JP2504575B2 - Stacker mechanism in banknote deposit / withdrawal machine - Google Patents

Description

Description: “Industrial application field” The present invention relates to a circulation type banknote depositing / dispensing machine having two functions, a banknote dispensing function and a depositing function, and closes a lower opening which is a feeding port of a stacker. The present invention relates to a stacker mechanism.

"Conventional technology and its problems" Conventionally, as a banknote depositing / dispensing machine of this type, Japanese Patent Laid-Open No.
The ones disclosed in No. 0282 and Japanese Utility Model Laid-Open No. 62-203130 are known.

In this bill depositing / dispensing machine, a stacker for storing dispensed bills or deposited bills is provided so as to be freely drawn out from the machine body, and a lower opening is formed in the lower portion of the stacker.

The lower opening is a feeding port for feeding the dispensed banknotes accumulated and stored inside to the outside. Near the lower opening, the banknotes stored in the stacker are passed through the lower opening one by one. A feeding roller for feeding the outside is provided.

By the way, in the banknote depositing / dispensing machine configured as described above, in a state where the stacker is removed from the machine body, there is a case where the banknote can be dispensed from the lower opening of the stacker by operating the delivery roller or the like from the outside. There was a problem that it could not be managed safely.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a stacker mechanism in a banknote depositing / dispensing machine that can prohibit the banknote from being taken out from the lower opening and can safely manage the banknote. To do.

[Means for Solving the Problems] In order to achieve the above object, in the present invention, a stacker having a stacking plate on which the banknotes are stacked in a horizontal state, and the stacker is loaded and loaded. In a stacker mechanism of a banknote depositing / dispensing machine provided with a drawer mechanism that can push the stacker into the apparatus body and can be withdrawn from the apparatus body, a lower opening through which the banknotes are fed to the stacker, and a lower opening When the stacker is removed from the drawer mechanism and a stacking plate support mechanism that movably supports the stacking plate in the up-and-down direction so as to traverse the stacking plate, the stacking plate is placed above the lower opening. A mounting plate up mechanism for moving up to is installed.

[Operation] According to the present invention, when the stacker is removed from the drawer mechanism, the placing plate on which the banknotes are accumulated moves to a position above the lower opening, whereby the banknotes are transferred to the outside through the lower opening. Is prevented from being taken out.

[Embodiment] An embodiment of the present invention will be described with reference to FIGS. 1 to 17.

First, a brief description will be given of a schematic configuration of a stacker related to the circulation-type banknote depositing / dispensing machine of the present embodiment. This stacker is a circulation-type deposit / withdrawal stacker for accumulating and depositing deposited banknotes as reusable bills in a reusable state. 1 (for an outline, see FIGS. 1 and 2), and a non-circulation type deposit stacker 2 (for an outline, see FIGS. 3 and 5) for accumulating and storing the received bill and the output bill, respectively. In either of the stackers 1 and 2, the stacker carrier is a drawer mechanism (pin (25), opening / closing link (7).
4) and the like; only part of which is shown) so that it can be pushed (pushing direction; arrow (a) direction) and pulled out (pulling direction; arrow (b) direction) to the device body It has become.

Like the deposit / withdrawal stacker applied to Japanese Patent Application No. 1-32226, the deposit / withdrawal stacker 1 stores a lot of thousands of frequently used bills in its storage space and accepts bills. An upper slide cover 3 (which will be described later) that can be freely opened and closed is provided in the upper opening 1A that can be opened and closed, and an elevator 4 (a mounting plate) that can be raised and lowered between the lower opening 1B through which the bills are fed and the upper opening 1A (described later) And a bill pressure 5 (described later) that can freely move in and out of the bill storage space is provided at the intermediate height position.

The banknotes inserted from the upper opening 1A are placed on the upper surface of the elevator 4, and the deposited banknotes are reused as the dispensed banknotes.

The deposit stacker 2 is, as with the deposit stacker applied to Japanese Patent Application No. 1-32226, a withdrawal section 2A that is a storage space.
Stores infrequently used 5,000 tickets, and this withdrawal section 2A
The deposit section 2B provided separately from the above stores the overflow banknotes (thousands of thousands) and five thousand notes that cannot be stored in the deposit / withdrawal stacker 1. Further, like the deposit / withdrawal stacker 1, the deposit / withdrawal stacker 2 has an upper slide cover 3 that can be opened and closed in the opening 2C for receiving banknotes.
Lower opening (provided below) is provided and the bills are paid out
A partition plate 6 (which will be described later) that can move up and down is provided between the 2D and the upper opening 2C.

