JP3163917U - Image forming apparatus - Google Patents

Abstract

An image forming apparatus capable of improving operability is provided. In a housing 2, a first front side surface 15 (substantially vertical surface) of a first housing 3 and a second upper surface 67 (substantially horizontal surface) of a second housing 4 are connected by an inclined surface 95. The operation panel 90 is disposed below the discharge port 71 on the inclined surface 95. For this reason, the user can easily view the display screen 92 of the operation panel 90 without looking into it from directly above, and in addition, looks at the inclined surface 95 to view the display screen 92 of the operation panel 90 Thus, since the first front side surface 15 and the second upper surface 67 can be seen together, the state of the printer 1 can be grasped over a wide range. Further, since the operation panel 90 is inclined along the direction approaching the horizontal plane rather than the inclined surface 95, the operation panel 90 can be easily operated from above. [Selection] Figure 1

Description

  The present invention relates to an image forming apparatus.

For example, in the image forming apparatus described in Patent Document 1, a scanner unit as an image reading unit is arranged above a printer unit as an image forming unit, and a paper discharge stacking space unit is formed between the printer unit and the scanner unit. This is a so-called in-body discharge type multifunction peripheral.
JP 2005-258025 A

  In the image forming apparatus described in Patent Document 1, the upper surface of the scanner unit is a substantially horizontal plane, and an operation panel is disposed at the end thereof. Therefore, unless the user looks into the operation panel from directly above, the display on the operation panel cannot be clearly seen. In this case, the operability may not be improved.

  Therefore, an object of the present invention is to provide an image forming apparatus capable of improving operability.

  In order to achieve the above object, the invention described in claim 1 is an image forming apparatus, and is provided with an image forming unit for forming an image on a recording medium, and provided above the image forming unit. A discharge portion that discharges a recording medium on which an image is formed, and an image reading portion that is provided above the discharge portion and that can read image information of a document, and has a discharge port that communicates with the discharge portion. An operation for operating at least one of the image forming unit and the image reading unit, including a formed casing and a display unit that displays at least an operation status of the image forming unit and the image reading unit. A side surface on the discharge port side of the housing includes a substantially vertical surface, the upper surface of the housing includes a substantially horizontal surface, and the housing has a substantially horizontal surface with respect to the substantially vertical surface and the substantially horizontal surface. Incline along the crossing direction, and An inclined surface that connects a vertical surface and the substantially horizontal plane is provided, the discharge port is formed in the inclined surface, and the operation unit is below the discharge port in the inclined surface and is more horizontal than the inclined surface. It is characterized in that it is inclined along the direction of approaching.

  Further, in the invention described in claim 2, in the invention described in claim 1, the image reading unit moves the document table on which the document is placed and the image information of the document placed on the document table. And a scanning direction of the scanning unit and a discharge direction of the recording medium to the discharge unit are orthogonal to each other when projected onto the same plane in the vertical direction. .

  Further, the invention described in claim 3 is the device described in claim 1 or 2, wherein the inclination angle of the inclined surface with respect to the horizontal plane is not less than 40 ° and not more than 50 °, and the inclination angle of the operation portion with respect to the horizontal plane is , Greater than 0 ° and less than 40 °.

  A device described in claim 4 is characterized in that, in the device described in any one of claims 1 to 3, the discharge port is surrounded by the inclined surface over the entire circumference.

Further, the device according to claim 5 is the device according to any one of claims 1 to 4,
The casing includes a first casing including the image forming unit, an upper surface of the first casing that is openable and closable above the first casing, and includes the discharge unit and the image reading unit. And a second housing.

  Further, the invention described in claim 6 is the invention described in claim 5, wherein the image forming units are arranged in parallel in a substantially horizontal direction in the first housing to form an electrostatic latent image. It is characterized by comprising a plurality of image carriers.

  According to a seventh aspect of the present invention, in the device according to the sixth aspect, an LED element for forming the electrostatic latent image by exposing the image carrier is attached to the second casing. It is characterized by being.

  According to the first aspect of the present invention, the image forming apparatus is a so-called in-body discharge type image forming apparatus in which an image reading unit, a discharge unit, and an image forming unit are arranged in order from the top. Here, it is possible to take out the recording medium discharged to the discharge unit by accessing the discharge port communicating with the discharge unit.

  In the housing, the substantially vertical surface on the side surface and the substantially horizontal surface on the upper surface are connected by an inclined surface, and an operation unit is disposed below the discharge port on the inclined surface. Therefore, the user can easily visually recognize the display unit of the operation unit without looking directly into the top. Further, the user can look at the display unit of the operation unit by directing a line of sight to the inclined surface. Can be seen together, so that the state of the image forming apparatus can be grasped over a wide range. Moreover, since the operation part inclines along the direction approaching a horizontal surface rather than an inclined surface, it is easy to operate an operation part from upper direction.

  As a result, since the display unit of the operation unit is easily visible and the operation unit is easy to operate, the operability can be improved.

  According to the second aspect of the present invention, the moving direction of the scanning unit of the image reading unit and the discharging direction of the recording medium to the discharging unit are orthogonal to each other when projected onto the same plane in the vertical direction. Thus, the user can place the document on the document table so that the longitudinal direction of the document is along the moving direction of the scanning unit when the user is positioned on the discharge port side with respect to the housing. That is, the user can hold the document in a stable state by grasping the document with both hands from both ends in the longitudinal direction, and can accurately place the document on the document table.

