JP2005051430A - Electronic device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic device capable of effectively removing the influence of static electricity to a camera unit mounted integrally. <P>SOLUTION: At upper and lower parts of 2nd conductors 2b positioned at both lengthwise side parts of a casing 2a housing the camera unit 22, a plurality of claw pieces 251 are formed along the flank of a cylindrical rotary body 23 to make static electricity jump in, and absorb and apply it through a contact terminal part 250. Consequently, the static electricity to the camera unit 22 is discharged to an electrostatic ground through the pawl pieces 251, 2nd conductors 2b, and contact terminal 250 to effectively remove the influence of the static electricity on the camera unit 22. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic apparatus such as a mobile phone, a PDA (Personal Digital Assistant), a digital camera, and a laptop computer equipped with a camera unit.
[0002]
[Prior art]
There is an increasing demand for portable terminal devices that are portable electronic devices such as mobile phones, PDAs, digital cameras, and notebook computers equipped with camera units.
[0003]
As this type of electronic device, for example, an adapter that is detachably attached to a portable terminal device such as a cellular phone and that transmits and receives an image together with a transmission / reception signal by an information communication function is pivotally supported and rotated. An apparatus provided with an imaging unit that can change the shooting direction according to the direction has been proposed (see, for example, Patent Document 1).
[0004]
[Patent Document 1]
JP 11-164273 A
[0005]
[Problems to be solved by the invention]
The apparatus described in Patent Document 1 has an advantage of excellent shooting directionality in that a subject can be arbitrarily shot while viewing a display unit such as an LCD because the shooting direction can be freely changed. .
However, in use, it is necessary to carry out complicated work of attaching and removing the adapter to and from the electronic device to be connected, and it is necessary to carry an adapter with a camera unit separately from the electronic device of the main body, There is a problem in terms of usability.
[0006]
Therefore, in recent years, portable terminal devices such as a mobile phone, a PDA, a digital camera, and a laptop computer, which are integrally incorporated with a rotatable camera unit, have been put into practical use.
As a portable terminal device equipped with a camera unit, for example, a lower housing, an upper housing, a hinge portion, a photographing portion, and an interlocking mechanism are provided, and the photographing portion is provided rotatably at the end of the hinge portion. In some cases, the rotation angle can be freely adjusted by the rotation operation of the upper housing and the manual rotation operation by the knob or the like.
[0007]
Although the user frequently touches the mobile terminal device with his / her hand, if the user is electrostatically charged at this time, static electricity will fly to the metal part of the terminal device. When static electricity jumps into a signal line (for example, a copper foil pattern) in the circuit of the terminal device, the energy of the static electricity is transmitted on the signal line, causing destruction of electrical components and unexpected abnormal operation of the terminal device of the product. Normally, in mobile terminal devices, the surface side of the upper casing of the terminal device is shielded with metal or the like to prevent static electricity, but the weight of the casing is increased and the degree of freedom in design is reduced. There is a problem.
[0008]
And, as described above, in the portable terminal device in which a rotatable camera unit is integrated and the rotation angle can be freely adjusted by the manual rotation operation with the user's finger or the like, The possibility that the camera unit is affected by static electricity is very high. However, in conventional terminal devices, there is no effective countermeasure against static electricity for the rotatable camera unit.
[0009]
An object of the present invention is to provide an electronic device that can effectively eliminate the influence of static electricity on a camera unit that is integrally mounted.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, an aspect of the present invention includes a housing and a camera unit disposed in the housing, wherein the camera unit includes an imaging unit and at least one opening. A casing disposed at a predetermined position of the casing and the imaging unit are accommodated, and an imaging unit for imaging an imaging target in the imaging unit is rotatably disposed on the casing so as to be positioned at the opening. A rotator that is supported, and a conductor that is provided near the side surface of the rotator at the opening.
[0011]
Preferably, the conductor has a plurality of claw pieces.
[0012]
Preferably, an accommodating portion capable of accommodating the casing of the camera unit and an apparatus ground line are formed in the casing, the conductor is attached to the casing, and the casing is accommodated in the casing. It is formed so that it can be electrically connected to the apparatus ground line when housed in the unit.
[0013]
Preferably, the housing includes at least a base part in which the camera unit is accommodated, and a lid part that can be attached to the base part so as to cover the first surface on the accommodation side of the base part. At least one of the base portion and the lid portion is formed with an opening that faces the opening of the camera unit and that can apply a rotational force to the rotating body including at least the imaging unit from the outside. .
[0014]
Preferably, the rotator includes a light emitting unit in parallel with the imaging unit of the imaging unit, and the claw pieces of the conductor disposed in the vicinity of the light emitting unit have other positions. It is formed wider than the nail piece.
