JP3918427B2 - Information terminal equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information terminal device such as a PDA (personal digital assistants) or a mobile phone having an imaging function.
[0002]
[Prior art]
In recent years, a mobile terminal device such as a PDA or a mobile phone is used to connect to the Internet and access a desired web site on a daily basis.
[0003]
Such access processing on the Internet often requires personal verification due to security issues, but since personal verification based on simple ID code or password verification is not reliable, it is not possible to use fingerprints. The addition of a personal verification function is desired.
[0004]
[Problems to be solved by the invention]
On the other hand, a PDA or a mobile phone having an imaging function equipped with a small CCD (charge coupled device) camera is also practically used as a conventional mobile terminal device. When trying to capture images, it is difficult to make a configuration suitable for miniaturization because it is necessary to arrange and use multiple different optical systems for normal shooting and fingerprint shooting. There is.
[0005]
The present invention has been made in view of the above-described problems, and does not require a plurality of different optical systems for normal shooting and fingerprint shooting, and can be configured to be suitable for downsizing. It aims at providing the information terminal device provided with the function.
[0006]
[Means for Solving the Problems]
  That is, according to the present inventionFirstInformation terminal equipmentAn imaging unit provided rotatably on a part of the apparatus main body, an imaging lens provided on one side of the imaging unit facing the internal direction and the external direction of the apparatus main body as the imaging unit rotates, and An imaging element disposed inside an imaging unit on an imaging axis in the imaging lens, a focal length moving mechanism for moving the imaging element on the imaging axis to change a focal length, and an imaging lens of the imaging unit are provided. With one side faced to the inside of the apparatus body, an imaging window provided on the side surface of the apparatus body that is on the reach extension of the imaging axis, and an outside of the body through the imaging window. In the normal shooting mode in which the light source that emits light toward the light source and the one side surface on which the imaging lens is rotated and the imaging lens is rotated face the outside, the focal length is moved by the focal length moving mechanism. In the fingerprint shooting mode in which the imaging unit is rotated and the imaging unit is rotated and one side surface on which the imaging lens is provided faces the inside of the apparatus main body, the focal length moving mechanism sets the focal length to a close position. And a control means for driving and lighting the light source,It is provided with.
[0007]
  The second information terminal device of the present invention is attached so as to cover one end side of the device main body, expose a part of the device main body when the slide is opened, and protect a part of the device main body when the slide is closed. A slide cover, an imaging lens provided on one side surface of the apparatus body, an imaging element disposed inside the body on the imaging axis of the imaging lens, and moving the imaging element on the imaging axis A focal length moving mechanism for changing a focal length; an imaging window provided on a side surface of a slide cover on an extension of an imaging axis from an imaging lens on one side surface of the device body; and an end surface on one side of the device body. A light source that emits light toward the outside of the slide cover through the imaging window of the slide cover, and the focus in the normal shooting mode in which the slide cover is slid. Control means for setting the focal length to the close position by the focal length moving mechanism and driving the light source in the fingerprint photographing mode in which the focal length is set to an infinite position by the distance moving mechanism and the slide cover is slid open. And characterized by comprising.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0009]
(First embodiment)
FIG. 1 is a diagram showing a configuration of a mobile terminal device according to a first embodiment of the information terminal device of the present invention, where FIG. 1 (A) is a front perspective view showing its external configuration, and FIG. It is a fragmentary sectional view which shows the structure of an imaging unit.
[0010]
On the front surface 10a of the mobile terminal device body 10, a key input unit 11 including number, character, symbol input keys, outgoing / incoming instruction keys, various function keys, selection / cursor keys, and the like, and a liquid crystal display unit 12 are provided. In addition, an antenna 13 for telephone communication is provided on the upper surface portion 10 b of the main body 10.
[0011]
An imaging window 14 is provided on the lower surface portion 10 c of the main body 10, and an imaging lens 15 is attached to the imaging window 14.
[0012]
An image pickup device 16 using a CCD is disposed inside the main body 10 on the image pickup axis Q via the image pickup lens 15 from the image pickup window 14, and this image pickup device 16 moves a focus position using a piezoelectric actuator. The device 17 is attached as a mechanism that can be slid and switched to the two focal positions of the camera mode position P1 and the fingerprint authentication mode position P2 along the imaging axis Q.
[0013]
A light source 18 using an LED that is lit in the fingerprint authentication mode is provided on the side of the imaging axis Q between the imaging lens 15 and the imaging element 16, and the irradiation light R from the light source 18 is Reflection of the half mirror 19 disposed on the imaging axis Q between the imaging lens 15 and the imaging element 16 radiates downward through the imaging lens 15 and the imaging window 14 and captures the fingerprint of the finger F. Irradiate the area.
