KR101135326B1

KR101135326B1 - Cassette used in cash transaction machine

Info

Publication number: KR101135326B1
Application number: KR1020080132142A
Authority: KR
Inventors: 이원준; 최영일
Original assignee: 노틸러스효성 주식회사
Priority date: 2008-12-23
Filing date: 2008-12-23
Publication date: 2012-04-17
Also published as: WO2010074457A3; KR20100073458A; WO2010074457A2

Abstract

The present invention discloses a media storage device for an automated teller machine. The media storage device of the automated teller machine according to the present invention includes a base having a push plate for holding a paper medium and being fastened to a belt circulated by a belt pulley installed at both ends in a longitudinal direction, and pressing the paper medium, wherein the base is accommodated. And a paper carrier returning means for retracting the push plate a predetermined distance when the base cassette and the base cassette are separated from the frame of the automatic teller machine. Can be tucked in.

Paper carrier return, reversing rack, pinion, push lever

Description

Media storage device of automatic teller machine {CASSETTE USED IN CASH TRANSACTION MACHINE}

The present invention relates to an automatic teller machine, and more particularly, to separate the loaded paper medium by the pickup module, and then to put the front paper medium which is in contact with the pickup module when the media storage device is detached. The present invention relates to an automatic teller machine equipped with a media storage device having a paper carrier return means.

Financial automated devices are automated devices that can provide basic financial services, such as deposit or withdrawal, without the need for bank employees, regardless of time and place.

The automated teller machines can be divided into cash dispensers and cash dispensers according to whether or not they are withdrawn.In recent years, the automated teller machines have been used for various purposes such as cash withdrawals, check deposits, bank accounts, payment of giro fees, ticket releases, etc. have.

In general, the automated teller machine picks up and transfers the paper medium from the paper medium storage unit by sheet unit using a pickup module, and the transferred paper medium is immediately moved to the withdrawal unit or temporarily stored in the temporary stack unit and then to the withdrawal unit. In the case of using the temporary stack part, the paper medium can be provided to the customer in stack units.

If the pickup module stops the operation of the pickup module while the pickup module is separating or discharging the paper medium, the paper medium that has not passed through the pickup module may be bitten by the pickup module or be slightly out of the media storage device toward the pickup module. In this state, when the media storage device is detached or detached from the main body of the automatic teller machine, the media storage device shutter that is open to position the pickup module in the upper portion of the media storage device is closed.

As such, when the media storage device shutter is closed in a state in which the front paper medium that is in contact with the pickup module partially comes out of the media storage device, the paper medium may be damaged by the shutter or the paper medium may stick out of the shutter.

In addition, when the media storage device is mounted on the main body of the automatic teller machine while the paper storage device is damaged or wrinkled by the shutter, and the pickup module is operated again, the paper medium may not be properly separated.

The present invention is to solve the problems of the prior art as described above, when the media storage device is removed or removed after the stop of the pickup module, the front paper medium that was in contact with the pickup module can be put back into the media storage device. To provide a media storage device for automated teller machines.

The present invention provides a media storage device of an automated teller machine that can be separated and discharged smoothly without abnormality even if the front paper medium is used again after removing the media storage device.

The present invention provides a media storage apparatus of an automated teller machine that can reduce the friction between the front paper media and the rear paper media by retracting the push plate only for a certain period or a certain time when the media storage apparatus is detached or separated. .

According to an embodiment of the present invention for achieving the above object, the base having a push plate for holding the paper medium and fixed to the belt circulating over the belt pulley installed at both ends in the longitudinal direction to press the paper medium And a paper carrier returning means for retracting the push plate by a predetermined distance when the base cassette in which the base is accommodated and the base cassette is separated from the frame of the automated teller machine.

By the above configuration, when the media storage device is separated from the main body of the automatic teller machine, it is possible to prevent the paper media from being discharged from the media storage device from escaping out of the media storage device. In the case of installation in the automatic teller machine, the paper medium can be made detachable.

The paper carrier return means is located on one side of the belt pulley and is installed on the same rotation shaft as the belt pulley, and is provided in the lower side of the base along the lengthwise direction of the base and is fitted with the pinion gear when removing the base cassette. A physics rack may include a reversing rack having a rack gear formed therein, and a rack locking device disposed outside the base, and hanging on the reversing rack when the base cassette is separated.