[0015]
Moreover, the said rotary body is formed in a cylindrical shape, and the said conductor is formed so that the said rotary body may be covered except for the part which faces the said opening part.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
[0017]
FIG. 1 and FIG. 2 are diagrams showing an embodiment of a mobile phone as an electronic device according to the present invention. FIG. 1 is a front side view of a mobile phone (mobile terminal device) to which the present invention is applied. FIG. 2 is a perspective view of the open state of the mobile phone (mobile terminal device) to which the present invention is applied as viewed from the back side.
This mobile phone has a lower housing (second housing) 1, an upper housing (first housing) 2, and a hinge portion 3 as a mobile terminal body.
[0018]
The lower housing 1 is provided with an operation unit 11 having a numeric keypad 11a, a cursor button 11b, and an enter button 11c.
The upper housing 2 is provided with a display unit 21 and a rotatable camera unit 22. And it arrange | positions in the vicinity of the hinge part 3 of the upper housing | casing 2 of the camera unit 22, and the front side (the cover part side which covers the base | substrate part in which the camera unit 22, a circuit board, etc. are mounted) and the back surface of the upper housing | casing 2 On the side (base unit side on which the camera unit 22, circuit board, etc. are mounted), the imaging unit of the camera unit 22 is opposed to the opening, and can be freely rotated by manually rotating the knob with a user's finger or the like. Openings 4a and 4b having a predetermined size are formed so that the angle can be adjusted.
The display unit includes a main display unit 21a formed on the front side of the upper housing 2 (the lid unit side covering the base unit on which the camera unit 22 and the circuit board are mounted) and the back side (the camera unit 22 and the circuit board). Etc., and a sub display part 21b formed on the base part side).
[0019]
The hinge portion 3 includes a lower hinge 3 a integrated with an end portion of the lower housing 1, and an upper hinge 3 b integrated with an end portion of the upper housing 2, and the lower housing 1 and the upper housing 2. And the upper housing 2 is supported so as to be rotatable with respect to the lower housing 1. When this mobile phone is not in use, it can be folded using the hinge portion 3 as a fulcrum so that the surface of the lower housing 1 having the operation unit 11 faces the surface of the upper housing 2 having the display unit 21.
[0020]
The display unit 21 is configured by, for example, a liquid crystal display (LCD), and information such as characters input by the operation unit 11 and information such as characters or images stored in a memory (not shown) built in the portable terminal device. Then, information such as an image captured using the camera unit 22 by operating the operation unit 11 and information such as an image transmitted and received by a transmission / reception device (not shown) built in the portable terminal device are displayed.
The circuit board part is accommodated in the lower housing 1 and is arranged in the upper housing 2 through the circuit board part, the flexible wiring board, and the relay board part arranged in the upper housing 2. By connecting a drive system electronic component such as a vibrator and the logic system board, various operations according to the operation of the operation unit 11 are performed.
[0021]
3 and 4 are diagrams showing the internal structure of the upper housing 2 on the base body side.
On the inner side of the base body 200, a camera unit 22 and a drive system arrangement region 210 in which a vibrator motor as a drive system electronic component is arranged in the vicinity of the hinge unit 3, a main display unit (LCD) 21 a and a main LCD 21 a A logic system placement area adjacent to a drive system placement area 210 on which a sub LCD (not shown in FIG. 3) 21b, a DSP board PRTB, and the like are placed on the opposite surface via a wall-shaped boundary 230 220 is formed. Here, the camera unit 22 itself is arranged in the drive system arrangement area 210, and its electrical connection is made in the logic system arrangement area 220 in the flexible wiring board 26 as will be described later.
In the area 221 of the logic system arrangement area 220, the sub LCD 21b is mounted as a predetermined unit body so as to sandwich the flexible wiring board to which the area 221 is wired between the inner surface of the base body 200.
[0022]
In the present embodiment, as shown in FIG. 5, the signal ground and the electrostatic ground are configured separately, and the electrostatic ground portion 240 is formed in the peripheral portion of the DSP substrate PRTB.
Basically, as shown in FIG. 5, a main LCD 21a, a sub LCD 21b, a camera unit 22, a DSP (IC) 222, and the like are connected to the signal ground SGND via a flexible wiring board or the like.
The vibrator motor 5 is connected to the electrostatic ground SEGND (240) by a conductor (sheet metal) as will be described later.
[0023]
FIG. 6 is a perspective view showing an outline of the drive system arrangement area 210.
The drive system arrangement region 210 is formed so as to overlap the first housing part 211 for housing the casing in which the camera unit 22 and the vibrator motor 5 are mounted in parallel, and the right side of the first housing part 211 in the drawing. A second housing portion 212 that houses a relay substrate portion such as a flexible wiring board is provided.
