JP3868898B2 - Coin handling machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a coin processing machine having a folded coin guide passage.
[0002]
[Prior art]
For example, Patent Document 1 discloses a coin processing machine having a folded coin guide path.
[0003]
[Patent Document 1]
JP 2001-175908 A
[0004]
The coin processing machine described in Patent Document 1 is a coin guide passage having a folded shape composed of three straight portions connected in series in a state where adjacent ones cross each other, and a coin along the coin guide passage. And conveying means for moving the. And as a conveying means, an axis line is arranged perpendicularly to the passage surface of the coin guide passage, and the inlet of the straight portion, the outlet of this straight portion and the inlet of the next straight portion, the outlet of this straight portion A conveyor pulley that is arranged at an inlet of the next straight line portion and an outlet of the straight line portion, and a single conveyer belt that conveys coins by being hung on the convey pulley is used.
[0005]
[Problems to be solved by the invention]
By the way, when a coin is transported by a transport belt that has an axis perpendicular to the passage surface of the coin guide passage as described above, the direction of deformation of the transport belt due to the thickness of the coin coincides with the direction away from the transport pulley. There is a problem that the belt may come off from the conveying pulley.
[0006]
Accordingly, an object of the present invention is to provide a coin processing machine capable of preventing the conveyor belt from being detached from the conveyor pulley even when the coin is conveyed by the conveyor belt while being guided by the folded coin guide path. To do.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, the invention according to claim 1 is directed to three straight portions connected in series in a state where adjacent ones intersect (for example, the first straight portion 48, the second straight portion 49, and the second straight portion 49 in the embodiment). Folded coin guide passages (for example, the coin guide passage 42 in the embodiment) configured by the connecting straight portion 50) and transport means (for example, the coin transport portion in the embodiment) for moving coins along the coin guide passage. 43), the conveying means arranges an axis parallel to the passage surface of the coin guide passage (for example, the passage surface 41 in the embodiment) and upstream of each of the straight portions. Three pairs of conveying pulleys (for example, conveying pulleys 202A to 202F in the embodiment) arranged in pairs on the side and the downstream side, and the conveying pulleys forming each pair The three conveyor belts (for example, the conveyor belts 44 to 46 in the embodiment) that are arranged in the respective linear portions and convey coins, and the three conveyor belts as one drive source (for example, the embodiment) Driving force transmission means (for example, the conveyance drive transmission mechanism 222 in the embodiment) driven by the driving force of the motor 221The drive force transmitting means is a pair of drive shafts of the drive source (for example, the drive shaft 233 in the embodiment) provided with respect to the intermediate straight portion (for example, the connecting straight portion 50 in the embodiment). It arrange | positions along the axis line of the said conveyance pulley (for example, conveyance pulley 202C, 202D in embodiment), and an intermediate part is bent by a pair of 1st bending pulley (for example, the 1st bending pulley 240 in embodiment). Thus, the first drive pulley (for example, the first drive pulley 235 in the embodiment) in which the axis is arranged along the drive shaft and the upstream linear portion (for example, the first straight portion 48 in the embodiment) are arranged. A first driven pulley (for example, an axis line is arranged along the axis line of the conveying pulley (for example, the conveying pulleys 202A and 202B in the embodiment) provided for the same. A first driving belt (for example, the first driving belt 245 in the embodiment) hung on the first driven pulley 243 in the embodiment, and a pair of second bending pulleys (for example, the second bending pulley in the embodiment). The second drive pulley (for example, the second drive pulley 236 in the embodiment) in which the axis is arranged along the drive shaft and the downstream straight portion (for example, in the embodiment) are bent by the pulley 253) The second driven pulley (for example, the second driven pulley in the embodiment) in which the axis is arranged along the axis of the transport pulley (for example, the transport pulleys 202E and 202F in the embodiment) provided for the second straight portion 49). 256) and a second drive belt (for example, the second drive belt 258 in the embodiment)It is characterized by that.
[0008]
  Thus, in each straight line portion of the folded coin guide passage, a transport pulley that arranges an axis parallel to the passage surface of the coin guide passage is arranged in pairs on the upstream side and the downstream side, Since the conveying belt is hung on the conveying pulley that forms the following, the direction of deformation of the conveying belt due to the thickness of the coin and the direction of coming off from the conveying pulley can be made different.
  In addition, since the drive shaft of the drive source is arranged along the axis of a pair of conveyance pulleys provided for the intermediate linear portion, the drive force from the drive shaft is transferred to the intermediate pulley of the intermediate pulley and the conveyor belt. Can be transmitted simply and reliably using pulleys and belts. Further, the intermediate portion of the first drive belt is bent by the pair of first bending pulleys, so that the first drive pulley provided with the axis line along the drive shaft and the conveying pulley provided for the upstream linear portion. The first driven pulley is arranged along the axis of the first driven pulley, so that the driving force from the driving shaft is transmitted to the first driven pulley, and the driving force from the first driven pulley is upstream. Transmission to the conveying pulley and the conveying belt in the straight portion can be easily and reliably performed using the pulley and the belt. Further, the intermediate portion of the second drive belt is bent by a pair of second bending pulleys, so that the second drive pulley provided with an axis line along the drive shaft and the conveying pulley provided for the downstream straight portion. Is driven by a second driven pulley having an axial line disposed along the axis thereof, so that the driving force from the driving shaft is transmitted to the second driven pulley and the driving force from the second driven pulley is downstream. Transmission to the conveying pulley and the conveying belt in the straight portion can be easily and reliably performed using the pulley and the belt.
  The invention according to claim 2 includes three straight portions connected in series in a state where adjacent ones intersect (for example, the first straight portion 48, the second straight portion 49, and the connecting straight portion 50 in the embodiment). Coin processing having a folded coin guide passage (for example, the coin guide passage 42 in the embodiment) and a transport means (for example, the coin transport portion 43 in the embodiment) for moving coins along the coin guide passage. In the machine, the conveying means arranges an axis parallel to the passage surface of the coin guide passage (for example, the passage surface 41 in the embodiment) and makes a pair on the upstream side and the downstream side with respect to each of the straight portions. Three pairs of conveying pulleys arranged (for example, conveying pulleys 202A to 202F in the embodiment) and the respective straight lines by being hung on the conveying pulleys forming each pair. The three conveyor belts (for example, the conveyor belts 44 to 46 in the embodiment) that are arranged in the belt and the driving force of the three conveyor belts as one drive source (for example, the motor 221 in the embodiment). Driving force transmission means (for example, the conveyance drive transmission mechanism 222 in the embodiment) driven by the motor, and the driving force transmission means has an intermediate driving shaft of the driving source (for example, the driving shaft 233 in the embodiment). Arranged along the axis of a pair of the transport pulleys (for example, the transport pulleys 202C and 202D in the embodiment) provided for the straight portions (for example, the connecting straight portion 50 in the embodiment), and the drive The shaft includes a first drive pulley (for example, the first drive pulley 235 in the embodiment), a second drive pulley (for example, the second drive pulley 2 in the embodiment). 6) and a third driving pulley (for example, the third driving pulley 237 in the embodiment) are provided coaxially, and the driving force of the first driving pulley is such that the intermediate portion has a pair of first bending pulleys (for example, the embodiment) The conveying pulley (for example, the embodiment) provided with respect to the first drive pulley and the upstream linear portion (for example, the first linear portion 48 in the embodiment) by being bent by the first bending pulley 240 in the embodiment. The first drive belt (for example, the first driven belt in the embodiment) hung on the first driven pulley (for example, the first driven pulley 243 in the embodiment) whose axis is arranged along the axis of the conveying pulleys 202A and 202B in the embodiment. 1 drive belt 245), a first transmission pulley coaxial with the first driven pulley (for example, the first transmission pulley 244 in the embodiment) and the upstream side A first transmission belt (for example, the first transmission belt 249 in the embodiment) hung on a first intermediate pulley (for example, the first intermediate pulley 248 in the embodiment) coaxial with the conveying pulley provided for the straight portion. And is transmitted to the conveyor belt provided to the linear portion on the upstream side, and the driving force of the second driving pulley is a pair of second bending pulleys (for example, the second bending pulley in the embodiment). The second driving pulley and the downstream linear portion (for example, the second linear portion 49 in the embodiment) by being bent by the pulley 253) A second drive belt hung on a second driven pulley (for example, the second driven pulley 256 in the embodiment) in which the axis is disposed along the axis of the transport pulley (for example, the transport pulleys 202E and 202F in the embodiment). (For example, the second drive belt 258 in the embodiment), a second transmission pulley coaxial with the second driven pulley (for example, the second transmission pulley 257 in the embodiment), and the linear portion on the downstream side. A second transmission belt (for example, the second transmission belt 262 in the embodiment) hung on a second intermediate pulley (for example, the second intermediate pulley 261 in the embodiment) that is coaxial with the transport pulley is provided on the downstream side. The driving force of the third drive pulley is transmitted to the conveyor belt provided for the linear portion, and the carrying force provided for the intermediate linear portion is provided. Belt is characterized in that it is transferred to the conveying belt by being subjected to the third drive pulley.
  Thus, in each straight line portion of the folded coin guide passage, a transport pulley that arranges an axis parallel to the passage surface of the coin guide passage is arranged in pairs on the upstream side and the downstream side, Since the conveying belt is hung on the conveying pulley that forms the position, the deformation direction of the conveying belt due to the thickness of the coin and the direction of coming off from the conveying pulley can be made different.
  Further, the drive shaft of the drive source is arranged along the axis of a pair of conveying pulleys provided for the intermediate linear portion, and the drive force of the third drive pulley of the drive shaft is applied to the third drive pulley. Since the intermediate linear portion of the conveyor belt is hooked and transmitted to the conveyor belt, the driving force from the drive shaft can be transmitted to the intermediate linear portion of the conveyor pulley and the conveyor belt by using only the third drive pulley. It can be easily and reliably used. Further, the driving force of the first driving pulley is arranged along the axis of the first driving pulley and the conveying pulley of the upstream linear portion by bending the intermediate portion with a pair of first bending pulleys. A first drive belt hung on the first driven pulley, a first transmission pulley coaxial with the first driven pulley, and a first transmission hung on the first intermediate pulley coaxial with the upstream straight pulley. The first drive pulley is configured to transmit the driving force from the drive shaft to the conveyance pulley and the conveyance belt of the upstream linear portion via the belt. Simple and reliable by using only the first bending pulley and the first driven pulley, the first drive belt hung on them, the first transmission pulley and the first intermediate pulley, and the first transmission belt hung on them. In That. Further, the driving force of the second drive pulley is arranged along the axis of the second drive pulley and the downstream straight conveyor pulley by bending the intermediate portion with a pair of second bending pulleys. A second drive belt hung on the second driven pulley; a second transmission pulley coaxial with the second driven pulley; and a second transmission hung on the second intermediate pulley coaxial with the downstream straight pulley. The second drive pulley transmits the driving force from the drive shaft to the downstream straight conveyor belt and the conveyor belt via the belt. Simple and reliable by using only the second bending pulley and the second driven pulley, the second drive belt hung on them, the second transmission pulley and the second intermediate pulley, and the second transmission belt hung on them. In Kill.
[0009]
  Claim3The invention according to claim1 or 2In the invention according to the present invention, the driving force transmitting means transmits the driving force of the one driving source to a support shaft (for example, the support shafts 224 to 227, 229, 230, 239, 242, 252, and 255 in the embodiment), a pulley ( For example, the first driving pulley 235, the second driving pulley 236, the third driving pulley 237, the first bending pulley 240, the first driven pulley 243, the first transmission pulley 244, the first intermediate pulley 248, the second bending in the embodiment. Pulley 253, second driven pulley 256, second transmission pulley 257, second intermediate pulley 261) and belt (for example, first drive belt 245, first transmission belt 249, second drive belt 258 and second transmission in the embodiment) The belt 262) alone is transmitted to the three conveyor belts.
[0010]
As described above, the driving force transmitting means transmits the driving force of one driving source to the three conveying belts by using only the support shaft, the pulley, and the belt, and therefore, it is possible to further suppress an increase in cost.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
A coin depositing and dispensing machine as an embodiment of the coin processing machine of the present invention will be described below with reference to the drawings.
[0016]
The coin deposit / withdrawal machine of this embodiment deposits and withdraws coins, and is used in combination with a banknote deposit / withdrawal machine, so it is thin in the width direction of the body 10 (left and right as viewed from the operator), The body 10 has a substantially rectangular parallelepiped shape that is relatively long in the front-rear direction (from the front to the back as viewed from the operator).
[0017]
First, the overall configuration of the coin depositing and dispensing machine will be described with reference to FIGS.
The coin depositing / withdrawing machine is for performing coin transactions with the operator, such as depositing coins from outside the machine and dispensing coins outside the machine, at the upper part of the front side of the fuselage (operator side, right side in FIG. 1). A transaction unit 12 having a deposit / withdrawal port (transaction unit) 11 is provided. The transaction unit 12 includes a substantially cylindrical peripheral wall portion 13 that opens up and down and whose upper portion constitutes a deposit / withdrawal port 11, and a slidable shutter 14 that opens and closes the deposit / withdrawal port 11 of the peripheral wall portion 13, And a coin tray 15 provided on the lower side of the peripheral wall 13. The shutter 14 has an upper shutter 14A and a lower shutter 14B having a double structure, and a coin insertion hole 16 through which only a small amount of coins can pass is formed in the lower shutter 14B.
[0018]
The coin tray 15 can be rotated around a rotating shaft 17 provided with an axis line arranged in the left-right direction of the body on the rear side of the lower body (opposite to the operator), and the bottom opening 19 can be opened and closed. A bottom plate 18 is provided. That is, the bottom plate 18 of the coin tray 15 has a closed state in which the opposite side of the rotating shaft 17 extends substantially horizontally forward of the machine body and closes the bottom opening 19, and the opposite side of the rotating shaft 17 is substantially vertically downward. And is rotated between the open state in which the bottom opening 19 is opened.
[0019]
Directly below the transaction unit 12 is provided a coin supply device 21 that accepts coins dropped from the transaction unit 12 by opening the bottom plate 18 of the coin tray 15 and separates and accepts the received coins one by one. ing. This coin supply device 21 has a coin receiving portion 23 that forms a substantially container shape with the lower part closed and the upper part opened, and that forms a receiving space 22 for receiving coins inside. A foreign matter removing port 24 is provided in a predetermined lower range on the front side of the machine body of the coin receiving portion 23, and an opening / closing plate 25 for opening and closing the foreign matter removing port 24 is provided.
[0020]
The opening / closing plate 25 is provided so as to be rotatable about a rotation shaft 26 provided at an upper portion thereof with an axis line arranged in the left-right direction of the machine body. That is, the open / close plate 25 is closed when the foreign matter removal port 24 is closed, and the lower portion swings forward about the rotation shaft 26 to open the foreign matter removal port 24 to open the foreign matter removal port 24. The collection unit 27 is rotated between the open state in which the foreign matter is dropped. The foreign matter recovery unit 27 can be pulled out from the machine body to remove the received foreign matter.
[0021]
A part of the wall side of the coin receiving portion 23 of the coin supply device 21 on the rear side of the machine body is arranged in a plane along the longitudinal direction of the machine body and along the vertical direction, and the upper part is positioned on the rear side of the machine body as the upper part is located. The rotating disk 30 is arranged so as to be inclined so as to separate and feed out coins one by one. The rotating disk 30 has an acute angle with respect to the vertical direction, and supports the coin in a state where a surface on one side in the axial direction of the coin is in contact with a support surface 31 on the receiving space 22 side in the axial direction. The separation and feeding of coins by the rotating disk 30 will be described in detail later.
[0022]
Further, the coin supply device 21 is inclined so that the upper part is positioned on the rear side of the machine body along the tangential direction of the rotary disk 30, and the coins fed out from the rotary disk 30 one by one are arranged on the rear side of the machine. It has the 1st lifting conveyance part (lifting conveyance part) 35 conveyed diagonally upward so that it may be located in the side. The first lifting height conveying unit 35 delivers the coins to the coin sorting and conveying unit 33 that performs discrimination and sorting of coins arranged close to the rear side of the machine unit 12 on the upper side of the machine unit. The first lifting height conveying portion 35 is inclined and guides the coins that are fed one by one from the rotating disk 30 and the coins while pressing the coins against the passage surface 37 of the lifting height guiding passage 36. It has an endless lifting / conveying belt 38 or the like (only the lifting / conveying belt 38 is shown in FIG. 1) that is moved along the lifting / guiding guide passage 36. The coins are transported in a state where a surface on one side in the axial direction is in contact with the passage surface 37 of the lifting guide passage 36.
[0023]
Here, the rotating disk 30 and the first lifting and lowering conveying unit 35 of the coin supply device 21 are inclined as described above in order to improve the space efficiency in the longitudinal direction of the aircraft, and the aircraft of the transaction unit 12 at the upper part of the aircraft. In order to convey coins well to the coin sorting and conveying unit 33 arranged close to the rear side, and to improve the space efficiency in the longitudinal direction of the machine body due to the arrangement of the rotary disk 30 and the first lifting height conveying unit 35 It is.
[0024]
The coin sorting / conveying unit 33 is configured to press the coin against the passage surface 41 of the coin guide passage 42 and the coin guide passage 42 that guides the coin received in the posture with the axis line arranged on the passage surface 41 vertically. A coin transport section 43 that moves coins along the coin guide passage 42, and the coin transport section 43 has a plurality of specifically endless transport belts (transport means) 44 to 47. Yes.
[0025]
Here, two or more coin guide passages 42 along the same direction, specifically, two first straight portions (straight portion, one straight portion) 48 and second straight portions (straight portion, another straight portion) 49 and The first straight portion 48 and the second straight portion 49 that are adjacent to each other are connected to a connecting straight portion 50 that is connected to the rear side of the airframe that is the same side in the extending direction, and extends from the front side of the airframe to the rear side of the airframe. However, after shifting the position in the left-right direction of the machine, it is shaped to be turned 180 ° to the front of the machine.
[0026]
The conveyor belt 44 extends along the first linear portion 48 and conveys coins by the guide of the first linear portion 48, and the conveyor belt 45 extends along the connecting linear portion 50. Coins transported by the transport belt 44 are received and transported by the guide of the connecting linear portion 50. The conveyor belt 46 extends along the second linear portion 49, receives coins conveyed by the conveyor belt 45, and conveys the coins with the guidance of the second linear portion 49. The conveyor belt 47 extends along the second linear portion 49, receives coins conveyed by the conveyor belt 46, and conveys it with the guidance of the second linear portion 49. That is, the coin sorting / conveying unit 33 performs a 90 ° turn by the belt delivery method twice, and is inserted into the transaction unit 12 provided at the front of the machine body and separated from the coin supply device 21 one by one. The coins that have been fed out are transported along the first straight portion 48 as the forward path from the front side of the aircraft to the rear side of the aircraft, and after shifting the position in the left direction of the aircraft, as a return path from the rear side of the aircraft to the front side of the aircraft It is conveyed along the second straight line portion 49.
[0027]
The coin guide passage 42 has a discriminator (discriminator) for discriminating coins on the coin guide passage 42 in the uppermost stream portion of the first straight portion 48 that is closest to the first elevation transport unit 35 (front side of the machine body). Means) 54 is provided. The discriminating unit 54 can discriminate all the coins that constitute a part of the passage surface 41 of the coin guide passage 42 and pass through the upper side thereof, discriminate the true / false, correctness, denomination, etc. of the coins, and Count by denomination.
[0028]
In the first straight line portion 48, the first denomination sorting is performed on the rear side of the machine body of the discrimination section 54, and the denomination of some of the denominations handled based on the discrimination result of the discrimination section 54 is selected. Portion (first denomination sorting means) 55 is provided, and the first denomination sorting unit 55 sorts coins that have been confirmed to be deposited, drops them from the coin guide passage 42, and withdraws the coins disposed below. The coins are stored in corresponding ones of the coin storage cylinders (coin storage units) 58a to 58f of each denomination arranged in series in the storage and feeding unit 57. The withdrawal storage and feeding unit 57 includes all denominations of coin storage cylinders 58a to 58f arranged in series, accepts coins from the upper part of these coin storage cylinders 58a to 58f and accumulates them in the vertical direction, and is provided at the lower part. The required withdrawal type 59 feeds out the necessary number of coins one by one.
