JP2004363942A - Mobile terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile terminal whose photographic range is not limited when a picture is taken not by surreptitious photography in a mobile terminal which makes surreptitious photography difficult. <P>SOLUTION: The mobile terminal 1 comprises an imaging unit 12 having an imaging optical system and an imaging element, an image storage unit 18 which stores an image obtained by the imaging unit 12, an input unit 10 which inputs a number, a random-number generation unit 14 which generates a random number, and a display unit 6 which displays the image or number, and carries out photography only when the number displayed on the display unit 6 is coincident with the number inputted by the input unit 10. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【００３０】

【００３１】
図６に示したのは、実施例２の撮像光学系の光路図である。本実施例の撮像光学系は、物体側から順に、負屈折力の第１レンズ３０と、正屈折力の第２レンズ３１と、明るさ絞り３２と、正屈折力の第３レンズ３３と、正屈折力の第４レンズ３４で構成されている。なお、３５はフィルター、３６はＣＭＯＳイメージセンサ（撮像素子）である。
第１レンズ３０は、物体側に凹面を向けたメニスカスレンズである。第２レンズ３１は、物体側に凹面を向けたメニスカスレンズレンズである。第３レンズ３３は、像側に凹面を向けたメニスカスレンズレンズである。第４レンズ３４は両凸レンズである。
非球面は、第１レンズ３０の像側面、第２レンズ３１の像側面、第４レンズ３４の像側面に設けられている。
本実施例の光学系は、全てのレンズがプラスチックで構成されている。ここで、第１レンズ３０，第３レンズ３３及び第４レンズ３４がポリオレフィン系のプラスチック、例えば、ゼオネックス（登録商標）であり、第２レンズ３１がスチレン系のプラスチック、例えば、エスチレン（登録商標）である。
また、光学系のスペックは、焦点距離１．５ｍｍ、Ｆナンバー３．０、全画角が６６°で広角の光学系である。光学系の全長は６．３ｍｍと非常に小さい値となっている。
【００３２】

【００３３】

【００３４】
小型・軽量な携帯端末では、撮像装置も小型であることが求められるため、全長の制限がある。したがって、撮像光学系は以下の条件式を満足することが好ましい。
（１−１） ０．５ ＜ ｆ ＜ １０．０
ただし、ｆ（ｍｍ）は撮像装置の撮像光学系の焦点距離である。
上記条件を満足すると、撮像光学系の全長を短くすることができる。上記条件式の上限を上回ると、撮像光学系の全長が大きくなる。従って、小型で軽量な携帯端末を提供することが困難となる。
他方、下限を下回ると、撮像光学系のパワーが大きくなる。そのため、収差が発生し、高性能な撮像装置を提供できなくなってしまう。
【００３５】
上記条件式の代わりに、次の条件式を満足すればより望ましい。
（１−２） １．０ ＜ ｆ ＜ ６．０
上記条件式の代わりに、次の条件式を満足すればより望ましい。
（１−３） １．２ ＜ ｆ ＜ ４．８
【００３６】
また、小型・軽量な携帯端末では、撮像素子を小さくすることで撮像装置を小型化できる。高画素で小型な撮像素子の場合、画素が非常に小さくなる。そのため、光学系を明るくして回折ボケを回避する必要がある。また、回折限界の影響がないとしても、光学系が暗いと光源を用意する必要がある。そのため、スペースや電力が必要となる。従って、撮像光学系において、以下の条件式を満足すると良い。
（２−１） １．０ ＜ Ｆｎｏ ＜ ５．０
ただし、Ｆｎｏは撮像光学系のＦナンバーである。
上記条件式の上限を上回ると、撮像光学系が暗くなりすぎる。その結果、回折ボケにより良好な像が得られなくなってしまう。もしくは、携帯端末に光源が必要となり、装置が大型化し、かつ電力の消費量が大きくなる。その結果、携帯端末としては望ましくない構成となってしまう。
他方、下限を下回ると、撮像光学系のＦｎｏが小さくなりすぎる。従って、性能を確保するためには、レンズ枚数が増加するため、全長が大きくなってしまう。また、焦点深度が浅くなるため、光学系と撮像素子の高い組み立て精度が必要となる。よって、小型で軽量・低コストな携帯端末を提供できなくなる。
【００３７】
上記条件式の代わりに、次の条件式を満足すればより望ましい。
（２−２） １．５ ＜ Ｆｎｏ ＜ ４．２
上記条件式の代わりに、次の条件式を満足すればより望ましい。
（２−３） ２．０ ＜ Ｆｎｏ ＜ ３．４
【００３８】
各実施例の撮像光学系は、以下に示すように条件を満足している。

上述した各実施例の撮像光学系を用いることにより、乱数発生回路１４を内蔵させても小型かつ軽量である携帯電話機１を製造することが可能となる。
【００３９】
なお、本実施形態において、乱数発生装置１４により乱数を２つ発生させたが、１つであっても良い。また、撮影手段はディスプレイ６を設けた面に対し反対側の面に設けられていることが望ましい。また、シャッターボタンはディスプレイ６と同一面に設けられていることが望ましい。
【００４０】
なお、文字や画像を表示する手段として単にディスプレイ６と称したが、例えば、カラー液晶表示装置（例えば、２５６色反射型ＳＴＮカラー液晶表示装置）、ＤＭＤ（デジタル・ミラー・デバイス）や有機ＥＬ表示装置、ＰＤＰ（プラズマ・ディスプレイ・パネル）などから構成されていても良い。
【００４１】
また、撮影装置を単に内蔵カメラ１２と称したが、例えばＣＣＤやＣ−ＭＯＳ人工網膜ＩＣ（例えば、三菱電機製Ｍ６４２７０ＡＧ：レンズ付き人工網膜ＬＳＩ）により構成される。また携帯電話機など厚みの薄いところへレンズを配置する場合、レンズ全長より焦点距離を長くとれるように、レンズ構成はテレフォトタイプが望ましい。
また、撮影の実行方法としてキー操作入力を適応したが、これに限定されるものではない。例えば、音声入力により、撮影を実行するようにしてもよい。
【００４２】
また、上記実施形態では、報知ユニットとしてサウンダ１１を用いたが、これに限定されるものではない。発光部材、例えばＬＥＤ３を、報知ユニットとして兼用してもよい。この発光部材を用いて、第１の報知情報や第２の報知情報を発信することができる。また、携帯電話機１に、発光部材として、新たにＬＥＤ等を設けるようにしてもよい。また、発光部材として、フラッシュ光を用いることもできる。このフラッシュ光を被写体に向けて発光することで、被写体となった人に、撮影が行われようとしたことを知らせることができる。
