JP2004302514A - Coin storing/derivery unit and device,and coin changing machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a coin storing/delivery unit capable of being actually applied to a coin depositing/dispensing machine such as a coin changing machine and improving the efficiency of receiving coins. <P>SOLUTION: A carrying path P1 for coins to be received, which guides a coin C to be received along a bottom surface p10 in an almost horizontal direction in a one-layer and one-line state is formed on storing parts 6a to 6f by denominations which constitute the storing/delivery unit. A carrying mechanism 7 for carrying the coin C is provided along the carrying path P1. The respective storing parts 6a to 6f have a plurality of coin storing parts 60 arranged in one line along the carrying path P1. Each coin storage part 60 has a top opening 62 that opens toward the bottom surface of the carrying path and a cylindrical main body 64 extending downward from the top opening 62. Coins C carried on the carrying path P1 sequentially drop into the main body 64 from the top opening 62 of a coin housing part 60 to be overlappedly stacked to be stored from the coin storing part 60 located at the upstream side of the carrying path P1 in the beginning. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a coin storing and dispensing unit used in a coin depositing and dispensing device such as a coin change machine, for example, for receiving and storing coins of a specific denomination, and for discharging stored coins. The present invention also relates to a coin storage and dispensing device including a plurality of such coin storage and dispensing units, and to a coin change machine including such a coin storage and dispensing device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, coin storing and dispensing apparatuses for improving coin storing efficiency and the like are disclosed in, for example, Japanese Patent Application Laid-Open Nos. Sho 51-120799 (Patent Document 1) and Japanese Patent Application Laid-Open No. 52-082391 (Patent Document 2). Some are listed. The former document describes a configuration in which a plurality of coin storage tubes extending in the vertical direction are arranged side by side, and an arm mechanism for ejecting coins from a lower portion of each coin storage tube. Further, the latter document describes a configuration in which a pair of coin storage tubes (tubes) extending in the vertical direction are arranged side by side.
[0003]
[Patent Document 1]
JP-A-51207995
[Patent Document 2]
JP-A-52-082391
[0004]
[Problems to be solved by the invention]
However, none of the above-mentioned documents describes at all how the coins are distributed to the coin storage tubes and the specific configuration of storing those coins in the coin storage tubes. . In other words, even a coin storing and dispensing unit that aims to improve the storing efficiency of coins can not only eject stored coins but also accept and store coins, and in reality coins such as coin change machines. No specific proposal has been made for a device that can be applied to a cash-receipt-and-disbursement device.
[0005]
The present invention has been made in view of such a point, and a coin storing and dispensing unit that can be actually applied to a coin depositing and dispensing device such as a coin change machine and can increase coin storing efficiency. The purpose is to provide.
[0006]
Another object of the present invention is to provide a coin storing and dispensing device including a plurality of such coin storing and dispensing units, and a coin change machine including such a coin storing and dispensing device.
[0007]
[Means for Solving the Problems]
A first invention is a coin storing and dispensing unit for receiving and storing coins of a specific denomination and dispensing stored coins, wherein the coins to be stored are further aligned substantially horizontally along a bottom surface. A stored coin transport path for guiding in a state, a stored coin transport means for transporting coins along the stored coin transport path, and a plurality of coin storage units arranged in a line along the stored coin transport path. Each coin storage unit has an upper opening that opens to the bottom surface of the stored coin transport path, and a cylindrical main body that extends downward from the upper opening, and coins that pass through the stored coin transport path are transported by the transporter. Coin storage and ejection, wherein the coin storage is sequentially dropped from the upper opening of the storage into the main body and stored in a stack from the coin storage located upstream of a road. Unit.
[0008]
According to the first aspect of the invention, the coins to be stored are transported along the stored coin transport path, so that the coins drop from the upper coin storage section into the main body sequentially from the upper opening thereof, and the weight is reduced. It is stored and stored. That is, when a certain coin storage unit is full, coins passing through the storage coin transport path pass over the top coin in the storage unit, drop into the downstream coin storage unit, and stack. The coins are stored (as described later, there is a possibility that the uppermost coin is pushed out and dropped and stored in the coin storage unit on the downstream side).
[0009]
By accepting and storing coins in this way, a coin storing and dispensing unit that is actually applicable to a coin depositing and dispensing device such as a coin changer is configured. By stacking coins vertically in the plurality of coin storage units arranged in a row in a substantially horizontal direction, the coin storage efficiency can be increased. Further, since the height and the number of coin storage units can be arbitrarily changed, the degree of freedom in setting the height and length of the coin storage and ejection unit can be increased. The “length” is a dimension in a direction (vertical direction) corresponding to the arrangement direction of the coin storage units.
[0010]
According to a second aspect of the present invention, in the first aspect of the present invention, a coin-to-be-discharged path is provided below and along the plurality of coin storage units, and guides coins to be dispensed in a substantially horizontal direction in a line. And a coin transport unit for transporting coins along the coin transport path.Each coin storage unit further has a lower opening that opens on the coin transport path. The coin stored in the main body can be advanced by its own weight by one piece onto the thrown-out coin transport path through the lower opening.
