JPS6011987A - Money processor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention]

[Technical Field of the Invention] The present invention provides a money store (1) having a money storage removably installed in a housing, and dispensing money from the money storage. I! There are many things related to the equipment. . [Technical backstory of the invention and its problems 1 This type of money processing device is 1 series: 1

[l An example of an automatic transaction device that can automatically withdraw deposits using a Tushka card, etc. Then, the cash within the withdrawal limit is discharged from the payout money storage section of the money storage to the money 11J, and two bills are taken out at a time from the payout money storage section or the money 11J is disposed of. IL h9. The customer forgot to take the issued banknotes!, :J, U'eL At the opening of the meeting, collect the banknotes in the collection money storage section of the money storage J. However, it is structured as follows. The conventional device has the following features: 1. A non-detection means for detecting whether or not the money storage is attached to the housing of the money storage; The collected money detection means that detects fingers was provided separately. Is the device turned into a doll? There were problems such as difficulty in maintaining the D Ill and rain detection means. [Object of the Invention] The present invention has been made in view of the above circumstances, and its purpose is to detect whether or not a money storage is attached to the housing and to detect the amount of money stored in the money storage. Both can be done based on the output from one detector,
To provide a money processing device that can reduce the size of the device and make it easier to maintain.C.
be. [Summary of the Invention] In order to achieve the above object, the present invention provides a money storage with a movable member that changes its position when it comes into contact with money stored in the money storage, and also changes the position of this movable member. A detector for detecting is provided in the housing, and the output from the detector is used to detect both the absence of the first place on the V body of the money storage box and the detection of hanging of money stored in the money storage. It is structured so that it can be carried out according to the following. [Examples of Carrying Out the Invention] Hereinafter, embodiments of the present invention will be described and explained with reference to the drawings. FIG. 1 shows an embodiment in which the money processing device of the present invention is applied to an automatic transaction device (a so-called ΔT'IV+ that can automatically withdraw silver and gold using a cash card or the like). FIG. 2 is a front view of the operation guide display section of the device, FIG. 33 is a perspective view showing the internal layout of the Ir1l installation, and FIG. 4 is a perspective view of the card processing mechanism and slips. Side sectional view of processing machine 4M section, Fig. 5<A
), (B) is an explanatory diagram showing the front side of the transaction medium, '1J explanatory diagram showing the back side of the transaction medium, Figure 6 is a front cross-sectional view of the slip processing mechanism, and Figure 7 is a spindle-shaped 11-ra correction fence. Perspective view, No. 8
The figure is a side cross-sectional view of the dispensing banknote processing section. First, the external structure of the automatic transaction device that is the embodiment device will be explained. In FIG. 2(゛As will be described in detail later, the items received are the top lids of the banknote storage compartment 1 to 1. 3 is provided with an operation guide display section 4 for interacting with the user.Furthermore, at the front end 5 of the housing 1, there is a card slot for inserting and withdrawing a medium such as a K11 card issued by a bank. [1G and a banknote lower from which a predetermined banknote is ejected are distributed to the left and right in the figure.
This is the key to lock it. Also, on the -L side of the card slot 6, a cash register -1- is released as a receipt fii.
[J 134 is obsolete]. Next, the specific structure of the front nN operation guide display section 4 will be explained with reference to FIG. 11 in the upper left of the diagram is the temperature displayed during handling.
When [-3 In use] lights up again, the operation is available. Reference numeral 12 on the right side of the figure is a keyboard including numerals 4--, numeric keys 12A for inputting amounts, balance inquiry = 1--'I 213, correction key 120, cancellation key, -12D, 10,000 yen'' key 12[ It is composed of. At the top of this keyboard 12 is an amount display 13. A balance display 14 and an attendant call key 15 are provided. The guide part extends in a straight line from the middle part of the left end in the figure,
On the way up the slope, you will see the amount display 13. Balance! (From the right end of the diagram, including the temperature reading '1/I and the staff call key 15/
The stripe line 16 is printed on the top of the 'l' J
Figure 1, Figure 1,] In the straight section on the I- side, insert a stripe in 16', 16',
7Δ, Transaction selection guide WJ17B, PIN guide side 17C
1 amount information + 11' + 171. ). Card receipt guide column 'I 7 II, bill receipt guide 1.
¥+17r is set in a frame shape. 16Δ is an arrow indicating the steering direction. 1Here, forward? 1' four types of guides 1i1'l 17Δ~17D are input guide side 2
i A' (Two types of information columns: 'Yes, After? 1' 17
L, 1-71- is the receiving guide side 21C, and both are connected via the communicating guide (1 yen + 2113).
