The present application claims priority from Japanese Patent Application No. 2015-096936, which was filed on May 11, 2015, the disclosure of which is herein incorporated by reference in its entirety.
Technical Field
The following disclosure relates to a sheet conveying apparatus that conveys a sheet.
Description of the Related Art
Common image recording apparatuses have a conveyance path through which a sheet to be printed is conveyed. That is, the image recording apparatuses have a function as a sheet conveying apparatus. The image recording apparatuses include a main unit having such a sheet conveyance path.
There is known an image recording apparatus including a manually-placed-sheet supplier that guides a sheet to the conveyance path. The manually-placed-sheet supplier is provided on a rear surface of the main unit. The manually-placed-sheet supplier includes a tray main body for supporting a sheet on which image recording is to be performed.
When the manually-placed-sheet supplier is not to be used, the tray main body is positioned at a standing position at which the tray main body extends along the rear surface of the main unit. When the manually-placed-sheet supplier is to be used, the tray main body is positioned at an inclined position at which an upper portion of the tray main body is farther from the rear surface of the main unit than at the standing position.
The upper portion of the tray main body is provided with a tray cover that covers a space formed between the tray main body and the main unit when the manually-placed-sheet supplier is not to be used. The tray cover is pivotably supported by the upper portion of the tray main body. The tray cover is pivotable between a closed position at which the tray cover covers the space formed between the tray main body and the rear surface of the main unit and an open position at which the space is exposed to an upper side thereof.
When the sheet is supplied using the manually-placed-sheet supplier, the tray main body is positioned at the inclined position, and the tray cover is swung to the open position. As a result, the space formed between the upper portion of the tray main body and the main unit is exposed. In this state, the sheet is placed onto the tray main body located at the inclined position. The sheet placed on the tray main body is supplied to the conveyance path formed in the main unit.
In the image recording apparatus described above, the tray main body is kept at the inclined position even when the tray cover is swung from the open position to the closed position in the state in which the tray main body is located at the inclined position. In this case, the tray cover cannot cover the space formed between the main unit and the tray main body in a predetermined state, which may lead to ingress of foreign matter such as dust into the space. To establish the predetermined state in which the space is covered with the tray cover, a user needs to swing the tray main body from the inclined position to the standing position. This operation may be burdensome for the user.
Accordingly, an aspect of the disclosure relates to a sheet conveying apparatus allowing a user to return a tray main body to a standing position only by returning a tray cover from an open position to a closed position when the tray main body is located at an inclined position.
In one aspect of the disclosure, a sheet conveying apparatus including: a main unit defining a conveyance path through which a sheet is to be conveyed; a tray main body configured to support the sheet to be supplied to the conveyance path, the tray main body being pivotable between a standing position and an inclined position about a first axis relative to the main unit; and a tray cover connected to the tray main body and pivotable about a second axis parallel with the first axis, relative to the tray main body, between a bent position at which the tray cover is bent relative to the tray main body and a straight position at which the tray cover extends straight relative to the tray main body. A space formed between the main unit and the tray main body is covered by the tray cover located at the bent position relative to the tray main body at the standing position and exposed by the tray cover located at the straight position relative to the tray main body at the inclined position. The tray cover pivoting from the straight position to the bent position relative to the tray main body at the inclined position causes the tray main body to pivot from the inclined position to the standing position, so that the tray cover covers the space.
The objects, features, advantages, and technical and industrial significance of the present disclosure will be better understood by reading the following detailed description of the embodiment, when considered in connection with the accompanying drawings, in which:
Hereinafter, there will be described a multi-function peripheral (MFP) 10 (as one example of a sheet conveying apparatus) according to one embodiment by reference to the drawings. It is to be understood that the following embodiment is described only by way of example, and the disclosure may be otherwise embodied with various modifications without departing from the scope and spirit of the disclosure.
Overall Construction of MFP
The MFP 10 illustrated in
The MFP 10 includes a main unit 11 capable of performing printing, and a scanner unit 70 provided on the main unit 11. A rear surface 11B of the main unit 11 is provided with a bypass tray 60.