[0014]
The focal length when the imaging device 16 is slid to the camera mode position P1 by the focus position moving device 17 is set to infinity, and the focal length when the imaging device 16 is slid to the fingerprint authentication mode position P2 is a light source. 18 is set as the distance (proximity) to the fingerprint surface of the finger F in a state where the fingerprint reading range of the finger F (for example, the tip side from the first joint) is aligned with the irradiation range of the irradiation light R by 18.
[0015]
FIG. 2 is a block diagram showing a configuration of an electronic circuit of the portable terminal device.
[0016]
The electronic circuit of the portable terminal device includes a control unit (CPU) 21 that is a computer.
[0017]
The control unit (CPU) 21 controls the operation of each part of the circuit in accordance with the terminal device control program stored in advance in the storage device 22 using an EEP-ROM or the like, and the terminal stored in the storage device 22 The apparatus control program is activated in response to a key operation signal input from the key unit 23 in response to, for example, an operation of the key input unit 11.
[0018]
In the storage device 22, as a program for controlling the terminal device, a system program 22a for controlling the entire operation, a communication control program 22b for performing communication processing with a telephone base station, and a fingerprint for performing fingerprint collation processing In addition to storing the collation program 22c in advance, registered fingerprint image data 22d in which the fingerprint image of the owner of the terminal apparatus body 10 is registered, registered telephone number data 22e in which the telephone number of the terminal apparatus body 10 is registered, and the like Is memorized.
[0019]
In addition to the storage device 22 and the key unit 23, the control unit (CPU) 21 includes a communication unit 24 mainly composed of a transmission / reception circuit with a telephone base station and a voice input / output circuit, and the imaging element 16. An imaging unit 25 for digitally capturing captured optical image data, a RAM 26 having various work data memories, a liquid crystal drive circuit for displaying various display data on the liquid crystal display unit 12, and the like Is connected to a display unit 27.
[0020]
In the RAM 26, a mode data memory 26a that stores data indicating a currently set mode of either the camera mode or the fingerprint authentication mode, and the slide position of the image sensor 16 by the focus position moving device 17 in the image pickup unit 25 is the camera. An imaging position data memory 26b that stores data indicating whether it is in the mode position P1 or the fingerprint authentication mode position P2, and fingerprint image data to be collated that is captured from the imaging unit 25 in the fingerprint authentication mode. The collation fingerprint image memory 26c, the telephone book data memory 26d in which the telephone numbers and names of acquaintances and friends are appropriately registered and stored, and the control unit (CPU) 21 according to various control programs stored in the storage device 22 Various data to be input / output is temporarily stored as required And a work memory 26e is prepared to be.
[0021]
Note that the switching operation between the camera mode position P1 and the fingerprint authentication mode position P2 of the image pickup device 16 by the focus position moving device 17 of the image pickup unit 25 is executed in accordance with an instruction by a key operation in the key input unit 11.
[0022]
Next, the operation of the portable terminal device having the above configuration will be described.
[0023]
FIG. 3 is a flowchart showing an overall process of the portable terminal device.
[0024]
When the power is turned on by operating the key input unit 11, in order to exclude use by anyone other than the user, first, data indicating the fingerprint authentication mode is set in the mode data memory 26a in the RAM 26, and the fingerprint verification program 22c is executed. The process is started and the process proceeds to the fingerprint collation process (see FIG. 4) (step S1 → SA).
[0025]
FIG. 4 is a flowchart showing fingerprint collation processing associated with the overall processing of the portable terminal device.
[0026]
In this fingerprint collation processing, the registered fingerprint image data 22d of the owner of the apparatus main body 10 registered in the storage device 22 or the Internet web site is collated with the collation fingerprint image data captured by the imaging unit 25 at the present time. When authentication is performed, and the fingerprint collation process is started, data indicating the slide position of the image sensor 16 stored in the imaging position data memory 26b in the RAM 26 is read and switched to the fingerprint authentication mode position P2. Whether it is “OK” or “NG” that has not been switched is determined (step A1).
[0027]
Here, when it is determined that the slide position of the image sensor 16 in the image pickup unit 25 is “OK” switched to the fingerprint authentication mode position P2, the irradiation emitted from the image pickup window 14 of the lower surface portion 10c of the apparatus main body 10 is performed. A fingerprint image of the user in a state where the fingerprint range at the tip from the first joint of the finger F is irradiated to the irradiation range of the light R is read by the imaging element 16 via the imaging lens 15, and the verification fingerprint image memory in the RAM 26 is stored. 26c (step A1 → A2).
[0028]
Then, the collation fingerprint image stored in the collation fingerprint image memory 26c in the RAM 26 and the registered fingerprint image data 22d of the owner of the apparatus main body 10 registered in the storage device 22 or the web site on the Internet are stored. Matching / mismatching is performed, and whether or not the current user is the owner is authenticated (step A3).
