This application claims priority from Japanese Patent Application No. 2012-273765 filed Dec. 14, 2012. The entire content of the priority application is incorporated herein by reference.
The present invention relates to an image recording apparatus having a sheet tray that can be pulled out from and inserted into a casing and can support a sheet therein, and configured to record an image onto the sheet fed from the sheet tray.
In recent years, improvement of an outer appearance of a casing, for example, flattening of an outer surface of the casing, is often required in terms of design of an image recording apparatus.
There is known an image recording apparatus having a cassette cover attached to a sheet tray through a coil spring. In a state where the sheet tray is mounted in the image recording apparatus, the cassette cover is attached to a body cover of a main casing to make a surface of the cassette cover and a surface of the body cover flush with each other. Moreover, in a case where the cassette cover is attached to the body cover, the coil spring biases the sheet tray toward the back side of the image recording apparatus. This allows the sheet tray to be mounted at a position at which a sheet placed on the sheet tray can be fed to an inside of the image recording apparatus.
However, in the above-described image recording apparatus, the sheet tray and the cassette cover are connected to each other through the coil spring, so that the following problem is caused. That is, even if the cassette cover is pulled when the sheet tray is pulled out from the image recording apparatus, the sheet tray itself cannot be pulled out until the coil spring is fully stretched, which degrades operability of the sheet tray.
In view of the foregoing, it is an object of the present invention to provide a mechanism that allows a sheet tray to be smoothly pulled out from a casing of an apparatus while achieving a desired outer appearance which is formed by the sheet tray and the casing.
In order to attain the above and other objects, the present invention provides an image recording apparatus including: a casing; a sheet tray; a recording section; a drawing portion; and a first stop portion. The casing defines a accommodating portion therein and has an opening through which the accommodating portion is open to an outside. The sheet tray is configured to be inserted into the accommodating portion in an inserting direction through the opening and to be pulled out from the accommodating portion in a pulling direction opposite to the inserting direction through the opening. The sheet tray includes: a main tray and an extension tray. The main tray is configured to support a recording sheet. The main tray is configured to be positioned at a first position and at a second position as a result of movement of the main tray in the inserting direction. The main tray has an upstream portion in the inserting direction. The extension tray is configured to be moved relative to the main tray in the inserting direction and in the pulling direction. The extension tray is configured to be pulled out from the upstream portion to support a recording sheet in combination with the main tray. The recording section is configured to record an image on a recording sheet fed from the sheet tray. The drawing portion is configured to draw the main tray from the first position into the second position. The second position is located downstream of the first position in the inserting direction and allows the recording sheet supported at the sheet tray to be fed to the recording section. The first stop portion is disposed in the accommodating portion and configured to abut against the extension tray in a state where the main tray is located at a position downstream of the first position in the inserting direction to restrict movement of the extension tray in the inserting direction.
In the drawings;
A multifunction device as an image recording apparatus according to one embodiment of the present invention will be described with reference to
[Overall Structure of Multifunction Device 10]
As illustrated in
As illustrated in
Incidentally, in the drawings,
As illustrated in
In a state where the upper sheet feeding tray 20A is accommodated in the accommodating portion 16 of the casing 14, the recording sheet 12 placed on the upper sheet feeding tray 20A is conveyed along a conveying path 65 (described later) by the sheet feeding section 28 and then by the conveyer roller pair 57. The conveyed recording sheet 12 is subjected to image recording by the recording section 24. The recording sheet 12 on which the image has been recorded is discharged by the discharge roller pair 58 to the discharge tray 21 and then placed on the discharge tray 21. That is, the discharge tray 21 supports the recording sheet 12. The discharge tray 21 is provided above the upper sheet feeding tray 20A. The discharge tray 21 is configured to be slidingly moved in the front-rear direction 8 together with the upper sheet feeding tray 20A.
The sheet feeding section 28 is provided above the upper sheet feeding tray 20A which is in a state of being accommodated in the accommodating portion 16. The sheet feeding section 28 includes a sheet feeding roller 25, an arm 26, and a shaft 27.
