TWI362353B - Bladed wheel mechanism - Google Patents

Description

27208pif.doc IX. Description of the Invention: [Technical Field of the Invention] Blade wheel mounting of a blade - a blade utilized in paper sheet setting, etc. The present invention relates to a blade which is radially disposed on a rotating shaft The wheel mechanism, especially the media gathering and sending out of the media, is sent to the event wheel mechanism. 'Prior art

The conventional vane wheel mechanism is, for example, a vane wheel mechanism of Patent Document 1 and Patent Document 2, in which the rotating shaft of the member is supported by a link, and the buckling wheel is rotated by a rotating mechanism, and 2, the connecting rod is the blade (rotary piece) using the electric rotating member), and the Jd' is using the blade wheel (the body in the middle of the rotation (the back end of the paper_two = when the motor is used to make the connection #; = When the stator rotates in a certain direction, the blade "plate wheel mechanism" is configured by expanding the blade when the blade wheel is gathered along the gauge, and is formed by the blade of the blade in the medium; Rotating in the direction to expand the blade, the rear end of the body (paper sheet), so that the medium that is sent out to the gathering space closes the blade wheel and then closes, -1β, when the medium is sent out, it is obstructed in the second pair of patent documents. [Patent Document 2] Japanese Laid-Open Patent Publication No. 2004-137015 1362353 27208pif.doc However, the following problems exist in the above-described conventional technique. Dedicated electricity for retreat In the blade wheel mechanism of Patent Document 2, since the blade is deployed by the centrifugal force accompanying the rotation of the blade wheel, it is easy to receive the rotation speed or the material of the blade. The thickness also has a problem of temperature change or change over time, and there is a problem that it is difficult to obtain an operation that is always stable. SUMMARY OF THE INVENTION An object of the present invention is to solve these problems. Therefore, the blade wheel mechanism of the present invention is characterized in that it includes a first vane wheel fixed to the rotating shaft and integrally rotating with the rotating shaft; a second vane wheel rotatably fitted to the rotating shaft; and a fastening device for the first vane wheel and The second blade wheel is engaged to rotate the first blade wheel together when the first blade wheel rotates from a stopped state, and the second blade wheel rotates together. The present invention is such that the first blade wheel and the second blade are The blade wheel constitutes a blade wheel, so when used in a device for collecting and collecting media, as a blade wheel mechanism for tapping the rear end of the accumulation medium, When the first and second blade wheels are rotated, the blades of the two blade wheels can be retracted, so as not to hinder the delivery of the medium, and a dedicated motor or a link for retracting the blade wheel is not required, so that it can be easily obtained. The effect of the configuration is that it is inexpensive and the blade of the first blade wheel and the second blade wheel are formed when the first blade wheel and the second blade wheel are used to form the blade wheel and the first blade wheel is rotated.

J 27208pif.doc is opened 'so it will not be easily accepted, two implementations'; == change, etc. [Cycle mode] Explain the example of the "blade handle hair _ blade wheel mechanism [example], 1 shows The embodiment of the embodiment is shown in Fig. 2 as an exploded view of the blade wheel. In the figure, '1 is the drive side blade wheel (the first blade wheel), = the side material wheel (4) blade wheel), 3 is the _, 4 as the rotation axis, the drive, the side smash wheel 1 and the press 3 are turning (4) The blade wheel 2 is closed and attached to the outer periphery of the rotating shaft 4. The driving side blade wheel is pressed against the rotating shaft 4 by screws or the like, and is rotated integrally with the rotating surface 4, but the driven side blade The wheel 2 is rotatable relative to the axis of rotation 4. On the drive side blade wheel 1 and the driven side blade wheel 2, a plurality of elastically (releasable) blades la, 2a are radially implanted in the periphery of the outer peripheral half, and 'on the opposite side of each other The projections 1b, 2b as the fastening means are provided, and when the projections 1b and 2b are engaged by rotating the driving side vane wheel i in the clockwise direction in the drawing, the driving side vane wheel j and the driven side are driven The blades la and 2a of the vane wheel 2 are radially expanded over the entire circumference of the rotary shaft 4. In addition, in the illustration, the drive side blade wheel is made! The number of the blades la and 2a of the driven side vane wheel 2 is four, but it is not limited thereto. 5 is a drive gear that transmits a rotation of a motor (drive source) (not shown) to a rotary shaft * 1362353 27208pif.doc. The drive gear 5 is braked by a one-way clutch on the rotary shaft 4 and utilizes the one-way clutch. 