JP3548774B2 - Image input processing device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image input processing device, and more specifically, a camera, a display unit that displays image data captured by the camera, and an image processing unit that performs predetermined processing on the image data. The present invention relates to an apparatus integrally provided with:
[0002]
BACKGROUND OF THE INVENTION
For example, a digital still camera, which has recently become widely used, displays an image picked up by a CCD camera on a liquid crystal panel so that the displayed image is stored in a memory by pressing a shutter switch while checking an image pickup target. Has become. The image stored in the memory is subjected to a predetermined process such as printing out or transferring the image to another information processing device such as a personal computer.
[0003]
Further, an image search device that incorporates an image database (eg, pictorial book data), compares image data captured by a CCD camera with data stored in the image database, and searches for a match is also developed. .
[0004]
By the way, in the image input processing device having the above-described imaging function, further miniaturization is achieved in consideration of portability. Then, since the area of the display unit also becomes smaller, there is a demand to switch between portrait and landscape orientations in accordance with the shape of the subject. At this time, various information may be displayed on the display screen together with the captured image data. As an example, the remaining number of images that can be captured, the date / time, the current setting function, etc. are displayed, or, in the case of an image search device, messages for prompting / assisting various inputs and display. Various switches may be displayed on the screen. Therefore, when the image is displayed with the vertical / horizontal direction changed as described above, the captured image data can display the subject on the entire display screen and can be easily viewed. Become. In particular, in the case of miniaturization, the displayed characters themselves also become smaller, so that it becomes difficult to see the characters and the operability deteriorates.
[0005]
In many cases, in conventional digital still cameras, the imaging direction of the camera (the direction of the optical axis of the lens of the camera) is fixed, so that the camera body is perpendicular to the ground (the display screen is parallel to the subject). It was not suitable for photographing a subject from an oblique direction. Furthermore, when inputting various types of information via the display screen rather than simply displaying the image on the display screen, it is easier to write the display screen almost parallel to the ground. In the type in which the display screen is perpendicular to the ground, writing is difficult and operability is deteriorated.
[0006]
Also, recently, the camera can be rotated in one axis direction so that not only the opponent but also the photographer himself can be photographed, and it is possible to take a picture with the imaging direction of the camera facing the photographer side. There is something. When such a rotatable camera is used, it is possible to take an image of a subject from an oblique direction. However, even in such a case, it is possible to cope only with either the vertical direction or the oblique direction, and there is no object capable of capturing an image from any direction in any oblique direction, resulting in poor operability.
[0007]
Further, in the case of such a type in which the direction of the camera is rotated, it is necessary to rotate the camera and switch off the shutter switch by different hands due to its structure. Therefore, both hands are blocked, and, for example, when input is performed on the screen while being displayed on a display screen of an image search device or the like which is one of usage modes of the present invention, it is not suitable. , It becomes inconvenient. In addition, not only the image search apparatus but also a digital still camera and the like have the same problem if they have a function of performing various settings on a screen, for example.
[0008]
Furthermore, humans are right-handed and left-handed. In view of the above, there are various tools in which right-handed tools and left-handed tools are prepared according to the dominant arm. However, considering manufacturing, it is complicated to make each of them according to right-handed / left-handed use, and this leads to an increase in cost. Therefore, the fact is that the image input processing device designs the layout of the shutter switch and other parts according to the right-handed use, in combination with the fact that there are many right-handed people. Then, it becomes inconvenient for left-handed people.
[0009]
The present invention has been made in view of the above-mentioned background, and aims at solving the above-described problems, excellent in operability, and can be easily operated in any holding manner. The direction of the imaging means can be changed and the shutter switches can be operated with one hand, and the other hand is free, so that another process can be performed with the free hand, and the operability is good. It is an object of the present invention to provide an image input processing apparatus which can automatically perform the setting of the image input processing and which is extremely convenient.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the image input processing device according to the present invention is configured as follows.
[0011]
An image pickup unit (corresponding to the “CCD image pickup unit 3” in the embodiment), a display unit for displaying image data picked up by the image pickup unit, and an image processing unit for performing predetermined processing on the image data are integrated. An image input processing device comprising: an image capturing unit rotatably mounted on a case body to change an image capturing direction; Further, the imaging means is rotated (rotated) on a plane orthogonal to the plane on which the display means is arranged and within a range in which the left and right sides of the display means can be operated with one finger holding the case body. An operation unit (corresponding to an exposed surface of the rotating unit 4 in the embodiment) for providing an operation unit for a direction which is not necessarily an arbitrary angle in a three-dimensional direction, and a shutter switch of the imaging unit are provided. And the following various configurations are added.
