KR20160053040A

KR20160053040A - Medium storage

Info

Publication number: KR20160053040A
Application number: KR1020140149263A
Authority: KR
Inventors: 윤수현; 이동식
Original assignee: 노틸러스효성 주식회사
Priority date: 2014-10-30
Filing date: 2014-10-30
Publication date: 2016-05-13

Abstract

It is an object of the present invention to provide a medium storage unit having a plurality of storage units that perform different functions in one cassette module, and capable of smoothly performing stacking and separation operations on media having different functions.
The media storage unit 400 of the present invention for realizing this includes a first storage unit 400a for storing a first medium; A second storage unit 400b for storing a second medium separated from the first storage unit 400a; A first push plate 410 supporting and supporting the first medium stored in the first storage unit 400a; A second push plate 420 separated from the first storage unit 400a and the second storage unit 400b and lifted and lowered to support a second medium stored in the second storage unit 400b; And a stack and separator (430) for stacking or separating the first medium or the second medium, wherein the stack and separator (430) are arranged to separate the first medium or the second medium And a friction member 420a having a frictional coefficient greater than that of the pickup roller 431 is attached to the bottom surface of the second push plate 420. [

Description

Medium storage section {Medium storage}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a medium storage unit, and more particularly, to a medium storage unit capable of stacking and separating a plurality of media having different functions in the same cassette module, And a medium storage unit.

2. Description of the Related Art In general, a media deposit and withdrawal apparatus is provided with a medium storage unit for storing a medium for deposit and withdrawal of a medium such as a check or banknote.

In the prior art relating to the conventional media depositing and dispensing apparatus, Japanese Patent Application Laid-Open No. 10-2014-0019129 discloses a recording apparatus including a paper currency temporary storage unit and a check temporary storage unit separately, wherein the medium storage unit includes a paper currency cassette storing paper currency, And a check cassette for separating the cassette.

According to such a configuration, the temporary storage of the medium is performed in the temporary storage section configured by the temporary storage section for only the bill and the temporary storage section for the check, and the storage for the deposit or withdrawal of the medium is divided into the paper currency cassette and the check cassette It is necessary to provide a number of cassette modules corresponding to the functions of the medium by being separately performed in the medium storage section and it is impossible to perform stacking and separation operations for a plurality of media having different functions in one cassette module have.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a cassette module having a plurality of storage units performing different functions, The present invention has been made in view of the above problems.

In order to achieve the above-mentioned object, the media storage unit 400 of the present invention includes a first storage unit 400a for storing a first medium; A second storage unit 400b for storing a second medium separated from the first storage unit 400a; A first push plate 410 supporting and supporting the first medium stored in the first storage unit 400a; A second push plate 420 separated from the first storage unit 400a and the second storage unit 400b and lifted and lowered to support a second medium stored in the second storage unit 400b; And a stack and separator (430) for stacking or separating the first medium or the second medium, wherein the stack and separator (430) are arranged to separate the first medium or the second medium And a friction member 420a having a frictional coefficient greater than that of the pickup roller 431 is attached to the bottom surface of the second push plate 420. [

A non-skid member 431a is attached to the outer circumferential surface of the pick-up roller 431 to increase the frictional force at the contact portion with the medium when the medium is cut out. The friction member 420a is fixed to the outer surface of the non-skid member 431a And has a coefficient of friction larger than that of the friction coefficient.

A cutout portion 420b through which the pick-up roller 431 passes when the second push plate 420 is moved up and down is formed in a part of the second push plate 420 positioned directly below the pick- And the friction member 420a may be attached to the bottom surface of the second push plate 420 in a region where the cut-out portion 420b is not formed.

The second push plate 420 is seated on the first medium to be stored on the first push plate 410, and in the separating operation of the second medium, the friction member 420a is placed in the first storage Is contacted with the first medium located at the uppermost one of the first media stored in the first storage unit (400a).