The MFP 10 includes a supply tray 13 mounted on a lower portion of the main unit 11. The supply tray 13 is mountable on and removable from the main unit 11. The supply tray 13 can store sheets on which images are to be recorded. The main unit 11 records an image on a sheet supplied from the supply tray 13. The bypass tray 60 supports sheets different from the sheets contained in the supply tray 13. The main unit 11 is capable of recording an image on a sheet supplied from the bypass tray 60. It is noted that a sheet supply from the bypass tray 60 may be hereinafter referred to as “manually-placed-sheet supply”. The scanner unit 70 is used for obtaining image data representative of a document.
The bypass tray 60 is in a state illustrated in
Main Unit 11
As illustrated in
The conveyance path 14 has a first conveyance path 14A for guiding each sheet upward from the supply tray 13 in a rear portion of the main unit 11. The conveyance path 14 has a second conveyance path 14B continued from the first conveyance path 14A. The second conveyance path 14B linearly guides the sheet frontward from the rear portion of the main unit 11. The second conveyance path 14B extends between the image recorder 31 and the platen 38. The sheet placed on the bypass tray 60 is also supplied to the second conveyance path 14B.
The main unit 11 includes a sheet supplier 15 configured to supply each sheet from the supply tray 13 to the first conveyance path 14A of the conveyance path 14. The sheet supplier 15 includes a support arm 15B disposed on the supply tray 13. A front end portion of the support arm 15B is supported by a support shaft 15C extending in the widthwise direction 9. A rear end portion of the support arm 15B supports a supply roller 15A rotatably provided so as to extend in the widthwise direction 9.
When the support arm 15B is swung about the support shaft 15C such that the rear end portion of the support arm 15B is moved downward, the supply roller 15A is brought into contact with the uppermost one of the sheets in the supply tray 13. When the support arm 15B is swung about the support shaft 15C such that the rear end portion of the support arm 15B is moved upward, the supply roller 15A is moved away from the uppermost sheet. The supply roller 15A is rotated in a particular direction by power that is transmitted from a motor, not illustrated, by a power transmitting mechanism 15D. The uppermost sheet in the supply tray 13 is supplied into the first conveyance path 14A of the conveyance path 14 by the supply roller 15A being rotated.
A first roller pair 21 is provided between the first conveyance path 14A and the second conveyance path 14B. The first roller pair 21 conveys the sheet from the first conveyance path 14A to the second conveyance path 14B. The first roller pair 21 includes: one first conveying roller 22 that contacts an upper surface of the sheet; and a plurality of pinch rollers 23 that contact a lower surface of the sheet. In a state in which the pinch rollers 23 are in contact with the first conveying roller 22, the pinch rollers 23 are rotated by rotation of the first conveying roller 22. When the sheet is conveyed to the first conveying roller 22 and the pinch rollers 23 being rotated, the sheet is nipped between the first conveying roller 22 and the pinch rollers 23 and conveyed onto the platen 38.
An insertion opening 26 is formed behind the first roller pair 21. The sheet is supplied from the bypass tray 60 through this insertion opening 26. As illustrated in
As illustrated in
Scanner Unit 70
As illustrated in
As illustrated in
When the platen glass 71A is covered with the document cover 72, the document cover 72 is located at a first position. When the document cover 72 is swung 90 degrees from the first position such that the free end portion of the document cover 72 is moved upward, the document cover 72 is positioned at a second position.
The document cover 72 is provided with an automatic document feeder (ADF), not illustrated, that picks up and conveys documents one by one for image recording. A well-known ADF is employed for this MFP 1, and a detailed explanation of which is dispensed with.
Bypass Sheet Supplier 25 of Main Unit 11
As illustrated in
As illustrated in
Tray Supporter 50 of Main Unit 11.
As illustrated in
As illustrated in
As illustrated in
A cover supporter 51C is provided on a front edge of the side surface 51B at a central portion thereof in the up and down direction 7. The cover supporter 51C supports a lower end portion of the bypass cover 55 at a corresponding one of opposite ends of the bypass cover 55 in the widthwise direction 9. As illustrated in
As illustrated in
As illustrated in
As illustrated in
Each of the side walls 51 has a guide groove 51F formed under the corresponding first shaft 51E. As will be described below, the tray main body 61 of the bypass tray 60 is provided with guide shafts 61H. These guide shafts 61H are slidably fitted in the respective guide grooves 51F. Each of the guide grooves 51F has a first guide 51G and a second guide 51H. The first guide 51G is inclined such that its lower end portion is located in front of its upper end portion. The second guide 51H extends rearward from the lower end portion of the first guide 51G. The upper end portion of the first guide 51G is located near the first shaft 51E. The second guide 51H is shaped like an arc that is curved along a circumference of a circle centered about the first shaft 51E.