[0029]
The first denomination sorting unit 55 includes three sorting units 61a, 61b, and 61c arranged in series in the extending direction of the first straight portion 48, that is, the longitudinal direction of the machine body, and the sorting unit on the most front side of the machine body. 61a is a coin storage cylinder 58a to 58f of each denomination arranged in series in the longitudinal direction of the machine body, the second coin storage cylinder 58a from the machine body front side, and the second sorting section 61b from the machine body side from the machine body front side. In the fourth coin storage cylinder 58b, the third sorting unit 61c from the front side of the machine body drops and stores the coins in the sixth coin storage cylinder 58c from the front side of the machine body.
[0030]
Based on the determination result of the determination unit 54, the target coin is dropped from the coin guide passage 42 on the first straight line portion 48 on the rear side of the machine body, which is downstream of the first denomination selecting unit 55, and removed. A sorting unit (exclusion means) 61g is provided. The sorting unit 61g sorts reject coins other than the deposit reject coins returned at the time of deposit processing, coins to be collected at the time of collection processing, and the like, and drops them from the coin guide passage 42.
[0031]
A reject / recovery distribution unit 62 that distributes coins dropped by the selection unit 61g is provided below the selection unit 61g and on the rear side of the body of the coin storage cylinders 58a to 58f. Under the reject / collection distribution unit 62, a loaded RJ box unit 63 for storing reject coins during the loading process, a collection RJ box unit 64 for storing reject coins during the collecting process, and a forgotten coin are stored. A reject box 66 in which the forgetting collection box portion 65 is arranged in series in the longitudinal direction of the machine body is provided, and the lower side of the reject box 66 is attached to and detached from the machine body 10 for storing coins during loading processing and collection processing. A possible coin cassette 67 is provided. Here, the reject box 66 is attachable to and detachable from the machine body 10 and is not allowed to pay out coins.
[0032]
The coin cassette 67 has a rotary disk 69 constituting the bottom thereof, a payout opening 70 provided in the lower part on the front side of the machine body, and a receiving port provided in the upper part for receiving coins distributed by the reject / collection distribution unit 62. 71, an open / close gate 72 that is electrically driven to open and close the payout opening 70, and an open / close gate 73 that is mechanically driven to open and close the receiving port 71. Here, the open / close gate 73 for opening and closing the receiving port 71 is automatically opened in conjunction with the loading operation when the coin cassette 67 is loaded into the machine body 10, and in conjunction with the take-out operation when the coin cassette 67 is removed from the machine body 10. Close automatically. The coin cassette 67 can be paid out from the payout opening 70 to the front of the machine body by the rotation of the rotary disk 69 with the open / close gate 72 opened. The coin cassette 67 is provided with an open / close door with a key (not shown) that is opened and closed when the coin is taken in and out in the state of being taken out of the machine body.
[0033]
The reject / collection distribution unit 62 selectively applies the coins dropped from the coin guide passage 42 by the sorting unit 61g to the loading RJ box unit 63, the collection RJ box unit 64, the forgetting collection box unit 65, and the coin cassette 67. Sort out. The reject / collection distribution unit 62 is located below the sorting unit 61g and guides the coins dropped from the coin guide passage 42 by the sorting unit 61g, and the coins guided by the sorting chute 75. There are distributing portions 76A to 76C that can be opened / closed by being electrically driven.
[0034]
Specifically, the sorting unit 76A is in the open state and is closed in the reject box 66, and the coins 67 are sorted into the coin cassette 67, and the sorting unit 76A is in the open state and the sorting unit 76B is in the open state. Thus, the reject coin at the time of the loading process is guided to the loading RJ box section 63, and the collection process is performed when the sorting unit 76A is in the open state, the sorting unit 76B is in the closed state, and the sorting unit 76C is in the open state. Reject coins at the time are guided to the recovery RJ box 64, the sorting unit 76A is in the open state, and both the sorting unit 76B and the sorting unit 76C are in the closed state. Guide to 65.
[0035]
And on the rear side of the machine body of the sorting part 61g, the above-mentioned connecting straight part 50 as a direction changing part for changing the coin conveyance direction by 90 ° extends in the left-right direction of the machine body, Further, the above-described second straight portion 49 as a direction changing portion for changing the coin conveyance direction by 90 ° extends in the longitudinal direction of the machine body.
[0036]
The second straight line portion 49 has a second denomination sorting unit (a second denomination sorting unit) that performs denomination sorting of the remaining denominations of all denominations handled based on the discrimination result of the discrimination unit 54 on the rear side of the machine body. (Second denomination sorting means) 78 is provided, and the second denomination sorting unit 78 also sorts coins whose deposit has been confirmed, drops them from the coin guide passage 42, and in series via a chute (not shown). The coins are stored in the corresponding coin storage cylinders 58a to 58f.
[0037]
Specifically, the second denomination sorting unit 78 has three sorting units 61d, 61e, and 61f arranged in series in the extending direction of the second straight line portion 49, that is, in the longitudinal direction of the machine body. The rear sorting section 61d is the second sorting from the rear of the fuselage to the fifth coin storage barrel 58d from the front of the fuselage among the coin storage cylinders 58a to 58f of each denomination arranged in series in the longitudinal direction of the fuselage. The part 61e drops and stores coins in the third coin storage cylinder 58e from the front side of the machine body, and the third sorting part 61f from the rear side of the machine body stores the coins in the first coin storage cylinder 58f from the front side of the machine body.
[0038]
In the second straight line portion 49, the coins conveyed without the denomination selection by the first denomination selection unit 55 and the second denomination selection unit 78 on the front side of the machine body, which is the downstream side of the second denomination selection unit 78. A sorting part (receiving means) 61h for sorting and dropping and receiving from the coin guide passage 42 is provided. The sorting unit 61h sorts and drops the coins determined to be true by the discriminating unit 54 during the depositing process to temporarily store the coins until the deposit is confirmed, Overflow coins that can no longer be stored in any of the coin storage cylinders 58a to 58f are selected and dropped from the coin guide passage 42.
[0039]
Here, on the lower side of the sorting unit 61h and below the coin storage cylinders 58a to 58f, a temporary storage transport unit 80 is provided to temporarily store coins. An overflow box 81 that is not attachable to and detachable from the machine body 10 that stores overflow coins is provided on the front side of the machine body 80 and below the coin supply device 21.
[0040]
A deposit distribution unit 83 that selectively distributes the coins dropped from the coin guide passage 42 by the sorting unit 61h to the temporary storage conveyance unit 80 and the overflow box 81 is provided below the sorting unit 61h. The deposit distribution unit 83 is provided below the sorting unit 61h and guides the coins that are dropped from the coin guide passage 42 by the sorting unit 61h, and the coins guided by the sorting chute 84. And an oscillating distribution portion 85 that is electrically driven to selectively distribute the temporary storage and conveyance portion 80 and the overflow box 81.
[0041]
The overflow box 81 is electrically connected to a receiving port 86 for receiving coins from the sorting chute 84, a rotary disk 87 constituting the bottom of the overflow box 81, a discharge port 88 provided at the lower part on the rear side of the machine body, An open / close gate 89 that is driven to open and close the payout opening 88 is provided, and coins can be paid out from the payout opening 88 to the rear of the machine body by the rotation of the rotary disk 87 with the open / close gate 89 open. Yes. It is also possible to add overflow coins to the overflow box 81 and store them in the coin cassette 67.
[0042]
The sorting portions 61a to 61h are passage open / close gates 92a to 92h that are electrically driven with the drop holes 91a to 91h formed in the passage surface 41 of the coin guide passage 42 to open and close the drop holes 91a to 91h, respectively. It consists of and. In addition, a coin passage sensor (not shown in FIG. 1) that detects coins to be sorted by the sorting units 61a to 61h is provided at a position immediately upstream of each sorting unit 61a to 61h in the transport direction.
[0043]
And the terminal part by the side of the machine body front side of the 2nd straight part 49 is connected in transaction part 12, and throws in a deposit reject coin etc. which were not made to fall by any of sorting part 61a-61h into dealing part 12. .
[0044]
The temporary storage and conveyance unit 80 includes an endless first storage and conveyance belt 95 that horizontally extends in the longitudinal direction of the machine body on the rear side of the overflow box 81 and an endless that horizontally extends in the longitudinal direction of the machine body on the front side of the coin cassette 67. The second storage and transport belt 96 and the first storage and transport belt 95 and 96 place coins on the upper surface thereof, and the placed coins in the longitudinal direction of the machine body. Transport to. As shown in FIGS. 2 and 3, the first storage and transport belt 95 and the second storage and transport belt 96 are displaced in the left-right direction of the machine body, and the first storage and transport belt 95 is the second storage and transport belt. It is arranged above 96.
[0045]
The first storage / conveyance belt 95 places coins paid out from the payout outlet 88 of the overflow box 81 and places the coins before the deposit confirmation distributed by the deposit distribution unit 83 for temporary storage. Then, the placed coin is moved to the rear side of the machine body, guided by the guide unit 97, and transferred onto the horizontal part 96A of the second storage and transport belt 96. The second storage and transport belt 96 places the coins from the first storage and transport belt 95 and the loading coins paid out from the payout port 70 of the coin cassette 67 in the horizontally disposed horizontal portion 96A. Let Further, the horizontal portion 96 </ b> A of the second storage and conveyance belt 96 places the coins for withdrawal paid out from the withdrawal storage and feeding portion 57.
[0046]
The coins transported to the front side of the machine body by the horizontal part 96A of the second storage and transport belt 96 are transported to the receiving space 22 of the upper coin supply device 21 at the front side of the body from the horizontal part 96A of the second storage and transport belt 96. A second lifting height conveying unit 98 is provided. The second lifting height conveying unit 98 is opposed to the inclined part 96B of the second storage and conveying belt 96 that is inclined so as to be positioned on the front side of the machine body at the upper part downstream from the horizontal part 96A. A lifting height conveyor belt 99 is provided, and these hold the coins, convey them obliquely upward so that the upper part is located on the front side of the machine body, and convey it to the receiving space 22 of the coin supply device 21. The inclined portion 96 </ b> B of the second storage and conveyance belt 96 and the lift and conveyance belt 99 are inclined at an acute angle with respect to the vertical. As shown in FIGS. 2 and 3, the lifting height conveying belt 99 is driven by the motor 101 which is a common driving source together with the first storing and conveying belt 95, and the second storing and conveying belt 96 is raised. The high belt is brought into contact with the belt 99.
[0047]
A power supply unit 100 that is connected to an external power source and supplies power to each unit is provided below the temporary storage conveyance unit 80.
[0048]
Next, the overall operation of the coin depositing and dispensing machine configured as described above will be described for each process.
[0049]
"Loading process"
At the start of business, a loading process for supplying coins into the coin depositing and dispensing machine is performed. The operator opens a door (not shown) of the coin cassette 67 (not shown) outside the machine body 10, inserts coins into the coin cassette 67, and closes the door with the key. Of course, in the coin cassette 67, the payout port 70 and the receiving port 71 which are openings other than the lockable open / close door are closed by open / close gates 72 and 73. In this way, the coin cassette 67 filled with coins is loaded into a predetermined loading position in the machine body 10. By this loading, the open / close gate 73 on the upper side of the coin cassette 67 is mechanically driven to be in an open state, the receiving port 71 is opened, and coins from the reject / collection distribution unit 62 can be received.
[0050]
When the operator performs an operation for starting the loading process (pressing operation of a start switch (not shown)), the control unit (not shown) rotates the open / close gate 72 below the coin cassette 67 and the coin cassette 67. A drive signal is outputted to each drive source (not shown) of the disk 69 to open the opening / closing gate 72 to open the payout opening 70 and to drive the rotating disk 69. At the same time, the control unit includes the first storage and conveyance belt 95, the second storage and conveyance belt 96 of the temporary storage and conveyance unit 80, the lifting and conveying belt 99 of the second lifting and conveying unit 98, the rotary disk 30 of the coin supply device 21, A drive signal is output to each drive source of the lifting height conveying belt 38 of the first lifting height conveying unit 35 and the conveying belts 44 to 46 of the coin sorting and conveying unit 33 to drive them.
[0051]
Thereby, the coins in the coin cassette 67 are thrown out from the payout opening 70 to the horizontal portion 96A of the second storage and conveyance belt 96 by the rotation of the rotary disk 69, and sent to the front side of the machine body by the horizontal portion 96A. It is lifted and transported by the inclined portion 96 </ b> B of the second storage transport belt 96 and the lift transport belt 99 constituting the lift transport section 98, and put into the receiving space 22 of the coin supply device 21. Then, the coins are separated one by one by the rotating disk 30 of the coin supply device 21, and are lifted and conveyed by the lifting / lowering conveying belt 38 of the first lifting / lowering conveying unit 35, and sent to the first linear portion 48 of the coin sorting and conveying unit 33. Then, the coins are conveyed in a state arranged in series by the coin sorting and conveying unit 33. First, during the conveyance of the coin driven by the conveyor belt 44 and guided by the first linear portion 48, the determination unit 54 determines the denomination and correctness in the case of true / false, and further, for each denomination. Counted. Based on the determination result, the control unit transfers the coins to the sorting units 61a, 61b, 61c and the sorting unit 61g of the first denomination sorting unit 55 provided in the first straight part 48, and the second straight part 49. In the second denomination sorting section 78 provided, the sorting sections 61d, 61e, 61f and the sorting section 61h are sorted and dropped at corresponding locations.
[0052]
Specifically, for a genuine coin that is not defaced in denomination to be stored in the coin storage cylinder 58a, the coin is sorted during the transport by the first linear portion 48 by driving the transport belt 44. The solenoid of the passage opening / closing gate 92a of the sorting unit 61a (not shown in FIG. 1) is driven based on the timing detected by the coin passage sensor (not shown in FIG. 1) immediately before the position of the sorting unit 61a. It is dropped into the hole 91a and stored in the coin storage cylinder 58a. Similarly, the true true coin of the denomination to be stored in the coin storage cylinder 58b is the true positive coin of the denomination to be stored in the coin storage cylinder 58b and the coin storage cylinder 58c by the opening operation of the sorting unit 61b. The sorting unit 61c is opened to store the coins in the coin storage cylinder 58c. Moreover, about the true genuine coin of the denomination to be accommodated in the coin storage cylinder 58d, the 180 ° conveyance direction is changed by reaching the second straight part 49 from the first straight part 48 via the connecting straight part 50. After the conversion, during the conveyance at the second linear portion 49 by the driving of the conveyance belt 46, the sorting unit 61d is opened and stored in the coin storage cylinder 58d. Similarly, the true true coin of the denomination to be stored in the coin storage cylinder 58e is the true positive coin of the denomination to be stored in the coin storage cylinder 58e and the coin storage cylinder 58f by the opening operation of the sorting unit 61e. The sorting unit 61f is opened to accommodate the coin storage cylinder 58f.
[0053]
On the other hand, when it is detected by a sensor (not shown) that at least one of the coin storage cylinders 58a to 58f is full, the control unit sorts out the true genuine coins of the full denomination. The sections 61a to 61f allow these to pass through without being sorted, and the sorting section 61h opens the sorting and dropping to the deposit distribution section 83, and the overflow box 81 is controlled by controlling the sorting section 85 of the deposit distribution section 83. To guide and store.
[0054]
On the other hand, the discriminating unit 54a, 61b, 61c of the first denomination sorting unit 55 does not sort the fake coins that are discriminated as false by the discriminating unit 54 and the coins that are discriminated as true and dirty coins. Let these pass. Then, the control unit opens the sorting unit 61g for the corresponding coins, sorts and drops them to the reject / recovery sorting unit 62, and controls the sorting units 76A and 76B to load the reject box 66 RJ. The box part 63 is guided and stored.
[0055]
As described above, when all the coins inserted into the coin cassette 67 are drawn out and stored in any one of the coin storage cylinders 58a to 58f, the overflow box 81, and the loading RJ box unit 63, the control unit Outputs a stop signal to each drive source. As a result, the opening 70 is closed by the open / close gate 72, and the rotating disk 69, the second storage and conveying belt 96, the lifting and lowering conveying belt 99, the rotating disk 30, the raising and lowering conveying belt 38, and the conveying belts 44 to 46 are stopped. .
[0056]
"Deposit processing"
When the operator performs an operation for starting a deposit process (depressing a deposit operation switch (not shown)), a control unit (not shown) sends a signal to the shutter 14 of the transaction unit 12 so as to open only the upper shutter 14A. Then, the upper shutter 14A is opened to wait for the operator to put coins onto the coin tray 15 through the coin insertion hole 16 of the lower shutter 14B. Thereafter, when a coin is thrown onto the coin tray 15 and an operation for starting counting (such as pressing a start switch not shown) is performed by the operator, the control unit closes the upper shutter 14A, and the coin supply device 21. A drive signal is output so as to drive the respective driving sources of the rotary disk 30, the lifting and lowering conveying belt 38 and the conveying belts 44 to 46 of the coin sorting and conveying unit 33, and these are driven.
[0057]
Next, the control unit issues a signal to open the bottom plate 18 of the coin tray 15 to open the bottom plate 18. Thereby, the coins thrown into the coin tray 15 are dropped into the coin receiving unit 23 of the coin supply device 21 provided below. When a sufficient time has elapsed for all the coins put into the coin receiving tray 15 to be dropped into the coin receiving portion 23, the control section issues a signal to close the bottom plate 18 of the coin receiving tray 15, Close. Thereafter, the transaction unit 12 having the coin tray 15 prepares for receipt of the deposit reject coin as a return port of the deposit reject coin.
[0058]
On the other hand, the coins dropped in the coin receiving part 23 are guided in a shape in which the lower part of the coin receiving part 23 is narrowed. As a result, the coins are separated one by one by the rotating disk 30 rotating in an inclined state. It is fed out to the lifting / conveying unit 35 and conveyed to the first linear portion 48 of the coin sorting / conveying unit 33 by the lifting / conveying belt 38 of the first lifting / conveying unit 35.
[0059]
The coins fed into the first straight portion 48 are placed on the passage surface 41 in a posture in which the axial direction is orthogonal to the passage surface 41, and the first straight portion 48 is conveyed from the front of the machine body to the rear by the conveying belt 44. The Then, during conveyance, first, the determination unit 54 determines the denomination, authenticity, correctness, etc. and counts for each denomination. The determination result is temporarily stored in a storage means such as a RAM.
[0060]
Coins that are determined to be true by the determination unit 54 are transported from the front of the machine body to the rear by driving the transport belt 44 and guiding the first straight part 48, and the sorting units 61a to 61c and the sorting of the first denomination sorting unit 55. Passing through the passage opening / closing gates 92a to 92c and the passage opening / closing gate 92g of the portion 61g, the conveyance belt 45 is driven and guided to the side of the machine body by the guide of the connecting linear portion 50. While being transported forward from the rear of the machine by the guide of the straight line portion 49, it passes through the closed passage opening / closing gates 92d to 92f of the sorting units 61d to 61f of the second denomination sorting unit 78, and is sorted and dropped by the sorting unit 61h. Be made. In the sorting unit 61h, when a coin determined to be true is conveyed, a coin passage sensor (not shown in FIG. 1) provided immediately before the passage opening / closing gate 92h detects this, and based on this. When the solenoid (not shown in FIG. 1) is driven, the passage opening / closing gate 92h is opened and the corresponding coin is dropped from the drop hole 91h. Here, the distribution unit 85 of the deposit distribution unit 83 below the selection unit 61 h is controlled so that coins are guided onto the first storage and conveyance belt 95. As a result, the coins that have been conveyed and are determined to be true are guided onto the first storage and conveyance belt 95 and temporarily stored on the first storage and conveyance belt 95.
[0061]
On the other hand, coins that are not determined to be true by the determination unit 54 are sorted while being transported by driving the transport belts 44 to 47 and guiding the first straight portion 48, the connecting straight portion 50, and the second straight portion 49. All of the parts 61a to 61h pass through and are conveyed from the end of the second straight part 49 into the coin tray 15 of the transaction part 12.
[0062]
In this way, when all coins input for depositing are transported to one of the first storage transport belt 95 and the coin tray 15, the upper shutter 14A and the lower shutter 14B are opened, and the deposit is rejected. In addition to returning the coins, the operator is urged to confirm the deposit amount and the subsequent processing, that is, confirm whether the deposit is confirmed, additional counting is performed, or the operation is stopped. At this time, when the reject coin in the coin tray 15 is removed, the upper shutter 14A and the lower shutter 14B are automatically closed.
