JP2005309719A - Coin paying-out device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain cost reduction, scale miniaturization and weight reduction, and to increase the degree of freedom of design change or the like, and to increase durability, quickness, stability and reliability. <P>SOLUTION: This coin paying-out device is provided with rotary shafts 5 arrayed in the array direction Fx of coin stacker parts 2a and so on and a driving part 4 for rotating the rotary shafts 5 and a plurality of ejection processing units 7a and so on. The ejection processing units 7a and so on are respectively configured of an ejection operating part 9 having a push lever 10 for ejecting one coins Ca and so on according to backward and forward movement displacement, a cam mechanism part 11 for converting the rotation of the rotary shaft 5 into the backward and forward movement displacement of a push lever 10, a clutch mechanism part 12 for turning the cam mechanism part 11 and the rotary shaft 5 into a connecting state or an interrupting state and a switch mechanism part 13 for switching the clutch mechanism part 12 into a connecting state or an interrupting state. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a coin payout device suitable for use when paying coins (coins) to a customer at a bank window or the like.

  In general, at a bank window, a coin payout device is often installed in order to quickly and efficiently perform window operations. In this case, the coin payout device is usually connected to a Terras machine and has a function of automatically paying out coins to be paid to a customer based on command information related to the type and number of coins given from the Terrars machine.

Conventionally, as this type of coin payout device, a coin payout device disclosed in JP-A-7-114666 is known. This coin dispensing device includes a single drive motor, gear transmission means for transmitting the power of this single drive motor, and a coin discharge driven by the drive force transmitted from the gear transmission means via the first payout cam. First payout slide, a second payout slide for paying out coins driven through the second payout cam by the rotational force of the driven gear constituting a part of the gear transmission means, and the second payout cam And a driven gear. The clutch means is configured to transmit the driving force to the second payout cam and to interrupt the driving force based on the driving force of the solenoid plunger.
JP-A-7-114666

  However, the above-described conventional coin dispensing device (coin dispensing device) has the following problems.

  First, since the total number of parts is increased and the structure is complicated, the cost is increased due to an increase in parts cost and manufacturing cost, and the whole apparatus is increased in size and weight.

  Secondly, since the entire structure is integrated, for example, it is inferior in the degree of freedom of design change, such as not being able to flexibly respond to design changes corresponding to increase / decrease of coin types, and the cost of design changes etc. Invite up.

  Thirdly, the power transmission system becomes a complicated path, which causes a decrease in durability, high speed, stability and reliability for this type of equipment that is frequently used, and increases unnecessary power consumption and noise noise. It can also be a cause.

  An object of the present invention is to provide a coin payout device that solves such problems in the background art.

  In order to solve the above-described problem, the present invention is configured to accommodate a plurality of stacked coins Ca, and one or more coin stackers 2a, 2b provided for each type of coins Ca, Cb,. Are arranged, and a coin payout device 1 is provided that includes a discharge processing mechanism 3 for discharging the coins Ca ... corresponding to the command information Dx relating to the type and number of coins from the coin loading mechanism 2. In doing so, it corresponds to the rotation shaft 5 arranged along the arrangement direction Fx of the coin stacker portions 2a, 2b... And the rotation drive portion 4 having the drive motor 6 for rotating the rotation shaft 5 and each coin stacker portion 2a. And a plurality of discharge processing units 7a, 7b... And also supports the discharge processing unit 7a (the same applies to the other discharge processing units 7b. And a discharge operation unit 9 having a push lever 10 for discharging one coin Ca ... by reciprocating forward / backward displacement, a cam mechanism unit 11 for converting the rotation of the rotary shaft 5 into reciprocating forward / backward displacement of the push lever 10, and the cam A clutch mechanism unit 12 for connecting the mechanism unit 11 and the rotary shaft 5 to a connected state or a disconnected state; and a switching mechanism unit 13 having a solenoid 14 for switching the clutch mechanism unit 12 to a connected state or a disconnected state. Features.

