A media storage apparatus includes a media storing body that stores recording media, a guide member slidably provided in the media storing body for guiding the recording media, a first positioning portion that positions the guide member at a predetermined position where the guide member guides regular-sized recording media, and a second positioning portion that positions the guide member at a position where the guide member guides irregular-sized recording media. The first positioning portion and the second positioning portion have different shapes.
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1. A media storage apparatus comprising:
a media storing body that stores recording media;
a guide member slidably provided in said media storing body, said guide member guiding said recording media;
a first positioning groove formed on said media storing body for positioning said guide member at a predetermined position where said guide member guides regular-sized recording media, and
a second positioning groove formed on said media storing body for positioning said guide member at a position where said guide member guides irregular-sized recording media,
wherein said first positioning groove and said second positioning groove are different from each other in both depth, and opening areaor both.
0. 23. A media storage apparatus, comprising:
a media storing body that stores recording media;
a guide member slidably provided in said media storing body, said guide member guiding said recording media;
a first positioning groove formed on said media storing body for positioning said guide member at a predetermined position where said guide member guides regular-sized recording media, and
a second positioning groove formed on said media storing body for positioning said guide member at a position where said guide member guides irregular-sized recording media,
wherein said first positioning groove and said second positioning groove are different from each other in shape, and
wherein said first positioning groove and said second positioning groove are arranged on the same row along a sliding direction of said guide member.
16. A media storage apparatus comprising:
a media storing body that stores recording media;
a guide member slidably provided in said media storing body, said guide member guiding said recording media;
a first positioning groove formed on said media storing body for positioning said guide member at a predetermined position where said guide member guides regular-sized recording media, and
a second positioning groove formed on said media storing body for positioning said guide member at a position where said guide member guides irregular-sized recording media,
wherein said guide member includes comprises:
a first claw portion that engages engageable with said first positioning groove;
a second claw portion that engages engageable with said second positioning groove, and
a switching mechanism that selectively causes one of said first and second claw portions to engage a corresponding one of said first and second positioning grooves, and
wherein said first positioning groove and said second positioning groove are different from each other in depth, opening area or both depth and opening area.
2. The media storage apparatus according to
wherein said first positioning groove and said second positioning groove are engagable with said claw portion.
3. The media storage apparatus according to
4. The media storage apparatus according to
wherein said first positioning groove, said plurality of second positioning grooves and said flat portion are arranged on the same array in row as said slidable plurality of said second positioning grooves along said sliding direction of said guide member, and
wherein a width of said flat portion in said slidable sliding direction of said guide member is wider than a width of a portion between edges of adjacent two of said plurality of second positioning grooves of said plurality of said second positioning grooves.
5. The medium storage apparatus according to
wherein said movement-guide guide hole is not connected to said first positioning groove, and is not connected to said plurality of second said second positioning grooves.
6. The media storage apparatus according to
a first claw portion engagable engageable with said first positioning groove, and
a second claw portion engagable engageable with said second positioning groove.
7. The media storage apparatus according to
8. The media storage apparatus according to
9. The media storage apparatus according to
10. The media storage apparatus according to
11. The media storage apparatus according to
wherein an opening area of said first positioning groove is wider than an opening area than of said second positioning groove.
12. The media storage apparatus according to
a movement-guide hole formed in the comprising a guide hole formed on said media storing body, and wherein the said guide member is adapted to slidably move along the movement-guide hole, being slidable along said guide hole;
wherein the said first positioning groove is formed located on a first side with respect to said guide hole, and
portion of the movement-guide hole, and the wherein said second positioning groove is formed located on a second side portion of the movement-guide hole with respect to said guide hole.
13. The media storage apparatus according to
14. The media storage apparatus according to
15. The media storage apparatus according to
a first claw portion engagable engageable with said first positioning groove, and
a second claw portion engagable engageable with said second positioning groove,
wherein the said first claw portion and said second claw portion are different sizes from each other in size.
17. The media storage apparatus according to
wherein an opening area of said first positioning groove is wider than an opening area of said second positioning groove.
18. The media storage apparatus according to
wherein the said first positioning groove is formed located on a first side with respect to said guide hole, and
portion of the movement-guide hole, and the wherein said second positioning groove is formed located on a second side portion of the movement-guide hole with respect to said guide hole.
