JP6065428B2 - Compound machine - Google Patents

Description

  The present invention relates to a multifunction machine having a scanner function and a facsimile function.

  A multifunction device having a scanner function and a facsimile function is known.

  The image reading unit for the scanner function includes, for example, a document placing table made of a glass plate, a carriage provided below the document placing table, and a reading unit held by the carriage. Below the document table, the guide rail extends parallel to the document table. The carriage is provided so as to be able to reciprocate along the guide rail while being guided by the guide rail.

  When reading an image, the document is placed on the document placement table with the surface to be read facing the document placement table. Thereafter, light is emitted from the reading unit to the document on the document table while the carriage is moved at a constant speed along the guide rail. The reflected light from the original is received by the image sensor of the reading unit, whereby reading of the image formed on the original is achieved.

  The guide rail is usually made of a metal shaft. Therefore, even if the resin housing supporting the guide rail is bent and deformed by a high temperature environment, the straightness of the guide rail is not substantially changed, and the carriage can be stably moved. As a result, the image of the original can be read satisfactorily.

JP 2007-133309 A

  Recently, from the viewpoint of cost, for example, it has been considered to integrally mold the guide rail with the housing using resin. However, due to environmental changes, the guide rail may bend and deform together with the housing, and the movement of the carriage may become unstable. When the movement of the carriage becomes unstable, there is a problem that the reading accuracy of the image by the reading unit is lowered.

  An object of the present invention is to provide a multifunction machine that can suppress deformation of a housing.

In order to achieve the above object, an MFP according to the present invention is provided with an image reading unit having a reading unit for reading an image of an original, and an image that is provided below the image reading unit and forms an image on a recording medium. And an image forming unit provided with a forming unit. The image reading unit is disposed between a housing having a bottom surface, a document placement table disposed opposite to the bottom surface of the housing, on which a document is placed, and between the bottom surface of the housing and the document placement table. A moving body that movably supports the reading unit in a predetermined reading direction along the bottom surface; a guide unit that is integrally formed with the housing and extends in the reading direction to guide the movement of the moving body ; And an elastic member . The image forming unit includes a cover unit that covers an upper portion of the image forming unit and has higher strength than the housing. The guide portion is provided on the bottom surface of the housing along the reading direction at a position that is a central portion in the main scanning direction orthogonal to the reading direction. The housing has a first portion at a position on one side in the main scanning direction with respect to the guide portion, and a second portion at a position on the other side, between the document placement table in the first portion. The first distance in the vertical direction and the second distance in the vertical direction between the second portion and the document placement table are larger than the distance in the vertical direction between the tip of the guide portion and the document placement table. The third distance in the vertical direction between the document placement table and the first part is the first distance and the second distance on the one side in the main scanning direction with respect to the first portion. A third portion at a height position where the distance is shorter, and an edge of the first portion on the one side in the main scanning direction and an end of the third portion on the other side in the main scanning direction. It has a connection part which connects an edge. The cover portion is connected to the third portion of the upper surface portion that will be arranged to overlap with a gap in the vertical direction downward, the other side edge of the main scanning direction of the upper surface portion of the housing top and bottom And a side surface portion extending in the direction. A first corner portion formed by the upper surface portion and the side surface portion of the cover portion is opposed to a second corner portion formed by the third portion of the housing and the connection portion with a space therebetween. The elastic member is interposed between the first corner and the second corner .

According to this configuration, the document placing table on which the document is placed is disposed to face the bottom surface of the housing of the image reading unit. Between the document table and the bottom surface of the housing, there is provided a moving body that supports a reading unit that reads an image of the document so as to be movable along the bottom surface of the housing. In order to guide the movement of the moving body, a guide portion integrally formed with the housing is provided along the reading direction at a position in the center of the main scanning direction perpendicular to the reading direction along the bottom surface of the bottom surface of the housing. are et al.

On the other hand, the upper part of the image forming unit that forms an image on the recording medium is covered with a cover. The cover part has higher strength than the housing. And the 3rd part of a housing and the upper surface part of a cover part are arrange | positioned with the clearance gap in the up-down direction.

