JP2004104392A - Image input output apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image input output apparatus for preventing a contact between an FFC and a document bed without increasing the entire height of the apparatus. <P>SOLUTION: In the state in which a top 26 of the FFC 34 is highest, a lower part of a folded part 30 is contained in a recessed part 46 formed at a bottom 42. More concretely, since the shape of the bottom 42 is set so that a lower end of a folded part 30, that is, a part at which the FFC 34 and the bottom 42 start contacting, is supported by a flat face 38 of a lowest recessed part 46 of the bottom 42, the height of an internal space of a scanner housing 18 is suppressed at parts other than the recessed part 46 without bringing the FFC 34 into contact with the document bed 22. Since the recessed part 46 is contained in a remaining space of a printer housing 56, the contact between the document bed 22 and the FFC 34 is prevented without increasing the entire height of the printer housing 56 and the scanner housing 18. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image input / output device capable of reading and printing an image.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a housing (referred to as a scanner housing) accommodating a carriage on which an image sensor is mounted, and a housing (referred to as a printer housing) accommodating a printing unit such as an ink jet type printer head are so-called second floors. An image input / output device integrated with a built-in structure is known. The scanner housing is arranged on an upper stage of the printer housing to support a document table on which a document is placed.
[0003]
In a carriage moving image scanner, a circuit mounted on a carriage that reciprocates in a housing and a circuit fixed to the housing are electrically connected by a flexible flat cable (FFC). The FFC is gently curved and folded inside the scanner housing. When the FFC is deformed due to the movement of the carriage and the FFC comes in contact with the platen, dirt adheres to the back surface of the platen glass, and the platen is scratched by friction. Generally, since the platen glass is fixed to the scanner housing so that it cannot be detached, the user cannot remove dirt attached to the back surface of the platen glass. In addition, there is a problem that dirt and scratches attached to the platen glass due to rubbing with the FFC are read as images.
[0004]
2. Description of the Related Art Conventionally, there has been known an image scanner including a housing having a double bottom structure into which a folded portion of an FFC is dropped in order to prevent friction between the FFC and a document table (for example, see Patent Document 1).
[0005]
[Patent Document 1]
JP-A-5-219315 (FIG. 1)
[0006]
[Problems to be solved by the invention]
However, if the scanner housing of the image input / output device is provided with a double bottom for dropping the folded portion of the FFC, there is a problem that the scanner housing becomes large in the height direction. Therefore, when the double bottom for dropping the folded portion of the FFC is applied to the scanner housing of the image input / output device, there is a problem that the entire image input / output device increases in the height direction.
[0007]
SUMMARY OF THE INVENTION It is an object of the present invention to provide an image input / output device that prevents contact between an FFC and a document table without increasing the overall height of the device.
[0008]
[Means for Solving the Problems]
2. The image input / output device according to claim 1, wherein the box-shaped scanner housing supporting the document table, a scanning circuit having a linear image sensor, and the scanning circuit mounted with the scanning circuit and the inside of the scanner housing being the document table. A carriage that reciprocates in parallel with the board surface, a processing unit that processes an output signal of the scanning circuit and outputs image data, and one end electrically connected to the scanning circuit and the other end electrically connected to the processing unit. A flexible flat cable, which is connected to the scanner housing and has a gently curved folded portion inside the scanner housing, and wherein the folded portion is deformed with the movement of the carriage, a printer housing provided below the scanner housing, A printing unit accommodated in the printer housing for printing image data. Height and section recess that fits the bottom of the folded portion when maximized are formed in the bottom of the scanner housing, characterized in that the recess fits into the remaining space of the printer housing.
[0009]
Generally, in an image input / output device, the outer dimensions of the scanner housing are determined according to the maximum size of a readable document, and the outer dimensions of the printer housing are determined according to the dimensions of the bottom of the scanner housing. That is, in the image input / output device, generally, the outer dimensions of the printer housing are determined according to the maximum size of the readable document. When the external dimensions of the printer housing are determined in this way, the size of the internal space of the printer housing becomes larger than the space required by the mechanical elements of the printing unit, and a residual space is formed in the printer housing.
