1. Field of the Invention
The present invention relates to a multifunction apparatus.
2. Description of the Related Art
A conventional multifunction image processing apparatus includes a printer and a scanner mounted on the printer. The printer performs image formation by electrophotography. The scanner reads an image of an original. The cover of the scanner is opened through an angle for replacement of an original or maintenance of the scanner. The printer cover is opened together with the scanner for maintenance of the printer.
A conventional multifunction image processing apparatus suffers from a problem in that when the printer cover is opened with the cover of the scanner opened, the scanner will become unstable preventing efficient maintenance of the printer.
An object of the invention is to solve the problem of conventional multifunction apparatuses.
Another object of the invention is to provide an image processing apparatus and a multifunction apparatus in which maintenance of a lower apparatus of stacked two apparatuses can be performed smoothly and efficiently.
A multifunction apparatus includes two units. A first unit including a first lid is pivotally mounted to the first unit, the first lid being moveable either to a first opening position or to a first closing position. A second unit is mounted to the first lid and includes a second lid pivotally mounted to the second unit. The second lid is moveable either to a second opening position or to a second closing position. A first locking member is pivotally mounted to the second unit. A second locking member pivotally mounted to the second unit. When the second lid is pivoted from the second closing position to the second opening position, the second lid disengages from the first locking member allowing the first locking member to engage the first unit to lock the second unit to the first unit. When the first lid is pivoted from the first closing position to the first opening direction, the first lid allows the second locking member to disengage from the first unit such that the second locking member locks the second lid to the second unit.
The multifunction apparatus further includes a first urging member and a second urging member. The first urging member urges the first locking member in such a direction that the first locking member engages the first unit, locking the second unit to the first unit. The second urging member urges the second locking member in such a direction that the second locking member engages the second lid, locking the second lid to the second unit.
A multifunction apparatus includes two units. A first unit supports a second unit such that the second unit is pivotal with respect to the first unit. The second unit includes a lid pivotally mounted to the second unit. A stopper is pivotally mounted to the second unit. When the lid is pivoted in an opening direction causing the stopper to pivot to a first position where the stopper abuts the second unit and the lid, preventing the lid from further pivoting. When the second unit is pivoted in an opening direction, the stopper pivots together with the second unit to a second position where the stopper prevents the second unit from further pivoting.
The stopper includes a first engagement portion and a second engagement portion. When the stopper pivots to the first position, the first engagement portion abuts the second unit to prevent the lid from pivoting further. When the stopper pivots to the second position, the second engagement portion abuts the first unit to prevent the second unit from pivoting further.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus are not limiting the present invention, and wherein:
The invention will be described in terms of an image processing apparatus with reference to the accompanying drawings.
First Embodiment
Referring to
The printer 10 includes a printer cover 21. The printer cover 21 is pivotal about pins A (only one of which is shown in
Referring to
The image forming units BK, 17Y, 17M, and 17C form black, yellow, magenta, and cyan images, respectively. The image forming units BK, 17Y, 17M, and 17C are substantially identical, and differ in color only. For simplicity, only the image forming unit BK will be described, it being understood that the others may work in a similar fashion. The image forming unit BK includes a charging roller, a photoconductive drum 17BK, a developing roller, a toner supplying roller, a developing blade, and a cleaning blade.
An exposing unit is disposed over the photoconductive drum 17BK, and illuminates the charged surface of the photoconductive drum 17BK to form an electrostatic latent image on the photoconductive drum 17BK. A transfer unit U1 is disposed under the image forming units BK, 17Y, 17M, and 17C. The transfer unit U1 includes transfer rollers and a transfer belt that is entrained about the transfer rollers and runs along the line of the transfer rollers.
The feed roller 12 incorporates a one-way clutch, which rotates in one direction to transmit a drive force and in the other direction not to transmit a drive force. The fixing unit 18 includes a heat roller and a pressure roller.
The scanner 30 includes a scanner body 31, a scanner cover 32, and an automatic document feeder (ADF) 33. The ADF 33 cooperates with the scanner cover 32 to automatically feed a plurality of originals into the scanner 30. When the operator opens the scanner cover 32 in an opening direction for replacing the original on a flat bed formed on top of the scanner body 31, the scanner cover 32 is pivoted about pins B (
Referring to
Referring to
The first engagement member 23 may be separate from or in one piece with the printer cover 21. The first engagement member 23 projects outwardly from a side frame 22, and is formed with a hole 23h therein. Instead of using the engagement member 23, a groove or a hole may be formed in the printer cover 21 such that the hook 36a may enter the groove or the hole to achieve a hooking engagement with the printer cover 21.
