KR20100069804A - Media stacking device for automated media dispenser - Google Patents

Abstract

PURPOSE: A media stacking device of an automatic media feeder is provided to emit media one piece at a time by evenly pressurizing the media, regardless of the number of media stacked on a supporting plate. CONSTITUTION: A media is stacked in a stacking space of a frame(10). A leading-in roller transfers the media to the stacking space of the frame. A supporting plate(30) and a pressurizing plate(20) are arranged on the frame. The pressurizing plate pressurizes the media stacked on the supporting plate. A compressing spring(34) supports the lower side of the supporting plate. An emitting part emits piece by piece the media pressed by the pressurizing plate.

Description

Media stacking device for automated media dispenser}

The present invention relates to a media dispenser, and more particularly, to an apparatus for evenly integrating a medium introduced into a temporary accumulator and a media storage unit provided in the media dispenser.

A media dispenser is a device for handling media such as banknotes having economic value. Such automatic media dispenser is installed in banks, government offices, schools, etc. to handle a variety of media. As used herein, the term Media refers to banknotes, checks, tickets, certificates, and the like, and may be variously thinner than a width or length.

Looking at the internal structure of the media dispenser briefly, the media dispenser is provided with a deposit and withdrawal unit for the customer to deposit and withdraw media. And, there is provided a media transfer unit for transferring the media deposited in the deposit and withdrawal unit.

The media passed through the media transfer section recognizes the roll type and size of the media. The media in which the abnormality is found in the recognition unit is returned to the customer through the media transfer unit or moved to the collection unit for storage.

On the other hand, the normal medium is temporarily stored in the temporary storage unit again via the medium transfer unit. The medium temporarily stored in the temporary storage unit is released again and stored in the medium storage unit according to a customer's command. As described above, the automatic media dispenser is used as a media integrator in charge of accumulating the media in and out of the temporary accumulator and the media storage.

A support plate for accumulating media is provided inside the media accumulation apparatus. The support plate stably integrates the media while the height thereof changes according to the accumulation amount of the media.

In addition, a pressure plate is installed on the upper portion of the support plate to pressurize the medium at a constant pressure. Media pressurized by the pressing plate is discharged one by one through the lower portion of the media accumulation device.

However, the above-described prior art has the following problems.

The pressurizing plate is configured to pressurize the medium using the actuator using a motor or the like or pressurize the medium using the spring force of the spring.

In order to release normally one by one while the medium is pressurized, the pressing force to press the medium must be kept constant. If the pressing force of the pressing plate which presses the medium is large, several sheets of the medium may be released at a time, and if the pressing force is small, the medium may not be released. In the prior art, in the case of pressing the medium by using the elastic force of the spring, it is difficult to pressurize the medium with a constant force while varying the degree of compression of the spring according to the accumulation amount of the medium.

In addition, as described above, since a configuration such as an actuator or a spring for pressurizing the pressure plate is required, there is a problem that the manufacturing cost increases.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide a media integration device of a media dispenser having a structure capable of pressing the media to the lower guide with a constant force.

Another object of the present invention is to provide a media accumulation apparatus for a media dispenser having a simpler configuration.

Technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

According to a feature of the present invention for achieving the above object, the present invention includes a frame in which an integrated space in which the medium is integrated is formed; An introduction roller for introducing a medium into the integrated space; A support plate installed on the frame to be elevated to integrate the media drawn by the inlet roller, and stably integrate the media while moving according to the number of media; A pressing plate which is mounted to the frame to be elevated and pressurizes the media integrated in the support plate by its own weight; A compression spring for supporting a lower surface of the support plate so as to be in balance with the weight of the pressure plate; And a discharge means for discharging the medium pressed by the pressing plate one by one.

Both ends of the pressing plate are supported by guide shafts provided at both sides of the frame to allow free fall in the integrated space.

Sheets are provided at both ends of the controller shaft rotatably installed at the lower part of the inlet roller, and the medium is introduced in cooperation with the inlet roller, and a plurality of wings are provided on the outer circumferential surface of the controller shaft to strike the upper surface of the medium. It further comprises a roller.

The frame is provided with a drive pulley driven by a separate drive source at the top and bottom, respectively, the drive belt is wound around the drive pulley, the drive belt is fixed to one side of the support plate to transfer power to the support plate It is characterized by.

The pressing plate is made by a die casting method, characterized in that for pressing the media integrated in the support plate with its own weight.

The discharge means includes a pickup roller for picking up the sheets integrated on the support plate one by one; A feed roller for conveying the medium picked up by the pickup roller; It is installed to correspond to the feed roller is characterized in that it comprises a separation roller for separating the media one by one.

