KR101212297B1 - stack roller - Google Patents

Abstract

The present invention is applied to a media processing apparatus, such as a banking machine for processing banknotes, and relates to a stack roller for hitting one side of the medium is separated into sheets and transported through the conveying path to the media storage unit, fixed to the rotating shaft A first roller having a first stack sheet formed on a portion of the outer circumferential surface thereof, and a first roller formed on the rotating shaft adjacent to the first roller and rotatably connected on the rotating shaft to rotate with a constant phase difference with the first roller, and to the second stack on a portion of the outer circumferential surface thereof. In constructing a stack roller including a second roller having a sheet, the first stack sheet and the second stack sheet provided in the first roller and the second roller, respectively, are densely arranged at both edges and relatively wide in the center. Arranged so that the gap between the stack sheet becomes wider between the first stack sheet and the second stack sheet when the first roller and the second roller are rotated. By configuring so that it is possible to compensate the lowering of the impact force that may occur at the same time to improve the efficiency of the media stack, to a stack roller that can prevent a reduction in the impact force according to the deformation of the sheet stack.
The stack roller according to the present invention is a stack roller provided in a media feeding and collecting unit for feeding a medium from a medium storage unit or accumulating a medium conveyed to the medium storage unit, wherein the stack roller is fixed to a rotating shaft, At least one first roller having a plurality of first stack sheets formed thereon; And at least one second provided on the rotating shaft to be positioned adjacent to the first roller, and configured to rotate with a predetermined phase difference with the first roller when media is accumulated, and a plurality of second stack sheets formed on a portion of an outer circumferential surface thereof. The first stack sheet and the second stack sheet formed on the first roller and the second roller, respectively, are densely arranged at both edges, and are arranged at relatively wide intervals at the center side. It features.

Description

Stack roller

The present invention is applied to a media processing apparatus, such as a banking machine for processing banknotes, and relates to a stack roller for hitting one side of the medium is separated into sheets and transported through the conveying path to the media storage unit, fixed to the rotating shaft A first roller having a first stack sheet formed on a portion of the outer circumferential surface thereof, and a first roller formed on the rotating shaft adjacent to the first roller and rotatably connected on the rotating shaft to rotate with a constant phase difference with the first roller, and a second stack on a portion of the outer circumferential surface In constructing a stack roller including a second roller having a sheet, the first stack sheet and the second stack sheet provided in the first roller and the second roller, respectively, are densely arranged at both edges and relatively wide in the center. Arranged so that the gap between the stack sheet becomes wider between the first stack sheet and the second stack sheet when the first roller and the second roller are rotated. By configuring so that it is possible to compensate the lowering of the impact force that may occur at the same time to improve the efficiency of the media stack, to a stack roller that can prevent a reduction in the impact force according to the deformation of the sheet stack.

Automated Teller Machine (ATM) is an automated device that can support basic financial services such as deposit or withdrawal without a bank employee regardless of place and time. The automated teller machine includes an input unit for inputting information for financial transactions, a screen unit for displaying a financial transaction menu and transaction status, and a banknote deposit and withdrawal device that allows a customer to input or receive banknotes for deposit and withdrawal transactions. do.

1 is a view schematically showing the configuration of a banknote withdrawal device applied to a general automated teller machine.

Referring to FIG. 1, the banknote deposit and withdrawal device includes a deposit and withdrawal unit 10 for a customer to input or receive a banknote for deposit and withdrawal, a conveyance path 20 through which the banknotes withdrawn and withdrawn through the deposit and withdrawal unit 10 are conveyed, and conveyed. The discrimination unit 30 provided on the furnace 20 to determine the authenticity or damage of the banknote, the temporary storage unit 40 temporarily storing the banknotes deposited, and the banknotes deposited from the customer are loaded and requested to withdraw. If there is a configuration, including a plurality of recycling boxes 50 to take out the bill.

The banknote deposit and withdrawal device configured as described above is provided with a banknote dispensing and collecting device for extracting and collecting banknotes. Banknotes collecting and collecting device is installed in a portion where banknotes are stored, such as temporary storage unit 40, recycling box 50, etc., banknote storage unit for storing the banknotes, and feeding to perform the extraction and accumulation of banknotes using a roller It consists of an integrated part.