A torsion spring 37 fits over the shaft S1, and has one end engaging a bottom of the scanner body 31 and another end engaging a projection 36b formed on the first bar m1 of the printer-locking lever 36. The spring 37 urges the printer-locking lever 36 in a direction opposite to a direction shown by arrow F, causing the hook 36a to engage the engagement piece 23a.
An engagement member 34 is formed on the scanner body 31. When the printer-locking lever 36 rotates about the shaft S1, the free end portion 36c of the first bar m1 engages the engaging member 34 or disengages from the engaging member 34.
When the scanner cover 32 is rotated in a closing direction, the engagement member 34 pushes the free end portion 36c of the first bar m1 such that the printer-locking lever 36 rotates in the direction shown by arrow F against the urging force of the spring 37, and therefore the hook 36a disengages from the engagement piece 23a.
Referring to
A torsion spring 39 fits over the shaft S2, and has one end engaging the bottom of the scanner body 31 and another end engaging a projection 38b formed on the first bar m3 of the scanner-locking lever 38. The spring 39 urges the scanner-locking lever 38 in a direction opposite to a direction shown by arrow G so that the hook 38a engages an engagement piece 35.
The engagement member 23 includes an abutment portion 23b formed adjacent the engagement piece 23a. When the scanner-locking lever 38 rotates about the shaft S2, the free end portion of the second bar m4 engages the abutment portion 23b or disengages from the abutment portion 23b.
When the printer cover 21 is rotated in the closing direction, the engagement member 23 pushes the free end 38c of the scanner-locking lever 38, causing the scanner-locking lever 38 to rotate in the direction shown by arrow G against the urging force of the spring 39 so that the hook 38a disengages from the engagement piece 35.
The printer-locking lever 36 is rotated in the C1 direction against the urging force of the spring 37 as shown in
{Operation}
The operation of the opening/closing restricting mechanism 101 of the aforementioned configuration will be described in more detail.
Referring to
As a result, the printer cover 21 of the printer 10 is locked as shown in
When the operator rotates the scanner cover 32 in the closing direction after removing the original placed on the flat bed of the scanner body 31, the abutment portion 34a pushes down the free end 36c of the first bar m1, causing the printer-locking lever 36 to rotate in a direction opposite to the direction shown by arrow H, so that both the scanner cover 32 and the printer cover 21 are locked as shown in
When the operator opens the printer cover 21 for maintenance of the printer 10 as shown in
As described above, opening the scanner cover 32 causes the hook 36a to engage the engagement piece 23a so that the printer cover 21 cannot be opened. Therefore, prior to the maintenance of the printer 10, the scanner cover 32 is opened, then the original is removed from the flat bed of the scanner body 31, and finally the scanner cover 32 is closed so that the hook 36a moves out of engagement with the engagement piece 23a. Then, the printer cover 21 is ready to be opened.
Rotating the printer cover 21 in the opening direction, the hook 38a disengages from the engagement piece 35, so that the scanner cover 32 remains closed. The aforementioned operation of the opening/closing restricting mechanism 101 improves the maintenance efficiency of the printer 10, especially when the scanner 31 is equipped with the ADF 33 and the scanner 31 is large in size.
As described above, one of the printer cover 21 and the scanner cover 32 is opened, the other of the printer cover 21 and the scanner cover 32 remains locked. Thus, the configuration eliminates operator interventions to lock and unlock the printer cover and the scanner cover manually, providing user friendliness.
Second Embodiment
Elements similar to those in the first embodiment have been given the same reference numerals and their description is omitted.
An opening/closing restricting mechanism 102 includes the printer-locking lever 36 and first, second, and third scanner-locking levers 38, 40, and 46 which are rotatable about a shaft S2.