[0012]
That is, the display means is disposed on a side surface of the case main body, and the imaging means is provided at a predetermined corner (corresponding to a corner provided with the inclined surface 1a in the embodiment) of the case main body via a rotation unit. Attach rotatably. The shutter switch has a horizontal orientation and a vertical orientation, one shutter switch is disposed in proximity to the rotating unit, and the other shutter switch is located near a corner adjacent to the corner on which the imaging unit is mounted. In addition, it is arranged on a surface that does not constitute a corner to which the imaging means is attached (Claim 1).
[0013]
In the first aspect, since the operation can be performed with one hand, the opposite hand can be used freely. Therefore, for example, in a case where an input operation can be performed on the display screen as defined in claim 12, photographing and input can be performed in parallel, which is convenient and operability is improved. Regardless of the input, it is convenient to say that one hand is empty because other processing can be performed in parallel.
[0018]
In this way, the information is displayed according to the direction of use, so that the displayed information is easy to see regardless of the direction of use. In particular, even when the display screen becomes smaller and the characters and the like become smaller, the display contents can be easily understood by matching the top and bottom of the characters and the like with the top and bottom of the display screen.
[0020]
As another solution, the imaging means is rotatably attached to the case body so that the imaging direction can be changed, and by increasing the rotatable range, the imaging direction of the imaging means can be changed. That is, it can be housed so as to face the case body (claim 2). In this case, the image pickup means (lens) can be protected by storing the image pickup means.
[0021]
In this case, the power supply is controlled to be turned on / off in synchronization with the rotation of the imaging means, and the power supply is turned off in the housed state of the imaging means whose imaging direction is directed into the case body. Preferred (claim 3).
[0022]
Further, as another solution means, the imaging means is built in a rotating unit formed of a spherical body, and the rotating unit is rotatably mounted in the case main body, so that the imaging means can be arbitrarily arranged in a three-dimensional direction. (Rotational direction). With this configuration, the display screen can be set to an arbitrary angle in either the portrait orientation or the landscape orientation, thereby improving operability. The display screen of the display means may further include an input unit such as a touch panel (claim 5). In this case, the input unit may receive data input by operating an input pen. In addition, by operating the display means displaying the captured image data using an input pen held in one hand opposite to one hand holding the case main body, various input commands are received. (Claim 7).
[0023]
*Definition of terms
The “side surface of the case body” is not limited to the shape of the entire case, and in the present invention, the surface on which the display device is arranged as a result is the side surface of the case body. Further, the image processing unit not only performs editing processing for image data and image extraction processing necessary for searching in the image search device, but also simply stores an image captured by the imaging unit in the storage unit, or stores the image in the external device. This includes the case where only the process of outputting is executed.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
1 to 4 show external views of a preferred embodiment of an image input processing device according to the present invention, and FIG. 5 shows an internal circuit thereof. As shown in the figure, the case main body 1 has a substantially rectangular parallelepiped shape, and has a shape in which one corner is removed and has an inclined surface 1a. For convenience, two opposing surfaces having a large area are defined as side surfaces 1b and 1c, and of the surfaces adjacent to the inclined surface 1a, the shorter one is defined as a front surface 1d and the longer one is defined as an upper surface 1e, and the opposite surfaces are defined as rear surfaces. 1f and the lower surface 1g.
[0025]
Then, the CCD imaging unit 3 is provided on the inclined surface 1a. The CCD image pickup unit 3 includes a CCD and an imaging lens for forming light from an object on the CCD. The CCD imaging unit 3 is mounted on a case main body via a rotation unit 4 described later, whereby the CCD imaging unit 3 is rotatable and can capture an image in an arbitrary three-dimensional direction. Further, a horizontal shutter switch 5 is provided at a predetermined position on the upper side near the CCD imaging unit 3 in the front surface 1d. A vertical shutter switch 6 is provided on the front side of the lower surface 1g. When one of the shutter switches 5 and 6 is turned off, image data captured by the CCD imaging unit 3 is stored in the image memory 7.
[0026]
Further, a display device 10 composed of a liquid crystal display is mounted on the side surface 1b. The display screen of the display device 10 has a rectangular shape. As described later, the display device 10 is movable, and is located on one side surface 1b side as shown in the drawing, and is turned over from the other side surface and located on the other side surface 1c side. . Further, a touch panel 11 is attached to the front side of the display device 10.
[0027]
Further, a power switch 8 and a use direction switch 9 are provided on the rear side of the upper surface 1e. When the use direction is set by the use direction switch 9, only the set shutter switch 5 or 6 is enabled, so that even if the other shutter switch is pressed, no operation is performed. In this case, a lamp may be built in the shutter switch, and the lamp of the effective shutter switch may be turned on so that it is possible to see at a glance which one is effective. Further, for example, when an invalid shutter switch is pressed, an alarm sound such as “beep, beep” may be emitted.