[0010]
According to the image input / output device of the first aspect, when the height of the folded portion is maximized, the concave portion in which the lower portion of the folded portion fits is formed in the bottom of the scanner housing, and the concave portion fits in the remaining space of the printer housing. The contact between the FFC and the document table can be prevented without increasing the height of the entire apparatus.
[0011]
The concave portion of the image input / output device according to the second aspect is accommodated in an ink cartridge replacement opening formed in the printer housing.
[0012]
According to the image input / output device according to the second aspect, the concave portion of the scanner housing is housed in the ink cartridge replacement opening originally provided in the image input / output device including the printing unit of the ink jet system or the like. There is no need to change the structure of the printer housing to accommodate it.
[0013]
The concave portion of the image input / output device according to claim 3, wherein the concave portion has a first inclined surface that comes into contact with the folded portion and a second inclined surface that does not come into contact with the folded portion. It is characterized by being larger than the slope of the slope.
According to the image input / output device of the third aspect, since the slope of the first slope contacting the folded portion is larger than the slope of the second slope not contacting the folded portion, the volume of the concave portion occupying the inside of the printer housing. And the depth of the concave portion in which the FFC can be accommodated can be increased. Therefore, according to the image input / output device of the third aspect, the physical size of the entire device can be reduced.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described based on examples.
FIG. 1 is a schematic diagram showing an internal structure of an image input / output device 1 according to one embodiment of the present invention.
[0016]
The scanner housing 18 is formed in a box shape with an open top, and is swingably connected to the printer housing 56 by a hinge (not shown). When the scanner housing 18 is in the fully closed position shown in FIG. 1A, the bottom 42 of the scanner housing 18 is supported by the printer housing 56.
[0017]
The document table 22 is a transparent glass plate that closes an opening formed in the upper part of the scanner housing 18 and is fixed to the scanner housing 18. Documents up to A4 size can be placed on the surface of the platen 22.
[0018]
The sensor carriage 16 is formed in a box shape, and is housed inside the scanner housing 18. The sensor carriage 16 is slidably supported by a guide rod 28 fixed to the scanner housing 18. The sensor carriage 16 is locked by a belt (not shown) which is rotated by the drive mechanism 15. The drive mechanism 15 is housed inside the scanner housing 18 and includes a pulley, a gear train, a motor and the like around which a belt is wound. The sensor carriage 16 reciprocates in the axial direction of the guide rod 28 with the rotation of the belt.
[0019]
The scanning circuit board 24 on which the linear image sensor 20 is mounted and the optical system 14 are mounted inside the sensor carriage 16. The optical system 14 includes a light source (not shown), a mirror, and a lens. The light source irradiates the vicinity of the scanning line of the document, and the mirror and the lens form the reflected light image on the scanning line of the irradiated document on the linear image sensor 20. The linear image sensor 20 is mounted on the scanning circuit board 24 in such a manner that the light receiving elements of each color of RGB are arranged in a straight line in the direction perpendicular to the paper of FIG. The linear image sensor 20 scans an optical image on a scanning line input by the optical system 14 and outputs an electric signal correlated with the density of the optical image. On the scanning circuit board 24, the linear image sensor 20, a circuit for driving the linear image sensor 20, the light source, and the like are mounted.
[0020]
The FFC 34 is accommodated inside the scanner housing 18 in a posture that forms the folded portion 30. In the present embodiment, the portion from the end portion 32 fixed to the scanning circuit board 24 to the portion where it starts to contact the bottom portion 42 of the scanner housing 18 corresponds to the folded portion 30 of the FFC 34. The folded portion 30 is gently curved, and is bent substantially 180 degrees. One end 32 of the FFC 34 is electrically connected to the scanning circuit board 24. The other end 12 of the FFC 34 is electrically connected to the processing unit 10. The FFC 34 transmits an output signal of the linear image sensor 20 and the like to the processing unit 10, and transmits a control signal and the like of the processing unit 10 to the scanning circuit board 24. The folded portion 30 is deformed as the sensor carriage 16 moves. The FFC 34 becomes slack when the sensor carriage 16 is located near the end (standby position) of the movement range, that is, the length of the folded portion 30 is maximized. Therefore, when the repulsion force against the bending of the FFC 34 is sufficiently large, the height of the folded portion 30 becomes maximum when the sensor carriage 16 is located near the (standby position). When the sensor carriage 16 is located near the (standby position), the lower part of the folded portion 30 is located near the center of the scanner housing 18.
