CN105210120A - Connection mechanism, medium handling device, and method for manufacturing connection mechanism - Google Patents

Connection mechanism, medium handling device, and method for manufacturing connection mechanism Download PDF

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Publication number
CN105210120A
CN105210120A CN201480021815.6A CN201480021815A CN105210120A CN 105210120 A CN105210120 A CN 105210120A CN 201480021815 A CN201480021815 A CN 201480021815A CN 105210120 A CN105210120 A CN 105210120A
Authority
CN
China
Prior art keywords
axle
hole
fixture
shaft coupling
intercommunicating pore
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201480021815.6A
Other languages
Chinese (zh)
Other versions
CN105210120B (en
Inventor
高山诚
横仓竜二
宇贺神一秀
太田裕二
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Oki Electric Industry Co Ltd
Original Assignee
Oki Electric Industry Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Oki Electric Industry Co Ltd filed Critical Oki Electric Industry Co Ltd
Publication of CN105210120A publication Critical patent/CN105210120A/en
Application granted granted Critical
Publication of CN105210120B publication Critical patent/CN105210120B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/58Article switches or diverters
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07DHANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
    • G07D9/00Counting coins; Handling of coins not provided for in the other groups of this subclass
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16DCOUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
    • F16D1/00Couplings for rigidly connecting two coaxial shafts or other movable machine elements
    • F16D1/06Couplings for rigidly connecting two coaxial shafts or other movable machine elements for attachment of a member on a shaft or on a shaft-end
    • F16D1/08Couplings for rigidly connecting two coaxial shafts or other movable machine elements for attachment of a member on a shaft or on a shaft-end with clamping hub; with hub and longitudinal key
    • F16D1/0894Couplings for rigidly connecting two coaxial shafts or other movable machine elements for attachment of a member on a shaft or on a shaft-end with clamping hub; with hub and longitudinal key with other than axial keys, e.g. diametral pins, cotter pins and no other radial clamping
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2402/00Constructional details of the handling apparatus
    • B65H2402/50Machine elements
    • B65H2402/51Joints, e.g. riveted or magnetic joints
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2402/00Constructional details of the handling apparatus
    • B65H2402/60Coupling, adapter or locking means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2404/00Parts for transporting or guiding the handled material
    • B65H2404/60Other elements in face contact with handled material
    • B65H2404/63Oscillating, pivoting around an axis parallel to face of material, e.g. diverting means
    • B65H2404/632Wedge member
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/10Handled articles or webs
    • B65H2701/19Specific article or web
    • B65H2701/1912Banknotes, bills and cheques or the like

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Snaps, Bayonet Connections, Set Pins, And Snap Rings (AREA)
  • Separation, Sorting, Adjustment, Or Bending Of Sheets To Be Conveyed (AREA)
  • Devices For Checking Fares Or Tickets At Control Points (AREA)
  • Delivering By Means Of Belts And Rollers (AREA)

Abstract

A connection mechanism has: a shaft (31) which is rotatably supported, is rotated by the power of a drive section (36), and has a first hole extending through the shaft (31) in the direction perpendicular to the axial direction; a connection section (35) which is connected to one end of the shaft, transmits the power of the drive section to the shaft, and has a second through-hole extending through the connection section (35) in the direction perpendicular to the axial direction; a fastener (40) inserted into a communication hole to fasten the shaft and the connection section together, the communication hole being formed by causing the first hole and the second through-hole to communicate with each other; and a cover section for covering the communication hole so that the fastener having been inserted in the communication hole does not come out.

Description

The manufacture method of connect mechanism, media processing apparatus and connect mechanism
Technical field
The Japanese publication that the application advocates to apply on October 28th, 2013, the right of priority of No. 2013-223236, Patent, and its overall content and being incorporated in this instructions by reference.
The present invention relates to the manufacture method of connect mechanism, media processing apparatus and connect mechanism, such as, can be applicable to the switch of the throughput direction for switching bank note be arranged in cash ATM (Automatic Teller Machine).
Background technology
At present, the bill depositing/dispensing apparatus arranged in cash ATM (Automatic Teller Machine) is made up of following parts etc.: deposit and withdraw portion, and it becomes the input port of bank note and collects mouth; Discriminating portion, the Currency Type of its identification note and the true and false etc.; Interim reserve part, it receives bank note provisionally; Multiple cassette, it is according to Currency Type keeping bank note; Be connected their transport path.
The transport path connecting each portion has bifurcation, this bifurcation is provided with the switch for switching throughput direction.Bill depositing/dispensing apparatus can control the switching action of this switch, switches in the throughput direction of the bank note of bifurcation.
Here, adopt Fig. 9 A and Fig. 9 B that switch 100 is described.As shown in Figure 9 A, switch 100 is by rotatably to be supported and the axle vertical relative to transport path (not shown) 101 and multiple blades (blade) portion 102 (102A ~ 102C) be fixed on this axle 101 are formed.
Blade part 102 (102A ~ 102C) is made up of the base portion 103 of cylindrical shape of periphery and the multiple blades 104 be darted at across predetermined space on the periphery of this base portion 103 that cover axle 101 respectively, as a whole, be configured to pitch (fork) such comb shape.
In this switch 100, an end of axle 101 links via the turning axle 107 of shaft coupling (coupling) 105 with drive division 106, and along with the turning axle 107 of drive division 106 rotates, axle 101 rotates.
Further, bill depositing/dispensing apparatus makes the axle 101 of switch 100 carry out rotating to a direction and other direction and change the position of rotation of blade part 102 (102A ~ 102C), switches in the throughput direction of bifurcation thus.
Axle 101 and the shaft coupling 105 of this switch 100 are fixed by fixed pin 110 as shown in Fig. 9 A, Fig. 9 B, and shaft coupling 105 is fixed by screw 111 with the turning axle 107 of drive division 106.
