Patent Grant
10183820
Field of the Invention
This disclosure relates to a sheet storage apparatus and an image forming apparatus including the sheet storage apparatus.
Description of the Related Art
There is a widely used image forming apparatus such as a copier, a printer, and a facsimile, which feeds a sheet stored in a sheet storage apparatus to an image forming portion and forms an image. This kind of sheet storage apparatus includes a plate-shaped sheet stacking member on which sheets are stacked, with the sheet stacking member being vertically movable. The sheet stacking member is lowered upon replenishing the sheets. When feeding the sheets, the sheet stacking member is lifted to move the upper surface of the stacked sheet to a position in which the sheet can be fed by a pickup roller located above the sheet stacking member. In addition, the sheet storage apparatus is mounted on an apparatus body in a drawable manner. When storing the sheet, the sheet storage apparatus is drawn out, and then the sheets are set on the sheet stacking member from above.
A sheet storage apparatus disclosed in JP-A-2010-83645 is provided with a trailing end regulating member regulating the upstream ends in a sheet feeding direction (hereinafter, referred to as the trailing ends) of the sheets, which are stacked on a sheet stacking member. The trailing end regulating member is configured to be movable along the sheet feeding direction so that multiple kinds of sheets with different sizes can be stored. In addition, the sheet storage apparatus is provided with side end regulating members which regulate side ends of the sheets in a direction (hereinafter, referred to as a width direction) orthogonal to the sheet feeding direction of the sheets and are movable in the width direction. Then, the side ends of the sheet are regulated by the side end regulating members while the trailing end of the sheet is regulated by the trailing end regulating member, and thereby the position of the sheet is regulated in a predetermined position.
JP-A-04-333429 discloses a configuration that a trailing end regulating plate provided in a sheet feed deck is movable to a regulating position on which the trailing end regulating plate regulates a sheet trailing end and a retracting position on which the trailing end regulating plate is away from the sheet, in accordance with the sheet size. Then, in a case where sheets of a large size are stored, the trailing end regulating plate is tilted down by substantially 90° from a regulating position so as to release the regulating operation of the trailing end, being stored in a lifter plate. This configuration can be used to store the sheets of a large size in a downsized sheet feeding deck.
However, in such a conventional sheet storage apparatus, a thickness of the trailing end regulating member is required to ensure a certain degree of stiffness so as to fulfill a regulating function for the trailing ends of the sheets. Thus, in a case where the trailing end regulating member movable in the sheet feeding direction is used, a length of the sheet storage apparatus in the sheet feeding direction is required to be at least the sum of a length of the maximum size of the sheets to be stored and a thickness of the trailing end regulating member. That is, the sheet storage apparatus with the trailing end regulating member movable in the sheet feeding direction is tend to be long, which leads to enlargement of the sheet storage apparatus.
It is possible to use a trailing end regulating plate that can be stored in the lifter plate so as to prevent enlargement of the sheet storage apparatus. In this case, however, it is required a holding mechanism to hold the trailing end regulating plate, which has been lifted up, in a right angle accurately, thereby leading to increase in cost. Furthermore, since the trailing end regulating plate is tilted and laid down on the sheet feed deck, a thickness of the trailing end regulating plate may negatively affect a sheet storage height, that is, a stacking amount of the sheets.
Here, when using side end regulating members movable in the width direction, the side end regulating members need to be arranged on a downstream side in the sheet feeding direction so as to regulate the side ends of the sheet of the minimum size, of which a length in the sheet feeding direction is the minimum among the sheets to be stored in the sheet storage apparatus. However, when storing sheets having a greater length in the sheet feeding direction than that of the minimum size, the side end regulating members arranged in such a position might not sufficiently regulate the upstream portion, in the sheet feeding direction, of the side ends of the sheets. Thus, there is a case that the side ends on the trailing end portion of the sheet is not sufficiently regulated, and decrease in the stability of sheet feeding operation might occur.
According to an aspect of this disclosure, a sheet storage apparatus includes a sheet storage portion configured to store a sheet and a regulating member provided in the sheet storage portion. The regulating member includes a regulating portion configured to abut against the sheet stored in the sheet storage portion and is movable to a first regulating position and a second regulating position. In a case where a first sheet having a first size is stored in the sheet storage portion, the regulating member is located on the first regulating position and regulates an end portion in a first direction of the first sheet with the regulating portion. In addition, in a case where a second sheet having a second size different from the first size is stored in the sheet storage portion, the regulating member is located on the second regulating position and regulates an end portion in a second direction orthogonal to the first direction of the second sheet with the regulating portion.
