JP2006276480A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus, capable of reducing dead space by effectively using the upper part of the apparatus. <P>SOLUTION: In a compound machine 1 equipped with a printer 2 and a flat head scanner 3 disposed on the printer 2, the upper face of a document press cover 54 covering the glass face 55 of the document table 53 of the flat head scanner 3 so as to freely open or close has a table face 58 that extends horizontally flat when the document press cover 54 is in a closed position relative to the glass face 55; and an edge wall 59, surrounding the table face 58 and formed along the circumferential edge of the table face 58 so as to slightly project upward from the table face 58. This makes it possible to use the table face 58 as a holding plate. The edge wall 59 prevents an object placed on the table face 58 from falling therefrom. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an image forming apparatus used as a copying machine, a digital multifunction peripheral, a printer, or the like.

A multi-function machine having a flatbed type scanner unit and a printer main body configured as a laser printer and having various functions such as a scanner function, a copy function, a print function, a facsimile function, and a network communication function is known ( For example, see Patent Document 1.)
Such multifunction devices are expected to be used in SOHO (Small Office Home Office) where various functions are required in a limited space, and the outer dimensions are reduced to be suitable for use in SOHO. Therefore, research and development for making the apparatus compact is underway.
JP 2004-214803 A

However, in order to effectively use the limited space, it is not just to reduce the external dimensions and make the device compact, but how to reduce the dead space due to the installation of the device is very important. It becomes important to.
However, in a multifunction device, the scanner unit needs to be opened at the top for scanner operations and copy operations. On the other hand, the scanner function and copy function are used less frequently depending on how they are used. In such a case, the upper part of the scanner unit becomes a dead space without being effectively used.

  An object of the present invention is to provide an image forming apparatus that can effectively reduce the dead space by using the upper part of the apparatus.

  In order to achieve the above object, the invention described in claim 1 is a flatbed scanner having a flat scan surface on which an original is placed and a cover that covers the scan surface so as to be openable and closable, and below the flatbed scanner. And an image forming unit that can form an image on a recording medium based on information scanned by the flatbed scanner, and the cover is closed on the upper surface of the cover with respect to the scan surface. A smooth surface that is developed in a horizontal direction and a wall portion that is provided at a peripheral end portion of the smooth surface so as to surround the smooth surface and projects upward from the smooth surface. It is a feature.

  According to such a structure, since the smooth surface is formed in the upper surface of the cover of a flat bed scanner, the smooth surface can be utilized as a storage stand. Further, since the smooth surface is surrounded by the wall portion, the wall portion can prevent an object placed on the smooth surface from falling from the smooth surface. As a result, it is possible to effectively reduce the dead space by utilizing the upper part of the apparatus.

According to a second aspect of the present invention, in the first aspect of the present invention, an operation panel for operating the image forming apparatus is provided on the upper surface of the cover.
When the operation panel is provided on the scanner surface side, a gap is created between the cover that is opened and closed and the operation panel, and dust caused by objects placed on the smooth surface enters the gap, and the scanner surface May contaminate.

However, according to such a configuration, since the operation panel is provided on the upper surface of the cover together with the smooth surface, such a gap is not generated, and the scanner surface can be prevented from being contaminated.
According to a third aspect of the present invention, in the second aspect of the present invention, the operation panel is disposed outside the smooth surface surrounded by the wall portion on the upper surface of the cover. It is a feature.

According to such a configuration, since the operation panel and the smooth surface are partitioned by the wall portion, the operation panel does not become an obstacle when placing an object on the smooth surface, and the object placed on the smooth surface The resulting dust can be prevented from adhering to the operation panel.
According to a fourth aspect of the present invention, in the invention according to the second or third aspect, at least a part of the operation panel is arranged to face the scan surface in the vertical direction.

According to such a configuration, since at least a part of the operation panel is arranged to face the scan surface in the vertical direction, the flatbed scanner can be made compact while ensuring a wide scan surface.
The invention according to claim 5 is the invention according to any one of claims 2 to 4, wherein the cover is rotatably supported on one side, and the other side is vertically supported with the one side as a fulcrum. The scanning surface is opened and closed by moving in a direction, and the operation panel is arranged on the other side of the smooth surface.

According to such a configuration, both opening and closing of the cover and access to the operation panel can be smoothly operated. Therefore, the operability of the apparatus can be improved.
Further, it is possible to prevent the operability of the operation panel from deteriorating due to the operation panel becoming a shadow of the object when the object is placed on a smooth surface.
The invention according to claim 6 is the invention according to any one of claims 2 to 5, characterized in that the operation panel is waterproofed.

  According to such a configuration, since the operation panel is waterproofed, when a beverage container or the like is placed on a smooth surface, the operation panel is protected from beverage contamination even if the beverage in the beverage container is spilled. be able to. In particular, when the structure according to claim 3 is also provided, it is also effective that the operation panel is located outside the smooth surface surrounded by the wall portion to effectively protect the operation panel from contamination of the beverage. Can be achieved effectively.

According to the first aspect of the present invention, the dead space can be reduced by effectively utilizing the upper part of the apparatus.
According to the invention described in claim 2, it is possible to prevent the scanner surface from being contaminated.
According to the third aspect of the present invention, the operation panel does not become an obstacle when an object is placed on the smooth surface, and dust caused by the object placed on the smooth surface adheres to the operation panel. Can be prevented.

According to the fourth aspect of the invention, the flatbed scanner can be made compact while ensuring a wide scan surface.
According to the fifth aspect of the present invention, the operability of the apparatus can be improved.
According to invention of Claim 6, even if the drink in a drink container spills, an operation panel can be protected from contamination of a drink.

I. FIG. 1 is a front perspective view of a multifunction machine as an image forming apparatus according to an embodiment of the present invention (document holding cover closed state), and FIG. 2 is a front perspective view of the multifunction machine shown in FIG. 3 is a side view of the multifunction device shown in FIG. 1, FIG. 4 is an enlarged side sectional view of the multifunction device shown in FIG. 1, and FIG. 5 is a flat view of the multifunction device shown in FIG. FIG. 6 is a side sectional view of the main part of the flat bed scanner shown in FIG. 5, and FIG. 7 is a main part configuration diagram showing the height adjusting mechanism part of the multifunction machine shown in FIG.

