KR101281316B1 - media stacking apparatus and financial device - Google Patents

Abstract

The present invention relates to a media integrated device and a financial device.
According to one aspect, an apparatus for accumulating a medium includes a feed roller for introducing or extracting a medium; A drive source for driving the feed roller; A sealing plate for supporting the medium; And a driving force transmitting unit for transmitting the driving force of the driving source to the contact plate.

Description

Media stacking apparatus and financial device

The present invention relates to a media integrated device and a financial device.

Generally, a financial instrument is a device that automatically processes a financial task desired by a customer. The financial device may deposit or withdraw a medium (eg, a bill, a check, a security, a gift certificate, or the like), or automatically transfer the medium.

The financial device generally includes a media access unit for depositing and depositing media, and the media introduced through the media access unit are stored in the media storage unit. In this case, the media storage unit may include a temporary aggregator configured to temporarily store a medium accommodated by a user, a cassette in which the medium is stored, and a recovery unit in which an abnormal medium is stored.

In a conventionally used cassette, when a medium is drawn in by a feed roller, the medium is sequentially stacked on the upper end of the compact plate. At this time, the plate is moved up and down in accordance with the amount of the integrated medium.

According to the conventional financial device, since the driving of the plate and the roller is performed independently by a separate driving source, the configuration is complicated and the manufacturing cost increases, and as the rotation of the roller and the movement of the plate are not accurately corresponded, the media is accumulated. There is a problem that the alignment of visual media may be degraded.

SUMMARY OF THE INVENTION An object of the present invention is to provide a media aggregator and a financial device for moving a plate to exactly match the amount of medium drawn through the feed roller by synchronizing the drive of the feed roller and plate.

According to one aspect, an apparatus for accumulating a medium includes a feed roller for introducing or extracting a medium; A sealing plate for supporting the medium; A single drive source for generating power for driving said feed roller and said mill plate; And a driving force transmission unit configured to transfer power of the driving source to the mill plate or to block power transfer to the mill plate depending on whether the medium is drawn in or drawn out.

According to another aspect, a financial device includes a media access unit for accessing and depositing a media; And a media stacking device for storing the media, wherein the media stacking device includes a feed roller for introducing or extracting the media, a mill plate for supporting the medium, and a driving force for driving the feed roller and the mill plate. It includes a single drive source for generating a, wherein the driving force of the drive source is characterized in that it can be selectively transmitted to the close plate according to whether the medium is drawn in or taken out.

According to the present invention, the feed roller and the mill plate can be driven by one driving source, thereby simplifying the structure and reducing the manufacturing cost.

1 is a perspective view of a financial instrument according to an embodiment of the present invention;
2 is a diagram schematically showing a configuration of a media integration apparatus according to an embodiment of the present invention.
3 is a view showing a state when a medium is inserted in the media integration apparatus according to an embodiment of the present invention.
4 is a view showing a state when there is no access to the media in the media integration apparatus according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating a state in which a medium is withdrawn in a media accumulation apparatus according to an embodiment of the present invention. FIG.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In addition, in describing the components of the embodiments of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only to distinguish the components from other components, and the nature, order, order, etc. of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but there may be another component between each component. It will be understood that may be "connected", "coupled" or "connected".

The financial device according to an embodiment of the present invention, for example, obtains various media such as banknotes, securities, giro, coins, gift certificates, etc., and processes such as deposit processing, giro storage, gift certificate exchange, and / or withdrawal processing, release of giro, gift certificates. It is a device for performing financial affairs to perform media processing, such as processing such as release. An example of such a financial device may be an ATM (Automated Teller Machine) such as a Cash Dispenser (CD) and a Cash Recycling Device. However, the financial instrument is not limited to the above-described example, and may be a device for automating financial business such as FIS (Financial Information System).

Hereinafter, an embodiment of the present invention will be described on the assumption that the financial instrument is a financial automatic instrument. However, this assumption is for convenience of explanation, and the technical idea of the present invention is not limited to the financial automation equipment.