The rack locking device is disposed on an outer surface of the base to move a predetermined distance, the first locking member that is caught on the reversing rack, a second locking that is disposed on an outer surface of the base cassette to move a predetermined distance and to which the first locking member is mounted. A member and a hook member which is formed on the frame of the automatic teller machine and is engaged with the second locking member may be included. In this configuration, even if the media storage device is separated from the automatic teller machine, the reversing rack is caught by the rack locking device and is not separated from the main body, thereby causing the push plate and the belt to reverse.

After the push plate is retracted by a predetermined distance while the rack gear and the pinion gear mesh with each other, the locking state of the reversing rack and the first locking member may be released. If the jammed state is not released, the retracted state of the push plate may be maintained and the loading state of the paper medium accommodated in the base may be disturbed.

To this end, when the push plate is retracted by a predetermined distance on the outer surface of the base cassette on which the second catching member is disposed, the hooking member is pushed out of the base cassette to release the latching state of the second catching member and the hook member. A release protrusion may be formed.

On the other hand, the paper carrier return means includes a reverse rack return spring for returning the reverse rack so that the push plate is advanced by the same distance after the push plate retracted a predetermined distance, the reverse rack return spring is the reverse rack And the base. By providing the reversing rack return spring, it is possible to maintain the pressurized state of the paper medium by advancing back to the pre-retraction state after the push plate or the belt has retracted the predetermined distance.

In addition, the present invention, in order to achieve the above object, a paper medium containing a paper medium, fixed to the belt circulated by belt pulleys installed at both ends in the longitudinal direction and loaded in contact with the surface of the belt The base having a push plate for pushing the side toward the pickup module, the base cassette in which the base is accommodated, and the front paper medium partially discharged by the pickup module when the base cassette is detached from the frame of the automated teller machine. It is also possible to provide a media storage device of an automated teller machine including a paper medium returning means for circulating the belt so as to be accommodated to release the paper medium pressurized state of the push plate.

Here, the paper carrier return means is provided with a pinion gear installed on the rotating shaft of the belt pulley, the lower side of the base in parallel with the belt and the reversing rack is formed with a rack gear meshing with the pinion gear when the base cassette is separated The rack may be disposed outside the base, and may include a rack locking device that is caught by the reversing rack as the base cassette is separated to prevent retraction of the reversing rack.

In addition, a release protrusion for releasing the latching state of the reversing rack by the rack locking device is formed on an outer surface of the base cassette, and the locking state of the reversing rack by the rack locking device is formed between the base and the reversing rack. As released, a reversing rack return spring for retracting the reversing rack may be connected.

At this time, the front upper portion of the base is provided with a shutter that closes as the base cassette is separated from the frame of the automatic teller machine, the shutter is closed and the upper end of the front paper medium partially discharged by the pickup module is the shutter It can also be configured to be pressed by the inner surface of the.

In this manner, the paper medium, which was in the process of being separated by the pickup module by using the shutter, in addition to the paper medium returning means, can be pushed back into the base. At this time, since the paper medium returning means retracts the paper medium behind the front paper medium, the friction force between the front paper medium and the paper medium behind it can be easily inserted by the shutter.

To this end, a press lever is formed on an inner surface of the shutter to press an upper end of the front paper medium partially discharged by the pickup module as the shutter is closed, and the press lever is hingedly connected to an inner surface of the shutter. A plurality of paper media may be formed along the long side of the paper medium.

By attaching the push lever to the inner surface of the shutter in a hinged manner, the inner surface of the shutter can be pressed against the inner surface of the shutter when the shutter is open, and then pushed down by the weight of the push lever.

As described above, the present invention can prevent the front paper medium which is in contact with the pickup module from being damaged or wrinkled by the shutter when the media storage device is detached or detached after the pickup module is stopped.

When the media storage device is separated, the present invention can prevent the paper medium loaded in the front of the media storage device from being exposed out of the shutter.

According to the present invention, when the separated media storage device is remounted and used, the upper end of the paper medium loaded at the front of the media storage device does not protrude upwards, thereby reducing the separation of the paper medium and reducing the performance of the pickup module. Can be prevented.

According to the present invention, when the media storage device is detached, the paper media loaded at the front of the media storage device can be prevented from being wrinkled or damaged in the process of inserting the paper media back into the media storage device.

According to the present invention, after the push plate is retracted by a predetermined distance, it is possible to prevent the loading state of the paper medium loaded inside the media storage device from being displaced.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the configuration and operation according to an embodiment of the present invention. The following description is one of several aspects of the invention that can be claimed, 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 side view for explaining the automated teller machine of the present invention.