In FIG. 3, the multifunction machine 1 includes a printer 2 as an image forming unit, a flat bed scanner 3 as an image reading unit disposed above the printer 2, and a connection that connects the printer 2 and the flat bed scanner 3. Part 4. The multi function device 1 has various functions such as a print function, a scanner function, a copy function, a facsimile function, and a network communication function.
II. Printer A. Overall Configuration of Printer As shown in FIGS. 1 and 4, the printer 2 is an intermediate transfer tandem type color laser printer, and includes a casing 5, a paper feeding unit 6, an engine unit 7, and a casing 5. And a paper discharge unit 8.

In the following description, the front side on which the handle 11 in FIG. 1 is provided is the front side, and the back side opposite to the front side is the rear side.
B. Casing The casing 5 is made of a hard resin and is formed in a box shape having a rectangular shape in plan view as shown in FIG. The casing 5 is partitioned in the vertical direction, and an upper portion thereof is formed as a printer accommodating portion 9 that accommodates the paper feeding portion 6, the engine portion 7 and the paper discharging portion 8, and a lower portion thereof is a spare developing cartridge 25. It is formed as an accessory storage section 10 for storing the paper 15 and the like.

  An openable front cover 79 that can be opened and closed for replacing a process unit 21 to be described later is provided in front of the printer housing 9. The lower end of the upper front cover 79 is pivotally attached to the printer housing 9 via a hinge 80 (see FIG. 4), and is opened and closed with the hinge 80 (see FIG. 4) as a fulcrum. The upper front cover 79 is provided with a lock mechanism (not shown), and the opening / closing operation is always restricted by the lock of the lock mechanism, and the closed state is maintained. As a result, as will be described later, the upper handle 11 (described later) can always be held and the casing 5 can be moved in a free direction, and if the lock mechanism is unlocked, the upper front cover can be moved. The opening / closing operation 79 is allowed, and the upper handle 11 (described later) is gripped to open the upper front cover 79 so that the process unit 21 can be attached and detached.

  Further, as shown in FIG. 4, an opening 84 having a substantially rectangular shape in the rear view is opened on the back surface of the printer housing portion 9, and a rear cover 85 as a lid portion that can be opened and closed so as to close the opening portion 84. Is provided. The rear cover 85 has a lower end attached to the printer housing 9 via a hinge 86 so as to be rotatable, and is opened and closed with respect to the opening 84 with the hinge 86 as a fulcrum.

In addition, as shown in FIG. 1, an openable and closable lower front cover 81 for opening the interior of the accessory storage unit 10 is provided on the front surface of the accessory storage unit 10. The lower front cover 81 has a lower end portion rotatably attached to the accessory housing portion 10 via a hinge 82 (see FIG. 4), and is opened and closed with the hinge 82 (see FIG. 4) as a fulcrum.
The casing 5 is provided with two handles 11. These handles 11 are made of a substantially bow-shaped metal fitting, and are attached to the front surface of the casing 5 at intervals in the vertical direction. The upper handle 11 is attached to the upper portion of the upper front cover 79 on the front surface of the casing 5. Further, the lower handle 11 is a lower part of the upper front cover 79 on the front surface of the casing 5 and is attached to a paper feed cassette 16 (described later).

The casing 5 is movably supported by the outer frame member 12.
The outer frame member 12 includes a side flange 13 having a reverse U-shape when viewed from the side, and casters 14 provided at each lower end portion (free end portion) of the side flange 13. The side rods 13 are respectively provided on both sides of a direction (hereinafter referred to as a width direction) orthogonal to the front-rear direction and the vertical direction of the casing 5. Each side rod 13 is attached to the side surface of the casing 5 along the front end, upper end, and rear end of the side surface, and the lower end portion of each side rod 13 is disposed below the bottom surface of the casing 5. . Each caster 14 is provided at the lower end portion of the side bar 13 so as to be able to rotate 360 ° in the horizontal direction.

As a result, the casing 5 is supported by the outer frame members 12 attached to both sides in the width direction so as to be lifted from the floor. When the upper handle 11 is gripped and pulled or pressed, the casings 14 are rotated. , Can be moved in any direction.
Further, as shown in FIGS. 3 and 7, on both sides in the width direction in the casing 5, as shown in FIGS. 3 and 7, insertion cylinders as four receiving and fixing portions that receive respective insertion rods 67 of two support columns 65 slidably in the vertical direction. A portion 71 is provided. Each insertion cylinder portion 71 is arranged along the vertical direction, and two insertion cylinder portions 71 are provided on both sides in the width direction of the casing 5 corresponding to the respective support columns 65. The two insertion cylinders 71 provided on the same side in the width direction are arranged at the rear side in the front-rear direction and at the center in the front-rear direction, with a space between each other.

Further, on both sides in the width direction in the casing 5, height adjustment mechanism portions 72 are provided above the insertion tube portion 71 on the front side and in the vicinity of the insertion rod 67. The height adjustment mechanism 72 includes an engagement member 73 and an urging spring 74.
The engaging member 73 is slidably supported along the width direction in the casing 5, and has a disc-shaped pressing plate 75 exposed to the outside from a through hole formed in the casing 5, and the pressing plate 75 to the casing 5. And a spring locking portion 77 protruding from the inner end portion of the flange portion 76 are integrally provided.

The flange portion 76 extends inward in the width direction of the casing 5, crosses the insertion rod 67, and then its tip is folded back toward the outer side in the width direction of the casing 5 to adjust the position of the insertion rod 67 described later. Locks into the hole 69.
In addition, the casing 5 is provided with a spring fixing portion 78 that is disposed to face the spring locking portion 77 with a gap on the inner side in the width direction of the casing 5.

