The present application claims priority from Japanese Patent Application No. 2013-029102, which was filed on Feb. 18, 2013, the disclosure of which is herein incorporated by reference in its entirety.
1. Field of the Invention
The present invention relates to an ink-jet recording apparatus including a resin base member formed as one member.
2. Description of the Related Art
An ink-jet recording apparatus has been known. This ink-jet recording apparatus controls a conveyor unit to convey a recording sheet through a conveyance path in a conveying direction and controls a recording unit to eject ink droplets to record an image on the recording sheet in a state in which the recording unit is opposed to the recording sheet in a direction perpendicular to the conveying direction.
In order to reduce a size, cost, the number of components, and the like, there has been known a structure of such an ink-jet recording apparatus which does not include a sheet metal component for positioning the conveyor unit and the recording unit but include a resin base member farmed as one member to directly support the conveyor unit and the recording unit.
Upon application of an external force, however, the resin base member is deformed more greatly than the sheet metal component. For example, if the ink-jet recording apparatus constructed as described above is placed over a step or raised, and thereby a bending moment is applied to the base member, a roller shaft of the conveyor unit may be bent or inclined, or a gap (i.e., a distance) between the recording unit and the recording sheet may be changed to an undesired one.
This invention has been developed to provide an ink-jet recording apparatus including a base member whose portion supporting a conveyor unit and a recording unit is less deformed by an external force acting on the apparatus.
The present invention provides an ink-jet recording apparatus comprising: a base member formed of one resin member, a conveyor unit supported by the base member and configured to convey a sheet in a conveying direction that is parallel to a first direction; a recording unit supported by the base member and configured to eject ink to record an image on the sheet in a state in which the recording unit is opposed to the sheet in a second direction perpendicular to the first direction wherein the base member is divided into (i) a first base portion that supports the conveyor unit and the recording unit, (ii) a second base portion contiguous to the first base portion and located downstream of the first base portion in the conveying direction, and (iii) a third base portion contiguous to the second base portion and located downstream of the second base portion in the conveying direction, and wherein a stiffness of the second base portion is less than that of each of the first base portion and the third base portion.
The objects, features, advantages, and technical and industrial significance of the present invention will be better understood by reading the following detailed description of the embodiment of the invention, when considered in connection with the accompanying drawings, in which:
Hereinafter, there will be described one embodiment of the present invention by reference to the drawings. It is to be understood that the following embodiment is described only by way of example, and the invention may be otherwise embodied with various modifications without departing from the scope and spirit of the invention. A multi-function peripheral (MFP) 10 is used in a state illustrated in
<Overall Structure of MFP 10>
As illustrated in
As illustrated in
<Supply Tray 20>
As illustrated in
The bottom plate 81 can support recording sheets 12 of a plurality of standard sizes such as the A4 size, the B5 size, the legal size, and the postcard size. The bottom plate 81 has marks each indicating a position of one of edge portions (a left edge portion in the example in
A user places the recording sheet(s) 12 on the bottom plate 81 such that the cater of each recording sheet 12 is aligned to a center line of the bottom plate 81 in the right and left direction 9. The user then slides the guide member 90 in the left direction of the right and left direction 9 to a position indicated by the mark that corresponds to the size of the recording sheet(s) 12, so that the guide member 90 is brought into contact with a right edge of the recording sheet(s) 12. The guide member 91 is slid in the right direction by a pinion gear, not shown, in conjunction with the guide member 90 and brought into contact with a left edge of the recording sheet(s) 12. The recording sheet or sheets 12 of the various standard sizes placed on the bottom plate 81 are thus positioned by the guide members 90, 91 using the center alignment.
The printing section 11 includes a base member 100 (see
The supply unit 16 picks up one of the recording sheets 12 from the supply tray 20 to supply the recording sheet 12 to the conveyance path 35. The conveyor roller pair 51 conveys the recording sheet 12 supplied by the supply unit 16 into the conveyance path 35, to a downstream side in a conveying direction 15. The recording unit 24 ejects ink droplets onto the recording sheet 12 conveyed by the conveyor roller pair 51, to record an image on the recording sheet 12. The output roller pair 61 discharges onto the output tray 21 the recording sheet 12 recorded by the recording unit 24. The platen 42 supports a lower side of the recording sheet 12 conveyed by the conveyor roller pair 51.