Referring to Figure 1, the automated teller machine 100 according to an embodiment of the present invention is mounted in the housing 110, the media storage device 200 for receiving a paper medium, the media transport device 130, the temporary stack unit 140, a carriage 150, and a carriage transfer unit 170 for transferring the carriage.

The paper medium is picked up and supplied by sheet unit in the medium storage device 200 by the pickup module 125 on the front side of the medium storage device 200, and the supplied paper medium is temporarily transferred through the medium transport device 130. It is transferred to the stack 140. The paper media supplied in the sheet unit is stacked in the temporary stack unit 140, and when the number of paper media that the customer wants to withdraw is stacked, the paper media bundle or stack of the temporary stack unit 140 is loaded with a carriage ( 150). The paper media stack transferred to the carriage 150 moves to the media outlet 115 together with the carriage 150, and the customer may receive the paper media in stack units at the media outlet 115.

At this time, the carriage transfer unit 170 may transfer the carriage 150 while pressing the upper surface of the paper medium stack delivered by the carriage 150.

The pick-up module 125 is mounted in the medium storage device 200 in an internal or external form, and the pick-up module 125 may pick up a predetermined number of paper media from the medium storage device 200 one by one.

The temporary stack unit 140 includes a support 142, a front partition 144, a rear partition 143, and stack lifts 146 and 148. Here, the stack lift part includes a rotation support 146 and a rotation guide 148 functioning as a cam. The support 142 may move up and down through the pivoting movement of the rotation support 146. It may also include a stack driving unit (not shown), such as a motor for driving the rotation guide 148.

The rotating guide 148 may be formed with a helical guide groove 149 having a different radius according to the rotation angle, the rotation support 146 may be formed with a projection 147 that is engaged with the guide groove. Accordingly, when the rotation guide 148 rotates clockwise based on the drawing, the rotation support 146 rises. On the contrary, when the rotation guide 148 rotates counterclockwise, the rotation support 146 descends.

The carriage 150 is provided in a structure that can partially overlap the support 142 of the temporary stack unit 140, and may be generally provided in a fork shape having a plurality of supports.

When the support 142 rises upward, the carriage 150 may move forward, and the lower portion of the carriage 150 may be inserted into the support 142 to be positioned below the paper medium.

In addition, the carriage transfer unit 170 is provided on the top or both sides of the carriage 150. The carriage transfer unit 170 is for pressing the upper surface of the paper medium or the stack at the same time as the carriage 150, the paper medium can be transported neatly without disturbing.

To this end, the carriage transfer unit 170 transfers the carriage 150 between all the moving sections of the carriage 150 and at the same time the front fixing roller defining the movement path of the belt 172 and the belt 172 for pressing the upper surface of the paper medium. 173, the rear fixed roller 174, and the front fixed roller 173 may include a forward moving roller 175 that can be pivoted up and down. A support 176 may be interposed between the front moving roller 175 and the front fixing roller 173. The belt 172 may be provided in two or more rows to stably press the paper medium.

In addition, as shown in FIG. 1, the belt 172 is preferably inclined downward along the forward direction of the carriage 150 or with respect to a horizontal line (see the dashed-dotted line L-L). The force for transferring the stack of paper media to the media outlet 115 is the driving force of the carriage 150 and the belt 172, and the belt 172 also serves to press the upper surface of the paper media.

In addition, when a paper medium that is not withdrawn or received by the customer remains in the carriage 150, the paper medium should be separated from the carriage 150 and collected. For this purpose, the paper medium pivots in the forward direction of the carriage 150. The stopper 180 may be formed on the transport path of the carriage 150. When the carriage 150 is advanced, the paper medium loaded on the carriage 150 is not caught by the stopper 180. When the carriage 150 is retracted, the paper medium loaded on the carriage 150 is caught by the stopper 180. The paper medium is separated from the carriage 150.

On the other hand, in order to separate the media storage device 200 from the main body of the automated teller machine 100, the operation of the pickup module 125 must first be stopped. Thereafter, the media storage device 200 is separated from the main body of the automatic teller machine 100. At this time, the media storage device (removed by the pick-up module 125 or traveling toward the pick-up module 125) is again used. Need to go back to 200).

Hereinafter, with reference to the drawings looks at in more detail with respect to the media storage device 200 of the automated teller machine 100 according to an embodiment of the present invention.