[: is divided into upper and lower parts around the stripe line 16, d3, upper area is stopped, i+a, operation guide, upper area 19△
~19 [indicates abnormal operation system J: turn a3,
ηΔ indicates the upper and lower states in the stripe line 16, respectively.
L E I) 18, [set number l-1-020 of 11), one of them is lit E! In particular, there are J's and C's who need to know the operation status to their customers. Said communication guide 1 [1121134, 4 units divided and arranged in a row'l) L [L122 Nyo2'Clf+i
During communication between the device and the host computer, these four LFDs 22 are blinked in sequence to notify the customer of the progress of the communication. Furthermore, please write 1. Do it from the beginning below in the middle of the diagram.
1-E to inform customers of abnormal processing status such as , [please contact the counter], and ``A staff member will be on hand.''
D23 is divided into upper and lower parts. In addition, the LEDs 18 and 20 in the strive wine 16 are marked with Δ to indicate normal operation [ED18 is, for example, a green LED, and the LED 20 is a red LED to distinguish between the two. According to the operation guide display section, an arrow 16A is set in the Strive wine 16 to indicate how to operate] FB, and along this arrow 16A is set (guidance columns 17A to 17F are set). , Transaction selection guide 11v
Each H except 117B is equipped with an LED indicating normality or abnormality with a 1Δ mark and a v mark, which makes operation easy and provides a very easy-to-understand message for the customer. Especially the l-E l marked with △.
) and the +-, +-+) of the V mark as mentioned above, it is possible to color code the J-(wa! Selection 1! Guide +1V1
Through the stripe line of 17B: I: Nito h I,
Different transaction information is written on the front and back sides respectively (t, 1) (transaction medium, for example, a selection key to perform the IN withdrawal desired by the customer when a Kitotshu card (also referred to as a card in J Strike A) is inserted. /IO is (1), the front of the card (△
The selection key /IOA on the back of the card (13) and the selection key 40r3 on the back of the card (13) are selected.
Manual guidance field 2'1Δ bordering on communication guidance field 2113
and receiving guide side 21C (one division number), it is convenient to handle the C, especially when there are four LEs in one front edge during communication.
The system is designed to avoid flashing D22 sequentially, but normally in this type of device, the J7 uni 1 no (J7 uni 1 no) which prepares the withdrawal paper ji'j and processes the slip at the same time (this takes time, so the processing at this time is It is very effective to know the striking situation1, and since the LED in the LS indicator is installed in the thin stripe wine 16, it is possible to reduce the area occupied by the printed circuit board, etc., and it is inexpensive. It should be noted that only when the four LEDs are sequentially lit during communication as described above, one LEI) may be blinked. Next, the internal layout of the entire apparatus of this embodiment will be explained based on FIG. The upper lid 2 is designed to be able to amplify the sound by approximately 0 degrees with respect to the housing 1, and the card inserted into the card slot 6 is placed in the back corresponding to the card slot D 6 shown in FIG. Processing card store Fl! Mechanism part 24
There is a △, and further behind it is a slip office 1 that records transactions and issues receipts! l! rA groove 2/
I[3 is staged. In addition, the inner part corresponding to the banknote entry/exit lower shown in Figure 1 is a banknote withdrawal area for discharging transaction banknotes, etc.]! ! A mechanism section 25 is provided. The dispensing banknote processing mechanism section 25 is provided with a banknote storage 200 in which banknotes for transactions and the like are stored. This banknote storage 200 is arranged so that it can be attached and detached from the side of the housing 1 when the upper sand 2 is in the open state as shown in FIG. Therefore, when this automated teller machine is used by being placed on a store counter, etc., the clerk can attach and remove the banknote storage 200 from above the automated teller machine, allowing the teller to maintain a comfortable posture. Banknote storage 200? '＋II! +! 'c'd,'A h't'))
The operability will be significantly improved. Furthermore, on the back side inside the housing 1, there is a control unit 26 that controls the above-mentioned parts.
is set up. In addition, the above-mentioned upper fi2L is attached to the housing '1 via a hinge (not shown), and is configured to be held by the stopper shown on the right in the open state. (1゜Next, referring also to Figures 4 and 5 (Δ) and (13), the card processing IP
l! 4f' is explained as part 2/l△ correction<K Mi formation. A guide pair Gl that guides and supports the front and back sides of an inserted card toward the inner slot j of the card slot 116 is disposed in 1, and the card supported by this guide pair G1 is guided by the guide pair G1. The first conveyance 1''-Las 1103, the second conveyance [''-La pair 10]
4Δ, third 11r! A feed roller pair 10413, a 1-ra pair 108 for the first conveyance, and a 1-ra pair 110 for the fifth conveyance.
