Patent Publication Number: US-8528897-B2

Title: Recording apparatus

Description:
BACKGROUND 
     1. Technical Field 
     The present invention relates to a recording apparatus holding a recorded recording medium in a standing posture. 
     2. Related Art 
     A recording apparatus including a recording unit that performs recording on a recording medium, a discharge-side transporting mechanism that transports a recorded recording medium, a discharge-side accommodating unit that receives a recorded recording medium transported by the discharge-side transporting mechanism, and a pushing body that pushes the recording medium transported by the discharge-side transporting mechanism into the discharge-side accommodating unit has been known in the related art (see JP-A-2003-252507). 
     The discharge-side transporting mechanism has a driving roller and a counter-roller and feeds the recording medium to the discharge-side accommodating unit by using the rollers. Meanwhile, the pushing body is a moving body or a rotary body operating, close to the discharge-side accommodating unit, and pushes the rear end portion (lower end portion) of the recording medium to the right plate (holding surface) of the discharge-side accommodating unit. Accordingly, it is possible to prevent jam due to stopping of the rear end portion of the recording medium close to the driving roller and the counter-roller. 
     However, according to the configuration, since the pushing body is implemented by a movable moving body or rotary body, a driving source for moving the pushing body is necessary. Accordingly, there is a problem in that the recording apparatus becomes complicated. Further, when the rear end of a recording medium is pushed by a movable moving body or rotary body, it is necessary to move the pushing body after the recording medium comes out from the driving roller and the counter-roller. That is, there is a problem in that complicated control is necessary. 
     SUMMARY 
     An advantage of some aspects of the invention is to provide a recording apparatus that can feed out the lower end of a recording medium to a holding surface from the vicinity of a medium discharge unit, with a simple configuration without complicated control. 
     According to an aspect of the invention, there is provided a recording apparatus including: an image recording unit that records an image on a recording medium; a medium discharge unit that includes a nip roller composed of a driving roller and a driven roller and feeds out a recorded recording medium upward; a holding unit that holds the recorded recording medium fed out from the medium discharge unit; and a medium pressing unit that protrudes to the holding unit with respect to a virtual surface in the feeding-out direction of the recording medium by the nip roller of the medium discharge unit, opposite to the holding unit, and presses the recorded recording medium fed out from the medium discharge unit to the holding unit. 
     According to this configuration, since the medium pressing unit protrudes to the holding surface from the virtual surface in the feeding-out direction of the recording medium, the recording medium that is being fed out is pressed against the holding surface at all time. Further, when the recording medium is completely fed out from the medium discharge unit, the medium pressing unit presses the lower portion of the recording medium and the lower end of the recording medium is a free state, such that the lower end of the recording medium is moved to the holding surface. As described above, it is possible to feed out the lower end of the recording medium to the holding surface from the vicinity of the medium discharge unit. Meanwhile, since the medium pressing unit has the structure that allows the recording medium to be fed out in a protruding state, it is possible to provide the recording apparatus that holds the paper to overlap each other without making the paper pressing unit a movable type, and that has a simple configuration without complicated control. 
     Further, as the recording medium is pressed against the driving roller by the medium pressing unit disposed above (downstream of) the medium discharge unit, it is possible to improve transport force of the driving roller by increasing friction force between the recording medium and the driving roller to suppress slip. Since the transport force of the driving roller is not improved directly by the driven roller, it is possible to achieve transport force for stably feeding out recording medium, with the pinching force of the driving roller and the driven roller maintained. 
     In the apparatus, the driving roller of the nip roller of the medium discharge unit may be disposed at the side of the holding unit. 
     According to this configuration, the driving roller comes in rotation contact with the lower end portion of the recording medium right after being fed out, from below. As a result, feeding force to the holding unit is applied to the recording medium while the lower end portion of the recording medium is supported on the outer circumference surface of the driving roller. 
     In the apparatus, the lower end of the recorded recording medium fed out from the medium discharge unit may be moved to the holding unit by the driving roller. 
     According to this configuration, since the driving roller comes in direct contact with the print surface of the recording medium, the print surface is less contaminated or damaged. 
     In the apparatus, the holding unit may have an inclined portion that guides the lower end of the recording medium, which is moved to the holding unit by the driving roller, downward at an angle. 
     According to this configuration, the lower portion of the recording medium can be smoothly guided to a holding position by the inclined portion. 
     In the apparatus, the holding unit may have a support portion that continues into the inclined surface and supports the recording medium. 
