MEDIUM CONVEYING APPARATUS INCLUDING GUIDE MECHANISM SWINGABLY SUPPORTED ABOUT TWO AXES
A medium conveying apparatus includes medium conveying apparatus includes a housing including a locking portion, a first supporting portion and a second supporting portion, a feed roller, a separation roller located to face the feed roller, and a guide mechanism including a locked portion locked with the locking portion, a first shaft portion supported by the first supporting portion, a second shaft portion supported by the second supporting portion, and a conveyance guide portion to regulate a medium fed between the feed roller and the separation roller. The guide mechanism is swingably supported by the housing about the first shaft portion in a state where the locked portion is locked with the locking portion. The guide mechanism is swingably supported by the housing about the second shaft portion in a state where a locking of the locking portion and the locked portion is released.
This is a continuation application of U.S. patent application Ser. No. 17/450,946, filed Oct. 14, 2021, which claims priority to and benefit of prior Japanese Patent Application No. 2020-198619, filed on Nov. 30, 2020, the entire contents of which are incorporated herein by reference.
TECHNICAL FIELDEmbodiments discussed in the present specification relate to medium conveyance.
BACKGROUNDRecently, a medium conveying apparatus, such as a scanner, is required to convey media, such as a plastic card or a passport, having various thicknesses. Further, such a medium conveying apparatus is required that the maintenance can be easily performed.
A medium conveying apparatus provided with a conveying path in which a medium is conveyed, a medium guide provided on the conveying path to include a swing support portion, and a support portion in which the swing support portion to swing the medium guide is supported swingably in a contact/separation direction relative to the conveying path is disclosed (Japanese Unexamined Patent Publication (Kokai) No. 2009-84007).
A medium conveying apparatus including a conveying member movably arranged in a vertical direction on a conveying path, to convey a medium, and a guide portion to guide the medium, and to be moved in the vertical direction with a movement of the conveying member in the vertical direction is disclosed (Japanese Unexamined Patent Publication (Kokai) No. 2004-276254).
SUMMARYAccording to some embodiments, a medium conveying apparatus includes a housing including a locking portion, a first supporting portion and a second supporting portion, a feed roller, a separation roller located to face the feed roller, and a guide mechanism including a locked portion locked with the locking portion, a first shaft portion supported by the first supporting portion, a second shaft portion supported by the second supporting portion, and a conveyance guide portion to regulate a medium fed between the feed roller and the separation roller. The guide mechanism is swingably supported by the housing about the first shaft portion in a state where the locked portion is locked with the locking portion. The guide mechanism is swingably supported by the housing about the second shaft portion in a state where a locking of the locking portion and the locked portion is released.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory, and are not restrictive of the invention, as claimed.
Hereinafter, a medium conveying apparatus according to an embodiment, will be described with reference to the drawings. However, it should be noted that the technical scope of the invention is not limited to these embodiments, and extends to the inventions described in the claims and their equivalents.
In
The medium conveying apparatus 100 includes a lower housing 101, an upper housing 102, a medium tray 103, and an ejection tray 104, etc.
The upper housing 102 is located at a position covering the upper surface of the medium conveying apparatus 100 and is engaged with the lower housing 101 by hinges so as to be opened and closed at a time of medium jam, during cleaning the inside of the medium conveying apparatus 100, etc. The upper housing 102 and the lower housing 101 is formed of a resin material or a metal material, etc. The upper housing 102 is an example of a housing.
The medium tray 103 is engaged with the lower housing 101 in such a way as to be able to place a medium to be conveyed. The ejection tray 104 is engaged with the lower housing 101 in such a way as to be able to hold an ejected medium.
The conveyance path inside the medium conveying apparatus 100 include a feed roller 111, a brake roller 112, a first conveyance roller 113, a second conveyance roller 114, a first imaging device 115a, a second imaging device 115b, a third conveyance roller 116, a fourth conveyance roller 117 and a guide mechanism 120, etc. The number of each roller is not limited to one, and may be plural.
