial direction. Therefore, when the sheet roller 128 rotates, each of the wing members 128a may transfer the paper medium P on the medium conveying part 120 into the medium carrier 130 sheet by sheet.

On the other hand, the media carrier 130 is a portion for carrying the at least one paper medium (P) conveyed by the medium transporting unit 120 in a state loaded therein. The paper medium P loaded in the media carrier 130 may be formed of a single sheet of paper medium P or a plurality of sheets of paper medium P. The media carrier 130 will be described later in detail.

In addition, the above-described medium carrier 130 may be transferred to the withdrawal unit along the carrier transfer unit 140. The carrier transfer unit 140 may be formed between the carrier position adjusting unit 150 and the withdrawal unit to be described later. The carrier transporter 140 may be formed in a rail structure so that the media carrier 130 may be transported as a whole.

Hereinafter, in the present embodiment, a plurality of withdrawal units are provided in the financial automation device 100, and accordingly, a plurality of carrier transfer units 140 are also provided. For example, the withdrawal unit is disposed on the front and rear surfaces of the financial automation device, and thus the carrier transfer unit 140 is connected to the front carrier transfer unit 142 connected to the withdrawal unit formed at the front side and the withdrawal unit formed at the rear side. The rear carrier transfer unit 144 and the upper carrier transfer unit 146 connected to the upper withdrawal unit may be provided.

Meanwhile, as shown in FIG. 1, the carrier position adjusting unit 150 changes the position of the medium carrier 130, and includes a rotor 151 for rotating the medium carrier 130, and a rotor 151. It includes a rotor driving unit (not shown) for driving. By such a configuration, the carrier position adjusting unit 150 rotates the medium carrier 130 so that the opening portion of the medium carrier 130 has the outlet direction of the above-described medium conveying unit 120, the inlet direction of the front carrier conveying unit 142, The position of the media carrier 130 may be changed to either the inlet direction of the rear carrier transfer unit 144, the inlet direction of the upper carrier transfer unit 146, or the inlet direction of the recovery medium storage unit 170 to be described later. .

In addition, the carrier position adjusting unit 150 rotates the medium carrier 130 to change the position, and also serves to transfer the medium carrier 130 along the carrier transfer unit 140. Accordingly, the media carrier 130 may transfer to each withdrawal unit, thereby supplying the paper medium P stacked in the media carrier 130 to the withdrawal unit.

Meanwhile, the recovery medium storage unit 170 is rejected while being transported along the paper carriers P or the media transfer unit 120 which have been withdrawn from the withdrawal unit but are not received and are retracted. It serves to recover the paper medium (P) to be transported through. The recovery medium storage unit 170 is provided in a cassette type similarly to the medium storage unit 110, and thus can be easily coupled to and released from the financial automation device 100.

And, as shown in Figure 1, the reject medium transfer unit 160, one end is connected to the media transfer unit 120, the rear end is connected to the recovery medium storage unit 170 and the inlet adjacent. Therefore, the rejected paper medium P transferred from the medium transfer unit 120 may be stored in the recovery medium storage unit 170 after passing through the reject medium transfer unit 160.

On the other hand, as described above, the paper medium (P) to be conveyed through the medium transport unit 120 is transported into the media carrier 130 by a single sheet is stacked (stacked). The media carrier 130 stacks the transferred paper media P by a predetermined number and moves to the withdrawal unit to provide the paper medium P with the withdrawal unit. Accordingly, the media carrier 130 has a structure suitable for stacking the paper medium P and an internal structure capable of carrying the stacked paper medium P.

In this regard, the media carrier 130 of this embodiment, as shown in FIG. 2, has a first carrier 131 coupled to the rotor 151 and a shaft rotatably with respect to the first carrier 131. The second carrier 135 is coupled to form a stack space 130S of the paper medium P together with the first carrier 131.

The first carrier 131 is a portion in which the paper medium P is stacked when the paper medium P is transferred from the medium transporter 120. Therefore, when the paper medium P is transported, the first carrier 131 is positioned below the second carrier 135.

