This application claims priority from Japanese Patent Application No. 2015-062733 filed on Mar. 25, 2015, the content of which is incorporated herein by reference in its entirety.
The disclosure relates to a conveying device configured to convey a medium and an image recording apparatus comprising the conveying device and configured to record an image on the medium.
A known image recording apparatus comprises a conveying device configured to convey a medium, e.g., a sheet of paper. The conveying device conveys a medium from a feed unit along a conveying path and a medium from a reversing unit along another conveying path. The conveying device includes a flap disposed at a junction between the two conveying paths and configured to pivot to guide a medium selectively to one of the conveying paths.
Another known conveying device comprises a cover pivotally or detachably attached to the conveying device. The cover includes a guide portion configured to define a conveying path. The cover, when pivoted or detached, facilitates removal of a medium jammed in the conveying path.
It may be beneficial to provide a conveying device comprising a movable cover which includes a guide portion configured to define a conveying path, and a flap supported by the movable cover such that pivoting of the flap is selectively allowed and restricted.
According to one or more aspects of the disclosure, a conveying device comprises a casing, a cover member, a conveying unit, a flap, and a restricting mechanism. The cover member includes a guide portion and is configured to move relative to the casing between a first position at which the guide portion defines a first conveying path, and a second position at which the guide portion exposes the first conveying path to an exterior of the conveying device. The conveying unit is configured to convey a medium along a second conveying path. The flap is supported by the cover member and pivotable about a pivot axis between a third position and a fourth position. The flap is configured to guide the medium toward the conveying unit. The restricting mechanism is configured to selectively allow and restrict pivoting of the flap to the fourth position.
A multi-functional apparatus 10 according to the disclosure will be described below. While the disclosure is described in detail with reference to specific embodiments thereof, this is merely an example, and various changes, arrangements and modifications may be applied therein without departing from the spirit and scope of the disclosure. In the following description, an up direction 4 and a down direction 5 (which may be simply referred to as “upward” and “downward,” respectively, or may be collectively referred to as the “up-down direction 4 and 5”) is defined in conjunction with an orientation, as depicted in
[Overall Structure of Multi-Functional Apparatus 10]
As depicted in
In the illustrative embodiment, the recording medium is configured to be conveyed, while being supported by a plate-shaped media tray (not depicted), along a second conveying path, e.g., a straight path 65B (refer to
The printer unit 11 includes a casing 14 having the opening portion 13 (refer to
As depicted in
As depicted in
As depicted in
The printer unit 11 includes a conveying device configured to convey a sheet. The conveying device includes the casing 14 (refer to
As depicted in
[Printer Unit 11]
A detailed structure of the printer unit 11 will be described below.
[Feed Tray 20]
The feed tray 20, as depicted in
[Feed Unit 15]
As depicted in
A driving force is transmitted from a motor (not depicted) to the feed roller 25 via the driving force transmission mechanism 27. The driving force transmission mechanism 27 is configured to transmit the driving force transmitted to the shaft 28 to a shaft of the feed roller 25 through a gear train including a plurality of gears that are engaged with each other. In response to the feed roller 25 rotating while being in contact with the uppermost one of the sheets supported on the support surface of the supply tray 20, the uppermost sheet is fed to the conveying path 65.
[Conveying Path 65]
As depicted in
The curve path 65A is defined by a guide portion, e.g., an outer guide member 18, and an inner guide member 19 that face each other with a space therebetween to allow a sheet to pass therebetween. The straight path 65B extends frontward from a junction 80 where the straight path 65B joins the curve path 65A, so that the media tray may pass through the straight path 65B without bending. The straight path 65B is defined by the recording unit 24 and a platen 42 that face each other with a space therebetween to allow a sheet and the media tray to pass therebetween, as well as by the inner guide member 19 and a guide member 32 that face each other with a space therebetween to allow a sheet and the media tray to pass therebetween.
A sheet fed along the conveying path 65 by the feed roller 25 of the feed tray 20 is conveyed upward along the curve path 65A while making U-turn and frontward along the straight path 65B. For example, the sheet is conveyed along a conveying direction 17 as depicted by a dot-and-dash line with an arrow in
The outer guide member 18 includes a guide surface configured to guide a sheet when the sheet is conveyed along the curve path 65A. The inner guide member 19 includes a guide surface configured to guide a sheet when the sheet is conveyed along the curve path 65A and when the sheet is conveyed along the straight path 65B. The guide member 32 includes a guide surface configured to guide a sheet when the sheet is conveyed along the straight path 65B. The guide member 32 defines the bypass path 66 (described below). Each of the guide surfaces may be defined by a single surface or distal end faces of a plurality of ribs.