Bypass Tray 60
The bypass tray 60 includes the tray main body 61 illustrated in
The tray main body 61 includes: a sheet supporter 61A having a planar plate shape and disposed so as to extend in the widthwise direction 9; and tray side members 61B respectively formed on opposite ends of the sheet supporter 61A in the widthwise direction 9. The sheet supporter 61A is disposed between the side walls 51 of the tray supporter 50. The tray side members 61B are opposed to the side surfaces 51B of the respective side walls 51 of the tray supporter 50.
The tray side members 61B each shaped like a plate respectively extend along opposite edges of the sheet supporter 61A in the widthwise direction 9. The tray side members 61B protrude frontward from the sheet supporter 61A. A lower portion of each of the tray side members 61B has a contact portion 61K protruding frontward in an arc shape. When the tray main body 61 is located at an inclined position, the contact portion 61K is in contact with the step 51J provided on a corresponding one of the side surfaces 51B of the tray supporter 50.
A lower end of each of the tray side members 61B is located below a lower end of the sheet supporter 61A. A lower end portion of each of the tray side members 61B is provided with the guide shaft 61H protruding outward. The guide shafts 61H each having a circular cylindrical shape are arranged coaxially with each other. The axis of each guide shaft 61H coincides with a straight line 61L. As illustrated in
As illustrated in
A partition 61G is provided in an upper portion of the first groove 61E to partition an upper end portion of the first groove 61E. The partition 61G is disposed so as to form a space in the upper end portion of the first groove 61E such that the first shaft 51E is turnably fitted in the space. The partition 61G protrudes outward in the widthwise direction 9. When the sheet supporter 61A is slid away from the second groove 61F along the first groove 61E, the first shaft 51E fitted in the space formed in the upper end portion of the first groove 61E is moved over the partition 61G.
The tray main body 61 is pivotable about the first axis 51L (see
When the tray main body 61 is swung such that an upper portion of the sheet supporter 61A is moved away from the rear surface 11B of the main unit 11, the guide shafts 61H are brought into contact with portions of the tray supporter 50 which define the second guides 51H of the respective guide grooves 51F. Also, the contact portions 61K provided on the lower portions of the respective tray side members 61B are brought into contact with the steps 51J provided on the respective side surfaces 51B of the tray supporter 50. As a result, the sheet supporter 61A is stopped at the inclined position at which the tray main body 61 is inclined at a particular angle. In the case where the tray main body 61 is located at the inclined position, as will be described below, when the tray cover 62 is moved to an open position, a user can place a sheet onto the inclined sheet supporter 61A.
When the tray main body 61 is positioned at the inclined position, the guide shafts 61H provided on the tray main body 61 are located in the second guides 51H of the guide grooves 51F provided on the respective side surfaces 51B of the tray supporter 50. Thus, when the tray main body 61 is swung about the first axis 51L of the first shafts 51E, the guide shafts 61H are slid along the respective second guides 51H. This configuration enables the tray main body 61 to be smoothly swung about the first axis 51L of the first shafts 51E. When the tray main body 61 is positioned at the inclined position, each guide shaft 61H is located at the lower end portion of the corresponding first guide 51G which is a frontmost portion of the second guide 51H of the guide groove 51F.
When the sheet supporter 61A located at the inclined position is slid upward along its inclination direction, as described above, each first shaft 51E fitted in the space formed in the upper end portion of the first groove 61E is moved over the corresponding partition 61G. In this case, the first shaft 51E is slid toward the second groove 61F along the first groove 61E.
When the first shafts 51E are slid, each guide shaft 61H is slid upward in the first guide 51G of the guide groove 51F from its lower end portion. When the guide shaft 61H reaches the upper end portion of the first guide 51G the first shaft 51E is positioned at the lower end portion of the first groove 61E of the slide groove 61C.