Specifically, the axle 101 of switch 100 is provided with pin hole 112 for squeezing into fixed pin 110 in an end of shaft coupling 105 side in mode through on the direction of the central axis with axle 101.
Shaft coupling 105 is made up of following parts, cylindric axle side half body 105A, and it forms the axle hole 113 being used for embedded axle 101 along central shaft; And the rotation shaft side half body 105B of cylindrical shape, it forms the turning axle hole 114 of the turning axle 107 for embedding drive division 106 along central shaft.
In the axle side half body 105A of this shaft coupling 105, mode through on the direction of the central axis with axle side half body 105A is provided with the pin hole 115 for squeezing into fixed pin 110.In addition, in the rotation shaft side half body 105B of shaft coupling 105, mode through on the direction of the central axis with rotation shaft side half body 105B is provided with screw hole 116.
In addition, the turning axle 107 of drive division 106 is provided with screw hole 117 in mode through on the direction of the central axis with turning axle 107.
Here, in order to fix the axle 101 of switch 100 on shaft coupling 105, first, one end of axle 100 is embedded into the axle hole 113 of shaft coupling 105, contraposition is carried out in the position in each pin hole 112,115, makes the pin hole 112 of axle 100 be communicated with the pin hole 115 of axle side half body 105A and become an intercommunicating pore.
Further, in the intercommunicating pore that each pin hole 112,115 is communicated with, diameter and length with this intercommunicating pore roughly the same fixed pin 110 slightly less than this intercommunicating pore is squeezed into.Thus, axle 101 and shaft coupling 105 are fixed under the state linked.Fixing means based on such pin is general, and is known (for example, referring to Japanese Unexamined Patent Publication 11-175803 publication).
In addition, in order to closed coupling 105 on the turning axle 107 of drive division 106, first, the turning axle 107 of drive division 106 is embedded in the turning axle hole 114 of shaft coupling 105, contraposition is carried out in the position of each screw hole 116,117, makes the screw hole 116 of shaft coupling 105 be communicated with the screw hole 116 of turning axle 107 and become a screw hole.
Further, rotary screw 111 is while insert in a screw hole of each screw hole 116,117 connection.Thus, shaft coupling 105 and turning axle 107 are fixed with the state linked.Like this, connection shaft 101 and turning axle 107 is come via shaft coupling 105.Fixing means based on such screw is also general, and is known.
Summary of the invention
Invent problem to be solved
But, in above-mentioned switch 100, whenever carrying out switching action, axle 101 is rotated to a direction or other direction.When axle 101 rotates several times in this wise, at every turn all fixing to axle 101 and shaft coupling 105 being linked fixed pin 110 applies to impact, as a result, as shown in Figure 9 B, causes fixed pin 110 fluff and come off from pin hole 112,115.
Especially, when the pin of axle 101 or shaft coupling 105 becomes large with the gap (gutter, groove) between hole 112,116 and fixed pin 110, fixed pin 110 correspondingly easily comes off.
Further, in fact when fixed pin 110 comes off, axle 101 is separated with shaft coupling 105, and the rotation of drive division 106 is not passed to axle 101, axle 101 also non rotating, result, normally cannot carry out the switching of the throughput direction based on switch 100.
Like this, utilizing fixed pin 110 stationary shaft 101 with the existing switch 100 of shaft coupling 105, there is problem as follows: repeatedly carrying out in the process of switching action, fixed pin 110 fluff and cause coming off or action bad.
The present invention considers above point and makes, and proposes the manufacture method of connect mechanism, media processing apparatus and the connect mechanism more reliably carrying out action compared with existing.
The means of dealing with problems
The 1st aspect of the present invention is connect mechanism and media processing apparatus, and it is provided with following parts: axle, and it is rotatably supported and is rotated by the power of drive division; Linking part, one end of itself and this axle links, for transmitting the power of drive division to this axle; Fixture, it, by the intercommunicating pore that is inserted into the 1st hole through on the direction vertical with direction of principal axis that makes to be arranged at axle and is communicated with the 2nd through hole through on the direction vertical with direction of principal axis being arranged at linking part, fixes axle and linking part; And covering part, it covers the intercommunicating pore inserting fixture, and the fixture inserting intercommunicating pore is not come off from intercommunicating pore.
In addition, the 2nd aspect of the present invention is the manufacture method of connect mechanism, it is provided with following operation: one end of axle is linked with the linking part of the power for transmitting drive division to axle, wherein, this axle is rotatably supported and is rotated by the power of drive division, also by fixture inserted the 1st hole is communicated with the 2nd through hole intercommunicating pore in, fix the operation of axle and linking part, 1st hole to be arranged on axle and through on the direction vertical with direction of principal axis, and the 2nd through hole is arranged on linking part and through on the direction vertical with direction of principal axis; And structure after stationary shaft and linking part is installed the operation of covering part, this covering part covers the intercommunicating pore inserting fixture, and the fixture inserting intercommunicating pore is not come off from intercommunicating pore.
Thus, such as, even if axle rotates and applies to impact to the fixture of stationary shaft and linking part, also can prevent fixture from fluffing and situation about coming off from intercommunicating pore.
Invention effect
According to the manner, even if axle rotates and applies to impact to the fixture of stationary shaft and linking part, also can prevent fixture from fluffing and situation about coming off from intercommunicating pore, therefore, it is possible to prevent the action that causes due to fixing piece from falling bad.Like this, can realize can more reliably carrying out the manufacture method of the connect mechanism of action, media processing apparatus and connect mechanism compared with existing.
Accompanying drawing explanation
Fig. 1 is the overview diagram of the structure that cash ATM (Automatic Teller Machine) is shown.
Fig. 2 is the overview diagram of the inner structure that bill depositing/dispensing apparatus is shown.
Fig. 3 is the overview diagram of the structure that bifurcation periphery is shown.