[First Conveying Roller Pair 54 and Second Conveyance Roller Pair 55]
As depicted in
[Recording Unit 24]
As depicted in
The recording head 39 is mounted on the carriage 41. The recording head 39 have a plurality of nozzles (not depicted) formed in a lower surface thereof. The recording head 39 is configured to receive ink from an ink cartridge (not depicted). The recording head 39 is configured to selectively eject ink from the nozzles as very small ink droplets. While the carriage 41 is moving in the right-left direction 8 and 9, the ink droplets are ejected from the nozzles onto a sheet that is conveyed along the straight path 65B or a recording medium that is supported on the media tray and conveyed along the straight path 65B. The ejected ink droplets adhere to the sheet on the platen 42 or the recording medium on the media tray, to record an image on the sheet or the recording medium.
[Movements of Roller Pairs 54 and 55 and Platen 42]
Lower rollers of the first conveying roller pair 54 and the second conveying roller pair 55, e.g., the pinch roller 61 and the second conveying roller 62, respectively, and the platen 42 are configured to move in the up-down direction 4 and 5.
Each of the pinch roller 61 and the second conveying roller 62 is configured to move between an upper position (e.g., the position indicated by a solid line in
The movement of the pinch roller 61 and the second conveying roller 62 may be realized by a known structure. For example, in the illustrative embodiment, a lever portion (not depicted) provided in the interior space leading to the opening portion 16 is coupled to a support member (not depicted) that supports the pinch roller 61 and the second conveying roller 62. In response to the lever portion moved frontward by a user, the support member moves downward. In response to the lever portion moved rearward by a user, the support member moves upward. In response to the support member moved in the up-down direction 4 and 5, the pinch roller 61 and the second conveying roller 62 move between the upper position and the lower position. In another embodiment, the movement of the pinch roller 61 and the second conveying roller 62 may be realized by other structures. For example, the pinch roller 61 and the second conveying roller 62 may be moved by drive force from a motor (not depicted).
The first conveying roller pair 54 and the second conveying roller pair 55 are configured to nip a sheet between the rollers 60 and 61, and 62 and 63 when the pinch roller 61 and the second conveying roller 62 are at the upper position. The first conveying roller pair 54 and the second conveying roller pair 55 are configured to nip the media tray between the rollers 60 and 61, and 62 and 63 when the pinch roller 61 and the second conveying roller 62 are at the lower position. The first conveying roller pair 54 and the second conveying roller pair 55 are configured to convey the sheet along the straight path 65B or the media tray along the straight path 65B and the label path 67 while nipping the sheet or the media tray, in response to the rotation of the first conveying roller 60 and the second conveying roller 62.
The platen 42 is configured to move between an upper position (e.g., the position indicated by a solid line in
[Label Path 67]
As depicted in
The label path 67 is defined by a second wall 102 (described below) of the cover member 100 and a guide member 33 that face each other with a space therebetween that allows the media tray to pass through the space. As depicted in
The label path 67 may allow the media tray to pass therethrough while contacting the outer guide member 18 or the guide member 33. Alternatively, the label path 67 may allow the media tray to pass therethrough without contacting the outer guide member 18 or the guide member 33.
[Bypass Path 66]
As depicted in
A sheet supported by the bypass tray 70 is guided frontward and downward along the bypass path 66. The sheet is guided along the straight path 65B of the conveying path 65, and conveyed by the first conveying roller pair 54. The sheet is subjected to image recording by the recording unit 24, and discharged onto the discharge tray 21.
[Bypass Tray 70]
As depicted in
In the illustrative embodiment, the bypass tray 70 supports a sheet with a leading end thereof in contact with the first conveying roller pair 54. In this state, as the first conveying roller 60 rotates, the sheet supported by the bypass tray 70 is conveyed along the straight path 65B in the conveying direction 17.