The sheet feeding roller 25 is rotatably provided at a free end (rear end) of the arm 26. The arm 26 is pivotally movable about an axis of the shaft 27 supported at the casing 14. The arm 26 is pivotally movably biased toward the upper sheet feeding tray 20A by its own weight or a biasing force of a spring (not illustrated). The sheet feeding roller 25 receives a drive force from a motor (not illustrated) to be rotated, picks up the recording sheet 12 placed on the upper sheet feeding tray 20A, and feeds the recording sheet 12 to the conveying path 65. When the upper sheet feeding tray 20A is inserted into and removed from the casing 14, an extending portion (not illustrated) extending from a base end of the arm 26 either rightward or leftward in the left-right direction 9 abuts against a side plate 75 (see
Incidentally, the recording sheet 12 placed on the lower sheet feeding tray 20B is conveyed in a similar manner to that placed on the upper sheet feeding tray 20A. The recording sheet 12 placed on the lower sheet feeding tray 20B is fed by the sheet feeding section 28 to be conveyed toward the conveying path 65 through a second conveying path 66 which merges with the conveying path 65. The recording sheet 12 fed to the second conveying path 66 is then conveyed along the conveying path 65 by the conveyer roller pair 57 for image recordation by the recording section 24.
The conveying path 65 extends from a rear end portion of the upper sheet feeding tray 20A which is in a state of being mounted in the casing 14. The conveying path 65 is defined by an inner guide member 18 and an outer guide member 19, and has a curved part and a straight part (note that only the curved part is illustrated in
At the conveying path 65, the conveyer roller pair 57 including a conveyer roller 60 and a pinch roller 61 is disposed upstream of the recording section 24 in the conveying direction 11, and the discharge roller pair 58 including a discharge roller 62 and a spur roller 63 is disposed downstream of the recording section 24 in the conveying direction 11. The conveyer roller pair 57 nips the recording sheet 12 between the conveyer roller 60 and the pinch roller 61. The discharge roller pair 58 nips the recording sheet 12 between the discharge roller 62 and the spur roller 63. The conveyer roller 60 and the discharge roller 62 each receive a drive force from a motor (not illustrated) to be rotated. As a result, the conveyer roller pair 57 and the discharge roller pair 58 each convey the nipped recording sheet 12 in the conveying direction 11.
The recording section 24 is disposed above the conveying path 65. In the present embodiment, the recording section 24 records, by an inkjet recording method, an image on the recording sheet 12 which is fed to the conveying path 65 by the sheet feeding section 28 and then conveyed along the conveying path 65 by the conveyer roller pair 57. A method for the recording section 24 to record an image on the recording sheet 12 is not limited to the inkjet recording method, but may be any other known methods such as an electrophotographic recording method.
[Casing 14]
The casing 14, a part of which is illustrated in
As illustrated in
The outer cover 15 has a mounting portion (not illustrated) on a side thereof confronting the casing 14 when being mounted. Using this mounting portion, the outer cover 15 is mounted to the casing 14 by being engaged with the casing 14 or fixed to the casing 14 by a screw. That is, the mounting portion is formed on the casing 14 side of the outer cover 15 when being mounted and also formed as a protrusion or a groove to be engaged with the casing 14, or as a screw hole through which a screw is inserted.
A side of the outer cover 15 opposite to the casing 14 side when being mounted is formed in substantially a flat surface. As illustrated in
In the present embodiment, the plurality of outer covers 15 and tray covers 84 (see
[Accommodating Portion 16]
The accommodating portion 16 is formed on the rear side of the opening 13. The accommodating portion 16 is formed in a space inside the casing 14. As illustrated in
An interval between the right frame 51 and the left frame 52 is slightly greater than a length of the upper sheet feeding tray 20A in the left-right direction 9. An interval between the upper frame 55, and the front bottom frame 53 and the rear bottom frame 54 is slightly greater than a length of the upper sheet feeding tray 20A in the upper-lower direction 7. An interval between the opening 13 and the rear frame 56 is substantially the same as a length of the upper sheet feeding tray 20A in the front-rear direction 8. With the above configuration, the upper sheet feeding tray 20A can be inserted into the accommodating portion 16 through the opening 13 and accommodated in the accommodating portion 16.