As a result, the guide shafts 61H are disengaged from the portions of the tray supporter 50 which define the second guides 51H of the respective guide grooves 51F. Also, the contact portions 61K of the respective tray side members 61B are disengaged from the respective steps 51J of the tray supporter 50. In this state, the first shafts 51E are slidable in the second grooves 61F of the respective slide grooves 61C. As a result, the weight of the tray main body 61 applies a force to the tray main body 61 such that the upper portion of the tray main body 61 pivots downward about the guide shaft 61H. This force swings the upper portion of the tray main body 61 downward, and the first shafts 51E are slid in the second grooves 61F of the respective slide grooves 61C. When the tray main body 61 becomes a substantially horizontal, the tray main body 61 is brought into contact with the upper end of the rear plate 53 of the tray supporter 50. As a result, the tray main body 61 is stopped in the horizontal state as illustrated in
As illustrated in
In the state illustrated in
As illustrated in
As illustrated in
As illustrated in
The second shafts 62Y each having a circular cylindrical shape are arranged coaxially with each other. As illustrated in
In the case where the tray main body 61 is located at the standing position along the rear surface 11B of the main unit 11, when the tray cover 62 becomes horizontal, the tray cover 62 covers a space between the rear surface 11B of the main unit 11 and the upper portion of the sheet supporter 61A of the tray main body 61. This position of the tray cover 62 may be hereinafter referred to as “closed position” (see
In the case where the tray main body 61 is located at the inclined position, and the tray cover 62 is located at the open position, when a sheet is supported on the sheet supporter 61A, an upper portion (trailing end portion) of the sheet is supported on the tray cover 62.
As illustrated in
Each of the guide members 63 includes: a base 63A shaped like a planar plate on which sheets are to be placed; and a protrusion 63B protruding from the base 63A in a direction away from the surface 62D of the tray cover 62. The base 63A is disposed along a direction perpendicular to the longitudinal direction of the tray cover 62. The base 63A has a first portion 63M located near the second side edge 62C, and a second portion 63N located near the first side edge 62A. The first portion 63M has a flat sheet support surface 63D for supporting the sheets. A surface of the second portion 63N is located nearer to the surface 62D of the tray cover 62 than the sheet support surface 63D.
Each of the protrusions 63B is disposed along the front and rear direction 8 perpendicular to the longitudinal direction of the tray cover 62. Surfaces of the protrusions 63B which are opposed to each other in the widthwise direction 9 are guide surfaces 63G for respectively guiding opposite edges of the sheets in the widthwise direction 9. When the protrusions 63B are moved toward each other in an interlocked fashion, the sheets supported on the sheet support surface 63D are aligned by the guide surfaces 63G with respect to the center of the main unit 11 in the widthwise direction 9. When the aligned sheets are supplied by the bypass sheet supplier 25 into the main unit 11 one by one, the opposite edges of the sheets in the widthwise direction 9 are guided by the guide surfaces 63G of the respective protrusions 63B.
As illustrated in
The first inclined surface 63J is continued to a second inclined surface 63K that extends obliquely toward the first side edge 62A. The angle of inclination of the second inclined surface 63K with respect to the sheet support surface 63D is less than that of the first inclined surface 63J, for example, the angle of inclination of the second inclined surface 63K is about 30 degrees.
The second inclined surface 63K is continued to a third inclined surface 63L that extends obliquely toward the first side edge 62A. The angle of inclination of the third inclined surface 63L with respect to the sheet support surface 63D is less than that of the second inclined surface 63K, for example, the angle of inclination of the third inclined surface 63L is about 10 degrees. The protrusion 63B is one example of a first member. Each of the first inclined surface 63J, the second inclined surface 63K, and the third inclined surface 63L is one example of a first sliding contact surface.
A recessed engaging portion 63H is formed on an opposite side of the third inclined surface 63L from the second inclined surface 63K. As illustrated in
When the tray cover 62 is swung to the closed position as illustrated in
The reaction force acting on the first inclined surfaces 63J contains a component force (i.e., a horizontal component force) directed toward the rear surface 11B of the main unit 11. This horizontal component force continues to act on the first inclined surfaces 63J while the first inclined surfaces 63J are held in sliding contact with the curved surface 55A. As a result, the entire tray cover 62 is moved frontward toward the rear surface 11B of the main unit 11. When the entire tray cover 62 is moved frontward, the tray main body 61 is swung following the tray cover 62 such that the upper portion of the sheet supporter 61A of the tray main body 61 is moved frontward.