[0063]
When the operator selects the additional count, the control unit sends a signal to open the upper shutter 14A of the transaction unit 12 again, opens the upper shutter 14A, and the operator transfers the coin to the coin of the lower shutter 14B. It waits to be input into the transaction unit 12 through the input hole 16. After that, when a coin is inserted and an operation for starting counting (such as pressing a start switch not shown) is performed by the operator, the control unit performs the upper shutter 14A, the rotary disk 30 of the coin supply device 21, and the first one. A drive signal is output so as to drive the driving sources of the lifting height conveying belt 38 of the lifting height conveying path 35 and the conveying belts 44 to 46 of the coin sorting and conveying section 33, the upper shutter 14A is closed, the rotary disk 30, The high conveyor belt 38 and the conveyor belts 44 to 46 are driven. Thereafter, discrimination, counting, and the like are performed in the same manner as described above, and when all the inserted coins are conveyed to either the first storage conveyance belt 95 or the coin tray 15, the upper shutter 14A and the lower shutter 14B are opened. In addition to returning the deposit reject coin, the operator is urged to confirm the deposit amount and the subsequent processing, that is, confirm whether the deposit is confirmed, additional counting is performed, or the operation is stopped.
[0064]
"Storage"
When the operator selects the deposit confirmation, the control unit controls the first storage and conveyance belt 95, the second storage and conveyance belt 96 that is reversely rotated in synchronization with the first storage and conveyance belt 96, and the lift and conveyance belt of the second lift and conveyance unit 98. 99, drive signals are output so as to drive the respective driving sources of the rotary disk 30 of the coin supply device 21, the lift conveyor belt 38 of the first lifting conveyor 35 and the conveyor belts 44 to 46 of the coin sorting conveyor 33. To drive them.
[0065]
Then, the coins temporarily stored on the first storage / conveyance belt 95 are used as deposit-confirmed coins by the second storage / conveyance belt 96, the lifting / conveying belt 38, the rotary disk 30 and the lifting / conveying belt 99, and the coin sorting / conveying unit. It is conveyed to 33. The coins conveyed to the coin sorting and conveying unit 33 are conveyed from the front of the machine body to the rear by driving the conveying belt 44 and guiding the first linear part 48, and in the middle of the determination, the determination unit 54 again determines the denomination and true value. False, damage, etc. are determined. And based on this discrimination | determination result, each coin is moved from the front of the machine body at the first straight portion 48 by the conveyor belts 44 to 46, moved laterally at the connecting straight portion 50, and the second straight portion. 49, the sorting units 61a, 61b, 61c and the sorting unit 61g of the first denomination sorting unit 55, and the sorting unit 61d of the second denomination sorting unit 78, which are arranged in order on the route from the rear of the machine body to the front at 49. 61e, 61f and the sorting unit 61h are sorted and dropped by one of them.
[0066]
Specifically, in the case of a true denomination of a denomination stored in any of the sorting units 61a to 61f, the sorting units 61a to 61f pass the passage when coins determined to be true are respectively conveyed. A coin passage sensor (not shown in FIG. 1) provided immediately before the corresponding one of the open / close gates 92a to 92f detects this, and based on this, a solenoid (not shown in FIG. 1) is driven, The corresponding one of the passage opening / closing gates 92a to 92f is opened. Then, the conveyed coins are respectively stored from the corresponding ones of the drop holes 91a to 91f to the corresponding one of the coin storage cylinders 58a to 58f.
[0067]
At this time, if any of the coin storage cylinders 58a to 58f becomes full, the control unit sorts and drops the corresponding coins thereafter by the sorting unit 61h, and the sorting unit of the deposit sorting unit 83 By controlling 85, it is stored in the overflow box 81. That is, the corresponding coin passes through the closed passage opening / closing gates 92a to 92g in the sorting units 61a to 61g, and is sorted in the corresponding sorting unit 61h. In the sorting unit 61h, when a corresponding coin is conveyed, a coin passage sensor (not shown in FIG. 1) provided immediately before the passage opening / closing gate 92h detects this, and based on this, a solenoid (shown in FIG. 1) is detected. Is driven, the passage opening / closing gate 92h is opened and the corresponding coin is dropped from the drop hole 91h. Then, the corresponding coins in which the corresponding ones of the coin storage cylinders 58 a to 58 f are filled are stored in the overflow box 81 by the distribution unit 85 of the deposit distribution unit 83.
[0068]
On the other hand, the fouling coins that are determined to be fouled by the discriminating unit 54 pass through the sorting units 61a to 61c of the first denomination sorting unit 55 and then dropped by the sorting unit 61g. That is, in the sorting unit 61g, when the corresponding genuinely soiled coin is conveyed, a coin passage sensor (not shown in FIG. 1) provided immediately before the passage opening / closing gate 92g detects this, and based on this. By driving a solenoid (not shown in FIG. 1), the passage opening / closing gate 92g is opened and the corresponding coin is dropped from the drop hole 91g. Further, the sorting units 76A to 76C of the reject / collection sorting unit 62 are controlled so that the coins are guided into the collection RJ box unit 64, and the corresponding coins that have been conveyed are collected into the collection RJ box unit. 64.
[0069]
As described above, all the deposit-determined coins temporarily stored on the first storage / conveying belt 95 are fed out and stored in any of the coin storage cylinders 58a to 58f, the overflow box 81 and the recovery RJ box part 64. Then, a control part outputs a stop signal to each drive source, and stops a drive. Thereby, the 1st storage conveyance belt 95, the 2nd storage conveyance belt 96, the raising conveyance belt 99, the rotary disk 30, the elevation conveyance belt 38, and the conveyance belts 44-46 are stopped, and a storage process is complete | finished. After the storage process is completed, the open / close plate 25 of the coin receiving unit 23 is opened and closed, and the remaining foreign matter is dropped from the foreign matter removing port 24 to the foreign matter collecting unit 27.
[0070]
"Return processing"
On the other hand, when the operator selects not to confirm the deposit but to cancel the deposit, the control unit lifts the first storage and conveyance belt 95, the second storage and conveyance belt 96, and the lift and conveyance belt of the second lift and conveyance unit 98. 99, drive signals are output to the drive sources of the rotary disk 30 of the coin supply device 21, the lift transport belt 38 of the first lift transport section 35, and the transport belts 44 to 46 of the coin sorting transport section 33. Drive. Then, the coins that have been temporarily stored on the first storage and conveyance belt 95 before the deposit confirmation are selected through the second storage and conveyance belt 96, the lifting and lowering conveyance belt 99, the rotary disk 30, and the elevation and conveyance belt 38. It is conveyed to the first straight part 48 of the conveyance unit 33. The coins transported to the first straight part 48 are guided and transported by the first straight part 48 by driving the transport belt 44, and are transported while being discriminated and counted by the discriminating part 54 for confirmation. The belt 45 is driven and conveyed by the connecting linear portion 50, and is further guided and conveyed by the second linear portion 49 by the conveyance belts 46 and 47, and is conveyed into the coin tray 15 of the transaction unit 12. . In this way, when all the coins that have been temporarily stored on the first storage and conveyance belt 95 are paid out and transferred into the coin tray 15, the control unit outputs a stop signal to each drive source. To stop driving. Thus, the first storage and conveyance belt 95, the second storage and conveyance belt 96, the lifting and conveying belt 99 of the second lifting and conveying section 98, the rotary disk 30 of the coin feeder 21, and the lifting and lowering of the first lifting and conveying section 35 are performed. The high conveying belt 38 and the conveying belts 44 to 46 of the coin sorting and conveying unit 33 are stopped. Thereafter, the control unit outputs a signal to open the upper shutter 14A and the lower shutter 14B to open them, and returns the deposited coin to the operator. When the operator confirms that all the coins in the coin tray 15 have been removed, the control unit outputs a signal to close the upper shutter 14A and the lower shutter 14B, and sets these to the closed state. End the return process.
[0071]
"Withdrawal processing"
When the operator performs an operation for withdrawing coins (input of the withdrawal amount, pressing of the start switch, etc.), the control unit lifts and conveys the second storage and conveyance belt 96 and the second lifting and conveying unit 98. A drive signal is output to each drive source of the belt 99, the rotary disk 30 of the coin supply device 21, the lifting height conveying belt 38 of the first lifting height conveying portion 35, and the conveying belts 44 to 46 of the coin sorting and conveying portion 33. Drive. Then, the withdrawal unit 59 is controlled to feed out the necessary number of coins of the required denomination from the coin storage cylinders 58a to 58f. The coins fed onto the second storage and transport belt 96 by the withdrawal and feeding section 59 are transported forward by the horizontal portion 96A of the second storage and transport belt 96, and the inclined portion 96B and the lift height of the second storage and transport belt 96 are increased. The conveyor belt 99 is lifted and conveyed to the coin receiving unit 23 of the coin supply device 21. The coins fed to the coin receiving unit 23 are fed one by one to the first lifting / conveying unit 35 by the rotation of the rotary disk 30 and directed toward the first straight portion 48 of the coin sorting / conveying unit 33 by the lifting / conveying belt 38. Are transported. The withdrawal coins sent to the first straight part 48 are transported by the transport belt 44 and the first straight part 48, and in the middle of the determination, the determination part 54 performs determination and counting, and is further transported downstream. . According to the determination result of the determination unit 54, the withdrawal coin passes through all the sorting units 61a to 61h and is provided at the end of the second straight line portion 49 in the case of a genuine denomination required for withdrawal. It is sent to the coin tray 15 of the transaction unit 12.
[0072]
On the other hand, in the case of a dirty coin, it is collected by the sorting unit 61g. In other words, the coins that have been determined to be dirty coins by the determination unit 54 pass through the selection units 61a to 61c of the first denomination selection unit 55 and are conveyed to the selection unit 61g. In the sorting unit 61g, when a corresponding coin is conveyed, a coin passage sensor (not shown in FIG. 1) provided immediately before the passage opening / closing gate 92g detects this, and based on this detection, a solenoid (FIG. 1) is detected. Is driven), the passage opening / closing gate 92g is opened. In the reject / collection distribution unit 62, the distribution units 76 </ b> A to 76 </ b> C are controlled such that coins are guided into the collection RJ box unit 64. By doing so, the corresponding coins that have been conveyed are stored from the sorting unit 61g into the collection RJ box unit 64.
[0073]
In addition, when a fouling coin is detected and rejected into the collection RJ box 64, the rejected coin is again withdrawn by controlling the dispensing / feeding unit 59.
[0074]
Thus, when all the coins fed out for withdrawal are transported to either the coin tray 15 or the collection RJ box unit 64, the control unit outputs a stop signal to each drive source, The 2nd storage conveyance belt 96, the lift conveyance belt 99, the rotary disk 30, the elevation conveyance belt 38, and the conveyance belts 44-46 are stopped. Thereafter, the control unit outputs a signal to open both the upper shutter 14A and the lower shutter 14B, opens them, and waits for the operator to remove the dispensing coins in the coin tray 15.
[0075]
When the operator confirms that all the coins in the coin tray 15 have been removed by a residual sensor (not shown), the control unit outputs a signal to close the upper shutter 14A and the lower shutter 14B, These are closed and the depositing operation is completed.
[0076]
If the coin in the coin tray 15 is not removed even after a certain period of time has elapsed, the control unit determines that it has been forgotten, closes the upper shutter 14A and the lower shutter 14B, and collects them in the forgetting collection box unit 65. Start work. Similar to the depositing process, the collection operation starts by opening the bottom plate 18 of the coin tray 15 and dropping the forgotten coins left in the coin tray 15 onto the coin feeder 21, and the rotating disk of the coin feeder 21. 30, It conveys toward the coin selection conveyance part 33 via the lifting height conveyance belt 38, and collect | recovers in the selection part 61g. That is, when a coin to be forgotten is conveyed, the sorting unit 61g detects the coin passage sensor (not shown in FIG. 1) provided immediately before the passage opening / closing gate 92g, and based on the detection result. By driving a solenoid (not shown in FIG. 1), the passage opening / closing gate 92g is opened, so that coins are guided into the forgetting collection box unit 65 through the sorting unit 76A in the reject / collection sorting unit 62. To control. By doing so, the forgotten coins that have been conveyed are stored from the sorting unit 61g into the forgetting collection box unit 65.
[0077]
"Replenishment"
When any of the stored coins in the coin storage cylinders 58a to 58f becomes less than the prescribed number during the withdrawal process, the insufficient coins are replenished from the overflow box 81 after the withdrawal process is completed.
[0078]
In this case, the control unit reads the data of the coins stored in the overflow box 81 in advance, and confirms that the coin of the target denomination is stored in the overflow box 81 before starting the processing. .
[0079]
When it is confirmed that the coin of the target denomination is stored in the overflow box 81, the control unit performs the first storage and conveyance belt 95, the second storage and conveyance belt 96 synchronized with the first storage and conveyance belt 96, and the second lifting height conveyance. Drive signals to the drive sources of the lifting and lowering conveyor belt 99 of the section 98, the rotary disk 30 of the coin feeder 21, the lifting and lowering conveyor belt 38 of the first lifting and lowering transport section 35, and the transport belts 44 to 46 of the coin sorting and transporting section 33. Are output to drive them.
[0080]
At the same time, the control unit outputs a drive signal to a drive source that drives the rotary disk 87 in the overflow box 81 and a drive source that drives the open / close gate 89 to rotate the rotary disk 87 and open the open / close gate 89.
[0081]
Coins thrown out of the overflow box 81 due to the rotation of the rotary disk 87 are conveyed to the second storage and conveyance belt 96 via the first storage and conveyance belt 95, and the front portion of the machine body by the horizontal portion 96 </ b> A of the second storage and conveyance belt 96. And is lifted and conveyed to the coin receiving unit 23 of the coin supply device 21 by the inclined portion 96 </ b> B of the second storage and conveying belt 96 and the lifting and conveying belt 99. Then, the coins fed into the coin receiving unit 23 are fed one by one to the first lifting / conveying unit 35 by the rotation of the rotary disk 30, and the first straight portion 48 of the coin sorting / conveying unit 33 by the lifting / conveying belt 38. It is conveyed toward. When the coins are fed into the first straight part 48, they are transported by the transport belt 44 and the first straight part 48. First, the discriminating part 54 discriminates the denomination, true / false, etc. Then, based on the determination result, the coin of the target denomination is transported to a corresponding one of the coin storage cylinders 58a to 58f of the target denomination and is replenished. At this time, coins other than the target denomination are returned from the sorting unit 61h into the overflow box 81 via the sorting unit 85 of the depositing sorting unit 83. In this way, the coin storage cylinders 58a to 58f that are less than or equal to the prescribed number are full, or are scheduled to be replenished (the number automatically set based on the number in the overflow box 81). Or the second predetermined number (a predetermined number greater than the predetermined number for which replenishment has been determined) has been confirmed, the control unit determines that the rotating disk 87 and the open / close gate 89 in the overflow box 81 A stop signal is output to each drive source for driving the rotary disc 87, the rotation of the rotary disk 87 is stopped, and the open / close gate 89 is closed. Then, after a predetermined time has elapsed (after sufficient time has passed for the coins released onto the first storage and conveyance belt 95 to be returned to the overflow box 81 again), the first storage and conveyance belt 95 and the second storage and conveyance A stop signal is also output to the drive sources of the belt 96, the lift conveying belt 99, the rotary disk 30, the lift conveying belt 38, and the conveying belts 44 to 46 to stop them.
[0082]
During this replenishment operation, coins other than the target denomination that have become the prescribed number or less may be replenished at the same time until each of the coin storage cylinders 58a to 58f is full.
[0083]
On the other hand, when it is not confirmed that the coin of the target denomination is stored in the overflow box 81, the control unit outputs a signal of a coin shortage error, stops the apparatus, and displays a display screen (not shown). Etc. is displayed to prompt the manager to replenish the missing coins.
[0084]
"Scrutinize"
When performing an inspection process for reconfirming the number of coins existing in the coin depositing / dispensing machine, when the operator performs an operation for starting the inspection process (pressing a start switch, etc.), the control unit first starts the coin cassette 67. It is confirmed by detection of a residual sensor (not shown) that the inside is empty.
[0085]
Here, when a coin is confirmed in the coin cassette 67, the above-described loading operation is performed to empty the coin cassette 67. This is because the coins in the coin cassette 67 are not recognized by the machine side.
[0086]
On the other hand, when it is confirmed that the coin cassette 67 is empty, the first storage and conveyance belt 95, the second storage and conveyance belt 96, the lifting and conveying belt 99, the rotary disk 30, the lifting and conveying belt 38, and the conveying belt 44 are stored. A drive signal is output to each of the drive sources ˜46 to drive them, and a solenoid (not shown in FIG. 1) is controlled to open the passage opening / closing gate 92g of the sorting unit 61g.
[0087]
Thereafter, a withdrawal command for all the stored coins of all denominations is issued to the withdrawal portion 59, and the coins for withdrawal stored in all the coin storage cylinders 58a to 58f are placed on the second storage transport belt 96. Let it go out. Then, the coins fed out onto the second storage and transport belt 96 are passed through the second storage and transport belt 96, the lifting and lowering transport belt 99, the rotary disk 30, and the lifting and lowering transport belt 38, and the first sorting and transporting section 33 receives the first coins. It is conveyed to the straight part 48. The coins transported to the first straight portion 48 are transported by the first straight portion 48 by driving the transport belt 44, and the denomination, authenticity, correctness, etc. are discriminated by the discriminating portion 54 and for each denomination. Counted. Then, it is further conveyed downstream, passes through the sorting sections 61a to 61c of the first denomination sorting section 55, and is dropped to the reject / collection sorting section 62 by the passage opening / closing gate 92g opened in the sorting section 61g. It is led into the coin cassette 67 by the sorting unit 76A provided in the reject / collection sorting unit 62.
[0088]
When all the coins in all the coin storage cylinders 58a to 58f are moved into the coin cassette 67 in this way, the control unit stops the withdrawal command of the withdrawal unit 59, and then in the overflow box 81. In order to move the coins into the coin cassette 67, a drive signal is output to each drive source that drives the rotary disk 87 and the open / close gate 89 in the overflow box 81, and the rotary disk 87 is rotated to open the open / close gate 89. . Then, the coins in the overflow box 81 are used in the same manner as the coins in the coin storage cylinders 58a to 58f, the first storage and transport belt 95, the second storage and transport belt 96, the lifting and lowering transport belt 99, the rotary disk 30, and the lifting and lowering transport belt. The paper is conveyed to the coin sorting and conveying unit 33 by 38 and stored in the coin cassette 67 while being discriminated and counted by the discriminating unit 54.
[0089]
When all the coins in the overflow box 81 are transferred into the coin cassette 67 in this way, the control unit stops at the drive source for driving the rotary disk 87 in the overflow box 81 and the drive source for driving the open / close gate 89. A signal is output, the rotation of the rotary disk 87 is stopped, and the open / close gate 89 is closed.
[0090]
As described above, when all the coins in the coin storage cylinders 58a to 58f and the overflow box 81 are stored in the coin cassette 67, the control unit starts the above-described loading process. When the loading process is completed, information on the coins in the coin depositing / dispensing machine (the number of coins for each denomination for each storage location, etc.) is determined, and the examination process is terminated.
[0091]
"Recovery processing"
When all the coins other than the reject box 66 in the coin depositing / dispensing machine are to be collected outside the machine 10 at the end of work, etc., when the operator performs an operation for starting a collecting operation (such as pressing a start switch), the control unit First, it is confirmed by a residual sensor or the like that the inside of the coin cassette 67 is empty. Here, when a coin is confirmed in the coin cassette 67, the above-described loading operation is performed to empty the coin cassette 67. This is because the coins in the coin cassette 67 are coins that are not fixed on the machine side.
[0092]
When it is confirmed that the coin cassette 67 is empty, the drive signal is sent to the drive sources of the second storage and transport belt 96, the lift transport belt 99, the rotary disk 30, the lift transport belt 38 and the transport belts 44 to 46. Are driven, and a solenoid (not shown in FIG. 1) is controlled so as to open the passage opening / closing gate 92g of the sorting portion 61g.
[0093]
Thereafter, a withdrawal command for all the denominated coins of all denominations is issued to the dispensing unit 59, and the coins stored in all the coin storage cylinders 58a to 58f are fed out onto the second storage and transport belt 96. Make it. Then, the coins for withdrawal fed on the second storage and conveyance belt 96 are passed through the second storage and conveyance belt 96, the lifting and lowering conveyance belt 99, the rotary disk 30, and the elevation and conveyance belt 38, and then the coin sorting and conveying unit 33. The first straight portion 48 is conveyed. The coins transported to the first straight part 48 are counted by the determination part 54 for residual detection while being transported to the rear of the machine body by driving the transport belt 44 and guiding the first straight part 48. Then, after passing through the sorting sections 61a to 61c of the first denomination sorting section 55 and coming to the sorting section 61g, it is dropped into the reject / collection sorting section 62 by the passage opening / closing gate 92g opened in the sorting section 61g. Then, it is led into the coin cassette 67 by the sorting unit 76A provided in the reject / collection sorting unit 62.