The configuration of the first carrier 131 will be described in detail. As shown in FIGS. 3 and 4, the first carrier 131 includes a panel-shaped first carrier body 132 and a first carrier body. A pair of first belt parts 133 mounted side by side on the 132 and the stack according to the size of the paper medium P provided inside the first carrier body 132 and stacked in the stack space 130S. And a media guide part 134 for adjusting the size of the space 130S.

The first carrier body 132 is coupled to the rotor 151. Therefore, when the rotor 151 rotates, the first carrier body 132 may rotate together, and thus the entire medium carrier 130 may rotate.

The first belt part 133 serves to transfer the paper medium P stacked together with the second belt part 137 of the second carrier 135 to be described later. The first belt part 133 includes a pair of pulleys 133a that rotate by a driving force provided from a driving source, and a belt 133b that is coupled to the pair of pulleys 133a. Here, the belt 133b may be made of a rubber material having a predetermined frictional force to prevent the paper medium P from being pushed or slipped when the paper medium P is transferred.

The media guide unit 134 is selectively positioned according to the size of the paper medium P. In addition, the media guide 134 may move elastically to reduce the amount of impact when the paper medium P enters the stack space 130S. That is, when the paper medium P is introduced, the impact amount of the paper medium P can be reduced by momentarily moving in the inflow direction of the paper medium P and returning to the original state, thereby reducing the impact amount of the paper medium P in the stack space 130S. The paper medium P may be aligned and stacked.

Meanwhile, the second carrier 135 may be axially coupled to one side of the first carrier 131 to be approached or spaced apart in the direction of the first carrier 131. For example, when the paper medium P is transferred from the media transporter 120 to the stack space 130S of the media carrier 130, as shown in FIG. 6, the second carrier 135 may be the first carrier 131. When the carrier carrier 140 is moved in a state in which the media carrier 130 is stacked with the paper carrier P, the first carrier ( 131 and the second carrier 135 remains in close contact with each other.

Looking at the configuration of the second carrier 135, the second carrier 135 of the present embodiment, as shown in Figs. 3 and 5, the second carrier body 136 and a pair of first belt portion And a second belt portion 137 mounted to the second carrier body 136 to correspond to 133.

However, unlike the first belt portion 133, the second belt portion 137 moves the belt 137b moving in the inner region of the media carrier 130 in addition to the pair of pulleys 137a and the belt 137b. It further includes a pressing member 138 pushing inward.

6 and 7, the pressure member 138 includes a pressure roller 138b partially contacting the belt 137b to prevent the circulation operation from being interrupted when the belt 137b is circulated. And a leaf spring 138a, to which the pressure roller 138b is mounted, which pushes the pressure roller 138b slightly inward.

The pressing member 138 presses a part of the belt 137b inward by the elastic force of the leaf spring 138a, but if the opposite force is applied, the pressing member 138 may move inward by the reaction force.

Therefore, when the paper medium P is stacked by the desired number of sheets on the stack space 130S in the media carrier 130 and the stacked paper medium P is to be transferred to the withdrawal unit, the first carrier 131 may be removed. The second carrier 135 is approached. At this time, the pressing member 138 of the second belt unit 137 may press the paper media P stacked in the stack space 130S by the elastic force. Accordingly, the paper medium P may be stably supported in the stack space 130S, and may prevent a problem such that the paper medium P is separated during movement.

However, although the paper medium P can be firmly stacked by the pressing member 138, the structure of the paper medium P from the medium conveying part 120 to the stack space 130S of the medium carrier 130 is achieved. When conveyed, it may interfere with the conveying operation of the paper medium (P).

In other words, after the paper medium P is introduced into the medium carrier 130, the paper medium P impinges on the medium guide part 134, and is then aligned and stacked. The paper medium is disposed on the second belt part 137 protruding downward. (P) may collide first, and thus an accurate stack of the paper medium P may be blocked. Here, since the belt 137b is made of a rubber having a predetermined friction as described above, the movement of the paper medium P can be prevented.