An upper surface of the lower housing 101 forms a lower guide 105a forming a lower surface of the medium conveyance path, and a lower surface of the upper housing 102 forms an upper guide 105b forming an upper surface of the medium conveyance path.
The feed roller 111 is provided on the lower housing 101 and sequentially feeds media placed on the medium tray 103 from the lower side. The brake roller 112 is an example of a separation roller, is provided on the upper housing 102, and is located to face the feed roller 111.
The first conveyance roller 113 is provided on the lower housing 101. The second conveyance roller 114 is provided on the upper housing 102, and is located to face the first conveyance roller 113 on the upward side of the first conveyance roller 113. The second conveyance roller 114 is urged (pressed) in a direction toward the first conveyance roller 113 side (downward) by a spring (not shown), and is provided movably upward. The first conveyance roller 113 and the second conveyance roller 114 are located on the downstream side of the feed roller 111 and the brake roller 112 in the medium conveying direction A1, and convey the medium fed by the feed roller 111 and the brake roller 112 to the downstream side.
The first imaging device 115a includes a line sensor based on a unity-magnification optical system type contact image sensor (CIS) including an imaging element based on a complementary metal oxide semiconductor (CMOS) linearly located in a main scanning direction. Further, the first imaging device 115a includes a lens for forming an image on the imaging element, and an A/D converter for amplifying and analog-digital (A/D) converting an electric signal output from the imaging element. The first imaging device 115a generates and outputs an input image imaging a front surface of a conveyed medium, in accordance with control from a processing circuit (not shown).
Similarly, the second imaging device 115b includes a line sensor based on a unity-magnification optical system type CIS including an imaging element based on a CMOS linearly located in a main scanning direction. Further, the second imaging device 115b includes a lens for forming an image on the imaging element, and an A/D converter for amplifying and A/D converting an electric signal output from the imaging element. The second imaging device 115b generates and outputs an input image imaging a back surface of a conveyed medium, in accordance with control from the processing circuit. The second imaging device 115b is located to face the first imaging device 115a on the upper side of the first imaging device 115a, is urged in a direction toward the first imaging device 115a side (downward) by a spring (not shown), and is provided movably upward.
Only either of the first imaging device 115a and the second imaging device 115b may be located in the medium conveying apparatus 100 and only one surface of a medium may be read. Further, a line sensor based on a unity-magnification optical system type CIS including an imaging element based on charge coupled devices (CCDs) may be used in place of the line sensor based on a unity-magnification optical system type CIS including an imaging element based on a CMOS. Further, a line sensor based on a reduction optical system type line sensor including an imaging element based on CMOS or CCDs.
The third conveyance roller 116 is provided on the lower housing 101. The fourth conveyance roller 117 is provided on the upper housing 102, and is located to face the third conveyance roller 116 on the upward side of the third conveyance roller 117. The fourth conveyance roller 117 is urged in a direction toward the third conveyance roller 116 side (downward) by a spring (not shown), and is provided movably upward. The third conveyance roller 116 and the fourth conveyance roller 117 are located on the downstream side of the first conveyance roller 113 and the second conveyance roller 114 in the medium conveying direction A1, to further convey the medium conveyed by the first conveyance roller 113 and the second conveyance roller 114 to the downstream side.
The guide mechanism 120 is provided at a position overlapping the feed roller 111 and the brake roller 112 in the medium conveying direction A1, in the upper housing 102. The guide mechanism 120 is formed of an integral member, such as a resin material or a metal material, etc. The guide mechanism 120 may be formed of a plurality of members. The guide mechanism 120 abuts against a front end of the medium entering a nip position of the feed roller 111 and the brake roller 112 to regulate floating of the front end of the medium. Further, the guide mechanism 120 regulates the floating of the medium fed between the feed roller 111 and the brake roller 112 so that the medium is appropriately fed between the first imaging device 115a and the second imaging device 115b.
