The present invention relates to a medium feed apparatus that feeds a medium, and a recording apparatus equipped with the same.
Recording apparatuses, which are typically fax machines, printers, or the like, include a feed apparatus (auto sheet feeder) capable of setting plural sheets of recording paper, serving as a medium, to an inclined orientation. The feed apparatus includes a feeder roller, a hopper, and a separating unit. The hopper is capable of changing between a state in which the recording paper is pressed against the feeder roller and a state in which the recording paper is separated from the feeder roller, while supporting the recording paper. The separating unit separates a topmost sheet of recording paper from the next sheet of the recording paper onwards to feed the topmost sheet of recording paper by contacting the recording paper with the feeder roller.
Sometimes a guide (also referred to as a paper support) extending obliquely above a support face with which the hopper supports the recording paper is provided to the feed apparatus. Such a guide is provided so as to be capable of being attached to and detached from the feed apparatus, or configured to be pulled from the feed apparatus when used, and is provided so as to be removed from or stored inside the feed apparatus when not in use.
Hereafter, in the hopper, one face supporting the recording paper will be referred to as a first support face, and a face that supports the recording paper higher up will be referred to as a second support face.
The first support face and the second support face both have a predetermined angle of inclination; however, in related feed apparatuses, there are cases in which the first support face and the second support face are formed with the same angle of inclination, as in JP-A-2006-143373 (case 1), cases in which the angle of inclination of the second support face is formed so as to be more upright than the first support face, as in JP-A-2002-037460 (case 2), and cases in which the angle of inclination of the second support face lies flatter than the first support face, as in JP-A-2015-189573 (case 3).
The first support face and the second support face define the angle at which the recording paper enters between the feeder roller and the separating unit, and so the angle of inclination is of utmost importance from the perspective of preventing non-feeding and double feeding.
Recording paper here includes postcards and the like having high rigidity, and normal paper and the like having low rigidity. Recording paper having low rigidity follows the angle of the first support face and the second support face, and readily adopts the intended inclined orientation. However, recording paper having high rigidity does not readily follow the angle of the first support face and the second support face, and thus does not readily adopt the intended inclined orientation.
For example, when recording paper having high rigidity is set in a configuration in which the first support face and the second support face are set with the same angle of inclination as in case 1, if the recording paper is deformed so as to be bent toward an upper side, only a trailing edge of the recording paper contacts the second support face and the inclined orientation of the recording paper becomes a steep angle. As a result, there is concern that the angle at which paper enters into a nipped position between the feeder roller and the separating unit might become a steeper angle than the preferred angle such that appropriate feeding cannot be performed, making non-feeding particularly liable to occur.
Moreover, in configurations in which the second support face forms a more upright angle of inclination than the first support face, as in case 2, there is concern that, not only in cases in which deformed recording paper is set, but also in cases in which un-deformed recording paper is set, the paper might contact the second support face at the trailing edge only, such that the inclined orientation of the recording paper becomes a steep angle similar to in case 1, and appropriate feeding cannot be performed.
When the second support face is configured so as to form an angle of inclination that lies flatter than the first support face, as in case 3, a paper support forming the second support face adopts a state protruding to the apparatus rear side, necessitating a larger installation space at the rear of the apparatus.
An advantage of some aspects of the invention is that a medium feed apparatus and a recording apparatus equipped with the same form an appropriate paper orientation regardless of recording paper rigidity and also takes suppression of the apparatus installation space into consideration.
A medium feed apparatus according to a first aspect of the invention includes a feed unit, a first support section, and a second support section. The feed unit feeds a medium. The first support section forms a first support face supporting a medium fed by the feed unit such that the medium adopts an inclined orientation. The second support section is positioned upstream of the first support face in a feed direction, and forms a second support face supporting the medium together with the first support face. The second support face is at a position set back from the first support face, and an angle of inclination of the second support face from a lower end portion to an upper end portion of the second support face is larger than an angle of inclination of the first support face.
In this case, the second support face is positioned upstream of the first support face in the feed direction, in a state in which a step is formed between the first support face and the second support face. Thus, when medium having high rigidity is set, a trailing edge portion of the medium is not liable to contact the second support face, enabling the inclined orientation of the medium to be an orientation that follows the first support face, and thereby enabling appropriate feeding to be realized.
Note that medium having low rigidity readily follows both the first support face and the second support face, and the entry angle of the medium downstream from the first support face is appropriately defined by the first support face, enabling good feeding results to be obtained.
Moreover, the angle of inclination of the second support face is steeper than that of the first support face, enabling the installation space needed at the apparatus rear side to be suppressed.
