JP4689784B2 - Banknote transfer device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a banknote transport apparatus for transporting (collecting) banknotes inserted into a banknote insertion machine, a money changer, or the like on the back side where a plurality of game machines such as pachinko machines are arranged or in the upper part. The present invention relates to a banknote transport apparatus that is configured by connecting a plurality of banknote transport units that constitute a banknote transport path and that can be opened and closed at a part of the banknote transport path.
[0002]
[Prior art]
A banknote insertion machine (hereinafter referred to as a coin machine) used both as a bill and a coin for use in a pachinko amusement store or the like is known. Among them, in recent years, coin machines that can use 5,000 yen and 10,000 yen banknotes as well as 1,000 yen banknotes have appeared. The role which the banknote conveying apparatus which collect | recovers those banknotes reliably in such a background plays a large role.
[0003]
[Problems to be solved by the invention]
2. Description of the Related Art Conventionally, this type of banknote transport apparatus includes a base case that opens in one side of a banknote holding direction, and an openable and closable open / close case that closes the opening of the base case. A round belt is attached to the open / close case, and a plurality of pressure rollers for holding and transporting banknotes in cooperation with the endless round belt are attached to the open / close case. Moreover, the non-clamping part of the banknote is configured to prevent the banknote from falling over by guide walls provided on both sides thereof.
[0004]
And when a banknote jam occurs in the banknote transport passage part, the clerk opens the open / close case of the banknote transport apparatus with respect to the base case, thereby releasing the sandwiched state of the banknotes, It has a structure that can quickly remove jammed banknotes. This is because, for example, various kinds of bills such as curled bills and bent bills are inserted into the ball lending machine, so that workability when the bills are jammed is taken into consideration.
[0005]
However, in the conventional banknote transport apparatus, banknote jams often occur. This is because the gap between the guide walls is wide, especially in the case of curled banknotes, the banknotes are largely ramped, and the banknotes wrap around (escape) upward.
[0006]
Further, since the opening operation of the opening / closing case, that is, the attaching / detaching operation is performed in a narrow island of the amusement shop and carried out in a groping state, the workability is extremely poor and much labor is required. Moreover, during this work, the game was forced to be interrupted, causing trouble for customers.
[0009]
The present invention has been proposed in view of the above,The objective of this invention is providing the banknote conveying apparatus with the favorable workability | operativity at the time of a maintenance check.
[0010]
[Means for Solving the Problems]
In order to achieve the object, the invention described in claim 1A first base case having a pulley rail on the side wall and a banknote transport guide on the lower side, a second base case having a roller rail on the side wall, and an open / close case capable of opening and closing the upper portion of the transport path portion, Nipping and conveyingA transfer passage unit, a merged transfer drive unit having a drive source and a banknote inserted into the banknote input machine are joined to the transfer path unit;,A bill transport device installed in an amusement store comprising:The second base case is attached to the first base case so as to be able to open the banknote transport path. The first base case is provided with an attachment guide having an inclined surface on the opening side from the banknote transport guide, and the second base case is opened. At the time of re-mounting later, the lower side of the second base case is set along the inclined surface of the mounting guide to facilitate mounting.It is characterized by that.
[0014]
In this way, particularly during the mounting operation of the second base case, if the lower end of the second base case is brought into contact with the inclined surface of the mounting guide, the mounting operation can be performed easily.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows an embodiment of a banknote transport device (banknote transport unit) 10 of a stand type (a ball lending machine is arranged between two tables or above a table for every two game machines). FIG. 2 shows an embodiment of a banknote transport device (banknote transport unit) 10 of the all-unit type (a ball lending machine is arranged between the tables or above the tables for every other game machine). In addition, in the following description, when it calls the banknote conveyance apparatus 10, the banknote conveyance unit for connecting two or more and comprising the whole banknote conveyance apparatus shall be shown.
[0020]
The banknote transport apparatus 10 according to these embodiments includes a merging transport driving unit 100 and a transport path unit 200. The conveyance passage unit 200 is composed of a base case 210 and an opening / closing case 220, and a lid 300a and a base member 300b joint member 300 are attached to the front ends thereof. And the whole banknote conveying apparatus 10 connected to the said banknote conveying apparatus 10 and arrange | positioned on the island of a game store is comprised.
[0021]
And the banknote conveying apparatus 10 which concerns on this invention is provided with the locking device 5 which makes the opening / closing case 220 fixed to the joint member 300, or can freely be released. More specifically, by inserting and operating a key (not shown) that can be freely inserted into and removed from the key hole 52 of the locking device 5, release of the opening / closing case 220 is suppressed, and sliding of the joint member 300 to the upstream side is restricted. As a result, the open / close case 220 is configured so as not to open and close without darkness, thereby enhancing security. At the same time, adjacent banknote transport apparatuses 10 are connected in this state.
[0022]
Each banknote transporting device 10 normally receives banknotes S2 that are horizontally inserted into the space on the back side of the two rows of game machines P arranged back to back, and the merging and transporting drive 100 is inserted into the coin machines Q on both sides. It arrange | positions so that it may become an accepted position, and it connects with the adjacent banknote conveying apparatus 10 via the joint member 300. FIG. A plurality of the game shops are connected to have a length corresponding to the length of the island (FIG. 3).
[0023]
The joint member 300 is slidably provided at one end of the transport passage portion 200. That is, as shown in FIGS. 4, 5 and 6, for example, the joint member 300 is provided with an engagement rail 20 that engages and slides on the front end portion of the transport passage portion 200. The lateral displacement when 300 is extended is prevented.