     According to this configuration, the recording medium can be appropriately held at the holding position by the support portion. Further, it is possible to effectively prevent contact between the held recording medium and the medium discharge unit. 
     In the apparatus, the medium pressing unit may include a freely rotatable roller that rotates in contact with the recording medium. 
     According to this configuration, it is possible to reduce frictional resistance against the feeding-out by the medium pressing unit. Therefore, it is possible to stably feed out the recording medium to overlap the previous recording medium. 
     In the apparatus, a plurality of the medium pressing units may be disposed in the direction perpendicular to the feeding-out direction. 
     According to this configuration, since the recording medium is pressed at a plurality of positions in the width direction, it is possible to press the recording medium throughout the width region. Therefore, it is possible to reliably feed out the lower end portion of the recording medium to the holding surface. 
     The recording apparatus may further include a guide roller that is disposed upstream from the medium discharge unit and comes in contact with the surface opposite to the surface of the holding unit of the recording medium, in which the guide roller may protrude to the holding unit with respect to the virtual surface and presses the recording medium against the holding unit. 
     According to this configuration, since the medium guide unit is disposed at the side of the driven roller, under, that is, upstream from the medium discharge unit, the medium guide unit relatively presses the recording medium against the driving roller. That is, the medium guide unit presses both upper and lower sides (both upstream and downstream sides) in cooperation with the medium pressing unit, thus it is possible to further improve the transport force of the driving roller. 
     Further, the recording apparatus may include a medium cassette that accommodates a non-recorded recording medium in a standing posture, and is detachable and attachable in which the holding unit may be formed on the outer surface of the medium cassette. 
     In the recording apparatus holding the recorded recording medium in a standing posture, generally, the recording medium is held with the upper portion exposed outside the apparatus and the recording medium is taken out from the apparatus by the exposed portion. However, when a recording medium with small dimensions, such as a postcard, is held, the upper portion of the recording medium is not exposed outside the apparatus, such that it is difficult to take out the recording medium. 
     On the other hand, according to the configuration, since the holding unit can be separated as an integral unit with the medium cassette, it is possible to easily take out a holding unit even if the recording medium with small dimensions is held. 
     The recording apparatus of the invention includes: an image recording unit that records an image on a recording medium; a holding unit that holds the recorded recording medium in a standing posture or on a holding surface to overlap each other; a medium discharge unit that feeds out the recorded recording medium along the holding surface from below; a medium pressing unit that is positioned under the recording medium right after being fed out, protrudes to the holding surface with respect to the virtual surface which becomes the feeding-out direction of the recording medium by the medium discharge unit, and presses the recording medium against the holding surface. 
     According to this configuration, since the medium pressing unit protrudes to the holding unit from the virtual surface which becomes the feeding-out direction of the recording medium, the recording medium that is being fed out is pressed against the holding surface. Further, when the recording medium is completely fed out from the medium discharge unit, the medium pressing unit presses the lower portion of the recording medium and the lower end of the recording medium is in a free state, such that the lower end of the recording medium is moved to the holding surface. As described above, it is possible to feed out the lower end of the recording medium to the holding unit from the vicinity of the medium discharge unit. Meanwhile, since the medium pressing unit has a structure that allows the recording medium to be fed out in a protruding state, it is possible to provide the recording apparatus that holds the paper to overlap each other without making the paper pressing unit in a movable type, and that has a simple configuration without complicated control. 
     The recording apparatus of the invention includes: an image recording unit that records an image on a recording medium; a medium discharge unit that includes a nip roller composed of a driving roller and a driven roller and feeds out a recorded recording medium upward; and a medium pressing unit that is disposed above the medium discharge unit, disposed at the driven roller side while protruding to the driving roller with respect to the virtual surface which becomes the feeding-out direction of the recording medium by the medium discharge unit, and presses the recording medium against the driving roller. 
     According to this configuration, as the recording medium is pressed against the driving roller by the medium pressing unit disposed above (downstream from) the medium discharge unit, it is possible to improve transport force of the driving roller by increasing friction force between the recording medium and the driving roller to suppress slip. 
     Since the transport force of the driving roller is not increased directly by the driven roller, it is possible to achieve transport force for stably feeding out the recording medium, with the pinching force of the driving roller and the driven roller maintained. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The invention will be described with reference to the accompanying drawings, wherein like numbers reference like elements. 
         FIG. 1  is a perspective view showing the external appearance of a recording apparatus according to an embodiment. 
         FIG. 2  is a lateral cross-sectional view showing the internal structure of the recording apparatus. 