[0011]
According to the second aspect of the invention, coins are sequentially advanced one by one into the ejected coin transport path by their own weight from the coin storage section located on the upstream side of the ejected coin transport path through the lower opening of the storage section. It is transported by the outgoing coin transport means. Thus, coins can be rapidly and reliably ejected from each coin storage unit.
[0012]
In a third aspect based on the second aspect, the coins are provided downstream of the plurality of coin storage sections with respect to the ejected coin transport path, and advance coins regardless of the operation of the ejected coin transport means. The apparatus further includes a coin stopping means for selectively stopping the coin, and a discharged coin detecting means provided downstream of the stopping means with respect to the discharged coin conveying path and detecting passage of a coin.
[0013]
According to the third aspect of the invention, coins can be paid out while counting out exactly the required number of coins, and a proper coin dispensing process can be performed.
[0014]
In a fourth aspect based on the second or third aspect, the lower opening of the coin storage section has a tapered surface at least on the downstream side of the ejected coin transport path.
[0015]
According to the fourth aspect, it is possible to more smoothly eject coins from the lower opening of the coin storage unit and transport coins along the ejected coin transport path.
[0016]
In a fifth aspect based on any of the first to fourth aspects, the upper opening of the coin storage section has a tapered surface at least on the downstream side of the stored coin transport path.
[0017]
According to the fifth aspect, smoother passage of coins in the upper opening of the coin storage portion can be ensured.
[0018]
When the upper opening of the coin storage section has a tapered surface also on the upstream side of the stored coin transport path, coins can be more smoothly received from the upper opening. In addition, when coins are to be transported in the opposite direction to the direction in which the coins are stored by the stored coin transport means (when a coin jam in the stored coin transport path occurs), the transport in the opposite direction can be performed more smoothly. it can.
[0019]
A sixth invention is a coin storing and dispensing apparatus characterized by comprising a plurality of coin storing and dispensing units according to any one of the first to fifth inventions, wherein these units are arranged side by side in the horizontal direction. .
[0020]
According to the sixth aspect, coins of a plurality of denominations can be received, stored, and thrown out. Further, a part of the storage and dispensing units arranged in parallel can be used for coins of the same denomination. Accordingly, the storage efficiency of coins of a plurality of denominations can be improved, and the degree of freedom in setting the height, length, and width of the coin storage and ejection device can be increased. The “width” is a dimension in a direction corresponding to the lateral direction of the unit.
[0021]
According to a seventh aspect of the present invention, there is provided a coin change machine for depositing coins and dispensing change coins as necessary, wherein the coin storing and dispensing device according to the sixth invention is incorporated. is there.
[0022]
According to the seventh aspect of the present invention, in a coin change machine which is generally installed under a cash register and thus has a large height restriction, the height of the coin is reduced while securing the amount of stored coins, or the same height is maintained. Even so, the storage amount of coins can be increased.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described with reference to the drawings. 1 to 11 are diagrams for explaining an embodiment of a coin depositing and dispensing device (coin change machine) to which a coin storing and dispensing device according to the present invention is applied, and FIG. 12 shows the coin depositing and dispensing device. It is a perspective view shown by the appearance in the state where it was combined with a bill receiving / dispensing device (a bill change machine).
[0024]
Hereinafter, the overall configuration of the present embodiment, the configuration, operation and effect of the denomination storing section, and the modified examples will be sequentially described.
[0025]
[overall structure]
The coin depositing and dispensing device 1A of the present embodiment shown in FIGS. 1 and 2 is used in a coin depositing and dispensing system in a state where it is combined with a banknote depositing and dispensing device 1B, for example, as shown in FIG. As the money receiving and dispensing system, a POS register (a cash register having a point-of-sale function) (not shown) and the like are combined, and the coin receiving and dispensing apparatus 1A and the bill receiving and dispensing apparatus 1B are respectively a coin change machine and a bill change machine. Used as The change machine is for depositing the deposited money from the customer and dispensing the changed money as needed. That is, the coin depositing and dispensing apparatus 1A as a coin change machine is configured to, as needed, deposit a coin deposited from a customer and dispense a change coin in cooperation with a POS register or the like.
[0026]
In this case, the money receiving / dispensing system is configured to be operable by arbitrarily selecting (switching) any one of the following “payment priority mode” and “dispensing priority mode”.
[0027]
Deposit priority mode: A processing mode in which a deposit deposited from a customer is deposited (the deposit is determined based on the identification and counting in the depositing / dispensing device), and then the change is dispensed.
[0028]
Dispensing priority mode: A processing mode in which a clerk approves a deposit money from a customer (by key input of a POS register or the like), dispenses fishing money based on this, and then deposits the deposit money.
[0029]
As shown in FIGS. 1, 2 and 12, the coin depositing and dispensing apparatus 1A includes a housing 10 having a substantially rectangular parallelepiped shape as a whole. The longitudinal direction of the housing 10 is the front-back direction of the coin depositing and dispensing device 1A, and the side where the operation panel 12 is provided on the upper surface of the housing 10 is the front side of the device 1A. At a position adjacent to the operation panel 12 on the upper surface of the housing 10, a coin receiving slot 14 for receiving a deposited coin is provided. Below the operation panel 12, there is provided a tray-shaped coin take-out port 16 for projecting coins to be dispensed and for taking out the coins so as to protrude forward.