[0028]
Note that, in this specification, the landscape orientation is a direction in which the display screen of the display device 10 is horizontally long as shown in FIG. 1, and is a direction suitable for a case where the subject is long horizontally. Similarly, the vertical direction in the specification is a direction in which the display screen of the display device 10 is vertically long as shown in FIG. 3, and is a direction suitable for a vertically long subject.
[0029]
The structural features of the present embodiment can be roughly classified into (1) that the CCD imaging unit 3 can be rotated on multiple axes and directed in any three-dimensional direction, (2) portrait orientation and landscape orientation (3) The display device 10 can be inverted and positioned on either side of the two side surfaces 1b and 1c when used in (1). (4) There is a case where the direction of the CCD imaging unit 3 can be adjusted and the shutter switch can be operated with one hand. Therefore, the configuration of each unit will be described in consideration of the above-described features.
[0030]
* Structure for rotating the CCD imaging unit 3
The camera section of a conventional digital still camera shoots images in a direction perpendicular to the display screen, so it is necessary to set the display screen so that it is parallel to the subject (usually perpendicular to the ground). There is a problem that, for example, in a case where the display is taken from obliquely above or obliquely below, not only is it unnaturally held but also the display screen becomes difficult to see. In order to solve this problem, there has been a camera in which the camera unit is rotated in one axis direction on a plane orthogonal to the display screen.
[0031]
However, in consideration of the actual operation, there is a demand to capture images in a vertical direction and a horizontal direction according to the shape of the subject and the like. Therefore, in the present embodiment, it is possible to rotate and turn to an arbitrary angle in the three-dimensional direction.
[0032]
As a specific structure, as shown in FIGS. 6 to 8, the CCD imaging unit 3 is installed at a predetermined position (a position close to the surface) inside the rotating unit 4 made of a sphere, and faces the CCD imaging unit 3. The surface of the rotating unit 4 is open. A concave portion 14 having an inner diameter substantially the same as the outer shape of the rotary unit 4 is provided so as to open on the inclined surface 1a of the case body 1, and the rotary unit 4 is inserted and arranged in the concave portion 14 in a partially exposed state. I do. Further, the recess 14 has a volume and a shape of at least a hemisphere, so that the rotating unit 4 does not come off from the recess 14 after the case body 1 is assembled. Therefore, the recess 14 and the rotary unit 4 are in surface contact with each other, and can be rotated in the surface direction, that is, in any direction. By touching a portion of the rotating unit 4 exposed to the outside with a finger or the like and biasing the rotating unit 4 in a predetermined direction, the rotating unit 4 can be easily rotated.
[0033]
Actually, wiring is required to connect the CCD imaging unit 3 to the internal circuit. Therefore, a part of the rotating unit 4 (separate from the opening facing the CCD imaging unit 3) in order to route the wiring. Is opened, and at least a part of the recess 14 is also opened. Then, the wiring drawn from the CCD imaging unit 3 through the opening is connected to the outside of the recess 14, that is, to the bus of the control circuit installed in the case body 1. Thus, by adopting a large opening, even when the rotating unit 4 is rotated, image data can be transmitted to the control circuit without wiring being entangled.
[0034]
FIG. 6 shows the state shown in FIGS. 3 and 4. In this state, the CCD image pickup unit 3 faces the front surface 1d. This direction is a direction parallel to the display surface of the display device 10. That is, in the conventional digital still camera, the camera can only be turned in a direction perpendicular to the display surface of the display device, but the present invention can be turned in the horizontal direction. As a result, for example, when the display device 10 (display surface) is made substantially parallel to the ground, the conventional device can only image the ground, but in the present embodiment, the subject positioned so as to extend in the vertical direction with respect to the ground is removed. Can be imaged. In addition, the user can operate the touch panel 11 using the input pen in this state to execute a predetermined process. Since the touch panel 11 is substantially parallel to the ground, it is easy to input with a pen.
[0035]
In addition, when the camera is oriented in a direction perpendicular to the display surface as in a conventional camera, the vertical and horizontal directions can be changed simply by changing the direction of the case body 1. As shown in (1), when the camera unit is oriented horizontally with respect to the display screen, if the direction of the case body 1 is changed by 90 degrees (horizontal / vertical change), the direction of the CCD imaging unit 3 is also changed as it is. Rotate 90 degrees. However, in the present embodiment, since the CCD imaging unit 3 can be rotated by operating the rotation unit 4, it is possible to face the same direction.
[0036]
Further, since the CCD image pickup unit 3 can freely rotate in the three-dimensional direction, it is possible to take an image of a subject existing in a direction perpendicular to the display surface, as in the conventional case, or to take an image at an arbitrary angle in between. . Since the direction of the CCD imaging unit 3 can be freely set in this way, the posture of the case main body 1 can be set freely to see the display device 10 and / or to operate the touch panel 11, and in that state, the CCD can be moved relative to the subject. An image can be taken by pointing the imaging unit 3. Therefore, the posture of the case body 1 can be freely set regardless of the positional relationship between the user and the subject, so that it is easy to see and input, the handling is easy, and the operability is improved.