         FIG. 3  is a rear perspective view showing the internal structure of the recording apparatus. 
         FIG. 4  is a rear perspective view showing a paper cassette. 
         FIG. 5  is a main part cross-sectional view showing a portion including a discharged-paper holding unit and a paper pressing mechanism. 
         FIG. 6  is a rear view showing a portion including the paper pressing mechanism. 
         FIGS. 7A to 7C  are transition diagrams showing a feeding operation of the paper pressing mechanism. 
         FIG. 8  is a view showing the relationship of the feeding accuracy of the lower end of the paper, the position of a pressing roller, and the stiffness of paper. 
         FIG. 9  is a structural view showing the structure of pressing paper against a driving-discharge roller. 
     
    
    
     DESCRIPTION OF EXEMPLARY EMBODIMENTS 
     Hereinafter, a recording apparatus according to an embodiment of the invention is described with reference to the accompanying drawings. The recording apparatus performs desired recording while transporting paper (recording medium) held in a standing posture and holds (stocks or accumulates) the discharged printed paper to overlap each other in a standing state. Further, the X-axial (left-right) direction, the Y-axial (front-rear) direction, and the Z-axial (up-down) direction are defined, as shown in the figures, which are described below. Further, although the recording apparatus  1  is implemented to able to perform longitudinal disposition and lateral disposition (disposition for performing printing on paper and discharging the paper in a horizontal position), the longitudinal disposition is described below. Further, a recording apparatus implemented only for longitudinal disposition may be used. 
       FIG. 1  is a perspective view showing the external appearance of the recording apparatus  1 . As shown in  FIG. 1 , the recording apparatus  1  has the external appearance formed by a case  2  having a thin box shape with the Z-axial dimension larger than the X-axial and Y-axial dimensions. An operation panel  21  with operation buttons, a cable terminal  22  where a cable for connecting a PC or the like is connected, and a cartridge cover  23  opening/closing a cartridge mount (not shown) for separably mounting a plurality of ink cartridges (not shown) are disposed on the top of the case  2 . Further, a paper outlet cover  25  opening/closing a paper outlet  24  (see  FIG. 2 ) for discharging recorded paper P is disposed on the top of the case  2 . Further, the paper outlet cover  25  is opened/closed by a user, but is automatically opened by an opening/closing mechanism (not shown) even if recording is performed with the cover closed. Further, a cassette mount  26  for separably mounting a paper cassette  5 , which is described below, is widely disposed on the front of the case  2 . 
     The internal structure of the recording apparatus  1  is described in detail with reference to  FIG. 2 .  FIG. 2  is a lateral cross-sectional view showing the internal structure of the recording apparatus  1 . As shown in  FIG. 2 , the recording apparatus  1  includes; a paper cassette  5  separably mounted on the cassette mount  26  and accommodating sheets of paper P in a standing state; a transporting unit  4  feeding the accommodated paper P along a transport path R for turning over and feeding the paper P upward, at the lower portion of the recording apparatus  1 ; a printing unit (image recording unit)  3  disposed in contact with the transport path R or at the vertical middle position of the recording apparatus  1  and performing ink jet type printing on the paper P; and an apparatus frame (not shown) supporting the transporting unit  4  and the printing unit  3 . Further, the printing unit  3  that has performed printing on the paper P is an example of an image recording unit recording an image on a recording medium and recording the image on the recording medium is not limited to the ink jet type and may be implemented by other types. 
     The printing unit  3  is supported by the apparatus frame and includes a carriage guide shaft  34  and a carriage guide plate  36  which X-axially extend the full width, a carriage unit  30  supported by the carriage guide shaft  34  and the carriage guide plate  36  to be able to reciprocate, and a carriage moving mechanism  37  (see  FIG. 3 ) reciprocating the carriage unit  30  along the carriage guide shaft  34  and the carriage guide plate  36 . The carriage guide shaft  34  supports the lower end of the carriage unit  30  and the carriage guide plate  36  supports the upper end of the carriage unit  30  against the force causing a rotation about the carriage guide shaft  34 . That is, the carriage unit  30  is held at an angle by the carriage guide shaft  34  and the carriage guide plate  36 . 
       FIG. 3  is a rear perspective view showing the internal structure of the recording apparatus  1 .  FIG. 3  shows that some of the members are omitted. As shown in  FIG. 3 , the carriage unit  30  includes a carriage  31  having a box shape supported by the carriage guide shaft  34  and the carriage guide plate  36  to be able to reciprocate, an ink jet head  32  (see  FIG. 2 ) mounted on the carriage  31 , and a connection adapter  38  connected to the ink jet head  32  from above and connected to the ink cartridge through an ink tube (not shown). The ink jet head  32  has a plurality of nozzle lines (not shown) discharging ink droplets of a plurality of colors, opposite the paper P with a predetermined gap therebetween. 