The first medium is a payout check, the first storage unit 400a functions as a payout check storage unit, the second medium is a deposit check, and the second storage unit 400b is a deposit check temporary storage unit And the like.

According to the medium storage unit of the present invention, the internal space of the medium storage unit is divided into the first storage unit and the second storage unit by the first push plate and the second push plate, and the first storage unit and the second storage unit It is possible to stack and separate the media having different functions, thereby improving the space utilization of the medium storage unit.

Further, by attaching a friction member having a frictional coefficient larger than the friction coefficient of the pickup roller to the bottom surface of the second push plate, it is possible to prevent the malfunctioning in which the first medium is detached together during the separation operation of the second medium, It is possible to omit the operation of returning and re-separating the medium at the time of separating two sheets by erroneous operation, thereby improving the processing speed of the medium.

1 is a configuration diagram of a media deposit and withdrawal apparatus including a medium storage unit according to the present invention;
2 is a configuration diagram of a medium storage unit according to the present invention;
3 is a cross-sectional view illustrating a separation operation state of a second medium stored in a second storage unit according to the present invention,
4 is a control block diagram of a medium storage unit according to the present invention.
FIG. 5 is a diagram showing a stack operation state of a second medium in the medium storage unit according to the present invention,
FIG. 6 is a diagram illustrating a separation operation state of a second medium in the medium storage unit according to the present invention,
7 is a diagram illustrating a stack operation state of a first medium in a medium storage unit according to the present invention,
8 is a view illustrating a separation operation state of a first medium in a medium storage unit according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a media deposit and withdrawal apparatus including a medium storage unit according to the present invention. An embodiment of the medium deposit and withdrawal apparatus including the medium storage unit 400 of the present invention includes a depository and withdrawal unit 100 for inputting and receiving a medium, A printer unit 300 that prints deposit confirmation information on the surface of the check when depositing a check discriminated as a normal one among the media having passed through the discriminating unit 200, And a second storage unit 400b for temporarily storing a check which does not require the inversion of the front and back of the medium having passed through the discriminating unit 200 in the deposit counting process, A temporary storage unit 500 for temporarily storing checks and bills necessary for inversion of the medium having passed through the discriminating unit 200 in the deposit counting mode, A bill storage unit 600 in which bills are transported and stored, A deposit check storage 700 in which a check stored in the second storage unit 400b is stored after being printed by the printer unit 300 at the time of gold storage and a conveyance path 900 for providing a conveyance path of the medium, . The media depositing and dispensing apparatus may further include a replenishment / collection number storage unit 810, a check rejection storage unit 820, a banknote rejection volume storage unit 830 and 840, and a lost collection number storage unit 850 .

Hereinafter, the media deposit and withdrawal apparatus will be described in terms of its components.

The deposit and withdrawal unit 100 is a space in which checks or bills are selectively inserted, a check and a bill are put together and loaded, and a deposit medium is loaded into the deposit and withdrawal unit 100, And may include a medium discharging and storing mechanism for storing the withdrawal medium into the deposit-and-withdrawal portion 100.

The discrimination unit 200 discriminates the presence or absence of abnormality of the medium conveyed along the conveying path 901 and the front and back of the denomination and the check and includes a conveying path in which the medium is conveyed, The discriminating unit 200 is configured to be able to discriminate the medium regardless of the conveying direction during bidirectional transportation of the medium.

The discrimination unit 200 includes sensing means such as a length detection sensor, an image sensor and a two-sheet sensing unit to sense the length of the medium passing through the transport path 901, If the medium to be transported is a check, information such as a unique number and money amount information of the check is detected and transmitted to a control unit (not shown). In the case of a banknote, The authenticity of the banknote, the denomination of the banknote, and the damage are detected and transmitted to the control unit.

On the basis of the information detected by the discerning unit 200, the control unit divides the medium into a normal ticket and a reject ticket, identifies the denomination of the medium, and controls the transport path of the medium to follow the set path. The control unit determines whether the surface position of the check inserted into the deposit / withdrawal unit 100 by the customer is disposed in the direction toward the nozzle of the printer unit 300, And controls the conveying path of the check which requires no inversion of the check and the conveying path of the check which requires the inversion of the surface.