Hereinafter, a media integrated device and a financial device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a financial device according to an embodiment of the present invention, Figure 2 is a schematic view showing the configuration of a media integrated device according to an embodiment of the present invention.

1 and 2, the financial device 1 according to an embodiment of the present invention includes a main body 10 in which a plurality of components are embedded. The main body 10 includes an input unit 11 for allowing a user to process financial affairs, a check in / out unit 12 for depositing and depositing a check, and a bill in / out unit 13 for depositing and depositing a bill. Deposited through the passbook entry and exit 14 for entering and exiting the passbook, the card entry and exit portion 15 for entering and exiting the IC card (Integrated Circuit Card) for financial processing, and the media entry and exiting portions 12 and 13. It may include a media aggregator 20 for storing the media.

In this specification, at least one of the check entry / exit portion 12, the bill entry / exit portion 13, the passbook entry / exit portion 14, and the card entry / exit portion 15 may be omitted. Hereinafter, the check inserting portion 12 and the paper money inserting portion 13 will be collectively referred to as media access portions 12 and 13, respectively.

The media accumulation apparatus 20 may include a temporary accumulator (not shown) for temporarily storing a medium accommodated by a user, a recycle box (not shown: recyclebox) for storing a deposited medium, and a recovery unit for storing an abnormal medium. (Not shown), a comprehensive concept including all modules provided in the financial device 1, such as a cassette in which a medium is stored, and in which the medium can be introduced and stored.

The media accumulation apparatus 20 may include a feed roller 21, a driving source 22, a contact plate 23, and a driving force transmission unit.

The feed roller 21 may be driven by the drive source 22. The media drawn into the media stacking device or the media drawn out of the media stacking device may be transported by the rotation of the feed roller 21. At this time, the medium is drawn in between the feed roller 21 and the feed roller 213, and the medium 2 drawn in by the feed roller 21 falls by gravity and is integrated in the mill 23.

The contact plate 23 supports the medium 2. The plate 23 may have a flat top surface so as to stably support the medium 2, and is provided to be movable upward and downward.

At this time, if the difference between the height of the medium 2 drawn through the feed roller 21 and the height of the contact plate 23 is too small, there is a risk of crushing the medium 2, if the difference between the height is too large medium 2 There is a risk that jamming occurs because the media 2 is accumulated in a misaligned state as it is warped in the falling process. Therefore, when the medium 2 is drawn in, it is necessary to appropriately adjust the height of the plate 23. The plate may be moved up and down by receiving power from the driving source 22.

The driving force transmission unit transmits the driving force of the driving source 22 to the contact plate 23. The present invention simplifies the structure by interlocking the movement of the feed roller 21 and the plate 23 by using a driving force transmission unit, so that both the feed roller 21 and the plate 23 is driven by one drive source 22 and You can save money.

At this time, the driving force transmission unit, the first transmission unit connected to the drive source 22, the second transmission unit connected to the contact plate, and the connecting portion 29 for controlling the connection of the first transmission unit and the second transmission unit Include.

The first transmission portion includes a reduction gear 24 and a gear pulley 241, a first belt 212, and the second transmission portion includes a clutch gear 25 and a clutch. A clutch pulley 251, a second belt 252, and a pulley lifting plate 26 are included.

The reduction gear 24 is connected to the feed roller 21. Specifically, the feed roller pulley 211 is connected to the feed roller 21, the reduction gear pulley 241 is connected to the reduction gear 24, and the first belt 212 is connected to the feed roller pulley 211 and the reduction gear. The rotational force of the feed roller 21 is transmitted to the reduction gear 24 by being surrounded by the pulley 212.

Of course, the first belt 212 may be omitted from the first transmission unit so that the driving source 22 and the reduction gear pulley 241 are directly connected to each other so that the reduction gear 24 receives the driving force directly from the driving source 22. .

The reduction gear 24 may be a gear having a larger diameter than the feed roller 21, and reduce the rotation of the feed roller 21 and transmit the deceleration gear to the clutch gear 25 to be described later. This is because if the feed plate 21 rotates the plate 23 as it is rotated, the plate 23 may be excessively raised and lowered, thereby preventing the accumulation of the medium 2. At this time, a worm gear (not shown) may be used as the reduction gear 24.