2 and 3 are perspective views illustrating a media storage device of the automated teller machine according to FIG. 1. 2 illustrates a state in which the media storage device 200 is partially separated from the rear of the media storage device 200 in the direction of the arrow in the media storage frame 10 of the automated teller machine 100. A pickup module 125 for separating and discharging the paper medium loaded in the medium storage device 200 is provided at the front upper portion of the medium storage device 200. There is a shutter 290 at the front top of the media storage device 200. In the state in which the media storage device 200 is mounted, the shutter 290 can be connected to the pickup module 125 and the front top of the media storage device 200. ) Will remain open. In the state in which the shutter 290 is opened, the shutter 290 is pushed into the upper end of the media storage device 200.

The media storage device 200 may include a cover 236 that is opened and closed to allow a user to take out or insert a paper medium, and a base cassette 230 that is opened and closed by the cover 236 to accommodate the paper medium.

On the other hand, the hook member 285 is formed on one side of the frame 10, the hook member 285 is one component of the paper carrier return means to be described later. The hook member 285 is mounted to the frame 10, but a hole is formed in the frame 10 so that a portion of the base cassette 230 and the hook member 285 positioned inside the frame 10 abut each other. Not shown) may be formed.

3 illustrates a relationship between the base cassette 230 and the hook member 285 in a state in which the frame 10 on which the hook member 285 is mounted is not shown. As shown in FIG. 3, the hook 286 formed at one end of the hook member 285 is in contact with one side of the base cassette 230, and the fixing part 287 formed at the other end of the hook member 285 is formed in a frame ( 10). Therefore, the hook member 285 has a shape such as a kind of cantilever, one end of which is fixed to the frame 10.

Meanwhile, a wedge-shaped release protrusion 232 is formed at one outer surface of the base cassette 230, and the release protrusion 232 is hooked 286 when the base cassette 230 is separated or detached from the frame 10. The hook 286 is passed while lifting. That is, since the hook member 285 mounted to the frame 10 is fixed and separated only by moving the base cassette 230, relative movement occurs between the hook member 285 and the release protrusion 232. The second locking member 283 is mounted between the inner surface of the hook member 285 and one outer surface of the base cassette 230, and the second locking member 283 slides along the outer surface of the base cassette 230. .

Hereinafter, the paper medium returning means including the second catching member 283 will be described. 4 and 5 are exploded perspective views of main parts of the media storage device according to FIG. 2, FIG. 6 is a perspective view showing the internal configuration of the media storage device according to FIG. 2, and FIG. 7 is a paper medium returned from the media storage device according to FIG. 6. 8 is a perspective view showing a state in which the push plate is retracted by the paper medium returning means according to FIG. 7.

As shown in FIGS. 4 and 5, a base 210 in which a paper medium is directly received or stacked may be inserted into the base cassette 230. There is a sliding hole 234 on one outer surface of the base cassette 230 in which the release protrusion 232 is formed, and the second locking member 283 slides through the sliding hole 234. The sliding hole 234 has a rectangular slot shape having a predetermined length.

A paper medium is accommodated in the base 210, and a push plate 220 for pressing the paper medium toward the base front portion 212 is provided inside the base 210, and a push plate along the longitudinal direction of the base 210 ( Two belts 213 are formed side by side in the longitudinal direction of the base 210 so that the 220 may move. Since the push plate 220 is coupled to the belt 213, the push plate 220 and the belt 213 may move together. Here, the belt 213 may be a timing belt or the like.

A sliding groove 214 is formed in an intaglio form on one side of the base 210, and the first locking member is caught by the step portion 275 and the step portion 275 of the reversing rack sliding along the sliding groove 214. 281 may be provided. As a result, the first locking member 281 and the stepped portion 275 of the reversing rack may slide together along the sliding groove 214.

Here, the fastening screw 282 is fitted to the first locking member 281, the fastening screw 282 is for fixing the first locking member 281 to the second locking member (283). Thus, the first catching member 281, the second catching member 283, the stepped portion 275, and the hook member 285 move relative to the base 210. When the media storage device 200 is separated from the frame 10 of the automatic teller machine 100, the base cassette 230 and the base 210 move in the direction of the arrow, but the first locking member 281 and the stepped portion ( 275 is caught by the hook member 285 mounted to the frame 10 does not move in the direction of the arrow. That is, the first locking member 281 and the stepped portion 275 can be said to move in the direction opposite to the arrow. This relative movement causes the push plate 220 to retreat or the belt 213 to be reversed by a predetermined distance when the media storage device 200 is separated.