[0030]
As shown in FIGS. 1 and 2, there is provided a feeding mechanism 2 for feeding coins received from the receiving port 14 in a single row. The feeding mechanism 2 has a flat belt 20 disposed at the bottom of the receiving port 14 and a reverse roller 22. The flat belt 20 conveys the coins received in the receiving port 14 toward the rear of the apparatus, and the reverse rotation roller 22 rotates downstream of the flat belt 20 in a direction opposite to the coin conveying direction.
[0031]
A coin passage 3 for guiding coins fed by the feeding mechanism 2 substantially horizontally extends behind the feeding mechanism 2. As shown in FIG. 1, the coin passage 3 includes a first passage portion 3a extending from the feeding mechanism 2 to the rear portion of the device along the right side of the device, and a substantially horizontal direction from the rear end of the first passage portion 3a to the left side of the device. And a second passage portion 3b extending to the front. Reference edges 34 and 36 are provided on the right side in the traveling direction of the first passage portion 3a and the second passage portion 3b, respectively, for bringing the outer peripheral edge of the coin into contact. An inclined edge 32 is provided upstream of the reference edge 34 in the first passage portion 3a so that the outer peripheral edge of the coin inserted by the input mechanism 2 is brought into contact with the reference edge 34.
[0032]
As shown in FIGS. 1 and 2, a first transport mechanism 4 is provided as transport means for transporting coins along the coin path 3. The first transport mechanism 4 includes an auxiliary round belt 4a corresponding to a region from the feeding mechanism 2 to the inclined edge 32 of the first passage 3a, and a rear end of the auxiliary round belt 4a to a terminal end of the second passage 3b. And the corresponding main round belt 4b.
[0033]
The auxiliary round belt 4a is stretched between the front and rear pulleys 40 and 41. The main round belt 4b is stretched between a front pulley 42 coaxially arranged with the pulley 41 and a rear pulley 43 on the downstream side of the second passage portion 3b. It is guided by the intermediate pulley 44 so as to correspond to the bending with the portion 3b. Further, as shown in FIG. 2, between the front pulley 42 and the intermediate pulley 44, a plurality of guide rollers 45 for preventing the main round belt 4b from floating are arranged.
[0034]
As shown in FIG. 1, at the upstream side of the first passage 3a, an identification sensor (determination means) D for identifying whether the coin passing therethrough is normal and identifying the denomination of the coin. Is arranged.
[0035]
Further, on the downstream side of the coin passage 3, there is provided a denomination sorter (sorting means) 5 for sorting coins by denomination. The denomination sorter 5 includes a 5-circle sorter 5a provided downstream of the first passage 3a, a 1-yen sorter 5b provided along the second passage 3b, and a 50-yen sorter 5c. It has a 100-yen sorting hole 5d, a 10-yen sorting hole 5e, and a 500-yen sorting hole 5f.
[0036]
Among them, the five-yen sorting part 5a includes a sorting hole 50 formed in the bottom surface 30 of the coin passage 3, a shutter member 52 provided on the back side of the sorting hole 50, and the shutter member 52 with respect to the sorting hole 50. A link mechanism 53 and a solenoid 54 for driving the actuator forward and backward in the width direction of the passage. In addition, immediately before the sorting hole 50, a sensor S2 for detecting arrival of coins is arranged. When the arrival of a coin identified as a (normal) 5-yen coin by the identification sensor D is detected by the sensor S2, the 5-yen sorting section 5a sorts the coin by retracting the shutter member 52. It is made to fall from the hole 50.
[0037]
The 1-yen sorting hole 5b, the 50-yen sorting hole 5c, the 100-yen sorting hole 5d, the 10-yen sorting hole 5e, and the 500-yen sorting hole 5f are used only for coins of corresponding denominations according to the diameter of each coin. The dimensions and arrangement are determined so that the objects fall naturally. Further, a counting sensor (not shown) for counting the dropped coins is provided corresponding to each of the sorting holes 5b to 5f. It should be noted that the above-mentioned forced-fall type 5-circle sorting unit 5a is provided upstream of each of the sorting holes 5b to 5f because the diameters of the 5-yen coin and the 100-yen coin are close to each other. This is to avoid erroneous sorting by sorting only yen coins regardless of their diameter.
[0038]
Next, as shown in FIG. 2, there is provided a denomination storing section 6 for storing coins sorted by the denomination selecting section 5 by denomination. As shown in FIG. 5, the denomination storing section 6 includes a 5-yen storing section 6a, a 1-yen storing section 6b, a 50-yen storing section 6c, a 100-yen storing section 6d, a 10-yen storing section 6e, and a 500-yen storing section 6f. have. As shown in FIGS. 2 and 3, a second transport mechanism (storage means for storing coins) 7 for storing coins in the denomination storing section 6 is provided. As shown in FIGS. A coin feeding mechanism 8 for selectively feeding coins from the type storage section 6 is provided. As shown in FIG. 4, the coin C fed by the feeding mechanism 8 is discharged to a coin outlet 16.
[0039]
The specific configuration of the above-described denomination storing section 6, the second transport mechanism 7, and the coin feeding mechanism 8 will be described in the section of [Denomination storing section] below.
