Embodiments described herein relate generally to an image processing apparatus and a paper feeding cassette moving system.
An image processing apparatus includes an automatic drawing-in mechanism for drawing in a paper feeding cassette that stores sheets. The automatic drawing-in mechanism draws in the paper feeding cassette into an apparatus main body up to a regular push-in position where the paper feeding cassette comes into contact with the apparatus main body. The image processing apparatus including the automatic drawing-in mechanism has a remedy structure for a case in which the automatic drawing-in mechanism fails to function. With the remedy structure, a user manually pushes in the paper feeding cassette to restore the automatic drawing-in mechanism. However, if the paper feeding cassette comes into contact with the apparatus main body in the regular push-in position, a push-in distance necessary for actuating the remedy structure sometimes cannot be secured.
An image processing apparatus in an embodiment includes an apparatus main body, a paper feeding cassette, a drawing-in mechanism, and a restricting member. The paper feeding cassette is inserted into the apparatus main body to be capable of being drawn out in a first orientation along a first direction. The drawing-in mechanism is connected to the paper feeding cassette and draws the paper feeding cassette into the apparatus main body up to a drawing-in completion position along a second orientation opposite to the first orientation. The restricting member is displaceably interposed between the apparatus main body and the paper feeding cassette in a predetermined position and restricts the paper feeding cassette present in the drawing-in completion position from being displaced in the second orientation. If the paper feeding cassette is not connected to the drawing-in mechanism even if the paper feeding cassette is pushed in the second orientation up to the drawing-in completion position, the restricting member is displaced from the predetermined position to allow the paper feeding cassette to be displaced in the second orientation with respect to the apparatus main body.
The image processing apparatus in the embodiment is explained below with reference to the drawings.
In the following explanation, a depth direction (a first direction) is represented as an X-axis direction. A left-right direction (a second direction) is represented as a Y-axis direction. An up-down direction is represented as a Z-axis direction. The depth direction, the left-right direction, and the up-down direction are orthogonal to one another. In the figures, an arrow X direction is a near side (a first orientation) and the opposite of the arrow X direction is a depth side (a second orientation). In the figures, an arrow Y direction is a right side and the opposite of the arrow Y direction is a left side. In the figures, an arrow Z direction is an upper side and the opposite of the arrow Z direction is a lower side.
As illustrated in
The apparatus main body 6 is a housing that incorporates the display 2, the control panel unit 3, the image forming unit 4, the image reading unit 5, and the sheet storing unit 7. The apparatus main body 6 incorporates the sheet storing unit 7 in an internal space in a lower part. The sheet storing unit 7 includes paper feeding cassettes 20.
As illustrated in
A pair of left and right slide sections 13 are present for each of the paper feeding cassettes 20. The pair of left and right slide sections 13 support the paper feeding cassette 20. The slide sections 13 are disposed between the front wall 11 and the inner wall 12. The slide sections 13 support the paper feeding cassette 20 to be capable of translating and capable of reciprocating in the depth direction with respect to the apparatus main body 6.
The paper feeding cassette 20 is inserted into the apparatus main body 6. The paper feeding cassette 20 is capable of being drawn out to the near side from the apparatus main body 6. The left-right direction of the paper feeding cassette 20 is represented as a width direction. The paper feeding cassette 20 is displaced in both directions along the depth direction. In the following explanation, concerning the paper feeding cassette 20, unless particularly described otherwise, the explanation is provided based on the premise that the paper feeding cassette 20 is inserted into the apparatus main body 6 and present in a position where displacement to the depth side is restricted. The paper feeding cassette 20 includes a cassette main body 21 and a front cover 23.
The cassette main body 21 stores sheets. The cassette main body 21 has a box shape opened upward. The cassette main body 21 is housed in the apparatus main body 6. The cassette main body 21 is present between the pair of left and right slide sections 13. The left and right both side portions of the cassette main body 21 are respectively supported by the apparatus main body 6 via the slide sections 13.
The front cover 23 covers the cassette main body 21 from the near side. The front cover 23 has a rectangular shape having length in the width direction. The front cover 23 is formed larger than the cassette main body 21 to the left and the right. The front cover 23 overlaps the entire cassette main body 21 if viewed from the near side and protrudes further to the left and right both sides than the cassette main body 21.