2 is a view showing the configuration of a banknote dispenser of a general automated teller machine, an example of a temporary storage unit will be described as an example.

Referring to FIG. 2, the temporary storage unit includes a banknote storage unit 45 and a feeding and collecting unit 100. The feeding and condensing unit 100 includes a pickup roller 110 that provides a separation pressure for separating the bills P one by one, and the bill P separated by the pickup roller 110 on the conveying path 20. Feed roller 112 for accumulating the bills P conveyed from the conveyance path 20 or from the conveying path 20 to the bill storage unit 45, and the bills P are brought into contact with the feed rollers 112 to transfer the bills P therebetween. The guide roller 114, which is provided on the coaxial with the guide roller 114, the stacking roller 116 and a plurality of stack sheets (S) formed on the outer circumferential surface to guide the bill to the bill storage unit 45 The guide plate 119 is comprised.

Here, the stack roller 116 is provided with a plurality of stack sheets (S) rotated with the rotation of the stack roller 116, the stack sheet (S) is transported so as not to interfere with the bills to be dispensed when the bills are delivered When the banknote is evacuated from the path, the banknote P is arranged to be neatly accumulated in the banknote storage unit 45 by hitting one surface of the banknote P that is entered and accumulated in the transport path.

Accordingly, when the stack sheet is formed to be formed over the entire outer circumferential surface of the stack roller, some of the stack sheets are always positioned on the conveying path where the bills are transported, so that the stack sheets contact the bills when the bills are taken out from the bill storage unit. There is a problem that affects the delivery of bills.

In order to solve this problem, using a pair of stack rollers having a stack sheet formed only on a part of the outer circumference, the stack sheet enters the conveying path and contacts the paper when the bill is accumulated, and the stack sheet is transported when the bill is taken out. It is evacuated from and prevents the bill from being interrupted.

Examples thereof include sheet rollers described in Korean Patent Application No. 2008-127635 filed by the present applicant, which is installed on the rotating shaft to rotate together with the rotating shaft, and a plurality of fixed elastic sheets spaced apart from each other on the outer circumferential surface thereof. The fixed roller is formed on the rotating shaft so as to be located on one side of the fixed roller, and a plurality of idle elastic sheets are formed on the outer circumferential surface thereof, and the idle roller and the fixed roller which can be rotated relative to the fixed roller as the rotating shaft rotates. And a phase recovery means for retracting the idle elastic sheet from the conveying path to which the medium is conveyed by eliminating the phase difference due to the relative rotation of the idle roller.

Here, the idle roller is configured to rotate in conjunction with the fixed roller, when the rotation axis is rotated for the accumulation of the media, the fixed elastic sheet and the idle elastic sheet formed on the fixed roller and the idle roller, respectively, rotates in a radial manner When the rotation of the rotating shaft is stopped, the idle elastic sheet is retracted on the conveying path through the phase recovery means.

In this case, however, the fixed elastic sheet and the idle elastic sheet are formed at regular intervals over a portion of the outer circumferential surface of the roller, that is, about 120 ° to 150 ° for effective evacuation during media feeding. When the fixed elastic sheet and the idle elastic sheet intersect during rotation, the gap between the elastic sheets inevitably becomes wider, and thus the impact force of the media through the elastic sheet in the gap portion generated between the fixed elastic sheet and the idle elastic sheet during media accumulation. There is a problem that this is reduced and the media cannot be stably integrated in the media storage.

In addition, the elastic sheet as described above is easily bent by repeated use due to the characteristics of the material, and the shape is easy to change due to environmental conditions such as air temperature, thereby minimizing the shape change of the elastic sheet to prevent a decrease in impact force and at the same time durability. There are a variety of ways to improve.