Since there is a gap between the third portion of the housing and the upper surface portion of the cover portion, this gap can absorb assembling errors of each component such as the housing and the cover portion. Moreover, the deformation | transformation of the other accompanying one deformation | transformation of a housing and a cover part can be suppressed.

  And even if a housing deform | transforms exceeding the space | interval of a clearance gap by the change of an environment, the further deformation | transformation can be suppressed by the bottom face of a housing being supported by the cover part whose intensity | strength is higher than a housing.

  As a result, the straightness of the guide portion can be maintained. Therefore, even if the environment changes, the moving body can be moved stably, and a decrease in reading accuracy by the reading unit can be suppressed.

An elastic member is interposed between the first corner portion formed by the upper surface portion and the side surface portion of the cover portion and the second corner portion formed by the third portion and the connection portion of the housing .

  According to this configuration, it is possible to absorb the variation in the gap caused by the vertical assembly error of each component such as the housing and the cover portion by the elastic member.

  Further, since the bottom surface of the housing is pushed back by the elastic force of the elastic member in accordance with the deformation of the bottom surface of the housing, the deformation of the bottom surface of the housing can be suppressed.

  Furthermore, even when a large impact is suddenly applied from one of the housing and the cover portion to the other when the multifunction machine is dropped, the impact can be absorbed by the elastic member. As a result, damage to the housing and the cover portion can be suppressed.

Also, the corners formed by the upper surface of the cover portion and the side surface portion has high strength. Therefore, the first corner portion of the cover portion is unlikely to be deformed, and the first corner portion can support the housing via the elastic member. As a result, deformation of the housing can be satisfactorily suppressed.

  A plurality of elastic members are preferably provided at intervals in a predetermined direction.

  According to this configuration, when the housing is deformed, the stress generated by the deformation can be distributed and received by the plurality of elastic members. As a result, deformation of the housing can be satisfactorily suppressed over a predetermined direction.

  The image forming unit preferably includes a metal member provided at a portion facing the bottom surface of the housing with the cover portion interposed therebetween.

  According to this configuration, the metal member can suppress deformation of the cover portion and increase the strength of the cover portion. As a result, when the housing is deformed, the cover portion can favorably support the bottom surface of the housing.

  It is preferable that the cover portion is formed with a plurality of ribs extending toward the metal member.

  According to this configuration, when the cover portion is about to deform, the metal member and the rib come into contact with each other, whereby the strength of the metal member can be reliably imparted to the cover portion via the rib. Deformation can be further suppressed.

  A control board for controlling the operation of the image forming unit may be disposed between the cover portion and the metal member. In this case, the metal member may be a shield plate for preventing noise from entering the control board.

  According to this configuration, the metal member can have both a function of preventing noise from entering the control board and a function of reinforcing the cover.

  The guide part may be made of resin.

  According to this configuration, since the deformation of the housing can be suppressed by the cover portion, the straightness of the guide portion can be maintained in a high temperature environment even if the guide portion is made of resin.

  The guide part may be supported on the bottom surface of the housing.

  According to this configuration, since the deformation of the housing can be suppressed by the cover portion, the straightness of the guide portion can be maintained even if the guide portion is supported on the bottom surface of the housing.

  According to the present invention, even if the housing deforms beyond the gap interval due to environmental changes, the bottom surface of the housing is supported by the cover portion having higher strength than the housing, thereby suppressing further deformation. Can do. As a result, the straightness of the guide portion can be maintained. Therefore, even when there is a change in the environment, the moving body can be moved stably, and a decrease in reading accuracy by the reading unit can be suppressed.