[0094]
When all the coins in all the coin storage cylinders 58a to 58f are moved into the coin cassette 67 in this way, the control unit stops the withdrawal command of the withdrawal unit 59, and then in the overflow box 81. In order to move the coins into the coin cassette 67, a drive signal is output to the drive sources that respectively drive the rotary disk 87 and the open / close gate 89 in the overflow box 81, the rotary disk 87 is rotated, and the open / close gate 89 is opened. . Similarly, the coins in the overflow box 81 are transferred to the coin sorting and conveying unit via the first storage and conveyance belt 95, the second storage and conveyance belt 96, the lifting and conveying belt 99, the rotary disk 30, and the lifting and conveying belt 38. Then, it is stored in the coin cassette 67 while being counted by the determination unit 54.
[0095]
When all the coins in the overflow box 81 are transferred into the coin cassette 67 in this way, the control unit stops the rotary disk 87 in the overflow box 81, closes the open / close gate 89, and further, the first storage and conveyance. The operation of each drive source of the belt 95, the second storage and conveyance belt 96, the lifting and lowering conveying belt 99, the rotary disk 30, the lifting and lowering conveying belt 38, and the conveying belts 44 to 46 is stopped, and the collecting operation is finished.
[0096]
Thereafter, the coin cassette 67 is removed from the machine body 10 by the operator, and the coins stored therein are taken out and collected by opening the upper lock door.
[0097]
Next, the coin supply device 21 will be further described with reference mainly to FIGS. 4 and 5.
[0098]
As described above, the coin supply device 21 includes the rotary disk 30 that is inclined and serves as a wall part of the receiving space 22 that receives the coins of the coin receiving part 23 (not shown in FIGS. 4 and 5), and the rotary disk. Similarly to this, the first lifting and lowering conveying unit 35 disposed on the upper side of the motor 30, the motor 105 serving as a driving source for forward and reverse rotation of the rotating disk 30, and the driving force of the motor 105 are transmitted to the rotating disk 30. And a rotational driving force transmission mechanism 106. Here, the rotary disk 30 is tilted so that its axis is located on the lower side in the plane along the longitudinal direction of the aircraft and in the vertical direction, and the angle of the axis with respect to the horizontal direction forms an acute angle. . In addition, the clockwise direction of the rotating disk 30 as viewed from the front is a forward rotation that is the rotation direction when coins are paid out, and the counterclockwise direction is a reverse rotation.
[0099]
The first lifting height conveying portion 35 has a passage surface 37 disposed on the same plane with respect to the receiving space 22 side and the outer diameter side supporting surface 31 of the rotary disk 30 and extends upward. A pair of left and right lifting conveyor belts 38 that are provided on the front side of the machine body of the lifting guide passage 36 and convey coins upward while pressing against the passage surface 37 of the lifting guide passage 36; And a lifting height driving force transmission mechanism 108 that transmits the driving force of the motor 107 to the pair of lifting height conveyor belts 38. Here, the elevation guide passage 36 and the elevation conveying belt 38 are along the vertical direction when viewed from the front of the machine body.
[0100]
The rotating disk 30 rotates around a rotating shaft 110 provided on the center axis, and the motor 105 that drives the rotating disk 30 is on the back side of the rotating disk 30, that is, on the opposite side to the receiving space 22. Is arranged. Here, because of the installation space, the rotary shaft 110 of the rotary disk 30 is not directly driven by the motor 105 but the rotary shaft 110 is driven via the endless drive belt 111 of the rotary drive force transmission mechanism 106. ing.
[0101]
On the front side of the rotary disk 30, that is, on the receiving space 22 side, a support disk 113 having a smaller diameter than the rotary disk 30 is coaxially overlapped and integrated by fastening screws 114. The support disk 113 has a thin plate portion 115 on the outer diameter side and a thick plate portion 116 whose center is slightly increased in the receiving space 22 side. In addition, the thickness of the thin plate portion 115 on the outer diameter side is set to be slightly thinner than the thickness of the thinnest coin (one-yen coin) to be handled. The outer peripheral surface on the outer diameter side of the support disk 113 is a support outer diameter portion 117 that supports the outer peripheral surface on the outer diameter side of the coin that contacts the support surface 31 of the rotary disk 30.
[0102]
In addition, on the receiving space 22 side of the thin plate portion 115 of the support disk 113, a plurality of conical projections 118 cut out on the apex side are provided in close proximity to the thick plate portion 116 side, specifically, three locations. Yes. These protrusions 118 have the same distance from the central axis of the support disk 113 and are arranged at equal intervals in the rotation direction of the support disk 113. Here, the projection 118 is formed with a storage hole 119 on the central axis side, and the screw 114 for fixing the support disk 113 to the rotary disk 30 is stored in the storage hole 119.
[0103]
As described above, the center of the receiving space 22 side of the rotating disk 30 is covered with the support disk 113, so that only the outer diameter side of the support disk 113 is exposed to the receiving space 22 side. It becomes the support surface 31 for supporting a coin. As a result, the support surface 31 has an annular shape. A plurality of support protrusions 121 for supporting coins on the support surface 31 are formed on the support surface 31, specifically, eight places. These support protrusions 121 are equal in distance from the central axis of the rotary disk 30 and are arranged at equal intervals in the rotational direction of the rotary disk 30.
[0104]
Here, each of the support protrusions 121 is disposed close to the first protrusion 122 having a cylindrical surface 122A rising from the support surface 31 and the rear side of the first protrusion 122 when the rotary disk 30 is rotated forward. The second protrusion 123 has a conical surface 123 </ b> A that rises from the support surface 31. In addition, the 1st projection part 122 and the 2nd projection part 123 are about half the thickness of the thinnest coin (one-yen coin) to handle together.
[0105]
Here, the rotary disk 30 is provided in the arrangement hole 125 of the base part 124 arranged around the rotation disk 30, and the inner diameter side of the arrangement hole 125 is from the support surface 31 along the outer peripheral part of the rotation disk 30. The cylindrical support inner diameter portion 126 protrudes one step toward the receiving space 22 side.
[0106]
Then, when the rotating disk 30 is rotated forward, the coins in the receiving space 22 are guided to move toward the rotating disk 30 in the shape of the lower part of the coin receiving portion 23, and the rotation of the rotating disk 30. When the posture is changed by the turning movement of the support protrusion 121 and the support protrusion 31 comes into contact with the support surface 31 of the rotary disk 30, the lower protrusion moves to the first protrusion 122 of the support protrusion 121 moving from below. At the same time as it is supported, it is supported by the support inner diameter portion 126 and turns and rises with the forward rotation of the rotary disk 30 (clockwise rotation in FIG. 4) while being in contact with the support surface 31. And if it moves to the upper half side of the rotary disk 30, it will be in the state supported by the support outer-diameter part 117 of the support disk 113 with its own weight, with the support protrusion part 121 and the support surface 31 supporting, and will further rotate.
[0107]
Here, the protrusion 118 provided on the support disk 113 contacts the coin and changes its posture when the rotary disk 30 rotates, and as a result, the coin is prevented from staying. In addition, the screws 114 are housed inside the protrusions 118 to prevent the heads of the screws 114 from being caught on coins.
[0108]
Further, the support protrusion 121 reliably supports the coin from the lower side by the first protrusion 122 on the front side in the forward rotation having the cylindrical surface 122A rising from the support surface 31, while The second protrusion 123 is unnecessary in order to prevent a coin from being supported further on the coin supported by the first protrusion 122 on the downstream side during forward rotation. A small coin is placed and separated from the support surface 31 and dropped. Accordingly, the coins are moved one by one with a certain interval at the first protrusion 122.
[0109]
The coin supply device 21 includes a stopper member 130 that extends substantially horizontally from the base part 124 outside the rotating disk 30 to the downstream side during forward rotation from the top position of the support outer diameter part 117 in the upper half of the rotating disk 30. , A delivery part 132 having a screw 131 for fixing the stopper member 130 to the base part 124 is provided. The stopper member 130 is disposed in a state where a minute gap is provided between the stopper member 130 and the rotating disk 30.
[0110]
The stopper member 130 of the delivery part 132 is supported by the support surface 31 of the rotary disk 30, the first protrusion 122 of the support protrusion 121, and the support outer diameter part 117 of the support disk 113 as described above. Coin that is swung by the first protrusion 122 of the support protrusion 121 by forward rotation is received from the lower side at the time of forward rotation from the top position of the support outer diameter part 117 and moved by further rotation of the rotating disk 30. The coins pushed out by the first protrusions 122 are supported by the support surface 31 and guided to the outer diameter side of the rotary disk 30 in the lateral direction and delivered to the first lifting height conveying unit 35.
[0111]
That is, the stopper member 130 of the delivery unit 132 moves the coins pushed out by the first protrusion 122 by the turning of the first protrusion 122, and moves the coin from the turning movement to the outer diameter side of the rotary disk 30. That is, it is replaced with a forced insertion movement between the lifting guide passage 36 of the first lifting height conveying section 35 and the lower portion of the lifting height conveying belt 38. Then, the coin is lifted and transported by the lift guide passage 36 and the lift transport belt 38 of the first lift transport section 35. Here, the stopper member 130 receives the coin pivoted by the first projection 122 of the support projection 121 at the horizontally extending upper edge 130A, and the upper edge 130A as it is on the outer diameter side of the rotating disk 30. To guide.
[0112]
The gap between the stopper member 130 and the support surface 31 of the rotating disk 30 is narrower than the thickness of the thinnest coin to be handled (one-yen coin) so that the coin can be reliably received and guided laterally. The size is such that the first protrusion 122 and the second protrusion 123 of the protrusion 121 can pass therethrough. Specifically, the gap is about 3/4 of the thickness of the thinnest coin (one-yen coin) to be handled.
[0113]
An inclined surface 134 is formed on the downstream side of the stopper member 130 at the time of forward rotation of the rotating disk 30, that is, on the opposite side to the first lifting height conveying portion 35, on the opposite side to the rotating disk 30. The inclined surface 134 is inclined so that the height from the support surface 31 decreases toward the downstream side during forward rotation.
[0114]
Here, the rotating disk 30 may be rotated in reverse to eliminate clogging of coins, change the posture of the remaining coins, and the like. At the time of such reverse rotation, the rotating projection 30 on the front side in the rotation direction is the first. The two protrusions 123 have a tapered surface shape that rises from the support surface 31, and the inclined surface 134 that inclines away from the support surface 31 is also formed on the stopper member 130. It will be easily placed on either the portion 123 or the stopper member 130, and will be easily separated from the support surface 31. As a result, the coin falls without being bitten by the second protrusion 123 and the stopper member 130 or forcibly entering the gap between the stopper member 130 and the rotating disk 30. Such reverse rotation is executed when, for example, a coin passage sensor (not shown) detects that no coin has been fed out for several seconds during the feeding of the coin by the rotary disk 30.
[0115]
In the upper half of the rotating disk 30, the coin supply device 21 presses the coin on the support surface 31 from the outer diameter side of the rotating disk 30 upstream of the top position of the supporting outer diameter portion 117 when the rotating disk 30 rotates forward. A pressing portion 136 is provided. The pressing portion 136 is provided at a position that is opposite to the left and right with respect to the delivery portion 132 when the rotating disk 30 is used as a reference.
[0116]
The pressing portion 136 includes a rotating shaft 138 provided in parallel with the axis of the rotating disk 30 on the outer side upstream of the top position of the support outer diameter portion 117 when the rotating disk 30 is rotated forward, and the rotating shaft 138. And a regulating member 139 that is rotatably supported. The regulating member 139 has a linear regulating surface 140 formed at the tip on the rotating disk 30 side, and the linear regulating surface 140 is in a retracted state along the tangential direction in the outer diameter portion of the rotating disk 30; It slightly protrudes toward the center side of the rotating disk 30 and forms an acute angle with respect to the tangential direction, and rotates between a protruding state inclined so that the front side of the rotating disk 30 in the forward rotation is close to the center side of the rotating disk 30. . And it is urged | biased by the torsion spring which is provided in the rotating shaft 138 in the direction used as a protrusion state.
[0117]
For example, the coin is in a state where the coefficient of friction with the support surface 31 is large for some reason, and is separated from the first protrusion 122 of the support protrusion 121 and is supported by the support surface 31 of the rotating disk 30 and the support disk 113. Even if the pivoting movement may occur while being supported only by the outer diameter portion 117, the pressing portion 136 presses the coin with the urging force of the torsion spring on the regulating surface 140 of the regulating member 139, and as a result, The first protrusion 122 is brought into contact with the first protrusion 122. For this reason, coins are sent to the delivery unit 132 in an orderly manner with a certain interval between them. In addition, about the coin contact | abutted to the 1st projection part 122, the control member 139 resists against the urging | biasing force of a torsion spring, and accepts passage of a coin.
[0118]
The lifting guide passage 36 of the first lifting height conveying unit 35 is disposed so as to extend upward in the radial direction of the rotating disk 30 and above the delivery unit 132, and is the same as the support surface 31 of the rotating disk 30. It has a concave cross-sectional shape in which a straight passage surface 37 arranged on a plane is sandwiched between wall portions 142 on both sides in the left-right direction of the machine body rising from the passage surface 37.
[0119]
A pair of right and left lifting conveyor belts 38 are arranged so as to face the passage surface 37 in parallel. Here, the upper end portions of the pair of left and right lifting and conveying belts 38 extend to the upper side of the upper end portion of the passage surface 37. Further, the lower end portions of the pair of left and right lifting and lowering conveyor belts 38 are close to the delivery unit 132 and can be contacted with the coins that are guided by the stopper member 130 of the delivery unit 132 and move in the lateral direction as described above. ing. As a result, the coins moved laterally from the support surface 31 of the rotary disk 30 to the passage surface 37 of the lifting guide passage 36 are lifted along the passage surface 37 while the pair of lift conveying belts 38 press against the passage surface 37. Transport.
[0120]
On the upper side of the upper end of the passage surface 37, a pair of left and right conveying rollers 144 are disposed. Further, the conveying rollers 144 partially overlap with the conveying rollers 144 and extend from the conveying rollers 144 to the rear of the machine body. An endless transport belt 145 is disposed between the transport rollers 144. The coins lifted and transported by the pair of lift transport belts 38 are received by the transport rollers 144 and the transport belt 145 on the upper side of the passage surface 37 of the lift guide passage 36 inclined at an angle close to the vertical, and the received coins are received. Is moved in the shape of an arc by rotation of the rotation, and the posture is brought close to the horizontal, and is transferred onto the coin guide passage 42 extending horizontally of the coin sorting and conveying unit 33. Here, on the upper side of the transport roller 144 and the transport belt 145, endless upper transport for transporting the coins transferred from the pair of lift transport belts 38 while being sandwiched between the transport roller 144 and the transport belt 145. A belt 147 is provided. The conveyor belt 145 and the upper conveyor belt 147 serve as a coin outlet 148 for ejecting coins onto the passage surface 41 of the coin guide passage 42 of the coin sorting / conveying section 33 on the rear side of the machine body, that is, on the downstream side.
[0121]
The pair of lifting and lowering conveying belts 38, the conveying rollers 144, the conveying belt 145 and the upper conveying belt 147 are driven by the driving force of one motor 107 by the lifting height driving force transmission mechanism 108.
[0122]
The lift driving force transmission mechanism 108 will be described.
On the back side of the lifting guide passage 36, that is, on the rear side of the machine body, a drive shaft 150 is arranged in a direction parallel to the passage surface 37 and perpendicular to the coin conveying direction by the lifting guide path 36, that is, in the lateral direction of the machine body. Is supported at a fixed position on a frame (not shown), and a drive gear 151 is fixed to the drive shaft 150 of the motor 107. A support shaft 153 is provided at a fixed position parallel to the drive shaft 150 on the lift guide passage 36 side of the drive gear 151 and on the downstream side in the coin conveyance direction of the lift guide passage 36. An intermediate driven gear 154 that meshes with the drive gear 151 and a pulley 155 disposed below the passage surface 37 are fixed.
[0123]
Further, a support shaft 157 is provided in a fixed position parallel to the support shaft 153 on the opposite side of the intermediate driven gear 154 to the lifting guide passage 36 and on the downstream side in the coin transport direction in the lifting guide passage 36. A driven gear 158 and a pulley 159 that mesh with the intermediate driven gear 154 are fixed to the support shaft 157.
[0124]
Further, a support shaft 161 is provided in a fixed position parallel to the support shaft 157 on the lift guide passage 36 side of the driven gear 158 and on the downstream side in the coin conveyance direction of the lift guide passage 36. The conveyance roller 144 and the pulley 162 described above are fixed to each other. In addition, a support shaft 164 is provided in a fixed position in parallel with the support shaft 161 on the slightly upper side of the transport roller 144 and the pulley 162 and on the rear side of the machine body. The pulley 165 is fixed to the support shaft 164. ing.
[0125]
The pulley 155, the pulley 162, and the pulley 165 are hung on the conveyor belt 145. As a result, when the driving gear 151 and the intermediate driven gear 154 are rotated by the driving force of the motor 107, the same as the intermediate driven gear 154 is obtained. A pulley 155 fixed to the support shaft 153 rotates, and a conveyor belt 145 that is hooked on one side thereof, a pulley 162 and a pulley 165 that are hooked on the other side of the conveyor belt 145, and a conveyor roller 144 that is coaxial with the pulley 162 rotate. To do. Here, the conveyor belt 145 protrudes on the passage surface 37 of the lifting guide passage 36 between the pulley 155 and the pulley 162.
[0126]
On the other hand, in the vicinity of the upper and lower end positions of the passage surface 37, the pair of support shafts 168 and 169 extend in a direction parallel to the passage surface 37 and perpendicular to the coin conveying direction by the lifting guide passage 36, that is, in the left-right direction of the machine body. The pulley 171 is supported by the support shaft 168 so as to be separated from the left and right, and the pulley 172 is supported by the support shaft 169 so as to be separated from the left and right. One lifting height conveying belt 38 is hung between the upper and lower left pulleys 171, 172, and the other lifting height conveying belt 38 is hung between the upper and lower right pulleys 171, 172. In addition, the height from the passage surface 37 of the pulleys 171 and 172 is set so that the coins can be pressed against the passage surface 37 of the lifting guide passage 36 by the lifting height conveying belt 38 and conveyed.
[0127]
Further, a support shaft 174 is provided on the upper side of the upper support shaft 169 and on the rear side of the machine body in a fixed position in parallel therewith. The frame 175 rotatably supported by the support shaft 174 includes a support shaft. A support shaft 176 is provided in parallel with the support shaft 174 at a position below the 174 and on the rear side of the machine body.
[0128]
A pulley 177 is supported on the support shaft 169 between the pulleys 172. The pulley 178 is aligned with the pulley 177 in the axial direction, and the pulley 178 is supported on the support shaft 176. It is supported. The above-mentioned upper conveyor belt 147 is hung on these three pulleys 177 to 179. Further, another pulley 181 is supported on the support shaft 169, and an endless transmission belt 182 is hung on the pulley 181 and the pulley 159. The support shafts 169 and 176 are set to have a height such that the upper conveyance belt 147 can convey a coin while holding the coin between the conveyance roller 144 and the conveyance belt 145.
[0129]
When the motor 107 is driven, the drive gear 151 rotates and the intermediate driven gear 154 rotates. Then, a pulley 155 fixed to the same support shaft 153 as the intermediate driven gear 154 rotates, and a conveyor belt 145 with one side hung on this, and a pulley 162 and a pulley 165 with this conveyor belt 145 hung on the other side, The transport roller 144 fixed to the same support shaft 161 as the pulley 162 rotates in the same direction. Here, the rotation direction of the motor 107 is a direction in which a portion protruding from the lifting guide passage 36 of the conveyor belt 145 and the upper portion of the conveyor roller 144 are moved in the coin conveying direction. Specifically, the conveyor belt 145, This is the direction in which the pulley 155, the transport roller 144, the pulley 162, and the pulley 165 are rotated in the counterclockwise direction in FIG.