  In this case, according to a preferred aspect of the invention, the cam mechanism portion 11 is rotatably supported, and the crank lever 21 that engages with the push lever 10, the rotating shaft 5 is inserted in the eccentric position, and the crank lever 21 It can comprise and comprise the crank cam 22 engaged with. The clutch mechanism 12 includes a lock portion 23 fixed to the rotary shaft 5, a connection position Ps that is attached to the crank cam 22 and is locked to the lock portion 23, or a blocking position Pr that is unlocked from the lock portion 23. And a clutch member 24 that is displaceable, and a spring member 25 that urges the clutch portion 24 to the connection position Ps. Further, the switching mechanism portion 13 is selectively displaced by the solenoid 14 to the locking position Pf or the locking release position Pn. At the locking position Pf, the switching mechanism portion 13 moves from the direction facing the turning direction Fr of the clutch portion 24 to the clutch portion 24. The clutch portion 24 is locked and displaced to the cutoff position Pr, and at the lock release position Pn, a switching lever 26 that is separated from the clutch portion 24 can be provided. The discharge processing mechanism 3 includes a controller 27 that controls the operations of the solenoids 14 and the drive motor 6 in sequence.

  According to the coin payout device 1 according to the present invention having such a configuration, the following remarkable effects can be obtained.

  (1) Since a unique mechanism by combining the rotary drive unit 4 and the plurality of discharge processing units 7a... Is adopted, the overall number of parts and the structure can be simplified, and the parts cost and the manufacturing cost can be reduced. The cost can be greatly reduced, and the entire device can be reduced in size and weight and contribute to weight reduction.

  (2) Since a plurality of discharge processing units 7a ... corresponding to the coin stacker units 2a ... are adopted, for example, even in a design change accompanying an increase / decrease in the type of coins Ca ..., the addition or reduction of the discharge processing units 7a ... It can respond flexibly and easily, can increase the degree of freedom of design changes, and can contribute to further cost reduction in design changes.

  (3) The discharge processing unit 7a (7b...) Is supported so as to be movable forward and backward, and has a push operation unit 9 having a push lever 10 that discharges one coin Ca by reciprocating forward and backward displacement, and rotation of the rotary shaft 5. Is converted into a reciprocating forward / backward displacement of the push lever 10, a clutch mechanism 12 for connecting or disconnecting the cam mechanism 11 and the rotating shaft 5, and a connection or disconnection of the clutch mechanism 12 Since the switching mechanism portion 13 having the solenoid 14 for switching to the state is provided, the path of the power transmission system can be simplified, and durability, high speed, stability and reliability of this type of frequently used device can be improved. In addition to being able to increase, it can contribute to the reduction of unnecessary power consumption and noise noise.

  Next, the best embodiment according to the present invention will be given and described in detail with reference to the drawings.

  First, the configuration of the coin payout device 1 according to the present embodiment will be described with reference to FIGS.

  FIG. 5 shows the overall external configuration of the coin payout device 1. The coin payout device 1 includes a casing 30, an openable transparent cover 31 is provided above the front surface of the casing 30, the coin loading mechanism 2 is disposed inside the transparent cover 31, and the casing 30. 1 is provided with a discharge processing mechanism 3 shown in FIG. Thereby, the coin Ca ... can be accommodated (supplemented) in the coin loading mechanism 2 by opening and closing the transparent cover 31. Further, at the lower part of the front surface of the casing 30, there is a discharge port 32 for coins Ca. Reference numeral 33 denotes a coin tray for receiving the coins Ca ... discharged from the discharge port 32.

  The coin loading mechanism 2 is configured to accommodate a plurality of stacked coins Ca, and a plurality (generally, one or two or more) of coin stackers 2a provided for each type of coins Ca,. 2b, 2c, 2d, etc., and the coin stacker portions 2a, 2b,... Are sequentially arranged in the horizontal direction. As shown in FIGS. 1 and 3, the coin loading mechanism 2 includes a coin placement plate 34 on which each coin Ca... Is placed, and the coin placement plate 34 has a position corresponding to the center of each coin Ca. Are provided with guide slits 35a, 35b, 35c, 35d... Perpendicular to the arrangement direction Fx of the coin stackers 2a. Each guide slit 35a is provided with each push lever 10 in the discharge processing mechanism 3 described later. In this case, if the push levers 10 are reciprocated back and forth along the guide slits 35a, one coin Ca ... positioned at the bottom of the stacked coins Ca ... is pushed out. Then, the extruded coins Ca are discharged from the discharge port 32 onto the coin tray 33.