As illustrated in
The link member 27 is capable of turning, with respect to the cassette main body 21, around an axis extending along the left-right direction. The pin member 29 is coupled to the link member 27. The pin member 29 is disposed behind a turning center of the link member 27. For example, the pin member 29 has a columnar shape. The pin member 29 projects to the left side from the link member 27. The pin member 29 is displaced in the up-down direction with respect to the cassette main body 21 according to up-down swinging of the link member 27.
The image processing apparatus 1 includes a drawing-in mechanism 8. The drawing-in mechanism 8 is connected to the paper feeding cassette 20 and draws the paper feeding cassette 20 into the internal space of the apparatus main body 6. In this embodiment, a state in which the drawing-in mechanism 8 and the paper feeding cassette 20 are connected is a state in which the drawing-in mechanism 8 pushes the paper feeding cassette 20 to the depth side. The drawing-in mechanism 8 applies force for inserting the paper feeding cassette 20 into the apparatus main body 6. The drawing-in mechanism 8 draws in the paper feeding cassette 20 to the depth side up to a drawing-in completion position from a drawing-in start position. The drawing-in completion position is an end portion on the depth side in a range in which force to the depth side is applied to the paper feeding cassette 20 by the drawing-in mechanism 8 in a moving range of the paper feeding cassette 20 with respect to the apparatus main body 6. The drawing-in completion position is a position illustrated in
The drawing-in mechanism 8 is incorporated in the apparatus main body 6. The drawing-in mechanism 8 is disposed on the depth side of the inner wall 12 of the apparatus main body 6. The drawing-in mechanism 8 is disposed, with respect to the drawing-in end 25 of the paper feeding cassette 20, on side where the pin member 29 projects. The drawing-in mechanism 8 includes a cover 30 and a chassis 40.
The cover 30 has a substantial plate shape. The cover 30 is coupled to the inner wall 12 of the apparatus main body 6 such that the front and rear surfaces of the cover 30 face the left-right direction. The cover 30 is incapable of being relatively displaced with respect to the apparatus main body 6.
The chassis 40 has a substantial box shape having an opening. The chassis 40 is opened to the drawing-in end 25 side in the left-right direction. The chassis 40 is bonded to the cover 30 with an opening edge of the chassis 40 aligned with the edge of the cover 30. The chassis 40 is incapable of being relatively displaced with respect to the cover 30.
As illustrated in
The drawing-in mechanism 8 includes a locking section 41, a lever 50, an elastic member 70, an auxiliary lever 60, and an auxiliary elastic member 80. In the following explanation, a rotation direction of a member turning around an axis extending along the left-right direction is explained as a direction viewed from the right side.
The locking section 41 is present on the inner side of the chassis 40. The locking section 41 is incapable of being relatively displaced with respect to the chassis 40. The locking section 41 is formed integrally with the chassis 40.
The lever 50 is present on the inner side of the chassis 40. The lever 50 is provided to be capable of turning, with respect to the cover 30 and the chassis 40, around the main rotation axis A extending along the left-right direction. The main rotation axis A is present above the guide groove 31. The lever 50 turns around the main rotation axis A if shifting between the drawing-in waiting state and the drawing-in completion state. The lever 50 turns in the counterclockwise direction if shifting from the drawing-in waiting state to the drawing-in completion state. The lever 50 is restricted from turning in the counterclockwise direction in a position where the lever 50 slightly turns in the counterclockwise direction around the main rotation axis A from the drawing-in completion state. However, the lever 50 may be restricted from turning in the counterclockwise direction around the main rotation axis A in the drawing-in completion state. The lever 50 turns in the clockwise direction if shifting from the drawing-in completion state to the drawing-in waiting state. In the following explanation of the lever 50, the drawing-in completion state is explained unless particularly described otherwise. The lever 50 includes a lever main body 51 and a pin engaging section 52.
The lever main body 51 is supported by the chassis 40 to be capable of turning around the main rotation axis A. The lever main body 51 is incapable of translating with respect to the chassis 40. The elastic member 70 is connected to the lever main body 51.