Fig. 4 is the stereographic map of the structure of the switch illustrated in the 1st embodiment.
Fig. 5 A is the overview diagram of the structure of the linking portion that switch in the 1st embodiment and shaft coupling are shown.
Fig. 5 B is along the cut-open view after the B-B ' cutting of Fig. 5 A.
Fig. 5 C is the overview diagram of the structure in the pin hole of the shaft coupling illustrated in the 1st embodiment.
Fig. 6 is the overview diagram of the structure of the linking portion that switch in the 2nd embodiment and shaft coupling are shown.
Fig. 7 A is the overview diagram of the structure of the linking portion that switch in the 3rd embodiment and shaft coupling are shown.
Fig. 7 B is along the cut-open view after the C-C ' cutting of Fig. 7 A.
Fig. 8 A is the overview diagram of the structure of anti-shotpin releasing part in other embodiment.
Fig. 8 B is along the cut-open view after the D-D ' cutting of Fig. 8 A.
Fig. 9 A is the overview diagram of the structure of the linking portion that existing switch and shaft coupling are shown.
Fig. 9 B is along the cut-open view after the A-A ' cutting of Fig. 9 A.
Embodiment
Below, employing accompanying drawing explains the mode for carrying out an invention.
[1. the 1st embodiment]
[one-piece construction of 1-1. cash ATM (Automatic Teller Machine)]
First, the 1st embodiment is described.The surface structure of cash ATM (Automatic Teller Machine) 1 shown in Figure 1.This cash ATM (Automatic Teller Machine) 1 is arranged in such as financial institution etc., and carries out credit transaction between client or the transaction processing of to conclude the business etc. about cash of withdrawing the money.
Cash ATM (Automatic Teller Machine) 1 has the housing 2 of box.The front surface of this housing 2 is the face relative with client, is provided with client's reply portion 3 on the top of this front surface.
Client's reply portion 3 directly exchanges cash or bankbook etc. and notifies, about the information of concluding the business or the part accepting operation instruction, to be provided with card gateway 4, depositing and drawing port 5, operation display part 6, numerical key 7 and receipt issuing mouth 8 etc. between client.
Card gateway 4 is the parts inserting or discharge the various cards such as cash card.Be provided with card handling part (not shown) in the inboard of card gateway 4, this card handling part reads in the coding of accounts etc. of magnetic recording on various card.Depositing and drawing port 5 be client drop into will stored in bank note and discharge the part of the bank note that will take out to client.This depositing and drawing port 5 cover by gate (not shown), when only receiving and grant bank note between client, open gate and expose this depositing and drawing port 5.
Operation display part 6 is touch panels of touch sensor integration of the selection of the LCD (LiquidCrystalDisplay: liquid crystal display) of the guide picture that display is concluded the business and input type of transaction, password numbering or dealing money etc.Numerical key 7 is secondary or physical bonds of the input of the numeral etc. accepting " 0 " ~ " 9 ", during input operation for password numbering or dealing money etc.Receipt issuing mouth 8 is parts that distribution have printed the receipt of transaction content etc. at the end of transaction processing.The receipt handling part (not shown) printing transaction content etc. on receipt is provided with in the inboard of receipt issuing mouth 8.
Be described according to following such mode, the side being provided with client's reply portion 3 is set to the front side of cash ATM (Automatic Teller Machine) 1, its opposition side is set to rear side, from the angle views of the client stood on before cash ATM (Automatic Teller Machine) 1, on the left of it and right side is set to respectively left side and the right side of cash ATM (Automatic Teller Machine) 1.
Be provided with in housing 2 and the master control part 9 controlled or the bill depositing/dispensing apparatus 10 etc. carried out about the various process of depositing and withdrawing are unified to cash ATM (Automatic Teller Machine) 1 entirety.
Master control part 9 is formed centered by not shown CPU, reads and performs preset program, carry out credit transaction thus or the various process such as transaction of withdrawing the money in never illustrated ROM or flash memory etc.In addition, master control part 9 has the storage part be made up of RAM, hard disk drive or flash memory etc. in inside, in this storage part, store various information.
Bill depositing/dispensing apparatus 10 is provided with in inside control part 11 of depositing and withdrawing, and is controlled by this control part 11 of depositing and withdrawing.
Control part 11 of depositing and withdrawing is also same with master control part 9 is formed centered by not shown CPU for this, never read in illustrated ROM or flash memory etc. or perform preset program, carrying out the switching of the conveying destination of bank note etc. thus about the various process of depositing and withdrawing.In addition, control part 11 of depositing and withdrawing has the storage part be made up of RAM, hard disk drive or flash memory etc. in inside, in this storage part, store various information.
Housing 2 is provided with door to be opened/closed on the side of the part such as front-surface side or back-surface side, when operator etc. carries out maintenance operation etc., can remove lock as required and open door and visit inside.
[inner structure of 1-2. bill depositing/dispensing apparatus]
Then, adopt Fig. 2 that the inner structure of bill depositing/dispensing apparatus 10 is described.
Bill depositing/dispensing apparatus 10 has the housing 20 of box.In this housing 20, be provided with the portion of depositing and withdrawing 21, discriminating portion 22, interim reserve part 23, cassette 24 (24A ~ 24D), reject box 25 and transport path 26 (26A ~ 26M).In addition, although omit in fig. 2, in housing 20, be also provided with at its book office control part 11 (Fig. 1) of depositing and withdrawing.
Specifically, the upside in housing 20, has the portion that deposits and withdraws 21 of depositing and drawing port 5 in its anterior setting.In addition, the below in the portion of depositing and withdrawing 21 is provided with discriminating portion 22.In addition, the rear in the portion of depositing and withdrawing 21 is provided with interim reserve part 23, is provided with in the below of interim reserve part 23 and rejects box 25.On the other hand, the downside in housing 20, is provided with 4 cassette 24A ~ 24D abreast at fore-and-aft direction.