A transaction medium conveying means (hereinafter also simply referred to as a card conveying section) Ll is provided.Then, on the card entrance/exit side of this card conveying section L1, there is a '1' section consisting of a light emitting diode and a light receiving element. A detector 100 is arranged, and a second detector 106 consisting of a light emitting diode and a light receiving element is also provided in front of the second transport [+-RA pair 104Δ. A solenoid 101 is disposed below the side of the solenoid 101, which is activated by a signal when a card is inserted (for example, a signal from the first detector 100). 1R ivy 102 is installed to close the door and open the card entry/exit path by lowering and opening the card entry/exit path due to the operation of the solenoid 101.Furthermore, a first step is provided to read transaction information, e.g., magnetic information, from the card being conveyed. For example, the first magnetic head 105Δ is located along the axis (not shown) of the second conveyor pair 104Δ and above the conveyance path Rc formed by the guide pair G1. The magnetic information is read from the upper surface of the card that is being conveyed.Similarly, the card that is being conveyed after passing through the first magnetic head 1058 is configured to read the magnetic information from the top surface of the card being conveyed.
A second reading means for reading transaction information, such as magnetic information, such as a second magnetic head 105B, is connected to the third conveying roller pair'.
104 is provided along the direction of the axis (U in the figure) of 3 and below the WJ 3 The magnetic head 105A is configured to read magnetic information, and installed as described above). The length J is set to be larger than the rim. Therefore, the second magnetic l\hood 05
When reading the card (1) by B, the card has already passed through the first f-air head 105A, so the card is moved to the second magnetic spatula t'105 [3k
m rush ('?l 'J *) Chikato/, J' 3rd
(1) Completely prevent unstable reading state of the '1st magnetic head 105A, which is affected by the impact of YJ applied to the card when the card enters the nip portion of the pair of feed rollers 104B. 1 can be done. And the card transport section [
-1, a third detector 109 consisting of a light emitting diode and a light receiving element is provided between the fourth pair of conveying rollers 108 and the fifth pair of conveying rollers 110. In addition, the frontmost part 5 of the case pair ``l'' and the first conveyor 1''-ra pair 1
What distance l is the center of 03? ! The IN is configured to extend beyond the length of the card in the longitudinal direction, so that the leading edge of the card is always located within the four parts 5Δ. Further, the drive system of the card transport section L1 is a pulse motor 111, etc.
'+04A, 10/IB, 108. It is constituted by a transmission means consisting of a timing boolean group 112 and a timing belt flY 113 for transmitting the driving force from the pulse 111 to the pulse 110. Here, the card used for this physical device is shown in Figure 5 (Δ).
, (+3). What is indicated by P in each diagram is different information on the front and back sides (hereinafter referred to as transaction information b)
The medium (hereinafter also referred to as transaction medium) on which information is recorded is, for example, a card that has magnetic information surfaces of two types of standards, one for the financial industry and one for the credit industry, which are currently used in Japan. As shown in FIG. 5(A), this is a JI type of JIS-8-9560 in which gold 811 is used on the surface of the card board 301 made of resin or the like.
Article's death! A moxibustion stripe 302A is formed on the surface of the card board 30'I as shown in FIG. 5(B).
(Three magnetic straps conforming to type 50 302
B is formed. Furthermore, on the surface of this card], there is a J-emboss mark 301△ formed with unevenness on the card substrate -[, which contains riJ status information such as the contract bank branch number and the customer's [-1 seat number 23]. Next, slip processing 1] 1111 drawing section 24 [3 no j 1 cho 1 j
The construction will be explained with reference to FIGS. 4, 6, and 7. In FIG. 6, reference numeral 119 denotes a slip storage box, in which slips recording transaction details and the like are arranged. Slip R is cash register t-R+ ji1 that can be transferred by push button! -Naru R2 and two single P IJi j, : /,
：J：Re(ori) Along the longitudinal direction of this slip R, there are a plurality of slots [1 hole (shown in the figure)] at equal intervals, and the same Lj part of the slip storage box 119 is provided. The paper is conveyed by engaging the sprocket 1- of the sprocket wheel 120A provided above.A printing device 121 equipped with a print head 122 is provided above the sprocket wheel 120A, and the printing The document ``J'' is placed between the platen 123 placed opposite the tip of the head 122 and the document ``J'' is printed. 2-Pool R2 and a separating plate 124 with a diameter of 11 g are installed.A perforation r1 ( fissure f9i that ruptures along the
The device 300 is divided into stages. This tearing device 300 includes a first clamping and conveying means for clamping and conveying the cash register hR1, for example, a first separation 1''-ra pair 125Δ, 125[3(12
5Δ is the drive [summer-la and 1.125B is the pinch [ ]-la) and this first minute ll1lo-la vs. 125A, 1
25B, in the case of the present embodiment, the receipt [the pip of the perforation r1 formed at '12! ] 13. If the conveying speed is relatively different, how long will it be? It +, +-Rakari'128△. 128B (128A is drive L: 1-L (with), 128
B is a pinch roller), J shown in FIG. [A guide member that also has a contact surface that contacts at least a part of the conveying direction 1J of 1J in the transport direction 1J, for example, in contact with the medium heat part, and J3 on both sides of this contact surface 1301Δ, from receipt 1<1 Separated non-contact surface 1301
With F'3, -(to increase the tension applied to receipt R1!, - to "C1" sheet [<1 to intersect in the conveying direction of register-1 to 1<1 near the contact surface. It is composed of a spindle-shaped 11-shi'1301 etc. which is bent in the direction (1, na; J3'1st valve part I cola pair 125Δ
, 12513 do 1°112 separation 11-shi vs. 128Δ,
A pair of temporary guides 127 are installed between 128B and 128B to guide the receipt 1<1.