[0040]
Next, as shown in FIG. 1, for selectively discharging coins from the coin passage 3 (first passage portion 3a) between the identification sensor D and the denomination sorting portion 5 (5-yen sorting portion 5a). A first discharge section (first discharge section) 9a and a second discharge section (second discharge section) 9b are provided. Further, as shown in FIG. 2, a fourth transport mechanism (discharging means) 98a for discharging the coins discharged by the first discharging hand portion 9a to the outside of the apparatus, and a coin discharged by the second discharging portion 9b. An in-machine storage box (discharged coin storage unit) 98b for storing in the apparatus is provided. The internal storage box 98b can be taken out of the housing 10.
[0041]
As shown in FIG. 1, the first discharging portion 9a includes a sorting hole 90a formed in the bottom surface 30 of the coin passage 3, a shutter member 92a provided on the back side of the sorting hole 90a, and a sorting member 90a. And a solenoid 94a for driving the hole 90a to move forward and backward in the width direction of the passage. The second discharge portion 9b located downstream of the first discharge portion 9a also has the same sorting hole 90b, shutter member 92b, and solenoid 94b. In addition, a sensor S1 for detecting the arrival of coins is disposed immediately before the sorting hole 90b in the second discharge unit 9b.
[0042]
Then, the first discharge unit 9a retracts the shutter member 92a at the timing when coins that have passed through the identification sensor D arrive, thereby dropping the coins from the sorting holes 90a. In addition, the second discharging unit 9b causes the shutter member 92b to retract when the arrival of the coin is detected by the sensor S1, thereby dropping the coin from the sorting hole 90b.
[0043]
As shown in FIG. 2, chutes 96a and 96b extending obliquely downward from the sorting holes 90a and 90b toward the right side of the apparatus (the front side in FIG. 2) are provided corresponding to the discharge sections 9a and 9b, respectively. I have. Further, the fourth transport mechanism 98a has a flat belt for sending out the coin C1 dropped from the first discharge portion 9a through the chute 96a to the coin outlet 16. In addition, a slope 16 a is provided to guide the coin C <b> 1 conveyed to the side of the coin outlet 16 by the flat belt 98 a to the outlet 16. The coin C2 that has fallen from the second discharge portion 9b through the chute 96b is sent to the in-machine storage box 98b.
[0044]
In the deposit priority mode, the coin receiving / dispensing apparatus 1A discharges a coin (reject coin) determined to be abnormal by the identification sensor D by the first discharge unit 9a (as a reject coin C1). In the mode, the second discharging unit 9b is configured to discharge (as a reject coin C2). Further, when any denomination coin is full in the denomination storing section 6, the coin of the denomination is discharged by the second discharge section 9b (as an overflow coin C2). I have.
[0045]
[Deposit storage section]
Next, a specific configuration of the denomination storing unit 6 will be described with reference to FIGS.
[0046]
First, the configuration common to each of the 5-yen storage section 6a, the 1-yen storage section 6b, the 50-yen storage section 6c, the 100-yen storage section 6d, the 10-yen storage section 6e, and the 500-yen storage section 6f shown in FIG. 3 and FIG. On each of the storage sections 6a to 6f shown in FIG. 3, the stored coin transport path for guiding the coins C to be stored in a substantially horizontal direction (the front-rear direction of the apparatus) in a single line along the bottom surface p10 (see FIG. 5). P1 is formed. In order to transport the coin C along the stored coin transport path P1, the second transport mechanism (storage coin transport means) 7 using a flat belt is provided on the stored coin transport path P1.
[0047]
Each of the storage sections 6a to 6f has a plurality of coin storage sections 60 arranged in a line along the storage coin transport path P1. As shown in FIGS. 3, 5 and 7, each coin storage section 60 has a circular upper opening 62 opening at the bottom surface p <b> 10 of the stored coin transport path, and a cylindrical main body 64 extending downward from the upper opening 62. And The inner diameter of the main body 64 is set to a size slightly larger than the diameter of the coin to be stored. As a result, as shown in FIG. 3, coins C passing through the stored coin transport path P1 are sequentially moved from the coin storage section 60 located on the upstream side of the transport path P1 through the upper opening 62 of the storage section 60 into the main body 64. It is configured to be dropped and stored in piles.
[0048]
In addition, on the upstream side of the stored coin transport path P1, a slope p14 (for introducing coins C dropped from the corresponding sorting holes 50, 5b to 5f (FIG. 1) of the denomination sorter 5 into the transport path P1). 5 (see FIG. 5). As shown in FIGS. 5 to 7, ribs p12 for forming coin guide edges are formed on both sides of the stored coin transport path P1.
[0049]
Next, as shown in FIGS. 3 and 4, the coins C to be thrown out are guided in a substantially horizontal direction along the plurality of coin storage units 60 under each of the storage units 6a to 6f. An output coin transport path P2 is formed. Further, in order to transport the coin C along the discharged coin transport path P2, a third transport mechanism (projected coin transport means) 80a using a flat belt is provided corresponding to the bottom of the projected coin transport path P2. Have been. The third transport mechanism 80a extends slightly forward of the apparatus from each of the storage sections 6a to 6f. An auxiliary transport mechanism 80b using a flat belt is provided downstream of the third transport mechanism 80a. The auxiliary transport mechanism 80b is inclined so as to rise from the tip of the third transport mechanism 80a toward the front of the apparatus, and terminates above the rear part of the coin outlet 16.