A hook shaft is provided on an upper surface of the pressing plate, and the hook shaft is hooked to a locking holder provided at an upper portion of the frame when the medium is retracted.

According to still another aspect of the present invention, there is provided an apparatus comprising: a frame having an integrated space in which a medium is integrated; An introduction roller for introducing a medium into the integrated space; A support plate installed on the frame to be elevated to integrate the media drawn by the inlet roller, and stably integrate the media while moving according to the number of media; A pressing plate which is mounted to the frame to be elevated and pressurizes the media integrated in the support plate by its own weight; A locking holder provided on an upper portion of the frame and configured to hang a hook shaft provided on an upper surface of the pressing plate when the medium is retracted; And a discharge means for discharging the medium pressed by the pressing plate one by one.

In the present invention, the pressing plate for pressing the media integrated in the support plate is made of a material having a predetermined weight to press the self weight and the weight of the pressure plate is in balance with the compression spring for supporting the support plate. Therefore, it is possible to pressurize the medium with a constant force irrespective of the number of the media accumulated on the support plate, so that the medium can be ejected one by one. As a result, there is an effect that the discharge quality of the medium is improved.

In addition, in the present invention, a separate device for driving the pressure plate is not required, and the pressure plate is installed to allow free fall. Therefore, there is an effect that the configuration of the product is simplified and the manufacturing cost is reduced.

Hereinafter, a preferred embodiment of a media accumulation apparatus for a media dispenser according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a side view showing the configuration of a preferred embodiment of a media accumulation apparatus for an automatic media dispenser according to the present invention.

According to this, the appearance of the media accumulation device of the automatic media dispenser is formed by the frame 10. In this figure, only a part of the frame 10 is illustrated to illustrate an internal configuration of the frame 10, and a separate frame 10 may be further provided at portions corresponding to both sides of the illustrated frame 10. . The frame 10 is formed in a substantially rectangular parallelepiped shape to form an outer frame of the media accumulation apparatus.

A predetermined integrated space 12 is formed inside the frame 10 so that media can be integrated. The integrated space 12 has a substantially rectangular parallelepiped shape, and the pressure space 20 and the support plate 30 to be described below are elevated in the integrated space 12.

An inlet roller 14 is installed in the frame 10. The inlet roller 14 is provided in the inlet roller shaft 14 ′ rotatably installed in the frame 10. The inlet roller 14 is installed at the inlet of the medium into which the medium is inserted, and the one side of the medium is in close contact with each other to allow the medium to be drawn into the integrated space 12. The inlet roller 14 is driven by receiving power from a separate driving source (not shown) installed outside the frame 10. Of course, it is also possible to install the drive source inside the frame 10.

In addition, the controller 16 is installed below the inlet roller 14. The controller 16 is also provided in the controller shaft 16 ′ rotatably installed in the frame 10 like the inlet roller 14. The controller 16 cooperates with the drawing roller 14 to draw a medium into the integrated space 12.

On the outer circumferential surface of the controller shaft 16 ′, a plurality of blades 18 are provided in a spiral line. The wing 18 strikes the upper surface of the media downward so that the media drawn by the retraction roller 14 can be evenly integrated on the support plate 30.

The pressure plate 20 is installed to the frame 10 to be elevated. The pressurizing plate 20 pressurizes the medium integrated in the support plate 30 to its own weight, and is installed to allow free fall in the integrated space 12. The pressing plate 20 should be made of a material having a predetermined weight to press the medium by its own weight. This is for the pressing plate 20 to press the medium with a constant force regardless of the longevity of the medium.

The pressing plate 20 is made by die casting, for example. The die casting is a precision casting method in which molten metal is injected into a steel mold precisely machined to exactly match the required casting shape, thereby obtaining the same casting as the mold. It is characterized by mass production. Thus, in the present invention, since the pressing plate 20 is not moved by a device such as a separate actuator, the configuration is simplified.

Both ends of the pressing plate 20 are supported by guide shafts 22 installed perpendicular to both sides of the frame 10. In this embodiment, since the pressing plate 20 is supported and lifted only on the guide shaft 22, the guide shaft 22 should be designed to match the center of gravity of the pressing plate 20. If the guide shaft 22 does not coincide with the center of gravity of the pressure plate 20, the pressure plate 20 may press the medium with the left end or the right end tilted with reference to FIG. 1. Can be.

A hook rod 24 is provided on the upper surface of the pressure plate 20. The hook rod 24 is hooked on the locking holder 26 provided at the upper end of the frame 10 so as to be positioned above the pressing plate 20 so that the medium can be drawn into the integrated space 12. . Specifically, since the pressing plate 20 is installed to allow the free fall on the frame 10, the locking plate 20 is in close contact with the support plate 30 without a locking device. Therefore, when the medium is drawn into the integrated space 12, a configuration for locking it is necessary, and for this purpose, the hook rod 24 and the locking holder 26 are provided.

