KR20100022874A - Cassette for automatic teller machine - Google Patents

Abstract

The present invention relates to a cassette of an automatic teller machine, comprising: a case having an access portion for entering and exiting a paper medium and a paper medium receiving portion for accommodating the paper medium therein; At least one stack guide having a guide inclined portion formed at the ends so as to be inclined in a direction away from the moving path of the paper medium, the end of which is disposed between the entrance and the paper medium receiving portion to guide the movement; And a guide protrusion protruding from the guide inclined portion of the at least one stack guide to support a paper medium moved between the at least one stack guide. Accordingly, since the skewing and shifting of the paper medium are prevented by the at least one stack guide and the guide protrusion, the paper medium can be stably introduced into and out of the cassette.

Description

Cassette for automatic teller machine {Cassette for Automatic Teller Machine}

The present invention relates to a cassette of an automated teller machine, and more particularly, to a cassette of an automated teller machine capable of stably entering and exiting a paper medium such as a bill or a check.

In general, ATMs are used to provide convenient financial services to customers in banks and other financial institutions, and are used in convenience stores and public places as well as financial institutions such as banks. Such automatic teller machines provide various financial services such as depositing or withdrawing paper media such as banknotes and checks, checking balances and transferring funds. In addition, the automated teller machine is equipped with a variety of modules, such as withdrawal module, deposit module, card reader, bankbook organizer and the like independently, the modules are electrically connected to the main controller is properly controlled by the main controller.

The automated teller machine includes a cassette for supplying a paper medium to a withdrawal module or receiving a stack from a deposit module. That is, the withdrawal module receives the paper medium from the cassette and withdraws it to the outside of the automated teller machine, and the deposit module receives the paper medium from the outside of the automated teller machine and stores it inside the cassette. Such a cassette is detachably mounted inside the main body of the automatic teller machine, so that the operation of replenishing or recovering the paper medium in the automatic teller machine can be performed more stably and conveniently.

On the other hand, the conventional cassette has a problem that the paper medium does not normally enter and exit due to the skew (shift) and shift (shift) phenomenon of the paper medium. The skew phenomenon is a phenomenon in which the paper medium is rotated at a predetermined angle when the paper medium is moved, and the shift phenomenon is a phenomenon in which the paper medium is moved a predetermined distance in a specific direction when the paper medium is moved. When skew and shift occur in the cassette, the paper media may be folded or entangled with each other because the paper media are moved out of alignment inside the cassette, and a part of the paper media is sandwiched between the parts of the cassette. There was a problem that jams occurred because the paper medium was not moved, and the paper medium could not be properly stacked in the cassette.

The present invention provides a cassette of an automatic teller machine capable of stably entering and exiting a paper medium in the cassette by preventing a skew phenomenon and a shift phenomenon of the paper medium.

The present invention provides a cassette of an automated teller machine capable of smoothly entering a paper medium between at least one stack guide by forming a guide inclined portion in at least one stack guide.

The present invention provides a cassette of an automated teller machine capable of preventing a skew phenomenon and a shift phenomenon of a paper medium entered between at least one stack guide by forming a guide protrusion on a guide inclined portion of at least one stack guide. .

According to an aspect of the present invention, a case having an entrance for accessing a paper medium therebetween and a case formed therein with a paper medium receiving portion for receiving the paper medium therein, the access portion for guiding the movement of the paper medium from the access portion to the paper medium receiving portion, is provided. And at least one stack guide disposed between the paper medium receiving portions and formed with a guide inclined portion at the ends such that an end portion adjacent to the entry and exit portion is inclined in a direction away from a moving path of the paper medium, and the at least one stack guide. Provided is a cassette of an automatic teller machine including a guide protrusion protruding from the guide inclined portion of the at least one stack guide to support the paper medium moved between.

Therefore, the paper medium can smoothly enter the at least one stack guide by the guide inclined portion of the at least one stack guide, and between the at least one stack guide due to the guide protrusions of the at least one stack guide. Positional variation of the entering paper medium can be prevented.