In addition, in housing 20, be also provided with the portion of depositing and withdrawing 21, discriminating portion 22, interim 23,4, reserve part cassette 24A ~ 24D, reject box 25 and connect their transport path 26 (26A ~ 26M).
The transport path 26 connecting each portion is made up of transport path 26A ~ 26M.In addition, transport path 26 has multiple bifurcation, this bifurcation is provided with the switch (omitting in fig. 2) for switching throughput direction (namely carrying destination).In addition, bank note is rectangular, carries to make its short side direction direction parallel with throughput direction.
Bill depositing/dispensing apparatus 10 is made up of such inner structure, and control part 11 of depositing and withdrawing controls various piece and carries out the deposit of bank note and withdraw the money.
That is, bill depositing/dispensing apparatus 10 is such as when carrying out credit transaction, opens the gate of depositing and drawing port 5, when being inserted notes here to this depositing and drawing port 5 by client, closed shutter, is one by one separated this bank note by the portion of depositing and withdrawing 21, and is sent to discriminating portion 22 via transport path 26A.
Be sent to the bank note in discriminating portion 22 by differentiating that portion 22 is to differentiate Currency Type, the true and false etc., the bank note being identified as the normal bank note that can deposit is sent to interim reserve part 23 via transport path 26C, 26D, and accumulates in this.On the other hand, the bank note being determined as the rejection bank note being not suitable for depositing by discriminating portion 22 is returned to the portion of depositing and withdrawing 21 via transport path 26C, 26E, and accumulates in this.Then, bill depositing/dispensing apparatus 10, by opening the gate of depositing and drawing port 5, returns this bank note (rejection bank note) to client.
Then, when credit transaction is determined, the bank note be accumulated in interim reserve part 23 is one by one separated by bill depositing/dispensing apparatus 10, and is again sent to discriminating portion 22 via transport path 26D, 26C.
The bank note being sent to discriminating portion 22, by differentiating that portion 22 differentiates Currency Type etc. again, is sent to the cassette 24A ~ 24D specified according to Currency Type, and accumulates in this via transport path 26B, 26F, 26H ~ 26K.
Like this, bill depositing/dispensing apparatus 10 carries out the deposit of bank note.
In addition, bill depositing/dispensing apparatus 10 is such as when withdrawing the money transaction, bank note number according to each Currency Type of the customer requirement amount of money one by one sends bank note from each cassette 24A ~ 24D, and is sent to discriminating portion 22 via transport path 26H ~ 26K, 26G, 26F, 26B.
Be sent to the bank note in discriminating portion 22 by differentiating that portion 22 is to differentiate Currency Type, the true and false etc., the bank note being identified as the normal bank note that can withdraw the money is sent to the portion of depositing and withdrawing 21 via transport path 26C, 26E, and accumulates in this.On the other hand, the bank note being determined as the rejection bank note being not suitable for withdrawing the money by discriminating portion 22 is sent to interim reserve part 23 via transport path 26C, 26D, and accumulates in this.
Bill depositing/dispensing apparatus 10, when accumulating the bank note in the portion of depositing and withdrawing 21 and reaching the requirement amount of money, opens the gate of depositing and drawing port 5, joins accumulation to the bank note in the portion of depositing and withdrawing 21 thus to client.
Then, bill depositing/dispensing apparatus 10 by interim reserve part 23 storage bank note (rejection bank note) via transport path 26D, 26M be sent to reject box 25 carry out keeping.
Like this, bill depositing/dispensing apparatus 10 carries out withdrawing the money of bank note.
[structure of 1-3. switch]
Then, adopt Fig. 3 to Fig. 5 A ~ C, the structure of the switch 30 of the bifurcation being arranged on transport path 26 is described.In addition, there is multiple bifurcation in transport path 26, each bifurcation is provided with switch 30, because the basic structure of switch 30 is all identical, so here as an example, the switch 30 that the bifurcation in the coupling part being positioned at transport path 26G and transport path 26J is arranged is described.
As shown in Figure 3, the transport path 26G extended at fore-and-aft direction is formed by multiple band Bt and roller Rr etc., and the transport path 26J extended at above-below direction is formed by multiple roller Rr etc.
Further, being positioned at the bifurcation of coupling part of these transport paths 26G and transport path 26J, the switch 30 for switching throughput direction is provided with.
Switch 30 as shown in Figure 3 and 4, by rotatably to be supported and the axle 31 vertical with transport path 26G and 26J and multiple (such as 3) blade part 32 (32A ~ 32C) be fixed on this axle 31 are formed.
Blade part 32A ~ 32C is made up of the base portion 33 of cylindrical shape of periphery and multiple blades 34 of projecting across predetermined interval on the periphery of this base portion 33 that cover axle 31 respectively, as a whole, forms the comb shape as pitched.
As shown in Figure 5A, an end of axle 31 links via the turning axle 37 of shaft coupling 35 with drive division 36 this switch 30, and axle 31 rotates along with the turning axle 37 of drive division 36 and rotates.
Further, bill depositing/dispensing apparatus 10 as shown in Figure 3, by making the axle 31 of switch 30 rotate to a direction and other direction the position of rotation changing blade part 32, switches in the throughput direction of bifurcation thus.
In fact, when switch 30 is arranged in the position of rotation shown in Fig. 3 solid line, the bank note BL transported from front by transport path 26G is considered as the below (that is, the direction of transport path 26J side) vertical with transport path 26G at the throughput direction of bifurcation.On the other hand, when switch 30 is arranged in the position of rotation that Fig. 3 is shown in broken lines, by the rear that the bank note BL transported from front by transport path 26G is considered as along transport path 26G at the throughput direction of bifurcation.