[0029]
On the other hand, if it is determined in step A1 that the slide position of the image sensor 16 in the image pickup unit 25 is “NG” that has not been switched to the fingerprint authentication mode position P2, the fingerprint authentication mode is displayed by a beep or message display. The user is notified as an error that the switch to the position P2 has not been made (step A1 → A4).
[0030]
As a result, when the focus position moving device 17 performs switching from the camera mode position P1 of the image sensor 16 to the fingerprint authentication mode position P2 in accordance with an instruction by a key operation in the key input unit 11, from the step A2. Then, the image of the user's fingerprint sent to the irradiation range of the irradiation light R is read by the image sensor 16, and the fingerprint image thus read is used as a verification fingerprint image to perform verification / authentication processing with the registered fingerprint image. (Step A5 → A2, A3).
[0031]
When the user is authenticated through the fingerprint collation process (step SA), the operation of the communication unit 24 is controlled in accordance with the communication control program 22b. Various processing desired by the user, such as access processing with a desired web site, is executed (step S2).
[0032]
For example, when an access user authentication request by fingerprint verification is received in connection with access processing with a desired web site on the Internet, the process proceeds to the same fingerprint verification processing (see FIG. 4) (see FIG. 4). In step S3 → SA), an authentication process is performed by fingerprint verification as to whether or not the current user is a user registered in the web site being accessed (steps A1 to A5).
[0033]
Therefore, according to the imaging function of the portable terminal device of the first embodiment having the above configuration, the imaging element 16 disposed on the imaging axis Q from the imaging window 14 via the imaging lens 15 is focused by the focus position moving device 17. The fingerprint of the finger F in a state where the fingerprint reading range of the finger F (for example, the tip side from the first joint) is aligned with the irradiation range of the irradiation light R by the light source 18 and the camera mode position P1 where the distance is set to infinity. Switching between the two focal positions with the fingerprint authentication mode position P2 set to the distance (proximity) to the surface, so that normal imaging and fingerprint image capture can be performed with a common optical system. In addition, a good fingerprint image can be obtained.
[0034]
(Second Embodiment)
FIG. 5 is a diagram showing an external configuration of a mobile terminal device according to the second embodiment of the information terminal device of the present invention, and FIG. 5 (A) is a front perspective view showing the external configuration when the fingerprint authentication mode switching is set. FIG. 4B is a front perspective view showing the external configuration when the camera mode switching is set.
[0035]
FIG. 6 is a partial cross-sectional view showing the configuration of the imaging unit 25A of the portable terminal device according to the second embodiment. FIG. 6A is a diagram showing a fingerprint imaging state when the fingerprint authentication mode switching is set. FIG. 7B is a diagram illustrating a normal shooting state when the camera mode switching is set.
[0036]
In the mobile terminal device according to the second embodiment, with respect to the upper end portion of the main body 10A, the imaging direction is a direction facing the front surface 10a of the main body 10A (normal shooting direction) and an internal direction of the main body 10A (fingerprint shooting direction). As shown by the arrow a, there is provided an imaging unit 25A that can be switched by rotating 90 degrees up and down.
[0037]
The imaging unit 25A is provided with an imaging lens 15 on one side surface that can be switched between a direction facing the front surface 10a of the main body 10A (normal shooting direction) and an internal direction of the main body 10A (fingerprint shooting direction). An imaging element 16 is disposed on the back side of the imaging axis Q via 15.
[0038]
The image pickup device 16 extends along the image pickup axis Q when the image pickup unit 25A is switched to the normal shooting direction and when it is switched to the fingerprint shooting direction by the focus position moving device 17 using a piezoelectric actuator. It is attached as a mechanism that performs a slide switching operation between two focus positions, a camera mode (infinite focus) position P1 and a fingerprint authentication mode (close focus) position P2.
[0039]
In addition, the imaging axis Q is refracted at a position adjacent to the imaging unit 25A at the upper end inside the main body 10A in a state where the imaging direction of the imaging unit 25A is switched to the internal direction (fingerprint imaging direction) of the main body 10A. A half mirror 19 is provided for guiding the main body 10A in the direction of the imaging window (transparent plate) 14 on the front surface 10a.
[0040]
Furthermore, the inner wall on the back side of the main body 10A corresponding to the arrangement position of the imaging window 14 is provided with a light source 18 that is lit and driven when the imaging direction of the imaging unit 25A is switched to the fingerprint imaging direction. The irradiation light R from the light source 18 passes through the half mirror 19 and is emitted to the outside from the imaging window 14 and irradiates the fingerprint surface of the finger F pressed against the imaging window 14.