19. The media storage apparatus according to
20. The media storage apparatus according to
21. An image forming apparatus comprising:
said media storage apparatus according to
an image forming portion that forms a developer image;
a transfer portion that transfers said developer image to said recording medium fed from said media storage apparatus, and
a fixing portion that fixes said developer image to said recording medium.
22. An image forming apparatus comprising:
said media storage apparatus according to
an image forming portion that forms a developer image;
a transferring transfer portion that transfers said developer image to said recording medium fed from said media storing portion storage apparatus, and
a fixing portion that fixes said developer image to said recording medium.
0. 24. The media storage apparatus according to claim 23, wherein said first positioning groove and said second positioning groove are different from each other in depth.
0. 25. The media storage apparatus according to claim 23, wherein said first positioning groove and said second positioning groove are different from each other in opening area.
0. 26. The media storage apparatus according to claim 23, wherein said first positioning groove and said second positioning groove are different from each other in both depth and opening area.
0. 27. The media storage apparatus according to claim 23, wherein a flat portion is formed between said first positioning groove and said second positioning groove,
a plurality of said second positioning grooves are arranged on the same row along a sliding direction of said guide member;
wherein said first positioning groove and said flat portion are arranged on the same row as said plurality of said second positioning grooves along said sliding direction of said guide member, and
wherein a width of said flat portion in said sliding direction of said guide member is wider than a width of a portion between edges of adjacent two second positioning grooves of said plurality of said second positioning grooves.
0. 28. An image forming apparatus, comprising:
said media storage apparatus according to claim 23;
an image forming portion that forms a developer image;
a transfer portion that transfers said developer image to said recording medium fed from said media storage apparatus, and
a fixing portion that fixes said developer image to said recording medium.
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This invention relates to an image forming apparatus such as an electrophotographic printer, a facsimile, a copier or the like. In particular, this invention relates to a media storage apparatus for storing recording media used in the image forming apparatus.
Conventionally, a sheet cassette of an image forming apparatus has a sheet guiding mechanism for guiding the sheets. The sheet guiding mechanism includes, for example, a sheet rear end guide that guides the rear end of recording media. The sheet rear end guide engages one of grooves formed at constant intervals on a bottom frame of the sheet cassette so that the position of the sheet rear end guide is determined. Such a sheet cassette is disclosed in, for example, Japanese Laid-Open Patent Publication No. 8-34525 (in particular, pages 2-3 and FIG. 1).
In the above described conventional sheet cassette, if the grooves are formed at narrow intervals, the sheet rear end guide can be fixed at a substantially arbitrary position. Therefore, the sheet rear end guide is capable of guiding various kind of irregular-sized sheets in accordance with the needs of the user, as well as regular-sized sheets such as A4, A3 or the like. However, if the intervals between the grooves become narrower, it becomes difficult to identify the best-suited fixing position. In such a case, even when the regular-sized sheets such as A4, A3 or the like are set in the sheet cassette, it is difficult to fix the sheet rear end guide at a predetermined (best-suited) fixing position.
An object of the present invention is to provide a media storage apparatus and an image forming apparatus in which a guide member can be easily positioned when regular-sized recording media (A4 size, A3 size or the like) are set, and in which the guide member can be used to guide irregular-sized recording media.
The present invention provides a media storage apparatus including a media storing body that stores recording media, a guide member slidably provided in the media storing body and guiding the recording media, a first positioning portion that positions the guide member at a predetermined position where the guide member guides regular-sized recording media, and a second positioning portion that positions the guide member at a position where the guide member guides irregular-sized recording media. The first positioning portion and the second positioning portion have different shapes.
The present invention also provides a media storage apparatus including a media storing body that stores recording media, a guide member slidably provided in the media storing body and guiding the recording media, a first positioning portion that positions the guide member at a predetermined position where the guide member guides regular-sized recording media, and a second positioning portion that positions the guide member at a position where the guide member guides irregular-sized recording media. The guide member includes a first claw portion that engages the first positioning portion, a second claw portion that engages the second positioning portion, and a switching mechanism that selectively causes one of the first and second claw portions to engage corresponding one of the first and second positioning portions.