The medium placed on the medium tray 103 is fed toward the medium conveying direction A1 while being guided by the guide mechanism 120 by the feed roller 111 rotating in a direction of an arrow A3 in
The medium is fed between the first imaging device 115a and the second imaging device 115b by the first conveyance roller 113 and the second conveyance roller 114 rotating in directions of an arrow A5 and an arrow A6, respectively. The medium read by the first imaging device 115a and the second imaging device 115b is ejected on the ejection tray 104 by rotating the third conveyance roller 118 and the fourth conveyance roller 119 in directions of an arrow A7 and an arrow A8, respectively.
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The first shaft portions 120b are projections formed in an arc shape. The first shaft portions 120b are provided at the upstream end portion of the guide mechanism 120 in the medium conveying direction A1, in particular, on the upstream side of the brake roller 112, and located apart from each other along in the width direction A2.
As illustrated in
The pressed portions 120d have a planar shape. The pressed portions 120d are provided at the downstream end portion of the guide mechanism 120 in the medium conveying direction A1, in particular, on the downstream side of the brake roller 112, and located apart from each other along in the width direction A2.
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The stoppers 121 are provided on the upstream side of the brake roller 112 in the medium conveying direction A1, and located apart from each other along in the width direction A2. The stoppers 121 abut the front end of the medium placed on the medium tray 103, to prohibit that the medium placed on the medium tray 103 enters the nip position of the feed roller 111 and the brake roller 112, before conveying the medium.
The front end guide 122 is provided on the upstream side of the brake roller 112 in the medium transport direction A1 and between the two brake rollers 112 in the width direction A2. The front end guide 122 is urged downward by a spring (not shown). The front end guide 122 presses the front end of the medium entering the nip position of the feed roller 111 and the brake roller 112 downward to regulate the upward floating of the front end of the medium, during conveyance of the medium. The number of the front end guide 122 is not limited to one, and may be plural. In that case, the front end guides 122 are located apart from each other along in the width direction A2.
As illustrated in
The locking portions 102a are provided at positions facing the locked portions 120a in a state where the guide mechanism 120 is attached to the upper housing 102. The locking portions 102a have an L-shape to abut the locked portions 120a.
The first supporting portions 102b are provided at positions facing the first shaft portions 120b in a state where the guide mechanism 120 is attached to the upper housing 102. The first supporting portions 102b have arc-shaped concave portions along the arc surfaces of the first shaft portions 120b, to rotatably support the first shaft portions 120b. The first shaft portions 120b and the first supporting portions 102b are provided so as to contact only at an upper end side of the first shaft portions 120b and the lower end side of the first supporting portions 102b. Thus, even when a force toward the upper side from the lower side is applied to the guide mechanism 120, the guide mechanism 120 can rotate along the first supporting portions 102b, while receiving a load so as not to lift.
The second supporting portions 102c are provided at positions facing the second shaft portions 120c in a state where the guide mechanism 120 is attached to the upper housing 102. The second supporting portions 102c have an arc-shaped concave portion along the arc surface of the second shaft portion 120c, and rotatably supports the second shaft portion 120c at a lower end of the concave portion.
The pressing members 102d are provided at positions facing the pressed portions 120d in a state where the guide mechanism 120 is attached to the upper housing 102. The pressing members 102d are formed of compression coil springs, and are provided so that one ends thereof are fixed to the upper housing 102 and the other ends thereof contact the pressed portions 120d. Thus, the pressed portions 120d are urged downward by the pressing members 102d. The pressing members 102d may be formed of torsion coil springs, or rubber members, etc. The pressing members 102d may be held in a predetermined frame so as not to be exposed when the guide mechanism 120 is opened.