According to another aspect of this disclosure, a sheet storage apparatus includes a sheet storage portion configured to store a sheet and a regulating member provided in the sheet storage portion. The regulating member includes a first regulating portion and a second regulating portion each configured to abut against the sheet stored in the sheet storage portion. The regulating member is movable to a first regulating position and a second regulating position. In a case where a first sheet having a first size is stored in the sheet storage portion, the regulating member is located on the first regulating position and regulates an end portion in a first direction of the first sheet with the first regulating portion. In addition, in a case where a second sheet having a second size different from the first size is stored in the sheet storage portion, the regulating member is located on the second regulating position and regulates an end portion in a second direction orthogonal to the first direction of the second sheet with the second regulating portion.
According to still another aspect of this disclosure, a sheet storage apparatus includes a sheet storage portion configured to store a sheet, a regulating member provided in the sheet storage portion and configured to regulate positions of a sheet stored in the sheet storage portion, and a supporting mechanism configured to support the regulating member to be movable to a first regulating position and a second regulating position. In a case where a first sheet having a first size is stored in the sheet storage portion, the regulating member is located on the first regulating position and regulates an end portion in a first direction of the first sheet. In addition, in a case where a second sheet having a second size different from the first size is stored in the sheet storage portion, the regulating member is located on the second regulating position and regulates an end portion in a second direction orthogonal to the first direction of the second sheet.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings. The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments, features, and aspects of the invention and, together with the description, serve to explain the principles of the invention.
Hereinafter, the first embodiment will be described in detail with reference to the drawings.
In
The image forming portion 200B includes a photoconductive drum 212 and a laser scanner 232, which is an exposing unit exposing a surface of the photoconductive drum 212 to form an electrostatic latent image on the photoconductive drum 212. In addition, the apparatus body 200A includes a transfer roller 213, which abuts against the photoconductive drum 212 and configures a transfer portion T together with the photoconductive drum 212, and a fixing device 200D, which fixes a toner image transferred by the transfer portion T to the sheet S.
The sheet feeding device 200C includes feed rollers 202a and 202b for feeding the sheets S stacked in the sheet feeding cassettes 201a and 201b in order from the uppermost sheet to lower sheets. The sheet feeding device 200C also includes feed rollers 203a and 203b, and retard rollers 204a and 204b. Meanwhile, the option feeder 300 includes the sheet storage 312, i.e., a sheet storage apparatus for storing the sheets S, a feed roller 202c feeding the sheets S, a feed roller 203c, and a retard roller 204c.
Next, an image forming operation in the image forming apparatus 200 having such a configuration will be described. In a case where a start switch (not illustrated) is operated, the sheet S is conveyed from the sheet feeding device 200C on the apparatus body or from the option feeder 300. For example, in a case where feeding is performed from the upper sheet feeding cassette 201a, a plurality of the sheets S stacked in the sheet feeding cassette 201a are fed by the feed roller 202a, and then the sheets S are separated one by one by the feed roller 203a and the retard roller 204a. Thereafter, the sheet S is conveyed to a pre-registration roller pair 209 and a registration roller pair 210 via an upper drawing roller pair 205 and an upper conveyance roller pair 207.
In addition, in a case where feeding is performed from the lower sheet feeding cassette 201b, a plurality of the sheets S stacked in the sheet feeding cassette 201b are fed by the feed roller 202b and then are separated one by one by the feed roller 203b and the retard roller 204b. Thereafter, the sheet S is conveyed to the pre-registration roller pair 209 and the registration roller pair 210 via a lower drawing roller pair 206, a lower conveyance roller pair 208, and the upper conveyance roller pair 207.
Furthermore, in a case where feeding is performed from the option feeder 300, the sheets S stacked in the sheet storage 312 are fed by the feed roller 202c and then are separated one by one by the feed roller 203c and the retard roller 204c. Then, the sheet S is conveyed to the pre-registration roller pair 209 and the registration roller pair 210 via an option conveyance roller pair 303, an intermediate conveyance roller pair 242, and the upper conveyance roller pair 207.