[0050]
As shown in FIGS. 3, 6 to 9, each of the coin storage units 60 has a lower opening 66 that opens to the bottom surface (the ceiling surface of the ejected coin transport path P2) p20 of the storage units 6a to 6f. . The interval between the bottom surface p20 of the storage units 6a to 6f and the upper surface of the flat belt of the third transport mechanism 80a is set to be slightly larger than the thickness of the coin C. Thereby, as shown in FIGS. 4 and 8, the coin C stored in the main body 64 of each coin storage unit 60 can advance by one weight onto the discharged coin transport path P2 through the lower opening 66. It is configured so that
[0051]
Next, as shown in FIGS. 6 to 9, ribs p22 for forming coin guide edges are formed on both sides of the ejected coin transport path P2. In addition, a pair of coin support portions 68 extending inward from the distal ends of the ribs p22 on both sides are provided corresponding to the lower openings 66 of the coin storage portions 60.
[0052]
As shown in FIGS. 5 and 6, the denomination storing section 6 is supported at its lower side by a frame F, and each of the third transport mechanism 80 a and the auxiliary transport mechanism 80 b is attached to the frame F side. As shown in FIG. 6, the denomination storing section 6 is configured to be able to open its bottom side by swinging upward with respect to the frame F with its rear portion as an axis. At this time, the coin support section 68 shown in FIGS. 8 and 9 supports the coins in each coin storage section 60 and prevents the coins from dropping. Further, when the denomination storing section 6 is opened, the belt of the third transport mechanism 80a can be released between the coin supporting sections 68.
[0053]
Next, as shown in FIG. 4, the advance of the coin C is selectively stopped on the downstream side of the storage sections 6a to 6f with respect to the discharged coin transport path P2 regardless of the operation of the third transport mechanism 80a. For this purpose, a pin-shaped coin stopping means 82 is provided. Mainly, the third transport mechanism 80a and the coin stopping means 82 constitute a coin feeding mechanism 8 for selectively feeding coins C from the storage sections 6a to 6f.
[0054]
The coin stopping means 82 is supported by a lever 84, and is driven up and down by a solenoid (not shown) or the like. The stopping means 82 is arranged to be shifted in the width direction of the passage P2 with respect to the center of the coin C. Thus, even when a plurality of coins C are arranged without any space therebetween, the stopping means 82 can advance between the coins C and stop the subsequent coins C. Disposed coin detecting means 86 such as a light shielding sensor for detecting the passage of the coin C is provided downstream of the stopping means 82 with respect to the discharged coin conveying path P2. Note that a coin guide plate 88 is disposed above the auxiliary transport mechanism 80b.
[0055]
Next, as shown in FIG. 7, the upper opening 62 of each coin storage portion 60 extends upward over substantially the entire circumference (except for the portion that interferes with the rib p12 as shown in FIG. 5). Such a tapered surface 62a is provided. As shown in FIG. 10A, the height H of the tapered surface 62a of the upper opening 62 is set to be larger than the thickness T of the corresponding coin. As shown in FIGS. 7 and 9, the lower opening 66 of each coin storage section 60 also extends downward over substantially the entire circumference (except for the portion that interferes with the rib p22). have.
[0056]
In FIG. 3 which is a schematic diagram, a plurality of coin storage units 60 are drawn in each of the storage units 6a to 6f in a state where the coin storage units 60 are arranged at equal intervals. However, as shown in FIG. It is preferable that the storage portions 60 are arranged at irregular intervals. This is because, as shown in FIG. 11, the last coin C 'lined up in the ejected coin transport path P2 protrudes halfway below the coin storage unit 60, and the coin C is obliquely inserted into the storage unit 60. This is because it is considered that the situation of being stored in the storage device can be avoided.
[0057]
In addition, as shown in FIG. 3, the individual storage units 6a to 6f having a plurality of coin storage units 60 arranged in a row, the second transport mechanism 7 and the coin feeding mechanism 8 corresponding to the storage units 6a to 6f. Thus, a "coin storage and ejection unit" corresponding to a coin of a specific denomination is configured. Then, as shown in FIG. 5, a plurality of coin storing and dispensing units which are arranged side by side by integrally forming a denomination storing section 6 in which a plurality of storing sections 6a to 6f are arranged side by side. A "coin storage and dispensing device" comprising That is, it can be said that the device of the present embodiment is configured as a coin depositing and dispensing device (coin change machine) incorporating the “coin storage and dispensing device”.
[0058]
[motion]
Next, the operation of the coin depositing and dispensing apparatus of the present embodiment will be briefly described.
[0059]
(1) Deposit operation
In FIG. 1, deposited coins (deposited coins in the case of a change machine) inserted into the receiving port 14 are further fed in a single line by the feeding mechanism 2 and conveyed along the coin passage 3 by the first conveying mechanism 4. Go being. In the process, the discrimination and discrimination of the deposited coin are performed by the discrimination sensor D.
[0060]
As a result, the rejected coin determined to be abnormal in the deposit priority mode is discharged by the first discharge section 9a and discharged to the outlet 16 by the fourth transport mechanism 98a (FIG. 2). On the other hand, rejected coins determined to be abnormal in the dispensing priority mode are discharged by the second discharge unit 9b and stored in the in-machine storage box 98b (FIG. 2). Also, coins identified as denominations corresponding to the full storage units 6a to 6f in the denomination storage unit 6 are discharged by the second discharge unit 9b and stored in the in-machine storage box 98b (FIG. 2). Is stored.