また、携帯電話機１には、着信を報知するためのバイブレーター機能（振動部材）が備えられている。この場合は、それを報知ユニットとして兼用してもよい。この振動部材を用いて、第１の報知情報や第２の報知情報を発信することができる。また、携帯電話機に、報知ユニットとして、新たに振動発生部材を設けるようにしてもよい。
【００４３】
なお、これら音発生部材、発光部材及び振動発生部材による報知は、用途に応じて複合させて構成してもよい。そして、このような構成によっても、本実施例のような報知ユニットを音発生部材で構成した場合と同様の効果が得られる。
【００４４】
なお、本発明は、上記実施例に限定されるものではなく、次のような変形、拡張が可能である。本発明の実施例では、携帯電話機本体２を折り畳み式で構成したものに適用したが、これに限定されるものではなく、例えば、矩筒形の一胴体や矩筒形の２つの胴体をスライド式にした携帯電話機に適応してもよい。また、携帯端末を静止画像が撮像可能なデジタルカメラ機能付きの携帯電話機１に適用したが、これに限定されるものではなく、動画像が撮像可能なものに適用してもよい。なお、携帯端末をデジタルカメラ機能付きの携帯電話機に適用したが、これに限定されるものではなく、例えば、簡易型携帯電話機やＰＤＡ（ｐｅｒｓｏｎａｌ ｄｉｇｉｔａｌ ａｓｓｉｓｔａｎｔ）全般に適用することが可能である。なお、撮像素子をＣＭＯＳイメージセンサに適用したが、これに限定されるものではなく、例えば、ＣＣＤ（ｃｈａｒｇｅ ｃｏｕｐｌｅｄ ｄｅｖｉｃｅ）カメラに適用してもよい。
【００４５】
なお、本発明の携帯端末では、撮像素子上に形成された像の画像を表示する表示素子が備えられている。これにより、撮影ユニットにより得られた画像が、表示素子にリアルタイムで表示される。よって、盗撮を目的としない場合は、撮影者が表示素子で被写体を確認しながら撮影を行うことができる。その結果、撮影がより簡単に行える。
【００４６】
また、本発明の携帯端末では、表示素子を設けた面とは反対側の面に、撮影ユニットが設けられている。これにより、表示素子をファインダとして使用することが可能となる。すなわち、盗撮を目的としない場合は、表示素子によって、撮影者は被写体を確認しながら撮影を行うことができる。そのため、撮影がより簡便に行える。
【００４７】
また、本発明の携帯端末では、撮影ボタンが、表示素子と同一面に設けられている。これにより、撮影ボタンが撮影者側に位置しているため、撮影するときに手ぶれが生じなくなる。
【００４８】
【発明の効果】
以上説明したように、本発明に係る携帯端末によれば、撮影毎に、撮影を実行できるキーが変化する。すなわち、ディスプレイに表示された数値を入力できた場合のみに、撮影が可能となる。このため、表示手段を確認せずに連続した撮影は、困難となる。よって、悪意の使用者による撮影、例えば盗撮等の反社会的行為を防止することができる。
【図面の簡単な説明】
【図１】本発明の一実施形態に係る携帯端末の（ａ）正面図及び（ｂ）背面図の斜視図である。
【図２】本発明の一実施形態に係る携帯端末の構成を示すブロック図である。
【図３】本発明の一実施形態に係る撮影の実行及び禁止までの処理の流れを示すフローチャート図である。
【図４】本発明の一実施形態に係る撮影の実行及び禁止までの別の処理の流れを示すフローチャート図である。
【図５】本発明の一実施形態に係る携帯端末に用いられる光学系の、第１実施例の光路図である。
【図６】本発明の一実施形態に係る携帯端末に用いられる光学系の、第２実施例の光路図である。
【符号の説明】
１ 携帯電話機（携帯端末）
６ ディスプレイ（表示ユニット）
１２ 内臓レンズ（撮影ユニット）
１０ 数字キー（入力ユニット）
１１ サウンダ（報知ユニット）
１４ 乱数発生回路（乱数発生ユニット）
１８ メモリ（画像記憶ユニット）[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile terminal having a camera function.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, with the spread of mobile terminals such as mobile phones, mobile mobile phones, and information communication terminals (PDAs), those provided with a digital camera function (hereinafter simply referred to as a camera function) have been supplied. Have been. For example, a mobile phone with a camera function can easily obtain a still image or a moving image (hereinafter simply referred to as an image) of a subject simply by pointing the camera at a shooting target and pressing a shutter button.
Then, the obtained image is recorded and stored in a memory as, for example, image data. Also, the image can be attached to an e-mail and transmitted, or displayed as a standby screen or an incoming call screen. If it is no longer needed, the image data can be easily deleted from the memory.
Such a mobile phone with a camera function has an advantage that by transmitting image data to the other party, it is possible for the other party to easily understand contents that are difficult to convey using only characters. In addition, by receiving the image data, it is possible to quickly grasp the current situation while being far away.
[0003]
However, as it becomes easier to photograph a subject, it becomes possible to take a picture from a lower position, for example, by taking advantage of its convenience. For this reason, it is anticipated that malicious users appearing in antisocial acts such as performing voyeurism. In this case, the stolen image data can be easily erased, so that there is a problem that it does not remain as evidence of malicious intent.