6 and only the rotation of the front _2= direction is transmitted to the rotating shaft 4. Reference numeral 7 denotes a position indicating member fixed to the rotary shaft 4, and has a detected portion 7a which is formed to protrude from the upper portion. _ 8 is a position detection sensing for optical detection of the detected portion 7a, and the light-emitting element and the light-receiving element are disposed opposite to each other. When the extracted portion enters the light-emitting element and the light-receiving element (5), a pair is formed. The detected portion 7a detects, and 'the stop position of the drive wheel 1 is controlled according to the detection output of the secret sensing II 8 . > Action Figure 3_ shows the moving side of the vane wheel mechanism configured as described above ===== In this state, the substantially half of the outer circumference of the drive shaft 4, such as a, 2a, is located at the rotary second gear , the rotating shaft 4 is along the clockwise:: two," and is transmitted to the rotating shaft 4, only the driving side vane wheel and the rotating shaft 4-body, the rotation of the arrow symbol shown in Fig. 3 (b) Due to the rotation, the driving phase is 丨, and then, when the driving side blade wheel rotates. When moving forward, as shown in Fig. 3(c), the blade U of about 135 in the example is driven. 2a is radially spread along the entire circumference of the winding 4 6 piece wheel 1 and the driven side blade wheel 2 疋 'shaft 4. 9 1362353 27208pif.doc At this stage, the protrusion lb of the driving side blade wheel 1 is Since the projection 2b of the driven side blade wheel 2 abuts and snaps, as shown in Fig. 3(d), the driven side blade wheel 2 also rotates together with the driving side blade wheel 1. The rotation of the driving side blade wheel 1 is in position detection The sensor 8 stops when it detects the detected portion % of the position indicating member 7 fixed on the rotary shaft 4. This rotation stop is performed by stopping the rotation of the motor. When the rotation of the drive side blade wheel 1 is stopped, since the projection 2b of the driven side blade wheel 2 is located at the lower side of the projection ib of the drive side blade wheel 1, the driven side blade wheel 2 is self-weighted from FIG. 3 ( The state of e) is rotated in the clockwise direction as shown in Fig. 3(f), and returns to substantially the same state as Fig. 3(4). Fig. 4(a) and Fig. 4(b) show the use of this embodiment. In the side view of the banknote (media) collecting and discharging device of the vane wheel mechanism of the example, FIG. 4(a) shows the state at the time of feeding, and FIG. 4(b) shows the state at the time of banknote accumulation. In the figure, 10 is the medium. The banknotes 11 are banknote accommodating parts, and 12 is a stage for stacking banknotes that are movably arranged up and down in the banknote accommodating section. 13 is a coin feeding roller, 14 is a pickup roller, and the pickup roller 14 is at the pickup arm 15. One end is rotatably supported by the shaft, and the other end of the pickup arm 15 is attached to the rotating shaft of the coin feeding roller 13 so as not to receive the rotation of the rotating shaft. 6 is an annular driving belt which is mounted on the coin feeding roller 13 'on the toothed pulley mounted on the rotating shaft and the toothed pulley mounted on the shaft of the pick roller '' and utilized The belt 16 is driven to transmit the rotation of the delivery roller 13 to the pickup roller 14. 10 27208pif.doc 17 is a reverse roller" which is mounted on the rotary shaft 4 of the drive side blade wheel 1 and the driven side blade wheel 2, and The reverse parent 17 is placed at the banknote entrance and exit of the banknote storage unit 1 together with the money-paying parent 13 . The combination of the drive side vane wheel 1 and the driven side vane wheel 2 and the feed roller 13 will be described later with reference to Fig. 5 . 18 is a transport path that is disposed in a direction orthogonal to the stacking direction of the banknotes 10 stacked on the stage 12, and is provided on the banknote entrance/exit side of the banknote accommodating section n, and drives the blade side wheel 1 and the driven side blade wheel. 2 and the reverse roller 17 are disposed on the front side of the banknote accommodating portion 11 and on the lower side of the transport path 18, and a groove or a hole is provided in the front portion of the banknote accommodating portion 11 for driving on the driving side. When the blade wheel 1 and the driven-side blade wheel 2 rotate, the tips of the blades 1a and 2a enter the banknote accommodating portion 11. 19 is a banknote detecting sensor that optically detects the banknotes 10 passing through the transport path 18, and 20 is a banknote that is disposed at the inner surface of the rear portion of the banknote accommodating portion 11 so as to face the banknote entrance and exit of the banknote accommodating portion 11. The actuator '21. is an upper sensor for optically detecting the uppermost banknote 10 on the stage 12. In addition, the banknote stopper 20 is for blocking the banknote 1〇 which is fed into the banknote accommodating portion 由 by the coin feeding roller π and the reverse roller 17, and is provided with a spring or the like (not shown) for absorbing and resisting The energy of the movement of the banknotes. Fig. 5 is a front elevational view of the banknote stacking and discharging device. As shown in the figure, two coin feeding rollers 13' are disposed on the rotating shaft 22, and two of