Thus, when switch 30 is arranged in the position of rotation shown in Fig. 3 solid line, the bank note BL transported from the front of bifurcation by transport path 26G is directed to the transport path 26J vertical with transport path 26G in bifurcation, is transported to below by transport path 26J.
On the other hand, when switch 30 is arranged in the position of rotation that Fig. 3 is shown in broken lines, the bank note BL transported from the front of bifurcation by transport path 26G, directly by bifurcation, is transported to rear by transport path 26G.
Bill depositing/dispensing apparatus 10, by making switch 30 carry out action in this wise, switches the throughput direction of bank note BL.
Here, the connect mechanism of the turning axle 37 linking switch 30, shaft coupling 35 and drive division 36 is explained.As shown in Figure 5A and 5B, axle 31 and the shaft coupling 35 of switch 30 are fixed via columned fixed pin 40, and shaft coupling 35 is fixed via screw 41 with the turning axle 37 of drive division 36.
Specifically, the axle 31 of switch 30 is provided with pin hole 42 for squeezing into fixed pin 40 in an end of shaft coupling 35 side in mode through on the direction of the central axis with axle 31.
Shaft coupling 35 is made up of the axle side half body 35A of cylindrical shape and the rotation shaft side half body 35B of cylindrical shape in the turning axle hole 44 that forms the turning axle 37 for embedding drive division 36 along central shaft forming the axle hole 43 being used for embedded axle 31 along central shaft.
On the axle side half body 35A of this shaft coupling 35, to be provided with pin hole 45 for squeezing into fixed pin 40 by the axle hole 43 of axle side half body 35A with through mode on the direction of central axis.In addition, on the rotation shaft side half body 35B of shaft coupling 35, to be provided with screw hole 46 by the turning axle hole 44 of rotation shaft side half body 35B with through mode on the direction of central axis.
The turning axle 37 of drive division 36 is provided with screw hole 47 in mode through on the direction of the central axis with turning axle 37.
Here, in order to fix the axle 31 of switch 30 on shaft coupling 35, first the axle hole 43 making an end of axle 31 embed shaft coupling 35 links, contraposition is carried out in the position in each pin hole 42,45, makes the pin hole 42 of axle 31 be communicated with the pin hole 45 of axle side half body 35A and become an intercommunicating pore.
Further, be communicated with in each pin hole 42,45 and squeeze into the diameter fixed pin 40 that length is roughly the same with this intercommunicating pore than this intercommunicating pore is slightly little in an intercommunicating pore of formation.Thus, axle 31 and shaft coupling 35 are fixed under the state linked.
In addition, the pin of shaft coupling 35 such as shown in Fig. 5 C, can make the end in outside slightly wider than other parts, to be easy to squeeze into fixed pin 40 with hole 45.Even if the pin hole 42 about axle 31 is also same.
In addition, in order to shaft coupling 35 is fixed on the turning axle 37 of drive division 36, first the turning axle 37 of drive division 36 is made to embed the turning axle hole 44 of shaft coupling 35 and link, by the position mechanical cow contraposition of each screw hole 46,47, the screw hole 46 of shaft coupling 35 is made to be communicated with the screw hole 47 of turning axle 37 and to become a screw hole.
Further, rotary screw 41 is while insert in a screw hole of each screw hole 46,47 connection.Thus, shaft coupling 35 and turning axle 37 are fixed under the state linked.
Thus, the axle 31 of switch 30 is linked via shaft coupling 35 with the turning axle 37 of drive division 36.
But when only utilizing fixed pin 40 to fix axle 31 and the shaft coupling 35 of switch 30, as mentioned above, make switch 30 rotate in process several times to a direction and other direction, fixed pin 40 likely fluffs and comes off.
Therefore, in the present embodiment, as shown in Figure 5A, the base portion 33 of the blade part 32C closest to shaft coupling 35 be fixed in 3 blade part 32A ~ 32C on axle 31 is made to extend to the axle side half body 35A of shaft coupling 35, and utilize the prolongation 33x of this base portion 33, cover the mouth inserting the pin hole 45 of the axle side half body 35A of fixed pin 40.
Thus, as shown in Figure 5 B, fixed pin 40 becomes the state of side closure in the prolongation 33x of base portion 33, and is fixed and held in pin hole 42,45.Thus, even if switch 30 repeatedly rotates on a direction and other direction, fixed pin 40 also can not fluff and come off.
In addition, in the present embodiment, as the manufacturing sequence of switch 30, first axle 31 and shaft coupling 35 are linked and utilize fixed pin 40 to be fixed.Then, securing axle 31 by utilizing fixed pin 40 is fixed in the mould of blade part 32 (32A ~ 32C) with the parts of shaft coupling 35, make it solidify after cast becomes the resin of blade part 32 (32A ~ 32C) in this mould, make axle 31, shaft coupling 35 one-body molded with blade part 32 (32A ~ 32C) thus.
Like this, by manufacturing switch 30, as shown in Figure 5 B, even if produce gap (groove) due to the error etc. manufactured between the pin hole 42,45 of axle 31 and shaft coupling 35 and fixed pin 40, also the resin becoming the base portion 33 of blade part 32C can be flowed in this gap (groove), thus this gap (groove) is by resin landfill, subsidiary groove (ガ タ つ I) between the pin hole 42,45 of axle 31 and shaft coupling 35 and fixed pin 40 thus can be prevented.
[1-4. sums up and effect]
As before this, in bill depositing/dispensing apparatus 10, via shaft coupling 35, the axle 31 driving switch 30 is linked with the turning axle 37 of drive division 36.In addition, in bill depositing/dispensing apparatus 10, the fixed pin 40 being inserted into the pin hole 42,45 vertical with direction of principal axis is utilized to fix axle 31 and the shaft coupling 35 of switch 30.