Meanwhile, referring to FIG. 5, a push plate spring (not shown) is disposed on the bottom outer surface of the base 210 in parallel with the belt 213, and the push plate spring is supported while being wound on the roller 218. The push plate 220 may push the paper medium toward the base front portion 212 by the push plate spring.

A reverse rack cover 216 is mounted on one side of the bottom outer surface of the base 210, and a reverse rack to be described later is mounted inside the reverse rack cover 216.

6 and 7, the shutter frame 298 may be provided on the front upper portion of the base 210, and the shutter 290 may be mounted on the shutter frame 298. 6 shows an open state of the shutter 290. At the rear end of the shutter 290, a shutter lock mounting unit is provided to guide opening and closing of the shutter 290 along the shutter frame 298 and to mount a shutter lock 295 for locking the closed state of the shutter 290. 296 may be connected.

There are two belt pulleys 211 at the front and rear portions of the base 210, and the belt 213 is mounted on the belt pulley 211. Belt pulleys 211 in the front and rear are mounted on the axis of rotation. The pinion gear 260 is mounted to the rotating shaft 212 on which the belt pulley 211 at the rear is mounted. That is, the pinion gear 260 is mounted on the rotation shaft 212 of the belt pulley 211 to be located at one side of the belt pulley 211.

Here, the rotation shaft 212 of the belt pulley 211 and the rotation shaft 219 of the pinion gear 260 may be formed separately, and both rotation shafts 212 and 219 may be connected by a one-way clutch (not shown). By using the one-way clutch, when the rotating shaft 212 of the belt pulley 211 rotates in the direction in which the belt 213 advances, the rotating shaft 219 of the pinion gear 260 may be formed so as not to rotate.

One side rear of the base 210 may be provided with a reversing rack 270 is formed with a rack gear (271) engaging the pinion gear 260. The reversing rack 270 is disposed in parallel with the belt 213 and is a plate-shaped member having a predetermined length. An end portion of the reversing rack 270 facing the rack gear 271 may be exposed to the outside of the base 210, and a stepped portion 275 may be formed to be engaged with the first locking member 281. A spring mounting hole 273 is formed at the center of the reversing rack 270. The spring mounting hole 273 is provided with a reversing rack return spring 279, and both ends of the reversing rack return spring 279 may be connected to the reversing rack 270 and the base 210 or the reversing rack cover 216, respectively. have.

When the media storage device 200 is separated or detached from the automated teller machine 100, the base 210 is also moved in the media storage device separation direction (see the arrow in FIG. 6). The reversing rack 270 having the second locking member 283 caught by the hook member 285 and the stepped portion 275 caught by the first locking member 281 fastened to the second locking member 283 is formed. It does not move in the direction of the arrow. Accordingly, since the pinion gear 260 provided in the base 210 and moving in the direction of the arrow does not rotate until it meets the rack gear 271 of the reversing rack 270, the push plate 220 or the belt 213 is in an idle state. Will be in. If the pinion gear 260 continues to move in the direction of the arrow, it will meet the rack gear 271, and the pinion gear 260 will rotate while being engaged with the rack gear 271. The pinion gear 260 will rotate. The belt pulley 211 mounted on the same rotation shaft 212 as 260 is also rotated. As a result, the belt 213 is also reversed in the direction of the arrow by the belt pulley 211, and the push plate 220 bited by the belt 213 retreats.

Accordingly, when the base cassette 230 or the base 210 is separated from the frame 10 of the automatic teller machine 100, the paper medium returning means 150 for retracting the push plate 220 by a predetermined distance is provided with a belt pulley 211. Pinion gear 260, which is located on one side of the belt pulley 211 and installed on the same rotation shaft 212, is provided on the lower side of the base 210 in the longitudinal direction of the base 210 and fits with the pinion gear 260 The bite is provided outside the reversing rack 270 and the base 210 where the rack gear 271 is formed, and the rack latch 280 that is caught by the reversing rack 270 when the base cassette 230 is detached from the frame 10. It may include.

By the above configuration, when the media storage device 200 is separated from the main body of the automated teller machine 100, the paper medium which is being discharged from the media storage device 200 exits the media storage device 200. It can be prevented, and even when the separated media storage device 200 is mounted on the automatic teller machine 100 again, it is possible to maintain a state in which the paper medium can be separated.