[0041]
That is, at the time of setting the fingerprint authentication mode switching, as shown in FIGS. 5A and 6A, the imaging direction of the imaging unit 25A is switched to the fingerprint imaging direction toward the internal direction of the main body 10A, and the focal length is changed. Is in the close-up shooting state (P2), and the fingerprint of the finger F pressed against the imaging window 14 is illuminated with the irradiation light R from the light source 18, and the imaging element 16 is passed through the half mirror 19 and the imaging lens 15. Is imaged.
[0042]
When the camera mode switching is set, as shown in FIGS. 5B and 6B, the imaging direction of the imaging unit 25A is switched to the normal imaging direction that is opposite to the front surface 10a of the main body 10A, and the focus is set. The distance is in an infinite shooting state (P1), and an image in the same direction is directly taken from the imaging lens 15 and captured by the imaging element 16.
[0043]
The configuration and operation of the electronic circuit of the mobile terminal device in the second embodiment are substantially the same as those of the mobile terminal device in the first embodiment shown in FIGS. To do.
[0044]
Therefore, according to the imaging function of the portable terminal device of the second embodiment having the above-described configuration, the imaging unit 25A incorporating the imaging lens 15, the focus position moving device 17, and the imaging element 16 is arranged at the upper end of the apparatus body 10A. The imaging direction is provided so that rotation can be switched between a direction facing the front surface 10a of the main body 10A (normal shooting direction) and an internal direction of the main body 10A (fingerprint shooting direction). The fingerprint surface of the finger F pressed against the imaging window 14 on the front surface 10a of the main body 10A is illuminated by the irradiation light Q from the light source 18 through the half mirror 19 disposed immediately below the imaging unit 25A inside the upper end of the main body 10A. Since the image is picked up by the image pickup device 16 in the image pickup unit 25A, normal shooting is performed with a common optical system. Can be performed in the fingerprint image capture, a small device configuration, it is possible to obtain a satisfactory fingerprint image.
[0045]
(Third embodiment)
FIG. 7 is a diagram showing an external configuration of a mobile terminal device according to the third embodiment of the information terminal device of the present invention, and FIG. 7A is a front perspective view showing the external configuration when the fingerprint authentication mode switching is set. FIG. 4B is a front perspective view showing the external configuration when the camera mode switching is set.
[0046]
FIG. 8 is a partial cross-sectional view showing the configuration of the imaging unit 25B of the portable terminal device according to the third embodiment. FIG. 8A is a diagram showing a fingerprint imaging state when the fingerprint authentication mode switching is set. B) is a diagram showing a normal shooting state when the camera mode switching is set.
[0047]
In the mobile terminal device according to the third embodiment, the upper left half of the main body 10B is arranged in a direction in which the imaging direction faces the front surface 10a of the main body 10B (normal shooting direction) and the inner direction of the upper right half of the main body 10B ( As shown by the arrow b, the imaging unit 25B is configured to be switched by rotating 90 ° left and right.
[0048]
The imaging unit 25B is provided with an imaging lens 15 on one side surface that can be switched between a direction facing the front surface 10a of the main body 10B (normal shooting direction) and an internal direction (fingerprint shooting direction) of the upper right half of the main body 10B. The imaging element 16 is disposed on the back side of the imaging axis Q via the imaging lens 15.
[0049]
The image pickup device 16 extends along the image pickup axis Q when the image pickup unit 25B is switched to the normal shooting direction and when it is switched to the fingerprint shooting direction by the focus position moving device 17 using a piezoelectric actuator. It is attached as a mechanism that performs a slide switching operation between two focus positions, a camera mode (infinite focus) position P1 and a fingerprint authentication mode (close focus) position P2.
[0050]
In addition, an imaging window (transparent plate) 14 is provided on the side surface opposite to the imaging unit 25B in the upper right half of the main body 10B.
[0051]
Furthermore, the inner wall of the upper right half of the main body 10B in which the imaging window 14 is disposed is provided with a light source 18 that is lit and driven when the imaging direction of the imaging unit 25B is switched to the fingerprint imaging direction. The irradiation light R from the light source 18 is emitted to the outside from the imaging window 14 and irradiates the fingerprint surface of the finger F pressed against the imaging window 14.
[0052]
That is, at the time of setting the fingerprint authentication mode switching, as shown in FIGS. 7A and 8A, the imaging direction of the imaging unit 25B is switched to the fingerprint imaging direction toward the internal direction of the upper right half of the main body 10B. Then, the focal length is changed to the close-up shooting state (P2), and the fingerprint of the finger F pressed against the imaging window 14 is illuminated by the irradiation light R from the light source 18 and is imaged via the imaging lens 15. 16 is imaged.
[0053]
When the camera mode switching is set, as shown in FIGS. 7B and 7B, the imaging direction of the imaging unit 25B is switched to the normal imaging direction that is opposite to the front surface 10a of the main body 10B, and the focal point thereof. The distance is in an infinite shooting state (P1), and an image in the same direction is directly taken from the imaging lens 15 and captured by the imaging element 16.