The bypass tray 70 may support a sheet with a leading end thereof out of contact with the first conveying roller pair 54. In this case, a feed roller having a structure similar to the feed roller 25 may be provided at a position facing a sheet support surface of the bypass tray 70. In response to the feed roller rotating, an uppermost sheet of a stack of sheets supported by the bypass tray 70 is fed to the straight path 65B via the bypass path 66.
[Cover Member 100]
As depicted in
As depicted in
The first wall 101 is located behind the outer guide member 18. The first wall 101 supports the outer guide member 18 from behind. In the illustrative embodiment, a rear surface 101A (refer to
The second wall 102 extends frontward from an upper end portion of the first wall 101. As described above, the second wall 102 partially defines the label path 67.
Each of the third walls 103 extends frontward from a right or left end portion of the first wall 101. The fourth wall 107 connects the third walls 103. The fourth wall 107 supports the outer guide member 18 from below.
One of the protruding portions 104, e.g., the right protruding portion 104, protrudes rightward from a lower end portion of the right third wall 103. The other one of the protruding portions 104, e.g., the left protruding portion 104, protrudes leftward from a lower end portion of the left third wall 103. The right and left protruding portions 104 are aligned in the right-left direction 8 and 9. Each of the protruding portions 104 is inserted into a corresponding opening (not depicted) formed on a lower end portion of a respective one of the side walls 84 and 85 of the casing 14. Thus, the cover member 100 is pivotally supported by the casing 14 about a pivot axis 46 (refer to
Each of the engaging portions 105, which are located above the third walls 103, extends frontward from a respective one of right and left end portions of the first wall 101. As each engaging portion 105 is contacted by and pressed by a protruding portion 123 of a corresponding one of the movable members 121 of a restricting mechanism 120 (described below), a front end portion of each engaging portion 105 (e.g., a distal end portion of each engaging portion 105 in its extending direction) may flex or deflect in the right-left direction 8 and 9 due to its elasticity. Each engaging portion 105 has an opening 105A that penetrates therethrough in the right-left direction 8 and 9. Each opening 105A is formed at a position corresponding to the protrusion 86 formed on a respective one of the side walls 84 and 85 of the casing 14 when the cover member 100 is at a position as depicted in
The right and left operative portions 106 are provided along the right-left direction 8 and 9. Each of the operative portions 106 is provided in a respective one of the openings 101B formed in the first wall 101. The right operative portion 106 provided in the right opening 101B includes a right surface 106A facing rightward. The left operative portion 106 provided in the left opening 101B includes a left surface 106B facing leftward. In the illustrative embodiment, each operative portion 106 is integrally formed with a respective one of the movable members 121 of the restricting mechanism 120 to be described below. Each operative portion 106 is configured to move in the right-left direction 8 and 9. The right operative portion 106 is operated by a user pressing the right surface 106A leftward. The left operative portion 106 is operated by a user pressing the left surface 106B rightward.
The cover member 100 is configured to pivot about the pair of protruding portions 104 between a first position as depicted in
When the cover member 100 is at the first position, the cover member 100 covers the opening portion 13, so that the rear surface 101A of the first wall 101 is flush with the rear surface 22 of the casing 14. When the cover member 100 is at the first position, each third wall 103 and each engaging portion 105 face or oppose a corresponding one of the side walls 84 and 85 of the casing 14 in the right-left direction 8 and 9. At this time, each protrusion 86 formed on a respective one of the side walls 84 and 85 of the casing 14 is inserted into the opening 105A of a corresponding one of the engaging portions 105. For example, each engaging portion 105 and its corresponding protrusion 86 engage with each other. The outer guide member 18 faces the inner guide member 19 in the front-rear direction 6 and 7 to define the curve path 65A therebetween. The second wall 102 faces the guide member 33 in the up-down direction 4 and 5, and defines the label path 67.
When the cover member 100 is at the second position, a portion of the cover member 100 other than a lower end portion thereof comes out of the opening portion 13. Therefore, an upper end portion of the rear surface 101A of the first wall 101 is positioned further to the rear than the rear surface 22 of the casing 14. For example, the rear surface 101A is inclined relative to the rear surface 22. When the cover member 100 is at the second position, each third wall 103 and each engaging portion 105 do not face a corresponding one of the side walls 84 and 85 of the casing 14. At this time, each protrusion 86 formed on a respective one of the side walls 84 and 85 of the casing 14 is released from the opening 105A of a corresponding one of the engaging portions 105. Each engaging portion 105 is disengaged from a corresponding one of the protrusion 86. The outer guide member 18 does not face the inner guide member 19, and the curve path 65A is exposed to an exterior of the multi-functional apparatus 10. In this case, the outer guide member 18 does not define the curve path 65A. The second wall 102 does not face the guide member 33, and does not define the label path 67.