Occurs.
[0004]
In order to solve this problem, a portable terminal provided with a means for preventing voyeur has been proposed (for example, see Patent Document 1). The portable terminal disclosed in Patent Document 1 is configured to prohibit photographing when the portable terminal body is tilted at an unnatural angle.
[0005]
[Patent Document 1]
JP-A-2002-290818
[Problems to be solved by the invention]
However, even in the case where the purpose of the voyeur shooting is not intended, the shooting is prohibited if it is within the shooting prohibited angle range. As a result, there is a problem that the photographing range is significantly limited.
[0007]
The present invention has been made in view of the above-described circumstances, and has as its object to provide a portable terminal in which voyeur shooting is difficult. It is another object of the present invention to provide a portable terminal that does not limit the photographing range when photographing is not intended for voyeur photography. It is another object of the present invention to provide a small-sized mobile terminal with good operability.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 includes an imaging unit having an imaging optical system and an imaging element, an image storage unit for storing an image obtained by the imaging unit, and an input for inputting numbers. A unit, a random number generating unit for generating a random number, and a display unit for displaying the image or the number, only when the number displayed on the display unit matches the number input by the input unit, Provide a mobile terminal on which shooting is performed.
[0009]
According to the present invention, when capturing an image of a subject, a random numerical value generated by the random number generation unit is displayed on the display unit. Then, the photographer inputs the same number as the displayed numerical value using the input unit. Here, if the input number is different from the displayed number, no photographing is performed. That is, the photographer can take a picture only when the input number matches (or is the same as) the displayed number. Therefore, at this time, the number generated by the random number generation unit changes for each photographing. Therefore, continuous shooting becomes difficult, and voyeur shooting can be prevented.
[0010]
According to a second aspect of the present invention, in the portable terminal according to the first aspect, the mobile terminal further includes a notification unit having at least one of first notification information and second notification information, wherein the first notification information is the photographing information. The portable terminal is information that notifies that the photographing cannot be performed, and the second notification information is information that reports that the photographing can be performed.
According to a third aspect of the present invention, there is provided the mobile terminal according to the second aspect, wherein the notification unit includes a sound generating member that generates a predetermined sound.