  On the other hand, the discharge processing mechanism 3 has a function of discharging coins Ca ... corresponding to command information Dx related to the type and number of coins described later from the coin loading mechanism 2. A specific configuration of the discharge processing mechanism 3 is shown in FIGS. As shown in FIG. 1, the discharge processing mechanism 3 includes a rotation shaft 5 disposed along the arrangement direction Fx of the coin stacker portions 2 a... And a rotation drive unit 4 that rotationally drives the rotation shaft 5. The rotation drive unit 4 includes a drive motor 6, a worm gear 41 fixed to the motor shaft of the drive motor 6, and a driven gear 42 fixed to one end of the rotation shaft 5 and meshing with the worm gear 41.

  Further, the discharge processing mechanism 3 includes a plurality (generally, one or two or more) of discharge processing units 7a, 7b, 7c, 7d,. One discharge processing unit 7 a has a base frame 8. The base frame 8 uses a single plate member 51 having a substantially rectangular shape, and a bent edge portion 51f bent at a right angle is formed on the front side (side facing the coin stacker portion 2a) of the plate member 51. Provide.

  The base frame 8 is provided with a discharge operation unit 9. The discharge operation portion 9 has a push lever 10, and this push lever 10 is supported by a guide portion 8 s formed in the base frame 8 so as to be movable forward and backward in the horizontal direction. In this case, the guide portion 8s is formed in the bent edge portion 51f to guide the push lever 10 in a horizontal direction by being formed in the plate member 51 and the first guide hole 8sa into which the push lever 10 is inserted. And a second guide hole 8sb having a horizontally long rectangle. The push lever 10 is disposed in the guide slit 35a described above. Further, at the tip of the push lever 10, there is provided a protrusion 10p that can push out one coin Ca ... positioned at the bottom of each of the stacked coins Ca ....

  The base frame 8 is further provided with a cam mechanism 11. The cam mechanism portion 11 has a function of converting the rotation of the rotary shaft 5 into a reciprocating forward / backward displacement of the push lever 10, is rotatably supported by the base frame 8, and is a crank lever 21 that engages with the push lever 10. The crankshaft 22 is inserted into the eccentric position, and the peripheral surface engages with the crank lever 21. Therefore, an insertion hole through which the rotary shaft 5 is inserted is provided at a predetermined position of the base frame 8. The crank lever 21 is formed in a P-shape by a single plate member 52 and has an engagement window 53 that forms a rectangle with which the crank cam 22 is engaged, and is provided at a predetermined position of the base frame 8. The intermediate position is rotatably supported by the support shaft portion 54. The lower end of the crank lever 21 is rotatably coupled to the rear end of the push lever 10 via the coupling shaft portion 55. In this case, the coupling shaft portion 55 is allowed to be relatively displaced in the vertical direction. On the other hand, the crank cam 22 is formed by a disk having a predetermined thickness, and the crank cam 22 has a bearing hole through which the rotary shaft 5 is rotatably inserted at an eccentric position. The crank cam 22 is accommodated in the engagement window portion 53, and the peripheral surface of the crank cam 22 is engaged with the inner edge of the engagement window portion 53.

  A clutch mechanism 12 is disposed between the rotary shaft 5 and the crank cam 22. The clutch mechanism 12 has a function of bringing the cam mechanism 11 (crank cam 22) and the rotary shaft 5 into a connected state or a disconnected state. The clutch mechanism portion 12 is displaced to a lock portion 23 fixed to the rotary shaft 5 and a connection position Ps that is attached to the crank cam 22 and is locked to the lock portion 23 or a blocking position Pr that is unlocked to the lock portion 23. A possible clutch portion 24 and a spring member 25 that urges the clutch portion 24 to the connection position Ps are provided. In this case, the lock portion 23 has a pair of locking surfaces that are parallel to the cylindrical peripheral surface, and a locked surface that can be locked to the locking surface at the tip of the clutch portion 24. Have The clutch portion 24 is disposed at a position 180 ° opposite to the position of the lock portion 23 in the crank cam 22, and one end of the clutch portion 24 is rotatably supported by a support shaft portion 56 fixed to the crank cam 22. The crank cam 22 is provided with a stopper pin 24 s that regulates the clutch portion 24 biased by the spring member 25. The spring member 25 is a coil spring that can be loaded on the support shaft portion 56.