  According to the third aspect of the invention, the inclination angle of the inclined surface with respect to the horizontal plane is not less than 40 ° and not more than 50 °. If this inclination angle is less than 40 °, the housing tends to be flat in the up-down direction. In that case, there is a possibility that the components in the housing, in particular, the discharge portion may become narrow in the vertical direction. Since the upper surface side of the second housing is narrowed in the horizontal direction, it may be difficult to dispose the image reading unit disposed on the upper surface side of the housing, particularly the document table. On the other hand, if the inclination angle is larger than 50 °, the inclination of the inclined surface with respect to the horizontal plane becomes steep, so that the inclined surface gives the user a feeling of pressure and the appearance of the image forming apparatus on the inclined surface is poor. In other words, by setting the inclination angle of the inclined surface to 40 ° or more and 50 ° or less, the vertical dimension of the discharge portion is ensured, and the document table is securely arranged, and the image forming apparatus can be seen on the inclined surface. Improvements can be made.

In addition, the inclination angle of the operation unit with respect to the horizontal plane is greater than 0 ° and less than 40 °. If the tilt angle is 0 °, the display unit is difficult to see. On the other hand, if the inclination angle is 40 ° or more, the operation portion is inclined with respect to the horizontal plane, and the operation portion becomes difficult to operate. That is, by setting the tilt angle of the operation unit to be greater than 0 ° and less than 40 °, it is possible to simultaneously ensure good visibility of the display unit and good operability of the operation unit.

  According to the invention described in claim 4, since the discharge port formed in the inclined surface is surrounded by the inclined surface over the entire circumference, in other cases, that is, the discharge port is an edge of the inclined surface. Compared to the case where the discharge port is formed so as to overlap, the appearance of the discharge port is better on the inclined surface, and the discharge state can be easily grasped at the discharge port.

  According to the invention described in claim 5, the casing is divided into the first casing and the second casing. Here, since the second housing includes the image reading unit and the discharge unit, the discharge unit can be moved together when the second case is opened and moved, and the upper surface of the first case can be easily moved. And the components in the first housing can be exchanged smoothly.

  According to the sixth aspect of the present invention, the image forming apparatus is elongated in the substantially horizontal direction by arranging a plurality of image carriers in parallel along the substantially horizontal direction. However, since the upper end portion of the image forming apparatus is notched by the inclined surface that connects the substantially vertical surface of the side surface of the housing and the substantially horizontal surface of the upper surface, the size of the image forming apparatus can be reduced.

  According to the seventh aspect of the present invention, since the LED element attached to the second housing is relatively small, the image forming apparatus can be downsized.

1 is a left perspective view of a printer as an example of an image forming apparatus of the present invention as viewed from the front upper side, showing a state where a second housing is in a closed position. FIG. FIG. 2 is a left sectional view of the printer shown in FIG. 1. FIG. 2 shows a state where the second housing is in the open position.

1. FIG. 1 is a left perspective view of a printer as an example of an image forming apparatus according to the present invention as viewed from the front upper side, showing a state in which a second housing is in a closed position. FIG. 2 is a left sectional view of the printer shown in FIG. FIG. 3 shows a state where the second housing is in the open position in FIG.

  In the following description, the front-rear direction, the up-down direction, and the left-right direction (width direction) in the printer are assumed to follow the directional arrows shown in each drawing. The substantially horizontal direction includes the front-rear direction and the left-right direction, and the substantially vertical direction includes the up-down direction.

  As shown in FIG. 1, the printer 1 includes a housing 2 having a substantially rectangular parallelepiped shape that is long in the front-rear direction, more specifically, a substantially home base shape in a left side view. The housing 2 is provided with an image forming unit 10 and an image reading unit 11 (see FIG. 2), which will be described later, and the printer 1 is a so-called multifunction device.

  The housing 2 is divided into a lower first housing 3 and an upper second housing 4. As will be described later, the second housing 4 opens and closes the upper surface (first upper surface 21 described later) of the first housing 3 by rotating with respect to the first housing 3. As long as there is no mention, it demonstrates on the assumption that the 2nd housing | casing 4 exists in the position (closed position) which closed the 1st upper surface 21. FIG.

(1) 1st housing | casing (1-1) Shape of 1st housing | casing The 1st housing | casing 3 is a substantially rectangular parallelepiped shape which is long in the front-back direction and a little thin in the up-down direction.

  Specifically, in the first housing 3, the front side wall (referred to as the first front side wall 5), the rear side wall (referred to as the first rear side wall 6), the right side wall (referred to as the first right side wall 7), and the left side wall. (Referred to as the first left side wall 8) extends substantially vertically, and the outer surface of each side wall also extends substantially vertically.

  The first front side wall 5 integrally includes a vertical part 12 extending substantially vertically and an inclined part 13 extending from the upper end of the vertical part 12 so as to incline obliquely rearwardly upward (hereinafter referred to as an inclination direction). I have. The vertical portion 12 has a rectangular shape that is long in the width direction when viewed from the front. The outer (front) side surface of the vertical portion 12 (referred to as a first front side surface 15 as an example of the side surface of the housing 2) is a substantially vertical surface that extends substantially perpendicularly like the vertical portion 12. A slit (referred to as a manual feed slit 14) that is long in the width direction and penetrates the vertical portion 12 in the front-rear direction is formed at substantially the center of the vertical portion 12. The inclined portion 13 has a rectangular shape having the same width direction dimension as the vertical portion 12, and is continuous with respect to the vertical portion 12 in the entire width direction. The outer (front) side surface (referred to as the first inclined surface 16) of the inclined portion 13 is inclined in the inclined direction, like the inclined portion 13. The width direction end surface (referred to as the first end surface 17) of the first front side wall 5 is provided continuously to both the vertical portion 12 and the inclined portion 13, and the width of the first front side surface 15 and the first inclined surface 16. It continuously extends rearward from the direction edge. The first end surface 17 extends in a direction substantially orthogonal to the first front side surface 15 and the first inclined surface 16. The rear end edge of the upper end of the first end surface 17 forms a width direction edge of the rear end surface of the upper end portion of the inclined portion 13 and extends in a substantially vertical direction. Here, the rear side end surface of the upper end portion of the inclined portion 13 extends substantially vertically over the entire region.