On the other hand, referring to Figure 8, the rack locking device 280 is provided on the outer surface of the base 210 to move a predetermined distance and the first locking member 281, the base caught on the stepped portion 275 of the reversing rack 270, the base The second locking member 283 provided on the outer surface of the cassette 230 and moved a predetermined distance and mounted on the frame 10 of the financial device 100 and the second locking member 283 on which the first locking member 281 is mounted are fixed. And a hook member 285 engaged with the 283. With this configuration, even if the media storage device 200 is separated from the automatic teller machine 100, the reversing rack 270 is not caught by the rack catching device 280 and is not separated from the main teller machine 100. The push plate 220 and the belt 213 are reversed.

Here, after the push plate 220 retreats a predetermined distance, the locking state of the reversing rack 270 and the rack locking device 280 may be released. That is, after the rack plate 271 and the pinion gear 260 mesh with each other and the push plate 220 retreats a predetermined distance, the latching state of the reversing rack 270 and the first locking member 281 may be released. If the latched state is not released, the retracted state of the push plate 220 may be maintained and the loaded state of the paper medium accommodated in the base 210 may be disturbed.

To this end, when the push plate 220 is retracted by a predetermined distance on the outer surface of the base cassette 230 provided with the second catching member 283, the second catching member 285 is pushed out of the base cassette 230. A release protrusion 232 (see FIG. 4) for releasing the latching state of the 283 and the hook member 285 may be formed. That is, as the media storage device 200 is separated, the release protrusion 232 approaches the hook 286 of the hook member 285, and thus the release protrusion 232 is the hook 286 and the base cassette 230. The hooking state of the hook member 285 and the second locking member 283 may be released while being interposed between the outer surfaces.

Here, the paper carrier return means 250 includes a reverse rack return spring 279 for retracting the reverse rack 270 so that the push plate 220 advances by the same distance after the push plate 220 retreats a predetermined distance. In addition, both ends of the reversing rack return spring 279 may be connected to the reversing rack 270 and the base 210. By providing the reversing rack return spring 279, the push plate 220 or the belt 213 is retracted by a predetermined distance and then moved back to the pre-retracted state to maintain the pressurized state of the paper medium.

When the media storage device 200 is removed or detached, the reversing rack 270 slides along the width of the sliding groove 214 formed on the outer surface of the first locking member 281. When the reversing rack 270 is retracted, the reversing rack return spring 279 is extended. When the reversing rack 270 is released, the reversing rack return spring is released when the hook member 285 and the second locking member 283 are released by the release protrusion 232. The reversing elastic force of 279 allows the reversing rack 270 to retreat toward the media storage device 200 separation direction.

Meanwhile, in FIG. 8, it can be seen that the paper medium loaded on the base 210 is loaded in contact with the surface of the belt 213. Accordingly, when the belt 213 is reversely circulated in the opposite direction to the front end of the base 210, the paper medium loaded with the long side in contact with the belt 213 also moves backward along the belt 213. As the gap between the frontmost paper media is widened, friction between the paper media can be reduced.

In addition, the present invention is fixed to the belt 213, which is circulated by the belt pulley 211, which accommodates the paper medium and installed at both ends in the longitudinal direction, in contact with the surface of the belt 213 in order to achieve the object as described above. A base 210 having a push plate 220 for pressing the loaded paper medium in a state toward the pickup module 125 (see FIG. 1), a base cassette 230 in which the base 210 is accommodated, and a base cassette 230. When the) is separated from the frame 10 of the automatic teller machine 100, the belt 211 is reversed in a forward direction so that the part of the front paper medium discharged by the pickup module 125 can be accommodated in the base 210 again. It is also possible to provide a media storage device 200 of the automated teller machine including a paper medium return means 150 to secure a space behind the paper medium.

Here, the paper medium returning means 150 is provided on the lower side of the base 210 in parallel with the pinion gear 260 and the belt 213 installed on the rotating shaft 2014 of the belt pulley 211 and the pinion gear 260. It is provided on the outside of the reversing rack 270 and the base 210 formed with the interlocking rack gear 271 and the base cassette 230 is separated to catch the reversing rack 270 to prevent the retraction of the reversing rack 270. It may include a rack latch 280.

In addition, the outer surface of the base cassette 230 is formed with a release projection for releasing the locking state of the reversing rack 270 by the rack locking device 280, the rack locking device between the base 210 and the reversing rack 140 As the locking state of the reversing rack 270 by the 280 is released, a reversing rack return spring 279 for retracting the reversing rack 270 may be connected.