Accordingly, the media carrier 130 according to an embodiment of the present invention, when the paper medium (P) is transferred from the media transport unit 120 into the media carrier 130, as shown in FIGS. The paper medium P further includes a contact blocking unit 180 for preventing the contact of the belt 137b of the second belt unit 137.

As shown in FIG. 5, the contact blocking unit 180 of the present embodiment is rotatably coupled to one side of the second carrier body 136 and maintains a rotation state downward by its own weight. 181 and a limiting member 185 provided on the rotating member 181 to limit the range of rotation of the rotating member 181.

With this configuration, when the paper medium P is conveyed from the medium conveying part 120 to the medium carrier 130, the paper medium P passes through the rotating member 181 of the contact blocking part 180 and the medium guide part ( 134 may be stacked, and thus stacking of the paper medium P may be accurately performed.

Accordingly, the contact blocking unit 180 including the rotating member 181 and the limiting member 185 has a significantly smaller friction force than the above-described belt 137b so that the paper medium P can slide and move along one surface thereof. It can be manufactured integrally using a material such as plastic.

In more detail with respect to each configuration, first rotating member 181, as shown in Figure 8, is disposed inside the belt 137b and the axis rotation around the engaging portion of the second carrier body 136 Rotating portion 182 and the elongated portion formed along both sides of the rotating portion 182, or cover the side of the belt 137b according to the position of the second carrier 135 with respect to the first carrier 131 described above And a pair of contact blocking wing portions 183 that maintain the elevated state from the belt 137b.

As described above, the pair of contact blocking wings 183 is a paper medium P when the paper medium P is transferred from the medium conveying part 120 to the stack space 130S of the medium carrier 130. ) Is kept in a state of covering the side of the belt 137b (state of FIG. 6) so that it can move to the medium guide portion 134 after being in contact with the contact blocking wing portion 183. This state can be implemented when the rotating member 181 is rotated downward by its own weight, and accordingly, the paper medium P can be prevented from contacting the belt 137b so that the paper medium ( The stack operation of P) can be performed smoothly.

On the other hand, when the desired number of paper media P is stacked in the stack space 130S to approach the second carrier 135 with respect to the first carrier 131, the contact blocking wing portion 183 is naturally elevated and thus The belt 137b of the two belt parts 137 and the paper medium P may contact each other. Therefore, the paper medium P can maintain the state (the state of FIG. 7) firmly supported by the media carrier 130.

As such, the contact blocking unit 180 is not driven by a separate driving source, but has a configuration capable of freely rotating a predetermined section. That is, downward can be rotated by its own weight, and upward can be freely rotated when the paper medium (P) is pressed.

By the way, the rotation member 181 should be limited in the range of rotation. This is because interference with other configurations may occur when the rotation range is not limited. Accordingly, the rotating member 181 has a limited rotation range upward and downward by the limiting member 185.

As shown in FIGS. 6 and 7, the limiting member 185 of the present embodiment is provided on both sides of the rotating member 181 and includes a moving hole 186 that is long and penetrated. Here, the movement hole 186 may be formed to penetrate long along the rotation direction of the rotation member 181 to form a movement path. In addition, a portion of the aforementioned pressing member 138 is coupled to the movement hole 186 of the limiting member 185. Therefore, the contact blocking unit 180 may rotate upward or downward within the limit of the movement hole 186.

Hereinafter, an operation of transferring the paper medium P from the medium conveying unit 120 of the financial automation device 100 having such a configuration to the medium carrier 130 will be described.

The paper medium P conveyed along the moving path of the medium conveying part 120 is conveyed into the medium carrier 130 by the sheet roller 128 provided in the outlet area of the medium conveying part 120. That is, the sheet roller 128 conveys the sheet of paper medium P to the media carrier 130, where the paper medium P is in contact with the media guide 134 in the media carrier 130, and then the stack space. Stacked at 130S one by one.