[0037]
Furthermore, by rotating the rotation unit 4, the CCD imaging unit 3 can be positioned in the case main body 1 as shown in FIG. In this case, when not in use, the state shown in FIG. 7 is maintained, so that the CCD imaging unit 3 is not exposed to the outside, so that the lens can be protected. That is, it is not necessary to provide a lens cover or the like (reduction in the number of parts), and the harmful effects of forgetting to attach the lens cover during storage or removing the lens cover during use are also eliminated.
[0038]
In addition, by guiding the rotation unit 4 to a certain degree in the rotation direction while ensuring free rotation of the rotation unit 4, the direction of the CCD imaging unit 3 with respect to the case main body 1 can be easily oriented in a predetermined direction. In the present embodiment, the following configuration is adopted to store the cartridge at a predetermined position.
[0039]
That is, as shown in FIG. 8A, which is a cross-sectional view taken along the line AB in FIG. 6, on the equator 4a of the rotating unit 4 passing through the CCD imaging unit 3 and at a position rotated 90 degrees with respect to the CCD imaging unit 3. , Each having a depression 20. Therefore, the two depressions 20 are arranged opposite to each other at the radially opposite positions. At a predetermined position in the recess 14 (case main body 1) that can face the recess 20, a support 21 is provided which has a projection 21 a that protrudes and retracts in the recess 14 and can match the recess 20. . The projection 21a projects into the recess 14 when there is no load due to the elastic restoring force of a spring built in the support 21 and is retracted into the support 21 when receiving a predetermined force and located outside the recess 14. It has become. The inner shape of the depression 20 and the outer shape of the projection 21a are both arc-shaped in cross section from which a part on the tip side of the sphere is removed, and the radius of curvature on the projection 21a side is larger.
[0040]
Thus, as shown in FIG. 8B, when the recess 20 provided in the rotating unit 4 and the protrusion 21a are opposed to each other and coincide with each other, the gap between the tip of the protrusion 21a and the inner surface of the recess 20 is formed. A space is formed, and the projection 21a engages shallowly. Therefore, when a certain amount of force is applied, the engagement is easily released, and the state becomes as shown in FIG. In the state where the projection 21a and the recess 20 match as shown in FIG. 2B, a kind of bearing mechanism is provided, and a line connecting the pair of projections 21a (diameter connecting the recesses 20) is used as a rotation center. It will rotate around one axis. Then, the matching state of the two works to hold it by the elastic restoring force of the spring in the support 20, so that even if the force is slightly applied in a diagonal direction, the two stably rotate around one axis. The rotation direction is the direction of rotation on a plane parallel to the display screen of the display device 10, that is, the horizontal direction shown in FIGS. 1 and 2 and the vertical direction shown in FIGS. 3 and 4 when used. The direction of the CCD imaging unit 3 is included.
[0041]
Therefore, in adopting a usage mode in which the orientation of the display screen and the CCD imaging unit 3 is made parallel, the operability is good because the parallelism can be easily maintained. In particular, as will be described later, when the direction of the CCD imaging unit 3 and the operation of the shutter switches 5 and 6 are operated with one hand, the direction of applying force to the CCD imaging unit 3 is relatively rough even if the CCD imaging unit 3 is relatively rough. Can be rotated in a desired direction.
[0042]
On the other hand, when a force equal to or more than a predetermined magnitude is applied in a direction different from the rotation direction about the one axis, the spring is compressed to release the engagement between the protrusion 21a and the recess 20 (FIG. 10C). ). Once the projection 21a comes off the recess 20, the projection 21a only comes into contact with the outer surface of the rotation unit 4, so that the rotation unit 4 can be easily rotated in a predetermined direction. In addition, since the projection 21a acts to protrude by the elastic restoring force of the spring, a constant pressure is applied to the outer surface of the rotating unit 4. As a result, the function of stopping the rotating unit 4 in an arbitrary direction (angular position) is also provided as an auxiliary function.
[0043]
* Power on / off control
In this embodiment, the power switch 8 is provided on the upper surface 1e of the case body 1 as described above, and the power on / off is manually controlled by operating the switch 8.
[0044]
However, the present invention is not limited to this. For example, a switch that turns on / off in synchronization with the rotation of the rotation unit 4 is provided. A mechanism that turns on the power when the imaging unit 3 is exposed to the outside (or when the imaging unit 3 is shifted from the storage position) may be provided.