The partition plate 6 divides the storage space for bills to form the withdrawal portion 2A below it and the deposit portion 2B above it. The lower opening 1B of the deposit / withdrawal stacker 1 is located below the rear side wall surface of the deposit / withdrawal stacker 1, while the lower opening 2D of the deposit / withdrawal stacker 2 is provided.
Are formed on the lower portion of the rear side wall surface of the deposit stacker 2.

Hereinafter, the mechanism of the deposit / withdrawal stacker 1 and the deposit / withdrawal stacker 2 will be described for each item (1) to (8).

(1) Lock mechanism of upper slide cover; handle is raised (upright) and stacker 1
When the upper slide cover 3 is locked in the closed state in the state where 2 is removed from the drawer mechanism, and the stackers 1 and 2 are loaded in the drawer mechanism and the handles are tilted (fallen down). A mechanism for unlocking the upper slide cover 3.

(2) Stacker lock mechanism; Stacker 1 for drawer mechanism
A mechanism for locking the stackers 1 and 2 to the drawer mechanism when 2 is loaded and the handles of the stackers 1 and 2 are tilted down.

(3) Elevator up mechanism: a mechanism for closing the lower opening which is the bill feeding port of the stackers 1 and 2 when the handle is raised (corresponding to the present invention).

(4) Handle lock mechanism: A mechanism that locks the handle in an upright state when the stacker is removed from the drawer mechanism.

(5) Bill pressure mechanism for deposit / withdrawal stacker; a mechanism for pressing the banknotes in the deposit / withdrawal stacker 1 with a constant pressure during the dispensing process.

(6) Power transmission mechanism to the bill pressure mechanism of the deposit / withdrawal stacker; a mechanism for operating the bill pressure mechanism of (5) above.

(7) Elevator position detection mechanism of deposit stacker: A mechanism that detects that the partition plate 6 of the deposit stacker 2 presses the upper surface of the dispensed bill.

(8) Opening / closing mechanism of the upper slide cover; when the drawer mechanism is pushed into the apparatus main body, the upper slide cover 3 of the stacker loaded in the drawer mechanism is collectively opened, and
A mechanism that collectively closes the upper slide cover 3 when the drawer mechanism is pulled out from the apparatus body.

Among the above mechanisms, (1) (2) (3) (4)
Regarding (8), the deposit / withdrawal slide 1 and the deposit / withdrawal stacker 2 have the same configuration.

Hereinafter, the above mechanisms (1) to (8) will be described in detail. In the following description, the same reference numerals are given to parts having the same configuration, and the description is simplified.

(1) The lock mechanism of the upper slide cover 3 will be described (see FIGS. 1 to 7).

The upper slide covers 3 are provided near the upper openings 1A and 2C of the deposit / withdrawal stacker 1 and the deposit / withdrawal stacker 2, respectively.
Further, it is a two-piece body composed of the upper slide cover 7 and the lower slide cover 8, and a pair of guide pins 9 are fixed to the side surface of the upper slide cover 7.

The guide pins 9 and 9 are formed so as to project toward the outside of the stackers 1 and 2 and are elongated holes 8A and 1C and 2E that are horizontally formed in the lower slide cover 8 and the stacker 1 and 2 main bodies.
Are arranged so as to penetrate each. And
With the arrangement of the guide pins 9 and 9 as described above, the upper slide cover 7 and the lower slide cover 8 are connected to the stacker 1 and
It is adapted to move relative to the two main bodies in the direction of arrow (a)-(b) which is a horizontal direction.

Further, an engaging member 10 is fixed to the end of the guide pin 9, and a regulating piece 11 whose tip is engaged with the engaging member 10 on the stacker 1 and 2 main body side, the regulating piece 11 Handles 12 are provided for operating the above.

The engagement member 10 moves integrally with the guide pin 9. Further, the regulation piece 11 is the stacker 1
2 is rotatably supported around a horizontal shaft 11A provided in the main body, and the restriction piece 11 is provided at the rear portion thereof.
Is provided with a tension spring 13 for urging it in the direction of the arrow (c), and a projection 11B that abuts a release pin 14 (described later) is integrally provided with the restriction piece 11 at the lower part thereof. .

The handle 12 has a structure in which the base end portion is fixed to a rotary plate 15 which rotates around a horizontal shaft 12A provided on the stacker 1 and 2 main body, and the tip end portion projects outward. The vertical position about the horizontal axis 12A (first
(See FIG. 2 and the like) and a fall position (see FIG. 8).