According to a fourth aspect of the present invention, there is provided the mobile terminal according to the second aspect, wherein the notification unit includes a sound generating member that generates a predetermined light.
According to a fifth aspect of the present invention, there is provided the mobile terminal according to the second aspect, wherein the notification unit includes a vibration generating member that generates a predetermined vibration.
According to these inventions, when the notification unit has the first notification information, it is possible to prevent the voyeur using the notification information. Further, it is possible to notify the photographer that the photographing cannot be performed (imaging prohibited state).
In addition, when the notification unit has the second notification information, the second notification information can notify the photographer that the photographing can be performed (capturable state).
[0011]
The invention according to claim 6 provides a portable terminal in which the predetermined sound is different between the first notification information and the second notification information.
The invention according to claim 7 provides a portable terminal in which the predetermined light is different between the first notification information and the second notification information.
The invention according to claim 8 provides a portable terminal in which the predetermined vibration differs between the first notification information and the second notification information.
According to these inventions, it is possible to distinguish whether the first notification information has been notified or the second notification information has been notified.
[0012]
The invention according to claim 10 proposes a mobile terminal that satisfies the following expression when the focal length of the imaging optical system is f (mm).
0.5 <f <10.0
ADVANTAGE OF THE INVENTION According to this invention, generation | occurrence | production of the aberration of an imaging optical system can be suppressed and a high-performance imaging unit can be provided. Further, the overall length of the imaging unit can be reduced, and a small imaging unit and a portable terminal can be provided.
[0013]
The invention according to claim 11 proposes a mobile terminal that satisfies the following expression when an F number of the imaging optical system is F _no .
1.0 <F _no <5.0
According to the present invention, an appropriate light spot diameter can be obtained even if the imaging device is downsized, so that diffraction blur can be prevented. Further, since the imaging optical system does not become extremely dark, there is no need for a new light source. Therefore, an increase in the size of the mobile terminal and an increase in power consumption can be suppressed.
In addition, since the number of lenses does not increase for ensuring performance, it is possible to prevent the imaging optical system from becoming large. Further, since the depth of focus does not become shallow, there is no need for high assembly accuracy in assembling the imaging optical system. As a result, it is possible to provide a small, light-weight, low-cost photographing unit and a portable terminal.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a mobile terminal according to a first embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, a mobile phone with a camera function (mobile terminal) 1 according to the present embodiment includes, on the front of a mobile phone main body 2, an LED 3 for notifying an incoming call or a charging state, and a speaker 4 for outputting a received voice. , A microphone 5 for inputting a transmission voice, a liquid crystal display (display unit) 6 for displaying characters and images, a call start key 7, a call end key 8, a scroll key 9, and a number key (numeric input). Means 10). Here, the numeric key 10 functions as a shutter button during shooting.
A sounder 11 (notification unit) for outputting a ringtone or a warning sound and a built-in camera 12 for photographing a subject are provided on the back of the mobile phone main body 2. Further, an antenna 13 is arranged on the upper part of the mobile phone main body 2, and a random number generation circuit (random number generation unit) 14 for generating random numbers is provided inside.
The built-in camera 12 is a photographing unit, and includes an imaging optical system for photographing a subject and an imaging device. This imaging optical system will be described later.
[0015]
FIG. 2 is a block diagram illustrating a configuration of the mobile terminal 1. In this figure, a control circuit 15 includes a random number generation circuit 14, a display 6, an operation key unit 16, an LED 3, a sounder 11, a sound processing unit 17, and a memory for storing a captured image (image storage). Unit) 18 is connected. Therefore, the control circuit 15 can control each unit. Further, the control circuit 15 includes a storage restriction unit 19.
The operation key section 16 includes a call start key 7, a call end key 8, a scroll key 9, and a numeric key 10. Further, the audio processing unit 17 includes the microphone 5 and the speaker 4.
[0016]
The random number generation circuit 14 generates two one-digit random numbers (numbers) from 0 to 9. The two numbers are displayed on the display 6 by the control circuit 15 for each photographing.
The storage restriction unit 19 compares the number displayed on the display 6 with the number input from the number keys 10. The input by the numeric keys 10 is achieved by pressing the numeric keys 10. If the displayed number is the same as the input number, the photographing is executed.
[0017]
The operation of the mobile phone 1 configured as described above will be described. FIG. 3 is a flowchart showing the flow of processing up to the execution and prohibition of shooting. First, a photographing mode in which photographing is possible is set by the photographer (step S1). In the shooting mode, the subject captured by the built-in camera 12 is displayed on the display 6 as an image. Here, the photographer points the built-in camera 12 at a subject to be photographed. Then, a subject to be photographed is confirmed on the image displayed on the display 6.