The present invention is to solve the above problems, the first roller is fixed to the rotating shaft and a first stack sheet is formed on a portion of the outer peripheral surface, and provided with a first roller on the rotating shaft adjacent to the rotatable shaft is connected to the first In the construction of the stacking roller including a second roller having a predetermined phase difference with the roller and having a second stack sheet formed on a part of the outer circumferential surface, the first stack sheet and the second stack sheet provided in the first roller and the second roller, respectively. The stack sheet is densely arranged at both edges and at relatively wide intervals at the central part, and the gap between the stack sheets becomes wider between the first stack sheet and the second stack sheet when the first roller and the second roller are rotated. It is possible to improve the stacking efficiency of the media by compensating for the reduction of the impact force, and at the same time It is an object of the present invention to provide a stack roller that can prevent the degradation.

The stack roller according to the present invention is a stack roller provided in a media feeding and collecting unit for feeding a medium from a medium storage unit or accumulating a medium conveyed to the medium storage unit, wherein the stack roller is fixed to a rotating shaft, At least one first roller having a plurality of first stack sheets formed thereon; And at least one second provided on the rotating shaft to be positioned adjacent to the first roller, and configured to rotate with a predetermined phase difference with the first roller when media is accumulated, and a plurality of second stack sheets formed on a portion of an outer circumferential surface thereof. The first stack sheet and the second stack sheet formed on the first roller and the second roller, respectively, are densely arranged at both edges, and are arranged at relatively wide intervals at the center side. It features.

The stack roller according to the present invention is formed on a portion of the first stack sheet formed on a portion of the outer circumferential surface of the first roller fixed to the rotating shaft, and formed on a portion of the outer circumferential surface of the second roller provided adjacent to the first roller and rotatably connected on the rotating shaft. By arranging the second stack sheet to be densely arranged at both edges and at relatively wide intervals at the central side, the gap between the stack sheets between the first stack sheet and the second stack sheet becomes wider when the first roller and the second roller are rotated. Compensation for the lowering of the impact force caused by the improvement of the stack efficiency of the medium and at the same time, it is effective to prevent the deformation of the shape of the stack sheet to improve the durability.

1 is a view showing the configuration of a banknote withdrawal device of a general automatic teller machine.
2 is a view showing the configuration of a banknote dispenser of a general automated teller machine.
Figure 3 is a perspective view showing the configuration of a stack roller according to an embodiment of the present invention.
4 is a view showing a cross-sectional structure of a stack roller according to an embodiment of the present invention.
5 is a view showing a state in which a flange is additionally installed in the configuration of the stack roller shown in FIG.
6 is a view showing a state of use of the stack roller shown in FIG.
7 is a view showing a cross-sectional structure of a stack roller according to another embodiment of the present invention.
8 is a view showing a state of use of the stack roller shown in FIG.

EMBODIMENT OF THE INVENTION Hereinafter, although the Example of this invention is described in detail, this invention is not limited to a following example, unless the summary is exceeded.

The stack roller according to the present invention is provided in a media feeding and collecting section including a media storage section for storing media such as banknotes and the like, and a media feeding section for dispensing and accumulating the media. Used to reliably integrate media storage.

Figure 3 is a perspective view showing the configuration of a stack roller according to an embodiment of the present invention, Figure 4 is a view showing a cross-sectional structure of the stack roller according to an embodiment of the present invention, Figure 5 is a stack shown in Figure 3 The figure which shows the state which installed the flange in addition to the structure of a roller.

Referring to FIG. 3, the stack roller according to the present invention may be fixed to the rotating shaft 310 so as to rotate together with the rotating shaft 310, and a first roller having a plurality of first stack sheets 322 formed on an outer circumferential surface thereof. 320 and a first roller 320 adjacent to each other and rotatably connected on the rotation shaft 310 to rotate with a predetermined phase difference with the first roller 320 and include a plurality of second stack sheets on a portion of an outer circumferential surface thereof. It is configured to include a second roller 330 is formed 332. In this case, a plurality of first rollers 320 and second rollers 330 may be installed on the rotating shaft 310, and at least one pair on both edges of the rotating shaft 310 in order to stably integrate the transported medium. It is preferable that the first roller 320 and the second roller 330 of each is provided.

The first roller 320 is fixed to the rotating shaft 310 to rotate together with the rotating shaft 310 along the direction of rotation of the rotating shaft 310 when the rotating shaft 310 is rotated, when the rotation of the rotating shaft 310 stops the rotating shaft ( At the same time as 310, the rotation is stopped.