The urging spring 74 is a compression spring, and is arranged along the width direction so that one end thereof is fixed to the spring fixing portion 78 and the other end is locked to the spring locking portion 77.
C. As shown in FIG. 4, the paper feed unit 6 is disposed in the printer housing 9 of the casing 5 below the printer housing 9 and below the engine unit 7.

The paper feeding unit 6 is disposed above the rear end of the paper feeding cassette 16, the paper pressing plate 17 disposed in the paper feeding cassette 16, and the paper feeding cassette 16 that stores the paper 15 as a recording medium. And a paper feed roller 18.
The paper feed cassette 16 has a bottomed frame that can accommodate the paper 15 whose upper side is opened, and is detachably attached to the printer accommodating portion 9 of the casing 5 from the upper front cover 79 along the front-rear direction. Has been. Therefore, the paper feed cassette 16 can be attached to and detached from the printer housing portion 9 by grasping the lower handle 11.

The paper pressing plate 17 is provided from the middle in the front-rear direction to the rear end in the paper feeding cassette 16. The front end portion of the sheet pressing plate 17 is rotatably supported on the upper surface of the sheet feeding cassette 16, and the lower surface of the rear end portion is urged upward by a pressing spring 19.
The paper feed roller 18 is disposed opposite to the rear end portion of the paper pressing plate 17 that is urged by the pressing spring 19.

In the paper feeding unit 6, the paper 15 is placed on the paper pressing plate 17 in the paper feeding cassette 16 along the front-rear direction, and runs in the vertical direction against the urging force of the pressing spring 19. Are stacked. The uppermost sheet 15 stacked on the sheet pressing plate 17 is pressed so as to come into contact with the sheet feeding roller 18 by the urging force of the pressing spring 19, and the engine unit 7 is rotated for each sheet by the rotation of the sheet feeding roller 18. The paper is fed toward.
D. Engine Unit The engine unit 7 includes a scanner unit 20, a process unit 21, a transfer unit 22, a fixing unit 23, and a conveyance path 24.
a. Scanner Unit The scanner unit 20 is disposed above the paper feeding unit 6 in the printer housing unit 9 of the casing 5. Although not shown, the scanner unit 20 is a known laser exposure apparatus, and includes a laser light emitting unit, a polygon mirror that is rotationally driven, a plurality of lenses, and a plurality of reflecting mirrors.

The scanner unit 20 sequentially passes or reflects the laser beam based on the image data emitted from the laser light emitting unit through the polygon mirror, the plurality of lenses, and the plurality of reflecting mirrors, so that each process unit is indicated by an arrow. Irradiate the surface of 21 photosensitive drums (described later) by high-speed scanning.
b. Process Unit The process unit 21 is arranged above the scanner unit 20 in the printer housing 9 of the casing 5 and is provided in plural (four) for each different color. More specifically, the process unit 21 includes four process units 21 including a yellow process unit 21Y, a magenta process unit 21M, a cyan process unit 21C, and a black process unit 21K. Are arranged in parallel at intervals from each other so as to overlap in the front-rear direction sequentially from the front to the rear. Each process unit 21 is detachably mounted in the printer housing 9 by opening and closing the upper front cover 79.

Each process unit 21 includes a developing cartridge 25, a photosensitive drum 26, a scorotron charger 27, and a drum cleaning roller 28.
The developing cartridge 25 includes a toner containing portion 29, a supply roller 30, a developing roller 31, and a layer thickness regulating blade 32.
The toner storage unit 29 is formed as an internal space below the developing cartridge 25 and includes an agitator 33 that agitates the toner storage unit 29.

Further, in the toner container 29, for each process unit 21, yellow for the yellow process unit 21Y, magenta for the magenta process unit 21M, cyan for the cyan process unit 21C, and black for the black process unit 21K. Each is filled with a positively charged non-magnetic one-component toner having a color.
This toner includes a polymerizable monomer, for example, a styrene monomer such as styrene, and an acrylic monomer such as acrylic acid, alkyl (C1 to C4) acrylate, and alkyl (C1 to C4) methacrylate. A substantially spherical polymerized toner obtained by copolymerization by a known polymerization method such as suspension polymerization is used. Such toners are blended with colorants and waxes corresponding to the respective colors, and the flowability is improved by adding external additives such as silica. It is about 10 μm.

Then, the toner in the toner storage unit 29 is discharged toward the supply roller 30 from the toner supply port opened on the upper side of the toner storage unit 29 by the rotation and agitation of the agitator 33 provided in the toner storage unit 29.
The supply roller 30 is rotatably provided above the toner supply port. The supply roller 30 includes a metal roller shaft and a conductive sponge roller that covers the roller shaft.

The developing roller 31 is rotatably provided on the upper rear side of the supply roller 30 so as to face the supply roller 30. The developing roller 31 is in contact with the supply roller 30 in a state where the supply roller 30 is compressed to some extent.
The developing roller 31 includes a metal roller shaft and a conductive rubber roller that covers the roller shaft. More specifically, the rubber roller of the developing roller 31 includes an elastic roller made of conductive urethane rubber, silicone rubber, EPDM rubber or the like containing carbon fine particles, and urethane rubber or urethane coated on the surface of the elastic roller. It is formed of two layers including a coating layer mainly composed of resin, polyimide resin or the like. The developing roller 31 is disposed such that the upper portion thereof is exposed from an opening formed in the upper portion of the developing cartridge 25, and a developing bias is applied from a power source (not shown) during development.

The layer thickness regulating blade 32 includes a pressing portion having a semicircular cross section made of insulating silicone rubber at the tip of a blade body made of a metal leaf spring material, and one end portion of the blade body is a developing roller 31. Is provided so that the pressing portion is pressed against the surface of the developing roller 31 by the elastic force of the blade body.
The toner discharged from the toner supply port is supplied to the developing roller 31 by the rotation of the supplying roller 30. At this time, the toner is positively frictionally charged between the supplying roller 30 and the developing roller 31, and further developed. As the developing roller 31 rotates, the toner supplied onto the roller 31 enters between the pressing portion of the layer thickness regulating blade 32 and the developing roller 31, and forms a thin layer with a constant thickness. Supported on.