The pin engaging section 52 is present at the distal end portion of the lever 50. The pin engaging section 52 is present below the main rotation axis A if viewed from the left-right direction. The pin engaging section 52 is present on the right side of the lever main body 51. The pin engaging section 52 is supported by the lever main body 51 to be capable of turning around a sub-rotation axis B extending along the left-right direction. The sub-rotation axis B is present below the main rotation axis A and above the guide groove 31. The pin engaging section 52 is incapable of translating with respect to the lever main body 51. If the lever 50 shifts from the drawing-in waiting state to the drawing-in completion state, the pin engaging section 52 is displaced to the depth side according to the turning in the counterclockwise direction of the lever main body 51. The pin engaging section 52 is restricted from turning in the clockwise direction and allowed to turn in the counterclockwise direction in a position with respect to the lever main body 51 illustrated in
As illustrated in
As illustrated in
The pin engaging section 52 includes a contact surface 58. The contact surface 58 is connected to the end portion on the main rotation axis A side of the first sidewall 56. The contact surface 58 extends from the first sidewall 56 to the opposite side of the second sidewall 57. The contact surface 58 is formed to the edge on the near side of the pin engaging section 52. The contact surface 58 is bent in a convex shape in the clockwise direction centering on the sub-rotation axis B if viewed from the left-right direction. The contact surface 58 crosses the guide groove 31 at an acute angle if viewed from the left-right direction.
The auxiliary lever 60 is present on the inner side of the chassis 40. The auxiliary lever 60 is present further on the depth side than the lever 50. The auxiliary lever 60 is provided to be capable of turning, with respect to the apparatus main body 6, around an axis C extending along the left-right direction. The auxiliary lever 60 includes a first connecting section 61 and a second connecting section 62. The elastic member 70 is connected to the first connecting section 61. The auxiliary elastic member 80 is connected to the second connecting section 62. The first connecting section 61 and the second connecting section 62 are in a positional relation in which moment by an urging force of the elastic member 70 and moment by an urging force of the auxiliary elastic member 80 are in opposite directions each other. In an example illustrated in
The elastic member 70 is present on the inner side of the chassis 40. The elastic member 70 is a tensile coil spring. The elastic member 70 is connected to a part below the main rotation axis A in the lever main body 51 of the lever 50. The elastic member 70 urges, with a restoration force, the lever main body 51 and the first connecting section 61 of the auxiliary lever 60 to approach each other. The elastic member 70 urges the lever main body 51 of the lever 50 to the depth side and applies torque in the counterclockwise direction to the lever main body 51. The elastic member 70 urges the first connecting section 61 to the near side and applies torque in the counterclockwise direction to the auxiliary lever 60.
The auxiliary elastic member 80 is present on the inner side of the chassis 40. The auxiliary elastic member 80 is a tensile coil spring. The auxiliary elastic member 80 is connected to the second connecting section 62 and the chassis 40 of the auxiliary lever 60. The auxiliary elastic member 80 urges, with a restoration force, the second connecting section 62 to the near side with respect to the chassis 40 and applies torque in the clockwise direction to the auxiliary lever 60. The auxiliary elastic member 80 pulls the elastic member 70 in an extending direction via the auxiliary lever 60.
As illustrated in
The restricting member 90 in the first embodiment is explained. As illustrated in
The image processing apparatus 1 includes a holder 95 that movably holds the restricting member 90. The holder 95 is coupled to the apparatus main body 6 to be incapable of being relatively displaced. The holder 95 is present on the near side of the contact section 91 of the restricting member 90 present in a predetermined position. For example, the holder 95 surrounds the contact section 91 from three directions of the near side, the left, and the right. The holder 95 supports the contact section 91 to be movable upward. The holder 95 engages with the locking convex section 92 from below and restricts downward movement of the restricting member 90. The holder 95 guides the restricting member 90 to move between the predetermined position and an allowable position present above the predetermined position. The allowable position is indicated by an imaginary line in
The operation of the drawing-in mechanism 8 in inserting the paper feeding cassette 20 into the apparatus main body 6 is explained with reference to
If the paper feeding cassette 20 is inserted into the apparatus main body 6, the drawing-in end 25 passes through the introducing hole 15 of the inner wall 12. At this time, the drawing-mechanism 8 is in the drawing-in waiting state. The pin member 29 enters the guide groove 31 of the cover 30 of the drawing-in mechanism 8 from the end portion on the near side. If the pin member 29 enters a depth side along the guide member 31, the pin member 29 enters the engaging groove 55 of the lever 50 from the first end portion 551.