[Sheet Feeding Tray 20]
As illustrated in
[Main Tray 31]
As illustrated in
The recording sheet 12 is placed on the bottom plate 74. That is, the bottom plate 74 supports the recording sheet 12. The center plates 76 each abut against the recording sheet 12 moving rearward. This prevents the recording sheet 12 from dropping from the rear side of the upper sheet feeding tray 20A in a state where the upper sheet feeding tray 20A is removed from the casing 14. In a state where the upper sheet feeding tray 20A is accommodated in the accommodating portion 16, the center plates 76 are accommodated in a concave portion formed by a sloped plate 79 (see
The main tray stop portions 68 (see
[Extension Tray 32]
As illustrated in
As illustrated in
As illustrated in
As illustrated in
As illustrated in
The projections 85 can be resiliently deformed in the left-right direction 9. In the present embodiment, resilient deformation of the right and left side surfaces of the tray cover 84 allows resilient deformation of the projections 85 in the left-right direction 9. That is, the right and left projections 85 are resiliently deformed in an integrated manner with the right and left side surfaces of the tray cover 84.
A distance between a right end of the right projection 85 and a left end of the left projection 85 is slightly greater than a distance between a left surface 33 (see
As illustrated in
[Discharge Tray 21]
As illustrated in
The second receiving member 88 is a member having substantially a flat-plate shape. A front end of the second receiving member 88 is supported at the front plate 82 of the extension tray 32. The second receiving member 88 has a lower surface on which a plurality of ribs 90 (see
Concave portions 91 are formed on a lower surface of the second receiving member 88. More specifically, the concave portions 91 are formed at both left and right end portions of the front end portion of the second receiving member 88. On the other hand, convex portions 92 are formed on an upper surface of the front plate 82 of the extension tray 32. More specifically, the convex portions 92 are formed at positions opposite to the concave portions 91, respectively. Each convex portion 92 is insertable into the corresponding concave portion 91. The second receiving member 88 is supported by the extension tray 32 in a state where the convex portions 92 are inserted into the corresponding concave portions 91, whereby the extension tray 32 positions the discharge tray 21. As a result, as illustrated in
As described above, a rear end portion of the first receiving member 87 is pivotally supported by the side plates 75 of the main tray 31. More specifically, a pivot shaft 93 protrudes outward in the left-right direction 9 from the rear end portion of the first receiving member 87 and is inserted into an opening formed in each side plate 75. With this configuration, the discharge tray 21 can be pivotally moved between a position illustrated in
[Engaging Portion 94 and Engaged Portion 95]
As illustrated in
As illustrated in
As illustrated in
As illustrated in
The engaging portion 94 is pivotally moved in the directions of the arrows 35 and 36 to thereby allow engagement with and disengagement from the engaged portion 95. For example, when the protrusion 98 of the engaging portion 94 is engaged with the engagement receiving portion 37 in a state where the extension tray 32 is inserted into the main tray 31 (see
In this state, when the user of the multifunction device 10 holds the operation portion 99 to pivotally move the engaging portion 94 in the direction of the arrow 35, the engagement between the protrusion 98 and the engagement receiving portion 37 is released. As a result, the locked state between the extension tray 32 and the main tray 31 is released, allowing the extension tray 32 to be pulled out from the main tray 31. In this state, the user of the multifunction device 10 pulls the extension tray 32 from the main tray 31 (see
As illustrate in
Although the above engagement and disengagement between the engaging portion 94 and the engaged portion 95 is achieved by the pivotal movement of the engaging portion 94 in the present embodiment, the engagement and disengagement may be achieved by any movement other than the pivotal movement, for example, movement of the engaging portion 94 in the left-right direction 9. Moreover, although the engagement and disengagement between the engaging portion 94 and the engaged portion 95 is achieved by the movement of the engaging portion 94 in the present embodiment, the engagement and disengagement may be achieved by movement of the engaged portion 95. That is, in this case, contrary to the above, the engaging portion 94 formed on the extension tray 32 may be formed in a rib extending in the front-rear direction 8, and the engaged portion 95 formed on the main tray 31 may be formed in a bar-shaped member. In this case, contrary to the above, the engaged portion 95 is configured to be movable relative to the engaging portion 94 in the front-rear direction 8 in a state where the engaged portion 95 and the engaging portion 94 are engaged with each other.