This aspect thereby enables an appropriate medium orientation to be formed regardless of the rigidity of the medium, and enables the installation space of the apparatus to be suppressed.
Configuration may be made in which the second support face is at a position contacted by a trailing edge of a first medium when the first medium is placed on the first support face and at a position not contacted by the trailing edge of a second medium when the second medium is placed. Configuration may moreover be made in which a length of the first medium in the feed direction is greater than or equal to a feed direction length of A4 size as defined in ISO 216, and a length of the second medium in the feed direction is less than or equal to a feed direction length of A6 size as defined in ISO 216.
In such a configuration, when the second medium is fed, the trailing edge of the second medium does not contact the second support face. This enables the inclined orientation of the medium to be an orientation that follows the first support face, thereby enabling appropriate feeding to be realized. Note that even in cases in which the second medium deforms and the trailing edge of the second medium contacts the second support face, a resulting change in the inclined orientation of the medium can be suppressed, thereby enabling appropriate feeding to be realized.
Configuration may be made in which a connecting face is formed connecting the first support face and the second support face together.
In such a configuration, the connecting face is formed connecting the first support face and the second support face together. Thus, when setting a low rigidity medium that is liable to warp, at least a portion of the connecting face can be utilized in addition to the first support face and the second support face to support the medium, namely, the medium can be supported even better.
Configuration may be made in which the connecting face is a face running along a horizontal direction.
In such a configuration, the connecting face is a face running along the horizontal direction, enabling the medium to be supported even better.
Configuration may be made in which an edge guide that guides an edge of a medium forms a shape straddling between the first support face and the connecting face.
In such a configuration, the edge guide that guides an edge of a medium forms a shape straddling between the first support face and the connecting face. The edge guide is thereby easier to grip, further improving ease of operation of the edge guide.
Configuration may be made further including a cover that opens/closes at least above the connecting face, wherein in a state in which the cover is closed, the edge guide restricts the cover from flexing downward above the connecting face.
This configuration further includes the cover that opens/closes at least above the connecting face. In a state in which the cover is closed, the edge guide restricts the cover above the connecting face from flexing downward above the connecting face. This enables deformation of the cover when an external force is applied from above the cover to be suppressed, thereby enabling damage to the cover to be suppressed and enabling an appropriate external appearance of the medium feed apparatus to be maintained.
Configuration may be made in which the second support section is provided to be capable of switching between a stowed state stowed at an apparatus back face side, and a pulled-out state pulled out from the stowed state to support a medium.
In such a configuration, the second support section is provided so as to be capable of switching between the stowed state stowed at the apparatus back face side, and the pulled-out state pulled out from the stowed state to support a medium. This enables the apparatus to be made smaller when in the stowed state.
A recording apparatus of another aspect of the invention includes a recording unit that performs recording on a medium, and the medium feed apparatus of the first aspect configured to feed a medium toward the recording unit.
In such a configuration, the recording apparatus obtains the operation and advantageous effects of the first aspect described above.
Configuration may be made further including an inverting path that is disposed at a lower side of the medium feed apparatus and that inverts a medium. Moreover, configuration may be made in which a connecting region between the first support face and the second support face, and at least a portion of a region occupied by the inverting path, overlap with each other in an apparatus depth direction.
In such a configuration, the inverting path is provided disposed at the lower side of the medium feed apparatus and inverts a medium. The connecting region between the first support face and the second support face, and at least a portion of the region occupied by the inverting path, overlap with each other in the apparatus depth direction. This enables an apparatus depth direction dimension to be suppressed in a configuration that includes the inverting path.
The invention will be described with reference to the accompanying drawings, wherein like numbers reference like elements.
Explanation follows regarding embodiments of the invention, with reference to the drawings. Note that configurations that are the same for each embodiment are appended with the same reference numerals and are only described in the first embodiment, with description of such configurations being omitted in later embodiments.
In the X-Y-Z coordinate system illustrated in each of the drawings, the X direction is a recording medium width direction, namely, an apparatus width direction. The Y direction is a direction in which the recording medium is transported along a transport path in a recording apparatus, namely, an apparatus depth direction. The Z direction is an apparatus height direction.
Explanation follows regarding overall configuration of a printer 10 illustrated in
On the −Z direction side of the discharge tray 18, the apparatus body 12 is provided with a medium storage cassette 20 that stores a medium. In the present embodiment, the medium storage cassette 20 is configured so as to be capable of being attached to or removed from the apparatus body 12, from the front-face side of the apparatus body 12. Note that in the present embodiment, for example, a first medium P1, described later, such as A4 size medium, is stored in the medium storage cassette 20.