If the paper feeding cassette 20 is further inserted to the depth side, the pin member 29 comes into contact with the second sidewall 57, which defines the engaging groove 55 from the depth side, and pushes the lever 50 to the depth side. Since the lever 50 is pushed to the depth side, the pin engaging section 52 turns in the counterclockwise direction with respect to the lever main body 51 and the locking section 41 and the hook 53 are disengaged.
If the locking section 41 and the hook 53 are disengaged, the lever 50 is allowed to turn in the counterclockwise direction around the main rotation axis A. The lever 50 starts to turn in the counterclockwise direction from the drawing-in waiting state to the drawing-in completion state with respective restoration forces of the elastic member 70 and the auxiliary elastic member 80. If the lever 50 starts to turn in the counterclockwise direction, the first sidewall 56, which defines the engaging groove 55 from the near side, comes into contact with the pin member 29 of the paper feeding cassette 20 present in the drawing-in start position. Since the first sidewall 56 comes into contact with the pin member 29 from the near side, the drawing-in mechanism 8 is connected to the paper feeding cassette 20. The lever 50 presses the pin member 29 to the depth side. The pin member 29 enters the depth side along the guide groove 31 with a pressing force applied from the lever 50. Since the pin member 29 is displaced to the depth side, the paper feeding cassette 20 is inserted into the apparatus main body 6. The paper feeding cassette 20 is displaced to the inner side until the paper feeding cassette 20 comes into contact with the restricting member 90 present in the predetermined position. If the paper feeding cassette 20 comes into contact with the restricting member 90 in the drawing-in completion position and is restricted from being displaced to the depth side, the turning of the lever 50 is stopped and the drawing-in mechanism 8 changes to the drawing-in completion state.
The operation of the drawing-in mechanism 8 in drawing out the paper feeding cassette 20 from the apparatus main body 6 is explained with reference to
If the paper feeding cassette 20 is drawn out from the apparatus main body 6, the pin member 29 moves to the near side along the guide groove 31. The pin member 29 comes into contact with the first sidewall 56 of the engaging groove 55 and pushes the lever 50 to the near side. The lever 50 starts to turn in the clockwise direction from the drawing-in completion state to the drawing-in waiting state while resisting the respective restoration forces of the elastic member 70 and the auxiliary elastic member 80. If the pin member 29 reaches the drawing-in start position, the hook 53 engages with the locking section 41 of the chassis 40 and the pin member 29 retracts from the engaging groove 55. Since the hook 53 engages with the locking section 41, the drawing-in mechanism 8 changes to the drawing-in waiting state.
In a state in which the paper feeding cassette 20 is drawn out until the pin member 29 retracts from the guide groove 31, the hook 53 of the lever 50 sometimes does not engage with the locking section 41 because of some cause. In this case, in a state in which the pin member 29 does not get into the engaging groove 55, the lever 50 is displaced to a position corresponding to the drawing-in completion state by the restoration force of the elastic member 70. In this state, the drawing-in mechanism 8 does not operate even if the paper feeding cassette 20 is inserted into the apparatus main body 6 and the pin member 29 is moved to the drawing-in start position. A restoration method in the case in which the drawing-in mechanism 8 is in a state corresponding to the drawing-in completion state in a state in which the paper feeding cassette 20 is sufficiently drawn out is explained with reference to
As illustrated in
Even if the paper feeding cassette 20 is pushed to the depth side up to the drawing-in completion position, the pin member 29 sometimes does not climb over the end portion of the contact surface 58. In this case, as illustrated in
As explained above, the image processing apparatus 1 in this embodiment includes the drawing-in mechanism 8 and the restricting member 90. The drawing-in mechanism 8 is connected to the paper feeding cassette 20 to draw the paper feeding cassette 20 into the apparatus main body 6 up to the drawing-in completion position. The restricting member 90 is displaceably interposed between the apparatus main body 6 and the paper feeding cassette 20 in the predetermined position. If the paper feeding cassette 20 is not connected to the drawing-in mechanism 8 even if the paper feeding cassette 20 is pushed in to the depth side up to the drawing-in completion position, the restricting member 90 is displaced from the predetermined position to allow the paper feeding cassette 20 to be displaced to the depth side with respect to the apparatus main body 6. With this configuration, it is possible to secure a pushing-in distance necessary for actuating a remedy structure for restoring the drawing-in mechanism 8 by manually pushing in the paper feeding cassette 20.