Here, the sheet S fed from the sheet feeding device 200C and the option feeder 300 may be skewed in conveyance process to the pre-registration roller pair 209 for variation of a conveyance load or component accuracy and for other reason. However, the skew is corrected by the registration roller pair 210 with a registration shutter mechanism (not illustrated). The sheet S, of which skew is corrected, is then detected by a top sensor 211.
When the sheet S is detected by the top sensor 211, a control portion (not illustrated) drives the photoconductive drum 212 to rotate in an arrow direction so that a toner image is transferred to a predetermined position on the sheet S. Then, the surface of the photoconductive drum 212 is charged by a charger (not illustrated), and laser light is applied to the photoconductive drum 212 based on image information from the laser scanner 232. Thus, the electrostatic latent image is formed on the photoconductive drum 212, and thereafter, the electrostatic latent image is developed by a developer (not illustrated) and visualized as a toner image.
The sheet is conveyed to the transfer portion T formed between the transfer roller 213 and the photoconductive drum 212 at a timing when the leading end of the toner image, which is formed on the photoconductive drum 212 through such a process as described above, reaches the transfer portion T. Then, the toner image is transferred onto the sheet S by the transfer roller 213 and a transferred image is formed on the sheet S.
Thereafter, the sheet S with the transferred toner image is conveyed to the fixing device 200D. The toner image is applied heat and pressure when the sheet S passes through a fixing nip portion N between a fixing roller 215 and a pressing roller 216 of the fixing device 200D, so as to be fixed on the sheet. In the present embodiment, when the sheet S is conveyed by both the transfer portion T and the fixing nip portion N, the sheet S is bent so that a difference between sheet conveyance speeds in the transfer portion T and the fixing nip portion N does not affect the transfer of the toner image. According to this purpose, a loop sensor 214 is provided between the transfer portion T and the fixing nip portion N. Then, the control portion (not illustrated) controls a speed of the pressing roller 216 based on a signal of the loop sensor 214 so that a bending amount (displacement) of the sheet S conveyed by the transfer portion T and the fixing nip portion N is regulated within an appropriate range.
When the sheet S on which the toner image is fixed is discharged to an outside of the apparatus body 200A as described above, the control portion switches a duplex switching member 219 and discharges the sheet S on a discharged sheet tray 224 via an intermediate discharging roller pair 220 and a discharging roller pair 222.
Meanwhile, when forming another image on the other side, the sheet S is conveyed to a reverse roller pair 227 by a conveyance roller pair 225 by switching of the duplex switching member 219 and then rotation of the reverse roller pair 227 is reversed.
Thus, the leading and trailing ends of the sheet S are switched, the sheet S is conveyed through a duplex conveying path 228 to the pre-registration roller pair 209 and the registration roller pair 210 by re-conveyance roller pairs 229, 230, and 231. The sheet S is then conveyed to the transfer portion T by the registration roller pair 210 where the toner image is transferred on a back surface (second surface). And then, the sheet S is conveyed to the fixing device 200D so as to fix the toner image. Thereafter, the sheet S is discharged on the discharged sheet tray 224.
A sheet stacking plate 304, i.e., a sheet stacking member on which sheets are stacked, is provided in the sheet storage portion 312a and configured to be moved upward and downward. A pair of side regulating members 302a and 302b opposed to each other are provided in the sheet storage portion 312a and are movable along the width direction. The pair of the side regulating members 302a and 302b are side end regulating members, which regulate the widthwise position of the sheets S that is stacked on the sheet stacking plate 304. Here, widthwise direction (or the width direction) is a second direction orthogonal to a sheet feeding direction X, which is a first direction. The pair of the side regulating members 302a and 302b are coupled through an interlocking mechanism (not illustrated) and moves in parallel along the width direction so as to regulate the widthwise position of the sheets.
The regulating member 302a on one side is a referential regulating member for defining a reference position in the width direction of the sheet S and the regulating member 302b on the other side is a non-referential regulating member including a shifting plate (not illustrated). The regulating member 302b on the non-referential side is connected with a biasing mechanism such as a spring for biasing the shifting plate toward the sheet S. Thus, being pressed by the width shifting plate, the sheet S on the sheet stacking plate 304 abuts against the side regulating member 302a on the reference side. In this manner the position of the sheet S in the width direction is regulated.