As will be described later, the first housing portion 212 is attached to a rotating body and casing of a cylindrical camera unit, is formed as a connection path to the electrostatic ground SEGND, and absorbs static electricity in the vicinity of the camera unit 22. For this purpose, a recess 211a is provided so that a conductor disposed near the periphery of the rotating body can be easily accommodated. An opening 4b on the base body 200 (back surface) side is formed on the bottom surface side.
[0024]
Next, the camera unit 22 will be described with reference to FIGS. 4 and 7 to 9.
[0025]
As shown in the drawing, the camera unit 22 is built in the upper housing 2 and is formed in a substantially cylindrical shape so as to extend in the width direction of the upper housing 2. The camera unit 22 includes a rotating body 23 having a shaft 22 a and rotatably supported at both ends of the shaft 22 a in the upper housing 2, and a camera module 24 as an imaging unit disposed in the rotating body 23. And a light emitting unit 25 and a flexible wiring board 26 provided at the end of the rotating body 23 and connected to the camera module 24 and the light emitting unit 25.
[0026]
When the camera unit 22 shoots with the camera module 24 facing the main display section 21 as shown in FIG. 1, the subject on the main display section 21a side can be photographed while viewing the main display section 21a.
On the other hand, when the camera module 24 faces the main display unit 21a and is rotated 180 degrees in the upper housing 2 while grasping the end of the rotating body 23 with a finger or the like, as shown in FIG. When the camera module 24 is directed to the opposite side of 21a and photographing is performed in this state, the subject on the opposite side of the main display portion 21a can be photographed while viewing the main display portion 21a.
[0027]
The camera unit 22 is stored in the casing 2 a in the upper housing 2. A second conductor 2b, which is a sheet metal for countermeasures against static electricity, is set outside the casing 2a. Further, the casing 2a is provided with a motor set portion 6 for setting the vibrator motor 5 adjacent in the longitudinal direction.
As shown in FIGS. 4 and 7, the casing 2 a is open at the top and bottom, and the rotating body 23 is accommodated in the opening.
And the 2nd conductor 2b is set integrally so that it may be arrange | positioned at three side parts except the one side part of the casing 2a.
One end of the second conductor 2b is located in the logic arrangement area 220 when the casing 2a is accommodated in the first accommodation section 211 of the drive system arrangement area 210, and the DSP arranged in the logic arrangement area 220. A contact terminal 250 connectable to 240 is formed on the electrostatic ground formed around the substrate PRTB.
In addition, a cylindrical shape is used to absorb and absorb static electricity into the upper and lower portions of the second conductor 2b located on both sides in the longitudinal direction of the casing 2a. A plurality of claw pieces 251 are formed so as to extend along the side surface of the rotating body 23 that forms the structure.
The plurality of claw pieces 251 are formed to have different widths depending on the arrangement position. For example, the claw piece 251a located in the vicinity of the light emitting unit 25 is formed wider than the other claw pieces in order to make it easier to absorb and absorb static electricity.
[0028]
By forming a plurality of nail pieces for electrostatic absorption in this way, it becomes easier to fix the position of the rotating body 23 with respect to the casing 2a, and the external force and impact on the rotating body 23 can be reduced. Moreover, it is not necessary to make the casing made of metal, and the material cost can be kept low.
Here, an example in which a plurality of nail pieces for static electricity absorption are formed has been described, but static electricity can be absorbed even in an integrated flat plate shape. In this case, it is effective in reducing external force and impact.
[0029]
The rotating body 23 includes a large-diameter portion 23a and a small-diameter portion 23b that are coaxial and have different diameters, and the large-diameter portion 23a and the small-diameter portion 23b are connected to each other. In addition, a plurality of recesses 23c are provided on the outer periphery at the end of the large diameter portion 23a on the small diameter portion 23b side so that the rotary body 23 can be easily rotated by picking it with a finger.
In addition, the rotating body 23 is configured to be vertically divided so that the camera module 24, the light emitting unit 25, and the flexible wiring board 26 can be attached therein. In addition, openings 23d and 23e are provided on the side surface of the rotating body 23 so that the camera module 24 and the light emitting unit 25 can be visually recognized from the outside, and the photographing of the camera module 24 is provided in the openings 23d and 23e. Transparent plates 23f and 23g are provided to protect the window and the light emitting surface of the light emitting unit 25, respectively.
[0030]
The camera module 24 is disposed on one extending portion 26a of a flexible wiring board 26 described later, and is electrically connected to the extending portion 26a. The camera module 24 captures a subject with a driving unit (not shown), and for example, a CCD or a CMOS sensor is used.
The light emitting portion 25 is disposed on the other extending portion 26b of the flexible wiring board 26 described later, and is electrically connected to the extending portion 26b. The light emitting unit 25 emits light at the same time as the subject is photographed by a drive unit (not shown) when the subject is photographed by the camera module 24. For example, a white LED is used.