[Flaps 34]
For example, right and left flaps 34 (one flap 34 hidden by the other in
As depicted in
Each flap 34 includes a guide portion 38 and a first contact portion, e.g., a protruding portion 37. The guide portion 38 extends frontward and upward relative to the pivot axis 36. An undersurface of the guide portion 38 is configured to guide a sheet conveyed along the curve path 65A while contacting the sheet. The guide portion 38 has a curved shape.
As depicted in
When the cover member 100 is at the first position, as depicted in
When the cover member 100 is at the first position, the flap 34 is located at the third position by its own weight. In one example, the guide portion 38 is heavier than the protruding portion 37. Therefore, a protruding end portion 34A of the flap 34 contacts the inner guide member 19 from above due to its own weight. Further, in one example, the protruding end portion 34A is received by a recess formed in an upper surface of the inner guide member 19. Accordingly, the flap 34 at the third position blocks the curve path 65A from the straight path 65B. When the flap 34 is at the third position, the flap 34 is spaced from the guide member 32 in the up-down direction 4 and 5. Accordingly, the flap 34 at the third position opens the label path 67 and the bypass path 66 to the straight path 65B.
The flap 34 is contacted by and pushed by a sheet, from below, that is fed from the feed tray 20 and conveyed along the curve path 65A toward the junction 80 in the conveying direction 17. Therefore, the flap 34 is raised upward. Thus, the flap 34 pivots from the third position to the fourth position. When the flap 34 is at the fourth position, the protruding end portion 34A is located higher than the upper surface of the inner guide member 19. Accordingly, the flap 34 at the fourth position opens the curve path 65A to the straight path 65B. When the flap 34 is at the fourth position, the flap 34 is in contact with the guide member 32 from below. Accordingly, the flap 34 at the fourth position blocks the label path 67 and the bypass path 66 from the straight path 65B.
As long as the flap 34 at the fourth position is closer to the guide member 32 than the flap 34 at the third position, the flap 34 may not necessarily contact the guide member 32. For example, the flap 34 at the fourth position may not necessarily block the label path 67 and the bypass path 66 completely from the junction 80. For example, the flap 34 may partially block the label path 67 and the bypass path 66 from the junction 80, such that the media tray is prevented from being conveyed between the straight path 65B and the label path 67 and a sheet is prevented from being conveyed from the bypass path 66 to the straight path 65B.
When the cover member 100 is at the first position, the protruding end portion 34A of the flap 34 is located downstream of the junction 80 in the conveying direction 17. For example, when the cover member 100 is at the first position, a portion of the flap 34 extends further toward the straight path 65B beyond the junction 80.
As depicted in
As depicted in
As depicted in
In the illustrative embodiment, when the cover member 100 pivots with the flap 34 at the fourth position, the flap 34 may contact a member which is other than the cover member 100 and is provided in the vicinity of the flap 34.
[Restricting Mechanism 120]
The printer unit 11 includes the restricting mechanism 120 as depicted in
The restricting mechanism 120 is configured to selectively allow and restrict pivoting of each flap 34 to the respective fourth positions. The restricting mechanism 120 includes a pair of movable members 121, e.g., right and left movable members 121, and an urging member, e.g., a coil spring 122.
The movable members 121 are provided at the cover member 100. The movable members 121 are supported by the fourth wall 107 of the cover member 100 to move in the right-left direction 8 and 9. The movable members 121 are disposed with a space therebetween in the right-left direction 8 and 9. Each of the movable members 121 has an operative portion 106 formed thereon. Each operative portion 106 is formed at a position corresponding to the respective one of the openings 101B formed in the first wall 101 of the cover member 100.