The sheet stacking plate 304 is suspended at four corners by wires (not illustrated) and is vertically moved along a moving direction Z of the sheet stacking plate as illustrated in
On the other hand, when the sheet storage 312 is closed with sheets S being stacked on the sheet stacking plate 304, the wires are wound and the sheet stacking plate 304 is lifted according to a command of the control portion, which detects a closing operation of the sheet storage 312. Thereafter, the sheet stacking plate 304 is lifted to a predetermined position by the control portion. The control potion lowers or lifts up the sheet stacking plate 304 so as to hold the plate on the predetermined position where the uppermost sheet among the stacked sheets is fed by the feed roller 202c and smoothly enter a nip between the feed roller 203c and the retard roller 204c.
As illustrated in
As illustrated in
Here, a distance between the rib 306 and the choking portions 305a in the sheet feeding direction X is set in accordance with a length of the long side of the legal size. Thus, as illustrated in
Meanwhile, as illustrated in
The regulating member 301 is a plate member including a shaft 301a that is supported by a shaft supporting portion 314, i.e., a supporting mechanism, which is provided on the frame member 305. The shaft 301a extends in a vertical direction and supported by the shaft supporting portion such that the regulating member pivots (moves) horizontally. Viewing from an axial direction of the shaft 301a, the second abutting surface 2 extends in a radial direction from the shaft supporting portion 314 when. On the other hand, the first abutting surface 1 is formed to be bent from a connection portion with the second abutting surface 2. The first abutting surface is inclined upstream in the sheet feeding direction in a state where the second abutting surface 2 is perpendicular to the sheet feeding direction (see
With such a configuration, the regulating member 301 is moved through a pivotal operation to the regulating positions in accordance with the size of the sheet stored in the sheet storage portion 312a. That is, in a case where the letter size sheets S (first size) are stored in the sheet storage portion 312a, the regulating member 301 is moved to the first regulating position illustrated in
The first regulating position and the third regulating position are trailing-end regulating positions on which the regulating member 301 regulates the trailing end of the sheet, and the second regulating position is a side-end regulating position on which the regulating member 301 regulates the side end of the sheet. In the present embodiment, an operation angle between the first regulating position and the second regulating position is 90 degrees and the third regulating position is located between them. The third regulating position is a position, in particular, on which the regulating member 301 is pivotally operated from the first regulating position by the magnitude of the angle formed by the first abutting surface 1 and the second abutting surface 2.
Then, for example, in a case where the A4 size sheets S1 instead of the letter size illustrated in
Here, the capability of the side regulating members 302 (302a and 302b) for regulating the side ends of the sheets increases as the side regulating members 302 are lengthened in the sheet feeding direction X. Meanwhile, a cut-out portion is formed in the sheet stacking plate 304 in order to avoid interfering with the side regulating members 302 when the sheet stacking plate 304 is lifted. However, the side regulating members 302 having a large length in the sheet feeding direction X necessitates a large cut-out. This might, however, decrease the strength of the sheet stacking plate 304.
Thus, the lengths of the side regulating members 302 are set to a suitable value in consideration of the stiffness of the sheet stacking plate 304, the cost and regulation capability of the side regulating members 302, and the like. In addition, it is preferable that the side regulating members 302 are disposed closer to the downstream side of the sheet storage 312 in the sheet feeding direction X so as to regulate the side ends of the sheet even in a case where sheets with a relatively small length in the sheet feeding direction is stored. Thus, the side regulating members 302 are disposed so as to abut against a substantially center portion in the sheet feeding direction X of the sheet S and S1 of the letter/A4 size.
With the side regulating member 302a configured as described above, the side ends of the sheets S and S1 of the letter/A4 size to be fed are reliably regulated along the side regulating member 302a on the referential side, thereby setting failure of the sheets being avoided. In addition to avoiding failure in sheet setting, printing accuracy is kept at high level for keeping image quality by regulating the trailing end of the sheets with the regulating member 301.