The locking holder 26 is rotatably installed on a holder shaft 28 provided at the upper end of the frame 10. The holder shaft 28 is provided with a configuration such as a torsion spring to provide a rotational elastic force. Then, when all of the medium is drawn in the state in which the hook rod 24 is locked to the locking holder 26, the locking holder 26 releases the hook of the hook rod 24 so that the pressing plate 20 pressurizes the medium. Do it.

On the other hand, the support plate 30 is mounted to the frame 10 to be elevated. The support plate 30 is a portion in which the medium is inserted and integrated. The support plate 30 moves downward in accordance with the number of media drawn into the integrated space 12 so that the medium can be stably integrated on the upper surface of the support plate 30.

The support plate 30 is moved along a guide slot (not shown) formed in the frame 10 located on both sides. Both sides of the support plate 30 are rotatably provided with guide rollers 32 inserted and guided in the guide slots.

In addition, the lower surface of the support plate 30 is supported by the compression spring 34 in the state in which the support plate 30 is moved to the lowest end of the integrated space 12. The compression spring 34 serves to provide an elastic force so that the support plate 30 moves toward the pressure plate 20. That is, in the state where the medium and the support plate 30 are pressed by the weight of the pressing plate 20, the compression spring 34 balances the weight of the pressing plate 20 with the weight.

In other words, when the compressed spring 34 is discharged by the weight of the pressing plate 20, the force due to the weight of the medium decreases, so that the compression spring 34 compensates for the pressure of the pressing plate 20. Balance self-weight with power. As a result, the medium can be released with a certain quality.

The frame 10 is provided with a drive pulley 40 driven by a separate drive source (not shown). The drive pulley 40 is provided at the top and bottom of the frame 10, respectively. In addition, the driving belt 42 is wound around the driving pulley 40. As shown in FIG. 1, the driving belt 42 is wound to be long and positioned upward and downward of the integrated space 12. One side of the driving belt 42 is fixed to the support plate 30. Therefore, the support plate 30 moves upward and downward in the integrated space 12 in association with the movement of the driving belt 42.

On the other hand, the pickup roller 50 is installed in the lower portion of the frame 10 to be rotatable. The pickup roller 50 is provided in the pickup roller 50 ′ rotatably installed in the frame 10. The pickup roller 50 picks up the media integrated in the support plate 30 one by one. The pickup roller 50 is in close contact with one surface of the medium and picks up the medium toward the medium outlet 52.

In the portion adjacent to the media outlet 52, a feed roller 54 and a separation roller 56 for conveying the media one by one are rotatably installed. The feed roller 54 and the separation roller 56 are provided on the feed roller shaft 54 'and the separation roller shaft 56' rotatably installed on the frame 10, respectively. The separation roller 56 is installed at a position corresponding to the feed roller 54 to maintain the stop state when the medium is transported so that the medium is separated one by one.

Hereinafter, the operation of the media accumulation apparatus of the automatic teller machine according to the present invention having the configuration as described above will be described in detail.

2A to 2F are diagrams illustrating an operation state in which a medium is integrated and discharged by a media accumulation apparatus of a media dispenser according to the present invention. Hereinafter, a process of accumulating and releasing a medium will be described with reference to the above.

First, in the state in which the medium m is discharged, the support plate 30 and the pressure plate 20 are in close contact with each other at the bottom of the integrated space 12. In this state, in order to integrate the medium m on the support plate 30, the pressing plate 20 should be moved to the upper portion of the integrated space 12. Thus, the drive pulley 40 is driven by a separate drive source. When the driving pulley 40 is driven, the support plate 42 is moved while the support plate 30 is moved upward. At this time, the pressing plate 20 in close contact with the upper surface of the support plate 30 is moved upward with the support plate 30. This process is well illustrated in Figure 2a.

The pressing plate 20 which is raised together with the support plate 30 is locked to the top of the frame 10. That is, as shown in FIG. 2B, the hook rod 24 of the pressing plate 20 is engaged with the locking holder 26 so that the pressing plate 20 can be locked.

When the locking of the pressing plate 20 is made, the driving pulley 40 is driven in the reverse direction and in conjunction with this, the support plate 30 is lowered by a predetermined height. When the support plate 30 is lowered, the medium m is drawn into the integrated space 12 by the inlet roller 14 and the controller 16. As shown in FIG. 2C, the medium m introduced into the integrated space 12 is integrated one by one on the upper surface of the support plate 30. The support plate 30 is lowered in accordance with the number of sheets of the medium (m) to be integrated, so that the medium (m) can be stably integrated.