The sizes of the media described herein correspond to sizes defined in ISO 216.
Explanation follows regarding a medium transport path 22 illustrated in
The pick-up roller 24 is provided on the +Z direction side of the medium storage cassette 20 and is configured so as to be capable of pivoting about a pivot shaft 34. The pick-up roller 24 contacts a medium stored in the medium storage cassette 20, thereby transporting the topmost sheet of medium, out of the medium stored in the medium storage cassette 20, downstream in the transport direction along the medium transport path 22.
In the vicinity of the inverting roller 26, following rollers 27a, 27b, 27c, and 27d (
The medium that has been recorded on is nipped by the pair of discharge rollers 32 provided downstream of the recording head 30 in the transport direction, and discharged toward the discharge tray 18 projecting at the apparatus front-face side. Note that the double-dotted dashed line labeled P-2 in
Next, the medium feed apparatus 14 will be described. As illustrated in
As illustrated in
The hopper portion 52 includes a support face 52a that supports a medium. The hopper portion 52 is configured so as to be capable of switching between an orientation in which the support face 52a is further from the feeder roller 46 (
As illustrated in
As illustrated in
As illustrated in
As a result, the cover 38 can be suppressed from deforming beyond a permissible limit, and damage to the cover 38 can be suppressed. Moreover, since the cover 38 can be suppressed from deforming beyond a permissible limit, this enables a reduction in the cover 38 substantial visible deformation in external appearance, and enables the external appearance of the printer 10 to be appropriately maintained.
As illustrated in
More specifically, the second support section 44 includes a first tray 44a, a second tray 44b, and a third tray 44c. The first tray 44a and the second tray 44b are configured so as to be capable of sliding with respect to each other. Similarly, the second tray 44b and the third tray 44c are configured so as to be capable of sliding with respect to each other. The second support section 44 is configured so as to be capable of telescoping in length along the medium transport direction by sliding the trays with respect to each other. Note that
In the pulled-out state, the second support section 44 forms a second support face 44d inclined at the angle of inclination β. The second support face 44d is positioned upstream of the first support face 42a in the medium transport direction (feed direction), and supports the medium together with the first support face 42a. Note that strictly speaking, the support face that is formed by the trays is staggered by the thickness of each tray in a direction intersecting the slide direction of the respective trays; however, the explanation of the present embodiment treats the faces formed by the trays as being in the same plane as each other.
As illustrated in
Moreover, the second support face 44d is provided at a position set back from the first support face 42a in the Y axis direction. The connecting face 50b extending in the Y axis direction between the first support face 42a and the second support face 44d and connecting the first support face 42a and the second support face 44d together is provided in the Y axis direction and forms a connecting region W (
The bold line labeled P1 in
Next, a state will be described in which the second medium P2 is set in the medium feed apparatus 14, as is illustrated in
When the second medium P2 is set on the first support face 42a of the medium feed apparatus 14, the second medium P2 is supported by the support face 50a of the medium placement portion 50. As illustrated in
In the present embodiment, the medium feed apparatus 14 is provided with the connecting region W in the Y direction between the first support face 42a and the second support face 44d such that the trailing edge P2E of the second medium P2 does not contact the second support face 44d. For example, the Y direction length of the connecting face 50b forming the connecting region W is set to a length at which the trailing edge P2E of the second medium P2 set on the first support face 42a does not contact the second support face 44d.
Were the trailing edge P2E of the second medium P2 to contact the second support face 44d, due to the high rigidity of the second medium P2, the trailing edge P2E might be lifted up such that the second medium P2 does not follow either the first support face 42a or the second support face 44d, and the orientation of the second medium P2 would therefore be an inclined orientation with a steeper angle than the angle of inclination α.
The medium entry angle of the second medium P2 to the nipped position between the feeder roller 46 and the separation roller 48 would thus be a steeper angle than the preferred angle α, such that appropriate feeding may not be achievable, and non-feeding in particular is liable to occur.
In contrast thereto, in the present embodiment, the Y direction length of the connecting face 50b (connecting region W) is set such that the trailing edge P2E of the second medium P2 supported by the first support face 42a does not contact the second support face 44d, enabling appropriate feeding since even the high-rigidity second medium P2 is supported by the first support face 42a at the angle of inclination α and fed to the nipped position between the feeder roller 46 and the separation roller 48 at the preferred angle of entry.
