Feed Tray and Image Recording Apparatus

Abstract

A feed tray includes a first accommodation part in which a roll body having a configuration where a first sheet-shaped medium is rolled in a roll shape is accommodated, a conveyance guide configured to define a conveyance path for a roll medium which is the first sheet-shaped medium unrolled from the roll body accommodated in the first accommodation part, and a shutter movable between an intercept position where the shutter is located in the conveyance path and a retreat position where the shutter is further from the conveyance path than the intercept position.

Description

TECHNICAL FIELD

The present disclosure relates to a feed tray capable of accommodating a roll body, and an image recording apparatus having the feed tray.

BACKGROUND

An image recording apparatus including a feed tray capable of accommodating a roll body having a configuration where a sheet-shaped medium such as a paper, a cloth and a label is rolled in a roll shape is known. For example, JP-A-H09-263348 discloses a roll sheet feeding apparatus (image recording apparatus) having a sheet feeding tray (feed tray) configured to accommodate a roll sheet (roll body), a housing configured to detachably hold the sheet feeding tray, and a drive roller (feed roller) for feeding the roll sheet accommodated in the sheet feeding tray to an image forming unit (recording unit).

In the configuration of JP-A-H09-263348, a roll medium, which is a sheet-shaped medium unrolled from the roll body accommodated in the feed tray, is fed by the feed tray. In general, insertion of the feed tray into the housing is performed in a state where the roll medium is unwound from the roll body by a predetermined length. Since the length of the roll medium to be unrolled can be arbitrarily determined by an operator, the unrolled roll medium may become excessively long. In this case, when inserting the feed tray into the housing, a tip end of the unrolled roll medium may come into contact with a member inside the housing, which may cause a jam.

SUMMARY

An object of the present disclosure is to provide a feed tray and an image recording apparatus capable of suppressing a roll medium unrolled from a roll body from coming into contact with a member inside a housing when the feed tray is inserted into the housing.

An aspect of the present disclosure is a feed tray including:

• • a first accommodation part in which a roll body having a configuration where a first sheet-shaped medium is rolled in a roll shape is accommodated;
  • a conveyance guide configured to define a conveyance path for a roll medium which is the first sheet-shaped medium unrolled from the roll body accommodated in the first accommodation part; and
  • a shutter movable between an intercept position where the shutter is located in the conveyance path and a retreat position where the shutter is further from the conveyance path than the intercept position.

Another aspect of the present disclosure is an image recording apparatus including:

• • a housing;
  • the above feed tray configured to be capable of being inserted into and pulled out from the housing;
  • a feed roller configured to feed the roll medium from the feed tray by applying a feeding force to the roll medium; and
  • a recording unit configured to record an image on the roll medium fed by the feed roller.

According to the feed tray and the image recording apparatus of the present disclosure, by setting the shutter to the intercept position, it is possible to suppress the roll medium unrolled from the roll body and guided to the conveyance path from becoming excessively long. This makes it possible to suppress the roll medium unrolled from the roll body from coming into contact with a member inside the housing when inserting the feed tray into the housing of the image recording apparatus. In addition, by setting the shutter to the retreat position, it is possible to convey the roll medium along the conveyance path.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic side view showing an internal structure of a printer according to a first embodiment of the present disclosure.

FIG. 2 is a perspective view of a feeding tray shown in FIG. 1 when a shutter is in an intercept position.

FIG. 3 is a cross-sectional view taken along a III-III line of the feeding tray shown in FIG. 2.

FIG. 4 is a perspective view of the feeding tray shown in FIG. 1 when the shutter is in a retreat position.

FIG. 5 is a cross-sectional view taken along a V-V line of the feeding tray shown in FIG. 4.

FIG. 6 shows a configuration of an attachment part.

FIG. 7 is a side cross-sectional view of the feeding tray in a state where the attachment part is detached.

FIG. 8 is a partial side view of the feed tray when the shutter is in the intercept position.

FIG. 9 is a partial side view of the feed tray when the shutter is moved to the retreat position, in conjunction with insertion of the feed tray into a housing.

FIG. 10 is a side cross-sectional view of a feed tray according to a second embodiment of the present disclosure.

FIG. 11 is a top view of the feed tray according to the second embodiment.

FIG. 12 is a partial side view of the feed tray according to the second embodiment when the shutter is in the intercept position.

FIG. 13 is a partial side view of the feed tray when the shutter is in the retreat position.

DETAILED DESCRIPTION

First Embodiment

Hereinafter, a printer 100 (the image recording apparatus of the present disclosure) according to a first embodiment of the present disclosure will be described with reference to FIG. 1. Note that, the upper and lower direction, the front and rear direction and the right and left direction shown in FIG. 1 are referred to as the upper and lower direction, the front and rear direction and the right and left direction of the printer 100.

(Overall Configuration of Printer 100)

As shown in FIG. 1, the printer 100 includes a housing 100a, a feed tray 11, a feed roller 2, a separating piece 41, a pair of conveying rollers 3a, a pair of sheet discharging rollers 3b, a cutter mechanism 4, a head 5 (the recording unit of the present disclosure), a sheet discharging tray 6, an intermediate roller pair 9, and a control unit 10. The sheet discharging tray 6 is configured to be capable of being inserted into pulled out from the housing 100a in the front and rear direction via an opening 102 formed in a front wall of the housing 100a.