Wherein, the base portion 33 of the blade part 32C be fixed on the axle 31 of switch 30 is extended to shaft coupling 35 by bill depositing/dispensing apparatus 10, to cover the pin hole 45 of the shaft coupling 35 inserting fixed pin 40.Thus, fixed pin 40 fixedly remains in pin hole 42,45, can prevent the rotation due to axle 31 and the situation causing coming off that fluffs.
In addition, in bill depositing/dispensing apparatus 10, after utilizing fixed pin 40 stationary shaft 31 and shaft coupling 35, the resin-cast becoming blade part 32 (32A ~ 32C) is cured to mould, makes axle 31, shaft coupling 35 one-body molded with blade part 32 (32A ~ 32C) thus.Thus, gap (groove) between the pin hole 42,45 and fixed pin 40 of axle 31 and shaft coupling 35 flows into the resin of blade part 32C, utilize resin to come this gap of landfill (groove), thus the gap between the pin hole 42,45 of axle 31 and shaft coupling 35 and fixed pin 40 can be prevented.
In addition, by preventing gap in this wise, the rotation of the turning axle 37 of drive division 36 can be made to transmit to axle 31 smoothly, axle 31 can also be made to rotate smoothly.In addition, by preventing subsidiary groove, the situation of axle 31 breakage can also be prevented, the life-span of switch 30 can be extended compared with the existing.
According to above structure, bill depositing/dispensing apparatus 10 can prevent fixed pin 40 from fluffing and coming off, and action can be prevented bad, like this, more reliably can carry out action compared with the existing.
[2. the 2nd embodiment]
Then, the 2nd embodiment is described.2nd embodiment is the embodiment that the structure (i.e. the structure of connect mechanism) of the linking portion of switch 30 and shaft coupling 35 is different from the 1st embodiment.
In addition, identical with the 1st embodiment with the structure beyond the linking portion of shaft coupling 35 about switch 30, so omit the description here.
Fig. 6 illustrates the switch 30 of the 2nd embodiment and the structure of the linking portion of shaft coupling 35.2nd embodiment is identical with the 1st embodiment, also utilizes fixed pin 40 to fix axle 31 and the shaft coupling 35 of switch 30, utilizes screw 41 to fix the turning axle 37 of shaft coupling 35 and drive division 36.
Wherein, in the 2nd embodiment, not as the 1st embodiment, make the base portion 33 of blade part 32C extend the pin hole 45 covering axle side half body 35A, but utilize the parts 50 different from the base portion 33 of blade part 32 to cover the mouth in the pin hole 45 of axle side half body 35A.
In addition, these parts (these parts are called anti-shotpin releasing part) 50 are otherwise set, in the 2nd embodiment, make the base portion 33 closest to the blade part 32C of shaft coupling be the length of subsistence level limit, and do not extend.That is, the base portion 33 of the blade part 32C of the 2nd embodiment has shortened the amount of prolongation 33x compared with the base portion 33 of the 1st embodiment.
This anti-shotpin releasing part 50, as the substituting of base portion 33 of blade part 32C, is the parts of cylindrical shape of the periphery of the axle side half body 35A covering shaft coupling 35, such as, is undertaken shaping by the resin same with blade part 32C.The axial length of this anti-shotpin releasing part 50 can be the degree slightly larger than the diameter in pin hole 45, and compared with the prolongation 33x of the base portion 33 of the 1st embodiment, axial length is short.
Utilize this anti-shotpin releasing part 50, cover the pin hole 45 of the shaft coupling 35 inserting fixed pin 40, fixed pin 40 is fixedly remained in pin hole 42,45, can prevent fixed pin 40 from fluffing and coming off thus.
In addition, in the 2nd embodiment, securing axle 31 by utilizing fixed pin 40 is fixed on the mould of anti-shotpin releasing part 50 with the parts of shaft coupling 35, make it solidify pour into a mould the resin as anti-shotpin releasing part 50 in this mould after, make axle 31, shaft coupling 35 and anti-shotpin releasing part 50 one-body molded thus.
Thus, although the diagram of omission, even if but between the pin hole 42,45 of axle 31 and shaft coupling 35 and fixed pin 40, produce gap (groove) due to the error etc. manufactured, also the resin of anti-shotpin releasing part 50 can be flowed in this gap (groove), utilize resin to come this gap of landfill (groove), the subsidiary groove between the pin hole 42,45 of axle 31 and shaft coupling 35 and fixed pin 40 can be prevented thus.
In addition, also can become 1 mould by making the mould of the mould of blade part 32 (32A ~ 32C) and anti-shotpin releasing part 50, making blade part 32 (32A ~ 32C) and anti-shotpin releasing part 50 together shaping.
According to above structure, the 2nd embodiment also can obtain effect in a same manner as in the first embodiment, namely can prevent fixed pin 40 from fluffing and situation about coming off, prevent the bad such effect of action.
In addition, in the 2nd embodiment, the base portion 33 of blade part 32C is not made to extend to the axle side half body 35A of shaft coupling 35 to cover pin hole 45, but do not extend the anti-shotpin releasing part 50 that base portion 33 otherwise arranges covering pin hole 45, although components number increases thus, but necessary amount of resin can be reduced compared with the 1st embodiment, can cost be cut down.
[3. the 3rd embodiment]
Then, the 3rd embodiment is described.3rd embodiment is switch 30 embodiment different with the 1st and the 2nd embodiment from the structure (i.e. the structure of connect mechanism) of the linking portion of shaft coupling 35.
In addition, because switch 30 is identical with the 1st embodiment with the structure beyond the linking portion of shaft coupling 35, so omit the description here.
Fig. 7 A and Fig. 7 B illustrates the switch 30 of the 3rd embodiment and the structure of the linking portion of shaft coupling 35.3rd embodiment is also identical with the 1st embodiment, utilizes fixed pin 60 to fix axle 31 and the shaft coupling 35 of switch 30, utilizes screw 41 to fix the turning axle 37 of shaft coupling 35 and drive division 36.