[0024]
More specifically, the second engagement piece 20b having the flange 201 that supports the side wall 211b of the second base case 210b that forms the conveyance path portion 200 from below and is engaged with the inner surface of the side wall 211b is connected to the joint. The engaging rail 20 is provided on the inner side surface of the member 300 in the longitudinal direction. In addition, although the length of this engagement rail 20 can be set suitably and is provided in part in embodiment of illustration, it can also provide over the full length.
[0025]
On the other hand, the first engagement piece 20 a that engages with the protruding edge 233 ′ protruding from the edge of the bottom surface of the pedestal rail 233 provided on the first base case 210 a that forms the transport path 200 is formed on the upper surface of the joint member 300. It protrudes as the engaging rail 20 (FIG. 5).
[0026]
Then, when the joint member 300 is assembled to the transport passage 200, the second engagement piece 20b supports the lower end of the side wall 211b and the side surface of the side wall 211b is locked to the flange piece 201 as shown in FIG. In addition, the first engaging piece 20a is locked to the protruding edge 233 'of the pedestal rail 233. Accordingly, since the first base case 210a and the second base case 210b are engaged with the first engagement piece 20a and the second system combination piece 20b arranged in parallel, the joint member 300 is slid, and the both base case Even if it extends from the conveyance path part 200 which 210a and 210b form, it does not shake sideways. For this reason, the joint member 300 does not sway, and the conveyance path of the banknote is not bent or crushed, so that the banknote is not jammed. In addition, if this engagement rail 2 is provided also in the upper part and it is comprised so that the horizontal deflection of the joint member 300 may be prevented in four places up and down, a bigger effect will be acquired.
[0027]
In the present invention, the above-described joint member 300 is provided with connecting means 22 for connecting and fixing to the adjacent banknote transport apparatus 10 to improve workability. That is, as shown in FIGS. 1, 2, 7, 8, 16, and 17, a pair of connecting means 22 is provided on both side surfaces of the joint member 300. The connecting means 22 is made of an elastic body, and has an engagement head 221 at the tip, and an engagement step 222 is provided on the engagement head 221. In the illustrated embodiment, the connection is made via the joint member 300, but the connection means 22 may be provided in the base case 210 to directly connect the banknote transport apparatus 10.
[0028]
In addition, the other end of the banknote transport apparatus 10, that is, the end face of the transport passage section 200 of the banknote transport apparatus 10 on the downstream side in the case of the stand type, and the side wall 111 a of the frame F to be described later in the case of all units. Engagement holes 23 are formed in the end faces of 111b and 111c as connection means receiving portions corresponding to the connection means 22. In addition, a fitting hole 321 is formed in the end face of the transport passage portion 200 to fit a plurality of (four) connection pins 32 provided so as to protrude in the horizontal direction on the end face on the downstream side of the joint member 300. The positioning is performed.
[0029]
The connecting means 22 as described above can be obtained, for example, by bending a leaf spring into a desired shape. And in order to connect and fix the banknote conveying apparatus 10 adjacent using this connection means 22, the connection means provided in the two banknote conveying apparatus 10 in the engagement hole 23 opened in the end surface of the one banknote conveying apparatus 10 is used. When pressed with the engagement head 221 facing, the leaf spring, which is an elastic body, is temporarily deformed and engaged while the inclined surface of the engagement head 221 slides along the edge of the engagement hole 23. When the apex of the stepped portion 222 is passed and the apex passes through the edge of the engagement hole 23, the leaf spring is restored and the engagement stepped portion 222 is locked to the back side of the engagement hole 23. Therefore, the adjacent banknote transport apparatuses 10 are connected and fixed to each other. In addition, when removing the banknote conveyance apparatus 10, the main body part 22a of the connection means 22 may be picked, the engagement between the engagement step part 222 and the engagement hole 23 may be released and pulled out.
[0030]
According to such a connecting means 22, the screwing work in a narrow island becomes unnecessary, and the workability is remarkably improved. And since positioning is also performed correctly, the banknote jam by the trouble resulting from attachment work is also prevented.
[0031]
Moreover, the joint member 300 is provided with the conveyance groove | channel 31 connected to the front-end | tip of the banknote conveyance guide 270 mentioned later as shown, for example in FIG. 7, and delivers a banknote. Since the conveyance groove | channel 31, ie, the banknote channel | path C, overlaps with the downstream banknote conveying apparatus 10 and hold | maintains a banknote, it can be made to take in into the downstream banknote conveying apparatus 10 reliably.
[0032]
For example, as shown in FIG. 3, the merging and transporting drive unit 100 takes in the banknote S1 sent out from the upstream banknote transporting device 10 and the banknote S2 thrown into the ball lending machine Q and sends it out to the transport path unit 200. It is. The merging / conveying drive unit 100 is provided with a first edge on the upstream side edge around the longitudinal slot 112 opened so that bills can pass through the opposing side walls 111a and 111b of the frame F divided and formed into a hollow rectangular shape. The receiving guide member 120 is formed, and the second receiving guide member 130 is formed at the downstream edge of the elongated hole 112. These receiving guide members 120 and 130 are formed integrally with the frame F by a synthetic resin.
[0033]
For example, as shown in FIGS. 13 and 14, the first receiving guide member 120 forms a first passage for forming a first passage A that receives and guides the banknote S1 from the upstream banknote transport apparatus 10. A curved second portion for forming a second passage B that receives and guides the bill portion S2 from the side ball lending machine Q connected to the plate portion 121 and the intermediate portion of the first passage formation plate portion 121. The passage forming plate 122 is provided, and the base end of the second passage forming plate 122 is connected to the edge of the elongated hole 112.