Moreover, for example in a state in which the trailing edge P2E of the second medium P2 is arched back in the −Z direction toward the second support face 44d side (deformed state, the double-dotted dashed line portion labeled P2E1 in
Regarding the Significance of Providing the Connecting Region W and of Setting the Angle of Inclination α of the First Support Face and the Angle of Inclination β of the Second Support Face to Different Angles from Each Other
Issues that arise in a configuration in which the connecting region W (connecting face 50b) is not provided and in which the angle of inclination of the first support face 42a and the angle of inclination of the second support face 44d are set to the same angle as each other will be described here with reference to
Although there is no change in the medium transport direction length of the second support face 44d from the lower end portion 44e to the upper end portion 44f of the second support section 44, changing the angle of inclination of the second support section 44 from the angle of inclination β to the angle of inclination α results in the orientation of the second support section 44 in the direction lying flatter toward the Y axis direction. As a result, the second support section 44 projects toward the −Y direction (the apparatus back-face side) from a Y direction side end portion 56a by a distance L2. The projection distance L2 is larger than the projection distance L1 toward the −Y direction (apparatus back face side) from the Y direction side end portion 56a of the second support section 44 when in an orientation inclined at the angle of inclination β.
When the angle of inclination of the second support section 44 in the pulled-out state is gentle, the projection amount of the second support section 44 toward the apparatus back face becomes accordingly larger, and the size of the printer 10 in the apparatus depth direction becomes larger. As a result, the installation space needed for the printer 10, in particular the installation space needed for the back-face side of the printer 10, becomes larger.
In contrast thereto, in the present embodiment, the angle of inclination of the second support section 44 in the pulled-out state is set to the angle β, which is steeper than the angle a, enabling the projection amount in the apparatus depth direction to be decreased. As a result, the size of the printer 10 in the apparatus depth direction can be made smaller, and the installation space needed for the printer 10, in particular the installation space needed for the apparatus back face side, can be suppressed.
The connecting portion 58 in
In the present embodiment, the connecting region W is provided between the first support face 42a and the second support face 44d, and there is no support face to make the first support face 42a and the second support face 44d continuous with each other. Thus, there is no need to provide the connecting portion 58, enabling the size of the printer 10 in the Z axis direction to be made smaller by the height h1.
Explanation follows regarding the inverting unit 56 illustrated in
The cover 38 is attached above the second support section storing portion 56b so as to be capable of pivoting. The inverting roller 26 is provided at the +Y direction side of the second support section storing portion 56b. Path forming members 60a, 60b are respectively provided in the +Z direction and −Y direction of the inverting roller 26. The path forming members 60a, 60b configure part of the medium transport path 22 in a state in which the inverting unit 56 is attached to the apparatus body 12, as illustrated in
Returning to
Specifically, after the recording head 30 has recorded on the first face of a medium, the pair of transport rollers 28 are rotated in reverse such that the medium that has been recorded on the first face is returned back upstream in the transport direction along the inverting path forming member 64. Then, the medium which has been returned upstream is nipped between the inverting roller 26 and the following rollers 27d, 27a, 27b, and 27c in sequence so as to be bent around and inverted. The first face and the second face of the medium are thus inverted. Then, the medium is again fed to the position of the pair of transport rollers 28, and the recording head 30 records on the second face.
As illustrated in
Returning to
In the present embodiment, the medium feed apparatus 14 is applied to the printer 10 serving as an example of a recording apparatus. However, instead of this configuration, the medium feed apparatus 14 may be applied to an image reading apparatus such as a scanner.
The medium feed apparatus 14 includes the feeder roller 46 that feeds the medium, the first support section 42 that forms the first support face 42a supporting the medium fed by the feeder roller 46 such that the medium adopts an inclined orientation, and the second support section 44 that is positioned upstream of the first support face 42a in the feed direction and that forms the second support face 44d supporting the medium together with the first support face 42a. The second support face 44d is at a position set back from the first support face 42a, and the angle of inclination β of the second support face 44d from the lower end portion 44e to the upper end portion 44f is steeper than the angle of inclination α of the first support face 42a.
In the above configuration, the second support face 44d is at a position upstream of the first support face 42a in the feed direction, in a state in which a step is formed between the first support face 42a and the second support face 44d. Thus, when setting the high-rigidity second medium P2, the trailing edge P2E is not liable to contact the second support face 44d, enabling the inclined orientation of the medium to be an orientation following the first support face 42a, and thus enabling appropriate feeding to be achieved.
Note that the low-rigidity first medium P1 readily follows both the first support face 42a and the second support face 44d, and the entry angle of the first medium P1 downstream of the first support face 42a is appropriately defined by the first support face 42a, enabling good feeding results to be obtained.
Moreover, the angle of inclination of the second support face 44d is steeper than that of the first support face 42a, enabling the installation space needed for the apparatus rear side to be suppressed.