As described above, the claw piece 251a located in the vicinity of the light emitting unit 25 is formed wider than the other claw pieces in order to make it easier to absorb and absorb static electricity.
The light emitted from the light emitting unit 25 is strong light that is used for assisting imaging. If the glass substrate or the like of the LCD is strongly irradiated, the LCD may malfunction due to problems such as leakage current based on the light emitted from the TFT. Although it may occur, the claw piece 251a located in the vicinity of the light emitting unit 25 is formed wider than the other claw pieces, which helps to prevent malfunction of the LCD.
Moreover, it is easy to form each claw piece 251, 251 a along the side of the cylindrical rotating body 23. When the casing 2 a is accommodated in the first accommodation part 211, these claw pieces 251, Since 251a enters the recess 211a formed in the first housing portion 211 of the drive system arrangement region 210, there is an advantage that positioning itself is easy.
Further, in this case, the nail piece can be provided as far as the finger touches without exposing a metal piece such as a nail to the case as much as possible and maintaining the strength of the case. As a result, it is possible to easily receive static electricity from a finger that rotates the camera unit 22, and as a result, static electricity can be prevented from entering the camera unit 22. As described above, since it is possible to effectively prevent static electricity from entering the camera unit 22, it is possible to obtain a clearer photographed image with very little noise.
[0031]
As shown in FIG. 10, the flexible wiring board 26 has one extending portion 26 a and the other extending portion 26 b that extend in the axial direction of the rotating body 23, and is perpendicular to the axial direction of the rotating body 23. It has an extending portion 26c that extends, and is formed in a substantially letter shape. The flexible wiring board 26 is provided with a capacitor 24a, a resistor 24b, a ferrite bead 24c, and a diode 24d as control components of the camera module 24 in one extending portion 26a, and the light emitting portion 25 in the other extending portion 26b. A capacitor 25a, a resistor 25b, a ferrite bead 25c, and a diode 25d are installed as control components. These control components are installed in the vicinity of the camera module 24 and the light emitting unit 25. The extending portion 26c of the flexible wiring board 26 electrically connects the camera unit 22.
[0032]
The flexible wiring board 26 has the extending portion 26b bent and overlapped with the upper portion of the extending portion 26a. At this time, both the camera module 24 and the light emitting unit 25 are arranged so as to be visible from the openings 23d and 23e of the rotating body 23.
In addition, the flexible wiring board 26 has the extending part 26a and the extending part 26b accommodated in the rotating body 23 in a state where the extending part 26b is bent and overlapped on the upper part of the extending part 26a. Yes.
The extending part 26b is provided with a reflecting plate 25d so as to cover the periphery of the light emitting part 25 so that the light emitted from the light emitting part 25 is reflected.
[0033]
In addition, the flexible wiring board 26 is joined to the rotating body 23 divided into upper and lower parts, and when the camera module 24, the light emitting unit 25, and other components are housed in the rotating body 23, the extending part 26 c is formed outside the rotating body 23. It will be in the state extended to. As shown in FIGS. 11 and 12, the extending portion 26 c is wound with a gap around the outer periphery of the small diameter portion 23 b of the rotating body 23.
The camera unit 22 is housed in the casing 2a in a state where the extending portion 26c is wound with a gap around the outer periphery of the small diameter portion 23b of the rotating body 23.
[0034]
A click mechanism 27 is provided at the end of the large-diameter portion 23a constituting the rotating body 23 in order to fix the rotated camera unit 22 at a predetermined position as shown in FIG. Yes. The click mechanism 27 includes a casing 27a, a spring 27b provided in the casing 27a, and a metal ball 27c pressed against the rotating body 23 by the spring 27b.
[0035]
The spring 27b is pressed from the outside of the casing 27a by a sheet metal 2b provided outside the casing 2a. Further, a notch portion 23h is provided at the end of the large diameter portion 23a with which the metal ball 27c contacts, and when the camera unit 22 that is picked and rotated by the finger is stopped, the large diameter is generated by the elastic force of the spring 27b. The camera unit 22 is fixed at a predetermined position by fitting the metal ball 27c pressed against the end of the portion 23a into the notch 23h.
[0036]
A rotation position detection switch 28 is provided at the end of the camera unit 22 to detect the position of the camera unit 22 when it rotates. The rotational position detection switch 28 is composed of two switches 28a and 28b, where the transparent plate 23f of the camera module 24 faces one surface, and the transparent plate 23f of the camera module 24 faces the other surface. The position of the camera unit 22 set to either the position where the transparent plate 23f of the camera module 24 is hidden or the position where the transparent plate 23f of the camera module 24 is hidden is detected.
[0037]
For example, when the transparent plate 23f of the camera unit 22 is in a position facing one surface, the switch 28a is turned on and the switch 28b is turned off. When the transparent plate 23f of the camera module 24 is in a position facing the other surface, the switch 28a is turned off and the switch 28b is turned on. When the transparent plate 23f of the camera module 24 is in a position where it is hidden, both the switches 28a and 28b are turned off.