the lower sides of the feeding newspaper 13 are disposed on the rotating shaft 4. Reverse roller π. The delivery roller 13 and the reverse roller 17 respectively have 27208pif.doc grooves provided on the entire periphery, and are engaged with each other in a non-contact state by the grooves of each other. The L-drive side vane wheel 1 and the driven-side vane wheel 2 are provided in a range in which the two groups are disposed in the longitudinal direction of the banknote 10, and are placed in the range of the longitudinal direction of the banknote 10, and the two pieces are given by γ曰. 0 is limited to this. The position of the wheel 12 and the reverse roller 17 is not known. In the operation of the banknote stacking and discharging device of the above-described configuration, the operation of each unit in the next position is shown in the following figure: *=式_, using the control unit (not shown) two banknotes (婢^ ^4(b) 7F is a diagram of the blade wheel mechanism of the present embodiment, and the position detecting butterfly portion 7a is fixed to the position of the rotation of the banknote 10 by the sensor 贞 sensor 贞At the position, the disk 2 and the driven side blade wheel f of the instruction member 7 are stopped, and the driving side blade row is retracted and located outside the rotating shaft 4 as shown in FIG. 4 (8) and enters the conveying path 18. Weekly - half of the dry circumference, so as not to enter the state of the stage, the paper 10 and the pick-up 14 will rise, and the uppermost coin-feeding roller 13 on the stage 12 will follow. After the hour hand, 'When the belt 16 is driven by the motor (not shown), the rotation of the belt 13 is rotated by the drive, so the paper is fed from the (four) pickup roller 14 in the clockwise direction 13 side. %% of the storage unit 11 is sent out and sent to the engine _ 12 1362353 27208pif.doc Install the one-way clutch to convey to = and the slave side leaves to 18, = with =: When it is rotated, it is conveyed to the conveyance path and conveyed forward. When the banknotes are collected, the stage 12 is placed on standby at the position detected by the most detected sensor 21, and is driven by the upper motor. The coin transfer light 13 rotates counterclockwise. When not shown, the 1:4 electric button is rotated by the clock ring and the driven side vane wheel 2 and the reverse shaft of the reverse shaft 4 = the moving side vane wheel 1 and the opposite The rotating roller 17 is driven to rotate along the clockwise direction as shown in Fig. 3, and is rotated by the rotation of the blade vane 1 and the blade of the driven side vane 2 The full circumference of the drive (4) is radially expanded. ~a, 2# rotary shaft 4 Then, since the protrusion 2b of the 穸t 2 of the drive side blade wheel 1 abuts and snaps together, as shown in Fig. 4 (8). 2 is also rotated with the driving side wheel 1 . τ < moving side blade wheel In this state, the banknote U of the coin 1G transported by the conveying path (4) is held by the feeding 13 and the reverse rotation 17 = Xing Kun And the rotation of the reversing roller 17 is sent to the paper nip portion'. Then, the banknote 27208pif.doc is fed into the banknote accommodating portion U, and (b) the T' text to the driving side blade rim and From Slap 'and press on the stage 12 = wheel 2, tidy up the subsequent banknotes K) to form a 1; hinder the top 'wood ♦ after the end, the fixed sense of position on the rotating shaft 4 __ two ^ The driving side blade wheel 1 is stopped. In the description, the driven side blade wheel 2# is turned by the leaf of the _ 2, and the range 1 of the driving side blade wheel 1 and the driven side blade wheel is retracted and located. Approximately half of the outer circumference of the rotating shaft 4 is enclosed so as not to enter the conveying path 18. The side flaps are driven by the following rotation after the collection of the banknote 1Q is completed, so in this case, the situation is h) to 6(8) is a side view showing an example of forced rotation of the green driven wheel 2 . When the agitation process of j (4) is completed, if the driven side blade wheel 2 is not rotated by the piece, the state in which the blade paper of the driven side blade wheel 2 is formed into the conveyance path 18 or the banknote accommodating portion U is formed as shown in Fig. 6 (8). Therefore, after the end of the spoon gathering process or before the sending process, the paper iu is soared as shown in the figure _, so that the end of the stage 12 or the end portion of the blade h collected on the stage 12 is pressed into the person. On the driven side of the banknote accommodating portion 11, on the blade 2a of the second, the table 12 is lowered as shown in Fig. 6 (6). Turning, = 'to (4) (four) wheel 2 pays a rotational force to force the knob to retreat from the blade 2a of the driven side blade wheel 2 and the blade la of the driving side blade wheel j 27208pif.doc, and is located at half In the range of the processing of the banknotes 10, the processing of the loading of the banknotes is performed in the collection process of the banknotes 10, so that the processing is not performed. Since the self-reassembly process forcibly rotates the driven side blade wheel 2, it is surely entered into the transmission path is. The entangled blade and the driven side blade wheel of the embodiment described above constitute a blade machine for