[0034]
The first receiving guide member 120 is inclined so that the upstream end portion of the first passage forming plate portion 121 is slightly opened toward the upstream side, and this end portion constitutes a frame constituting the merging and conveying drive unit 100. It is connected to the edge of the banknote inlet 113 of F.
[0035]
In this way, if the upstream end of the first passage forming plate 121 is tapered, the bank is jammed in the vicinity of the banknote inlet 113 because it is guided as it is in the transport direction even if the curled tip of the banknote S1 hits. It will not occur.
[0036]
In the frame F, the first passage A for receiving and guiding the banknote S1 from the upstream banknote transport unit 10 is formed by the first passage forming plate portion 121 of the first receiving guide member 120. On the other hand, the second receiving guide guide member 130 is formed by connecting a curved passage forming plate portion 132 corresponding to the second passage forming plate portion 122 of the first receiving guide member 120 to the frame F. The second passage B that receives and guides the bill S2 from the ball lending machine Q by the second passage forming plate portion 122 of the receiving guide member 120 and the passage forming plate portion 132 of the second receiving guide member 130. It is formed.
[0037]
As shown in FIGS. 13 and 14, the passage forming plate portion 132 of the second receiving guide member 130 extends to the downstream side and protrudes into the transport passage portion 200. Further, the downstream end portion 120 a of the first receiving guide member 120 constitutes an extending portion that extends deep into the downstream side of the second receiving guide member 130.
[0038]
In this way, since the downstream end portion 120a extends deeply and is extremely narrow, it enters the second passage B from the ball lending machine Q until it reaches the tip of the passage forming plate portion 132. There is no possibility that the banknote S2 coming from the first passage A is interfered with the banknote S2 that is waiting, causing a banknote jam. Moreover, since it progresses through the narrow first passage A, even if there are wrinkles or the like in the banknote S1, it can proceed straight without causing banknote clogging.
[0039]
In the present invention, the first receiving guide member 120 and the second receiving guide member 130 are integrally formed with a synthetic resin together with the frame F, and the frame F is divided. That is, in the embodiment shown in the drawings, the upper block BU integrally formed with the upper frame Fu and the upper receiving guide members 120u, 130u, and the lower block Fl integrally formed with the lower receiving guide members 120l, 130l. It is divided into side blocks BL.
[0040]
For example, the upper frame Fu and the lower frame Fl configured as shown in FIGS. 9 to 14 are combined to form the merging / conveying drive unit 100 in the banknote conveying apparatus 10 according to the present invention. At this time, a gap 124 that is notched in the horizontal direction of the first passage formation plate portion 121 and the horizontal direction of the passage formation plate portion 132 of the second receiving guide member 130 between the upper frame Fu and the lower frame Fl. A notch-shaped gap 133 is formed in the direction. Then, the gaps 133 enter drive rollers 160a and 160b, an endless round belt 161, and a friction ring 162, which will be described later.
[0041]
According to the merging / conveying drive unit 100 divided and configured as described above, the number of parts can be remarkably reduced, and the part cost and assembly cost can be reduced. Further, the position of the receiving guide member becomes constant, and a product with uniform quality can be provided. In addition, steps or gaps do not occur due to assembly errors or the like, so the cause of banknote jams can be eliminated.
[0042]
A motor unit 140 is fixed to the bottom of the frame F as shown in FIG. The motor unit 140 includes a wiring box 141 and a motor 142 that are integrally formed of synthetic resin. The wiring box 141 has a shaft hole portion 143 for receiving the drive shaft of the motor 142, and support portions 146a and 146b for receiving and supporting the mounting plates 145a and 145b of the motor 142 in the horizontal direction on the lower surface thereof, and a positioning boss 144 and the like. Have.
[0043]
The wiring box 141 is provided with fixing means for the motor 142. For example, the fixing means is provided with a fixing button 148 that is urged by a spring, for example, a spring, at a position in contact with the side edge of the mounting plate 145a of the motor 142 so as to be able to protrude and retract from the bottom surface of the wiring box 141. When the fixed button 148 protrudes from the bottom surface, the motor mounting plate 145a is prevented from rotating, and when the fixed button 148 is retracted into the wiring box 141, the motor mounting plate 145a is allowed to rotate. . Alternatively, the fixing button 148 may be integrally formed with synthetic resin together with the wiring box 141 through a notch, and the elasticity of the synthetic resin may be used as a biasing means.
[0044]
Therefore, in order to fix the motor 142 to the wiring box 141, the rotating shaft of the motor 142 is inserted into the shaft hole 147 of the wiring box 141, and the motor mounting plate is pressed while pushing the fixing button 148 of the fixing means into the wiring box 141. 145a and 145b are rotated so as to fit into the support portions 146a and 146b. When this rotation is completed and the motor mounting plates 145a and 145b are locked to the support portions 146a and 146b, the fixing button 148 protrudes and locks to the side edge of the motor mounting plate 145a. Accordingly, the motor mounting plate 145a is fixed to the wiring box 141 while preventing the return rotation. On the other hand, when the motor 142 is removed, the motor mounting plates 145a and 145b may be rotated while the fixing button 148 is pushed in to release the engagement with the support portions 146a and 146b and pull out.