  The photosensitive drum 26 is rotatably provided in the process unit 21 on the upper rear side of the developing roller 31 so as to be in contact with the developing roller 31. The photosensitive drum 26 is grounded at the drum body, and the surface thereof is formed of a photosensitive layer of an organic photosensitive member mainly composed of polycarbonate. Further, the photosensitive drum 26 is disposed so that the upper portion thereof is exposed from an opening formed in the upper portion of the process unit 21.

  The scorotron charger 27 is provided on the lower rear side of the photosensitive drum 26 with a gap so as not to contact the photosensitive drum 26. The scorotron charger 27 is a positively charged scorotron charger that generates corona discharge from a tungsten charging wire. The process unit 21 is configured to uniformly charge the surface of the photosensitive drum 26 to a positive polarity. It is fixed to.

  The drum cleaning roller 28 is rotatably provided in the process unit 21 so as to contact the photosensitive drum 26 on the upstream side of the scorotron charger 27 in the rotation direction of the photosensitive drum 26. The drum cleaning roller 28 includes a metal roller shaft and a conductive rubber roller that covers the roller shaft, and a cleaning bias is applied from a power source (not shown) during cleaning.

In the process unit 21, the toner of each color is exposed and developed as follows. That is, first, the surface of the photosensitive drum 26 is uniformly positively charged by the scorotron charger 27 by the rotation of the photosensitive drum 26, and then exposed by scanning with a laser beam from the scanner unit 20 to form image data. A based electrostatic latent image is formed. Next, when the toner carried on the developing roller 31 and positively charged by the rotation of the developing roller 31 comes into contact with the photosensitive drum 26 so as to face the electrostatic drum 26, an electrostatic charge is formed on the surface of the photosensitive drum 26. A latent image, that is, a toner image is formed by selectively supplying the latent image to a portion of the surface of the photosensitive drum 26 that is uniformly positively charged, which is exposed by laser beam scanning and whose potential is lowered. Thereby, reversal development is achieved.
c. Transfer Unit The transfer unit 22 is disposed above each process unit 21 so as to face each process unit 21 arranged in parallel along the front-rear direction in the printer housing 9 of the casing 5. The transfer unit 22 includes an intermediate transfer unit 34 and a belt cleaner unit 35.

The intermediate transfer unit 34 is provided along the front-rear direction so as to face the photosensitive drums 26 arranged in parallel along the front-rear direction, and includes a driving roller 37, a driven roller 38, a transfer belt 39, and a primary. A transfer roller 40 and a secondary transfer roller 41 are provided.
The drive roller 37 is disposed behind the photosensitive drum 26 of the black process unit 21K at the rearmost position. The driven roller 38 is disposed in front of the photosensitive drum 26 of the foremost yellow process unit 21Y.

The transfer belt 39 is made of conductive polycarbonate, polyimide, or the like in which conductive particles such as carbon are dispersed, and is wound between a driving roller 37 and a driven roller 38. The transfer belt 39 is arranged so that the lower outer surface of the wound state is in contact with all of the photosensitive drums 26 of the process units 21.
The driven roller 38 is driven by the driving roller 37, and the transfer belt 39 is interposed between the driving roller 37 and the driven roller 38 on the lower outer surface in contact with the photosensitive drum 26 of each process unit 21. It is rotated so that it rotates in the same direction as the photosensitive drum 26.

  The primary transfer roller 40 is provided so as to face the photosensitive drum 26 of each process unit 21 across the transfer belt 39 in the wound transfer belt 39. The primary transfer roller 40 includes a metal roller shaft and a conductive rubber roller covered with the metal roller shaft. Further, the primary transfer roller 40 is disposed so as to be in contact with the lower inner surface of the transfer belt 39, and provided on the contact surface so as to rotate in the same direction as the circumferential movement direction of the transfer belt 39. Sometimes, a primary transfer bias is applied from a power source (not shown).

  The secondary transfer roller 41 is provided outside the wound transfer belt 39 and behind the drive roller 37 so as to face the drive roller 37 with the transfer belt 39 interposed therebetween. The secondary transfer roller 41 includes a metal roller shaft and a conductive rubber roller covered with the metal roller shaft. Further, the secondary transfer roller 41 is disposed so as to be in contact with the rear outer surface of the transfer belt 39, and provided on the contact surface so as to rotate in the same direction as the circumferential movement direction of the transfer belt 39. Sometimes, a secondary transfer bias is applied from a power source (not shown).

The belt cleaner unit 35 is disposed on the opposite side (upper side) of each photosensitive drum 26 in the transfer belt 39 and between the driving roller 37 and the driven roller 38. The belt cleaner unit 35 includes a cleaning brush 42, a collection roller 43, a scraper 44, and a collection box 45.
The cleaning brush 42 includes a metal brush shaft and a conductive brush provided around the metal brush shaft. The cleaning brush 42 is disposed so as to be in contact with the upper outer surface of the transfer belt 39, and is provided on the belt cleaner unit 35 so as to rotate in the same direction as the circumferential movement direction of the transfer belt 39 at the contact portion. At the time of cleaning, a primary cleaning bias is applied from a power source (not shown).

  The collection roller 43 includes a metal roller shaft and a conductive rubber roller covered with the metal roller shaft. The collection roller 43 is disposed on the rear side of the cleaning brush 42 so as to come into contact with the cleaning brush 42, and is rotatably provided to the belt cleaner unit 35. During cleaning, a secondary cleaning bias is applied from a power source (not shown). Applied.