[Drawing Portion 39]
As illustrated in
The above-described predetermined position, which refers to a first position of the present invention, is a position of the upper sheet feeding tray 20A at a moment when an abutted portion 42 (see
The second position is, as described above, a position of the upper sheet feeding tray 20A when the rear right plate 77 and the rear left plate 78 of the upper sheet feeding tray 20A abut against the main tray stop portions 68, respectively. The upper sheet feeding tray 20A at the second position is located on the downstream side, in the inserting direction, of the upper sheet feeding tray 20A at the predetermined position, i.e., rearward of the predetermined position. Moreover, when the upper sheet feeding tray 20A is at the second position, the recording sheet 12 placed on the bottom plate 74 of the upper sheet feeding tray 20A can be fed to the conveying path 65 by the sheet feeding section 28.
The drawing portion 39 includes an abutting portion 40 (
The moving portion 41 illustrated in
As illustrated in
A distance between the abutting portion 40 of the left drawing portion 39 and the abutting portion 40 of the right drawing portion 39 is smaller than a length of the upper sheet feeding tray 20A in the left-right direction 9. Accordingly, when the upper sheet feeding tray 20A is inserted into or pulled out from the accommodating portion 16, each abutting portion 40 abuts against the upper sheet feeding tray 20A.
Then, the abutting portion 40 is inserted by the upper sheet feeding tray 20A to be spaced apart from the upper sheet feeding tray 20A in the left-right direction 9, causing the corresponding moving portion 41 to be bent.
As illustrated in
[Extension Tray Stop Portion 45]
As illustrated in
On the other hand, as illustrated in
As illustrated in
A distance in the front-rear direction 8 between the surface 46 of the extension tray stop portion 45 and outer surfaces of the outer covers 15 covering the casing 14 at positions in proximity to the extension tray 32 (next to the extension tray 32 in the left-right direction 9), among the plurality of outer covers 15 covering the casing 14, is the same as a distance L1 illustrated in
With the configuration in which the distance between the surface 46 of the extension tray stop portion 45 and the outer surfaces of the outer covers 15 is the same as the distance L1, in a state where the surface 46 of the extension tray stop portion 45 abuts against the extension tray abutment portion 47 as illustrated in
[Insertion of Sheet Feeding Tray 20]
The following describes an operation to be performed when the upper sheet feeding tray 20A is inserted into the casing 14 through the opening 13 and accommodated in the accommodating portion 16. The upper sheet feeding tray 20A is inserted into the casing 14 in a state where the extension tray 32 is inserted into the main tray 31 and locked thereto.
The upper sheet feeding tray 20A is moved toward the rear side of the accommodating portion 16 from the opening 13, that is, moved rearward. When the upper sheet feeding tray 20A is moved toward the rear side of the accommodating portion 16, the rear end portion of the main tray 31 abuts against the abutting portions 40. As a result, the abutting portions 40 are spaced apart from the main tray 31 in the left-right direction 9, causing the moving portions 41 are bent in the left-right direction 9.
In this state, the upper sheet feeding tray 20A is further moved rearward, the pair of side plates 75 of the main tray 31 are slidingly moved rearward relative to the abutting portions 40 while being brought into pressure contact with the abutting portions 40 (more in detail, the peaks 40A of the abutting portions 40 protruding toward the pair of side plates 75 and defined by the first guide surfaces 43 and the second guide surfaces 44). As a result, the front end of the second guide surface 44 of each abutting portion 40, that is, the peak 40A of each abutting portion 40 shifts from a non-abutting state where the peak 40A does not abut against the corresponding abutted portion 42 to an abutting state where the peak 40A abuts against the corresponding abutted portion 42 (see
When the second guide surface 44 and the abutted portion 42 abut against each other, the abutting portion 40 enters into the abutted portion 42 by the resilient force, by which the moving portion 41 is returned to its original state, generated by the bending of the moving portion 41, that is, by the force by which the abutting portion 40 is moved toward the main tray 31. With this movement, the surface 49 constituting the abutted portion 42 is slidingly moved along the second guide surface 44 of the abutting portion 40. As a result, the main tray 31 is moved rearward, that is, toward the second position located rearward of the first position. That is, the main tray 31 is drawn into the second position.