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As described above, when the passport M2 is fed, the brake roller 112 is pushed up by the passport M2. Thus, as illustrated in
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As described in detail above, the medium conveyance apparatus 100 swingably supports the guide mechanism 120 for regulating the fed medium on the housing about the two shaft portions so that the distance between the feed roller 111 and the conveyance guide portion 120e is variable and the inner side of the guide mechanism 120 is opened. Thus, the medium conveying apparatus 100 can perform maintenance easily while appropriately conveying a plurality of media having different thicknesses, respectively.
In particular, the medium conveying apparatus 100 can convey a plurality of media having different thicknesses, respectively, by inserting from the same feed port. Further, the medium conveying apparatus 100 can appropriately convey the medium to the imaging device 115 while holding the floating of the medium by the guide mechanism 120.
Further, the medium conveying apparatus 100 can protect the brake roller 112 and its driving mechanism against dust by the guide mechanism 120. Further, the guide mechanism 120 can reduce the vertical position variation in the upstream end portion thereof by swinging about the upstream end portion as a swing axis in the initial state and the first moving state. Therefore, the medium conveying apparatus 100 can reduce the vertical position variation of the front end guide 122 provided at the upstream end portion of the guide mechanism 120, and can satisfactorily feed a plurality of media by the front end guide 122 when the plurality of media are placed on the medium tray 103.
As illustrated in
The engaged members 220a are members having a projection formed in a cylindrical shape, are formed separately from the guide mechanism 220, and are attached to the guide mechanism 220. The engaged members 220a are urged toward the outside in the width direction A2 with respect to the guide mechanism 220 by a spring (not shown), and are provided so as to be pushed into the inside of the guide mechanism 220. The engaged members 220a are provided at an upstream end of the guide mechanism 220 in the medium conveying direction A1, and are located apart from each other along in the width direction A2.
The engaging portions 202a are provided at positions facing the projections of the engaged members in a state where the guide mechanism 220 is attached to the upper housing 202. The engaging portions 202a have holes that engages with projections of the engaged members 220a, and rotatably supports the engaged members 220a.
As illustrated in
As described in detail above, the medium conveying apparatus can perform maintenance easily while appropriately conveying a plurality of media having different thicknesses, respectively, even when the first shaft portion and the locked portion are integrally formed, and the first shaft portion functions as the locked portion.
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The engaged portions 320a have projections formed in a cylindrical shape. The engaged portions 320a are formed integrally with the guide mechanism 320. The engaged portions 320a are located at an upstream end of the guide mechanism 320 in the medium conveyance direction A1, and apart from each other along in the width direction A2.
The engaged portion 320a is locked with the engaging portion 202a, and rotatably supported by the engaging portion 202a. At least one of the guide mechanism 320 and the upper housing 202 has flexibility, and the engaged portion 320a is detachably provided to the engaging portion 202a. The locking of the engaged portion 320a and the engaging portion 202a is released, by the engaged portion 320a detached from the engaging portion 202a. In this manner, the engaged portion 320a functions as the engaged portion and the first shaft portion. That is, in the medium conveying apparatus according to the present embodiment, the first shaft portion and the locked portion are integrally formed, and the first shaft portion functions as the locked portion. Thus, the medium conveying apparatus can simplify a structure of the guide mechanism 220, reduce the number of parts, and thereby, reduce the equipment cost and the manufacturing cost of the apparatus.
As described in detail above, the medium conveying apparatus can perform maintenance easily while appropriately conveying a plurality of media having different thicknesses, respectively, even when the first shaft portion and the locked portion are integrally formed, and formed integrally with and the guide mechanism, and the first shaft portion functions as the locked portion.
As illustrated in
The pressing members 402d are provided at positions facing the second shaft portions 420c in the second supporting portions 402c. The pressing members 402d are formed of compression coil springs, and are provided so that one ends thereof are fixed to the upper housing 402 and the other ends thereof abut the second shaft portions 420c. Thus, the second shaft portions 420c are urged downward by the pressing member 402d. The pressing member 402d may be formed of may be formed of torsion coil springs, or a rubber members, etc.