The drawing-in mechanism 8 includes the cover 30, the lever 50, and the elastic member 70. The cover 30 is coupled to the apparatus main body 6 and includes the guide groove 31 for guiding the pin member 29 of the paper feeding cassette 20 along the depth direction. The lever 50 is provided to be capable of turning, with respect to the cover 30, around the main rotation axis A extending along the left-right direction. The lever 50 includes, at the distal end portion, the pin engaging section 52 that engages with the pin member 29. The pin engaging section 52 is capable of turning around the sub-rotation axis B extending along the left-right direction. The pin engaging section 52 includes the engaging groove 55 including the first sidewall 56 that defines the engaging groove 55 from the near side and the second sidewall 57 that defines the engaging groove 55 from the depth side and the contact surface 58 formed continuously to the first sidewall 56 and extending to the opposite side of the second sidewall 57. The contact surface 58 crosses the guide groove 31 in the drawing-in completion state. The elastic member 70 applies, to the lever 50, force for rotating the lever 50 to the depth side. With this configuration, simply by inserting the paper feeding cassette 20 into the apparatus main body 6, the pin member 29 slides on the contact surface 58 involving turning of the pin engaging section 52 and is disposed in the engaging groove 55. Therefore, if the paper feeding cassette 20 and the drawing-in mechanism 8 are not appropriately connected, a user can restore the drawing-in mechanism 8 to a state in which the paper feeding cassette 20 and the drawing-in mechanism 8 are appropriately connected and the paper feeding cassette 20 is inserted.
If the pin member 29 is located on the contact surface 58 in a state in which the paper feeding cassette 20 is restricted from moving to the depth side by the restricting member 90, the restricting member 90 is displaced from the predetermined position to move the paper feeding cassette 20 to the depth side, whereby the pin member 29 enters the engaging groove 55. With this configuration, if the pin member 29 does not enter the engaging groove 55 even if the paper feeding cassette 20 is pushed in to the drawing-in completion position, it is possible to allow further displacement to the depth side of the paper feeding cassette 20 and dispose the pin member 29 in the engaging groove 55.
The image processing apparatus 1 further includes the holder 95 that movably holds the restricting member 90 and guides the restricting member 90 to move between the predetermined position and the allowable position. With this configuration, improvement of operability of the restricting member 90 can be achieved. The restricting member 90 can be prevented from dropping.
Since the allowable position of the restricting member 90 is present above the predetermined position, the restricting member 90 can be returned to the predetermined position by the dead weight of the restricting member 90. By automatically returning the restricting member 90 to the predetermined position, it is possible to dispose the restricting member 90 in the predetermined position at a normal time without requiring special operation.
The restricting member 90 is disposed on the same side as the drawing-in mechanism 8 with respect to the intermediate position of the pair of slide sections 13 in the left-right direction. If the restricting member 90 is present on the opposite side of the drawing-in mechanism 8 with respect to the intermediate position of the pair of slide sections 13 in the left-right direction, the paper feeding cassette 20 sometimes tilts with respect to the depth direction if the restricting member 90 is disposed in the allowable position and the paper feeding cassette 20 is manually pushed in. In this case, it is likely that the pin member 29 of the paper feeding cassette 20 cannot be sufficiently pushed into the drawing-in mechanism 8. According to this embodiment, if the restricting member 90 is disposed in the allowable position and the paper feeding cassette 20 is manually pushed in, the paper feeding cassette 20 can be prevented from tilting with respect to the depth direction. Therefore, the paper feeding cassette 20 can be surely pushed into the drawing mechanism 8 to restore the drawing-in mechanism 8.
The restricting member 90 is provided in the apparatus main body 6. With this configuration, while performing operation for, for example, drawing out the paper feeding cassette 20 with one hand, the user can operate the restricting member 90 with the other hand. Therefore, improvement of workability in restoring the drawing-in mechanism 8 can be achieved.