     The carriage moving mechanism  37  includes a timing belt  71  extending along the carriage guide shaft  34 , driving pulley  72  and a driven pulley (not shown) which hold the timing belt  71 , a connecting-fixing portion (not shown) connecting the timing belt  71  with the carriage unit  30  (carriage  31 ), and a carriage motor  73  driving the driving pulley  72 . As the carriage motor  73  rotates forward and backward, the carriage unit  30  is X-axially reciprocated (in left-right direction) through the timing belt  71 . With the reciprocation, the ink jet head  32  of the carriage unit  30  performs discharging and driving, thereby performing so-called main scanning. 
     Further, although the ink cartridge independently is disposed from the carriage  31  which is a so-called off-typed cartridge in the embodiment, a so-called on-typed cartridge where the ink cartridge is mounted on the carriage  31  may be used. Further, although a so-called serial printer in which the carriage  31  performs recording while X-axially moving is exemplified in the embodiment, a fixing-typed ink jet head  32  covering the width of paper P may be used. Further, the invention is not limited to the ink jet type and may be applied to other recording types. 
       FIG. 4  is a rear perspective view showing the paper cassette  5 . As shown in  FIGS. 2 and 4 , the paper cassette  5  includes a cassette body (medium cassette)  51  accommodating un-printed (un-recorded) paper P in a standing posture and a discharged-paper holding unit (holding unit)  52  disposed on the outer surface (inside the apparatus) of the cassette body  51  and holding the printed (recorded) paper P in a standing posture or to overlap each other on a holding surface  61 . That is, un-printed paper P is supplied from the cassette body  51  and printed paper P is discharged to the discharged-paper holding unit  52 . Further, it is possible to take out the held printed paper P with the cassette body  51  by separating the paper cassette  5  from the apparatus body. Further, the inside of the recording apparatus  1  can be exposed by separating the paper cassette  5 , such that it is possible to easily alleviate a problem, such as that the paper P is stuck on the transport path R. Further, though not shown, the paper cassette  5  can Z-axially freely slide with respect to the case  2  and the attaching/detaching operation is performed by sliding the paper cassette  5 . 
     The cassette body  51  includes a cassette case part  53  that is mounted to be aligned with the front surface of the case  2  (see  FIG. 1 ) and forms the entire appearance of the recording apparatus  1 , a body tray  54  formed entirely in a tray shape with the side of the cassette case part  53  as a accommodating surface, an upper cover  55  opening/closing a paper accommodating space for accommodating the paper P, opposite to the upper portion of the body tray  54 , and a movable tray  59  positioned under the body tray  54  and fluctuating the front end of the paper P accommodated in the paper accommodating space. 
     Further, the outer surface of the upper cover  55 , that is, the surface facing the inside of the apparatus when being mounted on the case  2  functions as a holding surface  61  for holding (accumulating) the printed paper P (the detail is provided below). 
     The movable tray  59  is disposed under the body tray  54 , which becomes downstream in the paper-feeding direction, in a state where the paper cassette  5  is mounted, and functions as a hopper. The movable tray  59  can revolve about or around a pair of left and right fluctuation points  59   a  disposed substantially at the center portion in the up-down direction of the body tray  54 , and is fluctuated by a driving mechanism (not shown). Accordingly, it is possible to make the front end of the accommodated paper P to the state where the front end comes in press contact with a feeding roller  41 , which is described below, (see  FIG. 2 ), and to the state where the front end is separated (not shown). 
     As shown in  FIG. 2 , the transporting unit  4  includes a large-sized feeding roller  41  that comes in rotation contact with the accommodated paper P to take out the paper P and curved-turns over and feeds out the paper P upward, opposite to the front end of the movable tray  59 , a guide member  45  and a sub-driven roller  46  that guide the turning-over and feeding, opposite to the feeding roller  41 , a transporting roller  42  that feeds the paper P from the feeding roller  41  to the printing unit  3 , a guide member  33  facing the printing unit  3 , a spur-shaped guide roller  43  that is disposed at a downstream from the guide member  33  and flattens warping paper P, a discharge roller (medium discharge unit)  44  that is disposed at a downstream from the guide roller  43  and discharges the paper P to the discharged-paper holding unit  52 , and a paper pressing mechanism  47  that is disposed at a downstream from the discharging roller  44  and presses the paper P against the discharged-paper holding unit  52 . Further, the paper pressing mechanism  47  has a function of feeding the lower end of the paper P right after being taken out to the holding surface  61  of the discharged-paper holding unit  52  from the vicinity of the discharge roller  44 . 