In the illustrative embodiment, each operative portion 106 is integrally formed with a respective one of the movable members 121. In another embodiment, the operative portion 106 may not necessarily be integrally formed with the movable member 121 as along as the operative portion 106 has a function (e.g., to disengage the engaging portion 105 from the corresponding protrusion 86) as will be described below. For example, the operative portion 106 may be movably supported by the first wall 101. As the movable member 121 moves in response to the movement of the operative portion 106, the engaging portion 105 may be disengaged from the corresponding protrusion 86.
Right and left protruding portions 123, each protruding frontward, are formed at a right end portion 121A of the right movable member 121, and a left end portion of 121B of the left movable member 121, respectively. The right protruding portion 123 is configured to contact the right engaging portion 105 of the cover member 100 from the right. The left protruding portion 123 is configured to contact the left engaging portion 105 from the left.
Each of the movable members 121 has an inclined surface 124 formed thereon. Each inclined surface 124 is formed at a position corresponding to the protruding portion 37 of a respective one of the flaps 34. The inclined surface 124 formed on the right movable member 121 is inclined upwardly from the right to the left. The inclined surface 124 formed on the left movable member 121 is inclined upwardly from the left to the right. Each inclined surface 124 is configured to contact a corresponding protruding portion 37 from below.
The coil spring 122 is disposed between the movable members 121. One end of the coil spring 122 is connected to a left end of the right movable member 121. The other end of the coil spring 122 is connected to a right end of the left movable member 121. Other urging members, e.g., a plate spring, may be used instead of the coil spring 122.
Each movable member 121 is configured to move along the right-left direction 8 and 9, between a contact position as depicted in
The coil spring 122 has a natural length when the right end portion 121A and the left end portion 121B of the right and left movable members 121, respectively, are not in contact with any members. At this time, the movable members 121 are maintained at the respective contact positions. When the cover member 100 is at a position other than the first position, e.g., at the second position, the right end portion 121A and the left end portion 121B are not in contact with any members. Accordingly, the movable members 121 are maintained at the respective contact positions as depicted in
When the right movable member 121 is at its contact position, the right end portion 121A is located further toward the right than the first wall 101, the second wall 102, the right third wall 103, and the right engaging portion 105 of the cover member 100. When the left movable member 121 is at its contact position, the left end portion 121B is located further toward the left than the first wall 101, the second wall 102, the left third wall 103, and the left engaging portion 105 of the cover member 100. Each protruding portion 123 is spaced from a corresponding engaging portion 105.
When each movable member 121 is at its contact position, each inclined surface 124 is in contact with the protruding portion 37 of a corresponding one of the flaps 34 from below and presses the protruding portion 37 upwardly. In short, each movable member 121 is in contact with a corresponding one of the flaps 34. Accordingly, the guide portion 38 of each flap 34 is maintained pivoted down. Each flap 34 is maintained at the third position and restricted from moving to the fourth position. Thus, the restricting mechanism 120 restricts pivotal movement of each flap 34 to its fourth position when the cover member 100 is not at the first position.
When the cover member 100 is at the first position, the cover member 100 covers the opening portion 13 of the casing 14. At this time, the right end portion 121A of the right movable member 121 and the left end portion 121B of the left movable member 121 are in contact with the side walls 84 and 85, respectively and pressed by the side walls 84 and 85 against the urging force of the coil spring 122. At this time, the movable members 121 are at the respective non-contact positions. For example, the coil spring 122 urges the movable members 121 from the respective non-contact positions toward the respective contact positions. Thus, the movable members 121 are maintained at the respective non-contact positions as depicted in
The right movable member 121 at its non-contact position is located further to the left than at its contact position. The left movable member 121 at its non-contact position is located further to the right than at its contact position. The protrusions 86 formed on the respective side walls 84 and 85 are inserted into the corresponding openings 105A formed in the engaging portions 105. Accordingly, the cover member 100 is maintained at the first position and restricted from moving to the second position. The protruding portions 123 are spaced from the corresponding engaging portions 105, similar to when the movable members 121 are at the respective contact positions.
