KR102030513B1 - Apparatus for receiving and dispensing - Google Patents

Abstract

There is provided a paper money deposit and withdrawal device that allows customers to conveniently withdraw and withdraw money.
Among them, the banknotes deposit and withdrawal device is provided with a cash inlet and withdrawal, the case is provided with a movement path therein, and is installed to be movable along the movement path, the bills received by the cashier with the cashier received Or a separation unit having a carrier for clamping the banknotes to be withdrawn and returning them to the entry and exit port, a separation space for separating the banknotes deposited from the carrier into sheets, and an integrated space for accumulating the banknotes to be withdrawn from the carrier; It may include a rotating unit for rotating the carrier to guide the moved carrier to the separation integrated unit, or to guide the carrier guided to the separation integration unit in the movement path.

Description

Banknotes deposit and withdrawal device {APPARATUS FOR RECEIVING AND DISPENSING}

The present invention relates to a banknote and withdrawal device, and more particularly, to a banknote and withdrawal device that can check the bills located in the cashier and withdrawal and withdrawal of the bills can be convenient.

In general, the automated teller machine can provide unattended services quickly and conveniently without regard to time, most financial services related services except counseling.

1 is a block diagram showing a banknote transfer apparatus of the automatic teller machine according to the prior art. As shown in FIG. 1, the automatic teller machine according to the prior art has a deposit and withdrawal unit 10 for injecting or receiving a bill and a transport path 5 through which the banknotes withdrawn and withdrawn are transferred. It is provided with a discrimination unit 80 for determining whether there is an abnormality of the bill, and a temporary storage unit 90 for temporarily storing the banknotes determined as a normal right as a result of the discrimination of the discrimination unit 80.

The withdrawal unit 10 may be provided with a bill storage space 50 that can be put in the deposit bills or receive the withdrawal bills when the shutter 11 is opened. The banknote storage space 50 forms a front side wall surface of the banknote storage space 50, and is located at the rear of the front plate 20 and the front plate 20 rotatably provided around the hinge axis 21. The back plate 30 is formed between the front plate 20 and the back plate 30 so as to form a rear wall surface of the banknote storage space 50 and to be movable in the front-rear direction. The push plate 40 partitions the withdrawal space 50b and moves in the front-rear direction.

The deposit space 50a may be defined as a space between the front plate 20 and the push plate 40, and a lower portion of the deposit space 50a may be transported to transfer bills introduced into the deposit space 50a to a corresponding storage destination. Separation unit 60 may be provided to separate the furnace (5). The withdrawal space 50b may be defined as a space between the back plate 30 and the push plate 40, and the lower portion of the withdrawal space 50b is determined to have an abnormality in the discriminating unit 80 when the deposit is separated. An accumulator 70 is provided for accumulating the bills withdrawal or depositing the bills in the withdrawal space 50b upon request for deposit or withdrawal.

Separation unit 60 is a pick-up roller 61 for guiding the separation of bills, a feed roller 62 for transferring the bills separated by the pick-up roller 61 to the conveying path 5, and a feed roller 62 ) And a guide roller 63 overlapping with each other to prevent separation of two sheets of banknotes.

The accumulator 70 is coupled to the plurality of through the elastic sheet (71a) of the wing shape hitting the rear end of the banknotes that are transferred to the withdrawal space (50b) and a pilot roller 71 for guiding the accumulation of the banknotes, and the controller The feed roller (not shown) provided on the coaxial with the 71 and the outer circumferential surface are provided so as to be in contact with each other, and consists of a conveying roller for accumulating the bills conveyed along the conveying path 5b into the withdrawal space 50b.

In the conventional banknote transfer device, the customer has to deposit or withdraw the money by inserting a hand into the inside of the shutter 11, that is, into the banknote storage space 50 (also referred to as a "pocket type"). By the way, some cultures have a dislike about putting their hands into the same mechanism as the conventional banknote transfer device described above, and customers can deposit and withdraw money without inserting their hands into the mechanism. Preferred financial automation equipment (also called "present type").