When the media storage device 200 is removed or detached from the automated teller machine 100, only the base 210 is moved backward with respect to the reversing rack 270 and the rack locking device 280, and the bottom of the base 210 is moved. The rack cover 216 mounted on the lower surface is moved. Accordingly, the reversing rack return spring 279 having one end connected to the rack cover 216 increases.

9 is a perspective view illustrating a shutter of the media storage device according to FIG. 6, and FIG. 10 is a side view illustrating a state in which a paper medium is returned by the shutter of FIG. 9.

9 and 10, the front upper portion of the base 210 is provided with a shutter 290 which operates to close as the base cassette 230 is detached or detached from the frame 10 of the automatic teller machine 100. When the shutter 290 is closed, the upper part of the front paper medium (FN, which is loaded on the front of the base and adjacent to the pickup module) by the pick-up module 125 (see FIG. 1) is partially discharged. It may be configured to be pressed by the inner surface of the 290.

As described above, the paper medium, which is in the process of being separated by the pickup module 125 using the shutter 290 in addition to the paper medium returning means 250, may be pushed back into the base 210. At this time, when the paper medium returning means 250 reversely circulates the belt 213, the paper medium behind the front paper medium FN loaded in contact with the belt 213 is retracted, and the front paper medium FN ) And the paper medium behind it. Accordingly, the shutter 290 can easily retract the front paper medium FN without the frictional resistance of the rear paper medium to the front paper medium FN to be retracted.

To this end, as shown in FIG. 9, the push lever 292 presses an upper end of the front paper medium FN partially discharged by the pickup module 125 as the shutter 290 is closed on the inner surface of the shutter 290. ) Is formed, and the push lever 292 is mounted to the inner surface of the shutter 290 in a hinge type (hinge type), a plurality of may be formed along the long side direction of the paper medium.

By attaching the push lever 292 to the inner surface of the shutter 290 in a hinged manner, when the media storage device 200 is mounted on the automatic teller machine 100 and the shutter 290 is open, the push lever 292 is pressed by the shutter ( 290) abut the inner surface. When the shutter 290 is closed by detaching or detaching the media storage device 200 from the automatic teller machine 100, the upper lever of the front paper medium FN may be naturally pressed while moving downward by the weight of the push lever 292.

A hinge pin 293 is mounted at one end of the push lever 292, and the hinge pin 293 is fitted into a pin insertion hole (not shown) inside the shutter 290, so that the push lever 292 is a shutter 290. ) Can be mounted.

Referring to FIG. 10, the operation of returning the front paper medium FN by the paper medium returning means 250 and the push lever 292 of the shutter 290 will be described.

When the media storage device 200 is separated, the front end of the shutter 290, which is opened first, is bent downward, thereby closing the front exit side of the media storage device 200. The pinion gear 260 which retreats with the closing operation of the shutter 290 is engaged with the rack gear 271 of the reversing rack 270. Since the belt pulley 211 connected to the rotation shaft 212 of the pinion gear 260 rotates in the same direction as the pinion gear 260, the push plate 220 retreats, and the belt 213 is reversed. As the belt 213 reverses, the paper medium loaded on the belt 213 also retreats together, and the force of the rear paper medium RN pressing the front paper medium FN to press the front paper medium FN. This decreases.

As the shutter 290 is closed, the push lever 292 is lowered, and the push lever 292 pushes the upper end of the front paper medium FN. Since the frictional force applied to the front paper medium FN decreases as the rear paper medium RN is retracted by the belt 213, the front paper medium FN pressed by the push lever 292 is easily supported by the base 210. Can be returned in.

The media storage device of the automated teller machine described so far has been described in terms of the automatic teller machine for withdrawal, but it can also be applied to the automated teller machine and the cash dispenser, and the like. It should be understood as a technical spirit of the present invention or as a minimum description of the present invention, and not as a boundary limiting the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

1 is a side view for schematically illustrating the automatic teller machine according to an embodiment of the present invention;

2 and 3 are a perspective view showing a media storage device of the automated teller machine according to FIG.

4 and 5 are exploded perspective views of main parts of the media storage device according to FIG. 2;

6 is a perspective view showing an internal configuration of a media storage device according to FIG. 2;

7 is a plan view showing a paper medium return means of the media storage device according to FIG.

8 is a perspective view illustrating a state in which the push plate is retracted by the paper medium returning means according to FIG. 7;

9 is a perspective view illustrating a shutter of the media storage device of FIG. 6;

FIG. 10 is a side view illustrating a state in which the paper medium is returned by the shutter according to FIG. 9.