[0045]
As a specific example, as shown in FIGS. 6 and 7, a limit switch 22 is provided at a predetermined position near the recess 14. The limit switch 22 has a convex portion 22a which comes and goes in the concave portion 14 by a built-in spring. The convex portion 22a projects into the concave portion 14 when no load is applied by the elastic restoring force of a built-in spring, and is retracted and located outside the concave portion 14 when a predetermined force is received. When the protrusion 22a protrudes, the power is turned off, and when the protrusion 22a is retracted, the power is turned on. Further, on the rotating unit 4 side, two concave portions 23 and 24 corresponding to the convex portions 22a are provided with the CCD imaging unit 3 interposed therebetween.
[0046]
By doing so, as shown in FIG. 7, when the CCD imaging unit 3 is housed in the case main body 1, the convex portion 22a and the concave portion 23 coincide with each other. Turns off. On the other hand, when the rotation unit 4 is rotated in a predetermined direction from this state to release the matching state between the convex portion 22a and the concave portion 23, the convex portion 22a comes into contact with the outer surface of the rotary unit 4 as shown in FIG. . This turns on the power. As described above, by operating the direction of the rotation unit 4 and, consequently, the CCD imaging unit 3, the power can be turned on / off in accordance with the direction, and the operability is improved. When such a configuration is adopted, the power switch 8 need not be provided.
[0047]
In this embodiment, the two concave portions 23 and 24 are provided when the CCD imaging unit 3 is rotated so as to move upward from the state shown in FIG. This is because the power is turned off by matching the protrusion 22a with the recess 24. In any case, in order to automatically turn off the power in such a manner, it is assumed that the rotary unit 4 is rotated in a state where the protrusion 21a and the recess 20 match.
[0048]
Further, in the illustrated embodiment, the cross-sectional shape of the convex portion 22a and the concave portion 23 is triangular, and the surfaces that are steep perpendicular to the rotation direction are in contact with each other. In the direction in which is to be stored (counterclockwise in the example of FIG. 7). That is, in the present embodiment, the limit switch 22 also functions as a stopper. Further, by providing the stopper function in this way, it is possible to prevent the wiring from the CCD imaging unit 3 from being entangled by rotating the rotation unit 4 more than necessary. In other words, in order to prevent such entanglement of the wiring, when storing, first, the projections 21a and the depressions 20 are matched with each other, and then the rotation unit 4 is rotated in a predetermined direction to move the CCD imaging unit 3 into the recess 14. It is to be stored in. In addition, even when the automatic power-off function is not provided, it is preferable to provide a stopper mechanism including a mechanism (there is no switch) such as the limit switch 22 described above.
[0049]
* Orientation control
In the present embodiment, as shown in FIGS. 9 and 10, predetermined messages M1 and M2 are displayed on the display screen of the display device 10, and a switch icon and the like are displayed. This is also for inputting various commands using the touch panel 11. That is, when used as an image search device, the search efficiency is improved by instructing which part of the captured image information to search the built-in image database with particular attention. When storing the image in the image memory 7, not all the images captured by the CCD imaging unit 3 are stored, but a predetermined area of the image is trimmed (for example, a portion to be trimmed on the touch panel is surrounded). There are cases where various processes are performed, such as storing only, enlarging / reducing, and storing, or combining and storing predetermined messages. This process is performed by the CPU 25 after waiting for an input / command from the touch panel 11.
[0050]
Then, in order to perform the processing, a message or the like is displayed on the display screen as described above. At this time, in the present embodiment, the display direction of the messages M1, M2, and the like is changed by the CPU 25 and the display direction control device 26 by instructing in advance whether to use the camera in the portrait or landscape direction by the use direction switch 9. I try to switch. That is, as shown in FIG. 9, when used in a landscape orientation, the display screen of the display device 10 is used with the upper surface 1 e of the case body 1 facing upward. In addition, as shown in FIG. 10, when used vertically, the display screen of the display device 10 is used with the front surface 1 d side of the case main body 1 facing upward.
[0051]
Therefore, when displaying the message, the display is performed such that the top of each display screen in the use state and the top and bottom of the messages M1 and M2 match. This makes it easy to see the message and to easily understand the contents, and to improve the operability, regardless of whether the message is used in a portrait or landscape orientation.
[0052]
In addition, the above-described switching of the display mode is manually performed by the switching operation of the use direction changeover switch 9. However, a direction detection sensor is provided to automatically determine which direction is used, and the determination is performed. The direction when displaying a message or the like may be switched according to the result. In that case, the use direction changeover switch 9 becomes unnecessary.
[0053]
Automatic orientation determination (1)
Specifically, as shown in FIG. 7, the rotating unit 4 is divided into two regions R1 and R2. The regions R1 and R2 are the surfaces of a hemisphere divided into two by the circumference (the equator 4a) passing through both the depressions 20 and the CCD imaging unit 3. Then, a direction detection sensor 28 is provided near the limit switch 22, and it is determined which of the regions R1 and R2 the direction detection sensor 28 faces. When the CCD imaging unit 3 faces the region R2 as shown in FIG. 6, the CCD imaging unit 3 faces the front surface 1d side of the case body 1 and is used in a vertical direction as shown in FIG. Can be determined. When facing the region R1, the CCD imaging unit 3 faces the upper surface 1e side of the case main body 1, so it can be determined that the CCD imaging unit 3 is used in the vertical orientation as shown in FIG.