[0130]
Further, the driven gear 158 that meshes with the intermediate driven gear 154 by the drive of the same motor 107 is reversed in the rotation direction, and the pulley 159 fixed to the same support shaft 157 as the driven gear 158, the transmission hung on one side thereof The belt 182 and the pulley 181 around which the transmission belt 182 is hung are rotated. Then, the three pulleys 172 and 177 fixed to the same support shaft 169 as the pulley 181 rotate, and a pair of lifting height conveying belts 38, one of which is hung on the pulleys 172 on both sides, and these lifting height conveying belts. The pulley 171 with the other side hung on the belt 38 rotates, and the upper conveying belt 147 with one side hung on the central pulley 177 and the pulleys 178 and 179 with the other side hung on the upper conveying belt 147 rotate. Here, since the rotation direction is reversed with respect to the intermediate driven gear 154, the side facing the lifting guide passage 36 of the lifting height transport belt 38 and the side facing the transport belt 145 of the upper transport belt 147 are coins. Move in the transport direction.
[0131]
As described above, when the coins sent in the lateral direction from the delivery unit 132 enter between the lifting height conveying belt 38 and the lifting height guide passage 36, the first lifting height conveying portion 35 receives the coins. While being pushed against the passage surface 37 of the lift guide passage 36, the lift is moved by a frictional force and transferred between the lower conveyance roller 144 and the conveyance belt 145 and the upper conveyance belt 147, and the conveyance roller 144 and the conveyance belt 145. The upper conveyor belt 147 sandwiches the coins and delivers them to the downstream coin sorting and conveying unit 33.
[0132]
According to the coin supply device 21 described above, when the rotating disk 30 that is inclined and that constitutes the wall portion is rotated forward in a state where the coin is received in the receiving space 22, the receiving disk 22 on the receiving space 22 side of the rotating disk 30. The coin on the support surface 31 is pressed and rotated by the first protrusion 122 while being supported by the support surface 31 of the rotary disk 30, the first protrusion 122 of the support protrusion 121, and the support outer diameter part 117 of the support disk 113. I will let you. And after the delivery part 132 receives the coin which is pushed by the 1st projection part 122 and turns by the downstream from the top position of the support outer diameter part 117 from the lower side, it is further pushed out by the 1st projection part 122. The coin is guided to the outer diameter side of the rotary disk 30 while being supported together with the support surface 31. Then, the coins guided to the outer diameter side of the rotary disk 30 in this way are delivered to the first lifting height conveying unit 35. As described above, the coins are not fed out to the first lifting / lowering conveying unit 35 by the centrifugal force of the rotating disk 30 inclined, but one coin at a time at the first protrusion 122 of the rotating disk 30 inclined. The first protrusion 122, the outer diameter support part 117, and the support surface 31 move the coin to the delivery part 132 while supporting the coin, and the support surface 31 and the delivery part 132 support the first protrusion part. Since the coins are extruded at 122 and delivered to the first lifting / lowering conveyance unit 35, the coins can be reliably delivered from the rotary disk 30 to the first lifting / lowering conveyance unit 35. Then, the coins conveyed obliquely upward by the first lifting height conveying unit 35 are guided to the above-described coin guide passage 42. Therefore, by arranging the rotary disk 30 and the first lifting height conveying unit 35 in an inclined manner, it is possible to reduce the size of the machine body in the extending direction of the first straight portion 48 of the coin guide passage 42 together with the coin supply device 21. In addition, the coins can be reliably delivered from the rotary disk 30 to the first lifting height conveying unit 35.
[0133]
In addition, when the rotary disk 30 is rotated forward in order to convey coins to the delivery unit 132, the first protrusion 122 provided on the front side of the support protrusion 121 at the time of forward rotation rotates the coin on the cylindrical surface 122A rising from the support surface 31. It can be reliably supported and conveyed to the delivery unit 132. On the other hand, for example, when the rotating disk 30 is reversely rotated to change the posture of a coin that is difficult to be transported by the rotating disk 30 in the receiving space 22, the second protrusion provided on the front side of the supporting protrusion 121 at the time of reverse rotation. The coin 123 is separated from the support surface 31 by the conical surface 123 </ b> A where the portion 123 rises from the support surface 31, and cannot be supported by the first protrusion 122. Therefore, it is possible to prevent a jam or the like caused by the coin being supported and conveyed by the first protrusion 122 during the reverse rotation.
[0134]
Further, since the pressing portion 136 presses the coin on the support surface 31 from the outer diameter side of the rotary disk 30 upstream from the top position of the support outer diameter portion 117 during normal rotation, Coins other than the coins reliably supported by the one protrusion 122 and the support outer diameter portion 117 can be dropped from the rotary disk 30. Therefore, unstable coins other than the coins that are reliably supported by the support surface 31, the first projecting portion 122, and the support outer diameter portion 117 are not transported to the delivery unit 132, and such unstable coins. It is possible to prevent jams and the like caused by
[0135]
Next, the coin sorting and conveying unit 33 will be further described mainly with reference to FIGS. 1 and 6 to 8.
[0136]
As shown in FIG. 6, the coin guide passage 42 of the coin sorting and conveying unit 33 has a concave cross section having a horizontally disposed passage surface 41 and a pair of wall portions 201 that rise upward from the left and right sides of the passage surface 41. There is no. The passage surface 41 is disposed in the same horizontal plane over the entire length. Further, the interval between the pair of wall portions 201 is set to be narrower than twice the diameter of the smallest diameter coin (one-yen coin) so that the downstream coin cannot overtake the upstream coin.
[0137]
And as above-mentioned, the coin guide channel | path 42 makes the 1st straight part 48 and the 2nd straight part 49 which are mutually parallel, and these 1st straight line part 48 and the 2nd straight line part 49 are the same side of each extending direction. It is comprised with the connection linear part 50 connected on the aircraft rear side which is. The first straight portion 48 is along one side surface of the body 10, the second straight portion 49 is along the opposite side surface portion of the body 10, and the connecting straight portion 50 is along the rear surface of the body 10. Moreover, as shown in FIG. 1, as for the coin conveyance part 43 which conveys a coin along the coin guide channel | path 42, the part which contacts a coin and moves a coin is comprised by either of the conveyance belts 44-47. . Here, the boundary portion between the first straight portion 48 and the connecting straight portion 50 is a first bent portion 198 that changes the transport direction by 90 °, and the boundary portion between the connecting straight portion 50 and the second straight portion 49 is the transport direction. The second bent portion 199 changes the angle by 90 °.
[0138]
The transport belt 44 along the first straight portion 48 transports coins by the guidance of the first straight portion 48, and the transport belt 45 along the connecting straight portion 50 receives the coins transported by the transport belt 44. Therefore, the conveyance belt 46 along the second linear portion 49 receives the coins conveyed by the conveyance belt 45 and conveys it by the guidance of the second linear portion 49. Thus, the conveyor belt 47 along the second linear portion 49 receives the coins conveyed by the conveyor belt 46 and further conveys it with the guidance of the second linear portion 49. The transport belts 44 to 47 are respectively hung on the pair of transport pulleys (transport means) 202A to 202H arranged in parallel with the passage surface 41 of the coin guide passage 42 in the front-rear direction of transport. It has been. That is, the conveyor belt 44 is engaged with the conveyor pulleys 202A and 202B, the conveyor belt 45 is engaged with the conveyor pulleys 202C and 202D, the conveyor belt 46 with the conveyor pulleys 202E and 202F, and the conveyor belt 47 with the conveyor pulleys 202G and 202H. . Further, as shown in FIG. 7, a plurality of blades 209 provided at equal pitches in the circumferential direction to sweep out coins are provided on both sides in the axial direction on the conveyance pulley 202H on the downstream side of the most downstream conveyance belt 47. Is formed.
[0139]
As shown in FIG. 6, the first straight line portion 48 is provided with a determination portion 54 at the most upstream portion, and a selection portion for each denomination of the first denomination selection portion 55 on the downstream side of the determination portion 54. 61a, 61b, 61c are provided, and a sorting unit 61g is provided on the downstream side of the first denomination sorting unit 55.
[0140]
The discriminating unit 54 includes a first discriminating unit 203 including a material detection sensor for detecting the material of the coin immediately after being received from the first lifting height conveying unit 35 based on magnetic properties, and an image of the coin discriminated by the first discriminating unit 203. And a second discriminating unit 204 including an image detecting unit for detecting the first discriminating unit 203. The first discriminating unit 203 and the second discriminating unit 204 each constitute a part of the passage surface 41.
[0141]
The sorting unit 61a of the first denomination sorting unit 55 stores the coins sorted from the coin guide passage 42 in the coin storage cylinder 58a via the chute 205a shown in FIG. 7, and the sorting unit 61b Is stored in the coin storage cylinder 58b via the chute 205b, and the sorting unit 61c stores the selected coins in the coin storage cylinder 58c via the chute 205c. Each of the coin storage cylinders 58a to 58c stores coins of the corresponding denomination by being stacked up and down in a state where the axial direction is along the vertical direction.
[0142]
As shown in FIG. 6, in the connecting straight line portion 50 on the downstream side of the first straight line portion 48, no coin sorting or the like is performed, and only the coin transportation is performed.
[0143]
The second straight line portion 49 is provided with sorting units 61d, 61e, 61f for each denomination of the second denomination sorting unit 78 on the upstream side, and the sorting unit 61h on the downstream side of the second denomination sorting unit 78. Is provided.
[0144]
The sorting unit 61d of the second denomination sorting unit 78 stores the coins sorted from the coin guide passage 42 in the coin storage cylinder 58d via the chute 205d shown in FIG. 8, and the sorting unit 61e Is stored in the coin storage cylinder 58e via the chute 205e, and the sorting unit 61f stores the selected coins in the coin storage cylinder 58f via the chute 205f. Each of the coin storage cylinders 58d to 58f also stores coins of the corresponding denominations, which are stacked up and down in a state where the axial direction is along the vertical direction.
[0145]
As described above, the selection units 61 a to 61 f for each denomination are provided across the first linear portion 48 and the second linear portion 49.
[0146]
As shown in FIG. 6, the sorting unit 61a electrically opens and closes a drop hole 91a formed in the passage surface 41 of the coin guide passage 42, a passage opening / closing gate 92a capable of opening and closing the drop hole 91a, and the passage opening / closing gate 92a. Similarly, the sorting unit 61b includes a drop hole 91b, a passage opening / closing gate 92b, and a solenoid 206b, and the sorting unit 61c includes a drop hole 91c, a passage opening / closing gate 92c, and a solenoid 206c. The sorting part 61d is a drop hole 91d, a passage opening / closing gate 92d and a solenoid 206d, the sorting part 61e is a drop hole 91e, a passage opening / closing gate 92e and a solenoid 206e, and the sorting part 61f is a drop hole 91f, a passage opening / closing gate 92f and a solenoid. 206f, the sorting unit 61g has a drop hole 91g, a passage opening / closing gate 92g, and a solenoid 206g. Sorting portion 61h in the drop hole 91h and the passage opening and closing gate 92h and the solenoid 206h, it is constituted respectively.
[0147]
Each of these drop holes 91a to 91h is sized so that all coins can be dropped. Thereby, the coins of any denomination can be selected and dropped in the sorting units 61a to 61f by changing the setting. In accordance with this, the coin storage cylinders 58a to 58f can also store coins of all denominations.
[0148]
Here, the sorting unit has a sorting hole corresponding to the diameter of the coin, and the coin storage cylinders 58a to 58f used in the type of apparatus for dropping from the small-sized coin are used. As a result, for example, sorting is performed. The part 61a and the coin storage cylinder 58a are 10-yen coins, the sorting part 61b and the coin storage cylinder 58b are 5-yen coins, the sorting part 61c and the coin storage cylinder 58c are 1-yen coins, and the sorting part 61d and the coin storage cylinder 58d are The 50 yen coin, the sorting unit 61e and the coin storage cylinder 58e are set to sort and store the 100 yen coin, and the sorting unit 61f and the coin storage cylinder 58f are set to sort and store the 500 yen coin, respectively.
[0149]
A coin passing sensor 207a for detecting coins to be sorted by the sorting unit 61a is located immediately before the sorting unit 61a upstream in the conveying direction, that is, a position immediately before the sorting unit 61b in the conveying direction, that is, the sorting unit 61a. The coin passage sensor 207b that detects the coins to be sorted by the sorting unit 61b passes the coin that detects the coins to be sorted by the sorting unit 61c between the immediately preceding position upstream of the sorting unit 61c in the transport direction, that is, the sorting unit 61b. Between the position immediately upstream of the sorting unit 61g in the transport direction of the sorting unit 61g, that is, the sorting unit 61c, a coin passage sensor 207g that detects coins sorted by the sorting unit 61g is located upstream of the sorting unit 61d in the transport direction. Between the immediately preceding position, that is, the sorting unit 61g, a coin passage sensor 207d that detects coins to be sorted by the sorting unit 61d is located immediately before the sorting unit 61e on the upstream side in the transport direction. A coin passing sensor 207e for detecting coins to be sorted by the sorting unit 61e is disposed between the sorting unit 61d and the sorting unit 61f between the immediately preceding position upstream of the sorting unit 61f in the transport direction, that is, the sorting unit 61e. Between the coin passing sensor 207f for detecting the coins to be sorted at the upstream position in the transport direction upstream of the sorting unit 61h, that is, the sorting unit 61f, the coin passing sensor 207h for detecting the coins to be sorted by the sorting unit 61h, Each is provided on the passage surface 41. Further, a coin passage sensor 207 i that detects coins inserted into the transaction unit 12 from the second linear portion 49 is provided on the passage surface 41 on the downstream side of the sorting unit 61 h.
[0150]
The coin guide passage 42 that receives and conveys coins from the first lifting height conveying portion 35 is connected to the first lifting height conveying portion 35 when viewed from the direction orthogonal to the passage surface 41 of the coin guide passage 42, that is, from above. The first straight portion 48 on the connection side is collinear with the lift guide passage 36 of the first lift transport portion 35.
[0151]
According to the coin sorting / conveying unit 33 described above, the denomination sorting unit for all denominations for sorting coins by denomination is divided into a first denomination sorting unit 55 and a second denomination sorting unit 78. Since these are arranged across the two first linear portions 48 and the second linear portion 49, the first denomination is compared to the case where the denomination selecting portions for all denominations are arranged in series. The moving distance of coins that can be used for sorting by each denomination of the sorting unit 55 and the second denomination sorting unit 78 can be increased. That is, it is possible to increase the interval between adjacent sorting units 61a to 61f for each denomination. Therefore, even if all the coin storage cylinders 58a to 58f for each denomination are arranged in series, each of the sorting units 61a to 61f can reliably perform the denomination sorting, and the denomination sorting. Accuracy can be improved.
[0152]
Further, the coin sorting / conveying section 33 includes a discrimination section 54, a sorting section 61g for rejecting reject coins other than the deposit reject coin, a sorting section 61a to 61f for denomination sorting, and a sorting section 61a to 61f for denomination sorting. Even in the case of providing a sorting part 61h for receiving overflow coins and the like that are not sorted by denomination, the first straight part 48 and the second straight part 49 are disposed over the first straight part 48 and the second straight part 49. The length of the airframe 10 in the extending direction of the straight part 48 and the second straight part 49 can be shortened. Therefore, the body 10 can be downsized in the extending direction of the first straight portion 48 and the second straight portion 49.
[0153]
Furthermore, since the height of the coin guide passage 42 can be minimized by arranging the coin guide passage 42 in the same horizontal plane over the entire length, it is possible to prevent the machine body 10 from being enlarged in the height direction. Therefore, the body 10 can be downsized in the height direction.
[0154]
In addition, in the coin sorting / conveying unit 33 that performs discrimination and denomination sorting, all the parts that come into contact with the coin and move are constituted by the conveying belts 44 to 47, so that the conveying speed can be increased. Therefore, the processing capability can be improved. Moreover, since all of the conveyor belts 44 to 47 are hung on the pair of conveyor pulleys 202A to 202H having axes arranged parallel to the passage surface 41 of the coin guide passage 42, the conveyor belts 44 to Even if 47 receives a reaction force from a coin, it is difficult to come off from the transport pulleys 202A to 202H. Therefore, it is possible to prevent a problem that the conveyor belts 44 to 47 are disengaged from the conveyor pulleys 202A to 202H.
[0155]
Here, with the above-described configuration, the coin guide passage 42 is a folded shape including three first straight portions 48, a connecting straight portion 50, and a second straight portion 49 connected in series in a state where adjacent ones intersect each other. The three conveyor belts 44, 45, 46 for moving coins along the coin guide passage 42 are arranged in parallel to the passage surface 41 of the coin guide passage 42 and have a first straight line. The portion 48, the connecting straight portion 50 and the second straight portion 49 are hung on each pair of the three pairs of transport pulleys 202A to 202F arranged in pairs on the upstream side and the downstream side. become.
[0156]
Next, regarding a conveyance driving force transmission mechanism (driving force transmission means) 222 that drives the three conveyance belts 44, 45, 46 arranged in the above-described folded shape with the driving force of one motor (driving source) 221, This will be described below mainly with reference to FIGS. 1 and 7 to 11. The transport driving force transmission mechanism 222 drives the transport belt 47 by the same motor 221 in addition to the transport belts 44, 45, and 46.
[0157]
First, with reference to FIG. 1, FIG. 7, and FIG. 8, the arrangement of the transport pulleys 202A to 202H that support the transport belts 44 to 47 will be described.
[0158]
The transport pulley 202A that supports the upstream end of the transport belt 44 is disposed on the upstream side of the first determination unit 203 that is the starting point of the coin guide passage 42, and a support shaft 224 that rotatably supports the support pulley 224 is provided. A base member (not shown) is provided so that the height can be adjusted along the direction orthogonal to the first straight portion 48 and parallel to the passage surface 41. Further, the transport pulley 202B that supports the downstream end of the transport belt 44 is disposed in front of the connecting straight portion 50 of the first straight portion 48, and is a support that is parallel to the support shaft 224 and can be adjusted in height. The shaft 225 is rotatably supported.
[0159]
The conveying pulley 202C that supports the upstream side of the conveying belt 45 is disposed on the most first linear portion 48 side of the connecting linear portion 50, and the support shaft 226 that supports the rotating portion is orthogonal to the connecting linear portion 50. Along the direction and parallel to the passage surface 41, the height is adjustable. Further, the transport pulley 202D that supports the downstream side of the transport belt 45 is disposed closest to the second straight portion 49 of the connecting straight portion 50, and is parallel to the support shaft 226 and can be adjusted in height. Is supported rotatably.
[0160]
The conveyor pulley 202E that supports the upstream side of the conveyor belt 46 is disposed closest to the connecting linear part 50 side of the second linear part 49, and the support shaft 229 that supports the rotary part rotatably is orthogonal to the second linear part 49. It is provided so that the height can be adjusted along the direction to be parallel to the passage surface 41. Further, the conveying pulley 202F that supports the downstream side of the conveying belt 46 is disposed at a predetermined position on the opposite side to the connecting linear portion 50 of the second linear portion 49, and is parallel to the support shaft 229 and height-adjusted. It is rotatably supported by a support shaft 230 provided on a base member (not shown) so as to be possible.
[0161]
The transport pulley 202G that supports the upstream side of the transport belt 47 is integrated with the transport pulley 202F on the same support shaft 230, and the transport pulley 202H that supports the downstream side of the transport belt 47 is connected to the second linear portion 49. It is arranged in front of the deposit / withdrawal port 11 which is the end position opposite to the connecting straight line portion 50, that is, the end point of the coin guide passage 42, and is not shown so as to be parallel to the support shaft 230 and adjustable in height. It is rotatably supported by a support shaft 231 provided on the base member. Here, the transport pulleys 202F and 202G are arranged immediately after the most downstream side sorting unit 61h among the sorting units 61a to 61h.
[0162]
The conveyance driving force transmission mechanism 222 will be described mainly with reference to FIGS. The motor 221 has a first straight portion that is close to the connecting straight portion 50 side inside the first straight portion 48, the connecting straight portion 50, and the second straight portion 49 of the coin guide passage 42 having a folded shape. 48 and the second linear portion 49 are arranged at the center position. Moreover, the motor 221 has a posture in which the drive shaft 233 protrudes toward the connecting straight line portion 50 in a state along the direction orthogonal to the connecting straight line portion 50 and parallel to the passage surface 41 (that is, a state along the longitudinal direction of the machine body). It has become. In other words, the drive shaft 233 is disposed along the axis of the pair of transport pulleys 202C and 202D provided for the intermediate connecting straight portion 50. The motor 221 is supported by a base member (not shown).
[0163]
A first drive pulley 235, a second drive pulley 236, and a third drive pulley 237 are coaxially fixed to the drive shaft 233 in order from the tip side. The first drive pulley 235 and the second drive pulley 236 are integrally formed.