[0021]
The printer housing 56 is formed in a box shape, and is located below the scanner housing 18. The printer housing 56 swingably supports the scanner housing 18. The printer housing 56 houses the processing unit 10, the printing unit 58, and a power supply unit (not shown). The projection of the printer housing 56 onto a horizontal plane is substantially the same as the projection of the scanner housing 18 onto a horizontal plane. When the scanner housing 18 is in the fully closed position, the upper portion of the side wall of the printer housing 56 and the lower portion of the side wall of the scanner housing 18 are connected without any substantial step. Since the scanner housing 18 is large enough to read an A4 size document, the printer housing 56 forms an internal space larger than the physical size of the printing unit 58 and the like.
[0022]
The printing unit 58 includes a paper transport mechanism (not shown), a print head 54, a printer carriage 52 on which the print head is mounted, and a printer carriage driving mechanism. The paper transport mechanism includes a paper feed roller, a paper discharge roller, a gear train and a motor for driving these rollers.
[0023]
The printer carriage 52 is slidably supported by the guide rod 50. The printer carriage 52 is locked on a rotating belt by a drive mechanism (not shown). The printer carriage 52 reciprocates in the axial direction of the guide rod 50 with the rotation of the belt. The drive mechanism of the printer carriage 52 includes a pulley around which a belt is wound, a gear train, a motor, and the like.
[0024]
The print head 54 is mounted on the printer carriage 52. The print head 54 includes, for example, nozzles for ejecting ink, piezo elements, ink passages, and the like, and fixes ink droplets on paper by an inkjet method. The ink cartridge 48 is detachably fixed to the printer carriage 52. The ink cartridge 48 is a container that stores ink of each color. The ink stored in the ink cartridge 48 is supplied to the nozzles of the print head 54 through the ink passage. The printing unit 58 may be configured to be compatible with various printing methods such as a laser method, not limited to the ink jet method.
[0025]
The processing unit 10 performs image processing such as gamma correction, shading correction, and color space conversion on the signal output from the scanning circuit board 24 to generate image data. Further, the processing unit 10 generates print data by performing halftone processing, resolution conversion processing, color space conversion processing, and the like on the image data, and controls the printing unit 58 based on the print data. When the image input / output device 1 functions as a scanner controlled by a PC, the image data created by the processing unit 10 is output to the PC via an interface (not shown). When the image input / output device functions as a printer controlled by a PC, print data is input to the processing unit from the PC via an interface.
[0026]
FIG. 2 is a perspective view showing the bottom member 66 of the scanner housing 18.
The bottom portion 42 of the scanner housing 18 is formed of a thin bottom member 66 reinforced with a number of ribs 64. The bottom member 66 is integrally formed by injection molding. A concave portion 46 is formed substantially at the center of the bottom portion 42. The recess 46 has a first slope 40, a flat face 38, and a second slope 36. The first inclined surface 40, the flat surface 38, and the second inclined surface 36 are arranged in this order in a direction parallel to the movement direction axis of the sensor carriage 16. The slope of the first slope 40 is set to be larger than the slope of the second slope 36. Therefore, the depth of the recess 46 is deeper on the first slope side than on the center and shallower on the second slope side than on the center. The flat surface 38 corresponds to the deepest portion of the concave portion 46. As shown in FIG. 1, when the sensor carriage 16 is at the standby position, the FFC 34 is the most slack, and the height from the bottom 42 to the top 26 is maximum. At this time, the portion of the FFC 34 that is farthest from the sensor carriage 16 in the sub-scanning direction (the right direction in FIG. 1) is located slightly closer to the edge of the center of the bottom 42 of the scanner housing 18. At this time, the top 26 of the FFC 34 is located just above the vicinity of the center of the bottom 42 of the scanner housing 18. The flat surface 38 formed between the first slope 40 and the second slope 36 extends from substantially the center of the bottom 42 of the scanner housing 18 in the sub-scanning direction (rightward in FIG. 1). When the top 26 of the FFC 34 is the highest, the configuration of the recess 46 is set such that the lowest portion of the folded portion 30 is supported by the flat surface 38 of the bottom 42 in the scanner housing 18.