The clutch gear 25 is selectively engaged with the reduction gear 24. When the clutch gear 25 is connected to the reduction gear 24, the driving force of the drive source 22 is transmitted to the contact plate 23, while the clutch gear 25 is spaced apart from the reduction gear 24, so that the driving source The driving force of 22 is not transmitted to the platen 23 so that the platen 23 does not move.

The clutch gear 25 is engaged with the reduction gear 24 by the connecting portion 29 which will be described later. That is, the connection of the clutch gear 25 and the reduction gear 24 may be determined depending on whether the inlet or the outlet of the medium 2 is detected.

The clutch gear 25 is used to appropriately convert the driving force of the drive source 22 to provide it to the mill plate 23, and the conversion ratio of the rotational force depends on the size of the feed roller 21 or the amount of the medium 2 to be integrated. It is not limited to a specific value as it may vary.

The plate elevating pulley 26 is connected to the clutch gear 25 and drives the plate 23. Specifically, the clutch gear pulley 251 is connected to the clutch gear 25, and the second belt 252 is surrounded by the clutch gear pulley 251 and the plate lifting and lowering pulley 26 so that Rotational force is transmitted to the plate lifting pulley 26.

The plate elevating pulley 26 may be configured as a pair, and may be provided with a plate elevating belt connected to the plate plates 23 to surround the pair of plate elevating pulleys 26. At this time, the second belt 252 and the plate lifting belt is wound on the plate lifting pulley 26 on one side. Accordingly, the rotational force of the clutch gear 25 is transmitted to the plate lifting pulley 26 through the second belt 252, and the plate lifting belt is moved by the rotation of the plate lifting pulley 26. The sealing plate 23 moves up and down. Of course, each belt wound on the plate elevating pulley 26, the plate elevating pulley 26 is wrapped side by side in the direction of the rotation axis of the plate elevating pulley 26 so as not to overlap, it can be driven in a state that does not interfere with each other. have.

Therefore, the plate elevating pulley 26 may be connected to the plate 23 and convert the rotational force transmitted from the clutch gear 25 into a reciprocating motion and then provide the plate 23 to the plate plate 23.

The connecting portion 29 controls the connection of the clutch gear 25 and the reduction gear 24. The connection unit 29 connects the clutch gear 25 to the reduction gear 24 when the inlet or the outlet of the medium 2 is detected, and the clutch when the entry or exit of the medium 2 is not detected. The gear 25 is spaced apart from the reduction gear 24. At this time, the detection of the entry or withdrawal of the medium 2 may be made by the sensor 27 which will be described later.

Specifically, the connecting portion 29 moves the clutch lifting portion 253 connected in the direction perpendicular to the axis of rotation of the clutch gear 25 up and down so that the clutch gear 25 and the reduction gear 24 mesh with each other. Can be controlled. In this case, the connection part 29 may elevate the clutch lifting part 253 using a solenoid valve (not shown).

Of course, the connecting portion 29 can move the reduction gear 24 to connect the clutch gear 25 and the reduction gear 24, or both the clutch gear 25 and the reduction gear 24 by moving both Gears can be connected. Hereinafter, the present embodiment will be described on the assumption that the connector 29 is connected to the reduction gear 24 by moving the clutch gear 25.

When the clutch gear 25 is connected to the reduction gear 24, the driving force of the driving source 22 is the feed roller 21, the feed roller pulley 211, the first belt 212, the reduction gear pulley 241. , The reduction gear 24, the clutch gear 25, the clutch gear pulley 251, the second belt 252, and the plate elevating pulley 26 are transferred to the plate 23. Therefore, the driving plate 21 can be driven by using the driving force of the driving source 21 and at the same time the plate 23 can be moved.

On the other hand, when the clutch gear 25 is spaced apart from the reduction gear 24, even if the feed roller 21 rotates, the rotational force of the driving source 22 is limited to rotating only the reduction gear 24, the sealing plate 23 is An idle state is not received at all. At this time, if the medium 2 is integrated in the plate 23, the plate 23 is lowered by the weight of the self and the weight of the medium 2, so that the size of the integrated space is unnecessarily extended to the media 2 to be introduced later ) May not be aligned properly.