[0054]
Note that the configuration and operation of the electronic circuit of the mobile terminal device in the third embodiment are substantially the same as those of the mobile terminal device in the first embodiment shown in FIGS. 2 to 4, and description thereof is omitted. To do.
[0055]
Therefore, according to the imaging function of the mobile terminal device of the third embodiment having the above-described configuration, the imaging unit 25B incorporating the imaging lens 15, the focus position moving device 17, and the imaging element 16 is used as the upper left half of the apparatus body 10B. , The imaging direction can be rotated and switched between a direction facing the front surface 10a of the main body 10B (normal shooting direction) and an inner direction (fingerprint shooting direction) of the upper right half of the main body 10B. In the close-up photographing state (P2), the fingerprint surface of the finger F pressed against the imaging window 14 on the right side through the upper right half of the main body 10B is illuminated with the irradiation light Q from the light source 18 and is imaged unit 25B. Since the image is picked up by the image pickup device 16 in the inside, normal photographing and fingerprint image capturing can be performed with a common optical system. In Do apparatus configuration, it is possible to obtain a satisfactory fingerprint image.
[0056]
(Fourth embodiment)
FIG. 9 is a diagram showing an external configuration of a mobile terminal device according to a fourth embodiment of the information terminal device of the present invention, and FIG. 9A is a front perspective view showing the external configuration when the camera mode switching is set, FIG. 5B is a front perspective view showing the external configuration when the fingerprint authentication mode switching is set.
[0057]
FIG. 10 is a partial cross-sectional view showing the configuration of the imaging unit of the mobile terminal device according to the fourth embodiment. FIG. 10 (A) is a diagram showing a normal shooting state when camera mode switching is set, and FIG. FIG. 5 is a diagram showing a fingerprint photographing state when a fingerprint authentication mode switching setting is made.
[0058]
In the mobile terminal device according to the fourth embodiment, the key input portion 11a of the device main body 10C is covered with a protective cover 20 that is slidable in the direction indicated by the arrow c, and a transparent plate is imaged at the lower end of the protective cover 20. A window 14 is provided.
[0059]
An imaging lens 15 is attached to the lower end of the key input portion 11a covered with the protective cover 20, and the imaging element 16 is disposed on the imaging axis Q on the inner side of the main body 10C from the imaging lens 15. Is done.
[0060]
The image pickup device 16 has a camera mode (infinite focus) position along the image pickup axis Q depending on whether the protective cover 20 is closed or opened by the focus position moving device 17 using a piezo actuator. It is attached as a mechanism that performs a slide switching operation at two focal positions of P1 and fingerprint authentication mode (near focal point) position P2.
[0061]
Further, at a position adjacent to the imaging lens 15 at the lower end of the key input unit 11a, a light source 18 that is lit and driven when the protective cover 20 is slid to open the key input unit 11a is provided. Irradiation light R from the light source 18 is emitted from the imaging window 14 to the outside, and irradiates the fingerprint surface of the finger F pressed against the imaging window 14.
[0062]
Here, the state in which the key input unit 11a is covered by the protective cover 20 is the normal photographing position associated with the setting of the camera mode, and the state in which the key input unit 11a is opened by sliding the protective cover 20 is the fingerprint authentication mode. The fingerprint shooting position associated with the setting.
[0063]
That is, at the time of setting the camera mode switching, as shown in FIGS. 9A and 10A, the protective cover 20 is closed and switched to the normal shooting position, and the focal length becomes an infinite shooting state (P1). An image in a direction facing the imaging window 14 is captured via the imaging window 14 and the imaging lens 15 and is captured by the imaging element 16.
[0064]
Further, when the fingerprint authentication mode switching is set, as shown in FIGS. 9B and 10B, the protective cover 20 is opened and switched to the fingerprint photographing position, and the focal distance is set to the close-up photographing state (P2). The fingerprint of the finger F pressed against the imaging window 14 is illuminated by the irradiation light R from the light source 18 and is imaged by the imaging element 16 via the imaging lens 15.
[0065]
The configuration and operation of the electronic circuit of the mobile terminal device in the fourth embodiment are substantially the same as those of the mobile terminal device in the first embodiment shown in FIGS. To do.
[0066]
Therefore, according to the imaging function of the mobile terminal device of the fourth embodiment having the above-described configuration, the imaging lens 15 and the focus position moving device 17 are arranged at the lower end of the key input unit 11a covered by the protective cover 20 of the key input unit 11a. And an image pickup unit incorporating the image pickup device 16, and a fingerprint photographing position in which the image pickup window 14 is provided on the lower end surface of the protective cover 20 facing the image pickup lens 15 and the key cover 11 is opened by sliding the protective cover 20. When the switching to is set, the fingerprint surface of the finger F pressed against the imaging window 14 at the lower end of the protective cover 20 as a close-up shooting state (P2) is illuminated by the irradiation light Q from the light source 18 to be a key input unit. Since the image is picked up by the image pickup device 16 inside the lower end of 11a, normal photographing and fingerprint image capturing are performed with a common optical system. Can, in compact apparatus configuration, it is possible to obtain a satisfactory fingerprint image.