  Furthermore, a switching mechanism unit 13 that switches the clutch mechanism unit 12 to a connected state or a disconnected state is provided. The switching mechanism unit 13 includes a solenoid 14 and a switching lever 26 that is selectively displaced to the locking position Pf or the locking release position Pn by the solenoid 14. In this case, the switching lever 26 is locked to the clutch portion 24 from the direction facing the turning direction Fr of the clutch portion 24 at the locking position Pf to displace the clutch portion 24 to the cutoff position Pr, and to the locking release position. Pn has a function of separating from the clutch portion 24. The switching lever 26 is rotatably supported by a support shaft 57 fixed at the intermediate position to the base frame 8, and the rear end side engages with an engagement pin 58 provided on the plunger 14 p of the solenoid 14 from below. . Note that the support shaft portion 57 is disposed inside the engagement window portion 53. Further, the switching lever 26 is biased in a direction to be displaced to the locking position Pf by a spring 59 installed between the base frames 8. At this time, since the crank lever 21 is disposed between the switching lever 26 and the base frame 8, the clutch portion 24 (and the lock portion 23) described above is established so that the positional relationship with the switching lever 26 is established. The axial length (direction of the rotating shaft 5) is selected.

  The configuration of one discharge processing unit 7a has been described above, but the other discharge processing units 7b... Are configured similarly to the above-described discharge processing unit 7a. Therefore, when manufacturing the discharge processing mechanism 3 in the coin payout device 1 according to the present embodiment, the discharge processing units 7a... Are prepared in a quantity corresponding to the types of coins Ca. It can be easily manufactured by assembling it through the discharge processing units 7a.

  As described above, since the coin payout device 1 according to the present embodiment employs a unique mechanism that is a combination of the rotation drive unit 4 and the plurality of discharge processing units 7a..., The overall number of parts is reduced and the structure is simplified. Therefore, it is possible to realize a significant cost reduction by reducing the component cost and the manufacturing cost, and to contribute to the downsizing and weight reduction of the entire apparatus. Further, since a plurality of discharge processing units 7a ... corresponding to the coin stackers 2a ... are adopted, for example, even in a design change accompanying an increase / decrease in the type of coins Ca ..., flexibility can be achieved by adding or reducing the discharge processing units 7a ... In addition, it is possible to easily cope with this, and it is possible to increase the degree of freedom of design change and the like, and it is possible to contribute to further cost reduction in design change and the like. Further, the discharge processing unit 7a (7b...) Is supported so as to be able to move forward and backward, and has a push operation unit 9 having a push lever 10 that discharges one coin Ca by reciprocating forward and backward displacement, and rotation of the rotary shaft 5. A cam mechanism portion 11 that converts the push lever 10 into a reciprocating forward / backward displacement, a clutch mechanism portion 12 that connects or disconnects the cam mechanism portion 11 and the rotary shaft 5, and a state where the clutch mechanism portion 12 is connected or disconnected. Since the switching mechanism 13 having the solenoid 14 for switching to the power transmission system is configured, the path of the power transmission system can be simplified, and the durability, stability, high speed and reliability of this type of frequently used device are improved. And can contribute to the reduction of unnecessary power consumption and noise noise.

  On the other hand, FIG. 6 shows an electric block circuit. Reference numeral 27 denotes a controller provided in the discharge processing mechanism 3. The drive motor 6 described above is connected to the output side, and the solenoids 14 provided in each discharge processing unit 7 a. Further, detection switches 61 are connected to the input side of the controller 27 to detect that the coins Ca are normally ejected from the coin stackers 2a. Further, 62 is a display unit connected to the controller 27. The display unit 62 displays an error when at least the coins Ca ... are not normally ejected. In addition, various displays such as a payout amount can be performed as necessary. On the other hand, 71 is a teller machine installed at a bank window or the like, and the coin payout device 1 (controller 27) is connected to the teller machine 71 for use. Thus, when the controller 27 receives the command information Dx related to the type and number of coins to be paid out from the Terras machine 71, the controller 27 operates the drive motor 6 and the solenoid 14. The sequence control to discharge is performed.