FIG. 1 is a perspective view of a multifunction peripheral according to an embodiment of the present invention as viewed from the upper left front, showing a state in which a document cover is closed. FIG. 2 is a perspective view of the multifunction machine as viewed from the upper left front, showing a state where the document cover is opened. FIG. 3 is a plan view of the main body of the image reading unit shown in FIG. FIG. 4 is a cross-sectional view of the main body of the image reading unit and the image forming unit taken along the section line AA shown in FIG. FIG. 5 is a cross-sectional view of the main body of the image reading unit and the image forming unit taken along the cutting plane line BB shown in FIG. FIG. 6 is a perspective view of the housing, carriage, and moving mechanism shown in FIG. FIG. 7 is a plan view of the image forming unit shown in FIG. FIG. 8 is a perspective view of the main body of the image reading unit as viewed from the lower right front. FIG. 9 is an enlarged cross-sectional view of a portion surrounded by a two-dot chain line shown in FIG.

  In the following, an embodiment when the present invention is applied to a multifunction machine will be described in detail with reference to the accompanying drawings.

<Appearance configuration of MFP>

  As shown in FIG. 1, the multi-function device 100 has a substantially rectangular parallelepiped shape. The multi-function device 100 includes an image reading unit 200 and an image forming unit 300 disposed below the image reading unit 200.

  Note that the longitudinal direction of the multifunction device 100 in a plan view is defined as the left-right direction in a state where the multifunction device 100 is placed on a horizontal plane. A direction orthogonal to the longitudinal direction and the vertical direction of the multifunction peripheral 100 is defined as the front-rear direction. In each figure after FIG. 1, in order to assist understanding of drawing, the prescribed direction is shown by the arrow.

  The image reading unit 200 has a flat and substantially rectangular parallelepiped shape. The image reading unit 200 is provided to the image forming unit 300 so as to be rotatable and displaceable between a closed position and an open position about an axis extending in the left-right direction at the upper rear surface of the image forming unit 300. The image reading unit 200 is stacked on the image forming unit 300 in the closed position. The image reading unit 200 is unfolded with the front side raised relative to the image forming unit 300 in the open position.

  The image reading unit 200 includes a main body unit 201 and a document cover 202. The document cover 202 is provided so as to be rotatable and displaceable between a closed position shown in FIG. 1 and an open position shown in FIG. The document cover 202 is stacked on the main body 201 in the closed position. The document cover 202 is unfolded with the front side raised relative to the main body 201 in the open position.

  The image forming unit 300 has a substantially rectangular parallelepiped shape. An operation panel P that is operated by the user is disposed in the upper front portion of the image forming unit 300.

<Configuration of Image Reading Unit>

  As shown in FIGS. 3, 4, 5, and 6, the main body 201 of the image reading unit 200 includes a resin housing 203. As shown in FIG. 6, the housing 203 is formed in a substantially rectangular shape in plan view. The housing 203 has a bottom surface 204. A portion of the bottom surface 204 on which a guide rail 210 (described later) is provided and a carriage 207 (described later) is movable constitutes a substantially rectangular plate-shaped carriage forming portion 205.

  In FIG. 4, FIG. 5, and FIG. 9, only main parts are hatched to avoid complication of the drawings.

  As shown in FIGS. 4 and 5, the housing 203 holds a document placing table 206. The document placing table 206 is made of a rectangular glass plate that is long in the left-right direction. As shown in FIG. 4, the document placing table 206 is installed between the front upper end portion and the rear upper end portion of the housing 203, and is arranged in a horizontal posture so as to close the housing 203 from above.

  The main body 201 includes a carriage 207 as an example of a moving body. The carriage 207 is provided between the bottom surface 204 of the housing 203 and the document placing table 206. As shown in FIG. 6, the carriage 207 has a rectangular shape in plan view that is long in the front-rear direction.

The carriage 207 is a CIS (Contact Image) as an example of a reading unit.
Sensor) unit 208 is supported. In the CIS unit 208, for example, an LED light source, a lens, an image sensor, and the like are arranged.

  Further, the main body 201 includes a moving mechanism 209 for reciprocating the carriage 207 in the left-right direction. The moving mechanism 209 is provided between the bottom surface 204 of the housing 203 and the document table 206. The moving mechanism 209 includes a guide rail 210, a motor 211, a pulley 212, and a toothed belt 213 as an example of a guide portion.