     The feeding roller  41  is implemented by a driving roller and transports the paper P taken out from the cassette body  51  in an arc shape along the outer circumference surface. The guide member  45  is formed in the curved shape opposite to the outer circumference surface of the feeding roller  41  and guides the paper P from the outside. The sub-driven roller  46  is implemented by a freely rotating roller and assists the turning over and feeding by coming in rotation contact with the feeding roller  41  pinched with the paper P therebetween. The transporting roller  42  is implemented by a nip roller including a front transport-driving roller  42   a  and a rear transport-driven roller  42   b  and has a function as a main roller that controls feeding (sub-scanning) the paper P. Further, the feeding roller  41  and the transporting roller  42  are implemented by a plurality of separate rollers disposed at appropriate intervals in the width direction of the paper P (X-axial direction), respectively. 
     The guide member  33  constitutes a portion of the transport path R and defines the gap (working gap) between the recording surface of the paper P and the ink jet head  32  (functions as a so-called platen). Further, a recession accommodating the ink discharged to a region offset from the end of the paper P during borderless printing at a position opposite to the ink jet head  32  is formed at the guide member  33 . 
     An ink absorbing material (not shown) that absorbs ink is disposed in the recession. Further, a waste fluid tank (not shown) storing the waste ink is disposed under the guide member  33 . 
     The discharge roller  44  is implemented by a nip roller including a front discharge-driving roller (driving roller)  44   a  (at the side of the holding surface  61 ) and a rear discharge-driven roller  44   b  and functions as a tension roller applying tension to the paper P disposed above the guide member  33 . Further, the discharge roller  44  is disposed around the lower portion of the discharged-paper holding unit  52  and feeds out the paper P along the holding surface  61  of the discharged-paper holding unit  52 . In detail, the feeding-out direction of the paper P by the discharge roller  44  is set to the up-direction inclined toward the paper cassette  5  (see  FIG. 5 ). Accordingly, the discharged paper P is moved upward while sliding on the holding surface  61  (described below) of the discharged-paper holding unit  52  and held on the holding surface  61  of the discharged-paper holding unit  52 . 
     The discharge-driving roller  44   a  is implemented by a rubber roller and the discharge-driven roller  44   b  is implemented by a star wheel (spur-shaped roller). Further, the discharge-driving roller  44   a  and the discharge-driven roller  44   b  are each composed of a plurality of separate rollers disposed at appropriate intervals in the width direction of the paper P (in the X-axial direction) (see  FIG. 3 ). Further, though the detail is described below, the discharge-driving roller  44   a  comes in rotation contact with the lower end of the paper P right after being fed out, from below. As a result, a feeding force to the holding surface  61  is applied to the paper P in the state where the lower end is supported by the outer circumference surface of the discharge-driving roller  44   a . Accordingly, the feeding out is assisted by the paper pressing mechanism  47 . Further, according to this configuration, since the discharge-driving roller  44   a  does not come in direct contact with the print surface of the paper P, it is possible to prevent the print surface from being contaminated or damaged. 
     The paper P taken out downward by the feeding roller  41  is turned over upward by the feeding roller  41 , the guide member  45  and the sub-driven roller  46  and transported to the transporting roller  42 . Further, the paper P is pinched between the transporting rollers  42  and the paper P and fed to the printing unit  3 . The paper P that has undergone recording in the printing unit  3  is discharged to the discharged-paper holding unit  52  of the paper cassette  5  through the guide roller  43  and the discharge roller  44 . 
     In printing, the paper P is intermittently fed (sub-scanning) substantially in the Z-axial direction by the transporting unit  4  and the carriage unit  30  is X-axially reciprocated (main scanning) by the carriage moving mechanism  37  while the ink jet head  32  is driven, such that image data is printed on the paper P. 
     Next, the discharged-paper holding unit  52  and the paper pressing mechanism  47  are described in detail with reference to  FIGS. 4 ,  5 , and  6 .  FIG. 5  is a cross-sectional view showing a portion including the discharged-paper holding unit  52 . As shown in  FIGS. 4 and 5 , the discharged-paper holding unit  52  has the holding surface  61  implemented by the outer surface (inside the apparatus) of the upper cover  55 , a accommodating portion  62  accommodating the lower end of the discharged paper P, and a holder  63  disposed on the holding surface  61  and holding the paper P in a standing posture. 