1 ： Financial automation equipment 110 ： Housing

125: pickup module 130: media feeder

140: one system stack 150: carriage

170: carriage transport unit 200: media storage device

250: paper carrier return means 280: rack locking device

290: shutter

Claims

In the media storage device of the automated teller machine,

A base accommodating the paper medium, the base having a push plate fixed to a belt circulated by a belt pulley installed at both ends in the longitudinal direction and pressing the paper medium;

A base cassette in which the base is accommodated; And

Paper carrier return means for retracting the push plate a predetermined distance when the base cassette is detached from the frame of the ATM;

Media storage device of the automated teller machine comprising a.

The method of claim 1,

The paper carrier return means,

A pinion gear positioned at one side of the belt pulley and installed on the same rotation shaft as the belt pulley;

A reversing rack provided on the lower side of the base along a length direction of the base and having a rack gear engaged with the pinion gear when the base cassette is separated; And

Is disposed on the outside of the base, the media storage device of the automated teller machine comprising a; rack latching device that is caught on the reversing rack when the base cassette is separated.

3. The method of claim 2,

The rack locking device,

A first catching member disposed on an outer surface of the base to move a predetermined distance and caught by the reversing rack;

A second catching member disposed on an outer surface of the base cassette to move a predetermined distance and to which the first catching member is mounted; And

And a hook member formed on a frame of the automated teller machine, the hook member engaged with the second catching member.

The method of claim 3,

And after the push plate is retracted by a predetermined distance while the rack gear and the pinion gear mesh with each other, the locking state of the reversing rack and the first locking member is released.

5. The method of claim 4,

On the outer surface of the base cassette on which the second catching member is disposed, a release to release the latching state of the second catching member and the hook member by pushing the hook member outward of the base cassette when the push plate is retracted by a predetermined distance. Media storage device of the automated teller machine, characterized in that the projection is formed.

The method according to any one of claims 2 to 5,

The paper carrier return means,

And a reversing rack return spring for returning the reversing rack so that the push plate is advanced by the same distance after the push plate has retracted a predetermined distance.

The reversing rack return spring is a media storage device of the automated teller machine, characterized in that connected to the reversing rack and the base.

The method of claim 6,

The front upper portion of the base is provided with a shutter that is closed as the base cassette is separated from the frame of the automated teller machine,

At the rear of the shutter is provided a pickup module for drawing out the paper medium in the base to the front upper portion of the base,

And the upper end of the front paper medium partially discharged by the pickup module while the shutter is closed is pressed by the inner surface of the shutter.

The method of claim 7, wherein

And a push lever formed on an inner surface of the shutter to press an upper end of the front paper medium partially discharged by the pickup module as the shutter is closed.

In the media storage device of the automated teller machine equipped with a pickup module,

A base accommodating a paper medium and fixed to a belt circulated by belt pulleys installed at both ends in a longitudinal direction, the base having a push plate for pushing the loaded paper medium toward the pickup module in contact with the surface of the belt;

A base cassette in which the base is accommodated; And

When the base cassette is separated from the frame of the automatic teller machine, the belt is reversed so that the front paper medium partially discharged by the pickup module can be accommodated in the base so as to press the paper medium of the push plate. A paper carrier return means for releasing;

Media storage device of the automated teller machine comprising a.

10. The method of claim 9,

The paper carrier return means,

A pinion gear installed on a rotation shaft of the belt pulley;

A reversing rack provided on the lower side of the base in parallel with the belt and having a rack gear engaged with the pinion gear when the base cassette is separated; And

And a rack latching device disposed outside the base, the latching device being caught in the reversing rack as the base cassette is separated to prevent retraction of the reversing rack.

The method of claim 10,

On the outer surface of the base cassette is formed a release projection for releasing the latching state of the reversing rack by the rack locking device,

And a reversing rack return spring for retracting the reversing rack as the latching state of the reversing rack by the rack locking device is released between the base and the reversing rack.

The method according to any one of claims 9 to 11,

The method of claim 12,

And a push lever on an inner surface of the shutter to press an upper end of the front paper medium partially discharged by the pickup module as the shutter is closed.

The method of claim 13,

The push lever is connected to the inner surface of the shutter in a hinged manner, the media storage device of the automated teller machine, characterized in that a plurality is formed along the long side of the paper medium.