A curved guide 129 for changing the conveyance direction of the cut cash register 1'' Rt by 180 degrees is provided at the front of the cut cash register 1'' Rt.
Receipt R+Gj guided by this curved guide 125)
;Send IfJ/1zl-130 and turn) J -1'
The paper is forcibly converted from the 90' conveying direction to the pair 13'1 of the sheet 13', and is conveyed in the direction of the i[plane of the apparatus. Then, the receipt R1 whose direction has been changed by the turn guide pair 131 is transferred to the receipt output L.
:J 134, a discharge belt system 132, 133 is provided which clamps and conveys the cash register 1-. Note that this discharge bell 1-system 133 includes the discharged cash register 1.
-1'? Receipt detection using optical detection of 1 @ 1
50 are provided. Also, the separation plate 12/1 separates #1 from the separation plate 12/1. On the side of the null R2, there is a guide r for the null, and a guide r for the null 12G. An emboss imprinter 135 is provided which immediately imprints the 1-emboss mark 301A of the received card P onto the serial R2.
A pair of di-1-nol guards 15) 1 are arranged apart from each other above the card conveyance path formed by the card transport path.
<2 UrJ iM tracts are constructed. - A flexible thin layer (
For example, a poly-1-silicon sheet (like a spring net with a thickness of about 50 μm) with a thickness of about 1m to 0.2II1m. J-I△ is taken and 11 is taken and it is C,
The transported Cytonol 1 and 2 can be positioned between this thin plate 151A and the card (). An embossing roller 115 (made of 1 mm outer circumference 1 mm rubber) is rotatably supported on a boulder 1358 above the gap between the nol guides 151. Therefore, this boulder 135Δ has the first
Figure b no 1, zu J, u (, - lead screw notes 1
~'142 is Mj: ? '+1 (and the lead screw shaft 114 is fitted into this lead screw l-1/I2 for rotation ii1 function, and this lead screw @11/1 is rotated by the emboss roller by the 11-reverse rotation). 115 is configured to reciprocate along the conveyance direction of the card P along with the boulders 115 and 115. (15 117 and 118 shown in FIG. It is a holder position detector, which is installed at both ends along the longitudinal direction of the lead screw shaft 114.Then, the contents of the card 1 are placed at the front of the -1-imperial boss imprinter 135. A direction changing guide 136 that guides the printed journal 2 and changes its direction, and a journal 11 winding neck 137 that winds up the journal R2 whose direction has been changed.
and is provided. In addition, in FIG. 6, the item shown by 138 is 1. of the digital V-nal R2. It is for optically detecting IJ breakage, and is a cylindrical cut detector placed oppositely with the terminal 1 and 2 in between. Here, the structure of the drive system of the slip processing mechanism section 24[3 will be explained with reference to FIGS. 4 and 6. A drive motor (pulse motor) 139 for sending slips is attached to the lower side of the slip storage box 119, and a timing pulley 139A provided on the rotation shaft of this drive motor 139
, a timing pulley 137Δ provided on the rotating shaft of the qt-null winding device 1, 37, a timing pulley 137Δ provided on the rotating shaft of the sub [J foot small eel 12o], a timing pulley 137Δ provided on the rotating shaft of the 12) The timing pulley (V not shown) attached to the rotating shaft of Δ, the timing pulley (not shown U) attached to the rotating shaft of the signal guide [1-5126] and the timing pulley attached to the rotating shaft (U not shown) of The driving force of the pulse motor 139 is now transmitted by the timing belt 140, which is stretched between the timing belts 140 and 140, which are stretched between the timing belts 140 and 140. 1'1 of the winding device 137 (the torque limiter installed on the i side slips to ensure smooth winding).