When all of the medium m transferred through the medium transfer part is integrated in the support plate 30, the locking of the pressure plate 20 is released. That is, the locking holder 26 is rotated to release the hook with the hook rod 24 and the pressing plate 20 is freely dropped along the guide shaft 22. The free-falling pressure plate 20 presses the medium m at its own weight (see FIG. 2D).

As described above, while the pressing plate 20 presses the medium m, the support plate 30 is lowered together with the pressing plate 20 to the lowest end of the integrated space 12. This is illustrated well in Figure 2e. The lower surface of the support plate 30 is supported by the compression spring 34 in a state in which the pressing plate 20 pressurizes the medium m. The compression spring 34 is in equilibrium with the pressing force by the weight of the pressing plate 20 to support the support plate 30.

In this state, the medium m is discharged to the outside by the pickup roller 50. The pickup roller 50 is in close contact with one surface of the medium m to pick up the medium m one by one with friction. The medium m picked up by the pickup roller 50 is conveyed one by one by the feed roller 54 and the separation roller 56 and discharged to the customer.

At this time, when the medium (m) is picked up one by one, the force by the weight of the medium (m) is reduced by the number of the medium (m) to be discharged, the compression spring 34 is compensated by the elastic force to the pressure plate 20 ) To achieve equilibrium with As a result, the medium m can be ejected at a constant quality one by one in a state where the medium m is pressed with a constant force.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self evident.

1 is a side view showing the configuration of a preferred embodiment of a media accumulation apparatus for an automatic media dispenser according to the present invention;

Figure 2a to 2f is an operating state showing the process of the media is integrated and discharged by the media accumulation device of the media dispenser according to the present invention.

Explanation of symbols on the main parts of the drawings

10 frame 12 integrated space

14: inlet roller 16: controller

18: wing 20: pressure plate

22: guide shaft 24: hook rod

26: locking holder 28: holder shaft

30: support plate 32: guide roller

40: driving pulley 42: driving belt

50: pickup roller 52: media outlet

54: feed roller 56: separation roller

Claims (8)

A frame in which an integrated space in which the medium is integrated is formed; An introduction roller for introducing a medium into the integrated space; A support plate installed on the frame to be elevated to integrate the media drawn by the inlet roller, and stably integrate the media while moving according to the number of media; A pressing plate which is mounted to the frame to be elevated and pressurizes the media integrated in the support plate by its own weight; A compression spring for supporting a lower surface of the support plate so as to be in balance with the weight of the pressure plate; And a discharging means for discharging the medium pressed by the pressing plate one by one. The method of claim 1, The pressurizing plate is a media accumulation device of the automatic media dispenser, characterized in that both ends are supported by guide shafts provided on both sides of the frame to allow free fall in the integrated space. The method of claim 2, Sheets are provided at both ends of the controller shaft rotatably installed at the lower part of the inlet roller, and the medium is introduced in cooperation with the inlet roller, and a plurality of wings are provided on the outer circumferential surface of the controller shaft to strike the upper surface of the medium. Media collecting device of the automatic media dispenser, characterized in that it further comprises a roller. The method of claim 1, The frame is provided with a drive pulley driven by a separate drive source at the top and bottom, respectively, the drive belt is wound around the drive pulley, the drive belt is fixed to one side of the support plate to transfer power to the support plate Media collecting device of the automatic media dispenser, characterized in that. The method of claim 1, The pressurizing plate is made by a die casting method to press the media accumulated on the support plate with its own weight, characterized in that the media dispenser. The method of claim 1, wherein the discharge means, A pickup roller which picks up the media integrated on the support plate one by one; A feed roller for conveying the medium picked up by the pickup roller; And a separation roller installed to correspond to the feed roller so that the media are separated one by one. 7. The method according to any one of claims 1 to 6, A hook shaft is provided on an upper surface of the pressing plate, and the hook shaft is hooked to a locking holder provided on an upper portion of the frame when the media is retracted. A frame in which an integrated space in which the medium is integrated is formed; An introduction roller for introducing a medium into the integrated space; A support plate installed on the frame to be elevated to integrate the media drawn by the inlet roller, and stably integrate the media while moving according to the number of media; A pressing plate which is mounted to the frame to be elevated and pressurizes the media integrated in the support plate by its own weight; A locking holder provided on an upper portion of the frame and configured to hang a hook shaft provided on an upper surface of the pressing plate when the medium is retracted; And a discharging means for discharging the medium pressed by the pressing plate one by one.

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