The feed tray 11 is configured to be capable of being inserted into and pulled out from a lower part of the housing 100a. The feed tray 11 has a first accommodation part 11 a capable of accommodating a roll body R having a configuration where a long-length sheet P1 (the first sheet-shaped medium of the present disclosure) is rolled in a roll shape and a second accommodation part 11b capable of accommodating a cut sheet P2 (the second sheet-shaped medium of the present disclosure), which is a sheet shorter than the long-length sheet P1, in a state of being multiply stacked in the upper and lower direction. The cut sheet P2 is a sheet cut to a fixed size, and in the present embodiment, is a rectangular A4-sized sheet having short and long sides. The cut sheet P2 is accommodated in the second accommodation part 11b so that the short sides follow a conveyance direction, which will be described later. Width directions of the roll sheet P1a (the roll medium of the present disclosure) unrolled from the roll body R in the feed tray 11 and the cut sheet P2 coincide with the right and left direction. The detailed configuration of the feed tray 11 will be described later.

The feed roller 2 is configured to deliver the roll sheet P1a unrolled from the roll body R accommodated in the first accommodation part 11a or the cut sheet P2 accommodated in the second accommodation part 11b from the feed tray 11. In descriptions below, the roll sheet P1a and the cut sheet P2 are referred to as ‘sheet P’ when they are not distinguished. The feed roller 2 is pivotally supported by a tip end of an arm 2a, and is configured to rotate by drive of a feeding motor (not shown). The arm 2a is rotatably supported by a support shaft 2b. The arm 2a is urged by an urging member (not shown) so that the feed roller 2 comes close to a bottom surface of the feed tray 11. When the feeding motor is driven by control of the control unit 10, the feed roller 2 rotates to apply a conveyance force in a direction from the front toward the rear to the sheet P in contact with the feed roller 2. Thereby, the sheet P is delivered from the feed tray 11. Note that, the arm 2a is configured to be able to retreat upward when attaching and detaching the feed tray 11 to and from the housing 100a.

The separating piece 41 is to prevent double feeding when delivering the cut sheet P2 from the feed tray 11. The separating piece 41 is located on a downstream side of the feed tray 11 in a conveyance direction of the sheet P by the feed roller 2 (a direction from the front toward the rear; in descriptions below, simply referred to as ‘conveyance direction’). The separating piece 41 is inclined so that an end portion on a rear side is located further upward than an end portion on a front side. A surface of the separating piece 41 is formed with a fine unevenness pattern. The separating piece 41 is configured to come into contact with a central portion of the cut sheet P2 in the width direction, thereby separating the cut sheet P2 in contact with the feed roller 2 and the other cut sheet P2. The sheet P delivered from the feed tray 11 and coming into contact with the separating piece 41 is guided obliquely upward.

The pair of conveying rollers 3a are configured by a drive roller configured to rotate by drive of a conveyance motor (not shown) and a driven roller configured to rotate according to the drive roller. The pair of sheet discharging rollers 3b is configured by a drive roller configured to rotate by drive of a sheet discharging motor (not shown) and a driven roller configured to rotate according to the drive roller. When the conveyance motor and the sheet discharging motor, which are not shown, are driven by control of the control unit 10, the pair of conveying rollers 3a and the pair of sheet discharging rollers 3b rotate to convey the sheet P while sandwiching the sheet P. The pair of conveying rollers 3a are located behind the head 5, and the pair of sheet discharging rollers 3b are located in front of the head 5. The pair of conveying rollers 3a are configured to convey the sheet P forward while sandwiching the sheet P. The pair of sheet discharging rollers 3b are configured to convey the sheet P forward while sandwiching the sheet P that is conveyed forward by the pair of conveying rollers 3a.

The cutter mechanism 4 is located on a further downstream side than the separating piece 41 with respect to the conveyance direction. The cutter mechanism 4 includes, for example, a cutter 4a consisting of a disc-shaped rotating blade and a driven blade, and a cutting motor (not shown) configured to reciprocally drive the rotating blade of the cutter 4a in the right and left direction. The roll sheet P1a unrolled from the roll body R and conveyed along a conveyance path is cut in the width direction of the roll sheet P1a by the rotating blade of the cutter 4a as the cutting motor is driven by control of the control unit 10.

The intermediate roller pair 9 is provided on a further downstream side than the cutter mechanism 4 with respect to the conveyance direction and on a further upstream side than the pair of conveying rollers 3a with respect to the conveyance direction. The intermediate roller pair 9 is configured by a drive roller configured to rotate by drive of an intermediate motor (not shown) and a driven roller configured to rotate according to the drive roller. When the intermediate motor (not shown) is driven by control of the control unit 10, the intermediate roller pair 9 rotates to convey the sheet P while sandwiching the sheet P. The intermediate roller pair 9 is located above a conveyance guide 21 of the feed tray 11, which will be described later. The intermediate roller pair is configured to convey the sheet P upward while sandwiching the sheet P that is delivered from the feed tray 11 by the feed roller 2 and is then guided obliquely upward by the conveyance guide 21.

The head 5 includes a plurality of nozzles (nozzle) formed on a lower surface and a driver IC (not shown). When the driver IC is driven by control of the control unit 10, ink is ejected from the nozzles, so that an image is recorded on the sheet P at the time when the sheet P conveyed by the feed roller 2, the intermediate roller pair 9 and the pair of conveying rollers 3a passes through an image recording position facing the lower surface of the head 5. Note that, the head 5 may be either a line-type configured to eject the ink from the nozzles in a state where a position is fixed or a serial-type configured to eject the ink from the nozzles while moving in the right and left direction. The sheet P on which an image is formed by the head 5 is accommodated on the sheet discharging tray 6.