     The holding surface  61  is a substantially flat surface positioned between the vicinity of the pair of discharge rollers  44  and the paper outlet  24  and a surface vertically extending, when the paper cassette  5  is mounted in the case  2 . The paper P discharged by the discharge roller  44  is moved toward the paper outlet  24  while sliding along the holding surface  61 . Further, the sheets of paper are held to overlap each other on the holding surface  61 . Further, the paper P is made to protrude and discharged upward from the paper outlet  24 , depending on the size of the paper P. Therefore, it is preferable for the upper cover  55  to be able to vertically extend/contract. 
     The accommodating portion  62  has a support portion  62   a  protruding from the holding surface  61  to the discharge roller  44  and supporting the lower end of the paper P and a plurality of paper inlets (inclining portion)  62   b  continued into the tip of the support  62   a  and inclining upward to the discharge-driving roller  44   a . The paper inlets  62   b  are disposed at appropriate intervals in the X-axial direction in the spaces between the discharge-driving rollers  44   a , which are the separate rollers. That is, the accommodating portion  62  entirely forms a substantially comb shape. Further, the paper inlets  62   b  appropriately and smoothly guide the lower end of the paper P fed out to the holding surface  61  passing the top of the discharge-driving roller  44   a  by the paper pressing mechanism  47 , further, to the holding position. Meanwhile, the support  62   a  supports the paper P moved to the holding position. Therefore, all the paper P fed from the pair of discharge rollers  44  are accommodated (held) to overlap each other by the holding surface  61  and the accommodating portion  62  in the standing posture. 
       FIG. 6  is a rear view showing a portion including the paper pressing mechanism  47 . As shown in  FIGS. 5 and 6 , the paper pressing mechanism  47  includes a pair of left and right pressing rollers (medium pressing units)  81  pressing the fed paper P against the holding surface  61  by the discharge rollers  44  and a pair of roller frames  82  supported by the apparatus frame and rotatably supporting the pair of pressing rollers  81 . Further, in the pair of pressing rollers  81 , one pressing roller  81  is positioned to press the paper P with the predetermined minimum width at the center and the other pressing roller  81  is positioned to press the paper P with the predetermined maximum width, good balance between left and right. 
     Each of the pressing rollers  81  is a freely rotating roller that rotates in contact with the paper P and implemented by a star wheel (spur-shaped roller). Further, the pressing roller  81  is positioned opposite to the lower portion of the paper P right after being fed out and protrudes from the discharge-driven roller  44   b  to the discharge-driving roller  44   a  with respect to a virtual surface S in the feeding-out direction of the discharge roller  44 . That is, the pressing roller  81  allows the paper P to be fed out and presses the lower portion of the paper P right after being fed out against the holding surface  61 . The paper P is curved by the pressing force and a reaction force for flattening the curve is generated. The reaction force is a feeding force for feeding the lower end of the paper P to the holding surface  61 . 
     Further, the virtual surface S is perpendicular to the surface connecting the axial center of the discharge-driving roller  44   a  and the axial center of the discharge-driven center  44   b  and passing through the nip point between the discharge-driving roller  44   a  and the discharge-driven roller  44   b.    
       FIGS. 7A to 7C  are transition diagrams showing the operation of the paper pressing mechanism  47  feeding the lower portion of the paper P. 
     As shown in  FIGS. 7A to 7C , in the middle of feeding out the paper P, the paper P is fed out by the discharge roller  44  in rotation contact with the surface (print surface) of the pressing rollers  81  and pressed against the holding surface (see  FIG. 7A ). The pressing rollers  81  come in contact with the lower portion of the paper P and press the paper against the holding surface  61 , right after the paper P is fed out. Further, the discharge-driving roller  44   a  comes in rotation contact to the lower end of the paper P from below while remaining driven (see  FIG. 7B ). The feeding force is applied to the lower end of the paper P by the pressing force of the pressing rollers  81 , while the discharge-driving roller  44   a  rotates while supporting the lower end of the paper P in the outer circumference, thereby applying the feeding force to the lower end of the paper P. The lower end of the paper P is fed to the holding surface  61  from the vicinity of the discharge roller  44  by the cooperation of the pressing rollers  81  and the discharge-driving roller  44   a . The lower end of the paper P passing the top of the discharge-driving roller  44   a  is guided to the paper inlets  62   b  and reaches the support portion  62   a , and then the paper P is held along the holding surface  61  (see  FIG. 7C ). A plurality of sheets of paper P is held to appropriately overlap each other by the feeding operation. 