[0061]
The coin identified as a 5-yen coin by the identification sensor D is sorted by the 5-yen sorting section 5a and sent to the 5-yen storage section 6a (FIG. 5). Other coins are sorted by the corresponding denomination sorting holes 5b to 5f, respectively, and sent to the corresponding denomination storage units 6b to 6f (FIG. 5). In this sorting process, the coins received are counted by the sensor S2 and the counting sensors of the sorting holes 5b to 5f, and the deposit amount is calculated based on the counted coins.
[0062]
As shown in FIG. 3, the coins fed into the storage sections 6a to 6f are transported along the stored coin transport path P1 by the second transport mechanism 7, and the coin storage section located on the upstream side of the transport path P1. Starting from 60, they fall from the upper opening 62 of the storage section 60 into the main body 64 and are stacked and stored.
[0063]
(2) Withdrawal operation
As shown in FIG. 4, when dispensing coins (change money in the case of a change machine) from each of the storage sections 6a to 6f, first, each coin storage section 60 moves onto the discharged coin transport path P2. One coin that has advanced by its own weight is transported by the third transport mechanism 80a. At this time, the coin stopping means 82 is retracted upward in correspondence with only coins to be actually dispensed, so that those coins are selectively paid out. The fed-out coins are counted by the ejected coin detecting means 86 and ejected to the outlet 16 by the auxiliary transport mechanism 80b.
[0064]
At this time, the coins in the storage section 60 sequentially advance (fall) one by one from the lower opening 66 onto the conveyance path P2 from the coin storage section 60 located on the upstream side of the discharged coin conveyance path P2. In other words, the coins in the coin storage units 60 on the downstream side are supported by the coins while the coins are being conveyed from the upstream side through the conveying path P2, and advance (fall) to the conveying path P2. Without being held in the storage unit 60.
[0065]
[Effects]
Next, the operation and effect of this embodiment having the above configuration will be described.
[0066]
According to the present embodiment, as shown in FIG. 3, the coins C to be stored are transported along the stored coin transport path P <b> 1 so that the coins C are sequentially transferred from the upstream coin storage unit 60 to the upper portion thereof. It falls into the main body 64 from the opening 62 and is stored in piles. That is, when a certain coin storage unit 60 is full, the coin C passing through the storage coin transport path P1 passes over the top coin in the storage unit 60, and the coin storage unit 60 on the downstream side thereof. (To be described later, as shown in FIG. 10 (a), the uppermost coin C5 is pushed out by the following coin C6 and dropped and stored in the coin storage unit 60 on the downstream side. In some cases).
[0067]
By accepting and storing coins in this way, the above-mentioned "coin storage and dispensing unit" which is actually applicable to a coin depositing and dispensing device such as a coin change machine is configured. By stacking coins vertically in the plurality of coin storage units 60 arranged in a row in a substantially horizontal direction, coin storage efficiency can be increased. In addition, since the height and the number of the coin storage units 60 can be arbitrarily changed, the degree of freedom in setting the height and length of the coin storage and ejection unit can be increased (“length” , In the direction (vertical direction) corresponding to the arrangement direction of the coin storage units 60).
[0068]
Also, as shown in FIG. 5, a plurality of coin storing and dispensing units arranged side by side by integrally forming a denomination storing section 6 in which a plurality of storing sections 6a to 6f are arranged side by side. A "coin storage and dispensing device" comprising Thus, coins of a plurality of denominations can be received and stored and thrown out. As a result, the storage efficiency of coins of a plurality of denominations can be increased, and the degree of freedom in setting the height, length, and width of the coin storage and ejection device can be increased. (And dimensions in the direction corresponding to the lateral direction of the (and device)).
[0069]
By incorporating such a coin storage and dispensing device, the degree of freedom in setting the dimensions of the entire coin depositing and dispensing device 1A can be increased. In particular, when used as a coin change machine with a large height restriction because it is often installed under a cash register, it is necessary to reduce the height while securing the amount of stored coins, or to use coins even at the same height. There is an advantage that the storage amount can be increased.
[0070]
Next, as shown in FIG. 4, coins are sequentially transferred from the coin storage section 60 located on the upstream side of the discharged coin transport path P2 through the lower opening 66 of the storage section 60 onto the discharged coin transport path P2 one by one. C advances by its own weight and is transported by the third transport mechanism 80a. Thus, coins C can be rapidly and reliably ejected from each coin storage unit 60 at a high speed. In addition, the coin stopping means 82 for selectively stopping the progress of the coin C irrespective of the operation of the third transport mechanism 80a pays out the coin C while counting the required number of coins accurately, thereby dispensing an appropriate coin. It can be performed.
[0071]
Next, as shown in FIG. 7 and the like, by forming a tapered surface 66a in the lower opening 66 of each coin storage unit 60, coins are ejected from the lower opening 66 and along the ejected coin transport path P2. Transfer of coins can be performed more smoothly.