The control unit 10 is connected to the feeding motor, the intermediate motor, the conveyance motor, the sheet discharging motor, the cutting motor and the driver IC via an internal bus (not shown). The control unit 10 has a CPU (Central Processing Unit), a ROM (Read Only Memory) and a RAM (Random Access Memory). In the ROM, programs and data for the CPU to perform various controls are stored. The RAM is configured to temporarily store data that is used when the CPU runs programs.

(Configuration of Feed Tray 11)

Subsequently, a configuration of the feed tray 11 is described with reference to FIGS. 2 to 9. In descriptions below, directions of respective parts of the feed tray 11 are described based on a posture of the feed tray 11 in a state of being mounted to the housing 100a. The feed tray 11 has a substantially quadrilateral shape, as seen from above. The feed tray 11 has a bottom wall 31 and sidewalls 32 to 35 provided on edges of the bottom wall 31 and is formed to have a box shape opening upward.

The bottom wall 31 extends in a plane orthogonal to the upper and lower direction, as shown in FIGS. 3 and 5. An upper surface of the bottom wall 31 is configured as a bottom surface 31a of the feed tray 11. The sidewalls 32 and 33 extend upward from both left and right end edges of the bottom wall 31. In addition, the sidewalls 32 and 33 extend in the front and rear direction from a front end portion to a rear end portion of the bottom wall 31. The sidewall 34 extends upward from a front end edge of the bottom wall 31. In addition, the sidewall 34 extends along the right and left direction from a right end portion to a left end portion of the bottom wall 31.

The sidewall 35 is provided by four on a rear end edge of the bottom wall 31. In FIGS. 2 and 4, only the two sidewalls on an inner side are shown. The sidewall 35 has a guide surface 35a connected to a rear end portion of the bottom surface 31a and inclined so that an upper end portion is located further rearward than a lower end portion. The four sidewalls 15 are spaced from each other in the right and left direction. When the feed tray 11 is mounted to the housing 100a, the separating piece 41 is located between the two sidewalls 35 on the inner side among the four sidewalls 35 aligned in the right and left direction. When an attachment part 20, which will be described later, is detached from the feed tray 11, the guide surfaces 35a of the sidewalls 35 guide obliquely upward the cut sheet P2, which is being conveyed rearward by the feed roller 2, together with the separating piece 41.

As described above, the feed tray 11 is provided therein with the first accommodation part 11a capable of accommodating the roll body R and the second accommodation part 11b capable of accommodating the cut sheet P2 in a state of being multiply stacked in the upper and lower direction. The first accommodation part 11a and the second accommodation part 11b are aligned along the conveyance direction. The second accommodation part 11b is located on a further downstream side than the first accommodation part 11a with respect to the conveyance direction.

The first accommodation part 11a is configured to accommodate the roll body R in a posture where an axis direction of the roll body coincides with the right and left direction. As shown in FIG. 3, the first accommodation part 11a has a cylindrical core member Rc, a support base 13 and two rollers 14 and 15 configured to support the roll body R, and a roll cover 16. The roll body R has a configuration where the long-length sheet P1 is rolled in a roll shape on an outer peripheral surface of the cylindrical core member Rc. The roll body R is arranged so that an axis direction (a direction perpendicular to the drawing sheet of FIG. 1) along a rotation axis Rx (a central axis of the core member Rc) is parallel to the right and left direction.

The support base 13 extends along the right and left direction. The rollers 14 and 15 all extend in the right and left direction, and are arranged separated from each other in the front and rear direction. The rollers 14 and 15 are all supported on an upper end portion of the support base 13 so as to be rotatable about rotation axes extending in the right and left direction The rollers 14 and 15 are configured to support the roll body R from below in a state of being in contact with an outer peripheral surface of a lower part of the roll body R.

A gap G is formed between a lower surface of the support base 13 and the bottom surface 31a of the feed tray 11. When setting the roll sheet P1a in the feed tray 11, the roll body R supported on the support base 13 is rotated in a counterclockwise direction in FIG. 3, and the roll sheet P1a is unrolled from a front-side part of the roll body R. Then, the roll sheet P1a unrolled from the roll body R passes through the gap G and is pulled out from the front side of the support base 13 to the rear side of the support base 13.

The roll cover 16 is a member configured to cover the roll body R accommodated in the first accommodation part 11a. The roll cover 16 extends along the right and left direction and is formed longer than widths of the support base 13 and the rollers 14 and 15. The roll cover 16 is also arranged to be able to be close to the outer peripheral surface of the roll body R of a maximum size that can be accommodated in the first accommodation part 11a. As a result, even if the roll body R is loosened and therefore the outer diameter of the roll body R is to increase, the outer peripheral surface of the roll body R comes into contact with an inner surface of the roll cover 16, so that it is possible to restrict an increase in outer diameter. Note that, the roll cover 16 may be detachably mounted to the feed tray 11, and may be configured to be rotatable about a rotary shaft extending along the right and left direction at a lower end thereof. In a case where the roll cover 16 can rotate about the rotary shaft at the lower end thereof, the roll cover 16 can rotate rearward about the rotary shaft, thereby exposing an accommodation space for the roll body R above the support base 13.