The present invention also provides an image forming apparatus including the above described media storage apparatus, an image forming portion that forms a developer image, a transferring portion that transfers the developer image to a recording medium fed from the media storing portion, a fixing portion that fixes the developer image to the recording medium.
With such an arrangement, the guide member can be easily positioned when the regular-sized recording media are set in the media storing body, and the guide member can be positioned with a high positioning accuracy when the irregular-sized recording media are set in the media storing body.
In the attached drawings:
Embodiments of the present invention will be described with reference to the attached drawings.
In
An image forming portion 3 for forming the toner image includes a photosensitive drum 41 for bearing the toner image, a charging roller 42 that uniformly charges the surface of the photosensitive drum 41, an exposing head 43 composed of LED array that form a latent image on the surface of the photosensitive drum 41, a developing unit 45 that stores toner (developer) and forms the toner image on the latent image using a developing roller 45, and a cleaning blade 46 that scrapes off the toner from the surface of the photosensitive drum 41 after the toner image is transferred to the recording medium 11.
The fixing unit 4 includes a pair or rollers, i.e., a heat roller 51 having an internal heat source such as a halogen lamp (not shown) and a backup roller 52. The fixing unit 4 applies heat and pressure to the toner image on the recording medium 11 fed from the image forming portion 3 and the transfer roller 30 so that the toner image is molten and fixed to the recording medium 11.
Next, the printing operation of the image forming apparatus 1 will be described. The recording media 11 set in the media cassette 2 are pressed by the supply roller 21 rotating in the direction shown by an arrow. The recording medium 11 is fed out of a placing plate 102, and is fed into the feeding path 24 one by one by the cooperation of the separation frame 103 (pushed by a not shown pushing unit clockwise about a shaft 103a) and the supply roller 21. Further, the recording medium 11 is fed by the feeding rollers 22 and reaches the detecting position of the entering sensor 27. In synchronization with the detection of the passage of the recording medium 11 by the entering sensor 27, the registration rollers 23 start rotating. The skew of the recording medium 11 is corrected by the registration rollers 23, and then the recording medium 11 reaches the detecting position of the passage sensor 28. In synchronization with detection of the passage of the recording medium 11 by the passage sensor 28, the image forming portion 3 starts forming the toner image. The toner image formed on the surface of the photosensitive drum 41 is transferred to the recording medium 11 (having been fed) by the transfer roller 30.
The image forming portion 3 forms the toner image as follows. First, the surface of the photosensitive drum 41 rotating in a direction shown by an arrow is negatively charged by the charging roller 42. When the charged surface of the photosensitive drum 41 reaches the position below the exposing head 43, the exposing head 43 performs the exposure to form the latent image on the surface of the photosensitive drum 41. The latent image is developed by the developing roller 44 in the developing unit 45, and the toner image is formed. The toner image is transferred to the recording medium 11 by the transfer roller 30. The residual toner remaining on the surface of the photosensitive drum 41 is removed by the cleaning blade 46.
The toner image (having been transferred to the recording medium 11 by the transfer roller 30) is fixed to the recording medium 11 by the fixing process at high temperature and high pressure applied by the heat roller 51 and the backup roller 52 of the fixing unit 4. The recording medium 11 to which the toner image is fixed by the fixing process is ejected by the eject rollers 25 and 26 to the eject stacker 31. The ejection of the recording medium 11 is detected by the ejection sensor 29.
Next, the media cassette 2 will be described.
As shown in
A pair of side guides 104 and 105 (as sheet guides in the widthwise direction) are disposed on the placing plate 102. The side guides 104 and 105 are supported on the placing plate 102 so that the side guides 104 and 105 are slidable in the direction of the Y-axis. As shown in
Next, the tail guide 110 and a holding mechanism thereof will be described. The tail guide 110 is provided for guiding the position of the recording media 11 set in the media cassette 2 in the longitudinal direction (i.e., the direction of the X-axis). The feeding side of the recording media 11 set in the media cassette 2 (i.e., the negative side in the direction of the X-axis) is referred to as a front side, and the opposite side is referred to as a rear side.