[0038]
Further, as described above, in the drive system arrangement region 210 of the upper housing 2, the first housing portion 211 for housing the casing 2 a on which the camera unit 22 and the vibrator motor 5 are mounted in parallel, and the flexible wiring board And a second accommodating portion 212 that accommodates a relay substrate portion such as the like.
And this relay board | substrate part is arrange | positioned so that the accommodating part of the winding part of the flexible wiring board 26 of the casing 2a of the camera unit 22 and the accommodating part 6 of the motor 5 for vibrators may be located between the base | substrate parts 200. Is done.
[0039]
FIG. 14 is a perspective view of the casing 2a and the relay board portion 7 as seen from the lower surface side.
As shown in FIG. 14, on the lower surface side of the relay board portion 7, an electrostatic ground 7 a such as a ground of a vibrator motor 5 of a so-called flexible wiring board is exposed.
And in this embodiment, the suspension part 8a which can be suspended in the predetermined position of the boundary part 230 of the drive system arrangement | positioning area | region 210 and the logic type | system | group arrangement | positioning area | region 220 is formed, and a relay board | substrate part is formed from the side part of the casing 2a. The first connector 8b that can reach and come into contact with the exposed electrostatic ground 7a and the suspending portion 8a are suspended at a predetermined position of the boundary 230, and the first connector 8b is connected to the relay substrate portion 7. In the state where it is connected to the exposed electrostatic ground 7a, it has a first conductor 8 which is a sheet metal on which a second connector 8c capable of contacting the second conductor 2b set on the side of the casing 2a is formed. .
The exposed electrostatic ground 7a of the relay substrate 7, the first connector 8b of the first conductor 8, the second connector 8c, the second conductor 2b, the contact terminal 250, and the peripheral portion of the DSP substrate PRTB The electrostatic ground line 240 is connected to the electrostatic ground line 240, and the electrostatic ground line is formed of the first conductor 8 and the second conductor 2b made of sheet metal separately from the signal line.
[0040]
In FIG. 14, a flexible wiring board denoted by reference numeral 9a is a flexible wiring board that connects the circuit board portion in which the circuit board portion is housed in the lower housing 1 and the relay substrate portion 7, and denoted by reference numeral 9b. The flexible wiring board shown is a flexible wiring board for connecting to the relay board portion 7 arranged in the upper housing 2 and the DSP board PRTB arranged in the logic system arrangement area 220.
The flexible wiring board 9 a includes a signal ground and an electrostatic ground, and the electrostatic ground takes another path from the relay board portion 7. As described above, the electrostatic ground 7a, the first connector 8b of the first conductor 8, the second connector 8c, the second conductor 2b, the contact terminal 250, and the peripheral portion of the DSP board PRTB. The signal ground is connected to the DSP board PRTB from the relay board 7 via the flexible wiring board 9b as it is.
That is, in the present embodiment, the ground wiring is realized so that the signal ground and the electrostatic ground are kept as close as possible despite the limited area in the extremely narrow housing. As a result, it is possible to prevent electrostatic noise from entering the signal ground where the influence of noise is to be avoided as much as possible by electromagnetic induction and capacitive coupling that are likely to occur when both grounds are close to each other. There are advantages.
[0041]
Moreover, the storage part of the winding part of the casing 2a is opened on both upper and lower sides.
And in this embodiment, the conductor tape 10 stuck on the one surface side of the extended flexible wiring board 26 is further arranged to close the opening on the lower side of the storage part of the winding part of the casing 2a. .
The conductor tape 10 is made of carbon tape or the like, has a protection function from the outside of the wound portion of the flexible wiring board 26, and is extended and long with the flexible wiring board 26 grounded in a high frequency manner. The flexible wiring board 26 formed by forming the winding portion has the same effect as the antenna, and prevents deterioration of the wireless function due to unnecessary radiation.
That is, even if the wound flexible wiring board 26 itself has the same effect as the antenna, unnecessary radiation of high-frequency noise from the signal line of the flexible wiring board 26 can be suppressed. As a result, high-frequency noise enters the radio system antenna, so that radio reception sensitivity can be deteriorated, and malfunction or destruction of the camera unit 22 or the logic system circuit can be prevented.
[0042]
Further, it is desirable that the conductor tape 10 is disposed so as to avoid a digital ground and to come into contact with a ground with less noise such as a frame ground which is a device ground. For example, a ground part (not shown) having a certain area is formed on, for example, one surface side of the connection part between the relay board part 7 and the flexible wiring boards 9a and 9b, and is connected so as to be in surface contact with the ground part.