[0054]
In addition, even when the matching state between the recess 20 and the projection 21a is released and the case body 1 is used in a state of being erected at a predetermined angle with respect to the ground, for example, when the case body 1 is used in a vertical orientation, Since the CCD imaging unit 3 is located in a region near the front surface 1d, the region facing the direction detection sensor 28 remains in the region R2. Since it is located in a region near the side 1e, the region facing the direction detection sensor 28 remains in the region R1. Therefore, in any case, the use orientation can be determined from the output of the orientation detection sensor 28. For this determination, the output of the orientation detection sensor 28 is sent to the CPU 25, where the determination is made, and the result of the determination is sent to the orientation display control device 26.
[0055]
The determination of the area by the orientation detection sensor 28 can be easily performed by changing the reflectance and the color of the surface of the areas R1 and R2 and using a sensor capable of detecting the difference. Further, by providing a step (changing the radius between the region R1 and the region R2), it is possible to use a distance sensor, and various configurations can be adopted.
[0056]
Automatic orientation determination (2)
As another method of detecting the use direction, in this embodiment, a shutter switch 5 for the horizontal direction and a shutter switch 6 for the vertical direction are provided. In the above description, the use direction is determined based on an instruction from the use direction switch 9 or an output signal from the direction detection sensor 26, and only the use direction shutter switch is enabled. Instead, leave both shutter switches 5 and 6 in the operating state, and when one of the shutter switches is lightly pressed, determine which direction the shutter switch is pressed is used. The direction may be determined. That is, by using both the shutter switch and the use direction switch, the number of components can be reduced, and the user does not need to operate the use direction switch 9 once, thereby improving operability. .
[0057]
Automatic orientation determination (3)
In still another detection method, for example, as shown in FIGS. 1 to 4, a horizontal detection sensor 29 a and a vertical detection sensor 29 b are provided at predetermined positions of the case main body 1, and determination can be made from the sensor outputs. That is, the lateral direction detection sensor 29a is a temperature sensor formed in a region near the front surface 1d and the lower surface 1g of the side surfaces 1b and 1c. Similarly, the vertical orientation detection sensor 29b includes a temperature sensor formed in a region of the side surfaces 1b and 1c near the lower surface 1g and the rear surface 1f and behind the lower surface 1g. Then, as will be apparent from FIGS. 13 to 15 used in the following description, the hand holding the case main body 1 when used in the landscape orientation touches any of the landscape orientation detection sensors 29a but the portrait orientation detection sensor 29b Do not touch. Conversely, the hand holding the case body 1 when used in the portrait orientation touches any of the portrait orientation detection sensors 29b but does not touch the landscape orientation detection sensor 29a. Therefore, by using a temperature-sensitive sensor that responds to the temperature (body temperature) of the human hand, it is possible to know the direction of use. Of course, the sensor may be pressure-sensitive instead of temperature-sensitive.
[0058]
* Display device 10 is inverted
In FIGS. 1 to 4, 9, and 10, the display device 10 is arranged on one side surface 1 b of the case main body 1. However, in the present embodiment, the display device 10 can be inverted from this state and positioned on the side surface 1c. Specifically, as shown in FIGS. 1 to 4, a low step portion is provided in which the upper surface 1 e of the case main body 1 and a part of both side surfaces 1 b and 1 c continuous therewith are provided, and the display device is provided in the low step portion. 10 is inserted and arranged.
[0059]
As shown in FIG. 11, a plate 32 (corresponding to the inner shape of the low step portion formed on the side surfaces 1b and 1c) on which the liquid crystal display 30 and the touch panel 11 are mounted is connected to an elongated connecting piece 33 (a low portion formed on the upper surface 1e). Are connected by a first hinge mechanism 34, and are rotated forward and backward about a shaft 34a as a center of rotation. Further, the connecting piece 33 has a rotating shaft 33a at both ends thereof, and the rotating shaft 33a is inserted into a hole (not shown) provided on the inner surface of the lower step portion of the upper surface 1e of the case main body 1 so that the second shaft is formed. The hinge mechanism 36 is formed so as to be able to rotate forward and reverse around the rotation axis 33a. By appropriately rotating these two hinge mechanisms 34 and 36, it is possible to take two states, one on the side 1b as shown in FIG. 1 and the other on the side 1c on the opposite side.