<Conveyance Path 35>
As illustrated in
The curved conveyance path 33 is defined by an outer guide member 18 and an inner guide member 19 which are opposed to each other with a predetermined distance therebetween. The outer guide member 18 serves as an outer wall of the curved conveyance path 33, and the inner guide member 19 serves as an inner wall of the curved conveyance path 33. The straight conveyance path 34 is defined by the recording unit 24 and the platen 42 which are opposed to each other with a predetermined distance therebetween at a position where the recording unit 24 is disposed. That is, each of the guide members 18, 19 forms at least a portion of the conveyance path 35.
The outer guide member 18 is pivotably supported by the base member 100 which will be described below. Shafts 48 each extending in the right and left direction 9 are formed respectively on opposite ends of a lower end portion of the outer guide member 18 in the right and left direction 9. In the present embodiment, each of the shafts 48 is a projection extending outward from a corresponding one of the opposite ends of the outer guide member 18 in the right and left direction 9. The shaft 48 are fitted in holes, not shown, formed in the base member 100. As a result, the outer guide member 18 is pivotable between a covering position (indicated by solid lines in
At the covering position, the outer guide member 18 defines the curved conveyance path 33 of the conveyance path 35 with the inner guide member 19. At the exposing position of the outer guide member 18, on the other hand, an outside face of the inner guide member 19 is exposed to an outside of the printing section 11. That is, the outer guide member 18 at the exposing position exposes the curved conveyance path 33 of the conveyance path 35 to the outside. As a result, the user of the MFP 10 can clear a recording sheet 12 stuck in the curved conveyance path 33, in other words, the user can perform a jam clearing operation.
<Conveyor Unit 80>
A conveyor unit 80 includes: the supply unit 16 disposed upstream of the curved conveyance path 33 in the conveying direction 15; the conveyor roller pair 51 disposed in the straight conveyance path 34 at a position located upstream of the recording unit 24 in the conveying direction 15; and the output roller pair 61 disposed in the straight conveyance path 34 at a position located downstream of the recording unit 24 in the conveying direction 15.
<Supply Unit 16>
As illustrated in
<Conveyor Roller Pair 51>
As illustrated in
In the present embodiment, the conveyor roller 52 is disposed in a lower portion of the straight conveyance path 34 and contacts a lower side of the recording sheet 12 conveyed from the curved conveyance path 33 to the straight conveyance path 34. The conveyor roller 52 is rotated by a driving force applied from a conveyor motor that is capable of rotating forwardly and reversely. On the other hand, the pinch rollers 53 are disposed in an upper portion of the straight conveyance path 34 so as to be opposed to the conveyor roller 52 and contact an upper side of the recording sheet 12. The pinch rollers 53 are rotated by the rotation of the conveyor roller 52. The conveyor roller 52 and the pinch rollers 53 cooperate to nip the recording sheet 12 in the up and down direction 7 to convey the recording sheet 12 in the conveying direction 15.
The conveyor roller 52 is rotated forwardly by a driving force applied from the conveyor motor rotating forwardly. Here, the forward rotation of the conveyor roller 52 is rotation in a direction in which the recording sheet 12 is conveyed in the conveying direction 15. That is, the forward rotation of the conveyor roller 52 when the printing section 11 is viewed in a direction in
<Output Roller Pair 61>
As illustrated in
The output roller 62 is rotated forwardly by a driving force applied from the conveyor motor rotating forwardly. Here, the forward rotation of the output roller 62 is rotation in the direction in which the recording sheet 12 is conveyed in the conveying direction 15. That is, the forward rotation of the output roller 62 when the printing section 11 is viewed in the direction in
<Platen 42>
As illustrated in
<Recording Unit 24>
As illustrated in
<Base Member 100>
As illustrated in
The center base 101 has a tray accommodation space 107 for accommodating the supply tray 20 and the output tray 21. The center base 101 supports the supply unit 16, the recording unit 24, the conveyor roller pair 51, the output roller pair 61, the platen 42, a control board 47, and other components. The recording sheet 12 is conveyed by the conveyor unit 80 from the supply tray 20 to the output tray 21 through the conveyance path 35 formed in the center base 101.