River. A timing pulley 147F3, which is connected to the rotating shaft of the drive motor 145, is mounted near the printing surface 121, and a timing pulley 147F3 is connected to the rotation shaft of the drive motor 145. +ffJ feed [1-raλ・
1128A, 128 [one of 3 1-1-ra 1 2 B
A (1) Timing pulley mounted on the shaft (=I)
(not shown). The timing belt 146 is stretched between the timing pulley 147Δ and the idle timing pulley Il).
Then, the drive horn of the drive motor 145 is transmitted to J and C. 1. The lead screw shaft 114 of the embossed imprinter 135 was rotated and the C emboss 1j-ra' 115 was reciprocated in the left and right direction in FIG.
6 is the drive motor '139 for feeding the slip as shown in FIG.
A timing pulley 116Δ is installed on the (1 side) of the drive motor 139 and is attached to the rotation axis of the drive motor 139.
Timing bell l-1 stretched between timing pulley 11/IΔ attached to lead screw shaft 114. 4. 3, a driving force of 1339 is transmitted over the entire drive. tl O, the rotation of the timing pulley 147Δ shown in FIG.
The rotation is transmitted to the driving pulley 147C shown in the figure, and this rotation is transmitted to the idle pulley 147C.
'7 Drive the ejection bell 1 to system 133 via the 1st group and the timing belt 1/I9 [1-RA'I/IO]. i is reached, and the ejection belt system 132 is driven by 11 (J.
IEI! li°11 section 24A and slip processing y111 section 24
[I will explain the effects of 3. Card P is inserted into and out of the card. When inserted from l 6, the first detector formed by the light-emitting diode - rhi, l, i
card]] is detected and energizes C solenoid l O 'I. The 111th time I saw Ivy'I 0 2. When the card P is further pushed in, the conveyance 11-ra pair 103 rotates, and the card P is conveyed along the card RJ 3M section 11 by ℃, and then the second conveyance [1-ra pair i (J/lΔ) is conveyed. , the transported card 1-) is JIS-1
3-9560 l'! b no na l uba based on J9 (
There is magnetic information on the surface of the card), and the magnetic information of the card]) is read by the air head 105Δ on the upper '1st f square. On the other hand, the transported card 1] is JIS-[3
-9 5 6 0 type 1! 11 processing b/. r. Raba (there is magnetic information on the back of the card), nothing acts on the upper '1st solid head 105Δ, 4T<passes,
Further, the card 1 is conveyed by the third pair of conveyance rollers 104B on the back side, and the second magnetic head 10513 at the bottom moves the card 1.
magnetic information is read. Card P further conveyed
If J is described based on FIGS. 5(Δ) and (B), and different transaction information is recorded on both the front and back jl+i of the sea urchin, then the first magnetic head 1058 and the second magnetic head 105B The magnetic information on both sides of the card is sequentially read. When reading magnetic information from the front, back, or both sides of a card like this, the distance between the first magnetic head 105Δ and the second magnetic head 10513 is as follows:
Since the length is set to be larger than the length of the card along the transport direction, when the second magnetic head 10513 reads magnetic information from the card, the card has already passed the first magnetic head 105Δ and reaches J3. When the card enters the second magnetic head 105B (enters the nip portion of the third conveyance [I-RA pair 1'0/I [3]), the The first effect that occurs
The unstable reading state of the magnetic head 105A can be completely prevented. The hot information is read from both sides of the J3 card [], and the power of transaction information desired by the customer is read out through the transaction instructions on the operation guide display section 4. It has become. When the card [] is correctly inserted 'p5'j, the conveyance of the card 1) continues, the position of the card IJ is detected by the third detector 109]C', and the predetermined grain iff l' t (see Fig. 4) is detected. Stop once.The 11th X of this J card 1) is the above-mentioned J, the pulse motor 111 is in IW motion, so J is used to control the number of pulses at the stop position of the card 1). is guaranteed. On the other hand, the slip 1 is - (v-heavy 4 pieces (゛fold l,: folded, subrokku 1 - small eel'120
A is pulled out and the printing device 121 prints on the rad 22.
and Braden 123 j (159 is torn and printed with two sheets in the middle. Printing device f"712 'I '7!
tl L/ :/ -h Rt and transaction records 1
The first separating roller pair 125Δ, 12 ji 13 to 2
The separation roller pair 128A, 128B'\ is carried. and receipt 1 (1 is the second minute pH'll-ra vs. 12
After reaching ε3Δ and 128F3 and being clamped, the Jll and J movement motor 139 for slip feeding is stopped by 1φ, and the rotation of the first pair of pH rollers 125Δ and 125F3 is stopped, while the slip is transferred to the cash register 1. The drive motor 1/I5 for conveyance is not stopped 1- and the second minute M (J-ra pair 128△, 1
28B continues to be driven in rotation. Then cash register-1-]ku1
The tension applied to gradually increases, and as it increases, the receipt R1 becomes Of IiL! Near the contact surface 1301Δ of the fusiform eye 1301, J4 is shown in FIG. , register-1~]<1 is non-uniform depending on the direction in which the receipt Rt is conveyed, and is maximum at approximately the center in the transverse direction of register-1~l<r. As shown in Figure 7, the perforation lr1 of the receipt Rs is torn near the bend.