[0164]
A support shaft 239 perpendicular to the passage surface 41 is supported by a base member (not shown) on the right side of the machine body of the first drive pulley 235, that is, on the first linear portion 48 side. A pair of upper and lower first bending pulleys 240 are coaxially and rotatably supported. A support shaft 242 is provided on a base member (not shown) along the direction orthogonal to the first straight portion 48 and parallel to the passage surface 41 on the front side of the first bending pulley 240. An integral first driven pulley 243 and a first transmission pulley 244 are coaxially and rotatably supported on the shaft 242. The first drive pulley 235 and the first driven pulley 243 are hung on both sides of an endless first drive belt 245 whose intermediate portion is bent by a pair of upper and lower first bending pulleys 240. That is, the first drive belt 245 has a space between the first drive pulley 235 and the first bending pulley 240 along the left-right direction of the body, and a space between the first bending pulley 240 and the first driven pulley 243 along the front-rear direction of the body. Bend like so.
[0165]
The support shaft 242 supports the height adjustment member 246 so as to be able to swing. The height adjustment member 246 has a support shaft 242 and a lower side of the first transmission pulley 244 at a position on the machine body rear side and the lower side. A support shaft 225 that supports the transport pulley 202B described above is provided in parallel. A first intermediate pulley 248 integral with the conveying pulley 202B is supported on the support shaft 225 in a coaxial manner. The first transmission pulley 244 and the first intermediate pulley 248 have an endless first transmission belt 249. Is hung.
[0166]
As described above, when the first drive pulley 235 is rotated by the rotation of the drive shaft 233 of the motor 221, the first driven pulley 243 is rotated via the first drive belt 245, and the first transmission pulley 244 integrated therewith is The first intermediate pulley 248 rotates through the first transmission belt 249, and the conveyance pulley 202B integrated therewith rotates.
[0167]
That is, the driving force of the first driving pulley 235 is such that the intermediate portion is bent by the pair of first bending pulleys 240 so that the first driving pulley 235 and the first linear portion 48 on the upstream side are provided with the conveying pulley 202B. The first drive belt 245 hung on the first driven pulley 243 whose axis is disposed along the axis of the first transmission pulley 244 coaxially with the first driven pulley 243 and the upstream first linear portion 48 The conveyor belt 44 and the conveyor pulley 202A provided to the first linear portion 48 on the upstream side via the first transmission belt 249 hung on the first intermediate pulley 248 coaxial with the conveyor pulley 202B provided on the conveyor pulley 202B. Will be communicated.
[0168]
Here, when the first drive pulley 235 is rotated counterclockwise with respect to the motor 221, the first drive belt 245, the first driven pulley 243, the first transmission pulley 244, the first transmission belt 249, The first intermediate pulley 248, the transport pulley 202B, the transport belt 44, and the transport pulley 202A all rotate counterclockwise when viewed from the right side of the machine body, and move the passage surface 41 side of the transport belt 44 from the front of the machine body to the rear of the machine body. .
[0169]
Note that the lower limit of the swing of the height adjusting member 246 is restricted by the screwing amount of a screw member (not shown), and as a result, the height of the conveying pulley 202B of the support shaft 225 is adjusted. Here, the conveyance pulley 202B and the conveyance pulley 202A are adjusted by the height adjusting member 246 and the like so that the conveyance belt 44 can move the coin by the friction force generated between the conveyance belt 44 and the coin while pressing the coin against the passage surface 41. Adjust the height.
[0170]
A support shaft 252 perpendicular to the passage surface 41 is supported by a base member (not shown) on the left side of the machine body of the second drive pulley 236, that is, on the second linear portion 49 side. A pair of upper and lower second bending pulleys 253 are coaxially and rotatably supported. A support shaft 255 is provided on a base member (not shown) along the direction orthogonal to the second straight portion 49 and parallel to the passage surface 41 on the front side of the second bending pulley 253. An integral second driven pulley 256 and second transmission pulley 257 are coaxially supported on the shaft 255 so as to be rotatable. The second drive pulley 236 and the second driven pulley 256 are hung on both sides of an endless second drive belt 258 whose intermediate portion is bent by a pair of upper and lower second bending pulleys 253. That is, the second drive belt 258 has a space between the second drive pulley 236 and the second bend pulley 253 along the left-right direction of the body and a space between the second bend pulley 253 and the second driven pulley 256 along the front-rear direction of the body. Bend like so.
[0171]
The support shaft 255 supports the height adjustment member 259 so that the height adjustment member 259 can swing. The height adjustment member 259 includes a support shaft 255 and a lower shaft on the rear side and the lower side of the second transmission pulley 257. A support shaft 229 that supports the above-described transport pulley 202E is provided in parallel. A second intermediate pulley 261 that is integral with the conveying pulley 202E is coaxially supported on the support shaft 229, and an endless second transmission belt 262 is provided between the second transmission pulley 257 and the second intermediate pulley 261. Is hung.
[0172]
As described above, when the second drive pulley 236 is rotated by the rotation of the drive shaft 233 of the motor 221, the second driven pulley 256 is rotated via the second drive belt 258, and the second transmission pulley 257 integrated therewith is The second intermediate pulley 261 rotates through the second transmission belt 262, and the conveying pulley 202E integrated therewith rotates.
[0173]
That is, the driving force of the second driving pulley 236 is such that the intermediate portion is bent by the pair of second bending pulleys 253 so that the conveying pulley 202E provided for the second driving pulley 236 and the second linear portion 49 on the downstream side. A second drive belt 258 hung on a second driven pulley 256 having an axis disposed along the axis thereof, a second transmission pulley 257 coaxial with the second driven pulley 256, and a second linear portion 49 on the downstream side. The conveyor belt 46 and the conveyor pulley 202F provided for the second linear portion 49 on the downstream side are connected to the conveyor pulley 202E provided on the downstream side via a second transmission belt 262 that is hung on the second intermediate pulley 261 coaxial with the conveyor pulley 202E. Communicated. Further, it is also transmitted to the conveyor belt 47 and the conveyor pulley 202H via the conveyor pulley 202G integrated with the conveyor pulley 202F.
[0174]
Here, when the second driving pulley 236 is rotated counterclockwise as viewed from the opposite side with respect to the motor 221, the second driving belt 258, the second driven pulley 256, the second transmission pulley 257, the second transmission belt 262, The second intermediate pulley 261, the transport pulley 202E, the transport belt 46, the transport pulley 202F, the transport pulley 202G, the transport belt 47, and the transport pulley 202H all rotate counterclockwise when viewed from the left side of the machine body. The path 47 side of the belt 47 and the blade 209 of the transport pulley 202H move from the rear of the machine body to the front of the machine body.
[0175]
Note that the lower limit of the swing of the height adjusting member 259 is restricted by the screwing amount of a screw member (not shown), and as a result, the height of the conveying pulley 202E of the support shaft 229 is adjusted. Here, the conveyance belts 202E to the conveyance pulleys are adjusted by the height adjusting member 259 or the like so that the conveyance belts 46 and 47 can move the coins by the frictional force generated between the conveyance belts 46 and 47 while pressing the coins against the passage surface 41. Adjust the height of 202H.
[0176]
A pair of height adjustment arms 265 and 266 extending to the right and left sides of the machine body are supported on the drive shaft 233 of the motor 221 in a swingable manner, and the tip side of one height adjustment arm 265 is supported. A support shaft 226 that supports the above-described transport pulley 202C is provided, and a support shaft 227 that supports the above-described transport pulley 202D is provided at the tip end side of the other height adjustment arm 266.
[0177]
A conveyor belt 45 along the connecting linear portion 50 is hung on the third drive pulley 237, the conveyor pulley 202C, and the conveyor pulley 202D fixed to the drive shaft 233 of the motor 221.
[0178]
As described above, when the third drive pulley 237 is rotated by the rotation of the drive shaft 233 of the motor 221, the transport belt 45 rotates together with the transport pulleys 202C and 202D.
[0179]
That is, the driving force of the third drive pulley 237 is transmitted to the conveyor belt 45 by the conveyor belt 45 provided for the intermediate connecting linear portion 50 being hooked on the third drive pulley 237.
[0180]
Here, when the third drive pulley 237 is rotated counterclockwise when viewed from the opposite side (the rear side of the machine body) with respect to the motor 221, all of the transport pulleys 202C and 202D and the transport belt 45 are rotated clockwise as viewed from the front of the machine body. And the path surface 41 side of the conveyor belt 45 is moved from the right side of the machine body to the left side of the machine body.
[0181]
The height adjustment arms 265 and 266 are configured so that the lower end of each of the height adjustment arms 265 and 266 comes into contact with the guide of the coin guide passage 42 or the upper surface of a member nearby in accordance with the screwing amount of the screw member 271 attached thereto. As a result, the heights of the transport pulleys 202C and 202D of the support shafts 226 and 227 are adjusted. Here, the conveyance pulley 202C and the conveyance pulley 202D are adjusted by the height adjusting arms 265 and 266 so that the conveyance belt 45 can move the coin by the friction force generated between the conveyance belt 45 and the coin while pressing the coin against the passage surface 41. Adjust the height.
[0182]
Thus, the transport driving force transmission mechanism 222 includes the first driving pulley 235, the second driving pulley 236, the third driving pulley 237, the pair of first bending pulleys 240, the first driven pulley 243, the first transmission pulley 244, A total of 21 pulleys including a first intermediate pulley 248, a pair of second bending pulleys 253, a second driven pulley 256, a second transmission pulley 257, a second intermediate pulley 261, and eight conveying pulleys 202A to 202H, and a first drive belt The coins are transported by a total of eight belts 245, the first transmission belt 249, the second drive belt 258, the second transmission belt 262, and the four transport belts 44 to 47.
[0183]
In addition, the conveyance driving force transmission mechanism 222 uses the driving force of one motor 221 as the support shafts 224 to 227, 229 to 231, 239, 242, 252, and 255, the first driving pulley 235, the second driving pulley 236, Third driving pulley 237, a pair of first bending pulleys 240, a first driven pulley 243, a first transmission pulley 244, a first intermediate pulley 248, a pair of second bending pulleys 253, a second driven pulley 256, a second transmission pulley 257, the second intermediate pulley 261 and the conveying pulleys 202A to 202H, the first driving belt 245, the first transmission belt 249, the second driving belt 258, and the second transmission belt 262, and the four conveying belts 44 to 47. Will be communicated to. The first drive belt 245, the first transmission belt 249, the second drive belt 258, and the second transmission belt 262 do not contact coins and are not intended to directly convey coins. In addition, although not shown in the drawings, the conveyance belts 44 and 46 which are long in the distance for pressing and conveying coins against the passage surface 41 are in contact with coins at a plurality of intermediate portions in order to prevent the downward pressing force from being weakened. A backup roller is provided for pressing the lower portion of the lower portion downward.
[0184]
As described above, the axis line is arranged in parallel to the passage surface 41 of the coin guide passage 42 in each of the first straight portion 48, the connecting straight portion 50, and the second straight portion 49 of the folded coin guide passage 42. The conveying pulleys 202A to 202H are arranged, the conveying belt 44 is paired with the conveying pulleys 202A and 202B paired on the upstream side and the downstream side, the conveying belt 45 is paired with the conveying pulleys 202C and 202D paired on the upstream side and the downstream side, and the upstream side. The conveying belt 46 is hung on the conveying pulleys 202E and 202F that make a pair on the side and the downstream side, and the conveying belt 47 is hung on the conveying pulleys 202G and 202H that make a pair on the upstream side and the downstream side, respectively. For this reason, the deformation | transformation direction of the conveyance belts 44-47 by the thickness of a coin and the direction which remove | deviates from the conveyance pulleys 202A-202H can be varied. Therefore, even when coins are conveyed by the conveyor belts 44 to 47 while being guided by the folded-back coin guide passage 42, the conveyor belts 44 to 47 can be prevented from being detached from the conveyor pulleys 202A to 202H. In addition, since the transport driving force transmission mechanism 222 drives the four transport belts 44 to 47 provided respectively in the first straight portion 48, the connecting straight portion 50 and the second straight portion 49 with the driving force of one motor 221, An increase in cost can be suppressed.
[0185]
In addition, the conveyance driving force transmission mechanism 222 uses the driving force of one motor 221 as the support shafts 224 to 227, 229 to 231, 239, 242, 252, and 255, the first driving pulley 235, the second driving pulley 236, Third driving pulley 237, a pair of first bending pulleys 240, a first driven pulley 243, a first transmission pulley 244, a first intermediate pulley 248, a pair of second bending pulleys 253, a second driven pulley 256, a second transmission pulley 257, the second intermediate pulley 261 and the conveying pulleys 202A to 202H, the first drive belt 245, the first transmission belt 249, the second drive belt 258, and the second transmission belt 262, that is, only the pulley and the belt, It is transmitted to the four conveyor belts 44 to 47 that contact and convey coins. Therefore, cost increase can be further suppressed.
[0186]
Further, the drive shaft 233 of the motor 221 is disposed along the axis of a pair of conveying pulleys 202C and 202D provided for the intermediate connecting linear portion 50, and the driving force of the third drive pulley 237 of the drive shaft 233 is provided. Is transmitted to the conveyor belt 45 by the conveyor belt 45 of the intermediate connecting linear portion 50 being hung on the third drive pulley 237. For this reason, the driving force from the drive shaft 233 can be easily and reliably transmitted to the transport pulleys 202C and 202D and the transport belt 45 of the connecting linear portion 50 by using only the third drive pulley 237. The driving force of the first driving pulley 235 is such that the intermediate portion is bent by the pair of first bending pulleys 240 so that the first driving pulley 235 and the conveying pulleys 202A and 202B of the first linear portion 48 on the upstream side are bent. A first drive belt 245 hung on a first driven pulley 243 whose axis is disposed along the axis, a first transmission pulley 244 coaxial with the first driven pulley 243, and a conveying pulley 202B of the first linear portion 48 It is transmitted to the conveying pulleys 202A and 202B and the conveying belt 44 of the first linear portion 48 via a first transmission belt 249 hung on the coaxial first intermediate pulley 248. For this reason, transmitting the driving force from the drive shaft 233 to the transport pulleys 202A and 202B and the transport belt 44 of the first linear portion 48 means that the first drive pulley 235, the first bending pulley 240, and the first driven pulley 243 By using only the first drive belt 245, the first transmission pulley 244 and the first intermediate pulley 248, and the first transmission belt 249 that are hung on these, it is possible to simply and reliably. Further, the driving force of the second driving pulley 236 is such that the intermediate portion is bent by the pair of second bending pulleys 253 so that the second driving pulley 236 and the conveying pulleys 202E and 202F of the second linear portion 49 on the downstream side are A second drive belt 258 hung on a second driven pulley 256 whose axis is arranged along the axis, a second transmission pulley 257 coaxial with the second driven pulley 256, and a conveying pulley 202E of the second linear portion 49 Since it is transmitted to the transport pulleys 202E and 202F and the transport belt 46 of the second linear portion 49 via the second transmission belt 262 hung on the coaxial second intermediate pulley 261, the driving force from the drive shaft 233 is generated. Transmission to the conveying pulleys 202E and 202F and the conveying belt 46 of the second linear portion 49 means that the second driving pulley 236, the second bending pulley 253, and the second driven And over Li 256, a second drive belt 258 exerted thereto, the second transmission pulley 257 and the second intermediate pulley 261 can easily and reliably by using only the second transmission belt 262 exerted thereto. Therefore, the driving force of one motor 221 can be transmitted to the three conveyor belts 44 to 46 easily and reliably.
[0187]
The intermediate portion is bent by the pair of first bending pulleys, whereby the first driving pulley 235 having the axis line disposed along the driving shaft 233 (that is, coaxially or parallel) and the first linear portion 48 on the upstream side. A first drive belt 245 that is hung on a first driven pulley 243 that is disposed along the axis of the transport pulleys 202A and 202B (that is, coaxially or parallelly), and a pair of second pulleys. By being bent by the bending pulley 253, the conveying pulley 202E provided for the second driving pulley 236 whose axis is disposed along the driving shaft 233 (that is, coaxially or in parallel) and the second linear portion 49 on the downstream side. , 202F and the second drive belt 258 that is hung on the second driven pulley 256 having the axis line disposed along the axis line (that is, coaxially or parallelly). A conveying path from the moving pulley 243 to the transfer belt 44, the conveying path from the second driven pulley 256 to the transport belt 46 can be variously changed without being limited to the above configuration.
[0188]
Next, a shutter drive mechanism 301 that drives the shutter 14 that opens and closes the deposit / withdrawal port 11 of the transaction unit 12 by sliding will be described mainly with reference to FIGS.
[0189]
As shown in FIG. 12, the shutter 14 has an upper shutter 14 </ b> A and a lower shutter 14 </ b> B provided in a double upper and lower direction, and the peripheral wall 13 and the coin tray 15 for receiving coins discharged from the outside and inside the machine. A deposit / withdrawal port 11 formed at the upper part for receiving and transferring coins is opened and closed by sliding back and forth. Here, the upper shutter 14 </ b> A and the lower shutter 14 </ b> B are each sized so as to be capable of closing the deposit / withdrawal port 11, and each of the upper shutter 14 </ b> A and the lower shutter 14 </ b> B is located at a closed position that closes the deposit / withdrawal port 11 by moving forward. It is located in the open position that opens the deposit / withdrawal port 11 by moving to the rear of the machine body. In addition, in the lower shutter 14B, as shown in FIG. 13, a coin insertion hole 16 through which only a small amount (one to two) of coins can be passed is formed at substantially the center in order to prevent entry of dust and the like. Yes.
[0190]
A front guide plate 303 shown in FIG. 13 constitutes a front portion of the peripheral wall portion 13 in the longitudinal direction of the machine body. A pair of left and right airframe frames 304 and 305 arranged at positions on both outer sides in the left and right direction of the airframe are provided so as to extend from the left and right sides of the front guide plate 303 to the rear of the airframe. These aircraft frames 304 and 305 are along the longitudinal direction of the aircraft and along the vertical direction.
[0191]
Then, as shown in FIG. 14, one side of the body left and right direction, specifically, the inside of the right body frame 304 slides to extend in the longitudinal direction of the body at a position slightly higher than the deposit / withdrawal port 11. The shaft 307 is fixed. A sliding block 308 is fitted to the sliding shaft 307 so as to be slidable along the sliding shaft 307. As shown in FIGS. The upper shutter 14A is integrally provided on one side in the left-right direction, specifically on the rear side of the right end. The upper shutter 14A is formed so that the lower surface of the sliding block 308 coincides with the lower surface of the upper shutter 14A so that the gear base 309 extends forward. Under the slide shaft 307, the slide block 308, and the gear base 309, a guide member 312 having a guide plate portion 311 whose upper surface extends in the front-rear direction along the horizontal direction is provided inside the body frame 304. It is fixed and provided.
[0192]
On the opposite side to the left and right direction of the machine body, specifically, on the inner side of the left machine frame 305, it extends in the longitudinal direction of the machine at a position slightly higher than the deposit / withdrawal port 11, so that it is substantially parallel to the sliding shaft 307. A guide rail 314 is fixed, and the guide rail 314 has a U-shaped cross section in which a guide groove 315 is formed on the sliding shaft 307 side.
[0193]
The lower shutter 14 </ b> B is formed with a guide portion 317 extending obliquely downward at one end edge in the left-right direction of the machine body, and this guide portion 317 is placed on the guide plate portion 311 of the guide member 312. Further, the other end edge of the lower shutter 14 </ b> B enters the guide groove 315 of the guide rail 314 and is placed on the guide plate portion 318 below the guide rail 314. Accordingly, the lower shutter 14 </ b> B is placed on the guide plate portion 311 of the guide member 312 and the guide plate portion 318 of the guide rail 314.
[0194]
At the opposite edge of the upper shutter 14A guided by the sliding shaft 307 by the sliding block 308 on one side in the left-right direction, a notch-shaped insertion portion 320 that is thinner than the other portions extends in the front-rear direction. The insertion portion 320 is inserted between the upper guide plate portion 319 of the guide rail 314 and the lower shutter 14B. As a result, the upper shutter 14A is supported by the sliding shaft 307 on one side in the left-right direction of the machine body and is entirely placed on the lower shutter 14B.
[0195]
Here, in the upper shutter 14A, the movement of the machine body in the vertical and horizontal directions is restricted by the sliding block 308 on one side in the horizontal direction of the machine body being fitted to the slide shaft 307, and the insertion portion 320 on the reverse side is guided by the guide part 320 on the opposite side. By being inserted into the guide groove 315 of the rail 314 in the vertical direction together with the lower shutter 14B with almost no gap, movement in the vertical direction of the machine body is restricted.