Since the flexible wiring board 26 has a two-layer structure of a signal ground and a ground line, the conductor tape 10 is flexible to be disposed on at least the surface of the flexible wiring board 26 on which the signal ground is wired. This is effective in suppressing unnecessary radiation of high frequency noise from the signal line of the wiring board 26.
Further, in the present embodiment, the conductive tape 10 has the sub LCD 21b mounted in the area 221 of the logic system arrangement area 220 as a predetermined unit body, and the flexible wiring board 26 wired in the area 221 is used as the inner surface of the base body 200. It is preferable to arrange it so that a stable contact state and contact area can be obtained. Thereby, it becomes possible to suppress unnecessary radiation of high-frequency noise stably.
[0043]
Next, functions and operations of the mobile phone configured as described above will be described.
[0044]
First, the suspension portion 8a of the first conductor 8 is suspended at a predetermined position of the boundary portion 230 between the drive system placement region 210 and the logic system placement region 220 of the upper housing 2, and the tip of the first connector 8b. Is positioned at a predetermined position of the second accommodating portion 212 of the drive system arrangement area 210. At this time, the second connector 8c of the first conductor 8 can come into contact with the second conductor 2b set in the casing 2a accommodated in the first accommodating portion 211 later along the boundary 230. It has become.
In this state, the relay board part 7 is set in the second housing part 212 with the electrostatic ground 7a exposed from the relay board part 7 facing downward. As a result, the electrostatic ground 7a and the first connector 8b of the first conductor 8 are electrically connected.
Also, in the logic system arrangement region 220, a DSP board PRTB or the like having an electrostatic ground 240 formed in the periphery is set at a predetermined position.
Then, for example, the flexible wiring board 9b connected to the relay board part 7 is connected to a predetermined connector of the DSP board PRTB.
[0045]
Next, the casing 2 a in which the camera unit 22 and the vibrator motor 5 are accommodated is accommodated in the first accommodating portion 211 of the drive system arrangement area 210.
Thereby, the connection terminal of the motor 5a of the casing 2a is electrically connected to a terminal (not shown) of the relay board part 7.
Furthermore, since the relay board portion 7 receives a predetermined pressing force by the casing 2a, the electrical connection state between the electrostatic ground 7a and the first connector 8b of the first conductor 8 is stably maintained.
Further, the second connector 8c of the first conductor 8 comes into contact with the second conductor 2b set in the casing 2a, and the state is stably maintained.
Then, the elastic contact terminal 250 formed on the second conductor 2b is connected to the electrostatic ground 240 around the DSP board PRTB arranged in the logic system arrangement region 220, and this state is maintained.
As a result, the exposed electrostatic ground 7a of the relay board portion 7, the first connector 8b of the first conductor 8, the second connector 8c, the second conductor 2b, the contact terminal 250, and the DSP board PRTB The electrostatic ground 240 formed in the peripheral portion is connected, and the electrostatic ground line is formed by the first conductor 8 and the second conductor 2b made of sheet metal separately from the signal line.
The camera flexible wiring board 26 is connected to a predetermined connector of the DSP board PRTB.
Then, for example, the sub LCD 21 b mounted in the area 221 of the logic system arrangement area 220 is set as a predetermined unit body so as to sandwich the flexible wiring board 26 to which the area 221 is wired from the inner surface of the base body 200. At this time, the conductive tape 10 affixed to the flexible wiring board 26 is also held, and a stable contact state and contact area are maintained. The conductive tape 10 is held in a state connected to the frame ground.
As a result, the flexible wiring board 26 is grounded at a high frequency, and radiation of high-frequency noise by the flexible wiring board can be prevented, thereby preventing deterioration of radio communication sensitivity.
[0046]
When photographing a subject using a mobile phone having such a structure, the transparent plate 23f of the camera module 24 provided in the camera unit 22 is rotated so that the camera module 24 and the light emitting unit 25 face the subject. Then, shooting is performed by pressing the enter button 11c of the operation unit 11 provided in the lower housing 1.
In this case, a cylinder is inserted in the upper and lower portions of the second conductor 2b located on both sides in the longitudinal direction of the casing 2a for the purpose of absorbing and absorbing static electricity through the contact terminals 250 to the electrostatic ground 240. Since the plurality of claw pieces 251 are formed along the side surface of the rotating body 23 having a shape, static electricity to the camera unit 22 is statically transmitted through the claw pieces 251, the second conductor 2 b, and the contact terminals 250. The electric ground 240 is discharged, and the influence of static electricity on the camera unit 22 is effectively removed.
[0047]
Then, when photographing a subject using a mobile phone, the upper case 2 superimposed on the lower case 1 is opened by hand from the folded state when the mobile phone is not in use, and the display unit 21 is viewed. The operation unit 11 is operated to perform shooting settings. If necessary, the light emitting unit 25 is set to operate simultaneously with the shooting, and the camera unit 22 provided in the upper housing 2 is rotated to form the transparent plate 23f. The transparent plate 23g is pointed in the direction of the subject, and then the decision button 11c is pressed to take a picture.