The collection box 45 is disposed behind the collection roller 43, and a portion facing the collection roller 43 is opened. A scraper 44 that is pressed against the surface of the collection roller 43 is provided in the vicinity of the opening portion. Yes.
d. Fixing Unit The fixing unit 23 is disposed above the secondary transfer position between the drive roller 37 and the secondary transfer roller 41 of the intermediate transfer unit 34 in the printer housing 9 of the casing 5. The fixing unit 23 includes a first heating roller 46 and a second heating roller 47.

The first heating roller 46 is rotatably supported in the printer housing 9 and includes a metal element tube such as aluminum and a halogen lamp disposed in the metal element tube. The outer peripheral surface of the metal base tube is subjected to a surface treatment for preventing toner adhesion.
The second heating roller 47 is disposed opposite to the rear of the first heating roller 46 with the sheet 15 passing through the fixing unit 23 sandwiched in the front-rear direction. The second heating roller 47 also includes a metal element tube such as aluminum and a halogen lamp disposed in the metal element tube, and can be rotated in the printer housing 9 so as to press the first heating roller 46. It is supported by.
e. Transport Path The transport path 24 crosses the rear of the rearmost black process unit 21 </ b> K upward from the paper feed unit 6 in the printer housing 9 of the casing 5, and the first heating roller 46 and the second heat roller 46 of the fixing unit 23. It is formed as a path that passes between the heating roller 47 and reaches the paper discharge unit 8.

In the transport path 24, a pair of registration rollers 48 are provided between the paper feed unit 6 and the secondary transfer position. A pair of transport rollers 49 are provided between the fixing unit 23 and the paper discharge unit 8.
f. Image formation in the engine unit Then, the sheet 15 fed from the sheet feeding unit 6 is conveyed from the lower side to the upper side in the conveyance path 24, and is conveyed toward the secondary transfer position after registration by the registration roller 48. The

  On the other hand, in the transfer unit 22, the transfer belt 39 is rotated around by the drive of the drive roller 37 and the driven roller 38, and each photosensitive drum 26 and 1 opposite thereto are placed on the transfer belt 39 that is rotated around. When passing through the primary transfer position with the next transfer roller 40, the toner images of the respective colors formed on the respective photosensitive drums 26 are sequentially transferred, whereby a color image is formed on the transfer belt 39. The

  That is, for example, when a yellow toner image formed on the photosensitive drum 26 of the yellow process unit 21Y is transferred to the transfer belt 39, then, magenta formed on the photosensitive drum 26 of the magenta process unit 21M. The toner image is transferred onto the transfer belt 39 to which the yellow toner image has already been transferred, and then formed by the cyan process unit 21C and the black process unit 21K by the same transfer operation. The black toner image to be transferred is superposed and transferred, whereby a color image is formed on the transfer belt 39.

When the sheet 15 conveyed toward the secondary transfer position after registration passes between the driving roller 37 and the secondary transfer roller 41, the color image formed on the transfer belt 39 is 15 are collectively transferred.
Thereafter, the sheet 15 on which the color image has been formed is conveyed to the fixing unit 23, and the color image transferred onto the sheet 15 by the first heating roller 46 and the second heating roller 47 is transferred to the sheet 15 as the first image. Thermal fixing is performed while passing between the first heating roller 46 and the second heating roller 47. The heat-fixed paper 15 is transported to the paper discharge unit 8 by the transport roller 49. As a result, the print function of the multifunction device 1 is achieved.

The toner remaining on the surface of the photosensitive drum 26 after the toner image of each color is transferred to the paper 15 is temporarily captured by the drum cleaning roller 28 and returned to the photosensitive drum 26 during non-image formation. By being collected by the developing roller 31, it is used again for development.
Further, the toner adhering to the surface of the transfer belt 39 after the color image is transferred to the paper 15 is applied to the cleaning brush 42 by the primary cleaning bias applied to the cleaning brush 42 when facing the cleaning brush 42. To be attached. Thereafter, the toner attached to the cleaning brush 42 is attached to the recovery roller 52 by the secondary cleaning bias applied to the recovery roller 43 when facing the recovery roller 43, and then scraped off by the scraper 44. Then, it is collected in the collection box 45.
E. Paper Discharge Unit The paper discharge unit 8 is disposed above the engine unit 4 in the printer housing 9 of the casing 5. The paper discharge unit 8 is disposed to face the paper supply unit 6 in the vertical direction with the engine unit 4 interposed therebetween, and includes a paper discharge roller 50 and a paper discharge storage unit 51 as a recording medium discharge unit.

The paper discharge roller 50 is disposed above the fixing unit 23 and at the downstream end of the transport path 24. The paper discharge roller 50 includes a pair of rollers, and discharges the paper 15 on which the color image has been thermally fixed in the fixing unit 23 toward the paper discharge storage unit 51.
The paper discharge container 51 is formed in the casing 5 above the printer container 9. The paper discharge accommodating portion 51 is formed in the upper part of the printer accommodating portion 9 so as to partition a space extending in the front-rear direction in order to accommodate the discharged paper 15. The paper discharge container 51 is formed with a thickness that allows the sheets 15 to be discharged to be stacked in the vertical direction. In addition, an outlet 52 is formed in front of the paper discharge container 51 so that the upper side and the front side are opened.

The paper 15 discharged forward by the paper discharge roller 50 is held in a state where the paper 15 is stacked in the vertical direction in the paper discharge container 51. Then, it can be taken out from the outlet 52.
III. Flatbed scanner A. Overall Configuration of Flatbed Scanner As shown in FIGS. 1 and 2, the flatbed scanner 3 includes a document table 53 and a document pressing cover 54 as a cover that is supported on the document table 53 so as to be freely opened and closed.
B. Document platen The document platen 53 is formed as a thick plate having an elliptical shape in plan view, and on its upper surface, as shown in FIG. 2, a scanning surface on which a document is placed and a glass surface 55 as a document reading surface are provided. Is formed. The glass surface 55 is formed by embedding a glass plate in the document table 53 so that the upper surface of the document table 53 is flat. The glass surface 55 has a rectangular shape in plan view, and its longitudinal direction is arranged along the major axis direction of the document table 53 having an elliptical shape in plan view.