[0196]
The lower shutter 14B has an insertion portion 321 in which the lower end portion of the guide portion 317 on one side in the left-right direction of the machine body protrudes outward in the left-right direction, and the insertion portion 321 includes the sliding block 308, the gear base 309, and the guide plate. Movement in the vertical direction of the machine body is restricted by being inserted between the part 311 and the upper and lower sides with almost no gap. In addition, since the opposite side is inserted into the guide groove 315 of the guide rail 314 together with the upper shutter 14A in the vertical direction with almost no gap, movement in the vertical direction of the machine body is restricted.
[0197]
Thus, the sliding block 308 on one side in the left-right direction of the machine body is guided by the sliding shaft 307, and the insertion portion 320 on the opposite side is guided by the upper surface of the lower shutter 14B and the guide plate portion 319 on the upper side of the guide rail 314. As a result, the upper shutter 14A slides in the longitudinal direction of the machine body. Further, the insertion portion 321 of the guide portion 317 on one side in the left-right direction of the machine body is guided by the sliding block 308, the gear base 309, and the guide plate portion 311 of the upper shutter 14A, and the opposite side is the lower surface of the upper shutter 14A and the guide rail 314. By being guided by the lower guide plate portion 318, the lower shutter 14B slides in the longitudinal direction of the machine body.
[0198]
On the lower surface side of the sliding block 308 of the upper shutter 14A and the gear base 309, a rack gear 324 extending in the front-rear direction of the machine body is fixed at a position outside the insertion portion 321 of the lower shutter 14B. The rack gear 324 is formed on its lower surface side so that teeth are arranged in the longitudinal direction of the machine body.
[0199]
A motor 325 fixed to the guide member 312 and the body frame 304 is disposed below the rack gear 324, and a drive gear 328 is attached to the drive shaft 326 of the motor 325 via a torque limiter 327. The drive gear 328 is meshed with the rack gear 324.
[0200]
When the motor 325 is driven, the drive gear 328 is rotated via the torque limiter 327, and the rack gear 324 that meshes with the drive gear 328 and the upper shutter 14A to which the rack gear 324 is fixed move in the longitudinal direction of the body. That is, the motor 325, the torque limiter 327, the drive gear 328, and the rack gear 324 move the upper shutter 14A between the closed position that covers the deposit / withdrawal port 11 and the open position that opens the deposit / withdrawal port 11 ( Upper shutter drive means) 331. Since the torque limiter 327 is provided, for example, even if the upper shutter 14A stops during the movement for some reason, the torque limiter 327 slips so that an excessive load is not applied to the motor 325. It has become.
[0201]
On the lower surface side of the upper shutter 14 </ b> A, as shown in FIG. 16, a connecting member 334 that can swing around a support shaft 333 along the left-right direction of the body extends from the support shaft 333 to the rear side of the body. It is attached as follows. The connecting member 334 can swing between a retracted state in which the whole is located above the lower surface of the upper shutter 14A and a protruding state in which the tip protrudes downward from the lower surface of the upper shutter 14A along the horizontal. ing. A torsion spring (biasing means) 335 is attached to the support shaft 333, and the torsion spring 335 constantly urges the connecting member 334 in a protruding state.
[0202]
On the other hand, the lower shutter 14B is formed with an engagement hole 338 for allowing the connecting member 334 in the protruding state to enter. Here, when the upper shutter 14 </ b> A and the lower shutter 14 </ b> B are in a state where the front end portions of the upper shutter 14 </ b> A and the lower shutter 14 </ b> B coincide with each other, the connection member 334 enters the engagement hole 338. The position is determined. When the connecting member 334 enters the engagement hole 338, it engages with the edge of the engagement hole 338 on the rear side of the machine body. Here, the coupling member 334 is able to move integrally by pressing the lower shutter 14B to the rear of the machine body in the state of entering the engagement hole 338, and the lower shutter 14B and the upper shutter 14A are coupled.
[0203]
A connecting member 334 that is provided in the upper shutter 14A and can enter the engaging hole 338 formed in the lower shutter 14B, and a torsion spring 335 that urges the connecting member 334 in a direction to enter the engaging hole 338. The upper shutter 14 </ b> A and the lower shutter 14 </ b> B are connected to and disconnected from each other in an overlapping state to constitute a non-electrically driven connection mechanism (connection means) 339.
[0204]
Since the upper shutter 14A and the lower shutter 14B are in contact with the front guide plate 303 that defines the front edge of the machine body of the deposit / withdrawal port 11, further movement in the forward direction of the machine body, that is, in the closing direction is restricted. The position is the movement limit position in the closing direction. Further, as shown in FIG. 13, the upper shutter 14A has a sliding block 308 that abuts against a stopper 341 provided at the rear end of the sliding shaft 307 so that the upper shutter 14A is further in the rear direction, that is, in the opening direction. The movement is restricted, and this position is the movement limit position in the opening direction. Further, a regulating member (not shown) that protrudes downward is provided on the rear side of the upper shutter 14A, and the lower shutter 14B extends further beyond the upper shutter 14A in the overlapping state by the regulating member. It is restricted to move to. For this reason, the lower shutter 14B is restricted from moving further in the rear direction, that is, in the opening direction by contacting the restriction member of the upper shutter 14A at the movement limit position in the opening direction. This is the movement limit position.
[0205]
As shown in FIG. 14, a detection piece 343 is provided at a rear portion of the upper shutter 14 </ b> A in the longitudinal direction of the machine body so as to protrude downward at a position where the upper shutter 14 </ b> A does not interfere with other members when moving in the longitudinal direction of the machine body. In addition, a detection piece 344 is provided at a rear portion of the lower shutter 14B in the longitudinal direction of the machine body so as to protrude downward at a position where it does not interfere with other members when moving in the longitudinal direction of the machine body.
[0206]
As shown in FIGS. 14 and 15, sensors 346 to 349 for detecting that the upper shutter 14 </ b> A and the lower shutter 14 </ b> B are in the open position and the closed position, respectively, are detected on the machine body side as shown in FIGS. 14 and 15. Is provided. That is, a sensor 346 that detects that the upper shutter 14A is in the open position by detecting the detection piece 343, a sensor 347 that detects that the upper shutter 14A is in the closed position by detecting the detection piece 343, A sensor 348 that detects that the lower shutter 14B is in the open position by detecting the detection piece 344 and a sensor 349 that detects that the lower shutter 14B is in the closed position by detecting the detection piece 344 are provided. ing.
[0207]
As shown in FIG. 12, on the rear side of the upper shutter 14A and the lower shutter 14B, both of which are in the closed position, the upper shutter 14A is locked in the closed position covering the deposit / withdrawal port 11 and unlocked to release the lock. An upper shutter lock switching mechanism (upper shutter lock switching means) 351 that is electrically driven and switched to a state, and a lock state in which the lower shutter 14B is locked at a closed position covering the deposit / withdrawal port 11 and a lock release to release the lock. A connection switching mechanism that is electrically driven and switched to a state, and that is electrically driven and switched between a connection state in which the upper shutter 14A and the lower shutter 14B are connected in an overlapping state and a connection release state in which the connection is released. Dual lower shutter lock switching mechanism (connection switching means, lower shutter lock And switching means) 352 is provided.
[0208]
As shown in FIGS. 12 and 15, the upper shutter lock switching mechanism 351 includes a solenoid 356 fixed to a support member 355 on the airframe side in a state where the plunger 354 is arranged to move in the front-rear direction of the airframe, and the solenoid 356. The rotating member 358 is rotatably connected by a connecting pin 357 extending in the left-right direction of the machine body, and a spring member 359 for biasing the rotating member 358. Here, the rotation member 358 is also rotatably supported by a support shaft 360 fixed to the support member 355 on the airframe side in a state along the airframe left-right direction above the connection pin 357, and is supported by the solenoid 356. On the opposite side, a regulating roller 362 is provided that is rotatably supported around a support shaft 361 extending in the left-right direction of the machine body. The spring member 359 biases the rotating member 358 in the direction in which the regulating roller 362 is positioned on the upper side.
[0209]
When the solenoid 356 is driven, the upper shutter lock switching mechanism 351 pulls the plunger 354 to move the support shaft 360 so that the rotating member 358 moves downward against the biasing force of the spring member 359. When the solenoid 356 is released, the rotation member 358 is rotated about the support shaft 360 so that the rotation member 358 moves the regulating roller 362 upward by the biasing force of the spring member 359. It will be in the locked state which moves and the plunger 354 protrudes.
[0210]
Then, when the upper shutter 14A is in a locked state with the upper shutter 14A in the closed position on the front side of the machine body, the upper shutter lock switching mechanism 351 raises the restriction roller 362 and contacts the rear surface of the upper shutter 14A, and the rear side of the upper shutter 14A. That is, the movement in the opening direction is restricted. In the unlocked state, the regulating roller 362 descends and retreats from the rear of the upper shutter 14A, thereby allowing the upper shutter 14A to move in the rear of the machine body, that is, in the opening direction.
[0211]
As shown in FIGS. 15 to 17, the lower shutter lock switching mechanism 352 includes a solenoid 366 fixed to the body side support member 355 in a state where the plunger 364 is arranged to move in the longitudinal direction of the body, and the solenoid 366. A rotating member 368 rotatably connected by a connecting pin 367 along the left-right direction of the machine body, and a spring member 369 for biasing the rotating member 368. Here, the rotation member 368 is also rotatable on a support shaft 360 that is fixed to the support member 355 on the airframe side in a state along the left-right direction of the airframe on the upper side of the connecting pin 367. An engaging portion 371 that protrudes upward is formed on the opposite side of the solenoid 366. The spring member 369 biases the rotating member 368 in the direction in which the engaging portion 371 is positioned on the upper side.
[0212]
When the solenoid 366 is driven, the lower shutter lock switching mechanism 352 pulls the plunger 364 and moves the engaging member 371 downward against the urging force of the spring member 369 so as to move the engaging portion 371 downward. When the drive of the solenoid 366 is released, the rotation member 368 moves the engagement portion 371 upward by the urging force of the spring member 369 when the drive of the solenoid 366 is released. To a locked state in which the plunger 364 protrudes.
[0213]
Then, when the lower shutter lock switching mechanism 352 is in a locked state with the lower shutter 14B in the closed position on the front side of the machine body, the engaging portion 371 ascends and enters the engaging hole 338 of the lower shutter 14B to enter the lower shutter 14B. Restricts movement in the rear, that is, in the opening direction. In the unlocked state, the engaging portion 371 descends and comes out of the engaging hole 338 of the lower shutter 14B, thereby allowing the lower shutter 14B to move in the rear of the machine body, that is, in the opening direction.
[0214]
Here, when the lower shutter 14B is in the closed position on the front side of the fuselage, the upper shutter 14A is also in the closed position on the front side of the fuselage and is overlapped with the lower shutter 14B by a regulating member (not shown). The connecting member 334 of the connecting mechanism 339 is biased in the direction of entering the engaging hole 338 from above by the biasing force of the torsion spring 335. As a result, when the lower shutter lock switching mechanism 352 is in the locked state, the engaging portion 371 rises and enters the engaging hole 338 of the lower shutter 14B from below to lock the lower shutter 14B in the closed state and the engaging portion 371. Thus, the connecting member 334 of the connecting mechanism 339 is pushed out, and the connection between the upper shutter 14A and the lower shutter 14B by the connecting mechanism 339 is released, that is, the lock / connection release state is established.
[0215]
Further, when the lower shutter lock switching mechanism 352 is unlocked, the engaging portion 371 descends and retracts from the engaging hole 338 of the lower shutter 14B to release the lock of the lower shutter 14B and to be connected by the engaging portion 371. By releasing the push-up of the member 334, the connecting member 334 enters the engagement hole 338 by the biasing force of the torsion spring 335, and the upper shutter 14A and the lower shutter 14B are connected, that is, the lock is released / connected. The lower shutter lock switching mechanism 352 rotates the rotating member 368 so that the engaging portion 371 is moved upward by the biasing force of the spring member 369 when the drive of the solenoid 366 is released. At this time, the urging force of the spring member 369 is set larger than the urging force of the torsion spring 335 so that the connecting member 334 is rotated against the urging force of the torsion spring 335.
[0216]
As shown in FIG. 15, the lower shutter lock switching mechanism 352 and the upper shutter lock switching mechanism 351 are arranged in parallel in the left-right direction of the body, and the rotating member 368 of the solenoid 366 of the lower shutter lock switching mechanism 352 includes An extending piece 373 extending in the direction of the rotating member 358 of the upper shutter lock switching mechanism 351 and capable of contacting the upper surface of the rotating member 358 is fixed. When the solenoid 366 of the lower shutter lock switching mechanism 352 is driven and the rotating member 368 rotates to enter the unlocked / connected state, the extended piece 373 causes the solenoid 356 of the upper shutter lock switching mechanism 351 to be in the non-driven state. Even if it exists, the rotation member 358 of the upper shutter lock switching mechanism 351 is pressed and rotated by the extending piece 373 that rotates in a pair with the rotation member 368 to be in the unlocked state.
[0217]
Further, when the drive of the solenoid 366 of the lower shutter lock switching mechanism 352 is released from this state and the rotating member 368 is rotated by the urging force of the spring member 369 to be in the locked state, the rotating member 368 is rotated in a pair. The pressing of the upper shutter lock switching mechanism 351 to the rotating member 358 by the extending piece 373 is released, and as a result, the rotating member 358 of the upper shutter lock switching mechanism 351 is rotated by the spring member 359 to be locked.
[0218]
That is, the extending piece 373 is a member that can mechanically lock and unlock the upper shutter lock switching mechanism 351 in conjunction with the locking and unlocking of the lower shutter lock switching mechanism 352.
[0219]
Next, the operation of the shutter 14 and the shutter drive mechanism 301 will be described.
At the time of the deposit process described above, first, an upper shutter opening operation for moving only the upper shutter 14A to the open position is executed (see FIG. 16). That is, when the operator performs an operation for starting the deposit process, a control unit (not shown) outputs a drive signal to the solenoid 356 of the upper shutter lock switching mechanism 351 to drive the solenoid 356. As a result, the solenoid 356 rotates the rotating member 358 against the urging force of the spring member 359 and retracts the regulating roller 362 downward to allow the upper shutter 14A to move rearward of the machine body, that is, in the opening direction. Set to unlocked state. At this time, the lower shutter lock switching mechanism 352 is not driven and the locked / uncoupled state is maintained, and the lower shutter 14B is maintained in the closed state and the uncoupled state with the upper shutter 14A.
[0220]
In this state, the control unit issues a drive signal for opening the shutter 14 to the motor 325 to drive the motor 325 in the normal rotation. Then, the drive shaft 326 of the motor 325 rotates and the drive gear 328 rotates via the torque limiter 327 to move the rack gear 324 to the rear of the machine body, and only the upper shutter 14A in the unlocked state is moved in the opening direction. When the upper shutter 14A is moved to the open position, the sliding block 308 is brought into contact with the stopper 341, and further movement is restricted, and the detection provided in the upper shutter 14A at the time of the contact is made. The piece 343 is detected by the sensor 346, and the control unit stops the driving of the motor 325 by the detection of the sensor 346.
[0221]
Here, at the time of the upper shutter opening operation described above, for example, when a load is placed on the upper shutter 14A and an extra load is applied, the torque limiter 327 attached to the motor 325 slips to cause the motor 325 to slip. To prevent excessive load on the machine. Further, at this time, it takes more time than necessary for the upper shutter opening operation. Therefore, if the detection piece 343 is not detected by the sensor 346 even if this time exceeds a predetermined time, the motor 325 The driving may be stopped and an alarm may be issued, or the motor 325 may be reversely rotated once to perform the upper shutter closing operation (described later), and then the upper shutter opening operation may be performed again.
[0222]
When the upper shutter opening operation is normally completed, only the upper shutter 14A is open, the lower shutter 14B is closed, and the deposit / withdrawal port 11 is covered only by the lower shutter 14B. The 14B coin insertion hole 16 is exposed. The operator divides and inserts a small number of coins through the coin insertion hole 16. In this way, the operator recognizes the garbage etc. mixed with the coins when throwing them into a small number of pieces, and only the coins are inserted, so that the introduction of the garbage etc. is prevented. .
[0223]
Next, when the insertion of coins is finished and the operator inputs an operation for starting counting, the control unit executes an upper shutter closing operation for moving only the upper shutter 14A to the closing position. That is, while the output of the drive signal to the solenoid 356 of the upper shutter lock switching mechanism 351 is maintained, a drive signal for closing the shutter 14 is issued to the motor 325 to drive the motor 325 in the reverse rotation. Then, the motor 325 rotates to move the rack gear 324 forward of the machine body via the torque limiter 327 and the drive gear 328, and only the upper shutter 14A in the unlocked state is moved in the closing direction. When the upper shutter 14A moves to the closed position, the front end is brought into contact with the front guide plate 303, and further movement is restricted, and the detection provided on the upper shutter 14A at the time of the contact is made. The piece 343 is detected by the sensor 347, and the control unit stops the driving of the motor 325 by the detection of the sensor 347.
[0224]
Here, at the time of the upper shutter closing operation described above, for example, when an extra load is applied to the upper shutter 14A, an extra load is applied to the motor 325 due to slipping of the torque limiter 327 attached to the motor 325. To prevent it from being applied. Further, at this time, it takes more time than necessary for the upper shutter closing operation. Therefore, if the detection piece 343 is not detected by the sensor 347 even if this time exceeds a predetermined time, the motor 325 The driving may be stopped and an alarm may be issued, or the motor 325 may be normally rotated once to perform the upper shutter opening operation, and then the upper shutter closing operation may be performed again.
[0225]
When the upper shutter closing operation is normally completed, the control unit stops the drive signal to the solenoid 356 of the upper shutter lock switching mechanism 351 and releases the drive of the solenoid 356. As a result, the spring member 359 rotates the rotating member 358 with the urging force and the restricting roller 362 is positioned on the upper side, and the locked state in which the movement of the upper shutter 14A in the rear of the machine body, that is, in the opening direction is restricted.
[0226]
On the other hand, during the return process and the withdrawal process described above, first, an upper and lower shutter opening operation is performed to move the upper shutter 14A and the lower shutter 14B to the open position (see FIG. 17). That is, when it is confirmed that all coins have been sent to the coin tray 15 of the transaction unit 12 in the return process or the withdrawal process described above, the control unit (not shown) sends the solenoid 366 of the lower shutter lock switching mechanism 352 to the solenoid 366. A drive signal is output to drive the solenoid 366, and a drive signal is output to the solenoid 356 of the upper shutter lock switching mechanism 351 to drive the solenoid 356. As a result, the solenoid 366 of the lower shutter lock switching mechanism 352 rotates the rotating member 368 against the urging force of the spring member 369 to retract the engaging portion 371 downward from the engaging hole 338 and the connecting member 334. Then, the connecting member 334 is caused to enter the engagement hole 338 by the urging force of the torsion spring 335. As a result, the lower shutter 14B is allowed to move in the rear of the machine body, that is, in the opening direction, and the unlocked / connected state in which the lower shutter 14B and the upper shutter 14A are connected. Further, the upper shutter lock switching mechanism 351 is in the unlocked state allowing the movement of the upper shutter 14A in the rear of the machine body, that is, in the opening direction, as described above.
[0227]
In this state, the control unit issues a drive signal for opening the shutter 14 to the motor 325 to drive the motor 325 in the normal rotation. Then, the motor 325 rotates to move the rack gear 324 to the rear of the machine body via the torque limiter 327 and the drive gear 328, and move the upper shutter 14A in the unlocked state in the opening direction. Then, since the lower shutter 14B is unlocked and connected to the upper shutter 14A, the lower shutter 14B also moves in the opening direction integrally with the upper shutter 14A. When the upper shutter 14A and the lower shutter 14B move to the open position, the upper shutter 14A brings the sliding block 308 into contact with the stopper 341, and further movement is restricted. The detection piece 343 provided on the upper shutter 14A is detected by the sensor 346 and the detection piece 344 provided on the lower shutter 14B is detected by the sensor 348, and the control unit detects the sensors 346 and 348, and the motor 325 Stop driving. The driving of the motor 325 may be stopped only by either the detection by the sensor 346 of the detection piece 343 of the upper shutter 14A or the detection by the sensor 348 of the detection piece 344 of the lower shutter 14B.