  The first inclined surface 16 is provided with an operation panel 90 as an example of an operation unit. The operation panel 90 is provided with a plurality of buttons 91 and, for example, a liquid crystal display screen 92 as an example of a display unit arranged in the width direction. The user can control the operation of the printer 1 (at least one of the image forming unit 10 and the image reading unit 11) by operating the button 91, and the operation status is displayed on the display screen 92 and visually recognized by the user. The The operation panel 90 is inclined along a direction (described later) closer to the horizontal plane 96 (see FIG. 2) than the above-described inclination direction, and slightly protrudes from the first inclined surface 16 to the front side. Specifically, the front end of the operation panel 90 protrudes forward from the first front side wall 5. A main board (not shown) is disposed in the first housing 3, and the main board (not shown) and the operation panel 90 are connected by a wire harness (not shown). . By disposing the operation panel 90 in the first housing 3, the wire harness (not shown) can be easily arranged, that is, for example, at a short distance compared to the case where the operation panel 90 is disposed in the second housing 4. It can be arranged.

  Both the first right side wall 7 and the first left side wall 8 are substantially rectangular flat plates that are long in the front-rear direction. Specifically, the first right side wall 7 and the first left side wall 8 extend in a direction intersecting the first inclined surface 16. Moreover, the front side upper end part of the 1st right side wall 7 and the 1st left side wall 8 is notched so that the inclination direction may be met. Specifically, the front end edges of the first right side wall 7 and the first left side wall 8 are a lower front end edge 18 extending in a substantially vertical direction and an upper front end edge 19 extending in an inclined direction continuously from the upper end of the lower front end edge 18. And have. The first right side wall 7 and the first left side wall 8 are respectively connected to the corresponding first end face 17. At this time, the lower front edge 18 is disposed rearwardly from the corresponding width direction edge on the first front side surface 15, and the upper front edge 19 is rearward from the corresponding width direction edge on the first inclined surface 16. It is arranged with a gap. That is, the lower front edge 18 and the width direction edge of the first front surface 15 do not match, and the upper front edge 19 and the width direction edge of the first inclined surface 16 do not match. Further, the rear upper ends of the first right side wall 7 and the first left side wall 8 are cut out along a direction connecting the diagonally lower rear side and the diagonally front side upper side. A shaft (referred to as a rotation shaft 20) extending along the width direction is provided at the lower end of the notch portion at the rear upper end of the first right side wall 7 and the first left side wall 8.

  The upper surface (referred to as the first upper surface 21) of the first housing 3 is sandwiched in the front-rear direction by the above-described front-rear notch portions in the first right side wall 7 and the first left side wall 8, and extends in a substantially horizontal direction. ing. An opening (referred to as the attachment / detachment opening 9) is formed in the first upper surface 21 (see FIG. 3), and the inside of the first housing 3 is exposed upward from the attachment / detachment opening 9. The front end edge of the first upper surface 21 is connected to the lower end edge of the rear end surface of the upper end portion of the inclined portion 13. Thereby, the connection part of the 1st upper surface 21 and the inclination part 13 is a reverse L-shaped step part in the left side view by the front end part of the 1st upper surface 21, and the rear side end surface of the upper end part of the inclination part 13. (Referred to as first step portion 93).

  As described above, the outline of the upper periphery of the first housing 3 in the left side view is more specifically the first contour after extending from the rotating shaft 20 to the upper front side obliquely at the notch portion on the rear side of the first left side wall 8. The upper surface 21 extends substantially horizontally to the front side, and the first stepped portion 93 extends slightly from the rear end of the upper front end edge 19 in a substantially vertical direction, and then extends downward on the first inclined surface 16.

(1-2) Image Forming Unit As shown in FIG. 2, an image forming unit 10 is provided inside the first housing 3. The image forming unit 10 is provided with photosensitive drums 22A to 22D as an example of four image carriers arranged in parallel in the front-rear direction. The surfaces of the photosensitive drums 22A to 22D are uniformly charged by the scorotron chargers 23A to 23D, and then electrostatic latent images based on the image data are formed by the light emitted from the exposure units 24A to 24D. . The electrostatic latent images are visualized by toner (developer) carried on the developing rollers 25A to 25D, and toner images are formed on the surfaces of the photosensitive drums 22A to 22D.

  A sheet P as an example of a recording medium is accommodated in a sheet feeding tray 26 below the first housing 3, and is changed in direction from the front side to the rear side by various rollers provided in the sheet feeding unit 27. It is conveyed to 28. The paper feed tray 26 is detachable from the front side of the first housing 3 below the manual slit 14 (see FIG. 1). The conveyor belt 28 is disposed to face the photosensitive drums 22A to 22D. The toner images of the respective colors on the photosensitive drums 22A to 22D are sequentially superimposed and transferred onto the paper P transported to the transport belt 28 by the action of the transfer rollers 29A to 29D to which a transfer bias is applied. The paper P on which the four color toner images are transferred is conveyed to the fixing unit 30. After the toner image transferred onto the paper P is heat-fixed by the fixing unit 30, the paper P is discharged from the rear side to the front side by various rollers and discharged to a discharge unit 58 described later.