[0048]
For example, referring to FIG. 11, when the camera unit 22 is rotated and the transparent plate 23f of the camera module 24 is directed toward the subject, for example, when the rotating body 23 is rotated clockwise as viewed from the right side, the rotating body 23 is rotated. The end of the extended portion 26c wound with a gap on the outer periphery of the small diameter portion 23b is pressed in the circumferential direction by the rotation of the small diameter portion 23b, so that the extended portion 26c narrows the gap. It moves and absorbs the force which acts on the extension part 26c when the rotary body 23 rotates inside the extension part 26c.
[0049]
Similarly, according to FIG. 11, when the camera unit 22 is rotated and the transparent plate 23f of the camera module 24 is directed toward the subject, for example, when the rotating body 23 is rotated counterclockwise when viewed from the right side, The end of the extending portion 26c wound with a gap around the outer periphery of the small diameter portion 23b of the rotating body 23 is attracted in the circumferential direction by the rotation of the small diameter portion 23b, and the extending portion 26c widens the gap. The force acting on the extending part 26c as the rotating body 23 rotates is absorbed inside the extending part 26c.
[0050]
In this case, the force acting on the extending portions 26a, 26b and 26c of the flexible wiring board 26 from the camera unit 22 is absorbed by the gap of the extending portion 26c of the flexible wiring board 26 being narrowed or widened. In order to avoid transmission, bending and twisting generated in the extending portions 26a, 26b and 26c of the flexible wiring board 26 are avoided, and damage or destruction of the extending portions 26a, 26b and 26c is prevented.
[0051]
Further, since the extending portion 26c of the flexible wiring board 26 is wound in the casing 2a, an extra space is eliminated when the flexible wiring board 26 is installed, and the camera unit 22 including the flexible wiring board 26 is removed. Is easily accommodated in the casing 2a.
[0052]
As described above, according to the present embodiment, static electricity is introduced into and absorbed by the upper and lower portions of the second conductor 2b located on both sides of the casing 2a in the longitudinal direction, and the static electricity is obtained via the contact terminals 250. Since the plurality of claw pieces 251 are formed along the side surface of the cylindrical rotating body 23 for the purpose of flowing to the electric ground 240, the effect of static electricity on the integrally mounted camera unit is effective. Can be removed.
Further, by forming a plurality of nail pieces for electrostatic absorption, it becomes easy to fix the position of the rotating body 23 with respect to the casing 2a, and the external force and impact on the rotating body 23 can be reduced. Moreover, it is not necessary to make the casing made of metal, and the material cost can be kept low.
Further, the claw piece 251a located in the vicinity of the light emitting unit 25 is formed wider than the other claw pieces in order to make it easier to jump in and absorb static electricity, so that the irradiation light of the light emitting unit 25 is emitted from the casing 2a. It is possible to avoid a large amount of leakage from the arrangement region and strong irradiation to the glass substrate of the LCD, and as a result, malfunction of the LCD can be prevented.
Moreover, it is easy to form each claw piece 251, 251 a along the side of the cylindrical rotating body 23. When the casing 2 a is accommodated in the first accommodation part 211, these claw pieces 251, Since 251a enters the recess 211a formed in the first housing portion 211 of the drive system arrangement region 210, there is an advantage that positioning itself is easy.
Further, in this case, the nail piece can be provided as far as the finger touches without exposing a metal piece such as a nail to the case as much as possible and maintaining the strength of the case. As a result, static electricity can be prevented from entering the translation camera unit 22 that has absorbed the static electricity of the finger that rotates the camera unit 22. As described above, since it is possible to effectively prevent static electricity from entering the camera unit 22, it is possible to obtain a sharper photographed image with very little noise.
[0053]
In addition to avoiding disconnection of signal lines due to bending and twisting of the flexible wiring board, and improving workability, it is possible to prevent radiation of high-frequency noise from the flexible wiring board and thus prevent deterioration of radio communication sensitivity. Can do.
[0054]
In addition to the signal ground, an electrostatic ground line is formed from the drive system through the first conductor 8 and the second conductor 2b made of sheet metal, so that the effect of static electricity on the device and the camera unit can be effectively reduced. Can be removed.
[0055]
In addition, since the vibrator motor 5 can be disposed near the hinge portion 3, the vibrator motor is disposed near the center of the casing, so that not only the vibration can be more uniformly transmitted to the entire casing. The logic system and the drive system can be separated, and the electrostatic ground can be separated. The design is easy, and it is resistant to noise and stable operation is possible.