At this time, a random number is generated by the random number generation circuit 14 (step S2). Thereby, a combination is determined by two random numerical values. The combination of these two numerical values determines the numeric key 10 that will be the shutter button. Then, these two numbers are displayed on the display 6 (step S3). Here, the control circuit 15 starts measuring time (step S4). Then, the control circuit 15 detects whether or not the numeric key 10 has been pressed within a predetermined time after the start of time measurement (step S5). If the numeric key 10 is not pressed within a predetermined time, shooting is not performed. In this case, the process returns to the process of determining a random combination of numerical values.
On the other hand, when the numeric key 10 is pressed within a predetermined time, the storage of the image displayed on the display 6 is stored in the memory 18 (step S6). The numerical information of the pressed numeric key 10 is transmitted to the control circuit 15. The control circuit 15 determines whether the displayed number and the pressed number are the same in the storage restriction unit 19 (step S7). Here, if the displayed number and the pressed number are the same, the control circuit 15 permits photographing. In this case, the image data stored in the memory 18 is stored. Thus, the photographing has been executed. Thereafter, the state returns to a state where photographing is possible.
[0018]
If the displayed number and the pressed number are not the same, the control circuit 15 prohibits the photographing. In this case, for example, the image data stored in the memory 18 is deleted (discarded) (step S9). Thus, the photographing has not been performed. Thereafter, the state returns to a state where photographing is possible.
Further, by performing a predetermined operation, the photographing mode can be canceled and the photographing can be terminated (step S8).
[0019]
As described above, in the mobile phone 1 according to the present embodiment, the numeric key 10 serving as the shutter button changes for each shooting. Therefore, the photographer must check the numbers displayed on the display 6 every time the photographing is performed. Then, unless the numeric key 10 corresponding to the displayed numerical value is pressed, photographing is not executed. That is, continuous photographing without looking at the display 6 is prohibited. This leads to prevention of voyeurism by continuous shooting.
If the photographing is performed continuously, the display 6 must be seen without fail, and the operation is conspicuous from the surroundings, and the voyeur cannot be performed. In addition, it is possible to prohibit a quick and instantaneous shooting such as a voyeur action without noticing the surroundings.
[0020]
In this embodiment, by using the display 7 as a finder, it is possible to shoot while confirming the subject. Further, since the numeric keys 10 are provided on the same surface as the display 7, the photographing becomes easier.
Further, when the processing of step S8 or the processing of step S9 is completed, it is preferable to notify that the processing has been completed.
[0021]
Next, a mobile terminal according to a second embodiment of the present invention will be described with reference to the drawings. In the following description, the same components as those in the first embodiment will be denoted by the same reference numerals, and description thereof will be omitted.
FIG. 4 is a flowchart showing another processing flow up to the execution and prohibition of shooting. In the first embodiment, when the press of the numeric key 10 is detected, the image data is stored. However, the image data need not be stored as in the present embodiment.
First, similarly to the first embodiment, the shooting mode is set (step S1), and the built-in camera 12 is pointed at the subject. In this state, an image obtained by the built-in camera 12 is displayed on the display 6. Then, a subject to be photographed is confirmed on the image displayed on the display 6. Also in the present embodiment, the photographing starts by pressing the numeric key 10.
[0022]
Also in the present embodiment, a random number is generated by the random number generation circuit 14 (step S2). As a result, a combination is determined for three random numerical values. The combination of these three numerical values determines the numeric key 10 that will be the shutter button. Then, these three numbers are displayed on the display 6 (step S3). Here, the control circuit 15 starts measuring time (step S4). Then, the control circuit 15 detects whether or not the numeric key 10 has been pressed within a predetermined time after the start of time measurement (step S5). If the numeric key 10 is not pressed within a predetermined time, shooting is not performed. In this case, the process returns to the process of determining a random combination of numerical values.
On the other hand, when the numeric key 10 is pressed within a predetermined time, the numerical information of the pressed numeric key 10 is transmitted to the control circuit 15. The control circuit 15 determines whether the displayed number and the pressed number are the same in the storage restriction unit 19 (step S6). Here, when the displayed number is the same as the pressed number, the control circuit 15 executes photographing. In this case, the image data (image data obtained by the built-in camera 12) displayed on the display 6 is stored (step S7). Thus, the photographing has been executed. Thereafter, the state returns to a state where photographing is possible.
If the displayed number and the pressed number are not the same, the processing unit 13 does not execute photographing. In this case, the image data displayed on the display 6 is not stored. Thus, the photographing has not been performed. Further, a warning sound is generated (step S9). Thereafter, the state returns to a state where photographing is possible.
Further, by performing a predetermined operation, the photographing mode can be canceled and the photographing can be terminated (step S8).