  The process cartridges 31 </ b> A to 31 </ b> D are a part of the image forming unit 10, are arranged in parallel in the first housing 3 along the substantially horizontal direction, and are connected to the first through the attachment / detachment opening 9 of the first upper surface 21. It can be attached to and detached from the housing 3. The process cartridges 31A to 31D mainly include photosensitive drums 22A to 22D, scorotron chargers 23A to 23D, developing rollers 25A to 25D, supply rollers 32A to 32D, and toner storage chambers 33A to 33D. The process cartridges 31A to 31D are different in only the color of the toner stored in the toner storage chambers 33A to 33D, and the configuration is the same. The toner stored in the toner storage chambers 33A to 33D is supplied to the developing rollers 25A to 25D via the supply rollers 32A to 32D.

  The exposure units 24A to 24D include LED elements 34A to 34D and columns 35A to 35D. The columns 35A to 35D extend in the vertical direction along the toner storage chambers 33A to 33D on the rear side of the toner storage chambers 33A to 33D. The LED element 34 is attached to the lower end of the column 35, and is disposed close to the photosensitive drums 22A to 22D from above so as to be spaced apart from the photosensitive drums 22A to 22D. The upper ends of the columns 35 </ b> A to 35 </ b> D are connected to the lower surface (second lower surface 75 described later) of the second housing 4.

(2) Second housing (2-1) Shape of second housing As shown in FIG. 1, the second housing 4 has a substantially box shape, and its left side surface has an inclined portion on the front side. It is substantially trapezoidal.

  Specifically, in the second housing 4, the rear side wall (referred to as the second rear side wall 59), the right side wall (referred to as the second right side wall 60), and the left side wall (referred to as the second left side wall 61) are substantially omitted. It extends vertically, and the outer surface of each side wall also extends substantially vertically.

  The second right side wall 60 and the second left side wall 61 are the substantially trapezoidal flat plates described above. Each contour of the second right side wall 60 and the second left side wall 61 in the left side view has an upper bottom part 62, a lower bottom part 63, a rear side connection part 64, and a front side connection part 65. The upper bottom 62 extends substantially in the horizontal direction. The lower bottom portion 63 extends longer than the upper bottom portion 62 in the substantially horizontal direction below the upper bottom portion 62. The rear connecting portion 64 extends in a substantially vertical direction and connects the rear end of the upper bottom portion 62 and the rear end of the lower bottom portion 63. The front connecting portion 65 extends in the above-described inclination direction and connects the front end of the upper bottom portion 62 and the front end of the lower bottom portion 63. The rear ends of the lower bottom portions 63 of the second right side wall 60 and the second left side wall 61 are each integrally provided with a substantially triangular convex portion 66 that narrows downward. The rotating shaft 20 of the first housing 3 is connected to the lower end of the convex portion 66. With reference to FIG. 2, the downstream end portion (lower end portion) of the protruding portion 66 in the protruding direction is located near the middle in the height direction of the column 35 to which the LED element 34 is attached. Therefore, when the second housing 4 is opened and closed as will be described later, the amount of movement of the LED element 34 in the front-rear direction within the first housing 3 is reduced, and the LED element 34 hardly interferes with the toner storage chamber 33. It has become.

  As shown in FIG. 1, the front side wall (referred to as the second front side wall 68) of the second housing 4 has a rectangular shape having the same width direction dimension as the first front side wall 5, and extends in the above-described inclination direction. Yes. The outer (front) side surface (referred to as the second inclined surface 69) of the second front side wall 68 is inclined in the inclination direction in the same manner as the second front side wall 68. A width direction end surface (referred to as a second end surface 70) of the second front side wall 68 extends obliquely rearward and downward continuously from the width direction end edge of the second inclined surface 69. The second end surface 70 extends in a direction orthogonal to the second inclined surface 69. The front end edge of the lower end of the second end surface 70 forms a width direction edge of the front end surface of the lower end portion of the second front side wall 68 and extends in a substantially vertical direction. Here, the front side end face of the lower end portion of the second front side wall 68 extends substantially vertically over the entire area. In the second front side wall 68, an opening (referred to as a discharge port 71) having a substantially rectangular shape in front view is formed at a position slightly shifted downward from the approximate center of the second inclined surface 69. The discharge port 71 is surrounded by the second inclined surface 69 over the entire circumference, and in the following, in the second inclined surface 69, a region above the discharge port 71 is defined as an upper inclined surface 97, and below the discharge port 71. The region on the side is the lower inclined surface 98, the region on the right side of the discharge port 71 is the right inclined surface 99, and the region on the left side of the discharge port 71 is the left inclined surface 100.

  Each front side connecting portion 65 of the second right side wall 60 and the second left side wall 61 is connected to the corresponding second end face 70. At this time, the front side connecting portion 65 is arranged to be shifted obliquely rearward and downward from the corresponding edge in the second inclined surface 69 on the second inclined surface 69, and the front side connecting portion 65 and the widthwise edge of the second inclined surface 69 are Does not match. Here, the second right side wall 60 and the second left side wall 61 extend in a direction intersecting the second inclined surface 69.