Further, the rotary plate 15 is provided with a release pin 14 which projects inward and presses the projecting portion 11B of the restriction piece 11 in the arrow (d) direction when the handle 12 falls.

The operation of the lock mechanism of the upper slide cover 3 configured as above will be described with reference to FIG.

In the state in which the handle 12 is raised, the restriction piece 11 and the engaging member 10 are engaged by the urging of the restriction piece 11 in the arrow (c) direction (the state shown by the solid line), and the upper slide cover 3 However, it will be locked in the closed state.

When the handle 12 is tilted down (rotated in the arrow (c) direction), the release pin 14 that rotates in conjunction with the handle 12 presses the restriction piece 11 in the arrow (d) direction. (The state indicated by the alternate long and short dash line), whereby the engagement state between the restriction piece 11 and the engagement member 10 is released, and the upper slide cover 3 can be freely opened and closed.

When the stacker 1 or 2 is loaded into the drawer mechanism and the drawer mechanism is pushed into the apparatus main body, for example, when the handle 12 is raised at this time, the pushing force of the drawer mechanism causes The handle 12 comes into contact with a wall portion (not shown) of the main body of the apparatus and is automatically tilted, so that the above-described operation can be automatically performed.

Further, the present invention is not limited to the automatic falling of the handle 12 as described above, and the operator may manually fall the handle 12 to manually unlock the upper slide cover 3.

(2) Locking mechanism of deposit / withdrawal stacker 1 (Figs. 1 to 2
FIG. 8, FIG. 10, FIG. 10), and the locking mechanism of the deposit stacker 2 (see FIGS. 3 to 5) will be described.

A link 20 is fixed to the inner surface of the rotary plate 15, and one end of a link 22 is rotatably provided at the tip of the link 20 via a pin 21. The link 22 is stretched over the stackers 1 and 2 in the vertical direction, and a lock member 24 is rotatably connected to the other end of the link 22 via a pin 23. There is.

The lock member 24 is rotatably supported by a horizontal shaft 24A provided on the stacker 1 and 2 main bodies, and a concave hook portion 24B is formed on the peripheral surface thereof. When the stackers 1 and 2 are loaded in the drawer mechanism, the hook portions 24B are engaged with the pins 25 on the drawer mechanism side that have entered the recesses 1D and 2F of the stackers 1 and 2. .

In the lock mechanism of the deposit / withdrawal stacker 1 and the lock mechanism of the deposit / withdrawal stacker 2 configured as described above, for example, as shown in FIG. 8, with the stackers 1 and 2 loaded in the withdrawal mechanism, the handle 12 is indicated by an arrow ( C) and the link 20 is rotated together with the rotary plate 15 in the same direction so that the lock member 24 rotates through the link 22 about the horizontal shaft 24A in the arrow (d) direction, whereby the lock member 24 is rotated. The hook portion 24B can engage with the pin 25 on the drawer mechanism side and lock the stacker with respect to the drawer mechanism.

(3) Elevator up mechanism.

(I) First, the elevator up mechanism of the deposit / withdrawal stacker 1 will be described (FIGS. 1, 2, and 8).

In the internal space where the banknotes of the deposit / withdrawal stacker 1 are stored,
An elevator 4 on which banknotes are placed in an accumulated state is provided on the upper surface thereof.

In this elevator 4, guide rollers 31 and 31 have guide grooves formed on the side surface of the stacker 1 in the vertical direction.
The bill is sent up and down by being slidably fitted in 32, and the bill sent from the upper opening 1A of the deposit / withdrawal stacker 1 is received on the upper surface when it is in the raised position.
Further, when it is in the lowered position, the accumulated banknotes placed on the upper surface of the lower opening 1B of the deposit / withdrawal stacker 1 are sequentially delivered from the lower side (note that the delivery of the banknote is This is performed by a feeding roller (not shown) that comes into contact with the lowermost surface of the stacked banknotes and unwinds the stacked banknotes one by one from the lower surface side toward the lower opening).

In addition, a support plate 33 that supports the guide rollers 31
Is a drive source (not shown) that fixes the elevator 4
It is connected to an elevating belt 34 driven by, and the operation of the elevating belt 34 is transmitted to the elevator 4.

Further, the lower end of the support plate 33 is bent outward to form a bent portion 33A, and the bent portion 33A is brought into contact with the roller 35 provided on the pin 23 described in the preceding paragraph, It is adapted to be pushed upward by the roller 35.