  The guide rail 210 is integrally formed with the housing 203 on the carriage forming portion 205 on the bottom surface 204 of the housing 203. As shown in FIGS. 4 and 6, the guide rail 210 is formed as a protrusion having a U-shaped cross section that extends over substantially the entire width of the carriage forming portion 205 in the left-right direction. The carriage 207 is provided so as to straddle the guide rail 210 and can be reciprocated in the left-right direction while being guided by the guide rail 210.

  The reading direction of the present invention indicates a direction from the left side to the right side of the housing 203 in FIG. Specifically, the guide rail 210 is provided along the reading direction, and the carriage 207 moves in the reading direction.

  As shown in FIG. 6, the motor 211 is disposed on the left rear side of the left end portion of the guide rail 210 in the housing 203. A motor gear 214 is attached to the output shaft of the motor 211.

  The pulley 212 is disposed on the front side of the motor 211. The pulley 212 is a stepped gear having a first gear portion and a second gear portion on the same axis, and the motor gear 214 is meshed with the first gear portion.

  The toothed belt 213 is wound around a pulley 212 and a pulley (not shown) disposed in the vicinity of the right end of the guide rail 210 and extends in the left-right direction. A gear formed on the inner surface of the toothed belt 213 meshes with the second gear portion of the pulley 212. A middle portion of the toothed belt 213 is fixed to the carriage 207.

  When the motor 211 is driven in one direction, a driving force is input from the motor gear 214 to the pulley 212, and the pulley 212 rotates in the opposite direction to the motor 211. The rotation of the pulley 212 causes the toothed belt 213 to circulate, and accordingly, the carriage 207 moves to the right while being guided by the guide rail 210. Further, when the motor 211 is driven in the other direction, a driving force is input from the motor gear 214 to the pulley 212, and the pulley 212 rotates in the opposite direction to the motor 211. The rotation of the pulley 212 causes the toothed belt 213 to go around, and accordingly, the carriage 207 moves to the left while being guided by the guide rail 210.

  As shown in FIG. 2, the document cover 202 includes a document pressing member 221. The document pressing member 221 is disposed at a position facing the document placement table 206 in a state where the document cover 202 is stacked on the main body unit 201. The document pressing member 221 has, for example, a sheet shape made of white resin. The document pressing member 221 is elastically held on the document cover 202.

  At the time of reading an image, the document cover 202 is displaced from a posture in which the document cover 202 is stacked on the main body 201 to a posture in which the front side is lifted and unfolded. As a result, the document placing table 206 is exposed. On the exposed document placing table 206, the document is placed with the surface to be read facing the document placing table 206 side. Thereafter, the document cover 202 is returned to the posture of being stacked on the main body 201. The carriage 207 is moved from the home position near the left end of the guide rail 210 to the right (reading direction) at a constant speed, and light is emitted from the CIS unit 208 to the document on the document placement table 206. The reflected light from the document is received by the image sensor of the CIS unit 208, whereby reading of the image formed on the document is achieved. When the reading is completed, the carriage 207 is moved to the left and returned to the home position.

<Configuration of image forming unit>

  As shown in FIGS. 4, 5, and 7, the image forming unit 300 includes a cover 301 as an example of a cover unit. The cover 301 has a higher strength than the housing 203 located above the cover 301. As shown in FIG. 9, the cover 301 is disposed to face the bottom surface 204 of the housing 203 of the image reading unit 200 with a gap 321 from below to form the upper surface of the image forming unit 300. As shown in FIGS. 4 and 7, the cover 301 has a first upper surface portion 302 as an example of an upper surface formed at a relatively higher position, and a relative number of 1 on the rear side of the first upper surface portion. A side surface as an example of a side surface that is connected to the second upper surface portion 303 formed at a step-down position, the rear end edge of the first upper surface portion 302 and the front end edge of the second upper surface portion 303 and extends in the vertical direction and the horizontal direction. Part 304.

  Below the cover 301, for example, an ink jet image forming unit 305 for realizing a printer function is provided.