[0067]
(Fifth embodiment)
FIG. 11: is a figure which shows the external appearance structure of the portable terminal device which concerns on 5th Embodiment of the information terminal device of this invention, The figure (A) is a front perspective view which shows the external appearance structure at the time of the unused setting, FIG. (B) is a front perspective view showing the external configuration when the fingerprint authentication mode switching is set.
[0068]
FIG. 12 is a partial cross-sectional view showing the configuration of the image pickup unit of the mobile terminal device according to the fifth embodiment. FIG. 12 (A) is a view showing the image pickup unit storage state when unused, and FIG. FIG. 5 is a diagram showing a fingerprint photographing state when a fingerprint authentication mode switching setting is made.
[0069]
In the mobile terminal device according to the fifth embodiment, the key input portion 11a of the device main body 10D is covered with a protective cover 20A that can slide in the direction indicated by the arrow c, and a transparent plate is imaged on the lower front portion of the protective cover 20A. A window 14 is provided.
[0070]
An imaging lens 15 is attached to the lower end of the key input portion 11a covered with the protective cover 20A, and the imaging element 16 is disposed on the imaging axis Q on the inner side of the main body 10D from the imaging lens 15. Is done.
[0071]
The image sensor 16 is a two-focus position of a camera mode (infinity focus) position P1 and a fingerprint authentication mode (near focus) position P2 along the imaging axis Q by a focus position moving device 17 using a piezoelectric actuator. It is attached as a mechanism for slide switching operation.
[0072]
Note that the switching operation between the camera mode position P1 and the fingerprint authentication mode position P2 of the image sensor 16 by the focus position moving device 17 is executed in response to an instruction by a key operation in the key input unit 11.
[0073]
Further, at a position adjacent to the imaging lens 15 at the lower end portion of the key input portion 11a, a light source 18 that is lit and driven when the protective cover 20A is slid to open the key input portion 11a is provided. Irradiation light R from the light source 18 is reflected by 90 [deg.] By the mirror 30 mounted on the bottom surface of the protective cover 20A facing the imaging lens 15 via support springs 30a and 30b, and is emitted to the outside from the imaging window 14. Then, the fingerprint surface of the finger F pressed against the imaging window 14 is irradiated.
[0074]
Here, the state where the key input unit 11a is covered by the protective cover 20A is the storage position of the imaging unit when it is not used, and the state where the key input unit 11a is opened by sliding the protective cover 20A is the fingerprint authentication mode. The fingerprint shooting position associated with the setting.
[0075]
That is, at the time of unused setting, as shown in FIGS. 11A and 12A, the protective cover 20A is closed and switched to the imaging unit storage position, and the mirror 30 inside the protective cover 20A has a key input unit. It is pushed in contact with the lower end of 11a and is accommodated in a gap with the bottom surface of the protective cover 20A.
[0076]
When the fingerprint authentication mode switching is set, as shown in FIGS. 11B and 12B, the protective cover 20 is opened and switched to the fingerprint photographing position, and the focal length is set to the close-up photographing state (P2). The fingerprint of the finger F pressed against the imaging window 14 is illuminated by the irradiation light R from the light source 18 reflected by the mirror 30 and is imaged by the imaging device 16 via the mirror 30 and the imaging lens 15. Is done.
[0077]
Note that the configuration and operation of the electronic circuit of the mobile terminal device in the fifth embodiment are substantially the same as those of the mobile terminal device in the first embodiment shown in FIGS. 2 to 4, and description thereof is omitted. To do.
[0078]
Therefore, according to the imaging function of the mobile terminal device of the fifth embodiment having the above-described configuration, the imaging lens 15 and the focus position moving device 17 are arranged at the lower end of the key input unit 11a covered by the protective cover 20A of the key input unit 11a. In addition, an imaging unit incorporating the imaging element 16 is provided, the imaging window 14 is provided on the front surface 10a of the protective cover 20A, and the imaging axis Q from the imaging lens 15 is provided on the bottom surface of the protective cover 20A facing the imaging lens 15. A mirror 30 supported by support springs 30a and 30b that refract in the direction of the imaging window 14 is provided. When the protective cover 20A is closed, the mirror 30 is pushed in by the lower end of the key input portion 11a and the bottom surface of the protective cover 20A. The fingerprint photographing position in which the key cover 11a is opened by sliding the protective cover 20A. When the switching to is set, the fingerprint surface of the finger F pressed against the imaging window 14 in front of the protective cover 20A in the close-up shooting state (P2) is illuminated by the irradiation light Q from the light source 18 through the mirror 30. Since the image is picked up by the image pickup device 16 inside the lower end of the key input unit 11a, a good fingerprint image can be obtained with a small device configuration.