In the elevator up mechanism of the deposit / withdrawal stacker 1 configured as described above, the handle 12 is raised and the link 20 is rotated in the direction of the arrow (d) together with the rotating plate 15, so that the lock member 24 is moved horizontally through the link 22. It rotates about 24A in the direction of arrow (c), which causes roller 35
Rises, and the support plate 33 is pushed up together with the elevator 4 via the bent portion 33A.

In addition, the rising range of the elevator 4 pushed up by rotating the handle 12 corresponds to the height dimension of the lower opening 1B of the deposit / withdrawal stacker 1, and at the position where the elevator 4 is completely raised, the elevator 4 is lifted. 4 is located above the lower opening 1B so that the bills on the elevator 4 cannot be fed out through the lower opening 1B.

Further, in the elevator up mechanism shown in (i), the guide roller 31, the guide groove 32, and the support plate 33 constitute the mounting plate support mechanism shown in the claims, and the handle 12,
The rotary plate 15, the link 20, the pin 21, the link 22, the pin 23, the lock member 24, the bent portion 33A, and the roller 35 constitute the mounting plate up mechanism described in the claims.

(Ii) Regarding the elevator-up mechanism of the deposit stacker 2 (see FIGS. 3 to 5), the link 22 (described in the section “Lock mechanism of deposit stacker 2”) faces the rear of the deposit stacker 2. A lift arm 22A integral with the link 22 is provided.

On the other hand, in the lower part of the deposit stacker 2, a bottom plate 36 (placement plate) on which the bills for withdrawal are placed (the withdrawal portion 2A is formed on the upper face) is provided. , This bottom plate
Above the 36, there is provided a partition plate 6 which is an elevator on which the deposited banknotes are placed (the deposit part 2B is formed on the upper surface).

A support plate 38 having a roller 37A and a guide roller 37B coaxially with each other and a guide roller 37C vertically aligned with the guide roller 37B is fixed to a side portion of the bottom plate 36.

The guide roller 37B and the guide roller 37C are arranged in an elongated hole 39 extending in the vertical direction and slide along the inner surface of the elongated hole 39. Also, the roller 37A
Is in contact with the lift arm 22A.
And the bottom plate 3 together with the support plate 38 by pushing up the lift arm 22A.
6 is raised along the long hole 39.

That is, with the handle 12 triggered, the link
The lift arm 22A ascends together with 22 and the roller 37A is pulled up, whereby the bottom plate 36 ascends and the lower opening 2D, which is a mouth for paying out bills from the dispensing section 2A.
Will be closed by the bottom plate 36 (FIGS. 3-5).
(State shown in the figure).

On the other hand, the partition plate 6 has an elevation belt 34 at the front end thereof.
It is connected to the "elevator up mechanism of the deposit / withdrawal stacker 1" and is moved up and down. That is, the operation of the partition plate 6 is independent of the operation of the bottom plate 36.

The ascending range of the bottom plate 36 along the elongated hole 39 corresponds to the height dimension of the lower opening 2D of the deposit stacker 2, and when the bottom plate 36 is completely lifted, the bottom plate 36 is at the lower opening.
Located above 2D, the bills on the bottom plate 36 cannot be fed out.

Further, if the bottom plate 36 is lifted by the lift arm 22A and the partition plate 6 is arranged within the lifting range of the bottom plate 36 at this time, the partition plate 6 is simultaneously pushed up by the bottom plate 36.

Further, in the elevator up mechanism shown in this (ii), the guide plate 37B / 37C, the support plate 38, and the long hole 39 constitute the mounting plate support mechanism shown in the claims, and the handle 1
2, the rotary plate 15, the link 20, the pin 21, the link 22, the lift arm 22A, the pin 23, the lock member 24, and the roller 37A constitute the mounting plate up mechanism described in the claims.

(4) The handle lock mechanism will be described (FIGS. 1 to 5, 9, and 10).

Horizontal axis 40A arranged on each stacker 1 and 2 main body,
A lock member 40 whose one end 40B is in contact with the release pin 14
Are provided rotatably. An upper end of a link 42 is connected to the other end of the lock member 40 via a pin 41, and between the link 42 and each stacker 1 and 2 main body, as shown in FIGS. As shown in the figure, a tension spring 43 for urging the link 42 downward is provided.