[
The entire beginning of the transaction is torn along perforations 1 and 1, and R1 is divided into 111 votes to cashier 1 related to the transaction. Receipt 1 [1 is the curved guide 'I]
29, is discharged to the receipt outlet 134 via the turn guide pair 131 and the JJI delivery bell bells 1-132, 133. In this way, when converting receipt Rt into lj slips, a conventional cutter (fixed blade, movable blade, etc.) is not used, so
It not only simplifies the structure for converting receipts into single sheets, but also prevents receipts from jamming due to contact with the cutter.
Furthermore, there is no need to periodically replace the cutter, making maintenance easier. On the other hand, the Ic dil? - Null R2 is an emboss imprinter 135 that suppresses and transfers the embossed mark 301A (see Fig. 6) which is the embossed part of the card P. It will be done. Here, the aforementioned card P was temporarily stopped at the predetermined position P1, but this position is the emboss print 1~ position. In the embossing imprinter 135 of this device, the sixth
As shown in the figure, the thin plate 151A is provided between the di-V-pull guides 151, and the journal 1 and 2 in the 1-emboss imprinter 135 are guided by this, so that they are not transported. It is possible to completely prevent the coming journal R2 from getting clogged or damaged in the gap between both jar pull guides 151, and moreover, the embossed spring 1
〜Sometimes, the 19th plate 151Δ is interposed between the embossed mark 1155 and the jar pull R2, so even if the upper end surface of the J embossed mark 30'1Δ has a low profile, the thin plate 15'1Δ is flexible. Emboss mark 301△ depending on gender
Height and low'; bends to follow, embossed L1-L115
Is the pushing force from Ji1? -Achieving a clear emboss print l- (pressure transfer) that is applied uniformly to the null R2 -2! Ru. When discharging this card, follow the reverse of the previous case and enter and exit the card [discharged from Colo]. Further, if the magnetic contents of the card P are read and the card r) loses its right column character, the card P is collected η. In this case, as shown in FIG. 4, the cards P, which are conveyed by the device P1, are conveyed further forward by the drive of the barometer 111, and are slid on the recovery shoes 1 to 144 and accumulated. By the way, the tip of the card L] which was returned to the card slot 6 without being collected will always be located above the innermost four parts 5Δ (see FIG. 4) of the na-most part 5 of the housing 1, as described above. Therefore, there is no need for any inconvenience such as collision with the MCI customer's body (↓f, therefore, loss of car IS (n accident).Next, referring to Figure 8, the above-mentioned withdrawal paper Processing (substitute part 25
The configuration of the system will be explained in 1. In the same figure, the one indicated by 200 is the banknote storage box 7: t)') j') When the jacket 2 is circular fQj, the -L side of the housing 1 is It is located at the position 2 and 417' of the banknote storage 200 relative to the housing 1.
(t'; To achieve fixed holding, the banknote storage 200 is r
A locking tool (4 in the figure), which can be attached to the banknote storage 200 by a fish, is installed inside the body 1, for example, above the banknote storage 200. This banknote storage FV
200 C, payout banknotes 11'y to store payout banknotes to customers, storage F111200A, and banknotes 1 to 2
A collected banknote storage unit 20013 is integrally configured to store banknotes that have been taken out, counterfeit banknotes, etc., or banknotes that the customer has forgotten (to be collected). The payout banknote storage section 20OA is the 1st and 2nd position of the banknote storage section.
It is formed in the upper row of 00a, and a plurality of banknotes r, YQ1 are arranged vertically with the banknotes facing sideways.The last part of banknote group Q1 (on the right side in the figure) A take-out roller 201 is disposed at the forefront (on the left side in the figure) pressed by the biased back-up plate 200C and takes out one bill per rotation of tJ'. It is configured such that banknotes are discharged from the banknote discharge port 200b by rotational driving. In addition, the collected banknote storage section 200B is the case 2 of the banknote storage.
It is formed in front of the lower stage of 00a, and the banknote storage 111
A pair of take-in rollers 200 take in the banknotes conveyed at 200 tl. is set up and configured. Also, the collected banknote storage section 20
In order to detect the skewer of banknotes collected at 0B, the banknote 1'? Two bodies 200
a; Rotate the movable part pivoted on the white r [for example, acti:
229 and the detection end 229B formed at the other end of the actuator 229 are optically detected. A light emitting element and a light receiving element are arranged facing each other at positions sandwiching the detection end.