A movement-guide elongated hole 116 is formed on the bottom plate 115 of the cassette frame 101. The movement-guide elongated hole 116 extends from the rear end to the center in the feeding direction of the recording media 11. A plurality of first grooves 117 (i.e., positioning portions) are formed on both sides of the movement-guide elongated hole 116 in bilaterally symmetric manner. A plurality of second grooves 118 (i.e., positioning portions) are formed on both sides of the movement-guide elongated hole 116 in bilaterally symmetric manner. A side wall formed on the separation frame 103 side of the cassette frame 101 in the longitudinal direction (i.e., the direction of the X-axis) constitutes a media reference surface 120 against which the front ends of the recording media 11 (i.e., the front end of the stack of the recording media 11) abut.
The first grooves 117 are disposed at predetermined distances (described later) from the media reference surface 120. The second grooves 118 are formed at predetermined intervals to constitute groove-arrays 121 so that flat portions 119 lie between the groove-arrays 121 and the first grooves 117. The opening area of each first groove 117 is larger than the opening area of each second groove 118, and the depth of each first groove 117 is deeper than the depth of each second groove 118, so that claw portions 134 and 135 (
As shown in
With such a configuration, the tail guide 110 is guided by the movement-guide elongated hole 116 and becomes slidably movable in the longitudinal direction thereof (i.e., the direction of X-axis). In this state, as shown in
In this Embodiment, as shown in
The positions of the first grooves 117 are so determined that the distance from the medium reference surface 120 to the medium regulation plate 131 of the tail guide 110 is, for example, the same as or slightly longer than the longer sides of the regular-sized recording media 11 (i.e., A3, A4, A5, B5 or the like of Japan Industrial Standard) so that the regular-sized recording media 11 can be suitably set, when the claw portions 134 and 135 of the tail guide 110 engage the first grooves 117 and are locked by the first grooves 117. In the groove-arrays 121, the second grooves 118 are formed at narrower pitches than the first grooves 117, so that the second grooves 118 can be used for the irregular-sized recording media 11.
Next, the operation of the tail guide 110 in the case of setting the recording media 11 in the media cassette 2 will be described with reference to
In the case of setting the regular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
As an alternative method, it is also possible to push the rear ends of the recording media 11 by the tail guide 110 to the position where the front ends of the recording media 11 abut against the media reference surface 120. In this case, the tail guide 110 is fixed at the position where the front ends of the recording media 11 abut against the media reference surface 120. As another alternative method, it is also possible to previously fix the tail guide 110 at a fixing position corresponding to the regular-sized recording media 11, and then set the recording media 11 to a position defined between the media reference surface 120 and the tail guide 110.
In the case of setting the irregular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
In this Embodiment 1, the first grooves 117, the second grooves 118 and the flat portions 119 are arranged in the form of two arrays on both sides of the movement-guide elongated hole 116. However, it is also possible to provide only one array of grooves. In such a case, the claw portion of the tail guide 110 engages only one engaging portion (groove), and therefore the confirmation of the engagement becomes easier and the operability can be enhanced.
As described above, according to Embodiment 1, during the setting of the regular-sized recording media, the tail guide defining the rear end of the recording media in the feeding direction can be positioned with a high positioning accuracy. Further, the free areas are provided ahead of and behind the first grooves (for the regular-sized recording media), and the first grooves are deeper than the second grooves for the irregular-sized recording media, with the result that it becomes easy to confirm the tail guide being fixed at the position for the regular-sized recording media. Moreover, during the setting of the irregular-sized recording media, the tail guide can be positioned with a high positioning accuracy.
The media cassette 202 according to Embodiment 2 is mainly different from the above described media cassette 2 according to Embodiment 1 (
As shown in
A pair of side guides 104 and 105 (as sheet guides in the widthwise direction) are disposed on the placing plate 102 for setting the recording media 11. The side guides 104 and 105 are supported on the placing plate 102 so that the side guides 104 and 105 are slidable in the direction of the Y-axis. As shown in
Next, the tail guide 210 and a holding mechanism thereof will be described. The tail guide 210 is provided for guiding the position of the recording media 11 set in the media cassette 202 in the longitudinal direction (i.e., the direction of the X-axis).