In general, the pocket type automated teller machine and the present type automatic teller machine as in the above-described conventional technology include not only the position of the shutter 11 but also the structure of the separating part 60 and the accumulating part 70. The overall design related to (10), the arrangement of the conveying path 5, etc. have a considerably different structure as a whole.

Manufacturers of automated teller machines must meet the needs of various customers, so they must produce both types of automated teller machines. However, since the structure of the two types of automatic teller machines are very different, the design, equipment, etc. must all be made in plural, and the loss of manpower and cost of the manufacturer is great.

Patent Publication 10-2011-0104645

The present invention has been made to solve the above problems, and an object of the present invention is to provide a banknote withdrawal device that can provide a present type deposit and withdrawal service while using the structure of a pocket type automated teller machine.

In addition, an object of the present invention is to provide a paper money entry and withdrawal device that allows customers to deposit and withdraw money more conveniently.

Banknotes deposit and withdrawal device according to an aspect of the present invention, the case is provided with a cash inlet and outlet, the bills are entered, withdrawal, the case is provided with a movement path; A carrier installed to be movable along the movement path, the carrier clamping the bills received through the deposit and withdrawal port or clamping the bills to be withdrawn and returned to the deposit and withdrawal port; A separation and integration unit having a separation space in which the bills received from the carrier are separated, and an integration space in which the bills to be withdrawn to the carrier are accumulated; And a rotating unit for rotating the carrier to guide the carrier moved along the movement path to the separation integration unit or to guide the carrier guided to the separation integration unit to the movement path.

At this time, the rotating unit is rotatably installed in the case, the rotating member is formed in the mounting groove portion is inserted into the carrier on one side; And it may include a drive member for rotating the rotating member.

In addition, the carrier is a pocket into which bills are taken out; A front plate which forms one side wall of the pocket to support the banknotes; And a back plate disposed to face the front plate and clamping the bills together with the front plate.

The front plate may further include a front plate guide rail in which the front plate is moved in the vertical direction of the bills, and a slot in which the back plate is moved in the vertical direction of the bills.

In addition, the back plate may move the bills by rotating the back transfer belt in contact with the bills, the front plate may move the bills by rotating the front transport belt in contact with the bills.

The separation integrated unit may further include: a push plate partitioning the separation space and the integration space; An integration unit installed at an inlet side of the integration space to accumulate bills carried in the integration space; And a separation part installed at an outlet side of the separation space to separate the bills carried into the separation space.

According to the embodiments of the present invention as described above, it is possible to provide a banknote deposit and withdrawal device that can provide a present type deposit and withdrawal service using the structure of the pocket type automated teller machine, as a result of the manufacturer of the automated teller machine The design and equipment burden can be greatly reduced.

1 is a block diagram showing a banknote transfer apparatus of the automatic teller machine according to the prior art.
Figure 2a is a schematic diagram showing a bill bank device according to an embodiment of the present invention.
Figure 2b is a block diagram showing a rotating unit of the banknotes deposit and withdrawal device according to an embodiment of the present invention.
Figure 2c is a perspective view showing a rotating member of the banknote deposit and withdrawal device according to an embodiment of the present invention.
3 is a perspective view of a banknote deposit and withdrawal device according to an embodiment of the present invention as seen from one direction.
Figures 4a to 4f is an operating state diagram showing the deposit process of the banknotes deposit and withdrawal device according to an embodiment of the present invention.
5a to 5d is an operating state diagram showing the withdrawal process of the banknotes deposit and withdrawal device according to an embodiment of the present invention.

Embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in each of the drawings of the present embodiment, for depositing the bills through the cash in and out of the case, the direction in which bills are drawn into the carrier is defined as the billing direction of bills, bills through the cash in and out of the case For the withdrawal of money, the direction in which the bills are discharged from the carrier is defined as the withdrawal direction of the bills, and the direction perpendicular to the withdrawal direction (the direction in which the money is deposited and the direction in which the money is withdrawn) of the paper money is in the vertical withdrawal direction of the paper money. I will define it.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a is a schematic diagram showing a bill acceptor and withdrawal device according to an embodiment of the present invention, Figure 2b is a block diagram showing a rotating unit of the bill acceptor withdrawal device according to an embodiment of the present invention, Figure 2c is a perspective view showing a rotating member of a banknote teller machine according to an embodiment of the present invention, Figure 3 is a perspective view of the banknote teller machine according to an embodiment of the present invention from one direction.