The second accommodation part 11b is configured to accommodate the cut sheet P2 in a posture where the width direction of the cut sheet coincides with the right and left direction. In the present embodiment, the second accommodation part 11b is a rear-side part and an upper-side part of the bottom surface 31a of the feed tray 11 with respect to the first accommodation part 11a. The rear-side part of the bottom surface 31a with respect to the first accommodation part 11a is configured to support a plurality of cut sheets P2 placed in a state of being stacked, from below. Note that, in the present embodiment, when accommodating the cut sheet P2 in the second accommodation part 11b, an attachment part 20, which will be described later, is detached from the feed tray 11, as shown in FIG. 7. In addition, when performing recording of an image while delivering, from the feed tray 11, the roll sheet P1a unrolled from the roll body R accommodated in the first accommodation part 11a, the cut sheet P2 is removed from the second accommodation part 11b.

The feed tray 11 further has an attachment part 20. The attachment part 20 is attached to a front side of the sidewalls 35 and is configured to be detachably mounted to the feed tray 11. The attachment part 20 includes a conveyance guide 21 and a shutter 22. Note that, in FIG. 1, the shutter 22 is not shown.

The conveyance guide 21 is configured to define a part of the conveyance path for the roll sheet P1a unrolled from the roll body R accommodated in the first accommodation part 11a. As shown in FIGS. 3 and 5, the conveyance guide 21 has a lower guide 21a configured to support the unrolled roll sheet P1a from below, and an upper guide 21b configured to support the unrolled roll sheet P1a from above. The conveyance path for the roll sheet P1a is formed between the lower guide 21a and the upper guide 21b.

The lower guide 21a and the upper guide 21b extend in the right and left direction. The lower guide 21a and the upper guide 21b are formed along curves, when seen in the right and left direction. In a state where the feed tray 11 is mounted to the housing 100a, the lower guide 21a and the upper guide 21b are arranged by one on each of both sides of the feed roller 2 in the right and left direction.

The two lower guides 21a are each provided on a front side of the guide surfaces 35a of the two sidewalls 35 on the right side and on a front side of the guide surfaces 35a of the two sidewalls 35 on the left side among the four sidewalls 35. The lower guide 21a is provided along the bottom surface 31a and the guide surface 35a, from an upper side of a rear end part of the bottom wall 31 to a front side of an upper end part of the sidewall 35. The lower guide 21a is formed so that it is located upward from the front toward the rear.

The two upper guides 21b are provided on an opposite side to the two lower guides 21a with the roll sheet P1a unrolled from the roll body R being interposed therebetween. The upper guide 21b is formed so that a front end portion is above a central portion and a rear end portion is above the front end portion and the central portion, when seen in the right and left direction. In addition, as shown in FIGS. 2 and 4, a central part of the upper guide 21b is formed with an opening 21b2 in a direction of intersecting with an extension direction of the upper guide 21b. In the opening 21b2, a tip end portion 22b of the shutter 22, which will be described later, can be inserted.

The lower guide 21a and the upper guide 21b are arranged spaced in a direction orthogonal to the right and left direction. An interval between the lower guide 21a and the upper guide 21b in the direction orthogonal to the right and left direction becomes narrower from the front toward the rear.

In the present embodiment that, the conveyance path for the roll sheet P1a is defined by the feed roller 2, the conveyance guide 2, the intermediate roller pair 9, the pair of conveying rollers 3a, and the pair of sheet discharging rollers 3b. Note that, as described above, when accommodating the cut sheet P2 in the second accommodation part 11b, the attachment part 20 is detached from the feed tray 11. Therefore, in the present embodiment, the conveyance path for the cut sheet P2 is defined by the feed roller 2, the guide surface 35a of the sidewall 35, the separating piece 2, the intermediate roller pair 9, the pair of conveying rollers 3a, and the pair of sheet discharging rollers 3b.

The shutter 22 is arranged by one on each of both sides of the feed roller 2 in the right and left direction. The two shutters 22 each include an arm part 22a formed in front of the upper guide 21b and a tip end portion 22b provided at a tip end of the arm part 22a. The arm part 22a is formed along the upper part of the upper guide 21b. A rear end of the arm part 22a is rotatably supported on an upper end part of the upper guide 21b by a rotary shaft 24 whose axis direction is the right and left direction. As shown in FIGS. 2 and 4, a left end of the arm part 22a on a left side is formed with a convex portion 25 extending leftward in the right and left direction, and a right end of the arm part 22a on a right side is formed with a convex portion 25 extending rightward in the right and left direction.

The tip end portion 22b extends from the tip end of the arm part 22a in a direction of intersecting with the conveyance path defined by the conveyance guide 21. A part of the tip end portion 22b passes through the opening 21b2 formed at the upper guide 21b and is located in the conveyance path defined by the conveyance guide 21.