A movement-guide elongated hole 116 is formed on the bottom plate 115 of the cassette frame 101, and extends from the rear end to the center in the feeding direction of the recording media 11. First grooves 117, second grooves 118 and third grooves 217 (as engaging grooves) are formed on the bottom plate 115. The first grooves 117, the second grooves 118 and the third grooves 217 have different shapes. The first grooves 117 are formed on one side of the movement-guide elongated hole 116. The second grooves 118 and the third grooves 217 are formed on the other side of the movement-guide elongated hole 116. The shapes of the first grooves 117 and the second grooves 118 are as described in Embodiment 1. As shown in
A side wall formed on the separation frame 103 side of the cassette frame 101 in the longitudinal direction (i.e., the direction of the X-axis) constitutes a media reference surface 120 against which the front ends of the recording media 11 abut. The first grooves 117 are disposed at predetermined distances (described later) from the media reference surface 120. The third grooves 217 are formed to face the first grooves 117 via the movement-guide elongated hole 116. The second grooves 118 are continuously formed at predetermined intervals to constitute groove-arrays 121. The second grooves 118 (the groove-arrays 121) are formed on areas with no third grooves 217, and are aligned in the same array with the third grooves 217.
The tail guide 210 is guided by the movement-guide elongated hole 116 formed on the cassette frame 101 and becomes slidably movable in the longitudinal direction thereof (i.e., the direction of X-axis) In this state, as shown in
The positions of the first groove 117 are so determined that the distance from the medium reference surface 120 to the medium regulation plate 131 of the tail guide 210 is, for example, the same as or slightly longer than the longer sides of the regular-sized recording media 11 (i.e., A3, A4, A5, B5 or the like of Japan Industrial standard) so the regular-sized recording media 11 can be suitably set, in a state where the claw portion 135 of the tail guide 210 engages the first groove 117 and is locked by the first groove 117. In the groove-arrays 121, the second grooves 118 are formed at narrower pitches than the first grooves 117 so that the second grooves 118 can be used for the irregular-sized recording media.
Next, the operation of the tail guide 210 in the case of setting the recording media 11 in the media cassette 202 will be described with reference to
In the case of setting the regular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
As an alternative method, it is also possible to push the rear ends of the recording media 11 by the tail guide 210 to the position where the front ends of the recording media 11 abut against the media reference surface 120. In this case, the tail guide 210 is fixed at a position where the front ends of the recording media 11 abut against the media reference surface 120. As another alternative method, it is also possible to previously fix the tail guide 210 at a fixing position corresponding to the regular-sized recording media 11, and then set the recording media 11 to the position defined between the media reference surface 120 and the tail guide 210.
In the case of setting the irregular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
As described above, according to Embodiment 2, the tail guide can be fixed by means of the engagement between the claw portion and the groove at one position, and therefore the operability of the tail guide can be enhanced. Further, during the setting of the regular-sized recording media, the tail guide is in the free-state at positions ahead of and behind the fixing position, and therefore it becomes easy to confirm that the tail guide being fixed at the position for the regular-sized recording media. Furthermore, during the setting of the irregular-sized recording media, the tail guide can be fixed with a high positioning accuracy.
The media cassette 302 according to Embodiment 3 is mainly different from the above described media cassette 202 according to Embodiment 2 shown in
The tail guide 210 and a holding mechanism thereof will be described. The tail guide 210 is provided for guiding the position of the recording media 11 set in the media cassette 302 in the longitudinal direction (i.e., the direction of the X-axis).
A movement-guide elongated hole 116 is formed on the bottom plate 115 of the cassette frame 101, and extends from the rear end to the center in the feeding direction of the recording media 11. First grooves 117, second grooves 118, third grooves 217 and fourth grooves 317 (as engaging grooves) are formed on the bottom plate 115. The first grooves 117, the second grooves 118, the third grooves 217 and the fourth grooves 317 have different shapes. The first grooves 117 and the fourth grooves 317 are formed on one side of the movement-guide elongated hole 116. The second grooves 118 and the third grooves 217 are formed on the other side of the movement-guide elongated hole 116. The shapes of the first grooves 117 and the second grooves 118 are as described in Embodiment 1. As shown in
The positions of the first grooves 117, the second grooves 118 and the third grooves 217 are as described in Embodiment 2, and therefore duplicate explanation will be omitted. The fourth grooves 317 are formed on areas with no first grooves 117 (i.e., positions facing the groove-arrays 121 via the movement-guide elongated hole 116) and are aligned in the same array with the first grooves 117. The fourth grooves 317 have the widths substantially the same as or wider than the second grooves 181, i.e., groove-arrays 121.