An inclined surface 124 of each movable member 121 at its non-contact position is spaced from or out of contact with the protruding portion 37 of a corresponding flap 34. In short, each movable member 121 is spaced from or out of contact with a corresponding flap 34. Accordingly, the guide portion 38 of each flap 34 may freely pivot in the up-down direction 4 and 5. For example, each flap 34 may freely pivot between its third position as depicted in
The movable members 121 are configured to move from the respective non-contact positions to the respective far positions as depicted in
When the operative portions 106 are operated by the user with the cover member 100 at the first position, the movable members 121 move from the respective non-contact positions to the respective far positions and the protruding portions 123 contact the corresponding engaging portions 105. The engaging portions 105 are pressed by the protruding portions 123 and flexed. In one example, the right engaging portion 105 is flexed leftward, and the left engaging portion 105 is flexed rightward. Accordingly, the protrusions 86 formed on the side walls 84 and 85 come out of the corresponding openings 105A formed in the engaging portions 105. The engaging portions 105 are disengaged from the corresponding protrusions 86, so that the cover member 100 may move to the second position.
[Pivotal Movement of Cover Member 100]
Pivotal movement of the cover member 100 from the second position to the first position will be described below. When the cover member 100 is at the second position, as depicted in
As the user presses the rear surface 101A (refer to
As the cover member 100 pivots from the second position toward the first position and is inserted into the opening portion 13 of the casing 14 (refer to
While each movable member 121 is moving from its contact position to its non-contact position, the inclined surface 124 of each movable member 121 moves away from the protruding portion 37 of a corresponding flap 34 (refer to
As the cover member 100 reaches the first position, the protrusions 86 formed on the side walls 84 and 85 are inserted into the corresponding openings 105A formed on the engaging portions 105. Accordingly, the cover member 100 is maintained at the first position and restricted from moving to the second position.
Next, pivotal movement of the cover member 100 from the first position to the second position will be described. When the operative portions 106 are operated with the cover member 100 at the first position, e.g., when the surfaces 106A and 106B are pressed leftward and rightward, respectively, the movable members 121 move from the respective non-contact positions to the respective far positions. Accordingly, the engaging portions 105 are pressed by the corresponding protruding portions 123 and flexed. Consequently, the protrusions 86 are disengaged from the corresponding openings 105A to allow the cover member 100 to move to the second position.
Then, when the user pivots the cover member 100 toward the second position by holding the operative portions 106, the cover member 100 comes out of the opening portion 13 of the casing 14 and reaches the second position eventually. Because the user holds the operative portions 106 during pivoting of the cover member 100 from the first position to the second position, the movable members 121 are maintained at the respective far positions. Therefore, the flaps 34 are freely pivotable between the respective third positions and the respective fourth positions. If the flaps 34 pivot to the respective fourth positions during pivoting of the cover member 100 from the first position to the second position, the flaps 34 may interfere with any members (e.g., the guide members 32 and 33) provided in the multi-functional apparatus 10 other than the cover member 100. Even when the flaps 34 interfere with the guide members 32 and 33, the flaps 34 may contact the guide members 32 and 33 from below, so that the flaps 34 may pivot back to the respective third positions from the respective fourth positions. This allows the cover member 100 to pivot to the second position (refer to
In contrast, when the user releases the operative portions 106 before the cover member 100 comes out of the opening portion 13 during pivoting from the first position to the second position, the movable members 121 move from the respective far positions to the respective non-contact positions. At the moment when the cover member 100 comes out of the opening portion 13, the movable members 121 are separated from the corresponding side walls 84 and 85 and move from the respective non-contact positions to the respective contact positions by the urging force of the coil spring 122.
In contrast, when the user releases the operative portions 106 after the cover member 100 comes out of the opening portion 13 during pivoting from the first position to the second position, the movable members 121 move from the respective far positions to the respective contact positions.
While the movable members 121 are moving to the respective contact positions, the inclined surfaces 124 of the movable members 121 contact the protruding portions 37 of the corresponding flaps 34 from below. The protruding portions 37 are guided along the inclined surfaces 124 and move upward (refer to
[Effects of Illustrative Embodiment]
The length L3 in the up-down direction 4 and 5 from the pivot axis 36 to the distal end of the flap 34 at the fourth position is longer than the length L4 in the up-down direction 4 and 5 from the pivot axis 36 to the distal end of the flap 34 at the third position. Therefore, when the cover member 100 moves between the first position and the second position, a range of a moving path of the flap 34 maintained at the fourth position increases as compared with a range of a moving path (e.g., pivoting path 130) of the flap 34 maintained at the third position. According to the illustrative embodiment, when the cover member 100 is not at the first position, the restricting mechanism 120 restricts the pivotal movement of the flap 34 to the fourth position. Accordingly, the range of the moving path of the flap 34 when the cover member 100 moves between the first position and the second position may be reduced. Consequently, this may reduce a possibility that the flap 34 interferes with any members provided in the multi-functional apparatus 10 other than the cover member 100 when the cover member 100 moves between the second position and the first position.