An upper side wall (referred to as a second upper side wall 72) of the second housing 4 has a substantially rectangular shape in a plan view that is long in the width direction, extends in a substantially horizontal direction, and substantially the entire region of the upper bottom 62 of the second right side wall 60. And the entire area of the upper bottom portion 62 of the second left side wall 61. Similarly to the second upper side wall 72, the upper surface of the second upper side wall 72 (referred to as a second upper surface 67 as an example of the upper surface of the housing 2) also extends in a substantially horizontal direction. The front end edge of the second upper side wall 72 is connected to the upper end edge of the second front side wall 68. The rear end edge of the second upper side wall 72 is connected to the upper end edge of the second rear side wall 59. Here, the width direction end surface (referred to as the third end surface 73) of the second upper side wall 72 extends downward continuously from the width direction end edge of the second upper surface 67. The third end surface 73 is orthogonal to the second upper surface 67. Each upper bottom portion 62 of the second right side wall 60 and the second left side wall 61 is connected to the corresponding third end surface 73. At this time, the upper bottom portion 62 is disposed on the second upper surface 67 so as to be shifted downward from the corresponding edge in the width direction, and the upper bottom portion 62 and the width direction edge of the second upper surface 67 do not coincide with each other.

  A lower side wall (referred to as a second lower side wall 74) of the second housing 4 has a substantially rectangular shape when viewed from the bottom, extends in a substantially horizontal direction, and substantially the entire bottom bottom 63 of the second right side wall 60 and the second left side wall. 61 is constructed between almost the entire bottom bottom 63 of the base plate. Similarly to the second lower side wall 74, the lower surface of the second lower side wall 74 (referred to as the second lower surface 75) also extends substantially horizontally. The second lower surface 75 has substantially the same size as the first upper surface 21 of the first housing 3 and is longer on the front side than the second upper surface 67 in the substantially horizontal direction. Here, the right side surface of the second right side wall 60 (referred to as the second right side surface 104, including the right third end surface 73) includes the right end edge of the second upper surface 67 and the right end edge of the second lower surface 75. Similarly, the left side surface of the second left side wall 61 (referred to as the second left side surface 105, including the left third end surface 73) is connected to the (lower right bottom 63). 2 The left end edge of the upper surface 67 and the left end edge of the second lower surface 75 (the lower bottom 63 on the left side) are connected over the entire area. As shown in FIG. 2, as described above, four pillars 35 </ b> A to 35 </ b> D are attached to the second lower surface 75 corresponding to the four process cartridges 31 </ b> A to 31 </ b> D. These columns 35 </ b> A to 35 </ b> D are arranged in parallel at equal intervals in the front-rear direction and extend downward from the second lower surface 75 orthogonally. The front end edge of the second lower surface 75 is connected to the lower end edge of the front end surface of the lower end portion of the second front side wall 68. As described above, since the front end surface of the lower end portion of the second front side wall 68 extends substantially vertically, the front end portion of the second lower surface 75 is provided at the connection portion between the second lower side wall 74 and the second front side wall 68. And a front end surface of the lower end portion of the second front side wall 68 form an inverted L-shaped step portion (referred to as a second step portion 94) in the left side view (see FIG. 1). That is, the second housing 4 is chamfered at a connection portion between the second lower side wall 74 and the second front side wall 68 (a portion that continues to the first inclined surface 16 in the second inclined surface 69 as will be described later). This connection is not pointed.

  The second rear side wall 59 is slightly thick in the front-rear direction, and a slit that is long in the width direction (referred to as a paper discharge slit 76) is formed on the front side thereof. A discharge path 77 is formed in the second rear side wall 59. The paper discharge path 77 is continuous from the upper end of the transport path 57 of the first housing 3 and extends to the paper discharge slit 76 while curving forward. Three discharge rollers 80 are built in the second rear side wall 59. These paper discharge rollers 80 are disposed adjacent to the rear side of the paper discharge slit 76 in a state where the other two paper discharge rollers 80 are in contact with one paper discharge roller 80.

  A paper discharge space 81 is formed inside the second housing 4. The paper discharge space 81 has a substantially rectangular parallelepiped shape that is long in the front-rear direction and is surrounded by the second rear side wall 59, the second right side wall 60, the second left side wall 61, the second upper side wall 72, and the second lower side wall 74. The paper discharge space 81 communicates with the discharge port 71 on the front side and communicates with the paper discharge slit 76 on the rear side. In the paper discharge space 81, a paper discharge tray 78 is provided. The paper discharge tray 78 is disposed on the second lower side wall 74 and has a plate shape that extends obliquely forward and upward while curving starting from the bottom of the paper discharge slit 76 and further extending substantially horizontally to the front. The front end of the discharge tray 78 protrudes from the discharge port 71 to the outside of the second housing 4, and is hereinafter referred to as a protruding portion 79. The protruding portion 79 protrudes forward so as not to cover the operation panel 90 from above.

  The paper discharge path 77, the paper discharge tray 78, the paper discharge roller 80, and the paper discharge space 81 described above are the discharge section 58 described above. That is, the second housing 4 includes a discharge unit 58, and the discharge unit 58 is provided above the image forming unit 10. Further, the discharge port 71 communicates with the discharge unit 58.

(2-2) Image Reading Unit In the second housing 4, the image reading unit 11 is attached to the second upper side wall 72. The image reading unit 11 is provided above the discharge unit 58.

  As shown in FIGS. 1 and 2, the image reading unit 11 is connected to the second upper side wall 72 (specifically, embedded in the second upper side wall 72), and swings on the original table 82. A presser cover 83 that is freely supported is provided.

