The entire disclosure of Japanese patent Application No. 2019-108645, filed on Jun. 11, 2019, is incorporated herein by reference in its entirety.
The present invention relates to a technique of passing an envelope through a curved conveyance path in an image forming apparatus.
An image forming apparatus such as a copier or a printer conveys a sheet by a pair of sheet feeding rollers, and a pair of registration rollers, and the like from a sheet feeding cassette that accommodates the sheet. Then, the image forming apparatus feeds the sheet to an image former, forms an image on the sheet at the image former, and discharges the image-formed sheet outside the image forming apparatus.
According to JP 05-254690 A, a configuration is made such that a sheet conveyance path from a pair of sheet feeding rollers to a pair of registration rollers is as straight as possible. With this arrangement, even though a stiff envelope or the like can be reliably guided to a nip between the pair of registration rollers.
However, depending on the disposition of the sheet feeding cassette and the image former in the image forming apparatus, the sheet conveyance path may be curved. When an envelope having a flapper folded passes through such a curved conveyance path, there may be a disadvantage that the conveyed envelope skews as described below.
As illustrated in
For example, consider a case where a pair of sheet feeding rollers conveys the envelope E toward a pair of registration rollers, from a sheet feeding cassette that horizontally accommodates the envelope E, via a vertically and upward curved conveyance path.
Here, in FIGS. 9A1, 9A2, 9B1, 9B2, 9C1, 9C2, 9D1, and 9D2, the envelope being conveyed in a curved posture is straightened, in order to clearly illustrate a floating degree of the flapper F.
While the envelope E is present in the curved conveyance path, as illustrated in FIGS. 9A1 to 9A3, guide members G1 and G2 guide the envelope E having the flapper F toward registration rollers R1 and R2, respectively.
When the envelope E is further conveyed toward the registration rollers R1 and R2, as illustrated in FIGS. 9B1 to 9B3, the front end E1 of the envelope E having the flapper F partially open enters between the guide members G1 and G2.
The flapper F of the envelope E is open (gap E6 in
When the envelope E is further conveyed toward the registration rollers R1 and R2, as illustrated in FIGS. 9D1 to 9D3, the side E2 where the envelope E has the flapper F receives resistance from the guide members G1 and G2. On the other hand, a front end of the side E3 where the envelope E does not have the flapper F comes into contact with the registration rollers R1 and R2.
As described above, when the envelope E is conveyed toward the pair of registration rollers while the envelope E is present in the curved conveyance path, the flapper is open and the envelope skews due to the gaps that have occurred between the flapper and the envelope main body. When an image is formed on a face of the skewed envelope, there may be a disadvantage that the image is formed obliquely to each side of the envelope.
An object of the present invention is to provide a conveying device and an image forming apparatus that solve this advantage and are capable of preventing skew of an envelope in a case where the envelope passes through a curved conveyance path.
To achieve the abovementioned object, according to an aspect of the present invention, there is provided a conveying device that conveys an envelope along a curved conveyance path, the envelope having a flapper simply folded, the envelope being non-sealed, the envelope having a side where the flapper is present, the side being in agreement with a conveying direction, the envelope having a front face where the folded flapper is present, the front face being directed outside the curve of the conveyance path, and the conveying device reflecting one aspect of the present invention comprises: a first conveyance member that is provided upstream of the conveyance path; a guide member that is disposed, along the conveyance path, downstream of the first conveyance member in the conveying direction; and a second conveyance member that is disposed downstream of the guide member in the conveying direction and conveys the envelope guided by the guide member, downstream in the conveying direction, wherein the guide member has a flapper relief that has retracted away from the conveyance path such that a rise portion of the flapper generated due to the curve of the conveyance path passes through the flapper relief.
The advantages and features provided by one or more embodiments of the invention will become more fully understood from the detailed description given hereinbelow and the appended drawings which are given by way of illustration only, and thus are not intended as a definition of the limits of the present invention:
FIGS. 4A1 to 4D3 explanatorily illustrate a case where as a sheet S, an envelope having a flapper F folded passes through a curved conveyance path in the embodiment;
FIGS. 9A1 to 9D3 explanatorily illustrate a case where an envelope E having a flapper F fold passes through a curved conveyance path in a conventional technique;
Hereinafter, one or more embodiments of an image forming apparatus 10 according to the present invention will be described with reference to the drawings. However, the scope of the invention is not limited to the disclosed embodiments.