As shown in FIGS. 2A to 3, the banknotes deposit and withdrawal device according to the present embodiment includes a case 400 having a present type deposit and withdrawal outlet 410, and a carrier 100 for receiving or conveying the bills by clamping the banknotes. ), A separation and integration unit 200 in which the banknotes are deposited and separated, and a rotation unit 300 for rotating the carrier 100 to guide the moving direction of the carrier 100.

Specifically, the case 400 includes a guide plate 410 on which the carrier 100, the separation integration unit 200, and the rotation unit 300 are installed, and constitutes an external form of the automated teller machine, and the customer There is provided a cash in and out opening 410 through which bills are input and output.

At this time, the cash in and out port 410 is configured in the present type (present) exposed to the front of the case 400, in order to expose the bills to the outside, the customer puts his hand into the interior of the case 400 from the outside You can deposit and withdraw banknotes without doing anything.

A movement path 301 for guiding the movement of the carrier 100 may be provided in the case 400. The movement path 301 may be configured as a path connected between the entrance and exit 410 and the rotation unit 300. Accordingly, the movement path 301 may guide the carrier 100 located at the entrance and exit port 410 to the rotation unit 300 or guide the carrier 100 located at the rotation unit 300 to the entrance and exit port 410. Can be.

In addition, a rack gear 302 meshing with the pinion gear 142 of the movable body 140 may extend in the lengthwise direction of the movement path 301. Here, the rack gear 302 of the movement path 301 is on the same line as the rack gear 302 formed in the seating groove 321 of the rotating member 320 in accordance with the rotation angle of the rotating member 320 to be described later. Can be located. Therefore, when the rack gear 302 of the movement path 301 and the rack gear 302 of the rotation member 320 are located on the same line, the pinion gear 142 of the moving body 140 moves along the movement path 301. It can be moved along the rotating member (320).

In this embodiment, the movement path 301 is composed of a straight path connecting the entrance / exit 410 and the rotation unit 300 at the shortest distance, but the movement path 301 avoids interference with the peripheral device or the carrier. For smooth movement of the 100, it may be composed of a curved path.

The carrier 100 clamps the bills deposited into the deposit and withdrawal outlet 410 to be moved to the separation unit 200 through the movement path 301 and the rotation unit 300, or separates the bank notes to be withdrawn. Clamping) may be moved to the entry and exit port 410 through the rotation unit 300 and the movement path 301.

To this end, the carrier 100 may be located at the entrance and exit 410 on the front of the case 400 exposed to the outside of the automated teller machine at the time of deposit and withdrawal of bills, and separate and aggregate unit 200 at the time of accumulation and separation of bills. Can be linked with the configuration

The carrier 100 may include a pocket 130, a front plate 110, and a back plate 120.

The pocket 130 is composed of a pair of side walls 130a and a connecting frame 130b connecting the side walls 130a, and the front walls 110 guide the movement of the front plate 110 on the side walls 130a of the pocket 130. The plate guide rail 131 and the slot 132 for guiding the movement of the back plate 120 may be formed to extend.

Here, the front plate guide rail 131 may be composed of a first moving rail 131a and a second moving rail 131b. The first moving rail 131a may be positioned on the same extension line of the slot 132, and the second moving rail 131b may be positioned parallel to the first moving rail 131a.

In the present embodiment, the pocket 130 is composed of a pair of side walls 130a and a connecting frame 130b connecting the side walls 130a, but is not limited thereto, and the pocket 130 has one side wall 130a. ) Can be configured only.

The pocket 130 may be provided with a movable body 140 that can move itself along the movement path 301. The moving body 140 may be provided with a pinion gear 142 driven by a separate drive motor (not shown) and a guide roller 141 for stably supporting the movement of the moving body 140.