[0060]
Further, by turning the display device upside down, the exposed surface of the plate 30 is inverted. Therefore, in this embodiment, the liquid crystal display 30 and the touch panel 11 are provided on both surfaces of the plate 32, respectively. Then, one of them is made effective according to the usage mode. More specifically, a mode for selecting which side to use may be added to the use direction changeover switch or the like to allow the user to select in advance, or a portion where the display device 10 contacts the case body 1. A micro switch may be incorporated in the system to automatically determine which side is located by turning on / off the micro switch, and control the switching of the liquid crystal display 30 and the touch panel 11 to be enabled.
[0061]
FIG. 12 shows another configuration for inverting the display device 10. In the example shown in FIG. 11, the shaft 34a constituting the first hinge mechanism 34 and the plate 32 are formed integrally, but in the example shown in FIG. 12, the plate 32 and the shaft 34a are connected via the rotating body 37. Connected. As a result, the plate 32 rotates forward and backward with respect to the rotation center P of the rotating body 37. Therefore, even if the plate 32 is located on either of the side surfaces 1b and 1c of the case body 1, the rotating body By rotating the plate 32 via 37, the same surface can be turned upside down. Therefore, one set of the liquid crystal display 30 and the touch panel 11 may be provided on one side of the plate 32. However, in the state where it is located on one side surface 1b and the other side surface 1c, when used vertically, the top and bottom are reversed. The output will be controlled accordingly. The other configuration is the same as the example shown in FIG.
[0062]
* Adjust the direction of the CCD imaging unit 3 and operate the shutter switch with one hand
When the display device 10 is used sideways with the display device 10 arranged on the side surface 1b as shown in FIGS. 1 and 2, for example, as shown in FIG. 13, the user holds the case body 1 with the left hand F1 and inputs with the right hand F2. While holding the pen 40, predetermined data may be input via the touch panel 11 while displaying an image captured by the CCD imaging unit 3 on the display device 10. In this case, in the present embodiment, the direction of the CCD imaging unit 3 can be changed and adjusted by pressing the horizontal shutter switch 5 with the thumb or operating the rotation unit 4. That is, the direction of the camera unit and the operation of the shutter switch can be operated with only one hand (the left hand F1). Therefore, since the right hand F2 is vacant, as shown in the drawing, the shutter switch 5 is turned off to capture image data, and input processing can be performed using the right hand F2 while the image data is displayed.
[0063]
On the other hand, when the display device 10 is used in a portrait orientation with the display device 10 arranged on the side surface 1b side as shown in FIGS. 3 and 4, for example, by holding the case body 1 as shown in FIG. The direction of the CCD imaging unit 3 can be adjusted by operating the vertical shutter switch 6 with the thumb and the rotating unit 4 with the index finger of the left hand F1. Of course, in this state, the processing on the touch panel 11 can be performed with the right hand.
[0064]
The above example is processing for a right-handed person. In the present embodiment, the display device 10 can be turned upside down and positioned on the opposite side surface 1c of the case body 1, so that it can be processed with one hand even for left-handed use. That is, as shown in FIG. 15, when the display device 10 is disposed on the side surface 1c side and is used sideways, the front surface 1d is located on the right side as viewed. Therefore, if the case body 1 is held by the right hand F2, the direction of the CCD imaging unit 3 can be adjusted by pressing the horizontal shutter switch using the thumb of the right hand or operating the rotation unit 4. Of course, in this state, the input process can be performed by holding the input pen 40 with the left hand F1.
[0065]
Similarly, in the case of vertical use, as shown in FIG. 16, the vertical shutter switch 6 is operated with the thumb of the right hand F2, and the rotating unit 4 is operated with the index finger of the right hand F2 to operate the CCD image pickup unit 3. You can adjust the direction of the.
[0066]
As described above, in the present embodiment, a right-handed person or a left-handed person can operate with the hand opposite to the dominant arm, so that the touch panel 11 can be operated with the dominant arm, so that operability is good. Of course, when the touch panel is not used or when there is no input processing on the screen as in the case of the touch panel in the first place, the shutter switch and the camera unit can be operated with the dominant arm.
[0067]
【The invention's effect】
As described above, the image input processing device according to the present invention can be easily operated regardless of how it is held. Specifically, it is possible to change the direction of the imaging means and operate the shutter switches with one hand, and since the opposite hand is free, another process can be performed with the free hand, thereby improving operability. It is very convenient.
[Brief description of the drawings]
FIG. 1 is an external view showing an embodiment of an image input processing device according to the present invention.
FIG. 2 is an external view showing an embodiment of an image input processing device according to the present invention.
FIG. 3 is an external view showing an embodiment of an image input processing device according to the present invention.
FIG. 4 is an external view showing an embodiment of an image input processing device according to the present invention.
FIG. 5 is an internal circuit diagram used in an embodiment of the image input processing device according to the present invention.
FIG. 6 is an enlarged view showing a camera unit and a rotation unit.