The lower end 42A of the link 42 has a pin 25 (“(2) Stacker locking mechanism”) that is inserted into the recesses 1D and 2F of each Stacker 1 and 2 main body in a state where each Stacker 1 and 2 is loaded in the drawer mechanism. (Described above) and is pressed upward by the pin 25.

With the above configuration, when the stackers 1 and 2 are loaded in the drawer mechanism, the link mechanism 42 is lifted by the pull-out mechanism side pin 25 that enters the recessed portions 1D and 2F of the stackers 1 and 2, and the lock member is locked. 40 rotates in the direction of arrow (c) about the horizontal axis 40A. by this,
The lock member 40 is separated from the release pin 14,
The release pin 14 is no longer pressed by 40, and the handle 12 can be freely rotated.

On the other hand, raise the handle 12 to raise each stacker 1.2.
When the device is lifted from the device body and taken out, the link 42 is moved downward by the urging force of the tension spring 43, and the lock member 40 is rotated in the arrow (c) direction.

As a result, even if the handle 12 is tilted down with the stackers 1 and 2 taken out from the apparatus main body, the lock member 40
As a result, the release pin 14 is restricted from rotating, and the upright handle 12 cannot be tilted.

(5) The bill pressure mechanism of the deposit / withdrawal stacker 1 will be described (Fig. 1, Fig. 2, Fig. 11, Fig. 12).

In these figures, reference numeral 5 indicates that when the stacking amount of banknotes on the elevator 4 becomes small and the frictional force between the payout roller (not shown) and the banknote becomes insufficient (the payout roller is the lowermost surface of the stacked banknotes). The bill pressure is to push the banknotes against the payout roller by pressing the banknotes from above against the payout roller.

The bill pressure 5 is rotatably supported by an arm member 45 via a horizontal shaft 5A. Further, a pin 47 penetrating a long hole 46 formed on the side of the bill pressure 5 is fixed to the arm member 45, and the pin 47 allows the bill pressure 5 to move within the length range of the long hole 46 by a horizontal axis. It is designed to rotate around 5A.

The arm member 45 is rotatably supported about a horizontal shaft 48 provided in the main body of the deposit / withdrawal stacker 1, and one end of a link 49 is rotatably supported on the horizontal shaft 48. It is supported, and the other end of this link 49 has a pin.
One end of a link 51 is connected via 50. The pin 50 that connects the link 49 and the link 51 is provided so as to pass through the long hole 52 formed in the arm member 45, and the connecting portion between the link 49 and the link 51 is formed by this long hole 52. However, it is allowed to rotate about the horizontal axis 48.

The other end of the link 51 is rotatably connected to one end of a link 54 via a pin 53, and the other end of the link 54 is connected to a horizontal shaft 55 provided in the deposit / withdrawal stacker 1 main body. It is rotatably supported.

A lever 56 is rotatably supported on the horizontal shaft 55, and a link 57 is fixed to the lever 56. The link 57 has a roller 57A and a cutout portion 57B at the tip thereof, and the link 57 is formed by the roller 57A.
4 is restricted from rotating in the direction of arrow (d).
Further, the cutout portion 57B of the link 57 engages with the pin 58 provided at the end portion of the restriction piece 11 described in "(1) Lock mechanism of upper slide cover".

By the bill pressure mechanism of the deposit / withdrawal stacker 1 configured as described above, when the bill pressure 5 rotates downward about the horizontal shaft 55 (that is, the state of FIG. 11), the lower surface of the bill pressure 5 Presses the banknote, and the banknote can be reliably delivered one by one from the lower side by the delivery roller.

The cutout portion 57B of the link 57 and the pin 58 of the restriction piece 11
When and are in the engaged state, the bill pressure 5 is raised to be arranged at the position along the front surface of the apparatus main body, that is, in the state shown in FIGS. 1 and 2. The drive mechanism for rotating the bill pressure 5 about the horizontal shaft 55 will be described in the next section (6).

In addition, the bill pressure mechanism has a structure in which a plurality of pins, links, and the like are combined in this manner, because the driving force of the drive motor, which will be described later, is not directly transmitted as the pressing force of the bill, and the feeding roller is fed. This is because the coefficient of friction between the bill and the lower surface of the bill is always kept constant.

(6) The power transmission mechanism to the bill pressure mechanism of the deposit / withdrawal stacker 1 will be described (see FIG. 13).

The withdrawal mechanism into which the deposit / withdrawal stacker 1 is loaded is provided with a coupling disc 60.