As illustrated in
Moreover, in a state where the main tray 31 is located rearward of the first position in the front-rear direction 8 and is in the course of being drawn into the second position or is located at the second position, each extension tray abutment portion 47 (see
Assuming that the extension tray abutment portion 47 and the surface 46 abut against each other in a state where the main tray 31 is located frontward of the first position in the front-rear direction 8, the main tray 31 is not drawn into the second position, failing to locate the main tray 31 at the second position. However, as described above, the extension tray abutment portion 47 and the surface 46 abut against each other in the state where the main tray 31 is located rearward of the first position in the front-rear direction 8, thereby preventing occurrence of such a problem.
The travel distance of the extension tray 32 relative to the main tray 31 in a state where the main tray 31 has reached the second position is preferably small. For example, in order to reduce the relative travel distance, the main tray 31, the extension tray 32, and the accommodating portion 16 may be configured such that each extension tray abutment portion 47 and the corresponding surface 46 abut against each other in a state where the main tray 31 is located between the first and second positions in the front-rear direction 8.
The travel distance L2 (see
If the extension tray 32 is moved forward at a maximum extent relative to the main tray 31, there is a possibility that the extension tray stop portion 45 fails to abut against the corresponding extension tray abutment portion 47 in the course of the drawing operation by the drawing portion 39. However, in the present embodiment, the force required for the extension tray 32 to be moved relative to the main tray 31 is smaller than the force required for the resilient deformation of the moving portions 41 of the drawing portions 39. Thus, even if the extension tray 32 is moved forward at a maximum extent relative to the main tray 31, the extension tray 32 can be moved rearward from the position where the extension tray 32 is moved forward at a maximum extent relative to the main tray 31 while the upper sheet feeding tray 20A is being inserted into the accommodating portion 16. As a result, in the course of the drawing operation by the drawing portions 39, the extension tray 32 is subjected to positioning by the extension tray stop portions 45.
According to the present embodiment, in a state where each sheet feeding tray 20 (upper sheet feeding tray 20A and lower sheet feeding tray 20B) is mounted in the casing 14, the front side position of the sheet feeding tray 20 is determined by a position of the extension tray 32 provided on the front side of the main tray 31. The position of the extension tray 32 can be fixed by the extension tray stop portion 45. This allows a desired outer appearance of the multifunction device 10 to be obtained. Moreover, according to the present embodiment, the main tray 31 is drawn into the second position by the drawing portions 39, thereby allowing the sheet feeding tray 20 to be reliably mounted at a position at which the supported recording sheet 12 cab be fed therefrom.
Moreover, according to the present embodiment, the main tray 31 is positioned not by a biasing force of a coil spring but by the drawing portions 39. Thus, there does not a problem that the main tray 31 cannot be pulled out until the coil spring is fully stretched even if the extrusion tray 32 is pulled when the sheet feeding tray 20 is pulled out from the casing 14. As a result, the sheet feeding tray 20 can smoothly be pulled out from the casing 14. That is, operability of the sheet feeding tray 20 can be kept favorable. Thus, according to the present embodiment, the outer appearance formed by the sheet feeding tray 20 and the casing 14 can be made into a desired condition, and the sheet feeding tray 20 can smoothly be pulled out from the casing 14.
Moreover, according to the present embodiment, in a state where the extension tray 32 is inserted into the main tray 31 and locked to the main tray 31, the main tray 31 can be moved relative to the extension tray 32 by a distance corresponding to a difference between the width W1 and the width W3. Thus, the drawing portions 39 can draw the main tray 31 into the accommodating portion 16 from the first position to the second position.