The guide protrusion may protrude to a height lower than the inclined height of the guide inclined portion. This is because, if the guide protrusion is formed higher than the height of the guide inclined portion, there is a high risk that the paper medium entering between the at least one stack guide may interfere with the guide protrusion.

In addition, the guide protrusion may be formed along the moving path of the paper medium in the guide inclined portion. Thus, the paper medium entered between the at least one stack guide is stably moved along the guide slope.

In addition, the guide inclined portion may be formed to be inclined linearly to the ends so that the left and right spacing between the ends increases linearly closer to the entrance. When the guide inclined portion is formed to be inclined linearly, even if the position of the paper medium is shifted, the paper medium may be accurately entered between the at least one stack guide while moving along the inclined surface of the guide inclined portion.

On the other hand, the cassette of the automated teller machine according to the present invention, the first stack plate disposed inside the paper medium receiving portion so that one side is disposed between the at least one stack guide, and the first stack guide in the at least one stack guide. The display apparatus may further include a second stack plate disposed to be movable up and down in a lower direction of the first stack plate so that the paper medium moved to the stack plate is loaded. The at least one stack guide may include a guide groove formed to extend in the vertical direction. The second stack plate may include a lifting protrusion protruding from a portion corresponding to the guide groove so that the second stack plate may be inserted into the guide groove. The lifting operation of the second stack plate may be performed more accurately due to the guide groove and the lifting protrusion as described above.

In the cassette of the automated teller machine according to the present invention, since the skew phenomenon and the shift phenomenon of the paper medium are prevented by the at least one stack guide and the guide protrusion, the paper medium can be stably in and out of the cassette.

In addition, since the at least one stack guide extends in the direction of the entrance by the inclined guides, the paper medium may smoothly enter between the at least one stack guide.

In addition, since the lifting protrusions of the second stack plate may be inserted into the guide grooves formed in the at least one stack guide when the second stack plate is raised, the vertical movement of the second stack plate may be performed very stably.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a perspective view showing a financial automatic machine according to the present invention.

Referring to FIG. 1, the automated teller machine 1 of the present invention includes a main body 2 for depositing and withdrawing paper media such as banknotes and checks, and a detachable interior of the main body 2 and having a paper media therein. Received cassettes 10 and 12.

The main body 2 includes an operation unit 3 for inputting various passwords and numbers for use of the automatic teller machine 1, an operation value of the automatic teller machine 1, and an input value of the operation unit 3 to be displayed. The display unit 4 may include a display unit 4, a recognition unit 5 for recognizing a card or a bankbook, a deposit unit 6 into which a paper medium is deposited, and a withdrawal unit 7 from which a paper medium is withdrawn. In addition, a control unit for controlling operations of the operation unit 3, the display unit 4, the recognition unit 5, the depositing unit 6, and the withdrawal unit 7 may be disposed inside the main body 2. A power source such as a motor may be arranged for the mechanical operation of the recognition unit 5, the depositing unit 6, and the withdrawal unit 7.

The cassettes 10 and 12 may be connected to the depositing unit 6 to receive a paper cassette 10 and a paper cassette to be connected to the withdrawal unit 7 to supply a paper medium ( 12). In addition, the cassettes 10 and 12 may be used for both withdrawal and withdrawal.

The deposit cassette 10 and the withdrawal cassette 12 may be mounted in an accommodating portion formed in the main body 2 so as to be connected to the deposit portion 6 and the withdrawal portion 7 respectively. Hereinafter, in the present embodiment will be described with respect to the deposit cassette 10 for convenience of description. However, the present invention is not limited to the deposit cassette 10, but can also be applied to the withdrawal cassette 12 and the deposit and withdrawal cassette capable of depositing and withdrawing.

2 is a perspective view showing a cassette of the automated teller machine shown in FIG. 1, FIG. 3 is a right side view showing the inside of the cassette shown in FIG. 2, and FIG. 4 is an operating state of the first and second stack plates in FIG. 5 is a perspective view showing the main part of the cassette shown in FIG.