Referring to
Torsion springs 39, 41, and 43 fit over the shaft S2 and each have one end engaging the bottom of the scanner body 31 and another end engaging a projection 38b, 40b, or 42b of the first bar m3 of the scanner-locking lever 38, 40, or 42. The springs 39, 41, and 43 urge the scanner-locking lever 38, 40, and 42 in a direction opposite to a direction shown by arrow G, causing the hooks 38a, 40a, and 42a to engage the engagement piece 44.
The engagement piece 44 includes three stepped surfaces. When the scanner cover 32 is rotated in the opening direction, if the angle formed by the scanner cover 32 and the flat bed is about 0 degrees, a first one of the surfaces engages the hook 38a. When the scanner cover 32 is rotated in the opening direction, if the angle formed by the scanner cover 32 and the flat bed is about 5 degrees, a second one of the surfaces engages the hook 40a. When the scanner cover 32 is rotated in the opening direction, if the angle formed by the scanner cover 32 and the flat bed is about 10 degrees, a third one of the surfaces engages the hook 42a.
{Operation}
The operation of the opening/closing restricting mechanism 102 will be described.
When the multifunction apparatus is ready for normal use, the scanner cover 32 and the printer cover 21 are closed. At this moment, the free end of the first bar m1 of the printer-locking bar 36 is in engagement with the abutment portion 34a of the engagement piece 34, so that the hook 36a of the printer-locking lever 36 is out of engagement with the engagement piece 23a. Referring to
When the user opens the scanner cover 32, the abutment portion 34a disengages from the free end of the first bar m1 of the printer-locking lever 36, the urging force of the spring 37 causing the printer-locking lever 36 to rotate in a direction opposite to a direction shown by arrow F so that the hook 36a engages the engagement piece 23a.
{Thin Original}
A description will be given of the operation of the opening/closing restricting mechanism 102 when a relatively thin original is placed.
Referring to
A description will be given of the operation of the opening/closing restricting mechanism 102 when the printer cover of the printer 10 is opened with the original 45 remaining on the flat bed.
The scanner cover 32 forms an angle of about 5 degrees with the flat bed when the original 45 having a thickness of about 5 mm is placed on the flat bed. As shown in
{Thick Original}
The operation of the opening/closing restricting mechanism 102 when a relatively thick original is placed will be described.
Referring to
A description will be given of the operation of the opening/closing restricting mechanism 102 when the printer cover 21 is opened with the original 46 remaining on the flat bed.
The scanner cover 32 forms an angle of about 10 degrees with the flat bed when the original 46 having a thickness of about 15 mm is placed on the flat bed. As shown in
As described above, the scanner-locking levers 38, 40, and 42 are pivotal about the shaft S2 and the hooks 38a, 40a, and 42a alternately engage the engagement piece 44 in a step-wise fashion in accordance with the thickness of the original placed on the flat bed. Thus, even if the printer cover 21 is opened with the original 45 or 46 having a certain thickness remaining on the flat bed, the originals 45 or 46 are still prevented from dropping from between the flat bed and the scanner cover 32.
While the invention has been described in terms of a case in which the printer cover of the printer 10 is opened and closed together with the scanner body 31, the present invention is also applicable to a case in which the scanner body 31 and the printer cover 21 are opened or closed independently.
Although the present invention has been described with respect to a multifunction apparatus, the invention may also be applicable to a printer and a copying machine.
Third Embodiment
Referring to FIGS. 31 and 32-34, the multifunction apparatus 311 includes a printer 312 and a scanner 313. The printer 312 operates as an image forming apparatus. The scanner 313 is mounted on the printer via a stay 312a.
The printer 312 is a tandem type color image forming apparatus that forms yellow, magenta, cyan, and black images on paper, not shown. Alternatively, the printer 312 may employ another form of image forming method such as a laser type, ink jet type, or a dot impact type.
Because the ADF 333 is provided on the document cover 326, the center of gravity of the document cover 326 is slightly closer to the ADF 333 than a geometrical center of the document cover 326. As shown in
The charging roller 318 charges the surface of the photoconductive drum 317. The print head illuminates the charged surface of the photoconductive drum 317 to form an electrostatic latent image. The developing roller supplies toner to the photoconductive drum 317 to develop the electrostatic latent image into a toner image.