[0045]
A synchronous motor may be used for the motor unit 140 as described above. The synchronous motor is smaller and less expensive than the geared motor used in the conventional banknote transport apparatus 10 because it does not have a gear device. And if a synchronous motor is used, since the height of motor itself will become low, the whole height of the banknote conveying apparatus 10 can be comprised low, and the installation in a narrow island becomes easy. In the present invention, unlike the transmission gear that simply transmits the rotation of the motor, the gears 17, 18, and 19 described later are used for deceleration.
[0046]
Moreover, according to the motor unit 140 configured as described above, the replacement of the motor 142 is extremely easy, the work can be performed without using a tool such as a driver, and the narrow internal space left on the back side of the game table P. It is extremely effective for work in
[0047]
One drive shaft 170 (see FIG. 16) is perpendicular between the bottom wall 110b and the upper wall 110a of the frame F constituting the merging and conveying drive unit 100, that is, between the upper block BU and the lower block BL. It is attached to be freely rotatable. Further, below the bottom wall, the gear 17 provided at the lower end of the drive shaft 170, the gear 18 of the drive shaft of the motor 142, and the gear 19 of the drive shaft 173 mesh with each other. 173 (see FIG. 17).
[0048]
Similarly, two driven shafts 171 and 172 are rotatably mounted between the upper wall 110a of the upper block BU and the bottom wall of the lower block BL, and are driven above the upper wall 110a. The driven shaft 171 rotates at the same speed in the same direction as the drive shaft 170 by the belt 175 mounted between the pulleys 174a and 174b of the same diameter fixed to the shaft 170 and the driven shaft 171. Further, gears 176 and 177 having the same number of teeth meshing with each other are fixed to the rotating shaft 170 and the driven shaft 172, and the driven shaft 172 rotates in the opposite direction at the same speed (see FIG. 24).
[0049]
As shown in FIG. 16, the driven shaft 171 is positioned slightly on the side of the side wall 111 a from the first receiving guide member 120, and in the middle portion, that is, the first passage forming plate portion of the first receiving guide member 120. A pulley 150 is fixed at a position corresponding to the horizontal gap 124 of 121. The pulley 150 has an annular groove at the center in the vertical direction, and an annular ring 151 made of a friction body such as rubber is attached to the annular groove so as to protrude outward. Protruding. In addition, in the banknote type banknote transport apparatus 10, an endless round belt or the like is attached to the pulley 150. The drive shaft 170 is pivotally supported by a bearing member (not shown) mounted in a bearing member mounting hole 179 established in the frame F, and the same applies to the other driven shafts 171 and 172.
[0050]
Opposed to this, a pressure contact roller 153 having a friction body on its outer periphery is rotatably attached to a roller base 152 fixed to the side wall 111b of the lower block BL constituting the lower half portion of the frame F by a shaft 154. Yes. Since the shaft 154 is urged toward the pulley 150 by an urging means (not shown) such as a spring, the pressure roller 153 is brought into pressure contact with the annular ring 151 of the pulley 150 that is driven to rotate in the first passage A. Rotate. For this reason, the banknote S1 sent out from the upstream banknote transport apparatus 10 is sandwiched between the annular ring 151 of the pulley 150 and the pressure roller 153 in the first passage A and is taken in.
[0051]
The drive shaft 170 is positioned slightly outward from the passage forming plate portion 132 of the second receiving guide member 130 in the second passage B, and its vertical middle portion, that is, the passage forming plate portion 132. At a position corresponding to the gap 133 on the side, the driving roller 160a is fixed in a state of protruding into the second passage B. A friction ring 162 is attached to the driving roller 160a, and a feed roller 164 biased by a spring contacts the friction ring 162. The feed roller 164 is swingably attached to a mounting plate 127 mounted on mounting claws 125 provided on the upper block BU and the lower block BL, and is formed between the upper block BU and the lower block BL. Projecting from the gap 124.
[0052]
For this reason, in this embodiment, the banknote S2 sent out from the ball lending machine Q to the second passage B is pressed against the friction ring 162 by the feed roller 164 and is nipped and conveyed, so that the taking-in is ensured. Therefore, it is possible to reliably catch even a bill that cannot be taken in by a conventional apparatus because it is an accordion-like bill with no waist.
[0053]
In the illustrated embodiment, the merging and conveying drive unit in which the first conveying path A for nipping and conveying the banknote S1 from the upstream and the second conveying path B for conveying the banknote S2 from the ball lending machine Q merges. In 100, a receiving guide 126 is provided for bringing the end of the second conveyance path B closer to the driving roller 160a connected to the driving source. That is, in this embodiment, a receiving guide 126 that protrudes in a rib shape toward the contact point between the outer peripheral surface of the feed roller 164 and the endless round belt 161 is provided. The receiving guides 126 are provided integrally with the mounting plate 127 described above, are positioned above and below the feed roller 164, and are provided as a pair facing the driving roller 160a or 160b.
[0054]
According to the receiving guide 126 as described above, even if the tip of the bill S2 sent out from the ball lending machine Q to the second transport path B is curled, the tip of the bill S2 is not broken and the bill S2 is not broken. The biting of the feed roller 164 can be improved by reliably guiding the feed roller 164 and the endless round belt 161 in the contact direction. That is, the banknote S2 sent from the coin machine Q can be reliably merged into the transport path portion 200.