  A control board 308 for controlling the image forming unit 305 is accommodated in a horizontal posture in a space 307 below the first upper surface portion 302 of the cover 301 and above the space 306 in which the image forming unit 305 is accommodated. Has been.

  A metal shield plate 309 for preventing noise from entering the control board 308 is provided so as to partition the space 306 in which the image forming unit 305 is accommodated from the space 307 in which the control board 308 is accommodated. . A shield plate 309 as an example of a metal member is arranged to face the control board 308 from below, and faces a counter part 310 extending in parallel with the control board 308, and a bent part 311 connected to the rear edge of the counter part 310. Are integrated. The bent portion 311 rises upward from the rear end edge of the facing portion 310, bends backward, bends further downward, and extends downward in parallel with the side surface portion 304 of the cover 301.

  As shown in FIG. 5, a plurality of ribs 312 are formed on the lower surface of the cover 301 at intervals in the left-right direction. As shown in FIG. 4, each rib 312 is provided inside a corner portion 313 formed by the first upper surface portion 302 and the side surface portion 304. Each rib 312 extends downward toward the shield plate 309, and a lower end thereof is opposed to the bent portion 311 of the shield plate 309 upward with a minute gap.

<Elastic member>

  As shown in FIG. 8, a plurality of elastic members 401 are provided on the bottom surface 204 of the housing 203 of the image reading unit 200. The elastic member 401 is disposed at a position overlapping the ribs 312 in the vertical direction in a state where the image reading unit 200 is stacked on the image forming unit 300. Then, in a state where the image reading unit 200 is stacked on the image forming unit 300, each elastic member 401 comes into contact with the corner portion 313 formed by the first upper surface portion 302 and the side surface portion 304 of the cover 301 in a compressed state from above. ing.

<Details of the configuration near the elastic member>

  As shown in FIG. 9, the bottom surface 204 of the housing 203 of the image reading unit 200 has a high step portion 222 that is one step higher than the rear portion of the guide rail 210 on the front side of the guide rail 210 in the carriage forming portion 205. doing. The high step portion 222 and a portion that is one step lower than the high step portion 222 in the carriage forming portion 205 are connected by a connection portion 223.

  The first upper surface portion 302 of the cover 301 of the image forming unit 300 is disposed below the high step portion 222. The first upper surface portion 302 is parallel to the high step portion 222 with a gap 321 therebetween, and overlaps the high step portion 222 in the vertical direction. The corner portion 313 formed by the first upper surface portion 302 and the side surface portion 304 is opposed to the inner surface of the corner portion formed by the high step portion 222 and the connection portion 223 with an interval from the front lower side.

  The bent portion 311 of the shield plate 309 is disposed below the rear end portion of the first upper surface portion 302. The bent portion 311 extends forward from the rear end edge of the facing portion 310 shown in FIG. 4, an upper portion 315 extending rearward from the upper end edge of the front side portion 314, and extends downward from the rear end edge of the upper portion 315. A rear side 316 is provided. The upper portion 315 is opposed to the lower surface of the first upper surface portion 302 with a space therebetween. The rear side portion 316 is opposed to the front surface of the side surface portion 304 with an interval smaller than the interval between the lower surface of the first upper surface portion 302 and the upper portion 315.

  Each rib 312 provided inside the corner portion 313 is formed between the first upper surface portion 302 and the upper portion 315. The rib 312 has a substantially rectangular shape in side view. The rib 312 extends over the lower surface of the first upper surface portion 302 and the front surface of the side surface portion 304. The lower end edge of the rib 312 extends in parallel with the upper portion 315 in the front-rear direction with a small gap from the upper portion 315.

  The elastic member 401 is provided above each rib 312 in a state where the image reading unit 200 is stacked on the image forming unit 300. Each elastic member 401 is in contact with the first upper surface portion 302 and the side surface portion 304 of the housing 203. In a state where the image reading unit 200 is stacked on the image forming unit 300, the rear end portion of each elastic member 401 is in contact with a portion of the corner portion 313 where the rib 312 is provided in a compressed state from above. Therefore, each elastic member 401 receives a reaction force from the corner portion 313. Due to this reaction force, the housing 203 is elastically supported by each elastic member 401. The elastic force applied to the housing 203 from each elastic member 401 is received by being distributed to the first upper surface portion 302 and the side surface portion 304.