The printer unit 300 may be provided with a date and unique number on the surface of a check which is discharged from the second storage unit 400b of the media storage unit 400 and is transported toward the check storage unit 700, (Not shown) for ejecting ink, and a platen (not shown) provided at a position facing the nozzle and for elevating and retracting the check.

The media storage unit 400 includes a first storage unit 400a for storing a first medium (payout check) and a second storage unit 400b for temporarily storing a second medium (deposit check) In the cassette. The specific configuration and operation of the medium storage unit 400 will be described later.

The temporary storage unit 500 temporarily stores the checks and bills discriminated as requiring the front / back inversion in the depositing counting unit 200, temporarily stores the medium discriminated by the rejecting unit 200 at the withdrawal time discriminating unit 200, And stores it.

The paper money storage unit 600 stores paper currency deposited therein, separates the paper currency withdrawn by the withdrawal signal, and supplies the separated paper currency to the transport path 902. The bill storage unit 600 may include a plurality of cassettes 610, 620, and 630 for storing identical or different denomination bills.

The deposit check storage 700 stores the check temporarily stored in the second storage unit 400b of the media storage unit 400 by the user's deposit request and prints the check in the printer unit 300, .

The supplement / coupon storage unit 810 functions to replenish banknotes to the banknote storage unit 600 at the time of supplementing, recovering or adjusting the medium, or storing the banknotes recovered from the banknote storage unit 600 .

The check rejection storage unit 820 and the banknote rejection volume storage units 830 and 840 are spaces in which a rejection right discriminated as an abnormality in the discrimination unit 200 among the checks and bills to be withdrawn is collected and stored .

The lost / numbered ticket storage unit 850 stores the lost / paid-in amount of the medium or the medium discharged from the medium storage unit 400 and the temporary storage unit 500 in the deposit / 100 in the case where the user does not receive the medium for a certain period of time.

The conveyance path 900 includes a first conveyance path 901 for connecting the deposit and withdrawal unit 100 and the discrimination unit 200 and a second conveyance path 901 for connecting the discrimination unit 200 and the medium storage unit 400, A third conveying path 903 for connecting the media storage unit 400 and the temporary storage unit 500 to each other, a third conveying path 903 branched from the third conveying path 903 and connected to the discriminating unit 200 side A fourth conveying path 904 and a fifth conveying path 905 branching from the third conveying path 903 and connected to the deposit check storage 700. The fifth conveying path 905 branched from the third conveying path 903, And a sixth conveying path 906 connected to the collection number storage unit 850.

Hereinafter, the configuration and operation of the medium storage unit 400 according to the present invention will be described in more detail. FIG. 2 is a configuration diagram of a medium storage unit according to the present invention, FIG. 3 is a sectional view showing a separation operation state of a second medium stored in a second storage unit according to the present invention, FIG. 4 is a control block diagram to be.

The media storage unit 400 of the present invention includes a first storage unit 400a for storing a first medium and a second storage unit 400b for storing a second medium separated from the first storage unit 400a, . In one embodiment, the first medium is a withdrawal check, the first storage unit 400a functions as a withdrawal check storage unit, the second medium is a deposit check, and the second storage unit 400b is a deposit It can be configured to function as a check temporary storage section. However, the functions of the first medium and the second medium and the functions of the first storage unit 400a and the second storage unit 400b are not limited thereto and may be modified to other types and functions.

The media storage unit 400 includes a first push plate 410 supporting the first medium stored in the first storage unit 400a and moving up and down, And a second push plate 420 for separating the second storage unit 400b and supporting the second medium stored in the second storage unit 400b. The first push plate 410 and the second push plate 420 are respectively provided with roller members 411 and 421 at one side thereof and the roller members 411 and 421 are supported by guide rails And the like).