[0023]
According to the above configuration, the same effect as in the first embodiment can be obtained. In the present embodiment, a warning sound is emitted from the sounder 10 when the photographing is not performed (step S9). Therefore, the photographer can easily recognize that the photographing has not been performed. In addition, since the warning sound can be heard by the surrounding people, there is also an effect of notifying the surrounding people. When the photographing is performed (step S7), a sound different from the warning sound may be generated. Then, the photographer can recognize that the photographing has been performed.
[0024]
Further, by using the display 7 as a finder, it is possible to shoot while confirming the subject. At this time, since the shutter key 4 is provided on the same surface as the display 7, the photographing becomes easier.
[0025]
As described above, it is preferable that at least one of the two pieces of notification information be notified by the sounder 11. One is information (first notification information) that notifies that shooting cannot be performed. Another type is information (second notification information) that notifies that shooting can be performed or that shooting has been completed.
When the first notification information is output from the sounder 11 as sound, as described above, it is possible to make surrounding people aware that shooting is about to be performed or that shooting has been performed. Therefore, it is easier to prevent voyeurism. In addition, when the second notification information is output from the sounder 11 as sound, the photographer can recognize that photographing can be performed. Therefore, the photographer can take a picture with good timing. Alternatively, the photographer can recognize that the photographing has been completed. Therefore, the photographer can move on to the next photographing.
In addition, it is preferable to adopt such a configuration also in other embodiments.
[0026]
When two or more pieces of notification information are output, it is preferable that the volume, range, sounding time, and the like be different for each piece of notification information. As described above, light or vibration may be used instead of sound. In this case, it is preferable that the intensity and frequency of light and vibration, the light emission time and the vibration time, and the like be different for each notification information.
[0027]
Next, specific numerical examples of the imaging optical system used in the mobile terminal according to the present embodiment will be described below.
In the numerical data table described later, r indicates the radius of curvature, and d indicates the surface interval. Further, n _d is the refractive index, [nu _d represents the Abbe number is a value at both the d-line. Each of the optical path diagrams shown in FIGS. 5 and 6 shows the correspondence between r _i and d _{i in} the numerical data table.
The aspheric surface is a rotationally symmetric aspheric surface given by the following definition expression.
^{Z = (y 2 / R)} / [1+ {1- (1 + k) y 2 / R 2} 1/2] + ay 4 + by 6 + cy 8 + dy 10 + ···
Here, Z is an optical axis (on-axis principal ray) where the traveling direction of light is positive, and y is a direction perpendicular to the optical axis. Here, R is a paraxial radius of curvature, k is a conic constant, and a, b, c, d,... Are fourth-order, sixth-order, eighth-order, and tenth-order aspherical coefficients, respectively. The Z axis of this definition expression is the axis of the rotationally symmetric aspherical surface. Note that a term relating to an aspheric surface for which no data is described is zero.
[0028]
FIG. 5 is an optical path diagram of the imaging optical system according to the first embodiment. The imaging optical system of this embodiment includes, in order from the object side, a first lens 20 having a positive refractive power, a brightness stop 21, a second lens 22 having a negative refractive power, and a third lens 23 having a positive refractive power. It is configured. 24 is a CMOS image sensor (imaging element).
The first lens 20 is a lens having a convex surface facing the object side. The second lens 22 is a meniscus lens having a convex surface facing the object side.
The aspheric surfaces are provided on both surfaces of the first lens 20, both surfaces of the second lens 22, and both surfaces of the third lens 23.
The optical system of the present embodiment has a triplet optical power arrangement. In this optical system, the first lens 20 is made of glass, and the second lens 22 and the third lens 23 are made of plastic. The plastics used are polycarbonate and polyolefin-based plastics, for example, ZEONEX (registered trademark), respectively.
The specifications of the optical system are a wide-angle optical system with a focal length of 4.5 mm, an F-number of 2.4, and a total angle of view of 67 °. The overall length of this optical system is a very small value of 6.2 mm.
[0029]

[0030]

[0031]
FIG. 6 is an optical path diagram of the imaging optical system according to the second embodiment. The imaging optical system of the present embodiment includes, in order from the object side, a first lens 30 having a negative refractive power, a second lens 31 having a positive refractive power, a brightness stop 32, and a third lens 33 having a positive refractive power. The fourth lens 34 has a positive refractive power. In addition, 35 is a filter, and 36 is a CMOS image sensor (imaging element).
The first lens 30 is a meniscus lens having a concave surface facing the object side. The second lens 31 is a meniscus lens lens having a concave surface facing the object side. The third lens 33 is a meniscus lens lens having a concave surface facing the image side. The fourth lens 34 is a biconvex lens.
The aspheric surfaces are provided on the image side surface of the first lens 30, the image side surface of the second lens 31, and the image side surface of the fourth lens.