In addition, the 3rd embodiment is identical with the 1st embodiment, makes the base portion 33 closest to the blade part 32C of shaft coupling extend to the axle side half body 35A of shaft coupling 35, utilizes the prolongation 33x of this base portion 33 to cover the pin hole 45 of axle side half body 35A.
Wherein, in the 3rd embodiment, replace fixed pin 40, and adopt the fixed pin 60 of hollow.Further, when making axle 31, shaft coupling 35 and blade part 32 (32A ~ 32C) one-body molded, using as the resin-cast of blade part 32C to the inside of fixed pin 60, utilizing resin to fill up the inside of fixed pin 60, making this resin solidification in this case.
Thus, fixed pin 60 more reliably can fixedly be held in pin hole 42,45.In addition, the resin entering fixed pin 60 inside plays the effect of buffering, therefore, it is possible to prevent the power etc. owing to applying when making axle 31 rotate from making fixed pin 40 bend or damaged such situation.
According to above structure, in the 3rd embodiment, can prevent fixed pin from fluffing and situation about coming off, and because the bending of fixed pin can be prevented, so can more reliably prevent action bad.
[4. other embodiment]
[other embodiment 1 of 4-1.]
In addition, in above-mentioned 2nd embodiment, the anti-shotpin releasing part 50 be provided separately with blade part 32 is utilized to cover the pin hole 45 of the shaft coupling 35 inserting fixed pin 40.
Here, when making anti-shotpin releasing part 50 shaping fixed pin 40 being replaced the fixed pin 60 of hollow as the 3rd embodiment, can, using as the resin-cast of anti-shotpin releasing part 50 to the inside of fixed pin 60, under the state being filled with the inside of fixed pin 60 at resin, it be made to solidify.
In addition in the case, replace cylindric anti-shotpin releasing part 50, as shown in Figure 8A and 8B, the anti-shotpin releasing part 70 of discoid 2 caps 70A, the 70B with the size that can cover pin hole 45 can be adopted.
This anti-shotpin releasing part 70 is connected the resinous cap 70A of a mouth in the pin hole 45 covering shaft coupling 35 and covers the resinous cap 70B of another mouthful by the resin 70C of the inside Post RDBMS being cast in fixed pin 60.
Resin-cast as anti-shotpin releasing part 70, also when making axle 31, shaft coupling 35 one-body molded with anti-shotpin releasing part 70, comes shaping to the inside of fixed pin 60 by this anti-shotpin releasing part 70.
Anti-shotpin releasing part 70 like this can come off by anti-shotpin, and compared with the 2nd embodiment, the resin of less amount can be utilized shaping, therefore, it is possible to reduce costs further.
[other embodiment 2 of 4-2.]
In addition, describe in the above-mentioned the 1st to the 3rd embodiment linking the axle 31 of switch 30 and the application as the connect mechanism of the shaft coupling 35 of linking part.But embodiment is not limited only to this, as long as the connect mechanism of connection shaft and linking part, the connect mechanism linked beyond the axle 31 of switch 30 and the connect mechanism of shaft coupling 35 also can be applied.
Such as, as other embodiment, can also be applied to and link the axle of roller and the connect mechanism of shaft coupling.
In addition, be not limited only to this, can also be applied to using the turning axle 37 of drive division 36 as linking part via shaft coupling 35 by this turning axle 37 not directly and the connect mechanism that links of axle 31.
In the case, such as consider method as follows: make the turning axle 37 of drive division 36 thicker than axle 31, and form axle hole in turning axle 37 side, by inserting method that axle 31 utilizes fixed pin 40 to be fixed to be linked and make axle 31 thicker than the turning axle 37 of drive division 36 on this axle hole, and forming turning axle hole in axle 31 side, utilizing fixed pin 40 to be fixed the method linked by inserting turning axle 37 on this turning axle hole.
Further, no matter be which kind of method, all identical with the 1st to the 3rd embodiment, by being provided with the parts covering the pin hole of inserting fixed pin 40, carrying out anti-shotpin and coming off.
But in fact, in bill depositing/dispensing apparatus 10, mostly utilize the drive division 36 of ready-made article, in the case, be difficult to process the turning axle 37 of drive division 36.
Therefore, in the case, the method as follows in above-mentioned two linking methods can be adopted: make axle 31 thicker than the turning axle 37 of drive division 36, and form turning axle hole in axle 31 side, utilize fixed pin 40 to be fixed by turning axle 37 is inserted this turning axle hole and linked.
On the other hand, when considering the miniaturization etc. of switch 30, axle 31 is tried one's best carefully as well in the scope that intensity allows, but when employing makes axle 31 slightly carry out the linking method linked than turning axle 37, cannot be thinner than the turning axle 37 of drive division 36.
Therefore, such as, also contemplate and axle 31 is processed, only make the one end portion of the rotation shaft side of axle 31 situation that thick and other parts are as far as possible thin than turning axle 37, in the case, the cost that cost a lot of money.
Therefore, when drive division 36 is ready-made article and wishes that axle 31 is tried one's best thin, as above-mentioned 1st to the 3rd embodiment, expect to make the situation of shaft coupling 35 between axle 31 and the turning axle 37 of drive division 36 be real.
[other embodiment 3 of 4-3.]
In addition, in above-mentioned 2nd embodiment, anti-shotpin releasing part 50 can be made up of the resin identical with blade part 32, to make the resin as anti-shotpin releasing part 50 also be poured into gap (groove) between the pin hole 42,45 of axle 31 and shaft coupling 35 and fixed pin 40, with axle and shaft coupling 35 one-body molded.
But embodiment is not limited thereto, can make anti-shotpin releasing part 50 not with axle 31 and shaft coupling 35 one-body molded.Such as, the anti-shotpin releasing part (not shown) of other resin to the cylindrical shape with the internal diameter slightly less than the external diameter of the axle side half body 35A of shaft coupling 35 can be utilized to carry out shaping, its side, the other end from the axle 31 be fixed on shaft coupling 35 is inserted, and is embedded into the position in the pin hole 45 covering shaft coupling 35.