The shutter 22 is configured to be rotated about the rotary shaft 24 to be movable between an intercept position (refer to FIGS. 2 and 3) where the shutter 122 is located in the conveyance path defined by the conveyance guide 21 and a retreat position (refer to FIGS. 4 and 5) where the shutter 122 is further from the conveyance path than the intercept position. In the present embodiment, the tip end portion 22b of the shutter 22 being in the retreat position is located on a further front and upper side than the tip end portion 22b of the shutter 22 being in the intercept position. As shown in FIG. 3, when the shutter 22 is in the intercept position, the tip end portion 22b penetrates through the conveyance path defined by the conveyance guide 21. In addition, when the shutter 22 is in the intercept position, the shutter 22 is located on a further downstream side than a position directly under the feed roller 2, which is a feed position of the roll sheet P1a by the feed roller 2, with respect to the conveyance direction. As shown in FIG. 5, when the shutter 22 is in the retreat position, a tip end of the tip end portion 22b retreats out of the conveyance path. When the shutter 22 is in the retreat position, the roll sheet P1a that is conveyed by the feed roller 2 passes through the conveyance path defined by the conveyance guide 21 and is guided to the cutter mechanism 4.

In addition, the shutter 22 is configured to be movable to the intercept position in conjunction with pullout of the feed tray 11 from the housing 100a, and to the retreat position in conjunction with insertion of the feed tray 11 into the housing 100a. In the below, the configuration is described in detail with reference to FIGS. 8 and 9.

As described above, the arm part 22a of shutter 22 is formed with the convex portion 25. In addition, the housing 100a has a protruding portion 51 formed in a position corresponding to the convex portion 25 in the upper and lower direction and in the right and left direction and extending in the front and rear direction. A front end portion of the protruding portion 51 has an inclined surface 51a that is included located upward from the front toward the rear.

When the feed tray 11 is inserted into the housing 100a, the convex portion 25 moves from front to the rear along the inclined surface 51a, and the convex portion 25 gets on the protruding portion 51. This causes the shutter 22 to rotate about the rotary shaft 24 and to move to the retreat position, in conjunction with insertion of the feed tray 11 into the housing 100a. In addition, when the feed tray 11 is pulled out from the housing 100a, the convex portion 25 moves from the rear to the front along the inclined surface 51a, and the convex portion 25 gets down the protruding portion 51. This causes the shutter 22 to rotate about the rotary shaft 24 and to move to the intercept position, in conjunction with pullout of the feed tray 11 from the housing 100a.

As described above, the feed tray 11 of the first embodiment has the first accommodation part 11a capable of accommodating the roll body R, the conveyance guide 21 configured to define the conveyance path for the roll sheet P1a unrolled from the roll body R, and the shutter 22 configured to be movable between the intercept position where the shutter 22 is located in the conveyance path and the retreat position where the shutter 22 is further from the conveyance path than the intercept position. In addition, the printer 100 of the first embodiment has the housing 100a, the above-described feed tray 11, the feed roller 2, and the head 5. According to this, by setting the shutter 22 to the intercept position, it is possible to suppress the roll sheet P1a unrolled from the roll body R and guided to the conveyance path from becoming excessively long. This makes it possible to suppress the roll sheet P1a unrolled from the roll body R from coming into contact with a member inside the housing 100a when inserting the feed tray 11 into the housing 100a of the printer 100. In addition, by setting the shutter 22 to the retreat position, it is possible to convey the roll sheet P1a along the conveyance path.

Further, in the feed tray 11 of the first embodiment, the shutter 22 being in the intercept position is configured to penetrate through the conveyance path defined by the conveyance guide 21. This makes it possible to prevent the roll sheet P1a unrolled from the roll body R and guided to the conveyance path from going to a further downstream side than the shutter 22 with respect to the conveyance direction along the conveyance path.

Further, in the feed tray 11 of the first embodiment, the tip end of the tip end portion 22b of the shutter 22 being in the retreat position is configured to retreat out of the conveyance path. This makes it possible to prevent the roll sheet P1a unrolled from the roll body R and guided to the conveyance path from coming into contact with the shutter 22 when conveying the roll sheet P1a.

Further, in the feed tray 11 of the first embodiment, the shutter 22 is configured to be movable to the intercept position, in conjunction with pullout of the feed tray 11 from the housing 100a. This makes it possible to take less labor and to avoid forgetting to move the shutter 22 to the intercept position, as compared to a configuration where the shutter 22 is manually moved to the intercept position when pulling out the feed tray 11 from the housing 100a. Therefore, it is possible to more securely suppress the roll sheet P1a guided to the conveyance path from becoming excessively long, and to more securely suppress the roll sheet P1a unrolled from the roll body R from coming into contact with a member inside the housing 100a when pulling out the feed tray 11 from the housing 100a and then again inserting the feed tray 11 into the housing 100a.

Further, in the feed tray 11 of the first embodiment, the shutter 22 is configured to be movable to the retreat position, in conjunction with insertion of the feed tray 11 into the housing 100a. Further, in the feed tray 11 of the first embodiment, the shutter 22 is rotatably supported on the conveyance guide 21 by the rotary shaft 24, and is configured to be rotated about the rotary shaft 24 to be movable between the intercept position and the retreat position.

More specifically, in the printer 100 of the first embodiment, the feed tray 11 is configured to be capable of being inserted into pulled out from the housing 100a along insertion/pullout direction (front and rear direction) orthogonal to the axis direction (right and left direction) of the roll body R accommodated in the first accommodation part 11a. In addition, both ends of the shutter 22 in the right and left direction are formed with the convex portions 25 extending in the right and left direction, and the housing 100a has the inclined surfaces 51a provided in the positions corresponding to the convex portions 25 in the right and left direction and inclined upward toward a direction (from the front toward the rear) in which the feed tray 11 is inserted into the housing 100a. The shutter 22 is rotatably supported on the conveyance guide 21 so that the rotary shaft 24 is directed in the right and left direction, and is configured to rotate about the rotary shaft 24 to be able to thus move to the retreat position as the convex portion 25 moves along the inclined surface 51a in conjunction with insertion of the feed tray 11 into the housing 100a.