Of course, the configuration of the movable body 140 is equipped with the pinion gear 142 and the guide roller 141, which illustrates one movement means for moving the carrier 100 along the movement path 301, In addition to the configuration of the various means of transportation may be applied to the carrier (100). For example, a separate wire may be used to pull and move the carrier, or a carrier belt may be provided on the movement path to move the carrier.

The front plate 110 may be installed to be movable along the front plate guide rail 131 of the pocket 130 through the front support part 111. In more detail, the front support portion 111 may be composed of a first front moving shaft (111a) and a second front moving shaft (111b), the first front moving shaft (111a) along the first moving rail (131a) It is installed to be movable, and the second front moving shaft 111b may be installed to be movable along the second moving rail 131b.

In addition, the front plate 110 may be provided with a front feed roller 112 and the front transfer belt 113. The front conveying roller 112 is made of a pair, the front conveying belt 113 may be provided in the form of a closed loop supported by the pair of front conveying roller (112). The front transfer belt 113 may function to transfer the banknotes in close contact with the front transfer belt 113.

Here, a driving motor (not shown) for moving the front plate 110 along the front plate guide rail 131 may be connected to the first front moving shaft 111a or the second front moving shaft 111b. In addition, the front feed roller 112 may also be connected to a driving motor (not shown) for rotating the front transport belt 113.

The back plate 120 of the carrier 100 may be installed to be movable along the slot 132 of the pocket 130 via the back moving shaft 121. At this time, both ends of the back moving shaft 121 may be positioned to correspond to the slot 132 of the pocket 130, the slot 132 may have a width smaller than the diameter of the back moving shaft 121.

The slot 132 may extend in the same direction as the extending direction of the first moving rail 131a. As a result, the back plate 120 may be moved along the slot 132 while maintaining a parallel state with the front plate 110.

When the carrier 100 is moved to the separation stack unit 200, the back plate 120 may include a through groove 126 through which an end portion of the push plate 220 provided from the separation stack unit 200 moves through. Can be.

And the back plate 120 may be provided with a pulley 122 and the back conveying belt 123. Pulley 122 is made of a pair, the back conveying belt 123 may be provided in the form of a closed loop supported by a pair of pulleys (122). The pulley 122 is connected to the rotating motor (not shown) for rotating the back conveying belt 123, the back moving belt 123 can transfer the bills in close contact between the front conveying belt 113. have.

In addition, the stopper 124 may be provided on the back conveyance belt 123. The stopper 124 may support or push the end of bills in the carrier 100.

That is, when the carrier 100 clamps the bills, the stopper 124 is rotated in the clockwise direction by the back conveying belt 123 to support the rear end of the bills moving in the billing direction of the bills. can do. Thereby, banknotes can be moved to the back of the carrier 100 (left direction of drawing) effectively.

The stopper 124 may support the rear end of the bills moving in the withdrawal direction of the bills while being rotated by the back conveying belt 123 when the carrier 100 is separated from the separation and integration unit 200. . Thereby, while aligning banknotes, it is possible to prevent banknotes from escaping from the carrier 100.

In addition, the stopper 124 may be rotated by the back conveying belt 123, when the bills are withdrawn from the cash inlet and outlet 410, it is possible to push the moving end of the bills. Thus, the bills can be easily withdrawn from the cash inlet and outlet (410).

The separation and integration unit 200 may include a separation space 210a in which bills are separately separated and an accumulation space 210b in which bills are accumulated. The separation space 210a is located at the front side of the push plate 220 with respect to the push plate 220, and the integration space 210b is located at the rear of the push plate 220 with respect to the push plate 220. Can be located on the side.

That is, in a state in which the carrier 100 enters the separation integration unit 200, the separation integration unit 200 may have a separation space 210a formed between the push plate 220 and the front plate 110. An integrated space 210b may be formed between the push plate 220 and the back plate 120.

The separation and integration unit 200 may be provided with a bottom surface 250 in which the push plate 220 for guiding the movement of bills is installed to be movable in the front-rear direction.