FIG. 7 is an enlarged view showing a camera unit and a rotation unit.
FIG. 8 is an enlarged view showing a camera unit and a rotation unit.
FIG. 9 is a diagram showing an example of a usage mode.
FIG. 10 is a diagram showing an example of a use mode.
FIG. 11 is a diagram illustrating a mechanism for inverting the display device.
FIG. 12 is a diagram illustrating another mechanism for inverting the display device.
FIG. 13 is a diagram showing an example of a usage mode.
FIG. 14 is a diagram showing an example of a use mode.
FIG. 15 is a diagram showing an example of a usage mode.
FIG. 16 is a diagram showing an example of a use mode.
[Explanation of symbols]
1 Case body
1a Inclined surface (corner)
1b, 1c side view
3 camera unit (imaging means)
4 rotating unit
5 Horizontal shutter switch
6 Shutter switch for portrait orientation
10 Display device
22 Limit switch (automatic power on / off)
29a Horizontal orientation detection sensor
29b Vertical orientation sensor
32 plates
33 connecting piece (connecting member)
37 Rotating body (rotating member)
M1, M2 message

Claims (7)

An image input processing device integrally including an imaging unit, a display unit that displays image data captured by the imaging unit, and an image processing unit that performs a predetermined process on the image data,
The imaging means is rotatably attached to the case main body and can change the imaging direction,
An operation unit configured to rotate the imaging unit to a range on a surface orthogonal to a surface on which the display unit is arranged and to be operable with a finger of one hand holding a case body so as to sandwich the left and right of the display unit; And providing a shutter switch of the imaging means,
The display means is disposed on a side surface of the case body,
The imaging means is rotatably mounted on a predetermined corner of the case body via a rotation unit,
The shutter switch has a horizontal orientation and a vertical orientation,
One shutter switch is arranged close to the rotating unit,
An image input processing device, wherein the other shutter switch is disposed near a corner adjacent to a corner on which the imaging unit is mounted and on a surface that does not constitute a corner on which the imaging unit is mounted. An image input processing device integrally including an imaging unit, a display unit that displays image data captured by the imaging unit, and an image processing unit that performs a predetermined process on the image data,
The imaging means is rotatably attached to the case main body and can change the imaging direction,
An operation unit configured to rotate the imaging unit to a range on a surface orthogonal to a surface on which the display unit is arranged and to be operable with a finger of one hand holding a case body so as to sandwich the left and right of the display unit; And providing a shutter switch of the imaging means,
The imaging means is rotatably attached to the case body and can change the imaging direction,
An image input processing device characterized in that the rotatable range is enlarged so that the image pickup means can be stored in such a manner that the image pickup direction of the image pickup means is directed into the case body. 3. The image forming apparatus according to claim 2, wherein the power is turned on / off in synchronization with the rotation of the image pickup means, and the power supply is turned off when the image pickup means is housed with the image pickup direction facing the inside of the case body. Image input processing device. An image input processing device integrally including an imaging unit, a display unit that displays image data captured by the imaging unit, and an image processing unit that performs a predetermined process on the image data,
The imaging means is rotatably attached to the case main body and can change the imaging direction,
An operation unit configured to rotate the imaging unit to a range on a surface orthogonal to a surface on which the display unit is arranged and to be operable with a finger of one hand holding a case body so as to sandwich the left and right of the display unit; And providing a shutter switch of the imaging means,
The imaging means is built in a rotating unit formed of a spherical body, and the rotating unit is rotatably mounted in the case main body, so that the imaging means can be rotated in an arbitrary three-dimensional direction. Characteristic image input processing device. An image input processing device integrally including an imaging unit, a display unit that displays image data captured by the imaging unit, and an image processing unit that performs a predetermined process on the image data,
The imaging means is rotatably attached to the case main body and can change the imaging direction,
An operation unit configured to rotate the imaging unit to a range on a surface orthogonal to a surface on which the display unit is arranged and to be operable with a finger of one hand holding a case body so as to sandwich the left and right of the display unit; And providing a shutter switch of the imaging means,
The display screen of the display unit further includes an input unit such as a touch panel. The image input processing device according to claim 5, wherein the input unit receives data input by operating an input pen. An image input processing device integrally including an imaging unit, a display unit that displays image data captured by the imaging unit, and an image processing unit that performs a predetermined process on the image data,
The imaging means is rotatably attached to the case main body and can change the imaging direction,
An operation unit configured to rotate the imaging unit to a range on a surface orthogonal to a surface on which the display unit is arranged and to be operable with a finger of one hand holding a case body so as to sandwich the left and right of the display unit; And providing a shutter switch of the imaging means,
By operating the display means displaying the captured image data using an input pen held in one hand and the other hand holding the case body, it is possible to receive various command inputs. Characteristic image input processing device.

Images