This makes it possible to take less labor and to avoid forgetting to move the shutter 22 to the intercept position, as compared to a configuration where the shutter 22 is manually moved to the intercept position before inserting the feed tray 11 into the housing 100a. This makes it possible to suppress a jam due to contact of the roll sheet P1a and the shutter 22 during the conveyance operation of the printer 100. In addition, since the shutter 22 rotates and moves, the shutter 22 can easily move between the intercept position and the retreat position.

In addition, the feed tray 11 of the first embodiment further has the second accommodation part 11b capable of accommodating the cut sheet P2 in a state of being multiply stacked, and the conveyance guide 21 can be attached and detached to and from the feed tray 11 while supporting the shutters 22. When conveying the cut sheet P2 accommodated in the second accommodation part 11b, the conveyance guide 21 and the shutters 22 supported on the conveyance guide 21 are no longer required. In particular, when the number of stacked cut sheets P2 accommodated in the second accommodation part 11b is large, the conveyance guide 21 and the shutters 22 may hinder the conveyance of the cut sheet P2. Therefore, in the first embodiment, the conveyance guide 21 is configured to be attachable and detachable to and from the feed tray 11. This makes it possible to securely convey the cut sheet even when the number of stacked cut sheets P2 is large in the feed tray 11 configured to accommodate both the roll body R and the cut sheet P2, and to suppress the roll sheet P1a unrolled from the roll body R from coming into contact with a member inside the housing 100a when inserting the feed tray 11 into the housing 100a.

Further, in the printer 100 of the first embodiment, the shutter 22 is arranged by one on each of both sides of the feed roller 2 in the axis direction (right and left direction) of the roll body R accommodated in the first accommodation part 11a. In a case where the shutter 22 is arranged only on one side of the feed roller 2 with respect to the right and left direction, the roll sheet P1a unrolled from the roll body R and guided to the conveyance path is suppressed from becoming excessively long only by the shutter 22 arranged on one side of the feed roller 2. Then, the unrolled roll sheet P1a may be obliquely tilted with respect to the conveyance direction. In this case, the conveyance of the roll sheet P1a by the feed roller 2 after moving the shutter 22 to the retreat position is not appropriately performed. The first embodiment can solve the above problems.

Further, in the printer 100 of the first embodiment, when the shutter 22 is in the intercept position, the shutter 22 is located on a further downstream side than the feed position of the roll sheet P1a by the feed roller 2 with respect to the conveyance direction. This makes it possible to securely unroll the roll sheet P1 to the feed position by the feed roller 2.

Subsequently, a configuration of a feed tray 111 according to a second embodiment is described with reference to FIGS. 10 to 13. In descriptions below, the configurations that are similar to the first embodiment are denoted with the same reference signs, and the descriptions thereof are omitted. A printer of the second embodiment has a similar configuration to the printer 100 of the first embodiment, except including the feed tray 111 instead of the feed tray 11 and including a configuration of a protruding portion 151, which will be described later, instead of the protruding portion 51.

The feed tray 111 includes a first accommodation part 111a capable of accommodating the roll body R, and a conveyance guide 121 configured to define the conveyance path for the roll sheet P1a unrolled from the roll body R. The conveyance guide 121 includes a first member 121a and a second member 121b extending in the insertion/pullout direction of the feed tray 111 with respect to the housing 100a, i.e., in the front and rear direction.

The first member 121a is configured to support the roll sheet P1a unrolled from the roll body R accommodated in the first accommodation part 111a, from below. The second member 121b is located above the first member 121a. As shown in FIG. 11, a rear end part of the second member 121b, which is a central part in the right and left direction, is formed with a notch 121b2. The conveyance path for the roll sheet P1a is formed between the first member 121a and the second member 121b. The roll sheet P1a unrolled from the roll body R passes through the conveyance path, is sent to a downstream side with respect to the conveyance direction and comes into contact with the feed roller 2 from the part of the second member 121b, at which the notch 121b2 is formed, so that the roll sheet is fed to a further downstream side with respect to the conveyance direction.

In addition, in the second embodiment, the cut sheet P2 in a state of being multiply stacked can be placed on an upper surface of the second member 121b. This allows the feed tray 111 to accommodate the plurality of cut sheets P2.

The feed tray 111 further includes a shutter 122 configured to be movable between an intercept position where the shutter 122 is located in the conveyance path defined by the conveyance guide 121 and a retreat position where the shutter 122 is further from the conveyance path than the intercept position. The shutter 122 includes a first part 122a and a second part 122b. The shutter 122 is rotatably supported on the first member 121a so that a rotary shaft Rs is directed in the right and left direction. The shutter 122 is urged by an urging member (not shown) so as to be in the intercept position shown in FIG. 12. Specifically, an elastic force for rotating the shutter 122 in a counterclockwise direction in FIG. 12 is applied from the urging member to the shutter 122. The urging member is, for example, a spring.

As shown in FIG. 11, the shutter 122 is arranged by one on each of both sides of the notch 121b2 in the right and left direction. In other words, the shutter 122 is arranged by one on each of both sides of the feed roller 2 in the right and left direction. When the shutter 122 is in the intercept position, the shutter 122 is arranged on a further downstream side than the feed position of the roll sheet P1a by the feed roller 2 with respect to the conveyance direction (refer to FIGS. 12 and 13).