  Next, the operation of the coin payout device 1 according to the present embodiment will be described according to the flowchart shown in FIG. 7 with reference to FIGS.

  First, when payment is made to a customer at a bank counter or the like, command information Dx related to the type and number of coins (coins) to be paid out is transmitted from the Terras machine 71 to the controller 27 of the coin payout device 1 (step) S1). The controller 27 operates the drive motor 6 by receiving the command information Dx (step S2). Thereby, the rotating shaft 5 is decelerated by the worm gear 41 and the driven gear 42 and rotates. At this time, the rotation direction of the rotation shaft 5 is the Fr direction in FIG.

  If the drive motor 6 is activated, the nth solenoid 14 corresponding to the type of coin based on the command information Dx is turned on (step S3). When the solenoid 14 is OFF, as shown in FIG. 3, the plunger 14p protrudes upward and the engaging pin 58 is in the raised position, so that the switching lever 26 biased by the spring 59 is With the portion 57 as a fulcrum, it rotates counterclockwise in FIG. 3 and is displaced to the locking position Pf. As shown in FIG. 3, the switching lever 26 at the locking position Pf is locked to the clutch portion 24 from a direction opposite to the turning direction Fr of the clutch portion 24 to displace the clutch portion 24 to the cutoff position Pr. Thereby, the clutch mechanism part 12 will be in the interruption | blocking state, and since the latching | locking of the lock part 23 and the clutch part 24 is cancelled | released, the lock part 23 will be in an idling state. Therefore, the coin discharging operation is not performed.

  On the other hand, when the solenoid 14 is turned on, as shown in FIG. 4, the plunger 14 p is pulled downward, and the engagement pin 58 is displaced to the lowered position, so that the switching lever 26 is biased by the spring 59. Against this, it is rotated clockwise in FIG. As a result, the switching lever 26 is displaced to the locking release position Pn that is separated from the clutch portion 24. As a result, the clutch portion 24 biased by the spring member 25 is displaced to the connection position Ps, and the clutch mechanism portion 12 is in a connected state (step S4). In this case, since the lock portion 23 rotates integrally with the rotary shaft 5, the clutch portion 24 is located at a position where the locking surface of the lock portion 23 is substantially parallel to the locked surface of the clutch portion 24. It is displaced to the connection position Ps, and the locked state is brought about when the locking surface of the lock portion 23 and the locked surface of the clutch portion 24 abut. The position of the clutch portion 24 at the connection position Ps is restricted by the stopper pin 24s. Thereby, the crank cam 22 rotates integrally with the rotating shaft 5.

  The rotation of the crank cam 22 causes the crank lever 21 engaged with the crank cam 22 to repeatedly rotate and displace within a fixed angle range with the support shaft portion 54 as a fulcrum. It is converted into a reciprocating forward / backward displacement of the push lever 10 via the shaft portion 55. That is, when the crank cam 22 rotates once, the push lever 10 is displaced from the retracted position shown in FIG. 3 to the advanced position shown in FIG. 4 and then returned to the retracted position shown in FIG. . At this time, when the push lever 10 moves forward, one coin Ca located at the bottom of each coin Ca (or Cb...) Stacked on the coin stacker portion 2a (or 2b. S5). Then, the pushed coin Ca is discharged from the discharge port 32 onto the coin tray 33.

  At this time, the detection switch 61 described above is disposed in the discharge passage through which the coin Ca discharged from the coin stacker unit 2a (or 2b...) Passes, and when the coin Ca is normally discharged, The detection switch 61 is turned on, and the detection result is given to the controller 27 (step S6). On the other hand, the controller 27 sets a monitoring time corresponding to the number of sheets to be discharged, and monitors whether or not the number of coins Ca based on the command information Dx is normally discharged within the monitoring time (steps S7 and S9). . At this time, if discharged normally, the nth solenoid 14 is turned OFF (steps S7 and S8). On the other hand, when the number of coins Ca based on the command information Dx is not normally discharged within the monitoring time, error processing is performed (steps S9 and S10). In this case, an error is displayed on the display unit 62.