In addition, a stacking and separating part 430 for stacking or separating the first medium or the second medium is provided in the vicinity of the media inlet / outlet of the upper side of the medium storage part 400. The stacking and separating unit 430 is configured to separate the medium from the first storage unit 400a or the second storage unit 400b to the transporting path 902. The stacking and separating unit 430 includes a pickup roller 431 for separating the media from the first storage unit 400a or the second storage unit 400b, A feed roller 432 for conveying the picked-up medium, and a guide roller 433 for preventing separation of two sheets of the medium, Or the stacker roller 434 for storing in the second storage part 400b.

A nonslip member 431a is attached to a part of the outer circumferential surface of the pickup roller 431 in order to increase the frictional force with the medium when the medium is separated from the medium. The stack roller 434 has a plurality of The stack sheet 434a may be configured to be attached in a circumferentially spaced manner.

A conveying guide 450 for guiding the medium passing between the feed roller 432 and the guide roller 433 to the conveying path 902 is provided in the upper part of the medium storage part 400, An upper guide 460 is provided to prevent the media being struck by the stack sheet 434a from skidding.

2, when the nonslip member 431a is attached to the pickup roller 431 or the outer circumferential surface of the pickup roller 431, the friction coefficient of the nonslip member 431a is set at the bottom surface of the second push plate 420, A friction member 420a having a greater friction coefficient is attached. A portion of the second push plate 420 positioned immediately below the pickup roller 431 is provided with a cutout portion through which the pickup roller 431 passes when the second push plate 420 is moved upward, And the friction member 420a may be attached to an area where the cutout 420b is not formed. For example, the friction member 420a may be formed of a rubber material, but may be made of fibers, synthetic resin, or the like having a large friction coefficient in addition to rubber.

2, the cut-out portion 420b is formed in a part of one end of the second push plate 420. However, in another embodiment, the cut- The cutout 420b may be formed in an intermediate region of one side of the second push plate 420 as shown in FIG. The second push plates 420 and 420 'shown in FIGS. 2 and 3 (a) are moved upward in stacking or separation of the first medium, as described later, The separating operation of the first medium M1, which is carried on the lower side of the first medium M1, is performed.

As another example, the second push plate 420 "shown in FIG. 3 (b) may be formed with a closed top without forming a cut, (Not shown) for moving the second push plate 420 " to a position where the second push plate 420 " does not interfere with the pickup roller 431. [

The friction member 420a having a greater friction coefficient than that of the non-sliding member 431a attached to the outer peripheral surface of the pickup roller 431 is attached to the bottom surface of the second push plates 420, 420 ', 420 " The upper surface of the first medium M1 located at the uppermost one of the first medium M1 stored in the first storage unit 400a is separated from the upper surface of the first medium M1 stored in the first storage unit 400a, The slip between the friction member 420a and the first medium M1 is prevented by being held in contact with the bottom surface of the cutout 420a by the pickup operation of the pickup roller 431, So that it can be prevented from being detached together with the second medium M2.

3 (b), even if the second push plate 420 'is formed in a vertically clogged shape, the friction member 420a is attached to the bottom surface of the first push plate 420' The first medium M1 is moved to the second medium M2 by the electrostatic force generated between the second medium M2 and the first medium M1 during the separation operation of the second medium M2. And can be prevented from being detached and detached together.

Referring to FIG. 4, the media storage 400 of the present invention includes a command input unit 1100 for inputting a deposit and withdrawal command by a customer, a first push plate 410 A second driving unit 1300 for providing power for lifting and moving the second push plate 420 and a second driving unit 1300 for providing power for lifting and lowering the stack and separation unit 430 A second driving unit 1300 and a third driving unit 1400 based on a signal input to the command input unit 1100. The third driving unit 1400 provides power for driving the first and second driving units 1200 and 1000, And a control unit 1000 for controlling the driving.

FIG. 5 is a diagram illustrating a stack operation state of a second medium in the medium storage unit according to the present invention, and FIG. 6 is a state diagram illustrating a second medium in a media storage unit according to the present invention.