2 to 4, the cassette 10 of the present invention includes a paper medium accommodating part 22 for accommodating a paper medium and an entrance part 24 for accessing the paper medium. The case 20, the first stack plate 30 disposed inside the paper medium receiving portion 22, and the second stack disposed to be able to be lifted up and down under the first stack plate 30. Plate 40.

The case 20 has an entrance 20a through which a paper medium enters and exits, and an entrance 24 is disposed in communication with the entrance 20a. The entrance part 24 may include two roller members which respectively contact the upper and lower surfaces of the paper medium to move the paper medium. In addition, the access part 24 may be provided with a first coupler 50 for receiving power from the main body 2.

The first stack plate 30 may be inclined at an upper side of the paper medium receiving portion 22 to guide the paper medium coming from the entry and exit portion 24 on the upper surface of the second stack plate 40. That is, the first stack plate 30 is disposed to be inclined downward at a predetermined angle from an end adjacent to the entrance part 24. The end of the first stack plate 30 is rotatably connected to the case 20 at an end portion of the first access plate 24. Thus, the first stack plate 30 is rotated upwardly with respect to the end portion of the entrance portion 24 side.

The second stack plate 40 is disposed horizontally below the first stack plate 30, and is disposed in the paper medium accommodating part 22 so as to be movable in the vertical direction. The second stack plate 40 is moved downward in accordance with the loading amount of the paper medium. At this time, the vertical movement of the second stack plate 40 may be controlled by a sensor (not shown) provided separately. As described above, when the second stack plate 40 is moved downward, a space for loading the paper medium between the first stack plate 30 and the second stack plate 40 may increase.

4 and 5, the second stack plate 40 may be forcibly raised to the first stack plate 30 at a time point at which loading of the paper medium is completed, and the first stack plate 30 may be used. ) May be rotated upward by interference with the second stack plate 40. Therefore, since the first stack plate 30 and the second stack plate 40 press the paper media loaded in the middle, the paper media loaded between the first stack plate 30 and the second stack plate 40. The height of the paper may be reduced to increase the amount of paper media loaded on the paper medium receiving portion 22. Meanwhile, a forced lifting mechanism is disposed inside the case 20 to adjust the forced lift of the second stack plate 40. The forced lifting mechanism may be composed of a plurality of timing belts 41, 42, 43, pulleys 44, 45, 46, etc. to control the vertical movement of the second stack plate 40. A second coupler 60 may be provided to receive power from the main body 2.

6 is a front view of the main part of the cassette shown in FIG. 5, FIG. 7 is a bottom view of the main part of the cassette shown in FIG. 5, FIG. 8 is a plan view showing the left and right stack guides shown in FIG. 5, and FIG. 9 is a perspective view illustrating the right stack guide shown in FIG. 8, and FIG. 10 is a perspective view illustrating the left stack guide shown in FIG. 8.

6 to 8, the cassette 10 of the present invention includes the entrance part 24 and the first stack plate to guide the movement of the paper medium from the entrance part 24 to the first stack plate 30. And left and right stack guides 70 and 80 disposed between the left and right sides. The left and right stack guides 70 and 80 are disposed on the left and right sides of the case 20 so as to be spaced apart from each other at the same interval as the left and right widths of the first and second stack plates 30 and 40. It is formed at a height that can block the left and right spaces between the first and second stack plates 30 and 40 during loading. Meanwhile, the left and right stack guides 70 and 80 may be formed in the same shape, but may be formed in different shapes depending on the internal structure of the cassette 10. Hereinafter, the left stack guide 70 will be described as being shorter in the front-rear direction than the right stack guide 80 in consideration of interference with other peripheral components.