Therefore, the driving force transmission unit of the present embodiment may further include a damping gear 28 to solve this problem.

Damping gear 28 is connected to the plate lifting pulley 26 to prevent the plate 23 from falling. In detail, the damping gear 28 may be connected to the plate lift gear 261 connected to the rotation shaft of the plate lift pulley 26. In this case, the plate lifting pulley 26 and the plate lifting gear 261 may be integrally rotated.

If the clutch gear 25 is spaced apart from the reduction gear 24, the contact plate 23 will not be able to withstand the load of the medium 2 unless a separate fixing means is used, thereby ensuring proper integration space. Becomes difficult. Therefore, the present embodiment connects the damping gear 28 to the plate lifting gear 261 so that the plate lifting pulley 26 can withstand the weight of the medium 2, so that the clutch gear 25 reduces the gear 24. When the state is not connected to the platen 23 can be prevented from falling unnecessarily.

At this time, the specification of the rotational load of the damping gear 28 may vary depending on the amount of the medium 2 that can be integrated in the compact plate 23. In other words, when the plate 23 must support a large amount of the medium 2, the rotation load of the damping gear 28 is sufficiently large so that the plate 23 can be fixed at a predetermined position. On the other hand, in the case where only a relatively small amount of the medium 2 is sufficient, the rotational load of the damping gear 28 is reduced so that the compact plate 23 can be fixed.

When the rotational load of the damping gear 28 is unconditionally increased in preparation for the case where a large amount of the medium 2 is accumulated, the damping gear 28 may cancel the rotational force of the driving source 22 by the damping gear 28. The rotational load of may be set to an appropriate value for each media integrated device 20 so as to correspond to the size of the integrated space.

The present embodiment may further include a sensor 27 for sensing the medium 2 to be drawn in or drawn out. The sensor 27 may be an infrared sensor and may include a light emitting sensor 271 and a light receiving sensor 272.

The connection 29 can control the clutch gear 25 to engage the reduction gear 24 via whether the sensor 27 senses the medium 2. Therefore, the connecting portion 29 may allow the driving force of the driving source 22 to be transmitted to the contact plate 23 only when the medium 2 is drawn in or drawn out.

The sensor 27 may be installed in front of the feed roller 21 in order to detect the medium 2 drawn in by the feed roller 21 in advance. In other words, the medium 2 may be drawn by the feed roller 21 after passing through the sensor 27. On the other hand, when the medium 2 is drawn out, the medium 2 may be sensed by the sensor 27 after passing through the feed roller 21. Of course, the position of the sensor 27 is not limited as described above.

3 is a view illustrating a state when a medium is retracted in the media accumulation apparatus according to an embodiment of the present invention, FIG. 4 is a view illustrating a state when there is no access of the medium, and FIG. It is a figure which shows the state of a case. Hereinafter, the operation of the present embodiment will be described with reference to FIGS. 3 to 5.

Referring to FIG. 3, when the sensor 27 detects the inflow of the medium 2, the connection part 29 may move the clutch gear 25 to contact the reduction gear 24. At this time, the medium 2 passing through the sensor 27 is introduced by the feed roller 21 rotated by the drive source 22, and the rotational force of the drive source 22 is transmitted to the reduction gear 24. .

At this time, since the reduction gear 24 and the clutch gear 25 are in engagement with each other, the rotational force is transmitted to the clutch gear 25, and eventually the plate 23 moves through the plate lifting pulley 26 connected to the clutch gear 25. do. Therefore, when the introduction of the medium 2 is detected, not only the feed roller 21 rotates but also the plate 23 automatically descends, thereby expanding the integrated space.

Referring to FIG. 4, when the sensor 27 does not detect the entry or withdrawal of the medium 2, the connection unit 29 determines that there is no withdrawal or withdrawal of the medium 2, and the clutch gear 25 is removed. Spaced apart from the reduction gear 24. At this time, even if the feed roller 21 is rotated by the drive source 22, since the rotational force of the drive source 22 is not transmitted to the clutch gear 25, no force is applied to the close plate 23.