[0055]
Similarly to the above, the second driven shaft 172 is positioned slightly outward from the passage forming plate portion 132 of the second receiving guide member 130 of the second passage B, and the first driven shaft 171 and The drive roller 160b is fixed in a state of protruding to the second passage B at the same height. A friction ring 162 made of a friction material such as rubber is fitted in the annular groove of the drive roller 160b, and the friction ring 162 protrudes into the second passage B. Then, facing the friction ring 162, the feed roller 164 is attached in a state of protruding from the front end side gap 124 of the first receiving guide member 120 via a spring. For this reason, the banknote S2 sent out from the ball lending machine Q is securely held and taken in by the feed roller 164 and the friction ring 162 on the same principle as described above.
[0056]
A gear cover 180 is attached to the upper wall 110a of the frame F constituting the merging and conveying drive unit 100. A locking portion of the locking device 5 that prevents the opening and closing case 220 of the upstream banknote transport device 10 from opening is provided on the upstream side of the gear cover 180 so as to be engaged with and disengaged from the locking hole of the main body portion 52. Further, a locking piece 181 is formed at the downstream end so as to hold the upper surface of the upstream end of the opening / closing case 220 and to restrict the removal of the opening / closing case 220. In addition, in the banknote type banknote transport apparatus 10 shown in FIG. 1, the locking piece 181 a presses the upper surface of the opening / closing case 220 of the upstream-side transport path 200, similarly to the locking piece 181, The attachment / detachment of the case 220 is restricted.
[0057]
As shown in FIGS. 9 to 14, an extension fixing plate 115 is integrally projected on the side wall 111 of the lower block BL constituting the lower part of the frame F of the merging and transporting drive unit 100. The banknote transport apparatus 10 is configured by fixing the base case 210 constituting the transport passage section 200 to the fixed plate 115.
[0058]
Further, a metal conveying device bracket 117 is attached to the front surface of the side wall 111a (111b) of the frame F together with a terminal 149a described later via a mounting screw 117a. The transport device mounting bracket 117 is for mounting the banknote transport device 10 on the back of the ball lending machine Q. Thereby, the banknote conveyance path | route of the ball lending machine Q and the banknote conveyance apparatus 10 is connected.
[0059]
And the ground wire attaching part 116 for removing the noise from the ball lending machine Q is provided in the lower part of the side wall 111a (111b) of the lower block BL as shown in FIGS. The ground wire attaching portion 116 is formed with a terminal attaching portion 116 a for attaching the terminal 149 a of the ground wire 149 and a locking claw 116 b for fixing the ground wire 149.
[0060]
The ground terminal mounting portion 116a has the shape of the terminal 149a, and is formed to a depth such that the outer surface thereof is flat when mounted.
[0061]
The other end of the ground wire 149 is wired to the power input connector 141a of the wiring box 141 shown in FIG. The power input connector 141a is sequentially supplied with power from the adjacent downstream banknote transport apparatus 10, and the motor 142 is driven. The power supply supplies power to the adjacent banknote transport apparatus 10 on the upstream side via the power cord K connected to the power output connector 141b (FIG. 21). Therefore, the noise of the ball lending machine Q is removed via the transfer device mounting bracket 117, the ground wire 149, and the power cord K.
[0062]
For example, as shown in FIG. 4, the transport passage unit 200 includes a base case 210 including a first base case 210 a and a second base case 210 b that is releasably attached to the first base case 210 a, and the base case 210. And an open / close case 220 that is detachably attached to the upper side. Note that the open / close case 220 is not illustrated in FIG. 4.
[0063]
Inside the side wall 211a of the first base case 210a, a pulley rail 230 and a pedestal rail 233 having a substantially U-shaped cross section are provided in a horizontal direction as shown in FIG. 4, FIG. 5, or FIG. Between the upper plate 230a and the lower plate 230b constituting the pulley rail 230, a plurality of pulleys 231 are rotatably attached in a cantilever state by a vertical shaft 232 standing from the pedestal rail 233. An endless round belt 161 is stretched between the driving roller 190 of the driving shaft 173 and the pulleys 231 of the first base case 210a in the merging and conveying driving unit 100.
[0064]
And the 1st base case 210a of the above structures is constituted by synthetic molding with synthetic resin. Therefore, it is not necessary to attach each member individually with screws or the like as in the conventional product, and the number of assembling steps can be greatly reduced. In addition, there is no error during assembly, so the product is stable in quality. In addition, since the number of parts is greatly reduced, management and the like are facilitated.
[0065]
Further, as shown in FIG. 17, mounting guides 236 are provided at appropriate intervals on the open side of the first base case 210a, that is, on the second base case 210b side. More specifically, the first base case 210a is integrally formed in an inclined shape from the tip of the bottom wall 211b to a guide wall 271 of the lower bill conveyance guide 270 described later.
[0066]
When the second base case 210b is attached / detached, the attachment work can be easily performed by bringing the lower end 210 'of the second base case 210b into contact with the inclined surface 236a of the attachment guide 236. As a result, for example, the endless round belt 161 is not damaged by the lower end 210b 'of the second base case 210b.FIG.).
[0067]
On the other hand, the second base case 210b attached to the first base case 210a as described above so as to be freely opened and closed is also integrally formed of synthetic resin with the following configuration. That is, the roller rail 260 is provided on the inner surface of the side wall 211b of the second base case 210b at a height facing the pulley rail 230 of the first base case 210a. Each roller 261 facing each pulley 231 is attached to the roller rail 260 so as to be rotatable by a shaft 262 and biased toward the pulley 231 by a spring 263.
[0068]
The spring 263 will be further described. As shown in FIGS. 6 and 21, the spring 263 is provided above and below the pressure roller 261, one end 263a is inserted into the hole 262a of the shaft 262, and the other end 263b is engaged. The front end of the roller rail 260 may be curved so that the tip is curved (inward), and inserted into the side wall 267 of the roller rail 260, the roller holding portion 268 formed on the roller rail 260, and the protruding edge 269. . In this way, it is possible to provide a structure that is a simple attachment operation and that does not come off the spring 263.