use in a device for achieving accumulation of a body, as a pair of gathering;: a blade wheel mechanism for tapping In use, when the rotation of the blade of the body is reversed, the blades of the two blades can be used to make the blade wheel retreat, so that it can be realized inexpensively with a simple configuration. Moreover, when using the driving side vane wheel and the driven wheel: the wheel rotates, the _axis == is difficult: it is radially spread in the range of two weeks, so the material and thickness of the annual variable piece have temperature change or fruit-effect It is also possible to obtain an effect that can always be performed ambiguously, and the present invention is not limited to the above-described embodiments. , as in the above embodiment, is in! The driving side blades, and the 51 driven side vane wheels, but also the two driven side vanes 2 can be combined on one driving side vane ^ 1362353 27208pif.doc. Further, in the above-described embodiment, the 2 1 blade wheel 2 and the driving side blade wheel 1 are rotated by the driving side, the lb is engaged with the protrusion 沘 of the driven side blade wheel 2, but In order to enable the side vane wheel 1 to follow from the stop state to the fixed angle, the follower: Z from i can make the driven side vane when the drive side vane wheel 1 is stopped. The fastening device that is rotated by its own weight can be a fastening device formed by the wheel 2 or the like. The combination of the grooves is formed by eccentricity or attachment by shifting the center of gravity of the cylindrical portion of the rotating shaft 5 of the driven-side vane wheel 2, and the self-weight of the driven-side vane wheel 2 is used to reliably rotate. Cut ^ : ^ After the end of the media's agglomeration process or before the delivery process, the blade wheel mechanism of the invention is not confined to the device of the tape and the device, and can also be applied to bonds, A processing device for a medium such as a certificate can also be applied to a collection of only these media. [Simplified description of the drawings] FIG. 1 is a perspective view showing an embodiment. 2 is an exploded perspective view of the blade wheel. 3(a) to 3(1) are side views showing the action of the embodiment. Fig. 4 (a) and Fig. 4 (b) show a side view of the paper collected and closed by the embodiment. Figure 5 shows a front view of the banknote stacking and dispensing device of the embodiment. 0 16 1362353 27208pif.doc Figure 6(a) to Fig. 6(C) show the forced rotation of the driven side blade wheel. Side view of the example. [Description of main component symbols] I: Drive side blade wheel 2: Drive side blade wheel la, 2a: Blade lb, 2b: Projection 3: Pressing hub 4: Rotary shaft 5: Drive gear 6: One-way clutch 7: Position indication Member 7 a · Detected portion 8 : Position detecting sensor 10 : banknote II : banknote accommodating portion 12 : banknote stacking table 13 : coin feeding roller 14 : picking roller 15 : picking arm 16 : driving belt 17 : Reverse roller 18: transport path 19: banknote detecting sensor 17 1362353 27208pif.doc 20: banknote stopper 21: upper sensor 22: rotating shaft

Claims (1)

1362353 27208pifl Revision date: 1 year, 1 month, 31 曰 • Chinese patent scope No. 97136076, no slash correction. 10. Scope of application: 1. A blade wheel mechanism, comprising: a first blade wheel And fixed to the rotating shaft and rotate integrally with the rotating shaft; the second vane wheel is rotatable relative to the rotating shaft; and the fastening device rotates the second vane wheel when the first vane wheel rotates Each of the first vane wheel and the second vane wheel is provided with a plurality of blades radially on the outer circumference, and is disposed at a position where the vane enters the medium storage portion, and the medium storage portion collects the medium during the rotation, and is transported in the medium. When the medium conveyed on the road is fed into the medium accommodating portion and is collected, the ith blade wheel and the second blade wheel are rotated together by the fastening device, and the second blade wheel and the second blade wheel are rotated together. The blade is radially spread, and the rear end of the medium is tapped by the blade, and after the end of the accumulation process, the i-th blade wheel and the second blade are not made. The blades of the wheel enter the aforementioned handling path. 2. The vane wheel mechanism according to claim 1, wherein after the accumulation process of the medium is completed, the second vane wheel rotates due to heavy weight, so that the vane of the second vane wheel is not caused by Heart eight is described in the road. 3. The blade wheel mechanism according to the first aspect of the invention, wherein the plurality of media storage portions have a height-adjustable cutting medium in which the media is collected, and after the media accumulation process is completed or the media is stored in the media, 1362353 27208pifl is the 97136076 No. Chinese patent range without scribe line correction. This correction date: before the processing of October 31, 100, the medium on the stage or the stage is pressed against the blade of the second blade wheel by the lifting operation of the stage. Then, the second vane wheel is forcibly rotated without causing the vane of the second vane wheel to enter the transport path. 20