As shown in FIG. 10, the first part 122a is located above the second part 122b and on an opposite side to the second part 122b with respect to the rotary shaft Rs. The shutter 22 is configured to rotate about the rotary shaft Rs by the elastic force applied by the urging member, and to be in the intercept position as a result of the first part 122a coming into contact with the second part 122b. That is, in the second embodiment, when the shutter 122 is in the intercept position, the first part 122a is in linear contact with a lower surface of the second part 121b of the conveyance guide 121. In other words, when the shutter 122 is in the intercept position, the first part 122a penetrates through the conveyance path defined by the conveyance guide 121.

In the present embodiment, the shutter 122 is configured to be movable to the retreat position in conjunction with insertion of the feed tray 111 into the housing 100a. The housing 100a of the printer of the second embodiment has a protruding portion 151 formed in a position corresponding to the second part 122b of the shutter 122 in the upper and lower direction and in the right and left direction and extending in the front and rear direction.

When the feed tray 111 is inserted into the housing 100a, the second part 122b is pushed by the protruding portion 151, so that the shutter 122 rotates in a clockwise direction about the rotary shaft Rs against the elastic force of the urging member and the first part 122a retreats from the conveyance path in conjunction with movement of the second part 122b. This causes the shutter 122 to rotate about the rotary shaft Rs and to move to the retreat position, in conjunction with insertion of the feed tray 111 into the housing 100a. Note that, as shown in FIG. 13, when the shutter 122 is in the retreat position, the first part 122a of the shutter 122 retreats out of the conveyance path. Note that, in the second embodiment, when the shutter 122 is in the retreat position, the roll sheet P1a fed by the feed roller 2 passes through the conveyance path defined by the conveyance guide 121, is sent to the guide surface 35a of the sidewall 35, and is guided to the cutter mechanism 4 by the guide surface 35a.

In addition, in the present embodiment, the shutter 122 is configured to be movable to the intercept position in conjunction with pullout of the feed tray 111 from the housing 100a. As described above, when seen from the right and left direction, the shutter 122 is urged by the urging member (not shown) so as to be a position (a position in FIG. 12), i.e., the intercept position where the first part 122a is in contact with the second member 121b. When the feed tray 111 is pulled out from the housing 100a, the push-up of the second part 122b by the protruding portion 151 is released, so that the shutter 122 rotates about the rotary shaft Rs and the first part 122a returns to the position where the first part is in contact with the second member 121b. This causes the shutter 122 to rotate about the rotary shaft 24 and to move to the intercept position, in conjunction with pullout of the feed tray 111 from the housing 100a.

As described above, in the feed tray 111 of the second embodiment, the conveyance guide 121 includes the first member 121a and the second member 121b extending in the insertion/pullout direction (front and rear direction) of the feed tray 111 with respect to the housing 100a, and the conveyance path for the roll sheet P1a is formed between the first member 121a and the second member 121b. In addition, the shutter 122 is rotatably supported on the first member 121a so that the axis direction (right and left direction) of the roll body R accommodated in the first accommodation part 111a is the direction of the rotary shaft Rs. The shutter 122 is configured to be rotated about the rotary shaft Rs to be movable between the intercept position and the retreat position, and is in the intercept position as the first part 122a of the shutter 122 comes into contact with the second member 121b. According to this, since the shutter 22 rotates, the shutter can easily move between the intercept position and the retreat position. In addition, the shutter 122 can be set to the intercept position by using the second member 121b of the conveyance guide 121.

Further, in the feed tray 111 of the second embodiment, the second member 121b is located above the first member 121a, and the cut sheet P2 can be accommodated in a state of being multiply stacked on the upper surface of the second member 121b. This makes it possible to suppress the roll sheet P1a unrolled from the roll body R from coming into contact with a member inside the housing 100a when inserting the feed tray 111 into the housing 100a, in the feed tray 111 configured to accommodate both the roll body R and the cut sheet P2.

Further, in the printer of the second embodiment, the housing 100a is formed with the protruding portion 151 extending in the insertion/pullout direction (front and rear direction) of the feed tray 111 with respect to the housing 100a. The second part 122b is pushed by the protruding portion 151 in conjunction with the insertion of the feed tray 111 into the housing 100a, so that the shutter 122 can rotate about the rotary shaft Rs to move to the retreat position. This makes it possible to take less labor and to avoid forgetting to move the shutter 122 to the intercept position, as compared to a configuration where the shutter 122 is manually moved to the intercept position before inserting the feed tray 111 into the housing 100a. This makes it possible to suppress a jam due to contact of the roll sheet P1a and the shutter 122 during the conveyance operation of Printer name.

Modified Embodiments

Although the preferred embodiments of the present disclosure have been described, the present invention is not limited to the above-described embodiments, and can be variously changed within the claims.

In the above-described embodiments, the feed tray enables to accommodate the roll body R and the cut sheet P2. However, the feed tray of the present disclosure may also be configured to be able to accommodate only the roll body.

In the above-described embodiments, the shutter is arranged by one on each of both sides of the feed roller 2 in the right and left direction. However, the shutter may also be arranged by two or more on each of both sides of the feed roller 2 in the right and left direction or may also be arranged only on one side of the feed roller, and the numbers of shutters to be arranged on both sides may be different. However, preferably, the shutter is arranged by at least one on each of both sides of the feed roller 2 in the right and left direction.