The coupling disc 60 rotates about a horizontal shaft (not shown) provided on the pull-out mechanism side,
The driving force of a drive motor (not shown) is transmitted through a belt indicated by reference numeral 61 and a pulley indicated by reference numeral 62. Also, on the inner surface side of this coupling disc 60,
The tip portion of the lever 56 described in the previous section (5) (Figs. 11 to 13).
(Refer to the drawings, etc.) is provided with a connecting groove 63 that is detachably connected. When the connecting groove 63 and the lever 56 are connected, the driving force of the drive motor is transmitted to the lever 56. ing.

Further, the connecting groove 63 has a shape in which a portion into which the lever 56 is inserted expands outward as indicated by reference numeral 63A, so that when the deposit / withdrawal stacker 1 is loaded into the withdrawal mechanism, the bill pressure 5 is temporarily lowered. Even if the lever 56 is slightly lowered to the side and the lever 56 is tilted (the lever 56 is shown by a chain double-dashed line in FIG. 13), the lever 56 does not
When coupled with 60, it is erected upright by the connecting groove 63, whereby the bill pressure 5 is rotated to the retracted position as shown in FIGS. 1 and 2.

That is, when the deposit / withdrawal stacker 1 is loaded into the withdrawal mechanism, the bill pressure 5 is always triggered.

In FIG. 13, reference numerals 64, 64 and 65 are positioning blocks provided on the withdrawal mechanism and the deposit / withdrawal stacker 1 side, respectively, and are used when the deposit / withdrawal stacker 1 is loaded into the withdrawal mechanism. It is a thing.

(7) The elevator position detection mechanism of the deposit stacker 2 will be described (see FIGS. 5 and 14).

On the lower surface of the partition plate 6 which is a partition plate provided inside the deposit stacker 2, there is provided a detection plate 66 which is rotatable about a horizontal shaft 66A and whose end portion is horizontally displaced by the rotation. The detection plate 66 is provided.
A detection rod 67 is attached to the end of the.

The lower surface of the detection plate 66 is in contact with the upper surface of the dispensed banknote placed on the bottom plate 36. The detection plate 66 is rotated upward in contact with the banknote to move the detection rod 67 into the deposit stacker 2 main body. The horizontal movement is made relative to.

In addition, on the side surface of the main body of the deposit stacker 2 facing the detection rod 67, a detection lever 68 that rotates around a vertical axis 68A is provided.
14 is attached in a state of being urged clockwise in FIG. Further, a detection window 69 is formed on the side surface of the main body of the deposit stacker 2, and the reflection mirror 70 provided at one end of the detection lever 68 can be seen through the detection window 69.

Further, on the apparatus main body side, a sensor for irradiating the reflecting mirror 70 with a light beam through the detection window 69 in a state where the drawer mechanism is pushed into the apparatus main body, and for detecting the light beam reflected by the reflecting mirror 70. 71 are provided.

According to the elevator position detection mechanism configured as described above, when the partition plate 6 is in the raised position and the detection plate 66 is not in contact with the bill, the detection plate 66 tilts downward and the detection The detection rod 67 provided at the end of the plate 66 is located apart from the detection lever 68. However, when the partition plate 6 descends and presses the upper surface of the dispensing banknote on the bottom plate 36,
At the same time, the detection plate 66 comes into contact with the bill and rotates upward, whereby the detection rod 67 provided at the end of the detection plate 66 is horizontally displaced, and the detection lever 68 is centered around the vertical shaft 68A. It is pressed and rotated counterclockwise in FIG.

Then, when the detection lever 68 rotates counterclockwise in FIG. 14 and the reflection mirror 70 is hidden behind the detection window 69, the sensor 71 that continues to detect the reflection mirror 70 detects the reflection mirror 70. I can not do it, and this makes it
It can be detected that the partition plate 6 has reached the upper surface of the stored banknote and has come into contact with (pressed on) the upper surface of the banknote.

That is, in such an elevator position detection mechanism, the lower surface of the partition plate 6 can be appropriately brought into contact with the dispensed bill on the bottom plate 36, and the dispensed bill can be bill-pressed with a constant pressure. The payout rollers can reliably pay out the dispensed banknotes one by one from the lower surface side.

(8) The upper slide cover opening mechanism will be described (FIG. 1 to FIG. 3, FIG. 5, FIG. 15 to FIG. 17).

In the drawer mechanism, an opening / closing link 74 is movably provided at an upper position of a place where a plurality of stackers 1, 2, ... Are stored, and between the opening / closing link 74 and the drawer mechanism body, Open and close the link 74 in the depth direction (Fig. 15,
A slide spring 75 for urging the right side of FIG. 16; arrow (a) direction is provided.