  The document table 82 is formed in a rectangular plate shape in plan view similar to the second upper side wall 72, and a glass surface 84 on which the document is placed is provided on the upper surface. The glass surface 84 coincides with the second upper surface 67 of the second upper side wall 72. The document table 82 includes a CCD sensor 85 as an example of a scanning unit for reading a document placed on the glass surface 84. The CCD sensor 85 waits at the left end of the glass surface 84 (this position is referred to as a standby position), and when reading a normal document, it faces the glass surface 84 along the width direction from the left to the right (see FIG. (Refer to the thick broken line arrow 1) Slide. Here, since the discharge direction of the paper P to the discharge portion 58 (specifically, the discharge tray 78) is the front-rear direction (see the thick solid arrow in FIG. 1), the moving direction of the CCD sensor 85 (width direction, thick broken line in FIG. 1). The arrow (see arrow) and the discharge direction of the paper P are perpendicular to each other when projected on the same plane in the vertical direction.

  The presser cover 83 is formed in a rectangular plate shape similar to that of the document table 82 in plan view. The rear end portion of the presser cover 83 and the rear end portion of the document table 82 are connected by a hinge 86, and the presser cover 83 tilts to close the glass surface 84 from above, and stands up to the glass surface. It swings between the open position where 84 is exposed to the upper front side. As shown in FIG. 1, a concave portion (referred to as a grip portion 101) is formed at the front end of the presser cover 83, and the presser cover 83 is swung by placing a finger on the grip portion 101. An ADF (Auto Document Feeder) device 87 for automatically reading a document is provided at the left end of the presser cover 83. The ADF device 87 includes a box-shaped ADF casing 89 and a thin plate-shaped standby tray 88 that is substantially rectangular in plan view and extends from the right side wall of the ADF casing 89 to the right side. Inside the ADF casing 89, a document conveying roller (not shown) and a document detection sensor (not shown) are provided. In the right side wall of the ADF casing 89, an intake port (not shown) is formed above the standby tray 88, and an outlet (not shown) is formed below the standby tray 88.

  As shown in FIG. 2, in the case of normal document reading, the image reading unit 11 swings the presser cover 83 to the open position, places the document on the glass surface 84, and swings the presser cover 83 to the closed position. After the movement, the button 91 of the operation panel 90 is operated. As a result, the CCD sensor 85 at the standby position slides from the left side to the right side while facing the document placed on the glass surface 84, and the image information of the document is read. Thereafter, the presser cover 83 is again swung to the open position, and the original is removed from the glass surface 84. Further, the CCD sensor 85 automatically returns to the standby position described above.

  On the other hand, in the case of automatic document reading by the ADF device 87, when a document detection sensor (not shown) detects that a document is set on the standby tray 88 (see FIG. 1), the above-described normal document reading is described. In contrast, the CCD sensor 85 is fixed at an automatic document reading position (not shown). When the button 91 is operated, the document transport roller (not shown) of the ADF device 87 is rotated, the document is drawn into the document transport roller (not shown) and moved to the left, and the intake port (not shown). ) Through ADF casing 89. When the captured document faces the CCD sensor 85, the image information of the document is read by the CCD sensor 85. Thereafter, the document is discharged from an outlet (not shown).

As described above, the image reading unit 11 reads the image information of the document. The image forming unit 10 creates image data based on the image information of the document read as described above,
As described above, an image is formed on the paper P.

(3) Opening / closing of the second housing relative to the first housing The second housing 4 is rotatable relative to the first housing 4 about the rotation shaft 20. Specifically, the second housing 4 rotates between a closed position and an open position.

  When the second housing 4 is in the closed position, as shown in FIGS. 1 and 2, the first upper surface 21 of the first housing 3 covers the entire area with respect to the second lower surface 75 of the second housing 4. It abuts from below. Thereby, in the first housing 3, the first upper surface 21 is covered from the upper side by the second lower surface 75 of the second housing 4, and the attachment / detachment port 9 is closed. Further, the rear side surface of the first rear side wall 6 and the rear side surface of the second rear side wall 59 are flush with each other. The second step portion 94 fits into the first step portion 93, the lower end edge of the second inclined surface 69 is continuous from the upper end edge of the first inclined surface 16, and the second inclined surface 69 and the first inclined surface 16. Is the same. Here, the second inclined surface 69 and the first inclined surface 16 that are flush with each other are collectively referred to as an inclined surface 95. The inclined surface 95 is connected to the first housing 3 and the second housing 4, and has a substantially vertical surface (front side surface 15) on the side surface on the discharge port 71 side of the housing 2 and an upper surface of the housing 2. The front side surface 15 and the second upper surface 67 are connected to each other along the direction intersecting with the substantially horizontal plane (the second upper surface 67) (the above-described tilt direction). As shown in FIG. 2, the inclination angle θ of the inclined surface 95 with respect to the horizontal plane 96 is not less than 40 ° and not more than 50 °, and specifically 45 °. On the other hand, the inclination angle φ of the operation panel 90 (specifically, the upper surface of the operation panel 90) with respect to the horizontal plane 96 is greater than 0 ° and less than 40 °, and the operation panel 90 is below the discharge port 71 on the inclined surface 95. It inclines along the direction which approaches the horizontal surface 96 rather than the inclined surface 95 (refer also FIG. 1). When the second housing 4 is in the closed position, the LED elements 34A to 34D are adjacent to the corresponding photosensitive drums 22A to 22D from above, and the upper end of the transport path 57 and the lower end of the paper discharge path 77 Is continuous.