<Effect>

  As described above, the document placing table 206 on which the document is placed is disposed so as to face the bottom surface 204 of the housing 203 of the image reading unit 200. A carriage 207 is provided between the document table 206 and the bottom surface 204 of the housing 203 to support a CIS unit 208 that reads an image of the document movably along the bottom surface 204 of the housing 203. In order to guide the movement of the carriage 207, a guide rail 210 is provided in the housing 203.

  On the other hand, an upper part of an image forming unit 305 that forms an image on a recording medium such as paper is covered with a cover 301. The cover 301 has a higher strength than the housing 203. The bottom surface 204 of the housing 203 and the cover 301 are arranged so as to overlap each other with a gap 321 in the vertical direction.

  Since a gap 321 is provided between the bottom surface 204 of the housing 203 and the cover 301, the gap 321 can absorb an error in the vertical direction in assembling the parts such as the housing 203 and the cover 301. Further, the deformation of the housing 203 and the cover 301 accompanying the deformation of the other can be suppressed.

  Even if the resinous housing 203 is deformed beyond the gap 321 in a high temperature environment, the bottom surface 204 of the housing 203 is supported by the cover 301 having a higher strength than the housing 203, so that Deformation can be suppressed.

  Since the deformation of the housing 203 can be suppressed, the straightness of the guide rail 210 is maintained even if the guide rail 210 is made of resin or the guide rail 210 is supported by the bottom surface 204 of the housing 203. be able to.

  Accordingly, the carriage 207 can be stably moved even in a high temperature environment, and a decrease in reading accuracy by the CIS unit 208 can be suppressed.

  An elastic member 401 is interposed in the gap 321 between the bottom surface 204 of the housing 203 and the cover 301.

  The elastic member 401 can absorb a variation in the gap 321 caused by an assembly error between the housing 203 and the cover 301.

  Further, as the bottom surface 204 of the housing 203 is deformed, the bottom surface 204 of the housing 203 is pushed back by the elastic force of the elastic member 401, so that the deformation of the bottom surface 204 of the housing 203 can be suppressed.

  Furthermore, even when a large impact is suddenly applied from one of the housing 203 and the cover 301 to the other when the multifunction device 1 is dropped, the impact can be absorbed by the elastic member 401. As a result, damage to the housing 203 and the cover 301 can be suppressed.

  The cover 301 has a first upper surface portion 302 that extends in the left-right direction with a gap 321 between the bottom surface 204 of the housing 203 and a side surface portion 304 that is continuous with the first upper surface portion 302 and extends in the up-down direction and the left-right direction. ing. The elastic member 401 is in contact with a corner portion 313 formed by the first upper surface portion 302 and the side surface portion 304.

  A corner portion 313 formed by the first upper surface portion 302 and the side surface portion 304 of the cover 301 has high strength. Therefore, when the housing 203 is deformed, the housing 203 can be supported via the elastic member 401 by the corner portions 313 having high strength. As a result, the deformation of the housing 203 can be suppressed satisfactorily.

  A plurality of elastic members 401 are provided at intervals in the left-right direction.

  When the housing 203 is deformed, the stress generated by the deformation can be distributed and received by the plurality of elastic members 401. As a result, the deformation of the housing 203 can be satisfactorily suppressed in the left-right direction.

  Further, the image forming unit 300 includes a shield plate 309.

  The shield plate 309 is located below the corner portion 313 formed by the first upper surface portion 302 and the side surface portion 304 of the cover 301 and acts to increase the strength of the cover 301. As a result, when the housing 203 is deformed, the bottom surface 204 of the housing 203 can be favorably supported by the cover 301 having high strength.

  The cover 301 is preferably formed with a plurality of ribs 312 extending toward the shield plate 309.