[0079]
In addition, you may make it arrange | position the mirror 30 in a predetermined position using the link mechanism interlock | cooperated with the movement of 20 A of protective covers instead of the support springs 30a and 30b.
[0080]
Further, in each of the above embodiments, the imaging window (transparent plate) 14 that becomes the reading surface of the fingerprint image by pressing the fingerprint surface of the finger F is configured to have a flat surface as shown in FIG. 14, for example. For example, as shown in FIG. 13, an imaging window (transparent plate) 14a having concave and convex surfaces formed on both front and back surfaces is used to match the shape of the fingerprint surface of the finger F, which is a convex curved surface, and in a pseudo-focusing manner over the entire surface. It is good also as a structure which can image a favorable fingerprint image over the wide range of the said fingerprint surface by making it match | combine distance.
[0081]
FIG. 13 is a diagram showing a fingerprint imaging optical system when the front and back concave imaging windows 14a are used in the portable terminal device.
[0082]
FIG. 14 is a diagram showing a fingerprint imaging optical system when an imaging window 14 having a front and back plane shape is used in the portable terminal device.
[0083]
【The invention's effect】
  As described above, according to the present inventionFirstAccording to the information terminal deviceIn normal shooting mode with one side facing the external direction where the imaging unit is rotated and the imaging lens is provided, the focal length is set to an infinite position by the focal length moving mechanism, and the imaging unit is rotated to provide the imaging lens. In the fingerprint shooting mode where one side faces the inside of the apparatus main body, the focal length is set to the close position by the focal length moving mechanism and the light source is driven to turn on so that one imaging device and a lens system are provided. Even if the image pickup unit isSince the focal length can be switched according to the switching between the normal shooting mode and the fingerprint shooting mode, normal image shooting and fingerprint image shooting can be performed with a small device without arranging a plurality of optical systems.
[0084]
  According to the second information terminal device of the present invention, in the normal photographing mode in which the slide cover is slid and closed, the focal length is set to an infinite position by the focal length moving mechanism, and the slide cover is slid open. In the shooting mode, the focal length is set to a close position by the focal length moving mechanism and the light source is driven to turn on, so that the slide cover slides even in an imaging unit having one imaging element and a lens system. Since the focal length can be switched depending on the position according to the switching between the normal photographing mode and the fingerprint photographing mode, normal image photographing and fingerprint image photographing can be performed with a small apparatus without arranging a plurality of optical systems.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a mobile terminal device according to a first embodiment of an information terminal device of the present invention, in which FIG. 1 (A) is a front perspective view showing its external configuration, and FIG. The fragmentary sectional view which shows the structure of an imaging unit.
FIG. 2 is a block diagram showing a configuration of an electronic circuit of the portable terminal device.
FIG. 3 is a flowchart showing an overall process of the portable terminal device.
FIG. 4 is a flowchart showing a fingerprint collation process associated with an overall process of the portable terminal device.
FIG. 5 is a diagram showing an external configuration of a mobile terminal device according to a second embodiment of the information terminal device of the present invention, and FIG. 5 (A) is a front perspective view showing the external configuration when the fingerprint authentication mode switching is set. FIG. 4B is a front perspective view showing an external configuration when the camera mode switching is set.
6 is a partial cross-sectional view showing a configuration of an imaging unit of the mobile terminal device according to the second embodiment, and FIG. 6A is a diagram showing a fingerprint imaging state when the fingerprint authentication mode switching is set. B is a diagram showing a normal shooting state when the camera mode switching is set.
FIG. 7 is a diagram showing an external configuration of a portable terminal device according to a third embodiment of the information terminal device of the present invention, and FIG. 7 (A) is a front perspective view showing the external configuration when the fingerprint authentication mode switching is set. FIG. 4B is a front perspective view showing an external configuration when the camera mode switching is set.
FIG. 8 is a partial cross-sectional view showing a configuration of an imaging unit of the mobile terminal device according to the third embodiment, where FIG. 8A is a diagram showing a fingerprint imaging state when the fingerprint authentication mode switching is set; B is a diagram showing a normal shooting state when the camera mode switching is set.
FIG. 9 is a diagram showing an external configuration of a mobile terminal device according to a fourth embodiment of the information terminal device of the present invention, and FIG. 9 (A) is a front perspective view showing the external configuration when the camera mode switching is set; FIG. 4B is a front perspective view showing an external configuration when the fingerprint authentication mode switching setting is performed.