When the entire first inclined surfaces 63J are held in sliding contact with the curved surface 55A, the second inclined surfaces 63K are brought into sliding contact with the curved surface 55A continuously from the first inclined surfaces 63J. Also in this case, a reaction force from the curved surface 55A acts on the second inclined surfaces 63K. A horizontal component force contained in the reaction force from the curved surface 55A moves the tray cover 62 toward the rear surface 11B of the main unit 11. As a result, the tray main body 61 is swung such that the upper portion of the sheet supporter 61A is moved frontward.
When the entire second inclined surfaces 63K are brought into contact with the curved surface 55A, the third inclined surfaces 63L are brought into contact with the curved surface 55A continuously from the second inclined surfaces 63K. Also in this case, a horizontal component force contained in the reaction force from the curved surface 55A moves the entire tray cover 62 toward the rear surface 11B of the main unit 11. As a result, the tray main body 61 is swung such that the upper portion of the sheet supporter 61A is moved frontward.
As described above, when the first inclined surfaces 63J are brought into sliding contact with the curved surface 55A, the first inclined surfaces 63J, the second inclined surfaces 63K, and the third inclined surfaces 63L are continuously brought into sliding contact with the curved surface 55A. As a result, the tray main body 61 is swung continuously such that the upper portion of the sheet supporter 61A is moved upward and frontward.
When the entire third inclined surfaces 63L are brought into sliding contact with the curved surface 55A, the engaging portions 63H provided continuously from the third inclined surfaces 63L are engaged with the curved surface 55A. As a result, the movement of the tray cover 62 relative to the curved surface 55A is stopped. Thus, the pivotal movement of the tray main body 61, i.e., the movement of the upper portion of the sheet supporter 61A is stopped. As a result, the tray main body 61 is positioned at the standing position.
In this case, the angle of inclination of the second inclined surfaces 63K with respect to the sheet support surface 63D is less than that of the first inclined surfaces 63J. Thus, the horizontal component force contained in the reaction force from the curved surface 55A is less in the case where the second inclined surfaces 63K are held in sliding contact with the curved surface 55A than in the case where the first inclined surfaces 63J are held in sliding contact with the curved surface 55A. Accordingly, the speed of the movement of the tray cover 62 toward the rear surface 11B of the main unit 11 is less in the case where the second inclined surfaces 63K are held in sliding contact with the curved surface 55A than in the case where the first inclined surfaces 63J are held in sliding contact with the curved surface 55A.
The angle of inclination of the third inclined surfaces 63L with respect to the sheet support surface 63D is less than that of the second inclined surfaces 63K. Thus, the speed of the movement of the tray cover 62 toward the rear surface 11B of the main unit 11 is much less in the case where the third inclined surfaces 63L are held in sliding contact with the curved surface 55A than in the case where the second inclined surfaces 63K are held in sliding contact with the curved surface 55A.
As illustrated in
As illustrated in
A moment acts on the upper portion of the tray main body 61 due to gravity about the first shaft 51E in a direction opposite to a direction of the moment that swings the tray main body 61 so as to move its upper portion toward the rear surface 11B of the main unit 11. However, the moment acting on the upper portion of the tray main body 61 for moving the upper portion toward the rear surface 11B of the main unit 11 is greater than the moment acting on the upper portion of the tray main body 61 for moving the upper portion away from the rear surface 11B of the main unit 11. Thus, the upper portion of the tray main body 61 is reliably moved frontward.
As illustrated in
Interlock Mechanism 80
As illustrated in
The upper portion of the pivot member 81 is provided with a segment gear 83 formed integrally with the pivot member 81. The segment gear 83 is constituted by a portion of an internal gear and is disposed along a circumference of a circle centered about the pivot shaft 82. The segment gear 83 pivots in the front and rear direction 8 together with the pivot member 81.
As illustrated in
When the document cover 72 is swung from the first position to the second position, the sliding contact member 84A is brought into sliding contact with the rear surface 72B of the document cover 72 in accordance with the pivotal movement of the document cover 72. In this operation, the upper portion of the rear surface 72B of the document cover 72 is inclined rearward from a state in which the rear surface 72 extends along the up and down direction 7. With the inclining movement of the rear surface 72B of the document cover 72, the sliding contact member 84A is swung rearward. When the document cover 72 is further swung toward the second position, the sliding contact member 84A is brought into contact with an upper surface 72C of the document cover 72, from the state in which the sliding contact member 84A is in contact with the rear surface 72B of the document cover 72. The sliding contact member 84A is swung rearward with the movement of the upper surface 72C of the document cover 72 toward the inclined state. When the sliding contact member 84A is swung rearward, the pivot member 81 is swung rearward about the pivot shaft 82.