As illustrated in
A restricting member 190 in a second embodiment is explained with reference to
The second embodiment is different from the first embodiment in that the restricting member 190 is provided in the paper feeding cassette 20. The restricting member 190 is supported by the front cover 23 of the paper feeding cassette 20 to be relatively displaceable. The restricting member 190 is capable of turning around an axis D extending along the left-right direction. The restricting member 190 is incapable of translating with respect to the paper feeding cassette 20 if viewed from the left-right direction. The restricting member 190 turns between the predetermined position and the allowable position. The predetermined position is indicated by a solid line in
The restricting member 190 includes an operation section 191, a positioning surface 192, and an avoiding section 193. The operation section 191 is provided on the near side of the front cover 23. The operation section 191 is exposed to the near side from the front cover 23. The operation section 191 is a part of a design surface facing the near side in the paper feeding cassette 20. For example, the operation section 191 is flush with a surface facing the near side of the front cover 23.
The positioning surface 192 is a plane facing the depth side. The positioning surface 192 comes into contact with a section to be in contact 16 of the apparatus main body 6 in the predetermined position. For example, the section to be in contact 16 is a part of the front wall 11 of the apparatus main body 6. The restricting member 190 restricts, with contact of the positioning surface 192 and the section to be in contact 16 of the apparatus main body 6, the paper feeding cassette 20 from being displaced to the depth side with respect to the apparatus main body 6.
The avoiding section 193 is adjacent to an upper part of the positioning surface 192. The avoiding section 193 is a plane inclined with respect to the positioning surface 192. The avoiding section 193 is present closer to the axis D than the positioning surface 192 if viewed from the left-right direction. If the restricting member 190 is present in the allowable position, the avoiding section 193 faces the section to be in contact 16 in the depth direction. If the restricting member 190 is present in the allowable position, the avoiding section 193 forms a gap in the depth direction with respect to the section to be in contact 16. The restricting member 190 causes the avoiding section 193 to face the section to be in contact 16 to allow the paper feeding cassette 20 to be displaced to the depth side with respect to the apparatus main body 6.
If the drawing-in mechanism 8 is restored, even if the paper feeding cassette 20 is pushed in to the depth side until the paper feeding cassette 20 is restricted from moving to the depth side by the restricting member 190, the pin member 29 sometimes does not climb over the end portion of the contact surface 58. In this embodiment, for example, the operation section 191 of the restricting member 190 is pushed to turn the restricting member 190 in the clockwise direction from the predetermined position to the allowable position. If the avoiding section 193 faces the section to be in contact 16, the paper feeding cassette 20 is allowed to be displaced to the depth side with respect to the apparatus main body 6. The paper feeding cassette 20 can be further pushed in to the depth side to cause the pin member 29 to climb over the end portion of the contact surface 58.
In this embodiment, the same effects as the effects in the first embodiment are achieved. In addition, since the restricting member 190 is provided in the paper feeding cassette 20, limitation on a setting space for the restricting member 190 can be reduced compared with the case where the restricting member 190 is not provided in the paper feeding cassette 20.
The operation section 191 that displaces the restricting member 190 from the predetermined position to the allowable position is provided on the near side of the paper feeding cassette 20. With this configuration, the restricting member 190 can be easily operated via the operation section 191 compared with the case where the restricting member 190 is operated on the depth side of the paper feeding cassette 20.
Note that the image processing apparatus 1 may include an urging member that urges the restricting member 190 in a direction from the allowable position to the predetermined position. By providing the urging member, the restricting member 190 can be surely returned to the predetermined position. By automatically returning the restricting member 190 to the predetermined position, it is possible to dispose the restricting member 190 in the predetermined position at a normal time without requiring special operation.
The restricting member 190 may not include the operation section 191 provided on the near side of the front cover 23. That is, the entire restricting member 190 may be disposed on the depth side of the front cover 23. In this configuration, the restricting member 190 is operated on the depth side of the front cover 23, for example, in a state in which the paper feeding cassette 20 is drawn out.