However, the medium plate 2 may already be integrated in the plate 23, and the plate plate 23 may receive a descending force by the load of the integrated medium 2. Therefore, when the clutch gear 25 is separated from the reduction gear 24, the plate 23 is in an idle state, and thus the plate plate 23 is moved by the load of the medium 2, which causes the plate plate lifting pulley 26 and the clutch. The gear 25 is rotated.

This can unnecessarily change the integrated space, which can prevent the alignment of the media 2 which is subsequently introduced. Therefore, the present embodiment uses the damping gear 28 connected to the plate lifting gear 261 of the plate lifting pulley 26, even if the plate 23 is in the idle state, by the rotational load of the damping gear 28. The contact plate 23 can be prevented from moving.

Referring to FIG. 5, when the medium 2 stored on the upper end of the mill 23 is pulled out, the sensor 27 detects the withdrawal of the medium 2, and the connection part 29 is again a clutch gear 25. ) Is connected to the reduction gear 24.

In this case, however, the feed roller 21 rotates in the opposite direction unlike the case in which the medium 2 is drawn in, and the contact plate 23 receiving the rotational force of the driving source 22 is raised. Therefore, when all the media 2 are pulled out, the plates 23 are positioned at a height that ensures only a minimum integration space.

Therefore, in the present embodiment, when the feed roller 21 is rotated as the medium enters and exits, the compact plate 23 can receive and move the driving force of the driving source 22, thereby efficiently managing the integrated space. The overall structure can be simplified to lower the manufacturing cost.

In the above description, it is described that all the components constituting the embodiments of the present invention are combined or operated in one, but the present invention is not necessarily limited to these embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. In addition, the terms "comprise", "comprise" or "having" described above mean that a corresponding component may be included unless otherwise stated, and thus, other components are excluded. It should be construed that it may further include other components instead. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms used generally, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

1: financial instrument 2: medium
20: media accumulation apparatus 21: feed roller
22: drive source 23: plate
24: reduction gear 25: clutch gear
26: plate lifting pulley 27: sensor
28: damping gear

Claims (8)

A feed roller for introducing or withdrawing a medium;
A sealing plate supporting the medium;
A single drive source for generating power for driving said feed roller and said mill plate; And
And a driving force transmission unit configured to transfer the power of the driving source to the mill plate or to block power transfer to the mill plate depending on whether the medium is drawn in or drawn out. The driving force transmitting device according to claim 1,
A first transfer part connected to the driving source; And
It includes a second transfer unit connected to the wheat plate,
And the first transfer unit and the second transfer unit may be connected or disconnected. 3. The method of claim 2,
A connection part controlling a connection of the first delivery part and the second delivery part;
A conveying path connecting the feed roller with a medium inlet and outlet through which the medium is fed in and out; And
And a sensor disposed on the transport path, the sensor sensing the incoming or outgoing medium. The method of claim 3, wherein the connection portion,
And connect the second transfer unit to the first transfer unit when the input or withdrawal of the medium is detected by the sensor. The method of claim 3, wherein the connection portion,
And the second transfer unit is spaced apart from the first transfer unit when the input or withdrawal of the medium is not detected by the sensor. 3. The method of claim 2,
The first transmission unit includes a reduction gear receiving the driving force of the drive source,
And the second transfer unit includes a clutch gear selectively engaged with the reduction gear, and a plate lift lifting pulley connected to the clutch gear to drive the plate. The method of claim 6, wherein the driving force transmission unit,
And a damping gear connected to the plate elevating pulley to prevent the plate from falling. A media access section for accessing and depositing the media; And
A media aggregator for storing the media,
The media integration device,
A feed roller for drawing in or drawing out the medium, a mill plate for supporting the medium, and a single drive source for generating a driving force for driving the feed roller and the plate, wherein the drive force of the drive source is for pulling in or out of the medium. A financial device that can be selectively delivered to the smear depending on whether withdrawal.

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