As illustrated in
A slide member 87 is provided at a rear of the pinion gear 86. The slide member 87 has a rod shape extending in the up and down direction 7. The slide member 87 is located at a rear portion of the tray supporter 50. A rack gear 87A meshed with the pinion gear 86 is formed in a front surface of the slide member 87. An upper end portion of the slide member 87 is opposed to a rear portion of a left end portion of the tray cover 62 located at the closed position.
When the segment gear 83 is swung rearward together with the pivot member 81, the first gear 85A of the idler gear 85 meshed with the segment gear 83 is rotated. The second gear 85B of the idler gear 85 is also rotated together, which rotates the pinion gear 86. In this case, the rack gear 87A meshed with the pinion gear 86 is moved upward, so that the entire slide member 87 is slid upward.
The slide member 87 is located at its lowest position when the document cover 72 is located at the first position, and the pivot member 81 is not swung rearward. In this state, the upper end portion of the slide member 87 is in contact with or located near the rear portion of the left end portion of the tray cover 62.
When the document cover 72 is swung in this state so as to be moved from the first position to the second position, the slide member 87 is slid upward. As a result, the tray cover 62 is pressed so as to be moved upward, and the tray cover 62 located at the closed position is swung such that the second side edge 62C located near the rear surface 72B of the document cover 72 is moved upward. In the state in which the second side edge 62C of the tray cover 62 has been moved upward and rearward, the rear surface 72B of the document cover 72 does not contact the second side edge 62C of the tray cover 62 when the document cover 72 is swung from the first position to the second position. This construction enables the document cover 72 to be smoothly swung to the second position.
Operations of Bypass Tray 60
When the manually-placed-sheet supply is not to be performed, the bypass tray 60 is in the state illustrated in
When the manually-placed-sheet supply is to be performed, the tray cover 62 is positioned at the open position, and the tray main body 61 is positioned at the inclined position. In this state, as illustrated in
The sheet placed on the sheet supporter 61A is supplied by the bypass sheet supplier 25 to the second conveyance path 14B of the conveyance path 14 formed in the main unit 11. The image recorder 31 records an image on the sheet conveyed along the second conveyance path 14B.
When the manually-placed-sheet supply is finished, the user moves the tray cover 62 from the open position to a position at which the tray cover 62 is pivotable due to its own weight. In this state, the tray cover 62 swings to the closed position by its own weight.
The curved surface 55A is brought into sliding contact with the first inclined surfaces 63J, the second inclined surfaces 63K, and the third inclined surfaces 63L in order, and the second inclined surfaces 63K is less than the first inclined surfaces 63J in angle of inclination with respect to the sheet support surface 63D, and the third inclined surfaces 63L is less than the second inclined surfaces 63K in angle of inclination with respect to the sheet support surface 63D. With this construction, the speed of movement of the tray main body 61 is gradually reduced when the tray main body 61 is swung from the inclined position to the standing position. Accordingly, the tray main body 61 is smoothly moved to the standing position.
The first inclined surfaces 63J, the second inclined surfaces 63K, the third inclined surfaces 63L of the protrusions 63B provided on the respective guide members 63 are continuously brought into sliding contact, in this order, with the curved surface 55A provided on the upper end portion of the bypass cover 55. As a result, the tray cover 62 is moved toward the rear surface 11B of the main unit 11, thereby moving the tray main body 61 to the standing position. Thereafter, the engaging portions 63H provided on the guide members 63 are engaged with the curved surface 55A.
Effects
In the present embodiment, when the tray cover 62 is swung to the closed position by its own weight, the protrusions 63B are brought into sliding contact with the bypass cover 55, so that the tray main body 61 is positioned at the standing position. The tray cover 62 located at the closed position covers the space between the main unit 11 and the tray main body 61 located at the standing position. Thus, the tray cover 62 prevents ingress of foreign matter such as dust into the space.
The tray cover 62 has the sheet support surface 63D that supports the sheets with the tray main body 61 when the tray cover 62 is located at the open position with respect to the tray main body 61 located at the inclined position. With this construction, the sheets placed by the user is stably supported by the tray main body 61 located at the inclined position and the sheet support surface 63D of the tray cover 62 located at the open position.