  When the cover 301 is deformed, the shield plate 309 and the rib 312 come into contact with each other, so that the strength of the shield plate 309 can be reliably applied to the cover 301 via the rib 312. Therefore, the shield plate 309 can have both a function of preventing noise from entering the control board 308 and a function of reinforcing the cover 301.

<Modification>

  As mentioned above, although one Embodiment of this invention was described, this invention can also be implemented with another form.

  For example, the guide rail 210 is made of resin and is integrally formed with the bottom surface 204 of the housing 203. However, the guide rail 210 may be formed separately from the housing 203 using a resin, disposed on the bottom surface 204 of the housing 203, and fixed to the bottom surface 204. Further, the guide rail 210 may be formed separately from the housing 203 using resin, and may be supported by the housing 203 in a state of floating upward with respect to the bottom surface 204 of the housing 203.

  Further, the guide rail 210 need not be made of resin, and may be made of metal. Even when the guide rail 210 is made of metal, the guide rail 210 may be fixed in contact with the bottom surface 204 of the housing 203 or supported by the housing 203 while floating upward with respect to the bottom surface 204. May be.

  In addition, various design changes can be made to the above-described configuration within the scope of the matters described in the claims.

DESCRIPTION OF SYMBOLS 1 Multifunction device 200 Image reading part 203 Housing 204 Bottom face 206 Document placing table 207 Carriage 208 CIS unit 210 Guide rail 300 Image forming part 301 Cover 302 First upper surface part 304 Side face part 305 Image forming unit 308 Control board 309 Shield plate 312 Rib 313 Corner 321 Gap 401 Elastic member

Claims (6)

A multifunction device including an image reading unit including a reading unit that reads an image of a document, and an image forming unit that is provided below the image reading unit and includes an image forming unit that forms an image on a recording medium. ,
The image reading unit
A housing having a bottom surface;
A document placement table disposed opposite to the bottom surface of the housing and on which a document is placed;
A movable body that movably supports the reading unit in a predetermined reading direction along the bottom surface between the bottom surface of the housing and the document table;
A guide portion integrally formed with the housing, extending in the reading direction, and guiding the movement of the moving body;
An elastic member ,
The image forming unit includes:
A cover portion that covers an upper portion of the image forming unit and has higher strength than the housing;
The guide portion is provided on the bottom surface of the housing along the reading direction at a position that is a central portion in the main scanning direction orthogonal to the reading direction,
The housing has a first portion at a position on one side in the main scanning direction with respect to the guide portion, and a second portion at a position on the other side, between the document placement table in the first portion. The first distance in the vertical direction and the second distance in the vertical direction between the second portion and the document placement table are larger than the distance in the vertical direction between the tip of the guide portion and the document placement table. The third distance in the vertical direction between the document placement table and the first part is the first distance and the second distance on the one side in the main scanning direction with respect to the first portion. A third portion at a height position where the distance is shorter, and an edge of the first portion on the one side in the main scanning direction and an end of the third portion on the other side in the main scanning direction. Have a connection to connect the edge,
The cover portion is connected to the third portion of the upper surface portion that will be arranged to overlap with a gap in the vertical direction downward, the other side edge of the main scanning direction of the upper surface portion of the housing top and bottom A side portion extending in the direction,
The first corner portion formed by the upper surface portion and the side surface portion of the cover portion is opposed to the second corner portion formed by the third portion of the housing and the connection portion with a space therebetween,
The elastic member is a multifunction machine that is interposed between the first corner portion and the second corner portion . The elastic member is spaced to the reading direction, it is provided a plurality multifunction machine according to claim 1. The image forming unit further includes a metal member provided on a bottom surface opposed to part of the housing across the cover portion, multifunction machine according to claim 1 or 2. The multifunction device according to claim 3 , wherein the cover portion is formed with a plurality of ribs extending toward the metal member. The image forming unit further includes a control board that is disposed between the cover unit and the metal member and controls the operation of the image forming unit.
5. The multifunction device according to claim 3 , wherein the metal member is a shield plate for preventing noise from entering the control board. The guide portion is made of resin, multifunction machine according to any one of claims 1-5.

Images