) 230D is provided. Especially the above
- [- Since the casing 200ak of the banknote storage 229 is installed, and the detector 230D is located in the casing 11 of the device, these can detect the collected banknotes.
Detects the installed state of the banknote storage FR200 (e.g., presence or absence of the J3 banknote storage FR200 installed or not due to theft, etc.) at the beginning of use of the wood separation device (for example, detection of storage Flt 5! due to theft, etc.). It is something that can be done. l'f i13 In order to drive the ejecting l', l-ra 201, the tit drive 219 is removed from the housing 1. 200a is provided with an escape notch 2 to avoid interference between the drive motor 219 and the 0 piece-1 piece.
00C is formed), the rotation of the timing pulley 220△, which is attached to the shaft of the drive shaft 219, is transmitted through the timing belt 220C to the drive shaft 220.
011, and the rotation of this drive pulley 220P is transmitted to the rotating shaft of this one-wheel drive pulley 22013 (J tJ is shown in the figure).
The drive gear (take-out roller 2
01. Then, on the delivery side of the bills taken out one by one from the payout bill storage section 20OA, there is a roller group and a belt J:
A single-sheet conveying path 202 configured as follows is provided.
This single sheet transport path 202 is connected to a timing belt 220F mounted on the rotation shaft of the drive 219.
The conveyance path 202 is also equipped with an overlapping removal detector 204 which detects the thickness and also detects removal. Further, a detector 205 for detecting the number of banknotes that is sent out and counting by +1 is installed. - A temporary collection (21 parts 2
03 is installed (), and the banknotes that are conveyed are stacked in sequence (collection, stacked banknotes are shown in 02C).
. The number L conveyance [1-RA2
06Δ and a belt 206B, a reject conveyance path 206 is provided, and a drive roller 218Δ and a guide 11-ra 21813 are in contact with the lower side of the bells 1 to 206B of this reject conveyance path 206. The bell stretched on 218C [-206C/fi is installed (J). Therefore, the transported banknotes are
It will be temporarily integrated on 06C. In addition, on both sides of the temporary stacking section 203, there is a collection (1' + bill paste C).
Eh, a rotating guide 221 is provided on the delivery bag and operates to listen to the −(+1.; rg+ side.; A drive roller 210 is in contact nearby, and this drive ]-1-
A 1m feeding bevel l-208 is stretched between the roller 2'10 and the roller 211 installed at 1-h of the temporary accumulation section 203. i
i is a rocking i that can be rocked around the rotation axis of the 11-ra 210.
r! IJ 7′-C 1 connected by membrane 209,
The oscillating 7-m 209 has a connecting link 2'+4,
C+M by Kununku 2゛13 and drive motor 212
The link mechanism to be created is removed and JJ is used to avoid operating this link.
'I shows chain line 2'11A (7) position Flf *
Te rock! 7J Sa1! - C1-1 'r m fi'i
Part 203 Press 1 on the lff1 feed belt 206C! It is possible to transport i stack of banknotes Qz between two belts 20GC and 208 between Iυ-C. Rina 4] also
Each of the above 1 ((A movement I) -R 210.218Δ is driven by -C pulse through the drive belt 216 and -9215 j, and is rotated by 4. The C1 pulse is rotated -9215 in the forward and reverse directions. Especially J, the bell 1~208.206
C can change the running direction of G, turn JJ
The pulse motor 215 is rotated as shown in Fig. 33.
)'j (If it is driven to 11, it will be temporarily stacked in the stacking section 203. When reaching the figure r1
If the banknotes are driven in the direction, the forgotten banknotes remaining in the banknote U117 are sent 1112 to the collected banknote storage unit 20013 side via the lfi belt 2061.3. In addition, near banknotes 11 and 17 [this (3L)
217 that opens the banknote lower is μV) +
io function, and the seat valve 217 is opened by operating the solenoid 260 based on the payment from the control unit 2G (1 at λ).
, consists of 0. In the figure, 230A to 230C indicate the detection Fj, ? of each part consisting of a light emitting diode and a light receiving element. :,be. , JJ This banknote [17 is located in the frontmost part of the carrier 1 [J, four parts] 13, and the banknote to be sent out is
1. '+; (t) It becomes like this (there is. Next, the effect of L-recorded payment banknote processing machine +14 part 25) 511
(explained). Payout bill storage section 2 of bill storage section 200
Banknotes that have been previously marked 00A! iYQ++,C
1 Warp out 11-R 201, 1,-] to -(k each Fill 4;, C take out Re, 1 sheet + 1R feed path 202
Through-J-'C' Temporary! I f+! A predetermined number of sheets 1 are accumulated in the section 203, and at this time, the inner core removal detector 20
4 detects the thickness of one banknote by -i, 1 and converts it into an electrical signal) C detection (2, detects the thickness of one or more banknotes 1
, at the time of middle school 4th grade: 1th grade, i shi] non, Zukogyu Riruru. Therefore, the control unit 26 'l'! , I received a letter of credit from L.