  Further, as shown in FIG. 4, a receiving portion 56 that receives a support base 64 (described later) of the connecting portion 4 so as to be relatively rotatable is formed on the lower surface of the document table 53. The receiving portion 56 has a shallow concave shape, and as shown in FIG. 5, is formed in a circular shape in bottom view having a diameter slightly shorter than the short diameter of the document table 53 having an elliptical shape in plan view, and the circular receiving portion. The center 56 is arranged so as to be positioned at the center of the document table 53 where the major axis direction and the minor axis direction of the document table 53 having an elliptical shape in plan view intersect. A ring-shaped ball bearing 66 (see FIG. 6) is provided at the peripheral end of the receiving portion 56.

2 and 4, the document table 53 includes a CCD sensor 57 for reading the document and a scanning motor (not shown) for scanning the CCD sensor 57 in a state of facing the glass surface 55. D) is decorated.
The CCD sensor 57 is supported inside the glass surface 55 so as to be movable in the front-rear direction. The CCD sensor 57 is always on standby at the rear end of the glass surface 55, and is scanned by a scanning motor (not shown) when reading a document. Scanning is performed from the rear side toward the front side in a state of being opposed to 55.
C. Document Pressing Cover The document pressing cover 54 is formed as a thin plate having an elliptical shape in plan view, the same shape as the document table 53, as shown in FIG. 2, and the upper surface thereof is a smooth surface as shown in FIG. A table surface 58 and an edge wall 59 as a wall portion surrounding the outer periphery of the table surface 58 are formed, and an operation panel 60 for operating the multifunction machine 1 is provided.

The table surface 58 is a smooth surface that is flattened horizontally in a state where the document pressing cover 54 is closed with respect to the glass surface 55, and a front end portion on which the operation panel 60 is provided on the upper surface of the document pressing cover 54. It is formed entirely on the rear side.
The edge wall 59 is formed in a frame shape that slightly protrudes upward from the table surface 58 at the peripheral end portion of the table surface 58. That is, the table surface 58 is formed so as to be a concave portion that is slightly recessed downward from the edge wall 59.

The operation panel 60 is provided at the front end of the document pressing cover 54 on the upper surface of the document pressing cover 54, outside the table surface 58 surrounded by the edge wall 59.
The operation panel 60 has a substantially crescent moon in plan view, and includes a liquid crystal panel on which the operation state of the multifunction device 1 is displayed, buttons that can be operated by the user for setting each condition, and the like.
Further, as shown in FIG. 6, the rear end portion of the operation panel 60 is disposed so as to face the front end portion of the glass surface 55 in the vertical direction.

A water repellent transparent film 61 is attached to the upper surface of the operation panel 60. As described above, the operation panel 60 is covered with the water-repellent transparent film 61, so that the operation panel 60 is waterproofed.
As shown in FIGS. 2 and 4, the document pressing cover 54 is rotatably supported at the rear end portion of the document table 53 via a hinge 62.

  The document pressing cover 54 swings in the vertical direction at the front end with the hinge 62 at the rear end as a fulcrum. When the front end portion of the document pressing cover 54 is lifted upward, the glass surface 55 of the document table 53 is opened as shown in FIG. 2, and when the front end portion of the document pressing cover 54 is lowered downward, as shown in FIG. The glass surface 55 of the document table 53 is covered. Thus, the document pressing cover 54 covers the glass surface 55 of the document table 53 so as to be freely opened and closed.

A cushion sheet 63 (see FIG. 2) having a rectangular shape in plan view is attached to the lower surface of the document pressing cover 54 so as to face the glass surface 55.
D. Document reading by the flatbed scanner In the flatbed scanner 3, the front end portion of the document pressing cover 54 is lifted upward and set so that the document is placed on the glass surface 55. The front end is lowered and the buttons are operated on the operation panel 60. Then, the CCD sensor 57 is scanned from the rear side to the front side by a scanning motor (not shown) while facing the document placed on the glass surface 55, and the image information of the document is read. Thus, the scanner function of the multifunction device 1 is achieved.

After reading the document, the front end of the document pressing cover 54 is lifted upward again, and the document is removed from the glass surface 55. When the scanning is completed, the CCD sensor 57 automatically moves to the rear end of the glass surface 55 by a scanning motor (not shown) and stands by.
The image information of the original read by the CCD sensor 57 is transmitted to the printer 2, and the printer 2 creates image data based on the image information and forms a color image on the paper 15 as described above. Thus, the copy function of the multifunction device 1 is achieved.
D. Features of the Flatbed Scanner In this flatbed scanner 3, since the table surface 58 is formed on the upper surface of the document pressing cover 54, the table surface 58 can be used as a storage table. Further, since the table surface 58 is surrounded by the edge wall 59, it is possible to prevent the object placed on the table surface 58 from falling from the table surface 58 by the edge wall 59. As a result, the dead space can be reduced by effectively utilizing the upper side of the multifunction machine 1.

When the operation panel 60 is provided on the document table 53 side, a gap is generated between the document pressing cover 54 that is opened and closed and the operation panel 60, and the clearance is caused by an object placed on the table surface 58. There is a risk that dust that enters will contaminate the glass surface 55.
However, in this flatbed scanner 3, since the operation panel 60 is provided on the upper surface of the document pressing cover 54 together with the table surface 58, such a gap does not occur and the glass surface 55 is prevented from being contaminated. can do.

  In addition, the operation panel 60 is disposed outside the table surface 58 surrounded by the edge wall 59 on the upper surface of the document pressing cover 54. Therefore, since the operation panel 60 and the table surface 58 are partitioned by the edge wall 59, the operation panel 60 does not become an obstacle when an object is placed on the table surface 58, and the object placed on the table surface 58 It is possible to prevent dust resulting from the attachment to the operation panel 60.