[0072]
Further, since the tapered surface 62a is formed in the upper opening 62 of each coin storage section 60, it is possible to ensure smooth passage of coins through the upper opening 62 in the stored coin transport path P1. Further, coins can be received (falled) from the upper opening 62 more smoothly. Further, the tapered surface 62a on the upstream side of the stored coin transport path P1 causes the second transport mechanism 7 to transport coins in a direction opposite to the direction in which the coins are stored (when coins are jammed in the stored coin transport path P1). In this case, the conveyance in the reverse direction can be performed more smoothly.
[0073]
In this case, as shown in FIG. 10A, the height H of the tapered surface 62a of the upper opening 62 is set to be larger than the thickness T of the corresponding coin. Thus, even when the uppermost coin C5 in the coin storage section 60 protrudes above the upper opening 62 (passage bottom surface p10), the coin C5 is moved up by the subsequent coin C6 (to climb the tapered surface 62a). The coin is pushed out and dropped and stored in the coin storage unit 60 on the downstream side. Further, as shown in FIG. 10B, when the lower part of the uppermost coin C5 abuts on a vertical surface (the inner surface of the main body 64) lower than the tapered surface 62a, the coin C5 always opens at the upper part. 62 (passage bottom surface p10). Thus, the following coin C6 can pass over the top coin C5.
[0074]
On the other hand, as shown in FIG. 10C, when the height H of the tapered surface 62a of the upper opening 62 is smaller than the thickness T of the corresponding coin, the following coin C6 may be jammed. Get there. That is, the uppermost coin C5 protrudes above the upper opening 62 (passage bottom surface p10) and abuts on a vertical surface (the inner surface of the main body 64) below the tapered surface 62a, so that the subsequent coin C6 advances. It could be hindered.
[0075]
Next, as shown in FIG. 2, in the deposit priority mode, the rejected coin C1 determined to be abnormal by the identification sensor D is ejected by the first ejection unit 9a, and is removed from the apparatus by the fourth transport mechanism 98a. It is discharged to outlet 16). On the other hand, in the dispensing priority mode, the rejected coin C2 is ejected by the second ejection section 9b and stored in the in-machine storage box 98b. Therefore, the handling of rejected coins can be changed between the deposit priority mode and the deposit priority mode so as to conform to the actual operation.
[0076]
In other words, in the deposit priority mode, after depositing money from a customer (determining the deposit amount based on the identification and counting in the depositing / dispensing device), the coin is dispensed. For this reason, it is necessary to retry the rejected coin or exchange it with another receivable coin, and it is desirable to discharge the rejected coin out of the apparatus. On the other hand, in the withdrawal priority mode, the attendant approves the deposited money from the customer (by key input of the POS register or the like), deposits the changed money based on this, and deposits the deposited money. For this reason, it is desirable that the rejected coins be stored in the device separately from other deposited coins without being discharged out of the device.
[0077]
Also, the deposited coin C2 identified as a denomination corresponding to the full storage units 6a to 6f in the denomination storage unit 6, is discharged by the second discharge unit 9b and stored in the in-flight storage box 98b. You. Thus, regardless of the deposit priority mode or the dispensing priority mode, the coin C2 of the denomination can be stored in the in-machine storage box 98b as an overflow coin, and the deposit processing can be continued.
[0078]
[Modification]
In the above-described embodiment, a case has been described in which storage units 6a to 6f (coin storage and ejection units) of different denominations (5 yen, 1 yen, 50 yen, 100 yen, 10 yen, and 500 yen) are provided. However, the present invention is not limited to this. That is, as long as there is a margin in the width direction of the apparatus, two or more storage units (coin storage and ejection units) of the same denomination may be arranged in parallel.
[0079]
Next, the case where the coin storage section 60 has a cylindrical shape has been described. However, other shapes such as a cylindrical shape having a polygonal cross section can be used as long as the coin receiving and storing and dispensing are not hindered. In addition, the tapered surfaces 62a and 66a of the upper opening 62 and the lower opening 66 of each coin storage section 60 may be formed only on the downstream side of each of the transport paths P1 and P2 as needed.
[0080]
Next, a case has been described in which a transport belt such as a round belt or a flat belt is used as each of the transport mechanisms 2, 4, 7, 80a, 80b, and 98a. However, instead of the belt, another type of transport mechanism such as a roller is used. May be used.
[0081]
As a discharging means for discharging the coins discharged by the first discharging hand portion 9a to the outside of the apparatus, instead of the fourth transport mechanism 98a (FIG. 2) using a belt or the like, a natural falling type using a slope is used. Any other means, such as release, can be used.
[0082]
【The invention's effect】
According to the first aspect of the present invention, a coin storing and dispensing unit that is actually applicable to a coin dispensing and dispensing device such as a coin change machine is configured. By stacking coins vertically in the plurality of coin storage units arranged in a row in a substantially horizontal direction, the coin storage efficiency can be increased. Further, since the height and the number of coin storage units can be arbitrarily changed, the degree of freedom in setting the height and length of the coin storage and ejection unit can be increased.
According to the invention described in claim 6, coins of a plurality of denominations can be received and stored and thrown out. Further, a part of the storage and dispensing units arranged in parallel can be used for coins of the same denomination. Accordingly, the storage efficiency of coins of a plurality of denominations can be improved, and the degree of freedom in setting the height, length, and width of the coin storage and ejection device can be increased.