1.1 Configuration of Image Forming Apparatus 10
As illustrated in
The image forming apparatus 10 forms an image on, for example, a plain sheet and an envelope having a flapper.
In the image forming apparatus 10, provided are a sheet feeder 13 at a lower portion of the housing and a print engine 12 above the sheet feeder 13. The sheet feeder 13 accommodates and feeds sheets, and the print engine 12 forms an image by an electrophotographic method. Each sheet is conveyed from the sheet feeder 13 toward the print engine 12 via a conveyance path W. Further above the print engine 12, provided are a scanner 11 and an operation panel 14. The scanner 11 reads a document face and the operation panel 14 displays an operation screen and receives an input operation from a user.
The scanner 11 includes an automatic document conveying device. The automatic document conveying device conveys documents that are set on a document tray one by one to a document glass plate. The scanner 11 scans (reads), by movement of a reader an image of each document that has been conveyed to a predetermined position on the document glass plate by the automatic document conveying device. Then, the scanner 11 obtains image data including multi-value digital signals of red (R), green (G), and blue (B).
Respective pieces of image data of the color components obtained by the scanner 11 are subjected to various types of data processing at a control circuit 19. Further, the processed images are converted into respective pieces of image data in reproduced colors of yellow (Y), magenta (M), cyan (C), and black (K).
The print engine 12 includes, for example, an intermediate transfer belt 22, a driving roller and a driven roller that lay the intermediate transfer belt 22, a plurality of image forming units 21Y, 21M, 21C, and 21K, and a fixer 18. The plurality of image forming units 21Y, 21M, 21C, and 21K each are disposed opposite to the intermediate transfer belt 22 at a predetermined interval, along the traveling direction A of the intermediate transfer belt 22.
Each image forming unit includes, for example, a photoconductor drum that serves as an image carrier, a light emitting diode (LED) array that exposes and scans the front face of the photoconductor drum, an electrostatic charger, a developing device, a cleaner, and a primary transfer roller.
The sheet feeder 13 includes a sheet feeding cassette that accommodates the sheets and a pickup roller 37, a manual feeding tray 16 on which sheets are placed, and a pickup roller 38. The pickup roller 37 sends out each sheet from the sheet feeding cassette to the conveyance path W, and the pickup roller 38 sends out each sheet from the manual feeding tray 16 to the conveyance path W.
At each image forming unit, the photoconductor drum is uniformly charged by the electrostatic charger, exposed by the LED array, and an electrostatic latent image is formed on the front face of the photoconductor drum. Each electrostatic latent image is developed by the developing device for the corresponding color, and a toner image in any color of Y, M, C, and K is formed on the front face of the photoconductor drum. The toner images each are sequentially transferred onto the front face of the intermediate transfer belt by electrostatic action of the primary transfer roller that is provided on the back face side of the intermediate transfer belt.
Along the conveyance path W, provided are sheet feeding rollers 31a and 31b (first conveyance members), a guide member 35, a guide member 36, registration rollers 34a and 34b (second conveyance members) in this order downstream of the sheet feeder 13 in the sheet conveying direction. Further, along a conveyance path from the manual feeding tray 16, provided are sheet feeding rollers 32a and 32b downstream of the manual feeding tray 16 in the sheet conveying direction. The conveyance path joins the conveyance path W from the sheet feeder 13. Here, the sheet feeding roller 31a and the sheet feeding roller 31b are in press contact with each other, and the sheet feeding roller 32a and the sheet feeding roller 32b are in press contact with each other. The registration roller 34a and the registration roller 34b are in press contact with each other. Here, the sheet feeding rollers 31a and 31b, the guide member 35, the guide member 36, and the registration rollers 34a and 34b provided along the conveyance path W are included in a conveying device 15.
The conveyance path W is curved between the sheet feeding rollers 31a and 31b and between the registration rollers 34a and 34b. With this arrangement, along the curved conveyance path W, conveyed is an envelope having a flapper simply folded, the envelope being non-sealed, the envelope having a side where the flapper is present, the side being in agreement with the conveying direction, the envelope having a front face where the folded flapper is present, the front face being directed outside the curve of the conveyance path W.
The guide member 35 has a groove recessed therein. The groove retracts away from the conveyance path W such that a rise portion of the flapper generated due to the curve of the conveyance path W passes the groove.