[0056]
Further, bending and twisting occurring in the extended portions 26a, 26b and 26c of the flexible wiring board 26 are avoided, and damage or destruction of the extending portions 26a, 26b and 26c is prevented. Breakage or breakage due to bending and twisting can be avoided.
[0057]
Further, when the flexible wiring board 26 is installed, an extra space is eliminated, and the camera unit 22 including the flexible wiring board 26 is easily accommodated in the casing 2a. In addition, an electronic device such as a mobile phone equipped with the camera unit 22 having good attachment workability can be realized.
[0058]
In the above-described embodiment, the electronic device may be applied not only to a mobile phone but also to a mobile terminal device including a camera unit such as a PDA, a digital camera, and a laptop computer.
In the above embodiment, not only the light emitting unit but also a new function is added to the mobile terminal device such as a microphone for inputting sound or a small liquid crystal screen for the user to visually recognize the operation content of the mobile terminal device. A device that performs this may be built in.
[0059]
【The invention's effect】
According to the invention, the influence of static electricity on the camera unit mounted integrally can be effectively removed.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of a mobile phone as an electronic device according to the present invention, and is a perspective view of a mobile phone (mobile terminal device) to which the present invention is applied as viewed from the front side. is there.
FIG. 2 is a diagram showing an embodiment of a mobile phone as an electronic device according to the present invention, and is a perspective view of the open state of the mobile phone (mobile terminal device) to which the present invention is applied as viewed from the back side. is there.
FIG. 3 is a diagram showing an internal structure on the base body side of the upper housing.
FIG. 4 is a perspective view showing a mounting state of a camera unit provided in the mobile phone according to the present embodiment.
FIG. 5 is a diagram for explaining a connection form of a signal ground and an electrostatic ground according to the present embodiment.
FIG. 6 is a perspective view showing a configuration example of a drive system arrangement region according to the present embodiment.
FIG. 7 is a perspective view of a camera unit provided in the mobile phone according to the present embodiment.
FIG. 8 is a cross-sectional view taken along line AA in FIG.
FIG. 9 is a development view of a camera unit provided in the mobile phone according to the present embodiment.
FIG. 10 is a development view of a flexible wiring board provided in the mobile phone according to the present embodiment.
FIG. 11 is a perspective view of a camera unit provided in the mobile phone according to the present embodiment.
FIG. 12 is an enlarged perspective view of the flexible substrate provided in the mobile terminal device according to the embodiment of the present invention as seen from the side surface.
FIG. 13 is a cross-sectional view of a click mechanism provided in the mobile phone according to the present embodiment.
FIG. 14 is a perspective view of the casing and the relay board portion according to the present embodiment as viewed from the lower surface side.
[Explanation of symbols]
1 ... Lower housing
11 ... Operation part
2… Upper housing
2a ... casing
2b ... second conductor
21 ... Display section
22 ... Camera unit
23 ... Rotating body
24 ... Camera module
25. Light emitting part
26 ... Flexible wiring board
26a ... one extension
26b ... the other extension
26c ... Extension part
3 ... Hinge part
4a, 4b ... opening
5 ... Vibrator motor
6 ... Motor set part
7 ... Relay board
8 ... 1st conductor
10 ... Conductor tape
200: Base portion
210 ... Drive system arrangement area
220: Logic system arrangement area
230 ... Boundary part
240 ... Electrostatic ground
250 ... Contact terminal
251,251a ... nail pieces

Claims (6)

A housing,
A camera unit disposed in the housing,
The camera unit
Imaging means;
A casing in which at least one opening is formed and disposed at a predetermined position of the housing;
A rotating body that is housed in the imaging unit and that is rotatably supported by the casing so that an imaging unit for imaging an imaging target in the imaging unit can be positioned in the opening;
And an electric conductor provided so as to be positioned near the side surface of the rotating body in the opening. The electronic device according to claim 1, wherein the conductor includes a plurality of claw pieces. In the housing, a housing portion capable of housing the casing of the camera unit, and a ground line for the device are formed,
2. The electrical conductor is attached to the casing, and is formed so as to be electrically connectable to the apparatus ground line when the casing is accommodated in an accommodating portion of the casing. Or the electronic device of 2. The housing includes at least a base part in which the camera unit is accommodated, and a lid part that can be attached to the base part so as to cover the first surface on the accommodation side of the base part. At least one of the lid portions is formed with an opening facing the opening of the camera unit and capable of applying a rotational force to the rotating body including at least the imaging unit from the outside. The electronic device according to claim 1. In the rotating body, a light emitting unit is accommodated in parallel with the imaging unit of the imaging unit,
5. The electronic device according to claim 2, wherein the claw pieces of the conductor disposed in the vicinity of the light emitting portion are formed wider than the claw pieces at other positions. The rotating body is formed in a cylindrical shape,
The electronic device according to claim 1, wherein the conductor is formed so as to cover the rotating body except for a part facing the opening.

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