In addition, be not limited only to resin about anti-shotpin releasing part, can also be made up of other raw materials such as metals.Blade part 32 about switch 30 is also same.
[other embodiment 4 of 4-4.]
In addition, in explanation before, the concrete example of the linking part linked as the one end with axle 31 have employed shaft coupling 35 or turning axle 37.But embodiment is not limited only to this, as long as link with one end of axle 31 and by the power transmission of drive division 36 to axle 31 parts both can, the linking part different from shaft coupling 35 or turning axle 37 can be adopted.
In addition, in explanation before, about the concrete example of the fixture be inserted in the intercommunicating pore in the pin hole 42 as the 1st hole being communicated with and being arranged at axle 31 and the pin hole 45 as the 2nd hole being arranged at the shaft coupling 35 as linking part, have employed fixed pin 40 or 60.But embodiment is not limited only to this, as long as the parts playing function as stationary shaft 31 and the fixture of linking part both can, the fixture different from fixed pin 40 or 60 can be adopted.
In addition, in explanation before, as covering the concrete example inserting the covering part of the intercommunicating pore of fixture, have employed base portion 33 or the anti-shotpin releasing part 50,70 of blade part 32.But embodiment is not limited only to this, as long as cover parts that the covering part inserting the intercommunicating pore of fixture plays function both can, can adopt and the base portion 33 of blade part 32 or anti-shotpin releasing part 50,70 different covering parts.
[other embodiment 5 of 4-5.]
In addition, in above-mentioned 1st to the 3rd embodiment, describe the application to the cash ATM (Automatic Teller Machine) 1 as media processing apparatus, but embodiment is not limited only to this, as long as the media processing apparatus with the connect mechanism of connection shaft and linking part both can, also can be applicable to the media processing apparatus beyond cash ATM (Automatic Teller Machine) 1.
In addition, in above-mentioned 1st to the 3rd embodiment, describe the cash ATM (Automatic Teller Machine) 1 being applied to and using bank note, but embodiment is not limited only to this, even if make the media processing apparatus of the medium beyond the bank note such as paper using, ticket, as long as have the media processing apparatus of the connect mechanism of connection shaft and linking part, can be suitable for.
[other embodiment 6 of 4-6.]
In addition, embodiment is not limited to above-mentioned 1st to the 3rd embodiment and other embodiment.That is, the scope of application of the present invention relates to the embodiment of part or all combination in any of above-mentioned embodiment and other embodiment and the embodiment extracting a part.
Industrial utilizability
Structure of the present disclosure can be widely used in the device of the connect mechanism with connection shaft and linking part.

Claims (8)

1. a connect mechanism, it possesses:
Axle, it is rotatably supported and is rotated by the power of drive division, and has the 1st hole through on the direction vertical with direction of principal axis;
Linking part, one end of itself and described axle links, and transmits the power of described drive division, and have the 2nd through hole through on the direction vertical with direction of principal axis to described axle;
Fixture, its by be inserted into described 1st hole is communicated with described 2nd through hole intercommunicating pore in, fix described axle and described linking part; And
Covering part, it covers the described intercommunicating pore inserting described fixture, and the fixture inserting described intercommunicating pore is not come off from described intercommunicating pore.
2. connect mechanism according to claim 1, wherein,
Described connect mechanism also possesses and is installed on described axle and the blade part of throughput direction for switchable dielectric,
A part for described blade part covers the intercommunicating pore inserting described fixture as described covering part.
3. connect mechanism according to claim 1, wherein,
Described covering part is made up of resin,
Utilizing after described fixture secures described axle and described linking part, to cover the mode of the intercommunicating pore inserting described fixture, by described covering part and this axle and linking part one-body molded.
4. connect mechanism according to claim 3, wherein,
When described covering part and described axle and linking part one-body molded time, the resin becoming described covering part is poured in described 1st hole and the gap that produces between the 2nd hole and described fixture, thus described gap is by described resin landfill.
5. connect mechanism according to claim 4, wherein,
Described fixture is the fixed pin of hollow,
When described covering part and described axle and linking part one-body molded time, the resin becoming described covering part is poured in described 1st hole and the gap that produces between the 2nd hole and described fixture, thus described gap is by described resin landfill, and described resin is also poured into the inside of described fixed pin, thus the inside of described fixed pin is filled up by resin.
6. connect mechanism according to claim 1, wherein,
Described linking part is the shaft coupling between described axle and the turning axle of described drive division.
7. a media processing apparatus, possesses:
Generate the drive division of the power needed for media processes; And
Connect mechanism according to claim 1.
8. a manufacture method for connect mechanism, comprises following step:
One end of linking part and axle is linked, this axle is rotatably supported and is rotated by the power of drive division, and there is the 1st hole through on the direction vertical with direction of principal axis, this linking part transmits the power of drive division to described axle, and has the 2nd through hole through on the direction vertical with direction of principal axis;
Also by fixture inserted described 1st hole is communicated with described 2nd through hole intercommunicating pore in, fix described axle and described linking part; And
Structure after fixing described axle and described linking part installs covering part, and this covering part covers the described intercommunicating pore inserting fixture, and the described fixture inserted in described intercommunicating pore is not come off from described intercommunicating pore.
CN201480021815.6A 2013-10-28 2014-06-18 The manufacture method of link mechanism, media processing apparatus and link mechanism Expired - Fee Related CN105210120B (en)

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JP2013-223236 2013-10-28
PCT/JP2014/066214 WO2015064145A1 (en) 2013-10-28 2014-06-18 Connection mechanism, medium handling device, and method for manufacturing connection mechanism

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