By the way, since the side regulating members 302 are disposed on such a position, the side regulating members 302 does not directly regulate the side end of the trailing part (upstream part in the sheet feeding direction) in the legal size sheets S2. Thus, in such a case that an user has set carelessly the legal size sheets S2, set positions of the trailing part of the sheets S2 might be disordered. If the sheet S2 in such a state is fed, printing accuracy might be deteriorated. In addition, when the sheet S2 is fed, skew of the sheet S2 may occur due to component accuracy and durability wear of the feed roller 202c, and the like. In particular, in a case where the feed roller 202c is supported on a cantilever shaft, an abutting pressure of the feed roller 202c against the sheet S2 tends to be uneven and skew may occur in the sheet S2 when feeding the sheet S2.
However, in the present embodiment, the regulating member 301 is turned around the shaft 301a from the third regulating position (an intermediate regulating position) illustrated in
Thus, the trailing-end part of the sheet S2 is regulated in the width direction by the regulating member 301 and the fixed side regulating member 313 facing to the regulating member 301. That is, in the present embodiment, the position of the sheet S2 in the width direction is regulated by the regulating member 301 and the fixed side regulating member 313 in addition to the side regulating members 302. Such a configuration enables the apparatus to improve printing accuracy.
Here, in the present embodiment, the position of the sheet S2 in the sheet feeding direction X is regulated by the rib 306 and the choking portions 305a in a case where the legal size sheets S2 are stored. That is, the trailing end of the legal size sheets S2 is regulated by the rib 306 fixed on the sheet storage 312. Such a configuration, in which the trailing end of the sheet S2 is regulated by the fixed rib 306, eliminates the need for the conventional trailing end regulating member.
As described above, in the present embodiment, the side ends of the sheets S and S1 are regulated by the side regulating members 302 and the trailing ends of the sheets S and S1 are regulated by the regulating member 301 when storing the sheets S and S1 of the letter size and the A4 size. Meanwhile, when storing the legal size sheets S2, the regulating member 301 retreats in the width direction and the widthwise position of the sheet S2 is regulated by the retreated regulating member 301 and the fixed side regulating member 313 in addition to the side regulating members 302. Besides, regulation of the trailing end of the legal size sheets S2 is performed by the rib 306 provided on the frame member 305.
In short, the regulating member 301 is configured to move to the first regulating position on which the first abutting surface 1 regulates the trailing end of the letter size sheet S (first sheet) and the second regulating position on which the first abutting surface 1 regulates the side end of the legal size sheet S2 (second sheet). With this configuration, the trailing end of the sheet S2 is regulated without using the conventional trailing end regulating member, which improves stability of sheet feeding operation.
Moreover, such a configuration not using the conventional trailing end regulating member enables to reduce the length of the option feeder 300 in the sheet feeding direction X by a width of the trailing end regulating member and to reduce the size of the option feeder 300. In addition, setting failure due to forgetting the setting of the trailing end regulating member is avoided. Furthermore, a simple operation of pivoting the regulating member 301 prevents deterioration of printing accuracy, which is due to setting failure of the sheets of the legal size that are carelessly set by the user, and the occurrence of skew, which is due to component accuracy and the like.
It is noted that, although the regulating member 301 is pivoted around the shaft 301a in the above description, the support configuration of the regulating member 301 is not limited to that. For example, the frame member 305 may be provided with insertion holes that are disposed corresponding to the trailing end of the letter/A4 size sheets and configured to fit with the regulating member. In this case, the regulating member 301 is located at trailing-end regulating positions by inserting the regulating member 301 into the insertion holes. The frame member 305 may be provided with another insertion hole that is disposed corresponding to the side end of the legal size sheets and configured to fit with the regulating member. In this case, the regulating member 301 is located at side-end regulating positions by inserting the regulating member 301 into the insertion hole.
Now, the second embodiment will be described.
As illustrated in
The first trailing-end abutting surface 3 and the second trailing-end abutting surface 4 are formed in parallel to each other and substantially perpendicular to the sheet feeding direction X. The side end abutting surface 5 is formed to be perpendicular to the width direction. Since the first trailing-end abutting surface 3 is disposed on the downstream sides in the sheet feeding direction X and on the outside in the width direction with respect to the second trailing-end abutting surface 4, the regulating member 320 has a stepped shape.