As shown in FIGS. 5 and 6, in the stacking or separating operation of the second medium, the second push plate 420 is seated on the first medium loaded on the first push plate 410, The first push plate 410 and the second push plate 420 are lifted and lowered together with the driving of the driving unit 1200 and the third driving unit 1400 and the separation operation is performed from the stack of the second medium. The first medium is held in contact with the friction member 420a attached to the bottom surface of the second push plate 420 as described above so that the pickup roller 431 It is possible to prevent a malfunction in which the first medium loaded on the lower side of the second push plate 420 is separated together with the second medium during the pickup operation of the second medium by rotation.

FIG. 7 is a diagram illustrating a stack operation state of a first medium in a medium storage unit according to the present invention, and FIG. 8 is a state diagram illustrating a separation operation of a first medium in the medium storage unit according to the present invention.

7 and 8, before the stacking or separating operation of the first medium, the second push plate 420 is moved upward by the driving of the second drive portion 1300 to move the second push plate 420 And the lower part of the pickup roller 431 is fixed in a state of protruding downward from the lower end of the cutout part 420b. Then, the first and second driving units 1200 and 1400 are driven to perform a separation operation from the stack of the first medium.

As described above, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention as defined in the appended claims. And such modifications are within the scope of the present invention.

100: Deposit and withdrawal unit 200:
300: printer unit 400: media storage unit
400a: Deposited check storage unit (first storage unit)
400b: a deposit check temporary storage unit (second storage unit)
410: first push plate 411: roller member
420: second push plate 420a: friction member
420b: cut section 421: roller member
430 stacking and separating section 431 pick-up roller
431a: Non-skid member 432: Feed roller
433: guide roller 434: stack roller
434a: stack sheet 440: guide member
450: conveying guide 460: upper guide
500: Temporary storage unit 600: Banknote storage unit
700: Deposit check storage unit 810: Replenish /
820: Check rejection storage unit 830, 840: Bank note rejection volume storage unit
850: lost-number-of-receipt storing section 900:
1000: control unit 1100: command input unit
1200: first driving part 1300: second driving part
1400:

Claims

A medium storage unit for storing media sheets,
A first storage unit 400a for storing a first medium;
A second storage unit 400b for storing a second medium separated from the first storage unit 400a;
A first push plate 410 supporting and supporting the first medium stored in the first storage unit 400a;
A second push plate 420 separated from the first storage unit 400a and the second storage unit 400b and lifted and lowered to support a second medium stored in the second storage unit 400b; And
And a stack and separator (430) for stacking or separating the first medium or the second medium,
The stack and separator 430 includes a pickup roller 431 for separating the first medium or the second medium from the first medium or the second medium and a friction coefficient of the pickup roller 431 Wherein a friction member (420a) having a greater friction coefficient is attached.

The method according to claim 1,
A non-skid member 431a is attached to the outer circumferential surface of the pickup roller 431 to increase the frictional force at the contact portion with the medium when the medium is cut out.
Wherein the friction member (420a) has a friction coefficient greater than a friction coefficient of the non-skid member (431a).

The method according to claim 1,
A cutout portion 420b through which the pick-up roller 431 passes when the second push plate 420 is moved up and down is formed in a part of the second push plate 420 positioned directly below the pick- Is formed,
Wherein the friction member (420a) is attached to the bottom surface of the second push plate (420) in a region where the cut-out portion (420b) is not formed.

The method according to claim 1,
The second push plate 420 is seated on the first medium stored on the first push plate 410,
Wherein the friction member (420a) is in contact with the first medium located at the uppermost one of the first media stored in the first storage unit (400a) during the separation operation of the second medium.

The method according to claim 1,
The first medium is a payout check, the first storage unit 400a functions as a payout check storage unit, the second medium is a deposit check, and the second storage unit 400b is a deposit check temporary storage unit Wherein the media storage unit is operable to store the media data.