       FIG. 8  is a view showing the relationship of the feeding accuracy, the position of the pressing rollers  81  and the stiffness of the paper P. As shown in  FIG. 8 , the accuracy of feeding the paper P is considerably associated with the protrusion amount of the pressing roller  81  with respect to the virtual surface S, the distance from the discharge roller  44  (strictly, the nip point) of the pressing rollers  81  in the feeding-out direction, and the stiffness (stiffness) of the paper P. In detail, basically, as the protrusion amount is large, the distance from the discharge roller  44  is short, and the stiffness of the paper P is large, and the feeding accuracy is high, while the feeding accuracy decreases when they increase exceeded the elastic yield point according to the stiffness of the paper P. Accordingly, considering this feature, it is preferable to set the protrusion amount and the distance from the discharge roller  44  in accordance with predetermined stiffness of the paper P, and dispose the pressing rollers  81 . Further, it is necessary to set the protrusion amount of the pressing rollers  81  such that the axial center of the pressing rollers  81  does not cross the virtual surface S such that the upper end portion of the paper is not put into the rears side of the pressing rollers  81 . 
     The guide roller  43  of  FIG. 5  is a freely rotating roller that rotates in contact with the paper P and is implemented by a star wheel (spur-shaped roller). Further, the guide roller  43  is implemented by a plurality of separate rollers disposed at appropriate intervals in the width direction of the paper P (X-axial direction). Further, the guide roller  43  is disposed at the upstream of (under) the discharge roller  44 , opposite to the transport path R from the side of the discharge-driven roller  44   b , and protrudes with respect to the virtual surface S. Further, the guide roller  43  flattens warping paper P fed from the guide member  33  and guides the paper P to the discharge roller  44 . Further, the guide roller  43  assists pressing against the discharge roller  44   a  of the paper P by the pressing roller  81 . 
       FIG. 9  is a structural view showing the structure of pressing the paper P against the discharge-driving roller  44   a . Further,  FIG. 9  is a little different in the position of the pressing roller  81  with respect to the virtual surface S from  FIG. 5  in order to easily illustrate the effects of the embodiment. As shown in  FIG. 9 , the pressing roller  81  presses the paper P against the discharge-driving roller  44   a , at the downstream from (above) the discharge-driving roller  44   a . The paper P is curved by the pressing force and a reaction force to flattening the curve is generated. Meanwhile, the guide roller  43  comes in contact with the paper P, upstream from (under) the discharge-driving roller  44   a . The opposite side of the paper P is likely to be raised on the discharge-driving roller  44   a  upward to the discharge-driven roller  44   b  by the reacting force due to the pressing force of the pressing roller  81 , but the guide roller  43  presses down the paper. Accordingly, the guide roller  43  relatively presses the paper P against the discharge-driving roller  44   a . As described above, the pressing rollers  81  and the guide roller  43  cooperate with each other to press the paper up and down (upstream and downstream). 
     As a result, the paper P is strongly pressed to the discharge-driving roller  44   a  by the reaction force (stiffness) for flattening. That is, the force pressing the paper P against the discharge-driving roller  44   a  is generated by three-point bending. 
     According to the configuration described above, it is possible to completely feed the lower end of the paper P to the holding surface  61  from the vicinity of the discharge roller  44 , by using the pressing rollers  81 . Meanwhile, since the paper pressing mechanism  47  has the structure that allows the paper P to be fed out in a protruding state, it is possible to hold the paper P to overlap each other without making the paper pressing mechanism  47  a movable type, such that it is possible to provide the recording apparatus  1  having a simple configuration without complicated control. In particular, the longitudinal disposition, like the recording apparatus  1 , is preferable to reduce the disposition area by reducing the Y-axial length as much as possible. 
     Although it is necessary to incline the virtual surface S in the feeding-out direction of the paper P by the discharge roller  44  such that the paper P is stably facing the paper cassette  5  in order to reduce the Y-axial length as much as possible, it is preferable to make the virtual surface S as parallel as possible with the Z-axial direction. However, as the virtual surface S comes closer in the Z-axial direction when the disposition area of the recording apparatus  1  is reduced, it is difficult to feed the lower end of the paper P and the lower end of the paper P is easily stopped at the discharge roller  44 . This is because when the virtual surface S comes closer in the Z-axial direction, that is, the paper P is substantially vertically fed out, the nip point of the discharge roller  44  significantly lowers from the top of the discharge-driving roller  44   a , such that the discharge-driving roller  44   a  slides (due to insufficient friction) on the lower end of the paper P offset from the nip point, and accordingly, the paper P fails to pass the top of the discharge-driving roller  44   a  and stops at the position. Therefore, according to the invention, it is possible to reliably implement a simple configuration for feeding the paper P to the holding surface  61 . 