The second roller 330 is provided on one side of the first roller 320 is connected to the rotary shaft 310 to be rotatable on the rotary shaft 310, the first roller 320 when the first roller 320 is rotated It is connected to rotate in conjunction with.

In addition, although not shown in detail in the drawings, the first roller 320 and the second roller 330 is formed so that the stepped structure 335 on the opposite side is connected to be engaged with each other, the first roller 320 ) And a second phase recovery means (not shown) is provided between the second roller 330, when the first roller 320 rotates when the rotating shaft 310 is rotated, the second roller 330 is By the stepped structure 335 has a constant phase difference with the first roller 320 and rotates in conjunction with the first roller 320, and when the rotation of the rotary shaft 310 is stopped by returning to the initial state through the phase recovery means And the first and second stack sheets 322 and 332 can be evacuated on the conveying path.

In the above-described embodiment, the configuration in which the first roller 320 and the second roller 330 rotate with a constant phase difference by using the step structure 335 and the phase recovery means is described. When the second roller 330 is rotated with a predetermined phase difference from the first roller 320, and the rotation of the rotating shaft 310 is stopped, any structure that can recover the phase difference with respect to the first roller 320 can be applied. Of course.

In addition, in the present embodiment, when configuring the first stack sheet 322 and the second stack sheet 332, the first stack sheet 322 and the second stack sheet 332 as shown in FIG. It is formed only on a part of the outer circumferential surface of the first roller 320 and the second roller 330, the first stack sheet 322 and the second stack sheet 332 is densely arranged at both edge side (E), the central side ( In C), they are arranged at relatively wide intervals. The reason for arranging the first stack sheet 322 and the second stack sheet 332 in this manner is that the first roller 320 and the second stack sheet 332 may be effectively evacuated. The first stack sheet 322 and the second stack sheet 332 formed on the second roller 330 may have a center angle of 120 ° to 150 ° on the outer circumferential surfaces of the first roller 320 and the second roller 330. θ), and the first and second stack sheets 322 and 332 rotate in a radial direction when the first roller 320 and the second roller 330 rotate. At the intersection of the first stack sheet 322 and the second stack sheet 332, the gap W between the stack sheets becomes wider, and the impact force of the medium decreases in the widened gap W portion, so that the first stack sheet ( By densely arranging 322 and the second stack sheet 332 at both edges, the number of blows through the first stack sheet 322 and the second stack sheet 332 before and after the widened gap W increases. Ta It is possible to compensate for that force is reduced.

When the stack sheet is densely constructed as described above, the stack sheets adjacently arranged may support the curved stack sheet after hitting the media, thereby minimizing deformation of the stack sheet.

In addition, as shown in FIG. 5, one side of the first roller 320 and the second roller 330 is formed in an area corresponding to an area where the first stack sheet 322 and the second stack sheet 332 are formed. The fan-shaped flange 350 may be provided respectively. The flange 350 is connected to rotate together with the first roller 320 and the second roller 330 when the rotating shaft 310 is rotated, the flange 350 is the first roller when the rotating shaft 310 is rotated While rotating together with the 320 and the second roller 330, the upper portion protrudes on the conveying path to which the medium is conveyed, and serves to give rigidity to the medium by bending the medium by pushing both ends of the medium upward. When the rotation of the 310 is stopped, the upper part is retracted on the conveyance path together with the stack sheets 322 and 332. The media can be integrated in the best state when stored in the media storage with both ends raised.

6 is a view showing a state of use of the stack roller shown in FIG.

As shown in FIG. 6, when the first roller 320 and the second roller 330 rotate, the first stack sheet 322 and the second stack sheet 332 rotate in a radial manner. P) The first stack sheet 322 and the second stack sheet 332 which are densely arranged at both edges with the gap generated between the first stack sheet 322 and the second stack sheet 332 before and after hitting. Through the increase in the number of blows of the medium (P) it is possible to effectively align the medium when the medium is accumulated.

7 is a view showing a cross-sectional structure of a stack roller according to another embodiment of the present invention.