The left and right stack guides 70 and 80 are arranged in a direction in which left and right gaps between the entrances 20a and adjacent ends are increased toward the entrances 20a in order to smoothly enter the paper medium from the entrances 20a. Guide slopes 72 and 82 are formed at the ends. The guide slopes 72 and 82 are formed to face each other in the same shape at the ends of the left and right stack guides 70 and 80. In addition, the guide inclined portions 72 and 82 are linearly inclined to the ends in a direction in which the left and right gaps between the left and right stack guides 70 and 80 extend as the entrance 24 is closer to the entrance 24. Can be formed. On the other hand, the guide inclined portion 72, 82 may be formed to be inclined in a straight or curved shape, in the present embodiment will be described as the guide inclined portion (72, 82) is formed to be inclined in a linear shape.

In addition, the right stack guide 80 may include a guide groove portion 84 formed to extend in the vertical direction, and the second stack plate 40 may be inserted into the guide groove portion 84 so that the guide groove portion 84 may be elevated. And a lifting projection 48 protruding from the corresponding portion. The guide groove 84 and the lifting projection 48 may be formed in the same shape with each other. Thus, the second stack plate 40 may be guided by the right stack guide 80 and raised to a more accurate position. However, the guide grooves 84 may be formed in both the left and right stack guides or only the left stack guides, and the lifting projections 48 may have the second stack plate 40 according to the position of the guide grooves 84. It can be formed at various positions of.

8 to 10, the cassette 10 of the present invention, the left and right stack guide 70 to support both sides of the paper medium to be moved between the left and right stack guides 70, 80. The guide protrusions 90 and 100 of the guide inclined portions 72 and 82 of the 80 are further included. The guide protrusions 90 and 100 of the left and right stack guides 70 and 80 are formed in the same shape at the same position.

The guide protrusions 90 and 100 protrude to a height H2 lower than the inclined height H1 of the guide inclined portions 72 and 82. If the protrusion height H1 of the guide protrusions 90 and 100 protrudes higher than the inclination height H2 of the guide inclined portions 72 and 82, the left and right stack guides ( This is because the paper medium entering between 70 and 80 may be caught by the guide protrusions 90 and 100 which protrude into the space between the left and right stack guides 70 and 80. In addition, the guide protrusions 90 and 100 may be formed in the guide inclined portions 72 and 82 along the moving path of the paper medium. Therefore, both sides of the paper medium moving between the left and right stack guides 70 and 80 are moved while being supported by the guide protrusions 90 and 100.

Looking at the operation of the cassette 10 according to the present invention configured as described above are as follows.

When depositing the paper medium into the depositing portion 6 of the automatic teller machine 1, the paper medium is transferred to the entry portion 24 of the cassette 10, and then the entry portion 24 of the case 20 It is transferred inside. When the entrance part 24 transfers the paper medium into the case 20 as described above, the paper medium moves to both sides of the left and right stack guides 70 and 80 to the first stack plate 30. Is moved. The paper medium is inclined along the lower surface of the first stack plate 30 and then loaded onto the upper surface of the second stack plate 40.

The paper medium loaded on the second stack plate 40 is sensed by a sensor (not shown), and if the loading amount of the paper medium is equal to or greater than a predetermined amount, the second stack plate 40 is lowered by a control of the controller. Is moved to. As described above, when the second stack plate 40 is moved downward, a space in which paper media can be loaded may be secured between the first and second stack plates 30 and 40.

When the deposit of the automatic teller machine 1 is completed as described above, the second stack plate 40 is forcibly lifted upward until it is in close contact with the first stack plate 30. The first stack plate 30 is rotated upwards to be in a horizontal state, and the paper media disposed between the first and second stack plates 30 and 40 is the first and second stack plates 30 and 40. It is compressed by). Then, the second stack plate 40 is repeatedly lowered downward and then forcedly lifted again. Due to the lifting operation of the second stack plate 40, the paper media are stacked on the second stack plate 40 in close contact.