Further, on the upper part of the opening / closing link 74, there are provided open grooves 76, 76, 76 for receiving the guide pins 9 provided on the respective upper slide covers 3 in a state where the slide covers 3 are closed.

The open grooves 76, 76, 76 receive the guide pins 9, 9, ... of the stackers 1, 2, ..., which are loaded in the drawer mechanism, in a state where the stackers 1, 2, ... are aligned. By sliding the opening / closing link 74 in the direction of the arrow (b), the guide pins 9 in the open grooves 76, 76, 76 are moved in the same direction to open the upper slide cover 3 at once. be able to.

Next, the slide cover 3 via the opening / closing link 74
A mechanism for locking, automatically opening, and automatically closing 3 ... will be described. The withdrawal mechanism body is provided with a restricting piece 77 that rotates about a horizontal shaft 77A. The restricting piece 77 has a pin 78 on one end side and the restricting piece 77 on the other end side.
A tension spring 79 for biasing clockwise in FIGS. 16 and 17 is provided, and a pin 78 of the restricting piece 77 is engaged with a protrusion 80 fixed to the opening / closing link 74. It has become. When the drawer mechanism is pulled out from the main body of the device, as shown in FIG.
78 and the protrusion 80 of the opening / closing link 74 are engaged with each other, whereby the opening / closing link 74 cannot be slid to open the upper slide cover 3.

On the other hand, as shown in FIG. 16, on the device body side,
Moreover, a cam 81 is provided in the movement path of the pin 78 provided in the drawer mechanism.

The cam 81 contacts the pin 78 from above and
78 is pressed downward to rotate the restriction piece 77 counterclockwise about the horizontal shaft 77A. That is, when the pull-out mechanism is pushed into the main body of the apparatus by the cam 81, the restricting piece 77 is rotated counterclockwise in FIGS. 15 and 16, whereby the opening / closing link 74 is slid by the pin 78. The regulation is released and the upper openings 1A and 2C of the stackers 1 and 2 are opened.

Further, on the drawer mechanism main body side, a pin 82 that penetrates a long hole 74A formed horizontally in the opening / closing link 74 is provided, and the pin 82 allows the opening / closing link 74 to move within a predetermined range (stacker 1, 2). The upper openings 1A and 2C of the above are slid within a range that can be opened surely.

On the other hand, the front end 74 of the opening / closing link 74 is on the device body side and in the movement path of the opening / closing link 74 of the drawer mechanism.
An opening piece 83 is provided which abuts on B and moves the opening / closing link 74 in the arrow (B) direction. This opening piece 83 is used when the drawer mechanism loaded with the stackers 1 and 2 is pushed into the main body of the apparatus (pushing direction; arrow (a) direction).
Is to be brought into contact with the front end 74B of the opening / closing link 74, and when the pulling-out mechanism is further pushed in the direction of the arrow (a) while being in contact with the front end 74B of the opening / closing link 74,
Only the opening / closing link 74 is moved relative to the main body of the drawing mechanism in the arrow (B) direction, whereby the upper slide cover 3 is opened.

As described above, according to the opening / closing mechanism of the upper slide cover in (8), when the drawer mechanism loaded with the stackers 1, 2, ... Is pushed into the apparatus main body, the opening / closing link 74 causes the opening / closing link 74 to move forward of the apparatus main body. It is pressed in the direction of the arrow (b), and as a result, the open grooves 76, 76
.., upper slide covers 3.3 of the stackers 1 and 2 loaded into the drawer mechanism via the guide pins 9 and 9
・ ・ Can be opened at once.

On the other hand, when the drawer mechanism is pulled out from the apparatus body, the open state of the opening / closing link 74 of the drawer mechanism is released by the opening piece 83 of the apparatus body, whereby the opening / closing link 74 is opened by the slide spring 75. Grooves 76/76 ...
Upper slide cover 3/3 ... through pins 9 ...
Can be closed at once ((8) by the opening and closing mechanism of the upper slide cover).

As described in detail above, according to the stacker mechanism of the banknote depositing / dispensing machine according to the present embodiment, when the handle 12 is raised, the link 22 of the depositing / dispensing stacker 1 rises and is provided on the lock member 24. The elevator 4 is pushed up together with the roller 35 that has been lifted. Also, deposit stacker 2
In, the lift arm 22A of the link 22 rises, and the bottom plate 36 is pushed up together with the roller 37A provided on the support plate 38. As a result, the lower openings 1B and 2D are closed, and the bills in the stacker 1 or 2 cannot be taken out through the lower openings 1B and 2D (by the elevator-up mechanism of (3)).