In the optical system of the present embodiment, all lenses are made of plastic. Here, the first lens 30, the third lens 33, and the fourth lens 34 are a polyolefin-based plastic, for example, Zeonex (registered trademark), and the second lens 31 is a styrene-based plastic, for example, styrene (registered trademark). It is.
The specifications of the optical system are a wide-angle optical system with a focal length of 1.5 mm, an F number of 3.0, and a total angle of view of 66 °. The total length of the optical system is a very small value of 6.3 mm.
[0032]

[0033]

[0034]
In a small and lightweight portable terminal, the imaging device is also required to be small, so there is a limit on the total length. Therefore, it is preferable that the imaging optical system satisfies the following conditional expression.
(1-1) 0.5 <f <10.0
Here, f (mm) is the focal length of the imaging optical system of the imaging device.
When the above conditions are satisfied, the overall length of the imaging optical system can be shortened. When the value exceeds the upper limit of the conditional expression, the overall length of the imaging optical system increases. Therefore, it is difficult to provide a small and lightweight portable terminal.
On the other hand, below the lower limit, the power of the imaging optical system increases. For this reason, aberration occurs, and a high-performance imaging device cannot be provided.
[0035]
It is more desirable that the following conditional expression be satisfied instead of the above conditional expression.
(1-2) 1.0 <f <6.0
It is more desirable that the following conditional expression be satisfied instead of the above conditional expression.
(1-3) 1.2 <f <4.8
[0036]
In a small and lightweight portable terminal, the size of the imaging device can be reduced by reducing the size of the imaging device. In the case of a high-pixel and small-sized image sensor, the pixel becomes very small. Therefore, it is necessary to brighten the optical system to avoid diffraction blur. Even if there is no influence of the diffraction limit, it is necessary to prepare a light source when the optical system is dark. Therefore, space and power are required. Therefore, it is preferable that the following conditional expression be satisfied in the imaging optical system.
(2-1) 1.0 <Fno <5.0
Here, Fno is the F number of the imaging optical system.
When the value exceeds the upper limit of the above conditional expression, the imaging optical system becomes too dark. As a result, a favorable image cannot be obtained due to diffraction blur. Alternatively, a light source is required for the mobile terminal, which increases the size of the device and increases power consumption. As a result, the configuration is not desirable for a portable terminal.
On the other hand, below the lower limit, the Fno of the imaging optical system becomes too small. Therefore, in order to ensure performance, the number of lenses increases, and the overall length increases. Further, since the depth of focus becomes shallow, a high assembly accuracy of the optical system and the image sensor is required. Therefore, a small, lightweight, low-cost mobile terminal cannot be provided.
[0037]
It is more desirable that the following conditional expression be satisfied instead of the above conditional expression.
(2-2) 1.5 <Fno <4.2
It is more desirable that the following conditional expression be satisfied instead of the above conditional expression.
(2-3) 2.0 <Fno <3.4
[0038]
The imaging optical system of each embodiment satisfies the conditions as described below.

By using the imaging optical system of each of the above-described embodiments, it is possible to manufacture the small and lightweight mobile phone 1 even when the random number generation circuit 14 is incorporated.
[0039]
In the present embodiment, two random numbers are generated by the random number generation device 14, but may be one. Further, it is desirable that the photographing means is provided on a surface opposite to the surface on which the display 6 is provided. It is desirable that the shutter button be provided on the same surface as the display 6.
[0040]
Although the display 6 is simply referred to as a means for displaying characters and images, for example, a color liquid crystal display device (for example, a 256-color reflective STN color liquid crystal display device), a DMD (digital mirror device), or an organic EL display It may be composed of a device, a PDP (plasma display panel) and the like.
[0041]
Further, the photographing apparatus is simply called the built-in camera 12, but is constituted by, for example, a CCD or a C-MOS artificial retinal IC (for example, Mitsubishi Electric M64270AG: artificial retinal LSI with lens). When a lens is placed in a thin place such as a mobile phone, a telephoto type lens is desirable for the lens configuration so that the focal length can be longer than the entire length of the lens.
In addition, the key operation input is applied as a method of executing the photographing, but the present invention is not limited to this. For example, the photographing may be executed by voice input.
[0042]
In the above embodiment, the sounder 11 is used as the notification unit. However, the present invention is not limited to this. The light emitting member, for example, the LED 3 may also be used as the notification unit. Using this light emitting member, the first notification information and the second notification information can be transmitted. Further, the mobile phone 1 may be provided with a new LED or the like as a light emitting member. Further, flash light can be used as the light emitting member. By emitting the flash light toward the subject, it is possible to notify the person who has become the subject that the photographing is about to be performed.
Further, the mobile phone 1 is provided with a vibrator function (vibrating member) for notifying an incoming call. In this case, it may be used also as the notification unit. The first notification information and the second notification information can be transmitted using this vibration member. Further, the mobile phone may be provided with a new vibration generating member as a notification unit.