  The position of the second housing 4 when the protruding portion 79 of the paper discharge tray 78 is gripped and rotated counterclockwise from the closed position to nearly 90 ° in the left side view is the open position shown in FIG. . When the second housing 4 is in the open position, the second lower surface 75 of the second housing 4 is completely separated upward from the first upper surface 21 of the first housing 3, and in the left side view, the first upper surface 21 is substantially orthogonal. Thereby, in the 1st housing | casing 3, the 1st upper surface 21 and the attachment-and-detachment port 9 are open | released diagonally forward upward. The state in which the rear side surface of the second rear side wall 59 is inclined rearward with respect to the rear side surface of the first rear side wall 6 and the rear side surfaces are flush with each other is eliminated. Then, the second step portion 94 is disengaged from the first step portion 93, the second inclined surface 69 is separated from the upper end edge of the first inclined surface 16 toward the upper rear side, and the second inclined surface 69 and the first inclined surface are separated. The state where the surface 16 is flush with the surface 16 is eliminated. Further, when the second housing 4 is in the open position, all the LED elements 34A to 34D are separated upward from the corresponding photosensitive drums 22A to 22D, and more specifically, from the first upper surface 21 together with the pillars 35A to 35D. Is also located above.

2. Operation and Effect (1) As shown in FIG. 2, the printer 1 is a so-called in-body discharge type in which the image reading unit 11, the discharge unit 58, and the image forming unit 10 are arranged in order from the top. Here, the paper P discharged to the discharge portion 58 can be taken out by accessing the discharge port 71 communicating with the discharge portion 58.

As shown in FIG. 1, in the housing 2, the first front side surface 15 (substantially vertical surface) of the first housing 3 and the second upper surface 67 (substantially horizontal surface) of the second housing 4 are inclined surfaces. The operation panel 90 is disposed below the discharge port 71 on the inclined surface 95. Therefore, the user can easily visually recognize the display screen 92 of the operation panel 90 without looking into it from directly above. Further, in order to view the display screen 92 of the operation panel 90, the user can see the line of sight X (see FIG. 2), the first front side surface 15 and the second upper surface 67 (specifically, the image reading unit 1).
1 can be seen together, so that the state of the printer 1 can be grasped over a wide range. Further, as shown in FIG. 2, the operation panel 90 is inclined along the direction approaching the horizontal surface 96 rather than the inclined surface 95, so that the operation panel 90 can be easily operated from above.

  As a result, the display screen 92 of the operation panel 90 can be easily seen and the operation panel 90 can be easily operated, so that the operability can be improved.

  Further, since the operation panel 90 is provided in the first housing 3 on the front side instead of the second housing 4 on the back side (rear side) in the printer 1, the operation panel 90 is easy to operate, and the display screen 92 is displayed. Easy to see. This is because when viewed from the line of sight X, the operation panel 90 is close to the direction directly below the line of sight X and close to a plane perpendicular to the line of sight X.

  (2) As shown in FIG. 1, the movement direction of the CCD sensor 85 of the image reading unit 11 (see the thick broken line arrow in FIG. 1) and the discharge direction of the paper P to the discharge unit 58 (see the thick solid line arrow in FIG. 1). ) Is orthogonal when projected on the same plane in the vertical direction. Thereby, when the user is positioned on the discharge port 71 side with respect to the housing 2, the document is placed on the document table 82 (details are shown in FIG. 2) so that the longitudinal direction thereof is along the moving direction of the CCD sensor 85. Can be placed on the glass surface 84). That is, the user can hold the document in a stable state by grasping the document with both hands from both ends in the longitudinal direction, and can accurately place the document on the document table 82. Further, if the longitudinal direction of the original is along the front-rear direction, the rear portion of the original must be aligned on the side far from the user, and it is difficult to accurately place the original on the original table 82. Become. However, since the longitudinal direction of the document is aligned in the left-right direction, such inconvenience does not occur. Further, since the paper P is discharged forward, the user in front of the printer 1 can easily take out the discharged paper P.

  (3) As shown in FIG. 2, the inclination angle θ of the inclined surface 95 with respect to the horizontal plane 96 is not less than 40 ° and not more than 50 °. If the inclination angle θ is less than 40 °, the housing 2 tends to be flat in the vertical direction. In that case, there is a possibility that the components in the housing 2, particularly the discharge part 58, become narrow in the vertical direction. Since the second upper surface 67 side of the second housing 4 is narrowed in the horizontal direction, it may be difficult to dispose the image reading unit 11 disposed on the second upper surface 67 side, particularly the document table 82 in the housing 2. is there. On the other hand, if the inclination angle θ is larger than 50 °, the inclination of the inclined surface 95 with respect to the horizontal surface 96 becomes steep, so that the inclined surface 95 gives the user a feeling of pressure and the appearance of the printer 1 on the inclined surface 95 is poor. That is, by setting the inclination angle of the inclined surface 95 to 40 ° or more and 50 ° or less, the vertical dimension of the discharge portion 58 is ensured, and the document table 82 is securely arranged, and the printer 1 on the inclined surface 95 is arranged. The appearance can be improved. At this time, when the line of sight X is placed in front of the inclined surface 95, it is easy to see the document table 82, and it is easy to set the document, and it is easy to see and set the paper P in the manual slit 14.