[0069]
In this way, the pressure roller 261 on the second base case 210b side is in pressure contact with the endless round belt 161 of each pulley 231 on the first base case 210a side. For this reason, the banknote sent out from the confluence | merging conveyance drive part 100 is pinched | interposed into the endless round belt 161 and the press-contact roller 261 from the thickness direction, and is conveyed smoothly.
[0070]
The pulley 231a and the pressure roller 261a that are closest to the merging / conveying drive unit 100 side are disposed so as to be slightly downstream from the leading edge position of the banknote S2 that is fed from the ball lending machine Q and is in a standby state. For this reason, the endless round belt 161 and the pressure roller 261a of the pulley 231a on the most upstream side are not covered with the bill S2 from the ball lending machine Q in the standby state. Accordingly, the banknote S1 conveyed from the first passage A is securely clamped by the endless round belt 161 and the press contact roller 261a, and therefore, the banknote is not jammed.
[0071]
In this embodiment, the conveying surface 260d of the roller rail 260 is widened at the axial position of the pressure roller 261, and a corrugated shape having a gently curved surface is formed at appropriate intervals, and the pressure roller 261 is formed. The width was reduced through a steep stepped portion 260e at a position exceeding. For this reason, even a bill curled at the tip and facing the pressure roller 261 side is not caught by the pressure roller 261, and no noise is generated when the pressure roller 261 is overcome.
[0072]
In this embodiment, for example, as shown in FIG. 8, the upstream end of the roller rail 260 is a cut surface 260a, and the guide surface 260b following the cut surface 260a is substantially the same as the base end surface 260c of the roller rail 260. They were formed parallel to each other and communicated with the above-described transport surface 260d.
[0073]
According to the receiving portion of the roller rail 260 as described above, even a bill with a curled tip does not enter the gap and become jammed. Moreover, even if the distance which overlaps with the joint member 300 of the adjacent banknote conveying apparatus 10 is short, since a banknote can be reliably guide | induced to the conveyance path part 200, banknote clogging does not generate | occur | produce. In addition, since the protruding piece 301 provided on the joint member 300 to be overlapped can be formed small, the protruding amount is small and the handling is easy.
[0074]
Further, in this embodiment, the spring 263 that urges the pressure roller 261 is relatively weak in elastic force. For this reason, even when the new bill is folded in half, even if the cheek is strong and the chevron is conveyed toward the press roller 261, the press roller 261 can escape the chevron, which causes the banknote jam to occur. There is no.
[0075]
A groove-shaped lower banknote transport guide 270 can be provided along the longitudinal direction at the bottom of the first base case 210a or the second base case 210b constituting the transport path 200. For example, as shown in FIG. 4, the lower banknote transport guide 270 has a bowl shape that opens upward, that is, includes a pair of opposing guide walls 271 and a bottom plate portion 272 that connects the lower ends of both guide walls 271. The bottom side of the bill is placed on the bottom plate portion 272, and the pair of guide walls 271 and 271 are supported near the lower end, so that the bill sandwiched between the endless round belt 161 and the pressure roller 261 advances.
[0076]
According to such a lower banknote conveyance guide 270, the lower end portion of the banknote can be guided from both sides, so that it is possible to reliably prevent the banknote from running sideways. The lower bill conveyance guide 270 may be provided on the second base case 210b on the open side, or may be formed by combining both base cases 210a and 210b.
[0077]
Therefore, in the banknote transport apparatus 10 according to the present invention, an opening as a discharge port is provided at a position where the pellets can be efficiently discharged, that is, near the lower end side end of the lower banknote transport guide 270 (see FIG. 4) as described above. 273 has been established. If a discharge port is provided at this position, it is possible to prevent pellets and the like from entering the banknote transport apparatus 10 on the downstream side, and banknote jamming can be prevented.
[0078]
Between the ball lending machine Q and the merging and transporting drive unit 100, a banknote relay device 400 that feeds the bill S2 sent out from the ball lending machine Q to the entrance of the merging and transporting drive unit 100 is interposed. This banknote relay device 400 is for the purpose of dealing with different island widths depending on the amusement store, that is, even if the depth of the island is different and the distance between the ball lending machine Q and the merging and transporting drive unit 100 is different. , S2 for reliably feeding the banknote into the merging and conveying drive unit 100.
[0079]
Therefore, the banknote relay device 400 includes a feeding mechanism 41 having a pair of rotating pulleys 410 and a pressure contact roller 420, and a case and spacer 42 that houses the feeding mechanism 41. The feed mechanism 41 includes a rotating shaft 412 that is rotatably provided in the vertical direction of the base body 411, a rotating pulley 410 that is provided in the middle of the rotation, and a pressure roller 420 that is biased so as to be in pressure contact with the rotating pulley 410. And.
[0080]
The base body 411 is a member molded from a synthetic resin, and has a connecting portion 440 that can be fitted and connected to a connecting portion 430 provided on the frame F of the merging / conveying drive portion 100 at one end, and the above-mentioned at the other end. It has the connection part 450 of the same shape as the connection part 430 of the flame | frame F, and is comprised so that the said base body 411 can be connected one after another.