The conveying distance between the sheet feeding rollers 31a and 31b and the registration rollers 34a and 34b is equal to the length in the conveying direction of the envelope.
The sheet feeding rollers 31a and 31b or the sheet feeding rollers 32a and 32b convey each sheet in accordance with the image forming operation by each image forming unit, from the sheet feeding cassette of the sheet feeder 13 or the manual feeding tray 16 toward a nip 34c formed by the registration rollers 34a and 34b, via the guide member 35 and the guide member 36.
The registration rollers 34a and 34b correct skew of the sheet that has been conveyed from the sheet feeding rollers 31a and 31b or the sheet feeding rollers 32a and 32b, and adjust timing of conveying the skew-corrected sheet. Then, the registration rollers 34a and 34b convey the skew-corrected sheet to a secondary transfer position where a secondary transfer roller 23 and a backup roller opposite to each other with the intermediate transfer belt 22 interposed between the secondary transfer roller 23 and the backup roller.
At the secondary transfer position, the respective toner images in Y, M, C, and K colors on the intermediate transfer belt 22 are secondarily transferred onto the sheet by electrostatic action of the secondary transfer roller 23. The sheet on which the respective toner images in Y, M, C and K colors are secondarily transferred is further conveyed to the fixer 18.
When the sheet passes through a fixing nip formed between a heating roller and a pressure roller of the fixer 18, the heating roller and a pressure roller being in press contact with each other, the toner image on the front face of the sheet is fused and fixed on the front face of the sheet by heating and pressing. After passing through the fixer 18, the sheet is sent to a discharge tray 17.
1.2 Guide Member 35
As illustrated in
The guide member 35 is supported swingably around a shaft 35e. The shaft 35e also serves as the shaft that supports the registration roller 34a. That is, the guide member 35 is supported pivotably around the rotary shaft of the registration roller 34a. As described above, the guide member 35 is supported swingably around the shaft 35e. Thus, even in a case where a thick sheet enters the guide member 35, the guide member 35 swings, due to the entry of the thick sheet, around the shaft 35e within a swinging range of the guide member 35. The swinging by the guide member 35 can prevent the front end of the thick sheet from abutting the guide member 35 and stopping. As a result, the guide member 35 can stably guide the thick sheet to the nip 34c between the registration rollers 34a and 34b.
The guide member 35 includes a guide portion 35a1, a guide portion 35c, and a guide portion 35a2.
At a position P1 (
Further, in preparation for a case where the rise portion of the flapper passes right with respect the center line H1 in the direction opposite to the conveying direction of the envelope illustrated in
The groove 35b1 is recessed between the guide portion 35a1 and the guide portion 35c in the elongate direction of the guide member 35. The groove 35b2 is recessed between the guide portion 35c and the guide portion 35a2 in the elongate direction of the guide member 35. That is, in the guide member 35, the groove 35b1 is recessed on the left side and the groove 35b2 is recessed on the right side, with respect to the center line H1 (H2).
The guide portion 35a1, the guide portion 35c, and the guide portion 35a2 have a guide face 33a1, a guide face 33c, and a guide face 33a2 that guide the sheet S, respectively (
The guide faces 33a1, 33c, and 33a2 each guide the sheet S.
The groove 35b1 and the groove 35b2 have a bottom face 33b1 and a bottom face 33b2, respectively (
As described above, the nip 34c between the registration rollers 34a and 34b is located on the extension of the guide faces 33a1, 33c, and 33a2, and the nip 34c is located on the extension of the bottom face 33b1 and the bottom face 33b2. Thus, the respective angles of the bottom face 33b1 and the bottom face 33b2 to the conveyance path W are different from the respective angles of the guide faces 33a1, 33c, and 33a2 to the conveyance path W.
Of the flapper face, the rise portion of the flapper passes through the space between the bottom face 33b1 (or bottom face 33b2) and the conveyance path W.
As illustrated in
1.3 Example of Conveying Sheet S
As described above, from the sheet feeder 13 that horizontally accommodates the sheet S as the envelope, the sheet feeding rollers 31a and 31b convey the sheet S vertically and upward via the curved conveyance path W. The guide members 35 and 36 guide the sheet S, and the sheet is conveyed toward the nip 34c formed by the registration rollers 34a and 34b. Hereinafter, the conveyance in this case will be described with reference to FIGS. 4A1 to 4D3.