In other words, in the course of mounting the sheet feeding tray 20 in the accommodating portion 16, the extension tray 32 may be inserted into the main tray 31 at a maximum extent so that the rear surface of the protrusion 98 is in abutment with a rear wall of the engagement receiving portion 37. In this state, when the extension tray abutment portions 47 is brought into abutment with the surfaces 46 of the corresponding extension tray stop portions 45, the main tray 31 is located at a position between the first position and the second position in the front-rear direction 8. At this time, the drawing portions 39 are drawing the main tray 31 into the second position to move the main tray 31 rearward, while the surfaces 46 of the extension tray stop portions 45 restrict further rearward movement of the extension tray 32. Because the main tray 31 is movable relative to the extension tray 32 by the distance corresponding to the difference between the width W1 and the width W3 which is set to be greater than the travel distance L2 of the main tray 31, the drawing portions 39 can reliably draw the main tray 31 into the second position even if the extension tray abutment portions 47 has abutted against the surfaces 46 of the corresponding extension tray stop portions 45 to restrict the extension tray 32 from being moved rearward.
Moreover, according to the present embodiment, the abutting portions 40 abut against the sheet feeding tray 20 and are moved by the moving portions 41 when the sheet feeding tray 20 is inserted into the casing 14. In this state, when an upstream edge of the second guide surface 44 in the inserting direction (i.e. peak 40A of the abutting portion 40) reaches a position confronting the corresponding abutted portion 42 in the inserting direction, the abutment between the sheet feeding tray 20 (the pair of side plates 75) and the abutting portions 40 is released, and the abutting portions 40 abuts against the abutted portions 42, respectively. In this state, each abutted portion 42 is moved in the inserting direction by the travel distance L2. That is, the main tray 31 is drawn into the accommodating portion 16 by the travel distance L2. That is, the present embodiment is a preferred example of the application for realizing the function of the drawing portion 39.
Moreover, according to the present embodiment, the recess 86 is formed in the extension tray 32. The extension tray 32 is provided on the front side of the sheet feeding tray 20. Thus, operations of inserting the sheet feeding tray 20 into the casing 14 and removing the sheet feeding tray 20 from the casing 14 can be easily performed.
Moreover, according to the present embodiment, the discharge tray 21 can be positioned relative to the sheet feeding tray 20 accurately by the convex portions 92.
Moreover, according to the present embodiment, the outer surface of the tray cover 84 of the extension tray 32 and the outer surfaces of the outer covers 15 are flush with each other, thereby making the outer appearance of the multifunction device 10 look good.
Moreover, according to the present embodiment, the extension tray stop portions 45 are not exposed to an outside of the multifunction device 10, thereby making the outer appearance of the multifunction device 10 look good.
Moreover, according to the present embodiment, the extension tray stop portions 45 each have the surface 46 and can thereby easily achieve the positioning of the extension tray 32.
Moreover, according to the present embodiment, the extension tray 32 has the extension tray abutment portions 47 and can thereby easily embody a configuration for achieving the function of the extension tray stop portions 45.
Moreover, according to the present embodiment, the distance in the front-rear direction 8 between the surface 46 of each extension tray stop portion 45 and the outer surface of the outer cover 15 coincides with the distance L1. Thus, according to the present embodiment, the outer surface of the extension tray 32 and the outer surface of the casing 14 (the outer surface of the outer cover 15 covering the casing 14 in the present embodiment) can be made flush with each other.
Moreover, according to the present embodiment, the projections 85 are brought into pressure contact with the left surface 33 of the right frame 51 and the right surface 34 of the left frame 52, respectively, so that, in a state where the sheet feeding tray 20 is mounted in the casing 14, the sheet feeding tray 20 can be positioned in the left-right direction 9.
Moreover, the extension tray stop portions 45 are each provided on the left-right side of the extension tray 32, making an installation location of the extension tray stop portions 45 less likely to be restricted.