FIG. 10 is a partial cross-sectional view showing a configuration of an imaging unit of the mobile terminal device according to the fourth embodiment, in which FIG. 10A shows a normal shooting state when camera mode switching is set, and FIG. ) Is a diagram showing a fingerprint photographing state when the fingerprint authentication mode switching is set.
FIG. 11 is a diagram showing an external configuration of a mobile terminal device according to a fifth embodiment of the information terminal device of the present invention, in which FIG. 11 (A) is a front perspective view showing the external configuration when it is not used; FIG. (B) is a front perspective view showing the external configuration when the fingerprint authentication mode switching is set.
FIG. 12 is a partial cross-sectional view showing the configuration of the imaging unit of the portable terminal device according to the fifth embodiment, where FIG. 12 (A) is a diagram showing a state in which the imaging unit is stored when not in use; ) Is a diagram showing a fingerprint photographing state when the fingerprint authentication mode switching is set.
FIG. 13 is a diagram showing a fingerprint imaging optical system in the case where an imaging window having front and back concave shapes is used in the portable terminal device.
FIG. 14 is a diagram showing a fingerprint imaging optical system when an imaging window 14 having a front and back plane shape is used in the portable terminal device.
[Explanation of symbols]
10, 10A, 10B, 10C, 10D ... Mobile terminal device main body
10a ... Front of main unit
10b ... Upper surface of main body
10c ... bottom surface of main body
11, 11a ... Key input section
12 ... Liquid crystal display
13 ... Antenna
14 ... Imaging window (planar type)
14a ... Imaging window (concave surface type)
15: Imaging lens
16: Image sensor
17 ... Focus position moving device
18 Light source
19… Half Mirror
20, 20A ... Protective cover
21 ... Control unit (CPU)
22 Storage device
22a ... System program
22b ... Communication control program
22c ... Fingerprint verification program
22d ... registered fingerprint image data
22e ... Registered phone number data
23 ... Key unit
24 ... Communication unit
25, 25A, 25B ... Imaging unit
26 ... RAM
26a ... mode data memory
26b ... Imaging position data memory
26c ... collation fingerprint image memory
26d ... Phonebook data memory
26e ... Work memory
27 Display unit
30 ... Mirror
30a, 30b ... support spring
F ... finger
Q ... Imaging axis
R: Irradiation light
P1 ... Camera mode position
P2: Fingerprint authentication mode position

Claims (4)

An imaging unit that is rotatably provided in a part of the apparatus body;
An imaging lens provided on one side surface of the imaging unit facing the internal direction and the external direction of the apparatus body as the imaging unit rotates,
An image sensor disposed inside the imaging unit on the imaging axis of the imaging lens;
A focal length moving mechanism for moving the imaging element on the imaging axis to change a focal length;
An imaging window provided on a side surface of the apparatus main body on a reach extension of the imaging axis in a state in which one side surface provided with the imaging lens of the imaging unit faces the internal direction of the apparatus main body;
A light source that is provided inside the main body and that emits light toward the outside of the main body through the imaging window;
In the normal shooting mode in which one side surface on which the imaging unit is rotated and the imaging lens is provided faces the outside, a focal length is set to an infinite position by the focal length moving mechanism, and the imaging unit is rotated to rotate the imaging unit. At the time of fingerprint imaging mode in which one side surface provided with the imaging lens faces the inside direction of the apparatus main body, a control unit that sets the focal length to a close position by the focal length moving mechanism and drives the light source to be turned on,
An information terminal device comprising: A slide cover attached to cover one end of the apparatus main body, expose a part of the apparatus main body when the slide is opened, and protect a part of the apparatus main body when the slide is closed;
An imaging lens provided on one side surface of the apparatus body;
An image sensor disposed inside the main body on the imaging axis of the imaging lens;
A focal length moving mechanism for moving the imaging element on the imaging axis to change a focal length;
An imaging window provided on the side surface of the slide cover on the extension of the imaging axis from the imaging lens on one side surface of the apparatus body;
A light source that is provided on one side surface of the apparatus main body and that emits light toward the outside of the slide cover through the imaging window of the slide cover;
In the normal photographing mode in which the slide cover is slid, the focal length is set to an infinite position by the focal length moving mechanism, and in the fingerprint photographing mode in which the slide cover is slid open, the focal length is moved by the focal length moving mechanism. And a control means for driving the light source to turn on,
An information terminal device comprising: 3. The information terminal device according to claim 1, wherein the front and back surfaces of the imaging window are formed in a concave curved surface corresponding to a convex curved surface of a fingerprint surface of a finger. further,
Fingerprint request determination means for determining whether or not there is a request for fingerprint shooting;
An informing means for issuing a warning when the fingerprint request determination means determines that there is a request for fingerprint imaging, and the control means is not controlled in the fingerprint imaging mode;
The information terminal device according to any one of claims 1 or claim 2, further comprising a.

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