In the flat bed scanner 3, the rear end portion of the operation panel 60 is disposed to face the front end portion of the glass surface 55 in the vertical direction. Therefore, the flatbed scanner 3 can be made compact while ensuring a large area in the longitudinal direction of the glass surface 55.
Further, in the flatbed scanner 3, the rear end portion of the document pressing cover 54 is rotatably supported by the rear end portion of the document table 53 via the hinge 62, and the front end portion is vertically supported with the rear end portion serving as a fulcrum. By moving in the direction, the glass surface 55 is opened and closed, and the operation panel 60 is disposed at the front end portion on the opposite side with respect to the rear end portion serving as a rotation fulcrum with the table surface 58 interposed therebetween. Therefore, both the opening and closing of the document pressing cover 54 and the access to the operation panel 60 can be smoothly operated. As a result, the operability of the multifunction machine 1 can be improved. In addition, it is possible to prevent the operability of the operation panel 60 from being deteriorated when the operation panel 60 becomes a shadow of the object when an object is placed on the table surface 58.

Further, in this flat bed scanner 3, since the operation panel 60 is waterproofed, even when a beverage container or the like is placed on the table surface 58, the operation panel 60 can be operated even if a beverage in the beverage container is spilled. Can be protected from beverage contamination. In particular, in this flatbed scanner 3, it is effective that the operation panel 60 is located outside the table surface 58 surrounded by the edge wall 59, so that it is more effective to protect the operation panel 60 from contamination of the beverage. Can be achieved.
IV. Connecting part A. Overall Configuration of Connecting Portion As shown in FIGS. 3 and 7, the connecting portion 4 is disposed between the printer 2 and the flat bed scanner 3 and includes a support base 64 and a support column 65.
B. As shown in FIGS. 3 and 5, the support base 64 has a circular shape in plan view, the upper surface thereof is formed flat, and the lower surface of the support base 64 bulges downward toward the center of the support base 64. It is formed in a curved shape that curves in a crescent shape.

As shown in FIG. 4, the support table 64 is received by a receiving portion 56 formed on the lower surface of the document table 53 via a ball bearing 66. In a state in which the support table 64 is received by the receiving portion 56, the center of the circular support table 64 is arranged so as to be positioned at the center of the document table 53 where the major axis direction and the minor axis direction intersect.
Since the receiving portion 56 of the document table 53 is slidably supported with respect to the support table 64 via the ball bearing 66, the flat bed scanner 3 has a circular shape on the support table 64 as shown in FIG. The support base 64 is supported so that it can rotate 360 ° in the horizontal direction with the vertical line at the center of the support base 64 as the center of rotation. Accordingly, the flat bed scanner 3 rotates with respect to the support base 64 around the center where the major axis direction and the minor axis direction of the elliptical shape in plan view intersect.
C. As shown in FIGS. 3 and 7, the support column 65 is integrally formed with two insertion rods 67 that are parallel to each other with a space therebetween and a connection rod 68 that connects the upper ends of the two insertion rods 67. It is formed in an inverted U shape when viewed from the side.

The struts 65 are respectively disposed on both sides in the width direction of the casing 5, and the two insertion rods 67 of the respective struts 65 are disposed along the front-rear direction and are slidably inserted into the respective insertion cylinder portions 71.
Both side portions of the support base 64 in the width direction are fixed to the connecting rods 68 of the columns 65. As a result, the support base 64 is connected to the casing 5 of the printer 2 by the support 65.
A plurality of position adjustment holes 69 are formed in the insertion rod 67 on the front side of each column 65 at intervals from each other along the vertical direction.

In the position adjusting hole 69 of each connecting rod 68, the engaging member 73 is always pressed outward in the width direction by the biasing force of the biasing spring 74, so that the flange portion 76 is locked.
And if each press plate 75 of the width direction both sides of the casing 5 is pressed, each engagement member 73 will move to the width direction inner side against the urging | biasing force of each urging | biasing spring 74, and each collar part 76 is separated from the position adjusting hole 69 of each connecting rod 68. Then, each connecting rod 68 is slidable with respect to the insertion tube portion 71, so that the position of the flat bed scanner 3 supported by the connecting portion 4 changes in the vertical direction with respect to the casing 5 of the printer 2. Is possible.

In this state, each connecting rod 68 is slid in the vertical direction with respect to the insertion tube portion 71, and the vertical height of the flat bed scanner 3 is appropriately adjusted, and each position adjustment corresponding to the optimum height is performed. The hole 69 is made to face each flange 76. Thereafter, when the pressing of each pressing plate 75 is released, each engaging member 73 is moved outward in the width direction by the urging force of the urging spring 74, and each collar portion 76 is locked in each position adjusting hole 69, thereby The flatbed scanner 3 is supported by the casing 5 of the printer 2 via the connecting portion 4 in a state in which the flatbed scanner 3 is adjusted to the optimum vertical height.
D. As described above, the flatbed scanner 3 rotates with respect to the support base 64 around the center where the major axis direction and the minor axis direction of the elliptical shape in plan view intersect. The support base 64 is connected to the printer 2 via a support column 65. Therefore, the flatbed scanner 3 can be rotated with respect to the printer 2 around the vertical line by the connecting portion 4. Further, by adjusting the vertical height of the column 65 by the height adjustment mechanism 72, the vertical distance between the flat bed scanner 3 and the printer 2 is changed, so that the flat bed scanner 3 is optimized. It can be adjusted to the height of the vertical direction. Therefore, operability can be improved.

Further, the flat bed scanner 3 rotates with respect to the support base 64 around the center where the major axis direction and the minor axis direction of the elliptical shape in plan view intersect. Therefore, when the flat bed scanner 3 is rotated, the printer is rotated. 2 can be reduced from the projection surface in the vertical direction.
Further, since the flatbed scanner 3 is formed in an elliptical shape in plan view, the flatbed scanner 3 can be easily rotated without grasping a specific location, regardless of the location.