[0081]
On the other hand, the case and spacer 42 that can cover the base body 411 can be fixed to the side wall portion of the merging and conveying drive unit 100. When this case and spacer 42 functions as a case, the base body 411 including the feeding mechanism 41 described above is housed, and a drive pulley 413 is provided on the ceiling portion, The drive belt 415 is bridged between them (FIG. 24). On the other hand, when functioning as a spacer, a pulley or the like is not provided in the case, but a tension roller for the drive belt 415 is provided on the top plate. And the banknote relay apparatus 400 of a desired space | interval is comprised by combining the above feeding mechanisms 41 and the case and spacer 42 suitably.
[0082]
According to the banknote relay device 400 as described above, a banknote transport path is formed between the ball lending machine Q and the merging transport drive unit 100 even when the island width is widened, so that banknote jams do not occur. Furthermore, by combining a single member, it is possible to flexibly cope with different island widths, and it is possible to reduce costs and easily stock parts. In addition, the practical value is extremely high, such as being able to immediately respond to sudden specification changes. The distance less than the distance between the case and spacer 42 may be adjusted by the cylindrical spacer 45, and there is no gap even if the ball lending machine Q and the merging / conveying drive unit 100 are arranged at any interval. Can guide banknotes.
[0083]
In the joint member 300 constituting the transport passage portion 200, at least two or more sensor attachment portions 310 to which the bill detection sensors R are attached are formed. As shown in FIGS. 4 and 8, the sensor mounting portion 310 protrudes so as to sandwich the lower bill conveyance guide 270. In the case where the banknote relay device 400 does not exist, that is, in the embodiment where the island width is narrow as shown in FIG. 7 and FIG. In the embodiment using the relay device 400, the bill detecting sensor R is attached to the sensor attaching portion 310b on the rear end side.
[0084]
The banknote detection sensor R as described above includes a banknote S1 fed from the upstream side of the transport passage section 200 and a banknote S2 fed from the side by the ball lending machine Q. In order not to overlap in the merging and conveying drive unit 100, that is, the number of banknotes counted when inserted into each ball machine Q and the number of banknotes finally collected in the stacker do not match. Is to prevent. Moreover, the mounting position is appropriately selected depending on the island width. The reason why the bill detection sensor R is provided in the joint member 300 is that the distance between the bill detection sensor R and the ball lending machine Q is always kept constant even when the joint member 300 is slid. This solves troubles such as intricate control due to fluctuations in the distance between the bill detection sensor R and the ball lending machine Q, and erroneous control.
[0085]
In the above description, the attachment position of the banknote detection sensor R is appropriately moved (selected) in accordance with the island width. However, the sensor attachment part 310a on the front end side and the sensor on the rear end side are described in advance. What is necessary is just to connect either wiring of the sensor R for banknote detection provided in the attaching part 310b. In addition, even if island widths differ, the overlapping of banknotes can be prevented by changing the control program for preventing the overlap of banknotes each time corresponding to an island width. However, the response by the control program is complicated to manage the control program, and cannot be dealt with in the event of an emergency such as a specification change, and is not cost effective.
[0086]
As described above, the amount of slide of the joint member 300 can be ensured by providing the banknote detection sensor R in the banknote transport apparatus 10. That is, a sufficient amount of slide can be ensured because there is no possibility of interference due to a variety of gaming facilities on the island or its own protrusions (for example, the first fastening bracket 240 and the second fastening bracket 250).
[0087]
In addition, by providing the banknote detection sensor R in the banknote transport device 10, the banknote detection sensor R can be prevented from being damaged, and the base case 210 can be provided with a hole for transmitting the banknote detection sensor R or the like. Eliminate the need to open notches. Furthermore, by providing the bill detection sensor R in the vicinity of the lower bill conveyance guide 270 which is the conveyance passage section 200, even the inexpensive bill detection sensor R having a relatively low sensitivity can function sufficiently. be able to.
[0088]
As described above, the second base case 210b is detachably attached to the first base case 210a fixed to the extending fixing plate 115 of the frame F. This is because, for example, the engagement of the second fastening member 250 attached to the lower edge 210b ′ of the second base case 210b into the engagement hole 240a of the first fastening member 240 attached to the bottom wall of the first base case 210a. What is necessary is just to engage the mating protrusion 250a so that it can be fitted and removed. With this configuration, the second base case 210b is rotatable with respect to the first base case 210a around the engaging hole 240a with the engaging protrusion 250b engaged with the engaging hole 240a as a fulcrum. Thus, the second base case 210b can be separated by releasing the engagement.
[0089]
1 and 2, an open / close case 220 is detachably attached to the upper surface of the assembled base case 210. That is, the lower edge of the opening / closing case 220 is provided with pins 220a at a plurality of locations with appropriate intervals including four corners, and the holes 214a on the upper wall of the first base case 210a and the second base case 210b. The upper wall is inserted into and engaged with the hole 214b (see FIG. 4) from above. As a result, an attaching / detaching means for the opening / closing case 220 and the base case 210 is configured.
[0090]
By providing a plurality of the pins 220a and engaging with each other, deformation of the transport passage portion 200 due to external pressure (interference with other game equipment) is prevented.
[0091]
Further, the opening / closing case 220 and the lid 300a of the joint member 300 that slides at the tip of the opening / closing case 220 in the banknote transport direction gradually narrows the interval toward the downstream side in the banknote transport direction. A groove-shaped upper banknote transport guide 280 is provided to guide the vicinity of the upper end of the banknote.