A multifunction device 10 according to a first modification of the present invention will be described while referring to
Note that
In the above-described embodiment, the extension tray abutment portions 47 are each provided so as to protrude outward in the left-right direction 9 from each of the pair of side plates 81 of the extension tray 32. However, an installation location of the extension tray abutment portions 47 is not limited to the side plate 81 of the extension tray 32. For example, in the first modification, as illustrated in
According to the first modification, the extension tray abutment portions 147 are less likely to be exposed to an outside in a state where the lower sheet feeding tray 20B supports the recording sheet 12, which does not impair the outer appearance. That is, according to the first modification, the extension tray abutment portions 147 protrude from the lower surface of the bottom plate 80 of the extension tray 32, the extension tray abutment portions 147 are not visible from outside in a state where the multifunction device 10 is installed, thereby making the outer appearance of the multifunction device 10 look good.
The main tray 31 and the extension tray 32 may be connected to each other by a resilient member such as a spring. A resilient force of the resilient member is smaller than the force required for the drawing portions 39 to draw the main tray 31 into the accommodating portion 16 from the first position to the second location.
According to the second modification, the main tray 31 and the extension tray 32 do not move relative to each other with application of the force smaller than the biasing force of the resilient member, thereby suppressing the extension tray 32 from rattling with respect to the main tray 31.
Moreover, according to the second modification, the resilient force of the resilient member is smaller than the force required for the drawing portions 39 to draw the main tray 31 into the accommodating portion 16 from the first position to the second position. Thus, irrespective of presence of the resilient member, the main tray 31 can reliably be drawn into the second position.
In the above-described embodiment, the moving portions 41 are bent by resilient deformation. However, the moving portions 41 may be moved by any factor other than the resilient deformation as long as the moving portions 41 can move the abutting portions 40 in the left-right direction 9. For example, one of the moving portions 41 may be provided on a right side of the right surface 34 of the left frame 52 and connected to the right surface 34 through a spring, and the other one of the moving portions 41 may be provided on a left side of the left surface 33 of the right frame 51 and connected to the left surface 33 through a spring.
In the above-described embodiment, the difference between the width W3 of the protrusion 98 and the width W1 of the engagement receiving portion 37 corresponds to a distance that the main tray 31 can be moved relative to the extension tray 32 in a state where the extension tray 32 is inserted into the main tray 31 and locked to the main tray 31. However, the relative forward movement in the front-rear direction 8 may be restricted by the protrusion 98 and the engagement receiving portion 37, while the relative rearward movement in the front-rear direction 8 may be restricted by other members. That is, in order to achieve a locked state between the extension tray 32 and the main tray 31, a front end of the protrusion 98 and a front end of the engagement receiving portion 37 may be made to abut against each other to restrict the forward movement of the extension tray 32 relative to the main tray 31, and another member of the extension tray 32 other than the protrusion 98 and another member of the main tray 31 other than the engagement receiving portion 37 may be made to abut against each other to restrict the rearward movement of the extension tray 32 relative to the main tray 31. In this case, a travel distance of the extension tray 32 when the extension tray 32 is moved relative to the main tray 31 from a position at which the front end of the protrusion 98 and the front end of the engagement receiving portion 37 abut against each other to a position at which another member of the extension tray 32 other than the protrusion 98 and another member of the main tray 31 other than the engagement receiving portion 37 abut against each other corresponds to the above-mentioned distance that the main tray 31 can be moved relative to the extension tray 32 in a state where the extension tray 32 is inserted into the main tray 31 and locked to the main tray 31.
As a matter of course, contrary to the above, the relative rearward movement in the front-rear direction 8 may be restricted by the protrusion 98 and the engagement receiving portion 37, while the relative forward movement in the front-rear direction 8 may be restricted by other members.
In the above-described embodiment, the extension tray abutment portions 47 abuts against the corresponding extension tray stop portions 45 when the main tray 31 is located on or between the first and second positions. However, this is not be applied when the multifunction device 10 has such a configuration that the main tray 31 can be moved rearward of the second position at which the recording sheet 12 can be fed to the conveying path 65. That is, when the main tray 31 can be inserted rearward of the second position and can be automatically returned to the second position by a damper or the like, the extension tray abutment portions 47 may abut against the corresponding extension tray stop portions 45 when the main tray 31 is moved rearward of the second position.
While the present invention has been described in detail with reference to the embodiments thereof, it would be apparent to those skilled in the art that various changes and modifications may be made therein without departing from the spirit of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2012-273765 | Dec 2012 | JP | national |