On the other hand, the left and right stack guides 70 and 80 are formed in a structure in which the left and right intervals of the entrance part 24 side are extended toward the entrance part 24 by guide inclination parts 72 and 82. In addition to smoothly entering the paper medium between the left and right stack guides 70 and 80 at the entrance and exit 24, the position of the paper medium entering between the left and right stack guides 70 and 80 may be accurately aligned. Can be.

Since guide protrusions 90 and 100 are formed on the guide inclined portions 72 and 82 of the left and right stack guides 70 and 80, respectively, the left and right stack guides 70 and 80 may be formed. Both sides of the paper medium are supported between the guide inclined portions 72 and 82. That is, the guide protrusions 90 and 100 of the left and right stack guides 70 and 80 prevent sagging of the paper medium. Therefore, the paper medium sags downward in the process of entering between the left and right stack guides 70 and 80, thereby preventing the paper medium from being out of position or being caught between other parts. have.

By the left and right stack guides 70 and 80 as described above, the paper medium can be stably moved from the entrance portion 24 to the first stack plate 30, the guide inclined portion (72) (82) The paper medium may smoothly enter the left and right stack guides 70 and 80 by means of the above, and the skew and shift of the paper medium may be prevented by the guide protrusions 90 and 100. .

As described above, the cassette of the automated teller machine according to the present invention has been described with reference to the illustrated drawings. However, the present invention is not limited to the above embodiments and drawings, and various modifications are made by those skilled in the art within the scope of the technical idea of the present invention. Of course this is possible. That is, in the present exemplary embodiment, the left stack guide and the right stack guide are described in the cassette, but a plurality of stack guides may be provided.

1 is a perspective view of the automatic teller machine according to the present invention,

Figure 2 is a perspective view showing a cassette of the automated teller machine shown in FIG.

3 is a right side view showing the inside of the cassette shown in FIG. 2;

4 is a right side view illustrating an operating state of the first and second stack plates in FIG. 3;

5 is a perspective view showing a main part of the cassette shown in FIG. 2;

6 is a front view of the main part of the cassette shown in FIG. 5;

7 is a bottom view of the main part of the cassette shown in FIG. 5;

8 is a plan view showing the left and right stack guide shown in FIG.

9 is a perspective view showing a right stack guide shown in FIG. 8, FIG.

10 is a perspective view of the left stack guide shown in FIG. 8, FIG.

<Simple description of the code for the main part of the drawing>

1: automatic teller machine 10, 12: cassette

20: case 24: entrance

30: first stack plate 40: second stack plate

50: first coupler 60: second coupler

70: left stack guide 80: right stack guide

90, 100: Guide turning

Claims (5)

A case provided at an upper portion of the entrance and the entrance of the paper medium and having a paper medium receiving portion therein for receiving the paper medium; Disposed between the access part and the paper medium receiving part to guide the movement of the paper medium from the access part to the paper medium receiving part, the end adjacent to the access part being formed to be inclined in a direction away from the movement path of the paper medium; At least one stack guide having guide slopes formed at the ends; And A guide protrusion protruding from the guide inclined portion of the at least one stack guide to support the paper medium moved between the at least one stack guide; Cassette of the automated teller machine comprising a. The method according to claim 1, The guide protrusion is a cassette of the automatic teller machine protrudes at a height lower than the inclined height of the guide inclined portion. The method according to claim 2, The guide protrusion is a cassette of the automated teller machine formed long along the movement path of the paper medium in the guide inclined portion. The method according to claim 1, And the guide inclined portion is formed to be inclined linearly at the ends such that the left and right spacing between the ends increases linearly as the guide inclined portion is closer to the entrance. The method according to any one of claims 1 to 4, A first stack plate disposed inside the paper medium receiving portion such that one side is disposed between the at least one stack guide; And a second stack plate disposed up and down in a lower direction of the first stack plate such that a paper medium moved from the at least one stack guide to the first stack plate is loaded. The at least one stack guide includes a guide groove formed to extend in the vertical direction, and the second stack plate includes a lifting protrusion protruding from a portion corresponding to the guide groove so as to be liftably inserted into the guide groove. Cassette in the machine.

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