The paper is fed on a sheet-by-sheet basis from the paper cassette 316 to transfer points defined between the photoconductive drum 317 and the transfer rollers. The transfer roller 321 transfers the toner image from the photoconductive drum 317 onto the paper. As the paper advances through the plurality of process cartridges 320, the toner images of the respective colors are transferred onto the paper one over the other in registration, thereby forming a full color toner image on the paper. The paper is then advanced to the fixing unit 322 where the full color toner image is fused into a permanent full color image. The paper is then discharged by a discharging unit 323 onto a stacker.
The scanner 313 includes a flat bed 325 and a document cover 326. An automatic document feeder (ADF) 333 is disposed on the document cover 326, and automatically feeds a plurality of sheets of original image into the scanner 313 on a sheet-by-sheet basis. The flat bed 25 includes a carriage 327 that is movable reciprocally along an advancing direction, and an original-reading surface 328. The carriage 327 is equipped with an image sensor unit 329. The image sensor unit 329 reads the image of an original placed on the original-reading surface 328, and converts the image into an electrical signal. Then, the image sensor unit 329 provides the electrical signal to the printer 12, which in turn prints an image in accordance with the electrical signal.
The stay 312a (
Referring to
Referring to
When the document cover 326 is rotated with the scanner 313 closed, the stopper 324 rotates relative to the scanner 313 to a first position, while being in slide contact with the document cover 326. As a result, the side surface e1 of the stopper 324 becomes in contact with the rear surface Sb and there will be a gap I between the side surface E2 and the rear surface Sb. Therefore, even if the rear surface Sa projects more rearward than the rear surface Sb, the side surfaces e2 are not in contact with the rear surface Sa, ensuring that the rear surface Sb come in contact with the abutment portion 341 and the first side surface e1.
When the document cover 326 and the scanner 313 is rotated to completely open, the stopper 324 rotates to a second position together with the scanner 313. A torsion spring 340 is provide to urge the stopper 324 against the document cover 326, ensuring that when the scanner 313 and document cover 326 are rotated, the first side surface el is in contact with the rear surface Sb of the document cover 326. The torsion spring 340 has one end L1 fastened to the rear wall 324d and another end L2 engaging the bracket 356, and urges the stopper 324 clockwise in
Referring back to
The stopper 324 and support 343 serves as a rotation limiter.
Referring back to
As described above, as the scanner 313 rotates about the shaft 331, the guide portion 342 slides on the support surface 338, so that the stopper 324 does not rotate with respect to the document cover 326. Therefore, when the scanner 313 is rotated, the document cover 326 is prevented from rotating such that the document cover 326 remains closed.
Referring back to
The operation of the multifunction apparatus 311 will be described.
When a user rotates the document cover 326 about the shaft 332 in an opening direction J, the stopper 324 is pushed by the document cover 326, so that the stopper 324 is rotated counterclockwise (arrow K) about the shaft 336 with the first side surface e1 in contact with the rear surface Sb of the document cover 326 as shown in
Referring to
When the stopper 324 is at the home position, the third side surface e3 forms an angle θ5 with the rear surface Sa such that θ5=180−θ0 degrees where θ0 is an angle formed between the first side surface e1 and the third side surface e3.
When the stopper 324 is at the opened position, the first side surface e1 forms an angle θ7 with the rear surface Sa, the angle θ7 being equal to an angle θ6 formed between the original reading surface 28 and the lower surface of the document cover 326.
The angle θ0 is such that the third side surface e3 comes in intimate contact with the rear surface Sa when the document cover 326 is fully opened. Consequently, the angle e5 is equal to the angle θ7.
The angle θ0 is selected to be 115 degrees and the angles C and E are selected to be 65 degrees. In other words, the document cover 326 can be opened through an angle in the range of 0 to 65.
The angle θ5 may be selected to be larger than the angle θ7, in which case, the rear surface Sa comes in contact with the edge portion at which the second side surface e2 is contiguous with the third side surfaces e3.
When the maintenance of the printer 312 or the scanner 313 is performed, the scanner 313 is rotated about the shaft 331 to fully open.
At this moment, the stopper 324 is rotated together with the scanner 313 until the guide portion 342 and the fourth side surface e4 abut the support surface 38 and slide on the support surface 338. Thus, the stopper 324 is prevented from rotating about the shaft 36 any further so that the document cover 326 is prevented from rotating and opening relative to the scanner 313.