     Further, since the discharge-driving roller  44   a  assists feeding of the lower end of the paper P in rotation contact with the lower end of the paper P right after being fed out, it is possible to more reliably feed the paper P to the holding surface  61 . 
     Further, as the paper P is pressed against the discharge-driving roller  44   a  by the pressing roller  81  disposed above (downstream) the discharger roller  44 , the friction force between the paper P and the discharge-driving roller  44   a  is increased, such that it is possible to improve the transport force of the discharge-driving roller  44   a  by suppressing slip. Since the transport force of the discharge-driving roller  44   a  is not increased directly by the discharge-driven roller  44   b , it is possible to achieve transport force for stably feeding out the paper P, with the pinching force of the discharge-driving roller  44   a  and the discharge-driven roller  44   b  maintained. 
     Further, since the guide roller  43  is disposed at the side of the discharge-driving roller  44   b , under (upstream) the discharge roller  44  and presses both upper and lower sides (upstream and downstream sides) in cooperation with the pressing roller  81 , it is possible to further improve the transport force of the discharge-driving roller  44   a.    
     Further, since the paper P is kept pressed against the discharge-driving roller  44   a  by the pressing roller  81 , the lower end of the paper P that is fed out is feed to the holding surface  61  from the vicinity of the discharge roller  44 . That is, the lower end of the paper P is not stopped around the discharge roller  44 , such that it is possible to prevent jam. 
     Further, since the member (pressing roller  81 ) that presses the paper P is implemented by a freely rotatable roller in the paper pressing mechanism  47 , it is possible to reduce frictional resistance against feeding of the paper pressing mechanism  47 . Therefore, it is possible to stably feed out the paper P to overlap the previous paper P. 
     Further, as the pressing roller  81  is implemented by a star wheel, the contact area to the paper P can be decreased, such that it is possible to reduce the frictional resistance against the feeding-out while suppressing ink from sticking on the pressing roller  81 . 
     Further, as the pressing rollers  81  are disposed in a pair at the left and right sides, it is possible to press the paper P at two positions in the width direction, such that it is possible to press the paper P throughout the width region. Therefore, it is possible to more reliably feed the lower end of the paper P to the holding surface  61 . 
     Further, as the support  62   a  and the paper inlet  62   b  are disposed in the discharged-paper holding unit  52 , it is possible to appropriately hold the paper P at the holding position by the support portion  62   a  and smoothly guide the lower end of the paper P to the holding position by using the paper inlet  62   b . Further, it is possible to effectively prevent contact between the held paper P and the discharge roller  44 . 
     Further, as the discharged-paper holding unit  52  is formed on the outer surface of the cassette body  51 , it is possible to separate the discharged-paper holding unit  52  as an integral unit with the cassette body  51 , such that it is possible to easily separate the discharged-paper holding unit  52  even if paper P with small dimensions (postcard) is held. 
     Further, in the embodiment, although the member (pressing roller  81 ) that presses the paper P is implemented by a freely rotatably roller, the member is not limited thereto as long as the member can press the paper P against the holding surface  61  while allowing the discharge roller  44  to feed out the paper. For example, the member may be a cylindrical fixing member, a semi-cylindrical fixing member, and triangle pole-shaped fixing member having the holding surface  61  as the front. That is, it may be considered to use a fixing member with an inclined surface making the holding surface  61  inclining upward with respect to the virtual surface S or a curved surface as a contact surface. 
     Further, although two pressing rollers  81  are disposed in parallel in the width direction (the direction perpendicular to the feeding-out direction) of the paper P in the embodiment, one pressing roller  81  may be disposed or three or more pressing rollers may be disposed in parallel in the width direction. 
     Further in the embodiment, each of the pressing rollers  81  may be directly biased or rotatably biased in the protrusion direction to each of the roller frames  82 . 
     The entire disclosure of Japanese Patent Application No. 2011-26867, filed Feb. 10, 2011 and the entire disclosure of Japanese Patent Application No. 2011-26868, filed Feb. 10, 2011 are expressly incorporated by reference herein.