FIG. 4A1 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A1-A1 in FIG. 4A3. FIG. 4A2 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A2-A2 in FIG. 4A3. FIG. 4B1 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A3-A3 in FIG. 4B3. FIG. 4B2 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A4-A4 in FIG. 4B3. FIG. 4C1 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A5-A5 in FIG. 4C3. FIG. 4C2 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A6-A6 in FIG. 4C3. FIG. 4D1 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A7-A7 in FIG. 4D3. FIG. 4D2 is a schematic cross-sectional view of the guide member 35 and the other members, viewed along arrows A8-A8 in FIG. 4D3.
Here, in FIGS. 4A1, 4A2, 4B1, 4B2, 4C1, 4C2, 4D1, and 4D2, similarly to FIGS. 9A1, 9A2, 9B1, 9B2, 9C1, 9C2, 9D1, and 9D2, the envelope being conveyed in a curved posture is straightened, in order to clearly illustrate a floating degree of the flapper F.
When the sheet S is fed from the sheet feeder 13, the sheet feeding rollers 31a and 31b convey the sheet S having the flapper F toward the registration rollers 34a and 34b as illustrated in FIGS. 4A1 to 4A3, while the sheet S is present in the curved conveyance path W.
When the sheet S is further conveyed toward the registration rollers 34a and 34b, as illustrated in FIGS. 4B1 to 4B3, even though the flapper F is open, the front end S5 of the sheet S enters space in the groove 35b1 (or the groove 35b2). Thus, unlike a flat configuration having no groove, the sheet S dose not receive conveying resistance from the guide member.
Although the flapper F of the sheet S is open, of both sides S6 and S7 of the sheet S, the thickness of the side S7 where the sheet S has the flapper F is thinner than the interval between the groove 35b1 and the guide member 36 (FIGS. 4C1 to 4C3). When the sheet S is further conveyed toward the registration rollers 34a and 34b, as illustrated in FIGS. 4C1 to 4C3, the side S7 where the envelope E has the flapper F does not receive resistance from the groove 35b1 and the guide member 36. In addition, the side S6 where the envelope E does not have the flapper F is conveyed toward the registration rollers 34a and 34b without receiving the resistance from the groove 35b1 and the guide member 36.
When the sheet S is further conveyed toward the registration rollers 34a and 34b, as illustrated in FIGS. 4D1 to 4D3, the side S7 where the envelope E has the flapper F does not receive resistance from the groove 35b1 and the guide member 36, and the front end of the side S7 comes into contact with the registration rollers 34a and 34b. In addition, the front end of the side S6 where the envelope E does not have the flapper F comes into contact with the registration rollers 34a and 34b.
As described above, while the sheet S as the envelope is present in the curved conveyance path W, when the sheet S is conveyed toward the registration rollers 34a and 34b, even though the flapper is open, the sheet S as the envelope does not skew. No skew occurs, so that an image is correctly formed on a face of the sheet S.
1.4 Brief of the Embodiment
From the sheet feeder 13 that horizontally accommodates the sheet S as the envelope having the flapper face downward, the sheet feeding rollers 31a and 31b convey the sheet S vertically and upward via the curved conveyance path W. Then, the sheet S is guided by the guide member 35 and the guide member 36, and then conveyed toward the nip 34c formed by the registration rollers 34a and 34b.
In this case, when the sheet S passes through the curved conveyance path W, the flapper face of the envelope faces outside the curve of the conveyance path W. Thus, the flapper of the envelope is easy to open during the sheet S is passing through the conveyance path W.
However, as illustrated in
Further, as illustrated in
With this arrangement, as illustrated in FIGS. 4C1 to 4C3, although the flapper F of the sheet S is open, of both sides S6 and S7 of the sheet S, the thickness of the side S7 where the envelope E has the flapper F is narrower than the interval between the groove 35b1 and the guide member 36. Thus, the side S7 where the envelope E has the flapper F does not receive the resistance from the groove 35b1 and the guide member 36.
Therefore, while the sheet S as the envelope is present in the curved conveyance path W, in the case where the sheet S is conveyed toward the registration rollers 34a and 34b, even though the flapper of the envelope is open, the sheet S as the envelope does not skew. No skew occurs, so that the image is correctly formed on the face of the sheet S.