The pressing members 402d function as regulating portions to regulate the second shaft portions 420c to swing when the guide mechanism 420 swings about the first shaft portions. Thus, the medium conveying apparatus can simplify a structure of the guide mechanism 420, and thereby, reduce a manufacturing cost of the apparatus.
As described in detail above the medium conveying apparatus can perform maintenance easily while appropriately conveying a plurality of media having different thicknesses, even when the second supporting portion 402c is provided with the pressing member 402d.
The number of the locked portions 120a, the first shaft portions 120b, the second shaft portions 120c and 420c, the pressed portions 120d, the locked portions 102a, the first supporting portions 102b, the second supporting portions 102c and 402c, the pressing members 102d and 402d, the stoppers 121, the engaged members 220a, the engaged portions 320a and/or the engaged portions 202a is not limited to two, and may be one or three or more, respectively.
The pressing members 102d and 402d may be provided on the guide mechanism side, instead of the upper housing side. In this case, for example, the pressing member 102d is provided in the pressed portion 120d. Alternatively, the pressing member 402d is engaged with the second shaft portion 420c. In these cases as well, the guide mechanism can swing well.
According to embodiments, the medium conveying apparatus can perform maintenance easily while appropriately conveying a plurality of media having different thicknesses, respectively.
All examples and conditional language recited herein are intended for pedagogical purposes to aid the reader in understanding the invention and the concepts contributed by the inventor to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions, nor does the organization of such examples in the specification relate to a showing of the superiority and inferiority of the invention. Although the embodiment(s) of the present inventions have been described in detail, it should be understood that the various changes, substitutions, and alterations could be made hereto without departing from the spirit and scope of the invention.
Claims
1. A medium conveying apparatus comprising:
- a housing including a first supporting portion;
- a first roller;
- a second roller located to face the first roller; and
- a guide mechanism including a first shaft portion supported by the first supporting portion, and a guide to guide a medium fed between the first roller and the second roller, wherein
- the guide mechanism is swingably supported by the housing about the first shaft portion, wherein
- an upstream end of the guide is positioned on upstream side of an upstream end of the second roller, and a downstream end of the guide is positioned on downstream side of a downstream end of the second roller in a medium conveying direction, and wherein
- the second roller is located in the housing so as to be taken out when an inner side of the guide mechanism is opened.
2. The medium conveying apparatus according to claim 1, wherein
- the housing further includes a locking portion, wherein
- the guide mechanism is locked with the locking portion, and wherein
- the guide mechanism is swingably supported by the housing about the first shaft portion in a state where the guide mechanism is locked with the locking portion.
3. The medium conveying apparatus according to claim 2, wherein the first shaft portion and a locked portion locked with the locking portion in the guide mechanism are integrally formed.
4. The medium conveying apparatus according to claim 2, wherein the guide mechanism is locked with the locking portion by the first shaft portion locked with the locking portion.
5. The medium conveying apparatus according to claim 2, wherein the first shaft portion and a locked portion locked with the locking portion in the guide mechanism are formed integrally with the guide mechanism.
6. The medium conveying apparatus according to claim 2, further comprising a pressing member to press the guide mechanism to the first roller side in a state where the guide mechanism is locked with the locking portion.
7. The medium conveying apparatus according to claim 2, wherein the first shaft portion and a projection locked with the locking portion in the guide mechanism are integrally formed.
8. The medium conveying apparatus according to claim 2, wherein the first shaft portion and a projection locked with the locking portion in the guide mechanism are formed integrally with the guide mechanism.
9. The medium conveying apparatus according to claim 2, further comprising a spring or rubber to press the guide mechanism to the first roller side in a state where the guide mechanism is locked with the locking portion.
Type: Application
Filed: May 8, 2024
Publication Date: Sep 5, 2024
Inventor: Shinya Orita (Kahoku-shi)
Application Number: 18/658,699