The push plate 220 may be installed to be movable in the front-rear direction of the separation accumulation unit 200 to guide the banknotes that are moved to the separation integration unit 200. The push plate 220 may be moved along a separate guide rail (not shown) disposed to extend in the front-rear direction of the separation and integration unit 200, and may receive a driving force from an operating motor (not shown).

In addition, in the separation integration unit 200, an integration unit 230 may be provided at an inlet side of the integration space 210b, and a separation unit 240 may be provided at an outlet side of the separation space 210a. The accumulation unit 230 is a configuration for guiding the accumulation of banknotes in the accumulation space 210b by hitting the rear end of the banknotes transferred to the accumulation space 210b, the transfer roller 231 and the controller 232 It may include. Here, the conveying roller 231 guides the bills conveyed along the conveying path (not shown) to the controller 232, the controller 232 to the integrated space 210b through the elastic sheet of the wing shape. By hitting the rear end of the introduced bills can be integrated into the stacking space (210b).

In addition, the separation unit 240 of the separation integration unit 200 is configured to separate and transport the bills conveyed to the separation space 210a by a sheet, the pickup roller 241, the feed roller 242 and the guide roller ( 243). The pickup roller 241 induces sheet separation of bills, and the feed roller 242 transfers the bills separated by the pickup roller 241 to a conveying path (not shown) for discrimination, and the guide roller 243. ) Is overlapped with the feed roller 242 to prevent the separation of two sheets of bills.

In particular, the back plate of the carrier 100 to provide a passage through which the bills in the carrier 100 can be moved to the separation integration unit 200 when the carrier 100 enters the separation integration unit 200. 120 may be rotated by a predetermined angle using the back movement shaft 121 as the rotation axis.

In order to rotate the back plate 120 by a predetermined angle, various rotation means may be applied to the back plate 120. For example, as the back movement shaft 121 is rotated by a separate motor, the back plate 120 is rotated by an angle, or the end of the back plate 120 (or the end of the stopper) moves along a separate guide rail. While being rotated using the back moving shaft 121 as the rotating shaft.

The rotation unit 300 guides the carrier 100 moved along the movement path 301 to the separation integration unit 200, or moves the carrier 100 guided to the separation integration unit 200 to the movement path 301. I can guide you.

To this end, the rotation unit 300 may be composed of a rotation member 320 rotatably installed in the case, and a driving member 330 for rotating the rotation member 320.

For example, the rotating member 320 may be formed in a circular disk shape. In addition, a thread 322 may be formed on an outer circumferential surface of the rotating member 320 so as to be operably connected to a drive gear (not shown) of the driving member 330, and the carrier 100 may be formed at one side of the rotating member 320. The mounting groove 321 in which the rack gear 302 is formed may be formed so that the movable body 140 of the () can be inserted therein.

Accordingly, when the bills are deposited in the deposit and withdrawal opening 410, when the moving body 140 of the carrier 100 is moved to the seating groove 321 of the rotating member 320 along the movement path 301, the driving member When the rotating member 320 is rotated in the clockwise direction of the drawing by the operation of the 300, and the carrier 100 is positioned to face the separation and integration unit 200 by the rotation of the rotating member 320, the carrier 100 is rotated. As the moving body 140 of) moves toward the separation integration unit 200, the carrier 100 may enter the separation integration unit 200.

On the other hand, when the banknotes are withdrawn to the cash inlet and outlet 410, when the carrier 100 is moved from the separation unit 200 to the seating groove 321 of the rotating member 320, the operation of the drive member 300 The rotating member 320 is rotated in the counterclockwise direction of the drawing, when the carrier 100 is positioned on the same extension line as the movement path 301 by the rotation of the rotating member 320, the moving body of the carrier 100 ( 140 may be moved to the entry and exit port 410 through the movement path (301).

Hereinafter will be described the operation of the banknotes deposit and withdrawal device according to an embodiment of the present invention having the configuration as described above.