The bypass cover 55 has the curved surface 55A protruding in the arc shape. The protrusions 63B of the respective guide members 63 provided on the tray cover 62 have the first inclined surfaces 63J, the second inclined surfaces 63K, and the third inclined surfaces 63L which are brought into sliding contact with the curved surface 55A. This construction enables the tray main body 61 to be smoothly swung to the standing position.
When the tray cover 62 is positioned at the closed position, the curved surface 55A of the bypass cover 55 is engaged with the engaging portions 63H of the respective protrusions 63B to limit the pivotal movement of the tray cover 62. With this construction, the tray cover 62 is stably kept at the closed position. The protrusions 63B guide the upper portion of the sheet supported by the tray cover 62, along the direction in which the sheet is to be supplied. Thus, the sheet is stably supplied to the conveyance path 14 formed in the main unit 11.
The tray cover 62 is provided with the contact ribs 62X at the positions nearer to the second axis 62L than the center of gravity of the tray cover 62. The contact ribs 62X are brought into contact with the tray main body 61 when the tray cover 62 is swung to the closed position. Due to this contact between the contact ribs 62X and the tray main body 61, the moment directed frontward (toward the main unit 11) acts on the upper portion of the tray main body 61, and this moment is greater than the moment caused by the weight of the tray cover 62. This moment enables the tray main body 61 to be moved to the standing position more smoothly.
Modifications
The protrusions 63B (each as one example of the first member) of the respective guide members 63 provided on the tray cover 62 have the first inclined surfaces 63J, the second inclined surfaces 63K, and the third inclined surfaces 63L (each as one example of the first sliding contact surface). However, the present disclosure is not limited to this construction. For example, the first sliding contact surface may be constituted by two inclined surfaces, four or more inclined surfaces, or a surface curved in an arc shape.
The first inclined surfaces 63J, the second inclined surfaces 63K, and the third inclined surfaces 63L (each as one example of the first sliding contact surface) of the protrusions 63B (each as one example of the first member) and the curved surface 55A (as one example of the second sliding contact surface) of the bypass cover 55 (as one example of the second member) may be reversed. That is, the MFP 10 may be configured such that each of the protrusions 63B has a surface protruding in an arc shape, and the bypass cover 55 has a sliding contact surface with which the curved surface is brought into sliding contact. In this case, the sliding contact surface may be constituted by a plurality of inclined surfaces or a surface curved in an arc shape.
The curved surface 55A (as one example of the second sliding contact surface) with which the first inclined surfaces 63J, the second inclined surfaces 63K, and the third inclined surfaces 63L (each as one example of the first sliding contact surface) are brought into sliding contact may not be provided on the bypass cover 55 (as one example of the second member). The curved surface 55A at least needs to be provided on a second member disposed at a position at which the first sliding contact surface can be brought into sliding contact with the second member in the main unit 11.
In the above-described embodiment, the contact ribs 62X provided on the tray cover 62 are brought into contact with the respective protrusions 61P provided on the main unit 11. However, each of the protrusions 61P provided on the main unit 11 may be provided with a contact portion contactable with the tray cover 62.
The MFP 10 may be configured such that the protrusions 63B of the respective guide members 63 provided on the tray cover 62 are not brought into sliding contact with the curved surface 55A of the upper end portion of the bypass cover 55. That is, the MFP 10 may be configured such that the tray main body 61 is swung to the standing position only by contact of each contact rib 62X (as one example of the contact portion) provided on the tray cover 62, with the corresponding protrusion 61P and the corresponding projection 61S provided on the upper portion of the corresponding tray side member 61B of the tray main body 61. In this case, for example, the center of gravity of the tray cover 62, and positions at which each contact rib 62X contacts the corresponding protrusion 61P and the corresponding projection 61S are set to stably swing the tray main body 61 to the standing position.
The contact ribs 62X (each as one example of the contact portion), and the protrusions 61P and the projections 61S provided on the upper portions of the tray side members 61B of the tray main body 61 may not be provided. That is, the tray main body 61 may be swung to the standing position only by sliding contact of the protrusions 63B of the guide members 63 provided on the tray cover 62, with the curved surface 55A of the upper end portion of the bypass cover 55.
Number | Date | Country | Kind |
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2015-096936 | May 2015 | JP | national |
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Number | Date | Country | |
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20160332828 A1 | Nov 2016 | US |