In addition, in
Then, for example, in a case where the A4 size sheets S1 are stored instead of the letter size sheets S illustrated in
Furthermore, in a case where the legal size sheets S2 are stacked on a sheet stacking plate 304, the regulating member 320 is further slided from the position illustrated in
Here, as described above, similar to the first embodiment described above, the regulating member 320 is slided to the side end regulating position, thereby regulating the position of the legal size sheets S2 in the width direction by the regulating member 320 and the fixed side regulating member 313. In addition, it is possible to perform regulation of the trailing end position of the legal size sheets S2 by the rib 306 provided in the frame member 305.
As described above, in the present embodiment, the regulating member 320 is moved using the supporting mechanism 322 to the first regulating position on which the trailing end of the letter size sheet is regulated by the trailing-end abutting surface 3. In addition, the regulating member 320 is moved to the third regulating position on which the trailing end of the sheet of the A4 size is regulated by the trailing-end abutting surface 4 and the second regulating position on which the legal size sheets S2 in the width direction is regulated by the side end abutting surface 5.
That is, in the present embodiment, the trailing end positions of the letter size sheets S and the A4 size sheets S1 are regulated by the regulating member 320. In addition, the position of the legal size sheets S2 in the width direction is regulated by the regulating member 301 moved (retreated) in the width direction and the fixed side regulating member 313. Besides, regulation of the trailing end of the legal size sheets S2 is performed by the rib 306 provided on the frame member 305.
Thus, it is possible to obtain the same effects as the first embodiment described above. In addition, with such a configuration as described in the present embodiment, it is easy to ensure a length of the side end abutting surface 5 in the sheet feeding direction X for preventing setting failure of the legal size sheets and skew of the sheet during sheet feeding more efficiently. By the way, although the supporting mechanism 322 slidably supporting the regulating member 320 is configured with the boss 321 and the long hole 311 provided in the regulating member 320 in the present embodiment, other mechanisms such as a rack mechanism, a belt mechanism, and a ball screw mechanism may be used in accordance with required operability.
Next, a third embodiment of this disclosure will be described.
In
In addition, in
A portion of the guide hole 333 on the downstream side in the sheet feeding direction is parallel to the long hole 332 and a curved portion is formed continuously to the parallel portion. In the present embodiment, a supporting mechanism 334 supporting the regulating member 330 to be movable is configured of the guide hole 333, the bosses 331a and 331b, and the long hole 332. Thus, the regulating member 330 is slided between a first regulating position (
Then, in a case where the A4 size sheets S1 are stored instead of the letter size sheets S illustrated in
Furthermore, in a case where the legal size sheets S2 are stacked on the sheet stacking plate 304, the regulating member 330 is turned about the boss 331a from the third regulating position illustrated in
Here, similar to the first embodiment described above, it is possible to regulate the position of the legal size sheets S2 in the width direction by the regulating member 330 and a fixed side regulating member 313, by pivotally moving the regulating member 330 to the second regulating position. In addition, it is possible to perform regulation of the trailing end position of the legal size sheets S2 by the rib 306 provided in the frame member 305.
As described above, in the present embodiment, the regulating member 330 is slided to the position in which the trailing end of the letter size sheets S and the A4 size sheets S1 are regulated by the abutting surface 6 by the supporting mechanism 334. In addition, the regulating member 330 is pivotally moved from the position in which the trailing end of the A4 size sheets S1 is regulated to the position in which the legal size sheets S2 is regulated in the width direction by the abutting surface 6.
With this configuration, the present embodiment obtain similar effects as the first embodiment. In addition, in the present embodiment, since the single abutting surface 6 is capable of regulating both the trailing end and the side end (widthwise end) of the sheet, it is not necessary to provide a plurality of contact surfaces, each of which requires fine smoothness, and it is possible to design the regulating member 330 at a low cost.
It is noted that, a lock mechanism including, for example, locking teeth for locking the regulating member 330 may be provided along a sliding range of the regulating member 330. In that case, the regulating member 330 can be fixed on a desired position, which may ease the constraint on size variation of the sheet whose trailing end is regulated. It is noted that, also in the present embodiment, the boss 331 provided in the regulating member 330 and two long holes 332 and 333 guiding the boss 331 of the regulating member 330 are used, but a unit that slides and pivotally moves the regulating member 330 is not limited to the present embodiment.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2015-070665, filed on Mar. 31, 2015, which is hereby incorporated by reference herein in its entirety.
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