In the present embodiment, in configuring the first stack sheet and the second stack sheet, as illustrated in FIG. 7, the first roller 320 and the second roller 330 may include the main sheets 325 and 335 that strike the medium directly. (B) formed on a part of the outer circumferential surface, and are densely arranged at both edge sides and at a relatively wide interval at the central portion, and at one side of the main sheets 325 and 335, a length shorter than the length of the main sheets 325 and 335 is provided. Auxiliary sheets 327 and 337 having the same shape. At this time, the auxiliary sheets 327 and 337 are provided in a direction in which the main sheets 325 and 335 are bent while hitting the medium, while supporting the main sheets 325 and 335 while pushing up the bent upper end side of the main sheet to its original state. It serves to restore. The main sheets 325 and 335 may be formed using an elastic material such as rubber, which is usually used as a stack sheet, and the auxiliary sheets 327 and 337 may be formed of the same material or the main sheet 325 as the main sheets 325 and 335. , 335 may be formed using a material such as plastic having a higher hardness.

When the stack sheet is configured as described above, when the first roller 320 and the second roller 330 rotate, the first stack sheet and the second stack sheet adjacent to each other when the first stack sheet and the second stack sheet rotate in a radial manner. In the gap between the stack sheets, it is possible to compensate for the lowering of the force of the medium through the main sheets 325 and 335, as well as to directly hit the medium through the auxiliary sheets 327 and 337. By minimizing deformation, the integration of media can be performed effectively.

8 is a view showing a state of use of the stack roller shown in FIG.

As shown in FIG. 8, when the first roller 320 and the second roller 330 rotate, the first stack sheet and the second stack sheet are rotated in a radial manner, and the first stack sheet and the second stack are rotated. The main sheets 325 and 335 constituting the sheet are densely arranged at both edges to sufficiently accumulate the media P by hitting one surface of the media P sufficiently, and the main sheets 325 and 335 The auxiliary sheets 327 and 337 provided at the rear side support the upper side of the main sheets 325 and 335, which can be deformed through repeated hitting of the medium P, thereby preventing the deformation of the main sheets 325 and 335. It can be prevented.

Although the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be defined by the appended claims and equivalents thereof.

10: deposit and withdrawal part 20: return path
30: discriminating unit 40: temporary storage unit
45: banknote storage unit 50: recycling box
100: feeding integration unit 110: pickup roller
112: feed roller 114: guide roller
116: stack roller 117, 310: rotation axis
119: guide portion 320: first roller
322: first stack sheet 325, 335: main sheet
327, 337: auxiliary sheet 330: second roller
332: second stack sheet

Claims (5)

A stack roller provided in a medium feeding and collecting unit for feeding a medium from a medium storage unit or accumulating a medium transferred to the medium storage unit,
The stack roller,
At least one first roller fixed to the rotating shaft and having a plurality of first stack sheets formed on a portion of an outer circumferential surface thereof; And
At least one second roller provided on the rotating shaft to be positioned adjacent to the first roller, and configured to rotate with a predetermined phase difference with the first roller when media is accumulated, and having a plurality of second stack sheets formed on a part of an outer circumferential surface thereof. ;
, ≪ / RTI >
The first stack sheet and the second stack sheet respectively formed on the first roller and the second roller,
The stacking rollers are densely arranged at both edge sides, and are arranged at relatively wide intervals at the central portion side. The method of claim 1,
The first stack sheet and the second stack sheet formed on the first roller and the second roller,
Stack rollers, characterized in that formed on the outer peripheral surface of the first roller and the second roller in the range having a central angle of 120 ° to 150 °, respectively. 3. The method according to claim 1 or 2,
The first stack sheet and the second stack sheet, respectively,
A main sheet hitting the medium directly; And
An auxiliary sheet provided on one side of the main sheet to have a length shorter than the length of the main sheet to support the main sheet;
Stack roller, characterized in that consisting of. The method of claim 3, wherein
The auxiliary sheet,
And a stack roller formed of a material having a higher hardness than the main sheet. The method of claim 1,
On one side of the first roller and the second roller,
And a fan-shaped flange formed in a region corresponding to the region in which the first and second stack sheets are formed, respectively.

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