Next, the operation of the tail guide 210 in the case of setting the recording media 11 in the media cassette 302 will be described with reference to
In the case of setting the regular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
As an alternative method, it is also possible to push the rear ends of the recording media 11 by the tail guide 210 to the position where the front ends of the recording media 11 abut against the media reference surface 120. In this case, the tail guide 210 is fixed at a position where the front ends of the recording media 11 abut against the media reference surface 120. As another alternative method, it is also possible to previously fix the tail guide 210 at a fixing position corresponding to the regular-sized recording media, and then set the recording media 11 to the position defined between the media reference surface 120 and the tail guide 210.
In the case of setting the irregular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
Moreover, as shown in
As described above, according to Embodiment 3, the tail guide can be fixed by means of the engagement between the claw portion and the groove at one position, and therefore the operability of the tail guide can be enhanced. Further, during the setting of the regular-sized recording media, the tail guide is in the free-state at positions ahead of and behind the fixing position, and therefore it becomes easy to confirm the tail guide being fixed at the position for the regular-sized recording media. Furthermore, during the setting of the irregular-sized recording media, the tail guide can be fixed with a high positioning accuracy. Moreover, when the tail guide is fixed, the deformation (distortion or the like) of the lock lever of the tail guide hardly occurs, and therefore the operability can be further enhanced.
The media cassette 402 according to Embodiment 4 is mainly different from the above described media cassette 2 according to Embodiment 1 (
The tail guide 410 and a holding mechanism thereof will be described. The tail guide 410 is provided for guiding the position of the recording media 11 set in the media cassette 402 in the longitudinal direction (i.e., the direction of the X-axis).
A movement-guide elongated hole 116 is formed on the bottom plate 115 of the cassette frame 101, and extends from the rear end to the center in the feeding direction of the recording media 11. First grooves 117 and second grooves 118 having different shapes are formed on the bottom plate 115. The first grooves 117 are formed on one side of the movement-guide elongated hole 116. The second grooves 118 are formed on the other side of the movement-guide elongated hole 116. The shapes of the first grooves 117 and the second grooves 118 are as described in Embodiment 1. The opening area of each first groove 117 is larger than the opening area of each second groove 118, and the depth of each first groove 117 is deeper than the depth of each second groove 118.
A side wall formed on the separation frame 103 side of the cassette frame 101 in the longitudinal direction (i.e., the direction of the X-axis) constitutes a media reference surface 120 against which the front ends of the recording media 11 abut. The first grooves 117 are disposed at predetermined distances from the media reference surface 120. The second grooves 118 are continuously formed at predetermined intervals and form groove-arrays 421.