  Further, when there are other types of coins Cb to be discharged, the corresponding solenoids 14 are turned on, and the same discharge process is sequentially performed (steps S11, S3,...). When the discharge process of all coins Ca ... based on the command information Dx is completed, the drive motor 6 is turned off (step S11). Normally, there are a plurality of types of coins Ca to be discharged, so that a plurality of discharge processing units 7a... Operate in one payout operation. In this case, as illustrated, the discharge processing units 7a... May be operated in order, or may be operated simultaneously by setting a plurality of processing systems of the controller 27.

  Although the best embodiment has been described in detail above, the present invention is not limited to such an embodiment, and the scope of the present invention is not deviated from the gist of the present invention in the detailed configuration, shape, material, quantity, and the like. It can be changed, added, or deleted arbitrarily. For example, not only coins but also various coins other than coins can be applied to the coins Ca. Moreover, although the example which uses the coin payout apparatus 1 connected to the Terrars machine 71 was given, it can be used for various other purposes and can be incorporated into various devices such as vending machines.

The top view which shows the internal structure in the coin payment apparatus which concerns on the best embodiment of this invention, The perspective view which shows the arrangement configuration of the components in the discharge processing unit of the coin payout device, A side view of the discharge processing unit when the clutch mechanism of the coin payout device is in a disconnected state; A side view of the discharge processing unit when the clutch mechanism of the coin payout device is connected, External perspective view of the coin dispensing device, Block diagram of the electrical system of the coin dispensing device, A flowchart for explaining the operation of the coin payout device;

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Coin dispensing apparatus 2 Coin loading mechanism 2a ... Coin stacker part 3 Discharge process mechanism 4 Rotation drive part 5 Rotation shaft 6 Drive motor 7a ... Discharge process unit 9 Discharge operation part 10 Push lever 11 Cam mechanism part 12 Clutch mechanism part 13 Switching mechanism Part 14 Solenoid 21 Crank lever 22 Crank cam 23 Lock part 24 Clutch part 25 Spring member 26 Switching lever 27 Controller Ca ... Coin Dx Command information Fx Coin stacker part arrangement direction Fr Turning direction Ps Connection position Pr Shut off position Pf Locking position Pn Lock release position

Claims (5)

  Corresponding to the coin loading mechanism configured to accommodate a plurality of stacked coins and arranging one or more coin stackers provided for each type of coin, and command information related to the type and number of coins In the coin payout device comprising a discharge processing mechanism for discharging coins from the coin loading mechanism, a rotation drive unit having a rotation shaft disposed along the arrangement direction of the coin stacker units and a drive motor for rotating the rotation shaft; And a plurality of discharge processing units corresponding to each coin stacker unit, and a discharge operation unit having a push lever that supports the discharge processing unit so as to be movable forward and backward, and discharges one coin by reciprocating forward and backward displacement. A cam mechanism that converts the rotation of the rotary shaft into a reciprocating displacement of the push lever; A clutch mechanism for connecting or disengaging the rotary shaft and the rotating shaft, and a switching mechanism having a solenoid for switching the clutch mechanism to the connected or disconnected state. Coin payout device.   The cam mechanism includes a crank lever that is rotatably supported and engages with the push lever, and a crank cam that passes through the rotation shaft at an eccentric position and engages with the crank lever. The coin payout device according to claim 1.   The clutch mechanism portion includes a lock portion fixed to the rotary shaft, and a clutch that is attached to the crank cam and is displaceable to a connection position that is locked to the lock portion or a blocking position that is unlocked to the lock portion. 2. The coin payout device according to claim 1, further comprising a spring member that biases the clutch portion to the connection position.   The switching mechanism portion is selectively displaced to a locking position or a locking release position by the solenoid. At the locking position, the switching mechanism portion is locked to the clutch portion from a direction facing the turning direction of the clutch portion. 2. The coin payout device according to claim 1, further comprising a switching lever that displaces the clutch portion to the disengagement position and separates the clutch portion from the clutch portion at the unlocking position.   2. The coin payout device according to claim 1, wherein the discharge processing mechanism includes a controller that sequentially controls operations of the solenoid and the drive motor.

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