Remove it at the point where it is pressed] - Remove the controller 201 from the start position [L = It will shift to CC rigid operation]) and (
1b). In other words, the J of the front 1i1j is swung by the rocking link 200%i of the above-mentioned 1 nonk machine, taken out, and the belt t-20 (3G of the temporary accumulation part 203 is −
Press the opening 11) to reverse the banknotes and send them to the reject conveyance path 20.
There are banknote storage F+, J and Unatsu-C which are collected in the banknote storage section 200E3 of 200 through 6 [). This J,
In this way, overlapping is reliably prevented and erroneous J1 numbers of the M1 number detector 205 are also prevented. In addition, if the banknotes are not removed, a predetermined number of banknotes are conveyed between the conveyor belt 208 and the conveyor belt 20 (3(') and the banknote l)7 side. At this time, the leading edge of the banknotes, etc. The aligning rotating guide 221 hears the above-mentioned "J" motion, and the V ivy 21'7 hears the above-mentioned "J" motion, and the banknote is conveyed to the banknote [17] side.At this time, the banknote is transferred to the outside of the banknote lower. When most of the tip is exposed to the
~2060.208. At this time, when the customer forgets to take the banknotes and a predetermined time τ has passed, the conveyor bells 1 to 20613.206C, 208 run in the reverse direction and collect the warped banknotes in the collected banknote storage section 20013 of the banknote storage 200. The Jj J-recorded example is just one example, and it goes without saying that various modifications can be made within the scope of the gist of the present invention. For example, the movable member in the above embodiment comes into contact with the money collected and stored in the collection money storage section of the money storage after it is taken out from the payout money storage section of the money storage. There are some types that rotate and displace depending on the amount of money being paid out (A-), but they are not limited to these. Depending on the m of money in the money storage, it is sufficient if there is a value of 1 II'/Ruru 6, and furthermore, the displacement is 3 times III J displacement As shown in the actual distance measurement, the two-emitting element and the light-receiving element are placed facing each other at the 11x position (1). It is not limited to the current type, but can be replaced with, for example, a movable part (a microphone that mechanically detects the displacement of Δ) or a JJ[18 switch, etc. a ” ('A'yro, 1 ma!, -Money is limited to banknotes and can be f fr! I"l.Effect of 1 shot 1'llJ] From the above explanation, it is clear that J, -) In the money handling device of the present defense, a movable part (A) is installed in the money storage, and the position of this movable member is detected. Since the detector is installed in the housing, it is possible to detect both the presence of money when it is attached to the housing of the money storage and the detection of money stored in the money storage. This can be done based on the output from the detector, which can lead to significant effects such as miniaturization and simplification of the device and ease of maintenance.
It is something that

[Brief explanation of the drawing]

Fig. 1 (11) An example of an implementation in which the money processing device of the present invention is applied to an automatic transaction device, a cash card, etc., and a so-called ATM that can automatically withdraw bank deposits. FIG. 2 is a front view of the operation guide display section of the device, FIG. 3 is a perspective view of the internal display of the device, and FIG. 4 is a perspective view of the card processing mechanism. and a side sectional view of the groove part of the slip processing machine, Fig. 5 (△), (Bi
t An explanatory diagram showing the front side of the transaction medium, an explanatory diagram showing the back side of the transaction medium, FIG. 6 is a front cross-sectional view of various parts of slip processing 1, and FIG.
The figure is a detailed perspective view of the spindle-shaped [l-ra], and FIG. 8 is a side sectional view of the dispensing banknote processing mechanism section. 1...R rest, 200...Money storage F
U, 229...Movable member, 230 D...
··detection;;:;.

Claims (2)

[Claims] (1) In a money processing device that has a money storage removably arranged in a housing and performs the process of dispensing money from the money storage, the device is displaced when it comes into contact with money stored in the money storage. In addition to providing a movable member in the money storage,
A detector for detecting the position of this movable member is provided in the housing, and both detects whether the money storage M+ is attached to the housing and detects hanging of money stored in the money storage. This is a money processing device that is characterized by the following: based on the output from the detector. (2) The movable member is rotationally displaced by coming into contact with money that is selectively collected and stored in the money storage after being taken out from the money storage. The money processing device described in .