The restricting member 190 may not be capable of turning around the axis extending along the left-right direction. For example, the restricting member 190 may be capable of turning around an axis extending along the up-down direction.
The avoiding section 193 may not be adjacent to the upper part of the positioning surface 192. For example, the avoiding section 193 may be adjacent to a lower part of the positioning surface 192. The positioning surface 192 and the avoiding section 193 may not be planes. For example, at least one of the positioning surface 192 and the avoiding section 193 may be a convex curved surface.
A restricting member 290 in a third embodiment is explained with reference to
The third embodiment is different from the first embodiment in that the restricting member 290 is provided in the paper feeding cassette 20. The restricting member 290 is supported by the front cover 23 of the paper feeding cassette 20. The restricting member 290 is incapable of being displaced in the depth direction with respect to the paper feeding cassette 20. The restricting member 290 is capable of turning around an axis E extending in the depth direction with respect to the paper feeding cassette 20. The restricting member 290 turns between the predetermined position and the allowable position.
The restricting member 290 has thickness in the depth direction. A shape of the restricting member 290 viewed from the depth direction is different from a circular shape centering on the axis E. In this embodiment, the restricting member 290 is formed in a cross shape having four arms 291 if viewed from the depth direction. The four arms 291 project in directions inclined with respect to the up-down direction and the left-right direction from the axis E if viewed from the depth direction. If the restricting member 290 is present in the allowable position, the four arms 291 project in the up-down direction and the left-right direction from the axis E if viewed from the depth direction.
A shaft section 292 axially supported by the front cover 23 is coupled to the restricting member 290. The shaft section 292 pierces through the front cover 23 in the depth direction. An operation section 293 is coupled to the end portion on the near side of the shaft section 292. For example, the operation section 293 is a dial. The operation section 293 is disposed on the near side of the front cover 23. The operation section 293 rotates integrally with the restricting member 290.
A recess 17 that receives the restricting member 290 present in the allowable position is formed on the front wall 11 of the apparatus main body 6. A shape of the recess 17 corresponds to a shape of the restricting member 290 present in the allowable position if viewed from the depth direction. The recess 17 is formed in a cross shape in which four grooves project upward and downward and to the left and the right if viewed from the depth direction. If the restricting member 290 is present in the predetermined position, the restricting member 290 comes into contact with a peripheral section of the recess 17 to thereby restrict the paper feeding cassette 20 from being displaced to the depth side with respect to the apparatus main body 6.
In this embodiment, the same effects as the effects in the first embodiment are achieved. In addition, since the restricting member 290 is provided in the paper feeding cassette 20, limitation on a setting space for the restricting member 290 can be reduced compared with the case where the restricting member 290 is not provided in the paper feeding cassette 20.
The operation section 293 that displaces the restricting member 290 from the predetermined position to the allowable position is provided on the near side of the paper feeding cassette 20. With this configuration, the restricting member 290 can be more easily operated via the operation section 293 compared with the case where the restricting member 290 is operated on the depth side of the paper feeding cassette 20.
A shape of the restricting member 290 and a shape of the recess 17 do not need to correspond to each other. The recess 17 only has to be formed in a shape for receiving the restricting member 290 present in the allowable position and restricting entry of the restricting member 290 present in the predetermined position turned from the allowable position.
A drawing-in mechanism is not limited to the configurations in the embodiments. The drawing-in mechanism only has to be connected to a paper feeding cassette and formed to draw the paper feeding cassette into an apparatus main body up to the drawing-in completion position.
According to at least one embodiment explained above, the image processing apparatus includes the restricting member that is displaced from the predetermined position to allow the paper feeding cassette to be displaced to the depth side with respect to the apparatus main body if the paper feeding cassette is not connected to the drawing-in mechanism even if the paper feeding cassette is pushed in to the depth side up to the drawing-in completion position. With this configuration, it is possible to secure a push-in distance necessary for actuating a remedy structure for restoring the drawing-in mechanism by manually pushing in the paper feeding cassette.
While certain embodiments have been described these embodiments have been presented by way of example only, and are not intended to limit the scope of the inventions. Indeed, the novel embodiments described herein may be embodied in a variety of other forms: furthermore various omissions, substitutions and changes in the form of the embodiments described herein may be made without departing from the spirit of the inventions. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the invention.