First, in the banknotes deposit and withdrawal device according to an embodiment of the present invention, the depositing process of banknotes will be described. Figures 4a to 4f is an operating state diagram showing the deposit process of the banknotes deposit and withdrawal device according to an embodiment of the present invention.

4A illustrates a state in which the shutter of the entry and exit port 410 is opened and the carrier 100 waits for the receipt of the banknotes. At this time, the front plate 110 of the carrier 100 is moved to the lower end of the front plate guide rail 131, thereby securing a space in which bills are deposited between the back plate 120 and the front plate 110. .

4B illustrates a state in which the bills B are clamped by the front plate 110 and the back plate 120 after the bills B are deposited on the carrier 100. Specifically, when the banknotes B are deposited into the space between the front plate 110 and the back plate 120 through the inlet of the carrier 100 in the state that the shutter of the entrance and exit port 410 is opened, the front plate 110 is moved to the upper end of the front plate guide rail 131, bills (B) may be compressed between the back plate 120 and the front plate 110.

4C illustrates a state in which the carrier 100 is moved along the movement path 301 toward the rotation unit 300 and seated in the seating groove 321 of the rotation member 320. For example, when the clamping of the bills B is completed, the bills B compressed between the back plate 120 and the front plate 110 are seated on the rotating member 320 by the movement of the carrier 100. Can be. At this time, by the rotation of the front transfer belt 113 and the back transfer belt 123, bills (B) can be moved to the rear of the carrier 100, the stopper 124 is the rear end of the bills (B) You can push

4D illustrates a state in which the carrier 100 is rotated toward the separation integrated unit 200 by the rotation of the rotating member 320. That is, the carrier 100 may be rotated counterclockwise in a direction in which the separation integration unit 200 is positioned about the rotation axis of the rotation member 320 by the rotation operation of the rotation member 320.

4E illustrates a state in which the carrier 100 enters the separation integrated unit 200. While the carrier 100 enters the separation integration unit 200, the back plate 120 is moved to the last end of the slot 132, and the back plate 120 is rearward with respect to the back plate moving shaft 121. Can be rotated.

In this case, the front plate 110 may move to the uppermost end of the front plate guide rail 131. In addition, the bills B in the carrier 100 are moved to the separation and integration unit 200, and by moving the back plate 120 and the push plate 220, the bills B are separated from the separation space 210a. It may be moved toward the separation unit 240.

4F illustrates a state in which the bills in the separating space 210a are separated in the separating unit 240. Banknotes entered into the separation integration unit 200 may be separated from the separation unit 240 of the separation space 210a by the push of the push plate 220.

At this time, the pick-up roller 241 of the separating unit 240 induces the sheet separation of the bills, feed roller 242 transfers the bills separated by the pick-up roller 241 to the conveying path for differentiation, The guide roller 243 may overlap the feed roller 242 to prevent the separation of two sheets of bills.

Next, in the banknotes withdrawal device according to an embodiment of the present invention, the withdrawal process of the banknotes will be described as follows. 5a to 5d is an operating state diagram showing the withdrawal process of the banknotes deposit and withdrawal device according to an embodiment of the present invention.

5A illustrates a state before the banknotes B of the accumulation unit 230 are drawn into the accumulation space 210b. At this time, the push plate 220 is moved toward the exit of the separation unit 240 to stand by.

5B is a bill plate B that has been transported along a conveying path (not shown) after being moved to the stacking space 210b by the feed roller 231 and the controller 232 of the stacking unit 230. The state integrated in 220 is shown.

In particular, while the bill (B) is drawn into the accumulation space 210b by the accumulator 230, if the pulley 122 of the back plate 120 is rotated in the clockwise direction of Fig. 5b, the back conveying belt 123 ) Is rotated in a direction opposite to the direction in which the bills B introduced into the accumulation space 210b may be stably integrated in the push plate 220.

5C shows a state in which the carrier 100 is moved toward the rotating unit 300 and seated in the seating groove 321 of the rotating member 320. In this case, the back plate 120 is rotated counterclockwise around the back plate moving shaft 121 and arranged in parallel with the front plate 110, and bills are placed on the back plate 120 and the front plate 110. It may be in close contact.