[0083]
According to the invention as set forth in claim 7, in a coin change machine in which the height is largely restricted because the coin is generally incorporated under a cash register, the height of the coin is reduced while securing the amount of stored coins, or the same. Even at the height, the coin storage amount can be increased.
[Brief description of the drawings]
FIG. 1 is a plan view partially showing a coin depositing and dispensing apparatus according to an embodiment of the present invention in a horizontal cross section.
FIG. 2 is a diagram showing a part of the coin depositing and dispensing device shown in FIG. 1 as a side view and another portion as a cross section taken along line II-II of FIG. 1;
FIG. 3 is a longitudinal sectional view schematically showing the periphery of a denomination storing section of the apparatus shown in FIG. 1, corresponding to a coin storing operation;
FIG. 4 is a longitudinal sectional view schematically showing the vicinity of a front part of a denomination storing section of the apparatus shown in FIG. 1, corresponding to coin feeding operation.
FIG. 5 is a perspective view of the apparatus shown in FIG.
FIG. 6 is a perspective view showing an open state of the denomination storing section shown in FIG. 5;
FIG. 7 is an enlarged view showing one of coin storage units in the denomination storage unit shown in FIG. 3;
8 is a view showing a lower portion of the coin storage section shown in FIG. 7 along with a discharged coin transport belt in a cross section taken along line VIII-VIII in FIG. 7;
FIG. 9 is a bottom view of the coin storage unit shown in FIG. 8;
FIG. 10 is an enlarged view of an upper part of the coin storage unit shown in FIG. 7, for schematically explaining a relationship between a height of a tapered surface in an upper opening and a thickness of the coin.
FIG. 11 is an enlarged view of a lower portion of the coin storage section shown in FIG. 7, for schematically explaining a case where coins are stored diagonally.
12 is a perspective view showing an appearance of the coin receiving and dispensing apparatus shown in FIG. 1 in a state where the coin receiving and dispensing apparatus is combined with a bill receiving and dispensing apparatus.
[Explanation of symbols]
1A coin deposit and withdrawal device
10 Case
14 coin reception
16 coin exit
2 Transfer mechanism
3 coin passage
4 First transport mechanism (transport means)
D Identification sensor (determination means)
5 (5a-5f) Denomination sorting section (sorting means)
6 (6a-6f) Deposit type storage
60 coin storage
62 Upper opening
62a tapered surface
64 body
66 Lower opening
66a tapered surface
68 coin support
P1 Stored coin transport path
p10 bottom
7. Second transport mechanism (storage coin transport means)
P2 throwing coin transport path
p20 ceiling surface
8. Coin unwinding mechanism
80a third transport mechanism (discharged coin transport means)
80b Auxiliary transport mechanism
82 Coin stopping means
86 Outgoing coin detection means
9a First discharging unit (first discharging means)
98a Fourth transport mechanism (release means)
9b 2nd discharge part (2nd discharge means)
98b In-flight storage box (discharged coin storage section)
1B Banknote depositing / dispensing device
C coin
C1 reject coin (payment priority mode)
C2 reject coin (withdrawal priority mode) or overflow coin
C5 Top coin in coin compartment
C6 Subsequent coin

Claims (7)

A coin storage and ejection unit for receiving and storing coins of a specific denomination, and for discharging stored coins,
A stored coin transport path that guides the coins to be stored in a substantially horizontal line along the bottom surface in one row,
A stored coin transport unit for transporting coins along the stored coin transport path,
Comprising a plurality of coin storage units arranged in a line along the storage coin transport path,
Each coin storage unit has an upper opening that opens to the bottom surface of the stored coin transport path, and a cylindrical main body that extends downward from the upper opening.
Coins passing through the stored coin transport path are configured to sequentially fall from the coin storage section located on the upstream side of the transport path, fall into the main body from the upper opening of the storage section, and be stacked and stored. A coin storage and dispensing unit. Provided along the plurality of coin storage units below, a thrown coin transport path that guides coins to be thrown in a substantially horizontal direction in one row,
The apparatus further includes a dispensed coin transport unit for transporting coins along the dispensed coin transport path,
Each coin storage unit further has a lower opening that opens on the ejected coin transport path,
The coin stored in the main body of each coin storage unit is configured to be able to advance by its own weight by one weight on the ejected coin transport path through the lower opening. The coin storage and ejection unit according to claim 1. Coin stopping means provided on the downstream side of the plurality of coin storage sections with respect to the ejected coin transport path and selectively stopping the advance of coins regardless of the operation of the ejected coin transport means,
The coin storage and ejection according to claim 2, further comprising an ejection coin detection means provided downstream of the stopping means with respect to the ejection coin transport path and detecting passage of coins. unit. The coin storage and ejection unit according to claim 2, wherein the lower opening of the coin storage unit has a tapered surface at least on the downstream side of the coin delivery path. The coin storage and ejection unit according to claim 1, wherein an upper opening of the coin storage unit has a tapered surface at least on a downstream side of the stored coin transport path. A coin storing and dispensing apparatus comprising a plurality of coin storing and dispensing units according to any one of claims 1 to 5, wherein these units are arranged side by side in a horizontal direction. A coin change machine for depositing deposited coins and dispensing change coins as necessary, wherein the coin storage and dispensing device according to claim 6 is built-in.

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