The configuration described above enables an appropriate medium orientation to be formed regardless of the rigidity of the medium, and enables the installation space of the printer 10 to be suppressed.
The second support face 44d is at a position that supports the first medium P1, and is at a position not contacted by the trailing edge P2E of the second medium P2 having higher rigidity and shorter length than the first medium P1.
In the above configuration, when feeding the second medium P2, the trailing edge P2E does not contact the second support face 44d, such that the trailing edge P2E does not follow the second support face 44d and the trailing edge P2E is not lifted up by the second support face 44d, which would cause the second medium P2 to adopt a steeper orientation than the angle of inclination α of the first support face 42a. The inclined orientation of the medium can accordingly be set to an orientation following the first support face 42a, such that the medium entry angle to the nipped position between the feeder roller 46 and the separation roller 48 becomes the preferred angle, enabling appropriate feeding to be realized. Note that even in cases in which the second medium P2 deforms such that the trailing edge P2E contacts the second support face 44d, a resulting change in the inclined orientation of the medium can be suppressed, enabling appropriate feeding to be realized.
The connecting face 50b is formed connecting the first support face 42a and the second support face 44d together. In this configuration, due to forming the connecting face 50b connecting the first support face 42a and the second support face 44d together, when setting a low-rigidity medium that is liable to warp, at least a portion of the connecting face 50b can be utilized in addition to the first support face 42a and the second support face 44d to support the medium, namely, the medium can supported even better.
The connecting face 50b is a face running along the Y axis direction, this being the horizontal direction. This configuration enables the connecting face 50b to support the medium even better.
The edge guides 54 which guide the edges of a medium form shapes straddling between the first support face 42a and the connecting face 50b. This configuration makes the edge guides 54 easier to grip, further improving ease of operation of the edge guides 54.
This configuration includes the cover 38 that opens/closes at least above the connecting face 50b. In a state in which the cover 38 is closed, the edge guides 54 restrict the cover 38 from flexing downward above the connecting face 50b. In this configuration, when an external force is applied from above the cover 38, the extension portions 54a contact the cover 38 above the connecting face 50b. This enables deformation of the cover 38 to be suppressed, enabling damage to the cover 38 to be suppressed and enabling an appropriate external appearance of the apparatus to be maintained.
The second support section 44 is provided so as to be capable of switching between the stowed state stowed at the apparatus back-face side (
The second medium P2 includes postcards. This configuration enables the inclined orientation of a postcard to be set to the appropriate angle when feeding postcards as the second medium P2, enabling appropriate feeding to be realized.
The printer 10 includes the recording head 30 configured to record on a medium, and the medium feed apparatus 14 configured to feed the medium toward the recording head 30.
The inverting path 62 that inverts a medium is provided at the lower side of the medium feed apparatus 14. The connecting region W between the first support face 42a and the second support face 44d and at least a portion of a region occupied by the inverting path 62 overlap with each other in the Y axis direction, this being the apparatus depth direction. This configuration enables an apparatus depth direction dimension to be suppressed in a configuration that includes the inverting path 62.
In the present embodiment, the first support face 42a, the second support face 44d, and the connecting face 50b according to the invention are applied to an ink jet printer, serving as an example of a recording apparatus; however, the first support face 42a, the second support face 44d, and the connecting face 50b according to the invention may be applied to other liquid ejecting apparatuses in general.
Liquid ejecting apparatuses here are not limited to recording apparatuses such as printers, copying machines, and fax machines which employ an ink jet recording head to discharge ink from the recording head to record on recording medium. Liquid ejecting apparatuses here also include apparatuses in which, instead of ink, liquid appropriate to the purpose is ejected onto an ejected-onto medium corresponding to the recorded medium from a liquid ejecting head corresponding to the ink jet recording head, and the liquid is adhered to the ejected medium.
Other than the recording head, examples of liquid ejecting heads include colorant ejecting heads employed in the manufacture of color filters for liquid crystal displays or the like, electrode material (conductive paste) ejecting heads employed to form electrodes of organic EL displays, field emission displays (FEDs), or the like, bioorganic matter ejecting heads employed in the manufacture of biochips, and sample ejecting heads employed as precision pipettes.
Note that the invention is not limited to the above embodiment, and obviously various modifications are possible within the scope of the invention as recited in the claims, and any such modifications are included in the scope of the invention.
The entire disclosure of Japanese Patent Application No. 2017-073820, filed Apr. 3, 2017 is expressly incorporated by reference herein.
Number | Date | Country | Kind |
---|---|---|---|
2017-073820 | Apr 2017 | JP | national |