When the clamping of the bills B is completed, the bills B compressed between the back plate 120 and the front plate 110 may be moved to the rotating member 320 by the movement of the carrier 100. Can be.

FIG. 5D illustrates a state in which the carrier 100 is disposed in the entry and exit port 410 and waits for the withdrawal of the bills B after the rotating member 320 is rotated counterclockwise. The carrier 100 into which the bills B are inserted is moved to the cash in / out port 410 along the movement path 301, and withdraws the bills B from the state in which the bills B are located opposite to the cash in / out port 410. I can wait for you.

At this time, the bills B compressed between the back plate 120 and the front plate 110 of the carrier 100 are rotated by the front conveying belt 113 and the back conveying belt 123, thereby forming a carrier 100. Can be moved forward.

As described above, the present invention exposes banknotes at the time of deposit and withdrawal, so that the banknotes can be checked, so that the customer can use it conveniently, and at the same time, the back plate and the front plate are used to clamp the banknotes inserted from the deposit and withdrawal banks. It can be used to accumulate or separate it has an excellent advantage.

Although the present invention has been described in detail using the preferred embodiments, the scope of the present invention is not limited to the specific embodiments, and should be interpreted by the appended claims. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

100: carrier 110: front plate
111: front support portion 111a: first front moving shaft
111b: 2nd front movement shaft 112: front feed roller
113: front conveying belt 120: back plate
121: back movement shaft 122: pulley
123: back conveying belt 124: stopper
130: pocket 200: discrete integrated unit
210a: separation space 210b: integrated space
220: push plate 221: inclined guide surface
230: integrated part 231: feed roller
232: controller 240: separation unit
241: pickup roller 242: feed roller
243: guide roller 300: rotary unit
320: rotating member 330: driving member

Claims (6)

A case having an entry / exit outlet for entering and withdrawing banknotes and having a movement path therein;
A carrier installed to be movable along the movement path, the carrier for clamping and receiving the banknotes deposited into the deposit or withdrawal port, or for conveying the banknote to be withdrawn to the deposit and withdrawal port;
A separation and integration unit having a separation space in which the bills received from the carrier are separated, and an integration space in which the bills to be withdrawn to the carrier are accumulated; And
A rotation unit for rotating the carrier to guide the carrier moved along the movement path to the separation integration unit or to guide the carrier guided to the separation integration unit to the movement path,
The carrier
A pocket into which bills are drawn in and out, a front plate which forms one side wall of the pocket to support the bills, and a back plate disposed opposite to the front plate to clamp the bills together with the front plate; ,
The back plate
When the carrier is moved to the separation integrated unit, the banknotes deposit and withdrawal device is formed a through groove through which the end of the push plate provided in the separation integration unit is moved through.
The method of claim 1,
The rotating unit
A rotatable member rotatably installed in the case and having a seating groove portion into which the carrier is inserted; And
Banknotes deposit and withdrawal device comprising a drive member for rotating the rotating member.
delete The method of claim 1,
And a front plate guide rail in which the front plate is moved in the vertical direction of the bill input and output, and a slot in which the back plate is moved in the vertical direction in the input / output direction of the bills.
The method of claim 1,
The back plate rotates the back conveyance belt in contact with the bills and moves bills, the front plate rotates the front conveyance belt in contact with the bills, and moves bills,
The back plate includes a stopper for supporting or pushing the end of the bill in the carrier,
The stopper is
When the carrier clamps the bills, the carrier supports the rear end of the bills moved in the deposit direction of the bills, and when the carriers are out of the separation unit, the bills are moved in the withdrawal direction of the bills. Banknotes deposit and withdrawal device for supporting the back end of the bills moving.
The method of claim 1,
The separation unit is
A push plate partitioning the separation space and the integration space;
An integration unit installed at an inlet side of the integration space to accumulate bills carried in the integration space; And
Banknotes deposit and withdrawal device provided on the outlet side of the separation space comprising a separation unit for separating the bills carried into the separation space.

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