[0027]
As shown in FIG. 2, an outlet 62 that guides the FFC 34 into the inside of the printer housing 56 is formed in the bottom member 66. The FFC 34 is inserted into the outlet 62 and drawn out of the outlet 62 into the printer housing 56.
[0028]
The FFC 34 extends from the outlet 62 in the main scanning direction (the lower left direction in FIG. 2), bends into an L shape before the second inclined surface 36, extends in the sub-scanning direction (the right direction in FIG. 2), and Along with the recess 46. The FFC 34 is always in contact with the bottom 42 from the outlet 62 through the second slope 36 to the center of the flat surface 38. As the sensor carriage 16 moves in the sub-scanning direction, the section of the FFC 34 in contact with the bottom 42 is extended toward the end 32 on the carriage side.
[0029]
A hinge attachment portion 60 is formed at a corner of the bottom member 66. A hinge (not shown) is attached to the hinge attachment portion 60. The hinge connects the bottom member 66 to the printer housing 56 in a swingable manner.
[0030]
An operation panel mounting portion 68 is formed at the center of the end of the bottom member 66 facing the hinge mounting portion 60. An operation panel 70 (see FIG. 3) is mounted on the operation panel mounting section 68.
[0031]
FIG. 3 is a perspective view illustrating an external appearance of the image input / output device 1. FIG. 3 shows the scanner housing 18 in the fully open position.
The operation panel 70 is provided with a plurality of switches 74 and a liquid crystal display 72. A menu for controlling the processing unit 10 is displayed on the liquid crystal display 72. The menu is operated by a plurality of switches 74.
[0032]
An ink cartridge replacement opening 44 is formed in the upper part of the printer housing 56. The ink cartridge replacement opening 44 is formed such that at least a part of the ink cartridge 48 is exposed when the printer carriage 52 reciprocates and the printer carriage 52 is at any position.
[0033]
The bottom surface of the bottom portion 42 of the scanner housing 18 is raised on the back surfaces of the first inclined surface 40, the flat surface 38, and the second inclined surface 36. That is, the concave portion 46 forms a convex portion on the bottom surface of the scanner housing 18. The concave portion 46 is formed at a position where the concave portion 46 fits into the ink cartridge replacement opening 44 when the scanner housing 18 is fully closed, and protrudes from the ink cartridge replacement opening 44 into the internal space of the printer housing 56. The recess 46 does not interfere with other elements housed inside the printer housing 56, for example, the printer carriage 52 and the ink cartridge 48. That is, the concave portion 46 fits in the remaining space of the printer housing 56 in which the printing section 58, the processing section 10, the power supply section, and the like are accommodated.
[0034]
The configuration of the image input / output device 1 has been described above. FIGS. 4A to 4C are schematic diagrams showing the internal structure of the scanner housing 18. Hereinafter, the deformation of the FFC 34 accompanying the movement of the sensor carriage 16 will be described with reference to FIGS.
[0035]
The position shown in FIG. 4A is the standby position of the sensor carriage 16. That is, when reading is started, the sensor carriage 16 moves from the standby position shown in FIG. 4A in the sub-scanning direction (rightward in FIG. 4) to the position shown in FIG. Is completed, the process returns to the standby position shown in FIG.
[0036]
The slack of the folded portion 30 becomes maximum at the standby position. That is, the length of the folded portion 30 becomes maximum at the standby position. When the repulsion force against the bending of the FFC 34 is sufficiently large, the radius of curvature of the portion that is slackened when the FFC 34 is bent at 180 degrees and folded is larger as the slack is larger. Therefore, when the repulsion force against bending of the FFC 34 is sufficiently large, the height of the top 26 of the folded portion 30 of the FFC 34 from the lower end of the folded portion 30 becomes maximum at the standby position where the slack is maximized.