[0228]
Here, even when the upper and lower shutters are opened, if an extra load is applied to the upper shutter 14A or the lower shutter 14B, the torque limiter 327 prevents the extra load from being applied to the motor 325. Further, when it takes more time than necessary for the upper and lower shutter opening operation, the same treatment as the upper shutter opening operation is possible.
[0229]
When the upper and lower shutter opening operation is normally completed, the upper shutter 14A and the lower shutter 14B are both in an open state, and the deposit / withdrawal port 11 is opened, and the coin tray 15 is exposed. As a result, the operator takes out the coin from the coin tray 15 through the deposit / withdrawal port 11.
[0230]
Next, when it is detected by a residual sensor (not shown) that the coin has been taken out, the control unit executes an upper and lower shutter closing operation for moving the upper shutter 14A and the lower shutter 14B together to the closing position. That is, while maintaining the output of the drive signals to the solenoid 366 of the lower shutter lock switching mechanism 352 and the solenoid 356 of the upper shutter lock switching mechanism 351, a drive signal for closing the shutter 14 is issued to the motor 325 to rotate the motor 325 in the reverse direction. Drive with. Then, the motor 325 rotates to move the rack gear 324 forward of the machine body via the torque limiter 327 and the drive gear 328, and the upper shutter 14A in the unlocked state is moved in the closing direction. Then, the lower shutter 14B is pressed by a regulating member (not shown) provided on the rear side of the upper shutter 14A and moves in the closing direction integrally with the upper shutter 14A.
[0231]
When the upper shutter 14A and the lower shutter 14B are moved to the closed position, the front end is brought into contact with the front guide plate 303, and further movement is restricted. The detection piece 343 provided is detected by the sensor 347 and the detection piece 344 provided on the lower shutter 14B is detected by the sensor 349, respectively, and the control unit drives the motor 325 by the detection of these sensors 347 and 349. Stop. The driving of the motor 325 may be stopped only by either the detection by the sensor 347 of the detection piece 343 of the upper shutter 14A or the detection by the sensor 349 of the detection piece 344 of the lower shutter 14B.
[0232]
Here, even when the upper and lower shutters are closed, if an extra load is applied to the upper shutter 14A or the lower shutter 14B, the torque limiter 327 prevents the extra load from being applied to the motor 325. Further, when it takes more time than necessary for the upper and lower shutter closing operation, the same treatment as the upper shutter closing operation is possible.
[0233]
When the upper / lower shutter closing operation is normally completed, the control unit stops the drive signal to the solenoid 356 of the upper shutter lock switching mechanism 351 and releases the drive of the solenoid 356. As a result, the spring member 359 rotates the rotating member 358 with the urging force and the restricting roller 362 is positioned on the upper side, and the locked state in which the movement of the upper shutter 14A in the rear of the machine body, that is, in the opening direction is restricted. At the same time, the drive signal to the solenoid 366 of the lower shutter lock switching mechanism 352 is stopped and the drive of the solenoid 366 is released. As a result, the spring member 369 rotates the rotating member 368 with the urging force to position the engaging portion 371 on the upper side so as to enter the engaging hole 338 of the lower shutter 14B and push the connecting member 334 out of the engaging hole 338. Thus, the lower shutter 14B is in a locked / uncoupled state in which the movement of the lower shutter 14B in the rear direction, that is, in the opening direction is restricted and the connection between the upper shutter 14A and the lower shutter 14B is released.
[0234]
Even when only the solenoid 366 of the lower shutter lock switching mechanism 352 is operated in the same manner as described above during the upper and lower shutter opening operation and the upper and lower shutter closing operations, the extending piece of the rotating member 368 of the lower shutter lock switching mechanism 352 is operated. By the operation of 373, the upper shutter lock switching mechanism 351 can be operated in the same manner as described above.
[0235]
That is, when the solenoid 366 of the lower shutter lock switching mechanism 352 is driven and the rotating member 368 rotates to enter the unlocked / connected state, the extending piece 373 presses the rotating member 358 of the upper shutter lock switching mechanism 351. When the solenoid 366 of the lower shutter lock switching mechanism 352 is released from this state and the rotating member 368 rotates in the reverse direction, the locked state is obtained. The extension piece 373 releases the pressing of the upper shutter lock switching mechanism 351 against the rotating member 368, and the rotating member 358 of the upper shutter lock switching mechanism 351 is mechanically locked by the spring member 359. Thereby, the above-described upper and lower shutter opening operation and upper and lower shutter closing operation can be performed only by driving and releasing the solenoid 366 of the lower shutter lock switching mechanism 352. That is, the upper shutter lock switching mechanism 351 and the lower shutter lock switching mechanism 352 can also serve as a solenoid as a drive source.
[0236]
As shown in FIG. 15, the extended piece 373 protrudes from the side body frame 305 and can be manually operated at the time of maintenance or the like. The rotating member 368 and the rotating member 358 of the upper shutter lock switching mechanism 351 can be pushed down simultaneously, and the upper shutter 14A and the lower shutter 14B can be manually opened and closed simultaneously.
[0237]
According to the shutter drive mechanism 301 described above, when the upper shutter 14A and the lower shutter 14B are both positioned to cover the deposit / withdrawal port 11 and the deposit / withdrawal port 11 is completely closed, the lower shutter 14B is moved. The lower shutter lock switching mechanism 352 is brought into a locked / unreleased state in which the connection of the upper shutter 14A and the lower shutter 14B by the connecting mechanism 339 is released while being locked at the closing position covering the deposit / withdrawal port 11, and the upper shutter 14A is deposited / withdrawn. The upper shutter lock switching mechanism 351 is set in a locked state in which it is locked at the closed position covering the mouth 11. Further, when the upper shutter 14A and the lower shutter 14B are both positioned at the position where the deposit / withdrawal port 11 is opened to completely open the deposit / withdrawal port 11 and when returning after opening, the lower shutter 14B is unlocked. While the lower shutter lock switching mechanism 352 is in the unlocked / coupled state in which the upper shutter 14A and the lower shutter 14B are coupled by the coupling mechanism 339, the upper shutter lock switching mechanism 351 is in the unlocked state in which the upper shutter 14A is unlocked. To do. If the upper shutter drive mechanism 331 moves the upper shutter 14A in this state, the lower shutter 14B also moves via the upper shutter 14A. In addition, the lower shutter 14B is positioned to cover the deposit / withdrawal port 11 and the upper shutter 14A is positioned to open the deposit / withdrawal port 11 so that the deposit / withdrawal port 11 passes through the coin insertion hole 16 of the lower shutter 14B. When opening only the upper shutter 14A and returning the upper shutter 14A after opening, the lower shutter 14B is locked at the closed position covering the deposit / withdrawal port 11 and the connection mechanism 339 releases the connection between the upper shutter 14A and the lower shutter 14B. The lower shutter lock switching mechanism 352 is set in the disconnected state, and the upper shutter lock switching mechanism 351 is set in the unlocked state in which the upper shutter 14A is unlocked. If the upper shutter drive mechanism 331 moves the upper shutter 14A in this state, only the upper shutter 14A moves.
[0238]
Thus, since the lower shutter 14B is driven via the upper shutter 14A, if the torque limiter 327 is provided only between the motor 325 and the upper shutter 14A, either the upper shutter 14A or the lower shutter 14B is in the middle of opening and closing. Even if a situation of stopping occurs, the torque limiter 327 can prevent an excessive force from being applied to the drive system. Therefore, since the expensive torque limiter 327 can be reduced, the component cost can be reduced.
[0239]
Further, since the lower shutter lock switching mechanism 352 also serves as a connection switching mechanism that switches the connection state of the upper shutter 14A and the lower shutter 14B, the cost of parts can be further reduced.
[0240]
Further, when the lower shutter lock switching mechanism 352 is retracted from the engagement hole 338, the connecting member 334 provided in the upper shutter 14A enters the engagement hole 338 of the lower shutter 14B by the biasing force of the torsion spring 335 and moves upward. The shutter 14A is connected to the lower shutter 14B, and the lower shutter lock switching mechanism 352 is retracted from the engagement hole 338 to release the lock of the lower shutter 14B. That is, the lock is released and connected. When the lower shutter lock switching mechanism 352 enters the engagement hole 338, the connecting member 334 provided in the upper shutter 14A is engaged with the engagement hole by the lower shutter lock switching mechanism 352 against the urging force of the torsion spring 335. The lower shutter lock switching mechanism 352 enters the engagement hole 338 of the lower shutter 14B and locks the lower shutter 14B while the connection between the upper shutter 14A and the lower shutter 14B is released. That is, the locked / unconnected state is established. As described above, the connection mechanism 339 is configured by forming the engagement hole 338 in the lower shutter 14B, providing the connection member 334 in the upper shutter 14A, and providing the torsion spring 335 for urging the connection member 334. It is simple and can further reduce the component cost.
[0241]
【The invention's effect】
  As described in detail above, according to the first aspect of the present invention, the upstream side is provided with the conveying pulley that arranges the axis parallel to the passage surface of the coin guide passage in each of the straight portions of the folded coin guide passage. In addition, since a pair is arranged on the downstream side and the conveyance belt is hung on each pair of conveyance pulleys, the deformation direction of the conveyance belt due to the thickness of the coin can be different from the direction away from the conveyance pulley. Therefore, even if it is a case where a coin is conveyed with a conveyance belt, guiding it in a folded-shaped coin guide path, it can prevent that a conveyance belt comes off from a conveyance pulley. In addition, since the driving force transmitting means drives the three conveyor belts provided in each linear portion with the driving force of one driving source, it is possible to suppress an increase in cost.
  According to the first aspect of the invention, since the drive shaft of the drive source is disposed along the axis of the pair of transport pulleys provided for the intermediate linear portion, the drive force from the drive shaft is reduced. Transmission to the conveyance pulley and the conveyance belt in the intermediate linear portion can be easily and reliably performed using the pulley and the belt. Further, the intermediate portion of the first drive belt is bent by the pair of first bending pulleys, so that the first drive pulley provided with the axis line along the drive shaft and the conveying pulley provided for the upstream linear portion. The first driven pulley is arranged along the axis of the first driven pulley, so that the driving force from the driving shaft is transmitted to the first driven pulley, and the driving force from the first driven pulley is upstream. Transmission to the conveying pulley and the conveying belt in the straight portion can be easily and reliably performed using the pulley and the belt. Further, the intermediate portion of the second drive belt is bent by a pair of second bending pulleys, so that the second drive pulley provided with an axis line along the drive shaft and the conveying pulley provided for the downstream straight portion. Is driven by a second driven pulley having an axial line disposed along the axis thereof, so that the driving force from the driving shaft is transmitted to the second driven pulley and the driving force from the second driven pulley is downstream. Transmission to the conveying pulley and the conveying belt in the straight portion can be easily and reliably performed using the pulley and the belt. Therefore, the driving force of one driving source can be transmitted to the three conveyor belts easily and reliably.
  According to the second aspect of the present invention, each of the straight portions of the folded coin guide passage has a pair of upstream and downstream conveying pulleys arranged in parallel with the passage surface of the coin guide passage. Since the conveyor belt is hung on each pair of conveyor pulleys, the deformation direction of the conveyor belt due to the thickness of the coins and the direction of coming off from the conveyor pulley can be made different. Therefore, even if it is a case where a coin is conveyed with a conveyance belt, guiding it in a folding-shaped coin guide path, it can prevent that a conveyance belt comes off from a conveyance pulley. In addition, since the driving force transmission means drives the three conveyor belts provided in the respective straight portions by the driving force of one driving source, an increase in cost can be suppressed.
  According to the second aspect of the invention, the drive shaft of the drive source is disposed along the axis of the pair of transport pulleys provided for the intermediate linear portion, and the third drive pulley of the drive shaft The driving force is transmitted to the third driving pulley by the intermediate linear portion of the conveyor belt, so that the driving force is transmitted from the drive shaft to the intermediate linear portion of the conveying pulley and the conveyor belt. This can be done simply and reliably by using only the third drive pulley. Further, the driving force of the first driving pulley is arranged along the axis of the first driving pulley and the conveying pulley of the upstream linear portion by bending the intermediate portion with a pair of first bending pulleys. A first drive belt hung on the first driven pulley, a first transmission pulley coaxial with the first driven pulley, and a first transmission hung on the first intermediate pulley coaxial with the upstream straight pulley. The first drive pulley is configured to transmit the driving force from the drive shaft to the conveyance pulley and the conveyance belt of the upstream linear portion via the belt. Simple and reliable by using only the first bending pulley and the first driven pulley, the first drive belt hung on them, the first transmission pulley and the first intermediate pulley, and the first transmission belt hung on them. In That. Further, the driving force of the second drive pulley is arranged along the axis of the second drive pulley and the downstream straight conveyor pulley by bending the intermediate portion with a pair of second bending pulleys. A second drive belt hung on the second driven pulley, a second transmission pulley coaxial with the second driven pulley, and a second intermediate pulley coaxial with the downstream straight conveying pulley. Since it is transmitted to the conveying pulley and conveying belt in the downstream straight portion via the second transmission belt, the driving force from the drive shaft is transmitted to the conveying pulley and conveying belt in the downstream straight portion. The second drive pulley, the second bending pulley and the second driven pulley, the second drive belt hung on them, the second transmission pulley and the second intermediate pulley, and the second transmission belt hung on them only It can be easily and reliably used. Therefore, the driving force of one driving source can be transmitted to the three conveyor belts easily and reliably.
[0242]
  Claim3According to the invention, since the driving force transmitting means transmits the driving force of one driving source to the three conveying belts only by the support shaft, the pulley, and the belt, it is possible to further suppress an increase in cost.
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing the overall configuration of a coin depositing and dispensing machine according to an embodiment of the present invention, where (a) is a side sectional view as seen from the left side of the machine body, and (b) is a plan sectional view. It is.
FIG. 2 is a plan view showing a temporary storage transport unit and a second lifting transport unit of a coin depositing and dispensing machine according to an embodiment of the present invention.
FIG. 3 is a side view of the temporary storage transport unit and the second lifting height transport unit of the coin depositing and dispensing machine according to the embodiment of the present invention as seen from the left side of the machine body.
FIG. 4 is a front view showing a first lifting height conveying unit of the coin depositing and dispensing machine according to the embodiment of the present invention.
FIG. 5 is a side view of the first lifting height conveying unit of the coin depositing and dispensing machine according to the embodiment of the present invention as seen from the left side of the machine body.
FIG. 6 is a plan view showing a coin sorting and conveying unit of the coin depositing and dispensing machine according to the embodiment of the present invention.
FIG. 7 is a side view of the coin sorting / conveying unit of the coin depositing / dispensing machine according to the embodiment of the present invention as seen from the right side of the machine body.
FIG. 8 is a side view of the coin sorting and conveying unit of the coin depositing and dispensing machine according to the embodiment of the present invention as viewed from the left side of the machine body.
FIG. 9 is a plan view showing a transport driving force transmission mechanism of a coin depositing and dispensing machine according to an embodiment of the present invention.
FIG. 10 is a side view showing the transport driving force transmission mechanism of the coin depositing and dispensing machine according to the embodiment of the present invention as viewed from the left side of the machine body.
FIG. 11 is a view from the rear of the machine body showing a transport driving force transmission mechanism of a coin depositing and dispensing machine according to an embodiment of the present invention.
FIG. 12 is a side cross-sectional view of the vicinity of a transaction part of a coin depositing and dispensing machine according to an embodiment of the present invention as seen from the left side of the machine body.
FIG. 13 is a plan view showing the vicinity of the transaction unit of the coin depositing and dispensing machine according to the embodiment of the present invention, and shows a state where the upper shutter is opened and the lower shutter is closed.
FIG. 14 is a front sectional view showing the vicinity of a transaction unit of a coin depositing and dispensing machine according to an embodiment of the present invention.
FIG. 15 is a plan view showing the vicinity of a transaction unit of a coin depositing and dispensing machine according to an embodiment of the present invention, and shows a state where both an upper shutter and a lower shutter are closed.
FIG. 16 is an operation explanatory view when only the upper shutter of the coin depositing and dispensing machine according to the embodiment of the present invention is opened, (a) is a state where the upper shutter and the lower shutter are closed, (b) ) Shows a state in which the upper shutter is opened and the lower shutter is closed.
FIG. 17 is an operation explanatory diagram when both the upper shutter and the lower shutter of the coin depositing and dispensing machine according to the embodiment of the present invention are closed, and (a) is a state where the upper shutter and the lower shutter are closed. , (B) shows a state in which the upper shutter and the lower shutter are opened.
[Explanation of symbols]
41 Aisle surface
42 Coin guide passage
43 Transport means (coin transport section)
44-46 Conveyor belt
48 1st straight section (straight section, upstream straight section)
49 2nd straight section (straight section, downstream straight section)
50 Connecting linear part (straight line part, intermediate straight part)
202A to 202F Conveying pulley
221 Drive source (motor)
222 Driving force transmission means (conveyance drive transmission mechanism)
233 Drive shaft
235 First drive pulley
236 Second drive pulley
237 Third drive pulley
224 to 227, 229 to 231, 239, 242, 252, 255 Support shaft
240 First bending pulley
243 1st driven pulley
245 First drive belt
244 First transmission pulley
248 First intermediate pulley
249 First transmission belt
253 Second bending pulley
256 Second driven pulley
257 Second transmission pulley
258 Second drive belt
261 Second intermediate pulley
262 Second transmission belt

Claims (3)

In a coin processing machine having a folded coin guide passage composed of three straight portions connected in series in a state where adjacent ones intersect with each other, and a conveying means for moving coins along the coin guide passage,
The conveying means is
Three pairs of transport pulleys arranged in parallel to the passage surface of the coin guide passage and arranged in pairs on the upstream side and the downstream side with respect to each of the linear portions,
Three conveyor belts that are disposed on each linear portion by being hung on each pair of conveyor pulleys and convey coins;
Driving force transmission means for driving these three conveyor belts with the driving force of one driving source;
I have a,
The driving force transmission means is
A drive shaft of the drive source is disposed along an axis of a pair of the transport pulleys provided with respect to the intermediate linear portion;
The intermediate portion is bent by the pair of first bending pulleys, so that the first driving pulley provided with an axis along the driving shaft and the axis of the conveying pulley provided for the linear portion on the upstream side. A first drive belt hung on a first driven pulley on which an axis is disposed;
The intermediate portion is bent by a pair of second bending pulleys, so that the second driving pulley provided with an axis along the driving shaft and the axis of the conveying pulley provided for the linear portion on the downstream side. And a second drive belt that is hung on a second driven pulley on which an axis is disposed . In a coin processing machine having a folded coin guide passage composed of three straight portions connected in series in a state where adjacent ones intersect with each other, and a conveying means for moving coins along the coin guide passage,
The conveying means is
Three pairs of transport pulleys arranged in parallel to the passage surface of the coin guide passage and arranged in pairs on the upstream side and the downstream side with respect to each of the linear portions,
Three conveyor belts that are disposed on each linear portion by being hung on each pair of conveyor pulleys and convey coins;
Driving force transmission means for driving these three conveyor belts with the driving force of one driving source;
Have
The driving force transmission means is
A drive shaft of the drive source is disposed along an axis of a pair of the transport pulleys provided with respect to the intermediate linear portion;
The drive shaft is provided with a first drive pulley, a second drive pulley, and a third drive pulley coaxially,
The driving force of the first driving pulley is along the axis of the conveying pulley provided to the first driving pulley and the linear portion on the upstream side by bending an intermediate portion with a pair of first bending pulleys. A first drive belt hung on a first driven pulley on which an axis is disposed, a first transmission pulley coaxial with the first driven pulley, and a coaxial with the conveying pulley provided for the linear portion on the upstream side. Transmitted to the conveyor belt provided for the linear portion on the upstream side via a first transmission belt hung on the first intermediate pulley,
The driving force of the second driving pulley is along the axis of the conveying pulley provided to the second driving pulley and the linear portion on the downstream side by bending an intermediate portion with a pair of second bending pulleys. A second drive belt hung on a second driven pulley on which an axis is disposed, a second transmission pulley coaxial with the second driven pulley, and a coaxial with the conveying pulley provided for the linear portion on the downstream side. Transmitted to the conveyor belt provided for the linear portion on the downstream side via a second transmission belt hung on the second intermediate pulley,
The driving force of the third drive pulley is transmitted to the conveyor belt when the conveyor belt provided to the intermediate linear portion is hooked on the third drive pulley. . The coin processing machine according to claim 1 or 2, wherein the driving force transmitting means transmits the driving force of the one driving source to the three transport belts only by a support shaft, a pulley, and a belt.

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