Further, when the handles 12 are raised and the stackers 1 or 2 are further lifted, the pins 25 on the pull-out mechanism side are pulled out from the recesses 1D and 2F, whereby the links 42 are formed.
Is pulled by the tension spring 43 and descends, whereby the one end 40B of the lock member 40 is prevented from protruding into the movement path of the release pin 14 and the triggered handle 12 is prevented from falling. That is, when the handle 12 is lifted and the stacker 1 or 2 is removed from the drawer mechanism, the lower openings 1B and 2D are kept closed by the elevator 4 or the bottom plate 36 (( 4) Due to the handle lock mechanism).

In addition, in the present embodiment, the lower openings 1B and 2D are closed when the handle 12 is triggered, but strictly speaking, the operator does not trigger when the handle 12 is triggered. The lower openings 1B and 2D may be closed when the handle 12 is gripped and the stacker 1 or 2 is lifted.

That is, when the stacker 1 or 2 is actually removed from the pulling-out mechanism instead of being interlocked with the operation of the handle 12, the recess 1D of the stacker 1 or the recess of the stacker 2 is removed.
The lower openings 1B and 2D may be closed based on the pulling-out operation of the pin 25 on the pulling-out mechanism side that is engaged with 2F.

[Advantages of the Invention] As described in detail above, according to the present invention, when the stacker is removed from the drawing mechanism, the placing plate on which the banknotes are accumulated moves to a position above the lower opening. However, this prevents the banknotes from being taken out through the lower opening, and has an effect that the banknotes can be safely stored in the stacker.

[Brief description of drawings]

1 to 17 are views showing an embodiment of the present invention,
1 is a left side view of the deposit / withdrawal stacker, FIG. 2 is a right side view of the deposit / withdrawal stacker, and FIG. 3 is a left side view of the deposit / withdrawal stacker.
4 is an arrow view taken along the line AA in FIG. 3, FIG. 5 is a right side view of the deposit stacker, FIG. 6 is an operation explanatory view of the upper slide cover lock mechanism, and FIG. 7 is an upper slide cover lock. FIG. 8 is a plan view of the mechanism, FIG. 8 is a right side view of the deposit / withdrawal stacker lock mechanism and elevator up mechanism, FIG. 9 is a right side view of the handle locking mechanism of the deposit / withdrawal stacker, and FIG. 10 is FIG.
FIG. 9 is a front view, FIG. 11 is a right side view of the bill pressure mechanism of the deposit / withdrawal stacker, and FIG. 12 is a front view of FIG.
Figure is a right side view of the power transmission mechanism to the bill pressure mechanism of the deposit / withdrawal stacker, Figure 14 is a plan view of the elevator position detection mechanism of the deposit / withdrawal stacker, and Figure 15 is a right side view of the upper slide cover opening mechanism when closed. , Fig. 16 is a right side view of the upper slide cover opening mechanism when opened, and Fig. 17 is Fig. 16B-B.
It is an arrow view along a line. 1 ... deposit / withdrawal stacker, 1A ... upper opening, 2 ... deposit / withdrawal stacker, 2C ... upper opening, 4 ... elevator (mounting plate), 36 ... bottom plate (mounting plate), mounting plate support mechanism ...... Guide roller 31, guide groove 32, support plate 33, guide rollers 37B / 37C, support plate 38, long hole 39, mounting plate up mechanism ...... Handle 12, rotating plate 15, link 20,
Pin 21, link 22, lift arm 22A, pin 23, lock member 24, bent portion 33A, roller 35, roller 37A.

Claims (1)

(57) [Claims] 1. A stacker having a stacking plate on which bills are stacked in a horizontal state, and a stacker loaded with the stacker that can be pushed into the apparatus main body and pulled out from the apparatus main body. In the stacker mechanism in the banknote depositing / dispensing machine provided with a withdrawing mechanism that supports the above-mentioned stacker, in the stacker, a lower opening through which the banknote is fed out, and the stacking plate with respect to the vertical direction so as to cross the lower opening. And a mounting plate up mechanism that moves the mounting plate to a position above the lower opening when the stacker is removed from the drawer mechanism. A stacker mechanism in a bill depositing / dispensing machine.