The side base 102 has a cartridge accommodation space 108 for accommodating an ink cartridge, not shown, and a purging mechanism accommodation space 109 for accommodating a purging mechanism 43 (see
The base member 100 is divided into the following three regions in the front and rear direction 8: a first region 104 (as one example of a first base portion) located at a rear portion of the base member 100: a second region 105 (as one example of a second base portion) located at a central portion of the base member 100; and a third region 106 (as one example of a third base portion) located at a front portion of the base member 100. The first region 104 is located on the most upstream side 34 in the conveying direction 15 in the straight conveyance path. The second region 105 is located at a position located downstream of the first region 104 in the conveying direction 15 in the straight conveyance path 34 and upstream of the third region 106 in the conveying direction 15. The third region 106 is located on the most downstream side in the conveying direction 15 in the straight conveyance path 34.
As illustrated in
The side wall 111 projects or extends upward from an inner side of the side base 102, specifically, on the right edge of the center base 101 in the right and left direction 9. The side wall 112 projects or extends upward from an inner side of the side base 103, specifically, on the left edge of the center base 101 in the right and left direction 9. Also, as illustrated in
As illustrated in
As illustrated in
A plurality of ribs 117, 118 are provided on an upper surface and a lower surface of the main board 113 disposed in the first region 104. The ribs 117 are provided on the upper surface and the lower surface of the main board 113 at positions spaced apart from each other in the right and left direction 9. Each of the ribs 117 extends in the up and down direction 7 and the front and rear direction 8. The ribs 118 are provided on the upper surface and the lower surface of the main board 113 at positions spaced apart from each other in the front and rear direction 8. Each of the ribs 118 extends in the up and down direction 7 and the right and left direction 9. Each of the ribs 117 provided on the lower surface of the main board 113 has through holes 117A, 117B. These through holes 117A, 117E and the through hole 111A formed in the side wall 111 lie on the same straight line extending in the right and left direction 9.
As illustrated in
As illustrated in
As illustrated in
As illustrated in
The support shaft 28 of the supply unit 16 is inserted in the through holes 111A, 117A, 117B. That is, the support shaft 28 is rotatably supported by the side wall 111 and the lower surface of the main board 113. The supply unit 16 is disposed in the tray accommodation space 107 and supplies the recording sheet 12 supported on the supply tray 20 to the conveyance path 35.
As illustrated in
The base portion 121 is mounted on the upper surface of the main board 113, with its longitudinal direction coinciding with the front and rear direction 8. The base portion 121 has through holes 123A, 123B which are spaced apart from each other in the front and rear direction 8. The side frame 120 is mounted on the main board 113, so that the projections 115A, 115B are respectively inserted into the through holes 123A, 123B. That is, the projections 115A, 115B and the through holes 123A, 123B are provided at positions corresponding to each other to position the side frame 120 with respect to the main board 113 in the front and rear direction 8 and the right and left direction 9. Screws are respectively engaged with the threaded holes of the projections 115A, 115B, with the side frame 120 being mounted on the main board 113, whereby the side frame 120 is secured to the main board 113.
The support wall 122 stands on one of opposite edge portions of the base portion 121 in its widthwise direction. That is, the support wall 122 in the state in which the side frame 120 is mounted on the main board 113 expands upward and in the front and rear direction 8. The support wall 122 is provided with (i) projecting pieces 124, 125 each extending upward from an upper edge of the support wall 122 and (ii) a first receiver 126 and a second receiver 127 formed through the support wall 122 in its thickness direction. The projecting pieces 124, 125 and the first and second receivers 126, 127 are spaced apart from each other in a longitudinal direction of the side frame 120. The support wall 122 in the state in which the side frame 120 is mounted on the main board 113 is provided with the projecting piece 124, the first receiver 126, the second receiver 127, and the projecting piece 125 arranged in this order from the rear side to the front side in the front and rear direction 8.