A coil spring 453 is provided between the operation arm 451c and the sliding member 455. A coil spring 454 is provided between the operation arm 451d and the sliding member 456. A protrusion 452 is provided on the media regulating plate 131. The protrusion 452 has a spherical portion with a flat end 452a. The protrusion 452 is pushed in the positive direction along X-axis by a not shown pushing unit so that the spherical portion (having the flat end 452a) protrudes from the backside of the media regulating plate 131 to the position where the protrusion 452 contacts the lock arm 451b. Further movement of the protrusion 452 in the direction of the X-axis is restricted. The other configuration (i.e., the suspended portion 136 (
The tail guide 410 is guided by the movement-guide elongated hole 116 formed on the cassette frame 101 and becomes slidably movable in the longitudinal direction thereof (i.e., the direction of X-axis). In this state, as described later, the claw portion 455a of the sliding member 455 of the tail guide 410 engages the second groove 118, or the claw portion 456a of the sliding member 456 of the tail guide 410 engages the first groove 117, so that the tail guide 410 is fixed. Hereinafter, the fixing operation will be described with reference to
When the movable member 451 is rotated counterclockwise from the state shown in
In this regard, it is preferable to restrict a further downward movement of the sliding member 455 using a restricting unit (not shown). The respective strengths of the coil spring 453 and the pushing unit (not shown) of the protrusion 452 are so set that the clockwise rotation of the lock arm 451b of the movable member 451 is prevented by the protrusion 452 (pushed by the not shown pushing unit) when the lock arm 451b is pushed by the counterforce of the coil spring 453, and that the rotation of the movable member 451 is allowed when the user manually rotates the movable member 451 to the neutral position (
Similarly, when the movable member 451 is rotated clockwise from the state shown in
In this regard, it is preferable to restrict a further downward movement of the sliding member 456 using a restricting unit (not shown) The respective strengths of the coil spring 454 and the pushing unit (not shown) of the protrusion 452 are so set that the counterclockwise rotation of the lock arm 451b of the movable member 451 is prevented by the protrusion 452 (pushed by the not shown pushing unit) when the lock arm 451b of the movable member 451 is pushed by the counterforce of the coil spring 454, and that the rotation of the movable member 451 is allowed when the user manually rotates the movable member 451 to the neutral position (
The respective protruding amounts of the claw portions 455a and 456a are set according to the depths of the second grooves 118 and the first grooves 117 which the claw portions 455a and 456a respectively engage. The protruding amount of the claw portion 456a is larger than the protruding amount of the claw portion 455a. The movable member 451, the protrusion 452, the coil springs 453 and 454 and the like constitute a switching mechanism of the claw portions 455a and 456a.
The positions of the first grooves 117 are so determined that the distance from the medium reference surface 120 to the medium regulation plate 131 of the tail guide 410 is, for example, the same as or slightly longer than the longer sides of the regular-sized recording media 11 (such as A3, A4, A5, B5 or the like of Japan Industrial Standard) so that the regular-sized recording media 11 can be suitably set, when the claw portion 456a of the sliding member 456 engage the above described first groove 117 and is locked. In the groove-arrays 421, the second grooves 118 are formed at narrower pitches than the first grooves 117.
Next, the operation of the tail guide 410 in the case of setting the recording media 11 in the media cassette 302 will be described with reference to
In the case of setting the regular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
As an alternative method, it is also possible to push the rear ends of the recording media 11 by the tail guide 410 to the position where the front ends of the recording media 11 abut against the media reference surface 120. In this case, the tail guide 410 is fixed at a position where the front ends of the recording media 11 abut against the media reference surface 120. As another alternative method, it is also possible to previously fix the tail guide 410 at a fixing position corresponding to the regular-sized recording media, and then set the recording media 11 to a position defined between the media reference surface 120 and the tail guide 410.
In the case of setting the irregular-sized recording media 11, the recording media 11 are stored in such a manner that the front ends of the recording media 11 abut against the media reference surface 120 (
With such a configuration, the tail guide 410 can be fixed to the cassette frame 101 by means of the engagement between the claw portion and the groove at one position, in either case of setting the regular-sized recording media 11 and setting the irregular-sized recording media 11.
In this Embodiment 4, the first grooves 117 and the second grooves 118 whose shapes are different from each other are formed on both sides of the movement-guide elongated hole 116. However, it is also possible that the shapes (i.e., the opening areas and depths) of the first grooves 117 and the second grooves 118 are the same as each other.
As described above, according to Embodiment 4, the tail guide can be fixed by means of the engagement between the claw portion and the groove at one position, and therefore the operability of the tail guide can be enhanced. Further, when one of two sliding members (provided adjacent to each other) engages the groove, the other of the sliding members is surely retracted in the tail guide, and therefore the fixing operation can be surely performed.
In the above described embodiments, the media storage apparatus and the image forming apparatus according to the present invention are applied to the electrophotographic printer. However, the present invention can also be applied to an MFP (Multi Function Printer), a facsimile, or a copier. Further, the present invention can also be applied to a two-stage tray or a multistage tray.
While the preferred embodiments of the present invention have been illustrated in detail, it should be apparent that modifications and improvements may be made to the invention without departing from the spirit and scope of the invention as described in the following claims.
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