1.5 Modification (1)
In the above embodiment, as illustrated in
In Modification (1) of the above embodiment, as illustrated in
Here,
In the guide member 35A, the groove 35b1 is recessed on one side and no groove is present on the other side with respect to a center line H3 (H4).
In this case, for the sheet feeder 13, a direction where a sheet as an envelope having a flapper is accommodated is defined to be one. That is, a user needs to accommodate the envelope having the flapper in the sheet feeder 13 such that a side having the flapper of the envelope passes through the side where the groove 35b1 is present.
Even with such a configuration, while the sheet S as the envelope is present in the curved conveyance path W, in a case where the sheet S is conveyed toward the registration rollers 34a and 34b, even though the flapper of the envelope is open, the sheet S as the envelope dose not skew. No skew occurs, so that an image is correctly formed on the face of the sheet S.
1.6 Modifications (2)
In the above embodiment, as illustrated in
In Modification (2) of the above embodiment, as illustrated in
In the guide member 35B, the groove 35h1 is present on one side and the groove 35h2 is present on the other side with respect to a center line H5 (H6).
The groove 35h1 and the groove 35h2 have a bottom face 33i1 and a bottom face 33i2, respectively.
Modification (2) has a configuration similar to that of the embodiment in the description so far, and has an effect similar to that of the embodiment. Note that, one difference is in the respective widths of the grooves. The respective lengths of the groove 35h1 and the groove 35h2 in the elongate direction are longer than the respective lengths of the groove 35b1 and the groove 35b2 in the elongate direction in the above embodiment.
In Modification (2), an attachment 35i1 (projection member) and an attachment 35i2 (projection member) are prepared in advance.
The attachment 35i1 has the same cross-sectional shape as a protrusion obtained by cutting the guide portion 35g1 on the same plane as the bottom face 33i1.
The attachment 35i2 is similar to the attachment 35i1.
The attachment 35i1 can be disposed on the bottom face 33i1 such that a side face of the attachment 35i1 contacts a side face of the guide portion 35g1. The attachment 35i1 is screwed and fixed to the guide member 35B. As a result, a guide 35j1 is newly formed. Note that the attachment 35i1 may be disposed on the bottom face 33i1 such that another side face of the attachment 35i1 contacts a side face of the guide portion 35c.
Further, the attachment 35i2 can be disposed on the bottom face 33i2 such that a side face of the attachment 35i2 contacts a side face of the guide portion 35g2. The attachment 35i2 is screwed and fixed to the guide member 35B. As a result, a guide 35j2 is newly formed. Note that the attachment 35i2 may be disposed on the bottom face 33i2 such that another side face of the attachment 35i2 contacts another side face of the guide portion 35c.
The attachments are determined in disposition position corresponding to the size of an envelope to be used when the image forming apparatus 10 is used. That is, each attachment (guide plate) having a length shorter than the width of the groove is attachable into and detachable from the groove of the guide member, so that the position of the groove is shiftable in the elongate direction of the guide member.
The attachment 35i1 and the attachment 35i2 may be fixed before the image forming apparatus 10 is shipped from the factory. Alternatively, after the image forming apparatus 10 is shipped, a service person may fix the attachment 35i1 and the attachment 35i2 at the installation location (use location) of the image forming apparatus 10.
As described above, the respective disposition positions of the attachments are changeable. Thus, in the guide member 35B, the grooves can be suitably located corresponding to the size of the envelope to be used when the image forming apparatus 10 is used.
1.7 Modifications (3)
In the above embodiment, as illustrated in
In Modification (3) of the above embodiment, as illustrated in
Here, the guide portion 35k1, the guide portion 35c, and the guide portion 35k2 are fixed guides having the same structure as the guide portion 35a1, the guide portion 35c, and the guide portion 35a2 of the embodiment, respectively. On the other hand, each of the slide mechanisms 35r1 to 35r4 has a variable guide slidably provided therewith.
The first state is a case where an envelope having a first width is conveyed to a conveyance path W. The second state is a case where an envelope having a second width is conveyed to the conveyance path W. The first width is narrower than the second width. Further, the third state is a case where a plain sheet is conveyed to the conveyance path W.