[0092]
For example, as shown in FIGS. 27 and 28, the upper banknote transport guide 280 has a bowl shape that opens downward, and includes a pair of opposing guide walls 281 and an upper plate portion 282 that connects the lower ends of both guide walls 281. That is, the pair of guide walls 281 and 281 support the vicinity of the upper end, and the bills sandwiched between the endless round belt 161 and the pressure roller 261 advance.
[0093]
And the upper banknote conveyance guide 280 is narrowing the space | interval gradually toward the downstream of a conveyance direction, Therefore A banknote can be delivered smoothly to the next banknote conveying apparatus 10. FIG.
[0094]
The open / close case 220 may be formed of a transparent material in the same manner as the first base case 210a and the second base case 210b. In other words, if it is a transparent material, it is possible to visually recognize the normal flow of banknotes in the transport passage and banknote jams from the outside without opening the opening / closing case 220.
[0095]
In addition, the structure of the banknote conveyance apparatus 10 of this invention can be easily applied as conveyance apparatuses, such as a prepaid card and an IC card which memorize | stored the value of money or game media.
[0097]
【The invention's effect】
In the banknote conveying apparatus of the present invention described in claim 1,A first base case having a pulley rail on the side wall and a banknote transport guide on the lower side, a second base case having a roller rail on the side wall, and an open / close case capable of opening and closing the upper portion of the transport path portion, Nipping and conveyingA transfer passage unit, a merged transfer drive unit having a drive source and a banknote inserted into the banknote input machine are joined to the transfer path unit;,A bill transport device installed in an amusement store comprising:The second base case is attached to the first base case so as to be able to open the banknote transport path. The first base case is provided with an attachment guide having an inclined surface on the opening side from the banknote transport guide, and the second base case is opened. Easily attach the bottom of the second base case along the inclined surface of the mounting guide when re-installingThe work can be done.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an embodiment of a banknote type banknote conveying apparatus according to the present invention.
FIG. 2 is a perspective view showing an embodiment of an all-bank-type banknote transport apparatus according to the present invention.
FIG. 3 is a schematic explanatory view showing a specification state of the banknote transport apparatus.
FIG. 4 is a perspective view showing an embodiment with a base case opened.
FIG. 5 is a side view of a part of the embodiment of the transport passage portion.
FIG. 6 is an explanatory view showing the inside of a joint member and a base case.
FIG. 7 is a plan view for explaining a lower bill conveyance guide and a joint member.
FIG. 8 is a plan view of an open state showing the inside of the banknote transport apparatus.
FIG. 9 is a front view of a frame of a merging / conveying drive unit configured to be vertically divided.
FIG. 10 is a side view on the upstream side of the frame of the merging / conveying drive unit divided in the vertical direction.
FIG. 11 is a side view of the downstream side of the frame of the merging / conveying drive unit configured to be divided vertically.
FIG. 12 is a cross-sectional view of a frame of a merging / conveying drive unit configured to be vertically divided.
FIG. 13 is a bottom view showing the inside of the upper frame.
FIG. 14 is a bottom view showing the inside of the lower frame.
FIG. 15 is a perspective view of an embodiment of a motor unit.
FIG. 16 is a plan view of a main part showing a merging / conveying drive unit;
FIG. 17 is a front view showing the inside of the banknote transport apparatus in an open state.
FIG. 18 is a front view of a main part showing a ground wire mounting portion of a merging / conveying drive unit;
FIG. 19 is a downstream side view of the main part showing the ground wire mounting part of the merging and transporting drive part.
FIG. 20 is a schematic plan view showing the inside of the wiring box.
FIG. 21 is a schematic front view showing a connected state of the banknote transport apparatus.
FIG. 22 is a schematic explanatory diagram showing a specification state of the mounting guide.
FIG. 23 is a plan view of the main part showing the biasing means of the pressure roller.
FIG. 24 is a plan view showing a merging transport driving unit and a bill relay device.
FIG. 25 is a front view showing a merging conveyance driving unit and a bill relay device.
FIG. 26 is a side view showing the merging / conveying drive unit and the bill relay device.
FIG. 27 is a bottom view showing the inside of the open / close case and the lid.
FIG. 28 is a front view of an opening / closing case and a lid.
[Explanation of symbols]
10 Bill transport device
100 Junction transport drive
116 Ground attachment
117 Conveyor mounting bracket
140 Motor unit
141 Wiring box
149 Ground wire
200 Conveyance passage
210 Base case
210a First base case
210b Second base case
220 Opening and closing case
230 Pulley rail
240 First fastener
240a engagement hole
250 Second fastener
250a engagement protrusion
260 Roller rail
263 Spring
268 Roller holder
269 Protruding edge
270 Lower banknote transport guide
280 Upper banknote transport guide
281 Guide wall
400 bill relay device
A Transport passage
B Transport passage
C bill passage
F frame
Fl Lower frame
Fu Upper frame
K power cord
P game machine
Q ball lending machine
S1 banknote
S2 banknote

Claims (1)

A first base case having a pulley rail on the side wall and a banknote transport guide on the lower side, a second base case having a roller rail on the side wall, and an open / close case capable of opening and closing the upper portion of the transport path portion, A conveyance path section for nipping and conveying ;
A merging and transporting drive unit having a driving source and merging the bills inserted into the bill insertion machine into the transport passage unit ;
A bill transport device installed in an amusement store comprising:
The second base case is attached to the first base case so that the bill conveyance path can be opened,
The first base case is provided with an attachment guide having an inclined surface on the opening side from the bill conveyance guide,
When remounting after opening the second base case,
A bill transport device characterized in that the lower side of the second base case is set along the inclined surface of the mounting guide to facilitate mounting .

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