In the feed tray 11 of the first embodiment, the lower guide 21a and the upper guide 21b may be arranged by two or more on each of both sides of the feed roller 2 or may be arranged by one on each of both sides of the feed roller 2 in the right and left direction in a state where the feed tray 11 is mounted to the housing 100a.

In the above-described embodiments, the shutter is rotatably supported on the conveyance guide but may also be rotatably supported directly on the feed tray. In addition, the shutter may be configured to be movable between the intercept position and the retreat position, and is not limited to the configuration of rotating about the rotary shaft.

In the above-described embodiments, when the shutter is in the intercept position, the roll sheet P1a unrolled from the roll body R is in contact with the shutter. However, when the shutter is in the intercept position, the shutter may not completely intercept the conveyance path. In this case, the shutter being in the intercept position may not be in contact with the roll sheet P1a unrolled from the roll body R.

In the above-described embodiments, the shutter is configured to be movable to the intercept position in conjunction with pullout of the feed tray from the housing. However, the shutter may also be configured to be manually movable to the intercept position. In addition, in the above-described embodiments, the shutter is configured to be movable to the retreat position in conjunction with insertion of the feed tray into the housing. However, the shutter may also be configured to be manually movable to the retreat position.

In the above-described embodiments, when the shutter is in the retreat position, the tip end of the shutter retreats out of the conveyance path defined by the conveyance guide. However, when the shutter is in the retreat position, the tip end of the shutter may remain in the conveyance path defined by the conveyance guide. Note that, in this case, the feed tray is configured so that, even when the tip end of the shutter being in the retreat position remains in the conveyance path, the roll sheet P1a unrolled from the roll body R can pass through the conveyance path defined by the conveyance guide.

In the above-described embodiments, the shutter being in the intercept position is configured to penetrate through the conveyance path. However, the shutter being in the intercept position may also be configured not to penetrate through the conveyance path. For example, the shutter being in the intercept position may be configured to be in contact with an inner surface of the conveyance guide defining the conveyance path.

In the first embodiment, the conveyance guide 21 has the lower guide 21a and the upper guide 21b but may not have the lower guide 21a. In this case, the conveyance path for the roll sheet P1a is formed between the upper guide 21b and the guide surface 35a of the sidewall 35. In other words, the conveyance guide includes the upper guide 21b and the guide surface 35a.

Further, in the first embodiment, the shutter 22 is rotatably supported on the upper guide 21b. However, the shutter 22 may not be supported on the upper guide 21b. For example, the upper guide 21b and the shutter 22 may also be integrally configured. For example, the upper guide may be formed with a shutter part (corresponding the shutter of the present disclosure) extending into the conveyance path. In this case, the upper guide is configured to be rotatable about the right and left direction that is a rotation axis, and the shutter part is configured to move between the intercept position and the retreat position in conjunction with rotation of the upper guide.

The image recording apparatus of the present disclosure can also be applied to a complex machine, a copier and the like, in addition to the printer. In addition, the printer may be applied to not only the inkjet printer but also a laser-type printer configured to form an electrostatic latent image by exposing a photosensitive member by laser or an LED-type electrophotographic printer configured to form an electrostatic latent image by exposing a photosensitive member by an LED. In addition, the sheet-shaped medium is not limited to the sheet and may also be a cloth, a label or the like as long as it is a sheet type.

Claims

1. A feed tray configured to accommodate a first sheet-shaped medium and a second sheet-shaped medium, the feed tray comprising: a first accommodation part configured to accommodate a roll body, in which the first sheet-shaped medium is rolled in a roll shape; anda second accommodation part configured to accommodate a plurality of the second sheet-shaped medium in a stacked state,wherein the first accommodation part and the second accommodation part are arranged in the feed tray in a first direction orthogonal to a rotational axis of the roll body, andwherein the second accommodation part is configured to accommodate the second sheet-shaped medium in an orientation in which a short side of the second sheet-shaped medium is aligned in the first direction.

2. The feed tray according to claim 1, wherein the second accommodation part is arranged at a position downstream with respect to the first accommodation part in a second direction in which the first sheet-shaped medium is unrolled from the roll body.

3. The feed tray according to claim 1, further comprising: a first sidewall that extends in the first direction and defines a first side edge of the first accommodation part and the second accommodation part; anda second sidewall that extends in the first direction and defines a second side edge of the first accommodation part and the second accommodation part, the second side edge facing the first side edge.

4. An image recording apparatus comprising: a housing;the feed tray according to claim 1, the feed tray being configured to be capable of being inserted into and pulled out from the housing;a feed roller configured to feed one of the first sheet-shaped medium and the second sheet-shaped medium; anda recording unit configured to record an image on one of the first sheet-shaped medium and the second sheet-shaped medium fed by the feed roller.

5. The image recording apparatus according to claim 4, wherein the second accommodation part of the feed tray is located within the housing in a state where the feed tray is inserted into the housing.

6. The image recording apparatus according to claim 4, wherein the first accommodation part of the feed tray is located within the housing in a state where the feed tray is inserted into the housing.

7. The image recording apparatus according to claim 4, wherein the second sheet-shaped medium is fed by the feed roller in a third direction in which the first sheet-shaped medium is fed by the feed roller.