In the meantime, the paper medium P may be in contact with the contact blocking part 180 before being in contact with the medium guide part 134. At this time, the contact blocking unit 180 maintains a downward biased state, as shown in FIG. 6, by its own weight during the stacking operation of the paper medium P, whereby the paper medium P is belt 137b. ), The stacking operation of the paper medium P can be prevented from being disturbed.

Thereafter, when the desired number of sheets of paper medium P are stacked, as shown in FIG. 7, the second carrier 135 is approached with respect to the first carrier 131. At this time, the contact blocking unit 180 is elevated by the stacked paper medium P, and the belt 137b of the second belt unit 137 is stacked by the stacked paper medium P by the elastic force of the pressing member 138. By pressing the media carrier 130 can firmly support the stacked paper media (P).

As such, according to an embodiment of the present invention, when the paper medium P is stacked from the medium conveying part 120 to the medium carrier 130, the paper medium P and the second material are separated by the contact blocking part 180. The contact of the belt 137b of the belt part 137 may be prevented from being contacted, and thus, the paper medium P may be accurately stacked in the media carrier 130.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

100: financial automation device 110: media storage unit
120: medium conveying unit 130: medium carrier
131: first carrier 135: second carrier
140: carrier transfer unit 150: carrier position adjustment unit
160: reject medium transfer unit 170: recovery medium storage unit
180: contact blocking portion 181: rotating member
185: limiting member P: paper medium

Claims (8)

A media conveying unit for conveying the paper media supplied from the media storage unit storing the paper media; And
A media carrier disposed in a rear end region of the media conveying part through which the paper media is discharged, and stacking paper media discharged from the media conveying part;
Including;
The medium carrier,
A first carrier having a first belt portion for conveying the paper medium; And
A second belt part rotatably coupled to the first carrier, the second belt part being positioned above the first carrier when the paper medium is stacked from the medium conveying part and mounted at a corresponding position with the first belt part; Financial automation including a second carrier having a contact stopper that is selectively repositioned to prevent contact of the paper medium with the belt of the second belt part when the paper medium is transferred from the media conveying part into the media carrier. device.
The method of claim 1,
The second carrier,
And a second carrier body to which the second belt portion and the contact blocking portion are mounted.
The contact blocking portion,
A rotating member coupled to one side of the second carrier body to be rotatable and to maintain the rotation state downward by its own weight; And
Financial automation equipment including a limiting member provided on the rotating member to limit the rotation range of the rotating member.
The method of claim 2,
And the lower end of the rotating member is located below the lower end of the belt when the paper medium is stacked from the medium conveying part to the medium carrier.
The method of claim 3,
The rotating member,
A rotating part disposed inside the belt and axially rotating about a coupling part with the second carrier body; And
It is formed along both sides of the rotating portion, and includes a pair of contact blocking wings to cover the side of the belt according to the position of the second carrier relative to the first carrier or to maintain the elevated state from the belt Financial automation equipment.
The method of claim 2,
The limiting member,
It is provided on the upper side of both sides of the rotating member, and has a moving hole penetrating long along the rotation direction of the rotating member,
A portion of the second belt portion is coupled through the moving hole through the financial automation device for limiting the rotation range of the rotating member by the limiting member.
The method of claim 1,
The contact blocking unit is integrally formed, the financial automation device is made of a plastic material having a relatively small frictional force magnitude compared to the belt of the second belt portion.
The method of claim 2,
The second belt portion,
A pair of pulleys rotatably coupled to the inner and outer portions of the second carrier body, the belt being circulatedly coupled; And
And a pressing member mounted to the second carrier body so as to be positioned between the belts and pressing a portion of the belt moving inwardly of the second carrier body in an inward direction.
The method of claim 7, wherein
The pressing member,
A leaf spring in which elastic force is generated in a direction of pressing the paper medium stacked on the medium carrier; And
And a pressure roller coupled to the leaf spring to support movement of the belt.

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