The side frame 130 has a construction similar to that of the side frame 120. That is, the base portion 131 has through holes 133A, 133B. Also, the support wall 132 is provided with projecting pieces 134, 135, a first receiver 136, and a second receiver 137. In a state in which the side frames 120, 130 are mounted on the main board 113, the support walls 122, 132 face each other in the right and left direction 9. More specifically, the projecting pieces 124, 134 are opposed to each other in the front and rear direction 8, the projecting pieces 125, 135 to each other in the front and rear direction 8, the first receivers 126, 136 to each other in the front and rear direction 8, and the second receivers 127, 137 to each other in the front and rear direction 8.
As illustrated in
Though not illustrated, the guide rail 46 is, like the guide rail 45, supported by the upper sides of the side frames 120, 130 and positioned by the projecting pieces 125, 135 in the front and rear direction 8 and the right and left direction 9. That is, the guide rails 45, 46 are supported by the side frames 120, 130 at positions spaced apart from each other in the front and rear direction 8 and extend in the right and left direction 9.
As illustrated in
The purging mechanism 43 is provided on a portion of the side base 102 which is located in the first region 104. Specifically, the purging mechanism 43 is provided at a position opposed to the carriage 40 having moved to a position on the side base 102. The purging operation is performed for the carriage 40 having moved along the guide rails 45, 46 to a position opposed to the purging mechanism 43. Likewise, the flushing tank 44 is provided on a portion of the side base 102 which is located in the first region 104. Specifically, the flushing tank 44 is provided at a position opposed to the carriage 40 having moved to a position on the side base 103. The flushing operation is performed for the carriage 40 having moved along the guide rails 45, 46 to a position opposed to the flushing tank 44.
As illustrated in
The conveyor roller pair 51 includes the pinch rollers 53 (four rollers in the present embodiment) which are spaced apart from each other in the axial direction of the conveyor roller 52. The pinch rollers 53 are respectively supported rotatably by a plurality of roller holders 56 (four roller holders in the present embodiment). Each of the roller holders 56 includes an engaging portion 56A. The engaging portion 56A is engaged with an upper surface of the guide rail 45 in a state in which the engaging portion 56A passes through a through hole 45C that is formed through the guide rail 45 in its thickness direction. That is, the roller holders 56 are supported by the guide rail 45.
The roller holders 56 are connected to a release shaft 57. The release shaft 57 extends parallel to a shaft of the conveyor roller 52 and is movable in a radial direction together with the roller holders 56. Urging members, not shown are arranged between the guide rail 45 and the respective roller holders 56 to urge the respective roller holders 56 (in other words, the respective pinch rollers 53) onto the conveyor roller 52.
The output roller 62 is constituted by the shaft 64 and the rollers 65 fitted on the shaft 64 at positions spaced apart from each other in the axial direction. The shaft 64 is rotatably supported by the side frames 120, 130 via bearings, not shown, that are fitted on the shaft 64 at positions spaced apart from each other in its axial direction. More specifically, the bearings fitted on the shaft 64 are supported by the second receivers 127, 137 of the side frames 120, 130. The spurs 63 are provided at positions respectively corresponding to the rollers 65 of the output roller 62. The spurs 63 are rotatably supported by the respective shafts 66. Each of the spurs 63 is supported by a support plate, not shown. This support plate is supported by the guide rail 46.
As described above, the guide rails 45, 46, the supply unit 16, the conveyor roller pair 51, and the output roller pair 61 are supported by the side frames 120, 130. The carriage 40 (in other words, the recording unit 24) is supported by the side frames 120, 130 via the guide rails 45, 46. That is, the guide rails 45, 46, the supply unit 16, the conveyor roller pair 51, the recording unit 24, and the output roller pair 61 are supported by the base member 100 in the first region 104.