Further, since the flat bed scanner 3 rotates with respect to the support base 64, the support base 64 supports the flat bed scanner 3 in a relatively non-rotatable manner, and the support base 64 rotates relative to the printer 2. Rotational moment can be reduced, smooth rotation of the flatbed scanner 3 can be ensured, and operability can be improved.
Further, the support base 64 having a circular shape in plan view is received by the receiving portion 56 of the document table 53, and the receiving portion 56 slides with respect to the support base 64 via the ball bearing 66, so that the support base 64 is supported. The flatbed scanner 3 rotates. Therefore, it is possible to ensure smooth rotation of the flat bed scanner 3 relative to the support base 64 while stably supporting the flat bed scanner 3 by the support base 64.

  Further, in the flat bed scanner 3, the longitudinal direction of the glass surface 55 having a rectangular shape in plan view is arranged along the major axis direction of the document table 53 having an elliptical shape in plan view. The flatbed scanner 3 can be reduced in size while securing the above. Moreover, if the flat bed scanner 3 is rotated, the lower part of the flat bed scanner 3 can be opened largely. Therefore, it is possible to easily take out the paper 15 from the outlet 52 of the paper discharge accommodating portion 51 of the printer 2.

The paper discharge accommodating portion 51 of the printer 2 is arranged above the printer 2 and below the flat bed scanner 3. However, the flat bed scanner 3 can be rotated with respect to the printer 2 or moved in the vertical direction. By changing the height, it is possible to facilitate access to the paper 15 discharged to the paper discharge container 51.
In particular, in this multifunction device 1, the column 65 is inserted into the insertion cylinder portion 71 in the casing 5 from the middle in the front-rear direction to the rear, while the paper 15 is directed from the rear side to the front side by the paper discharge roller 50. Since the paper is discharged, it is possible to access the paper 15 discharged to the paper discharge accommodating portion 51 without interfering with the support 65.

  Furthermore, since the outlet 52 is opened in front of the paper discharge container 51 so that the upper side and the front side are opened, even when the flatbed scanner 3 is positioned at the lowest position with respect to the printer 2, The paper 15 can be easily taken out from the outlet 52. As a result, the lowest position of the flatbed scanner 3 with respect to the printer 2 can be positioned further downward to achieve downsizing of the apparatus, while the access to the paper 15 discharged to the paper discharge container 51 is achieved. Simplification can be achieved.

Moreover, in this connection part 4, since the support stand 64 and the printer 2 are connected via the two support | pillars 65, the stable support of the support stand 64 can be achieved.
In particular, the two struts 65 are provided on both sides in the width direction of the casing 5 of the printer 2, so that stable support of the support base 64 can be achieved, while the support to the discharge storage portion 51 of the printer 2 is achieved. It is possible to prevent the sheet 15 from being discharged and the access to the discharged sheet 15 from being obstructed by the two columns 65. Therefore, it is possible to stably support the flat bed scanner 3 while improving operability.

  Further, in the printer 2, when the paper 15 is jammed, the rear cover 85 is opened and closed on the back surface of the casing 5 opposite to the paper discharge direction of the paper 15 discharged from the rear side toward the front side. Thus, the jammed paper 3 can be easily removed from the opening 84 formed on the back surface. Further, at this time, since the support columns 65 received in the insertion cylinder portion 71 are respectively disposed on both sides in the width direction of the casing 5, it is possible to prevent interference between the support columns 65 and the paper 15 to be taken out. Thus, smooth removal of the paper 15 that has produced the error can be achieved.

  Further, the insertion rods 67 of the two support columns 65 are slidably received with respect to the insertion cylinder portions 71 and are fixed after the height adjustment mechanism 72 adjusts the vertical height. Therefore, as compared with the case where the column 65 itself expands and contracts, the configuration can be simplified and the strength can be improved. Further, when the flat bed scanner 3 is slid with respect to the support 65, the support 65 may protrude upward from the flat bed scanner 3. In this way, each insertion rod 67 of the support 65 is flat. Since it is received in each insertion cylinder part 71 of the bed scanner 3, such a protrusion can also be prevented.

1 is a front perspective view of a multifunction peripheral as an embodiment of an image forming apparatus of the present invention (a document pressing cover is closed). FIG. FIG. 2 is a front perspective view of the multifunction device shown in FIG. 1 (document holding cover open state). FIG. 2 is a side view of the multifunction machine shown in FIG. 1. FIG. 2 is a side sectional view of the multifunction machine shown in FIG. 1. FIG. 2 is a plan view of the flat bed scanner of the multifunction machine shown in FIG. 1. It is principal part side sectional drawing of the flat bed scanner shown in FIG. It is a principal part block diagram which shows the height adjustment mechanism part of the multifunctional machine shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Multifunction device 2 Printer 3 Flatbed scanner 15 Paper 54 Document holding cover 55 Glass surface 58 Table surface 59 Edge wall 60 Operation panel 61 Transparent film

Claims (6)

A flat bed scanner having a flat scan surface on which an original is placed and a cover that covers the scan surface so as to be freely opened and closed;
An image forming unit disposed below the flat bed scanner and capable of forming an image on a recording medium based on information scanned by the flat bed scanner;
On the upper surface of the cover, the cover is closed with respect to the scan surface, and is provided on a smooth surface that is developed in a horizontal direction, and at a peripheral end of the smooth surface so as to surround the smooth surface, An image forming apparatus comprising: a wall portion protruding upward from a smooth surface.   The image forming apparatus according to claim 1, wherein an operation panel for operating the image forming apparatus is provided on an upper surface of the cover.   The image forming apparatus according to claim 2, wherein the operation panel is disposed outside the smooth surface surrounded by the wall portion on an upper surface of the cover.   The image forming apparatus according to claim 2, wherein at least a part of the operation panel is disposed to face the scan surface in the vertical direction. The cover is rotatably supported on one side, and the other side moves up and down with the one side as a fulcrum, thereby opening and closing the scan surface,
The image forming apparatus according to claim 2, wherein the operation panel is disposed on the other side of the smooth surface. The image forming apparatus according to claim 2, wherein the operation panel is waterproofed.

Images