As illustrated in
Further, the slide mechanism 35r2 has a solenoid 35n2 disposed on the bottom face of the groove 35q2, and a tabular guide portion 35m2 (guide plate) is fixed to the leading end of a plunger 35p2 that protrudes from the solenoid 35n2. The guide section 35m2 is a variable guide slidably provided. The slide mechanism 35r4 has the same configuration as the slide mechanism 35r2.
In a case where a plain sheet is conveyed to the conveyance path W, as illustrated in
Further, in a case where an envelope having the first width (narrow width) is conveyed to the conveyance path W, as illustrated in
Further, in case where an envelope having the second width (wide width) is conveyed to the conveyance path W, as illustrated in
As described above, the grooves 35q1 and 35q2 penetrating in the conveying direction each are provided at the position where the rise portion of the flapper of the envelope passes through on the guide member 35D. The guide portion 35m1 (guide plate), the other guide portion, and the like are slidably provided inside the groove 35q1 in the depth direction of the groove 35q1. The guide portion 35m2 (guide plate), the other guide portion, and the like are slidably provided inside the groove 35q2 in the depth direction of the groove 35q2. In a case where the guide portion 35m1, the guide portion 35m2, and the like slide away from the conveyance path, the groove 35q1, the guide portion 35m1, and the like form a flapper relief that allows the generated rise portion of the flapper to pass through the flapper relief. Thus, at the guide member 35D, the flapper relief is shiftable in the elongate direction of the guide member 35D.
Further, the guide portions 35m1, 35m2, and the like (guide plates), are slidable between the position where the respective front faces of the guide portions 35m1, 35m2, and the like (guide plates) agree with the guide face of the guide portion 35k1 (e.g.,
Here, the distance L3 may be set to a maximum width in which the flapper of the envelope opens or a width slightly wider than the maximum width, in a case where the envelope is conveyed along the curved conveyance path W.
As described above, according to Modification (3), in the case where the envelope is conveyed to the conveyance path W, the solenoids 35n1 and 35n2 retract the plungers 35p1 and 35p2, respectively, such that the difference between the respective front faces of the guide portion 35m1 and the guide portion 35m2 and the respective front faces of the guide portions 35k1, 35c, and 35k2 is the distance L3. Thus, the envelope does not skew during the conveyance of the envelope.
Further, according to Modification (3), even in the case where there are the two types of the envelopes different in width to be conveyed to the conveyance path W, the grooves are recessed corresponding to each width, so that skew of the envelope can be prevented.
Furthermore, according to Modification (3), in the case where the plain sheet is conveyed to the conveyance path W, the respective solenoids of all the slide mechanisms cause the corresponding plungers to protrude to the position where the respective front faces of the guide portion 35m1 and the guide portion 35m2 agree with the respective front faces of the guide portion 35k1, 35c, and 35k2. Thus, there is no hindrance in the conveyance of the plain sheet.
The present invention has been described on the basis of the above embodiment; however, the present invention is not limited to the above embodiment. The followings may be performed.
(1) In the above embodiment, as illustrated in
Two or more grooves may be recessed on each side with respect to the center line H1 (H2). With this arrangement, even in a case where a plurality of types of envelopes different in width is conveyed along the conveyance path W, skew of the individual envelopes different in width can be prevented.
Similarly, in Modification (1), two or more grooves may be recessed on one side with respect to the center line H3 (H4).
(2) Any combination may be made among the above embodiment and the above modifications.
The conveying device according to the present invention exerts an excellent effect that, in a case where an envelope passes through a curved path, skew of the envelope can be prevented. Thus, the conveying device is useful as a technique of passing an envelope through a curved conveyance path in an image forming apparatus.
Although embodiments of the present invention have been described and illustrated in detail, the disclosed embodiments are made for purposes of illustration and example only and not limitation. The scope of the present invention should be interpreted by terms of the appended claims
Number | Date | Country | Kind |
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JP2019-108645 | Jun 2019 | JP | national |
Number | Name | Date | Kind |
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8322714 | Satomi | Dec 2012 | B2 |
8403324 | Shirakata | Mar 2013 | B2 |
9950885 | Mizuguchi | Apr 2018 | B2 |
11247860 | Yamada | Feb 2022 | B2 |
20160194167 | Mizuguchi | Jul 2016 | A1 |
20220011711 | Shiokawa | Jan 2022 | A1 |
Number | Date | Country |
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H05-254690 | Oct 1993 | JP |
Number | Date | Country | |
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20200391967 A1 | Dec 2020 | US |