[0043]
The notification by the sound generating member, the light emitting member, and the vibration generating member may be combined and configured according to the application. And even with such a configuration, the same effect as when the notification unit as in the present embodiment is configured by the sound generating member can be obtained.
[0044]
Note that the present invention is not limited to the above embodiment, and the following modifications and extensions are possible. In the embodiment of the present invention, the mobile phone main body 2 is applied to a foldable type. However, the present invention is not limited thereto. The present invention may be applied to a portable telephone set. Further, the mobile terminal is applied to the mobile phone 1 with a digital camera function capable of capturing a still image, but is not limited to this, and may be applied to a mobile phone capable of capturing a moving image. The mobile terminal is applied to a mobile phone with a digital camera function. However, the present invention is not limited to this. For example, the mobile terminal can be applied to a simple mobile phone or a PDA (personal digital assistant). Although the image sensor is applied to a CMOS image sensor, the present invention is not limited to this. For example, the image sensor may be applied to a charge coupled device (CCD) camera.
[0045]
Note that the mobile terminal of the present invention includes a display element for displaying an image of an image formed on the image sensor. Thereby, the image obtained by the photographing unit is displayed on the display element in real time. Therefore, when a voyeur is not intended, the photographer can perform photographing while checking the subject with the display element. As a result, shooting can be performed more easily.
[0046]
Further, in the portable terminal of the present invention, the imaging unit is provided on the surface opposite to the surface on which the display element is provided. This makes it possible to use the display element as a finder. That is, when the purpose of voyeur shooting is not intended, the display device allows the photographer to shoot while checking the subject. Therefore, shooting can be performed more easily.
[0047]
In the mobile terminal of the present invention, the shooting button is provided on the same surface as the display element. Accordingly, since the photographing button is located on the photographer side, camera shake does not occur when photographing.
[0048]
【The invention's effect】
As described above, according to the mobile terminal of the present invention, the key that can execute shooting changes for each shooting. That is, shooting is possible only when the numerical value displayed on the display can be input. For this reason, continuous photographing without checking the display means becomes difficult. Accordingly, it is possible to prevent anti-social actions such as shooting by a malicious user, for example, voyeur shooting.
[Brief description of the drawings]
FIG. 1 is a perspective view of (a) a front view and (b) a rear view of a portable terminal according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a mobile terminal according to an embodiment of the present invention.
FIG. 3 is a flowchart illustrating a flow of processing until execution and prohibition of photographing according to an embodiment of the present invention.
FIG. 4 is a flowchart showing another processing flow up to execution and prohibition of photographing according to an embodiment of the present invention.
FIG. 5 is an optical path diagram of a first example of an optical system used in a portable terminal according to an embodiment of the present invention.
FIG. 6 is an optical path diagram of a second example of the optical system used in the portable terminal according to one embodiment of the present invention.
[Explanation of symbols]
1 mobile phone (mobile terminal)
6. Display (display unit)
12. Built-in lens (shooting unit)
10 Numeric keys (input unit)
11 sounder (notification unit)
14. Random number generation circuit (random number generation unit)
18 memory (image storage unit)

Claims (10)

An imaging unit having an imaging optical system and an imaging element, an image storage unit that stores an image obtained by the imaging unit, an input unit that inputs numbers, a random number generation unit that generates a random number, and the image or the image. A portable terminal, comprising: a display unit for displaying a number, wherein photographing is executed only when the number displayed on the display unit matches the number input by the input unit. A notification unit for notifying at least one of the first notification information and the second notification information, wherein the first notification information is information notifying that the photographing cannot be performed, and the second notification information is provided. The portable terminal according to claim 1, wherein the information is information indicating that the photographing can be executed. The mobile terminal according to claim 2, wherein the notification unit includes a sound generating member that generates a predetermined sound. The mobile terminal according to claim 2, wherein the notification unit includes a light generating member that generates a predetermined light. The mobile terminal according to claim 2, wherein the notification unit includes a vibration generating member that generates a predetermined vibration. The mobile terminal according to claim 3, wherein the predetermined sound is different between the first notification information and the second notification information. The mobile terminal according to claim 4, wherein the predetermined light is different between the first notification information and the second notification information. The mobile terminal according to claim 5, wherein the predetermined vibration is different between the first notification information and the second notification information. The mobile terminal according to any one of claims 1 to 8, wherein the following formula (1) is satisfied when a focal length of the imaging optical system is f (mm).
0.5 <f <10.0 The mobile terminal according to claim 1, wherein the following formula (2) is satisfied when an F number of the imaging optical system is F _no : 10.
1.0 <F _no <5.0

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