[0037]
When the sensor carriage 16 moves to the position shown in FIG. 4B, the slack of the FFC 34 becomes smaller than the standby position, and when the sensor carriage 16 moves to the position shown in FIG. 4C, the slack of the FFC 34 becomes minimum. Therefore, when the repulsion force against bending of the FFC 34 is sufficiently large, the height of the top 26 of the folded portion 30 from the lower end of the folded portion 30 is shown in FIGS. 4A, 4B, and 4C. It becomes lower in order.
[0038]
In the image input / output device 1 according to the embodiment of the present invention described above, the lower portion of the folded portion 30 fits into the concave portion 46 formed in the bottom portion 42 in a state where the top 26 of the FFC 34 is highest. More specifically, the shape of the bottom portion 42 is set such that the lower end of the folded portion 30, that is, the portion where the FFC 34 and the bottom portion 42 start to contact is supported by the flat surface 38 of the lowest concave portion 46 at the bottom portion 42. Therefore, the height of the internal space of the scanner housing 18 can be suppressed in a portion other than the concave portion 46 without bringing the FFC 34 into contact with the document table 22.
[0039]
Further, in the image input / output device 1 according to the embodiment of the present invention, since the concave portion 46 is accommodated in the remaining space of the printer housing 56, the document table 22 and the document table 22 can be connected without increasing the overall height of the printer housing 56 and the scanner housing 18. The contact of the FFC 34 can be prevented.
[0040]
Further, in the image input / output device 1 according to one embodiment of the present invention, the depth of the concave portion 46 is deeper on the first slope side than the center and shallower on the second slope side than the center. Since the folded portion 30 comes into contact with the concave portion 46 on the side of the sub-scanning direction from the center of the concave portion 46, the depth of the concave portion 46 is more required on the first slope side than the center. That is, in the image input / output device 1 according to the embodiment of the present invention, the depth of the concave portion 46 is set to be necessary and sufficient by adjusting the slope of the first slope 40 and the second slope 36. The ridge corresponding to the recess 46 in the bottom 42 of the housing 18 is small. Therefore, the recess 46 can be accommodated in the small remaining space of the printer housing 56. That is, according to the image input / output device 1 according to one embodiment of the present invention, the physique of the entire device can be reduced.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an internal structure of an image input / output device according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a bottom member of the scanner housing according to one embodiment of the present invention.
FIG. 3 is a perspective view showing an external appearance of an image input / output device according to one embodiment of the present invention.
FIG. 4 is a schematic diagram showing an internal structure of a scanner housing according to one embodiment of the present invention.
[Explanation of symbols]
1 image input / output device 10 processing unit 16 sensor carriage (carriage)
18 Scanner housing 20 Linear image sensor (image sensor)
22 platen 24 scanning circuit board (scanning circuit)
34 FFC (flexible flat cable)
36 second inclined surface 38 flat surface 40 first inclined surface 42 bottom 44 ink cartridge replacement opening 46 recess 58 printing unit 66 bottom member

Claims (3)

A box-shaped scanner housing supporting the platen,
A scanning circuit having a linear image sensor;
A carriage on which the scanning circuit is mounted and which reciprocates inside the scanner housing in parallel with the surface of the platen;
A processing unit that processes an output signal of the scanning circuit and outputs image data;
One end is electrically connected to the scanning circuit, and the other end is electrically connected to the processing unit. The scanner housing has a gently curved turn-back portion, and the turn-up portion is moved with the movement of the carriage. A flexible flat cable that deforms
A printer housing provided below the scanner housing;
An image input / output device including a printing unit that is housed in the printer housing and prints image data,
An image input / output device, wherein a concave portion in which a lower portion of the folded portion is accommodated when the height of the folded portion is maximized is formed in a bottom portion of the scanner housing, and the concave portion is accommodated in a remaining space of the printer housing. The image input / output device according to claim 1, wherein the recess is accommodated in an ink cartridge replacement opening formed in the printer housing. The concave portion has a first slope contacting the folded portion and a second slope not contacting the folded portion, wherein the slope of the first slope is larger than the slope of the second slope. The image input / output device according to claim 1.

Images