As illustrated in
It is noted that the flexural rigidity of the base member 100 in the second region 105 can be reduced by, for example, providing no main board for connecting between the pair of side walls 111, 112 or lowering the height of the side walls 111, 112 in the second region 105. On the other hand, the flexural rigidity of the base member 100 in the first region 104 and the third region 106 can be made higher by, for example, providing the main boards 113, 114 for connecting between the pair of side walls 111, 112, making higher the height of the side walls 111, 112 in the first region 104 and the third region 106, or providing the ribs 117 on the surface(s) of the main board 113.
The flexural rigidities of the base member 100 in the first region 104, the second region 105, and the third region 106 are set as described above. Thus, in a case where an external force (i.e., the bending moment) illustrated in
That is, the external force applied to the base member 100 is absorbed by the second region 105, resulting in reduction in the external force transmitted to the first region 104 and the third region 106. This prevents positional displacement of components supported by the main board 113 disposed in the first region 104, such as the recording unit 24, the supply unit 16, the conveyor roller pair 51, and the output roller pair 61. Thus, it is possible to reduce an amount of lowering in quality of image recording performed by the printing section 11. Furthermore, it is possible to prevent deformation of the control board 47 supported by the main board 114 disposed in the third region 106.
Also, the components such as the recording unit 24, the guide rails 45, 46, the conveyor roller pair 51, and the output roller pair 61 are supported by the side frames 120, 130 mounted on the main board 113 that is less deformed, allowing these components to be positioned accurately. Thus, it is possible to further reduce the amount of lowering in quality of image recording performed by the printing section 11.
It is noted that a concrete means for making the flexural rigidity of the base member 100 in the second region 105 smaller than that of the base member 100 in the first region 104 and the third region 106 is not limited to the means described above. For example, the thickness of a resin plate constituting the second region 105 (e.g., the side walls 111, 112) may be thinner than that of the plate constituting each of the first region 104 and the third region 106. Alternatively, an amount of resin per unit volume of the base member 100 in the second region 105 (i.e., the density of resin) may be made smaller than that of the base member 100 in the first region 104 and the third region 106.
While the base member 100 is a hollow member having the tray accommodation space 107 inside it in the present embodiment, the present invention is not limited to this structure. For example, the base member 100 may have a structure not having a large space like the tray accommodation space 107, that is, the base member 100 may have a high density of resin. In this structure, to make the flexural rigidity of the base member 100 in the second region smaller than that of the base member 100 in the first region and the third region, the height of the base member 100 in the second region only needs to be made smaller in the up and down direction 7 than the height of the base member 100 in the first region and the third region, for example. However, the present invention exhibits prominent effects by being applied to the base member 100 having a large space like the tray accommodation space 107 inside it, i.e., the base member 100 having a low density of resin, as illustrated in
In the present embodiment, a relationship of the flexural rigidity with respect to the bending moment illustrated in
In the present embodiment, the supply tray 20 and the supply unit 16 are disposed on a side of the main board 113 nearer to the lower surface, and the conveyor roller pair 51, the recording unit 24, the output roller pair 61, and so on are disposed on a side of the main board 113 nearer to the upper surface, and the curved conveyance path 33 is formed between the components disposed on the lower-surface side and the components disposed on the upper-surface side. Thus, the MFP 10 can be made smaller in sire. However the present invention is not limited to this construction and may be applied to an ink-jet recording apparatus having only the straight conveyance path 34.
In the example explained above, the front and rear direction 8 is the first direction, the up and down direction 7 is the second direction, and the right and left direction 9 is the third direction in the present embodiment, but the present invention is not limited to this relationship. For example, the right and left direction 9 and the front and rear direction 8 may be the first direction and the third direction, respectively, and other combinations may be possible.
Number | Date | Country | Kind |
---|---|---|---|
2013-029102 | Feb 2013 | JP | national |