According to the illustrative embodiment, when the cover member 100 is at the first position, the restricting mechanism 120 allows the flaps 34 to freely pivot. Accordingly, the flaps 34 may readily pivot as a sheet conveyed along the curve path 65A contacts the flaps 34. This may reduce resistance applied by the flaps 34 to a sheet being conveyed.
According to the illustrative embodiment, the movable members 121 may be located at the respective non-contact positions in response to the cover member 100 moved to the first position. When the cover member 100 is at the first position, the movable members 121 may be maintained at the respective non-contact positions. Accordingly, when the cover member 100 is at the first position, the flaps 34 may freely pivot.
According to the illustrative embodiment, the movable members 121 may be located at the respective contact positions by the urging force of the coil spring 122, in response to the cover member 100 moving from the first position toward the second position. Accordingly, when the cover member 100 is not at the first position, the flaps 34 may be maintained at the respective third positions.
According to the illustrative embodiment, the engaging portions 105 engage the corresponding protrusions 86, so that the cover member 100 may be maintained at the first position. As the operative portions 106 are operated to move the movable members 121 from the respective non-contact positions to the respective far positions, the engaging portions 105 may be disengaged from the corresponding protrusions 86. Accordingly, the cover member 100 may move from the first position toward the second position.
According to the illustrative embodiment, the distance L1 from the pivot axis 46 of the cover member 100 to the distal end of the flap 34 at the fourth position is longer than the distance L2 from the pivot axis 46 of the cover member 100 to the distal end of the flap 34 at the third position. This may reduce or prevent increase in the range of the moving path of the flap 34 when the cover member 100 moves from the first position to the second position.
According to the illustrative embodiment, the pivoting path 130 of the flap 34 at the third position when the cover member 100 pivots between the first position and the second position, is entirely distinct from the positions of any members provided in the multi-functional apparatus 10 other than the cover member 100. Therefore, when the cover member 100 moves between the first position and the second position, the flap 34 at the third position may be reduced or prevented from interfering with the members.
In the illustrative embodiment, a portion of the flap 34 extends further toward the straight path 65B beyond the junction 80. However, as described above, when the cover member 100 is not at the first position, the restricting mechanism 120 restricts the pivotal movement of the flap 34 to the fourth position. Therefore, increase in the pivoting range of the flap 34 may be reduced or prevented when the cover member 100 moves between the first position and the second position.
[Modification]
In the above-described illustrative embodiment, the cover member 100 is configured to pivot between the first position and the second position. In another embodiment, the cover member 100 may be configured to move, other than pivoting, between the first position and the second position. For example, the cover member 100 may be configured to move between the first position and the second position by attaching and removing the cover member 100 to and from the casing 14.
For example, as depicted in
In the structure as depicted in
As depicted in
In the above-described illustrative embodiment, when the cover member 100 is not at the first position, the flap 34 is maintained at the third position. However, the flap 34 may be configured to pivot from the third position but not to the fourth position when the cover member 100 is not at the first position. For example, the flap 34 may be configured to pivot from the third position to such an extent that the flap 34 does not contact any members provided in the multi-functional apparatus 10 other than the cover member 100 when the cover member 100 pivots between the first position and the second position.
In the above-described illustrative embodiment, the conveying device is provided in the printer unit 11. However, the conveying device may not necessarily be provided in the printer unit 11. In another embodiment, the conveying device may be provided in, for example, the scanner unit 12.
Number | Date | Country | Kind |
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2015-062733 | Mar 2015 | JP | national |
Number | Name | Date | Kind |
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7708398 | Niioka et al. | May 2010 | B2 |
20080074458 | Niioka et al. | Mar 2008 | A1 |
20140138901 | Takahata | May 2014 | A1 |
Number | Date | Country |
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2008-074063 | Apr 2008 | JP |
Number | Date | Country | |
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20160279971 A1 | Sep 2016 | US |