Referring to
Q is the circular locus of the guide portion 342 when the scanner is rotated. There is the following relation.
r1>r2
where r2 is a radius of a circle C and r1 is the radius of a circle Q. The r1 is selected to be 22.6 mm and r2 is selected to be 12.4 mm.
As described above, when the scanner 313 is rotated, the stopper 324 rotates together with the scanner 313 to restrict the rotation of the document cover 326, so that the document cover 326 remains closed. This not only prevents the document cover 326 from being damaged but also prevents the original sandwiched between the document cover 326 and the flat bed 325 from dropping.
Because the stopper 324 automatically restricts the rotation of the document cover 326 as the scanner 313 rotates, no human intervention is required so that the operability of the multifunction apparatus 311 is improved.
Fourth Embodiment
Elements similar to those in the third embodiment have been given the same reference numerals and their description is omitted.
Referring to
The stopper 451 includes a top wall 451a, a rear wall 451d that is contiguous with the top wall and extends obliquely downward, and side walls between which the top wall 451a and the rear wall 451d are sandwiched. Only a side wall 451c is shown in
When the scanner 413 is rotates, the stopper 451 rotates together with the scanner 413, so that the guide portion 453 and the fourth side surface e4 slide on the support surface 438. For this purpose, the support surface 438 lies in a cylindrical plane S (
As the scanner 413 is rotated, the guide portion 453 slides on the support surface 438, so that stopper 451 will not rotate relative to the scanner 413. This operation prevents the document cover 426 from rotating to open during the rotation of the scanner 413.
When the scanner 413 is closed with respect to the printer 412, the document cover 426 is at its closed position with respect to the scanner 413, defining a gap G1 in the range of 1.0 to 1.5 mm between the guide portion 453 and support 443.
The operation of the multifunction apparatus 411 will be described.
As the stopper 451 rotates about the shaft 436, the guide portion 453 moves in the cylindrical plane R (
When the scanner 413 is rotated in the opening direction with the original 461 remaining on the flat bed 425 and the document cover 426 closed, the support 43 enters the recess 455 to be received in the recess 455 intimately. Thus, the stopper 451 cannot rotate any further, preventing the document cover 426 from further rotate to further open. This not only prevents the document cover 426 from being damaged but also prevents the original 461 from dropping from between the document cover 426 and the flat bed 425.
The fourth embodiment employs only one recess 455 but more than one recess may be employed, in which case, the rotation of the stopper 451 may be stopped at a plurality of parts of the stopper 451, thereby ensuring that the scanner 413 is stopped with reliability even if the document 461 is thicker.
Fifth Embodiment
Elements similar to those in the third embodiment have been given the same reference numerals and their description is omitted.
Referring to
A stopper unit 574 is located substantially over the shaft 591 and near a shaft 532 about which a document cover 526 rotates.
Referring to
A positioning lever 579 is mounted on the shaft 532 under the document cover 526, and includes a first finger 579a and a second finger 579b and a recess 581 between the first and second fingers 579a and 579b. The document cover 526 is pivotal about the shaft 532 relative to the scanner 513.
The weight unit 76 and positioning lever 579 form a mechanism for restricting the rotation of the scanner 513. The operation of the multifunction apparatus of the aforementioned configuration will be described.
When the scanner 513 and the document cover 526 are at their closing positions (
Referring to
Further rotating the top cover 571 causes the scanner 513 to rotate into a tilted orientation as shown in
For example, when the operator rotates the scanner 513 with a thick original such as a book remaining on a flat bed 525, the engagement portion 578a enters the recess 581 as shown in dotted lines in
When the scanner 513 is opened by a large angle, the second finger 579b of the positioning lever 579 restricts the rotation of the document cover 526, so that the original remains closed. Thus, the configuration not only prevents the document cover 526 from being damaged but also prevents the original from dropping from between the document cover 526 and the flat bed 525.
While the third to fifth embodiments have been described in terms of the multifunction apparatus 11 having the scanner 513 stacked on the printer 512, the present invention may be applicable to a multifunction apparatus in which a copying machine or a facsimile machine is disposed on the printer, or a multifunction apparatus in which image forming sections are provided on the original reading section.
Number | Date | Country | Kind |
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2006-045542 | Feb 2006 | JP | national |
2006-340335 | Dec 2006 | JP | national |
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20070195381 A1 | Aug 2007 | US |