  The inclination angle φ of the operation panel 90 with respect to the horizontal plane 96 is greater than 0 ° and less than 40 °. If the tilt angle φ is 0 °, the display screen 92 (see FIG. 1) is difficult to see. On the other hand, if the inclination angle φ is 40 ° or more, the operation panel 90 is inclined with respect to the horizontal plane 96, and the operation of the operation panel 90 becomes difficult. That is, by setting the inclination angle φ of the operation panel 90 to be greater than 0 ° and less than 40 °, it is possible to simultaneously ensure good visibility of the display screen 92 and good operability of the operation panel 90.

  (4) As shown in FIG. 1, since the discharge port 71 formed in the inclined surface 95 is surrounded by the inclined surface 95 over the entire circumference, in other cases, that is, the discharge port 71 is inclined. Compared to the case where the discharge port 71 is formed so as to overlap the end edge 95, the discharge port 71 looks better on the inclined surface 95, and the discharge state can be easily grasped by the discharge port 71.

  (5) The housing 2 is divided into a first housing 3 and a second housing 4. Here, the second housing 4 includes the image reading unit 11 and the discharge unit 58. Therefore, when the second housing 4 is opened and moved as shown in FIG. 3, the discharge unit 58 is also moved together. The first upper surface 21 of the first housing 3 can be easily opened, and the components (for example, the process cartridge 31) in the first housing 3 can be replaced smoothly. In addition, when the second housing 4 is opened, even if the paper P is left on the paper discharge tray 78, the periphery of the discharge port 71 is completely surrounded by the upper, lower, left, right, and rear side walls of the second housing 4. Therefore, there is no possibility that the paper P falls from the paper discharge tray 78.

  (6) As shown in FIG. 2, the printer 1 is elongated in the front-rear direction by arranging a plurality of photosensitive drums 22A to 22D in parallel along a substantially horizontal direction (specifically, the front-rear direction). However, since the upper end portion of the printer 1 is notched by the inclined surface 95 that connects the first front side surface 15 (substantially vertical surface) and the second upper surface 67 (substantially horizontal surface) in the housing 2, the size of the printer 1 can be reduced. Can be planned.

  (7) Since the LED element 34 attached to the second housing is relatively small, the size of the printer 1 can be reduced.

3. In the above embodiment, the direct transfer type color printer that directly transfers the toner image from the plurality of photosensitive drums 22A to 22D to the paper P is exemplified. However, the present invention is not limited to this, and The present invention can also be applied to an intermediate transfer type color printer or monochrome printer in which a toner image is once transferred to an intermediate transfer member and then transferred to a sheet P at a time. Further, although the photosensitive drum 22 is exposed by the LED element 34, the present invention can be applied to a laser printer that exposes the photosensitive drum 22 by a laser.

  Further, the inclined surface 95 does not need to be an inclined surface over the entire area of the inclined portion 13 of the first front side wall 5 and the front side surface of the second front side wall 68. For example, a part of the inclined surface 95 is a substantially vertical surface. It may be.

DESCRIPTION OF SYMBOLS 1 Printer 2 Housing | casing 3 1st housing | casing 4 2nd housing | casing 10 Image forming part 11 Image reading part 15 1st front side surface 21 1st upper surface 22 Photosensitive drum 34 LED element 58 Ejection part 67 2nd upper surface 71 Ejection port 82 Original Table 85 CCD sensor 90 Operation panel 92 Display screen 95 Inclined surface 96 Horizontal plane P Paper θ Inclination angle φ Inclination angle

Claims (7)

An image forming unit for forming an image on a recording medium, a discharge unit provided above the image forming unit and discharging a recording medium on which an image has been formed by the image forming unit, and above the discharge unit A housing provided with an image reading unit capable of reading image information of a document and having a discharge port communicating with the discharge unit;
An operation unit for operating at least one of the image forming unit and the image reading unit, including a display unit that displays at least an operation status of the image forming unit and the image reading unit;
The side surface of the housing on the outlet side includes a substantially vertical surface, and the top surface of the housing includes a substantially horizontal plane,
The casing is provided with an inclined surface that is inclined along a direction intersecting the substantially vertical plane and the substantially horizontal plane, and connects the substantially vertical plane and the substantially horizontal plane,
The discharge port is formed on the inclined surface, and the operation unit is inclined along a direction closer to a horizontal plane than the inclined surface, below the discharge port on the inclined surface. Image forming apparatus. The image reading unit includes a document table on which a document is placed, and a scanning unit that reads image information of the document placed on the document table by moving,
The image forming apparatus according to claim 1, wherein the moving direction of the scanning unit and the discharging direction of the recording medium to the discharging unit are orthogonal to each other when projected onto the same plane in the vertical direction. . The inclination angle of the inclined surface with respect to the horizontal plane is 40 ° or more and 50 ° or less,
The image forming apparatus according to claim 1, wherein an inclination angle of the operation unit with respect to a horizontal plane is greater than 0 ° and less than 40 °.   The image forming apparatus according to claim 1, wherein the discharge port is surrounded by the inclined surface over the entire circumference. The housing includes a first housing including the image forming unit;
An upper surface of the first casing is provided so as to be openable and closable above the first casing, and the second casing includes the discharge unit and the image reading unit. The image forming apparatus according to any one of 1 to 4. The image forming unit includes:
The image forming apparatus according to claim 5, further comprising a plurality of image carriers that are arranged in parallel in a substantially horizontal direction in the first housing and on which an electrostatic latent image is formed.   The image forming apparatus according to claim 6, wherein an LED element for forming the electrostatic latent image by exposing the image carrier is attached to the second casing.

Images