JP2004309573A - Switch changeover method of camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a switch changeover method to use one switch both for the detection of the opening/closing of a back cover and the detection of the operation of a rewinding operation part. <P>SOLUTION: In "branching processing", state data expressing the action state of the camera, which is stored in the RAM of a microcomputer, are referred to when the back cover of the camera is closed (S1=off) after it is opened (S1=on). When the state data expressing the acting state of the camera shows "a state in the midst of feeding film by one frame" expressing a state where one frame of the photographic film is continuously fed or "a state in the midst of preliminary winding" expressing a state just after a film cartridge is loaded and preliminary winding processing is performed, it is judged as a situation that the rewinding operation part is operated, then "rewinding processing" is performed. When the state data show "an initial state" set after "rewinding processing", it is judged as a situation that the new film cartridge is loaded, and "preliminary winding processing" is performed. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【００３２】
【表２】

【００３３】
マイクロコンピュータ５４が行なうカメラ２の制御には、裏蓋スイッチ４３がオン又はオフされた際に、裏蓋操作部１７と巻戻し操作部１８との何れが操作されたのかを判定し、その判定結果に応じてフイルム給送機構５５を動作させる制御も含まれている。以下、裏蓋スイッチ４３がオン／オフされた際のマイクロコンピュータ５４の制御方法について説明する。
【００３４】
カメラ２には電源スイッチが設けられていない。そのため、不私用時のカメラ２は、図８のフローチャートに示す「スタンバイ処理」によって、省電力なスタンバイモードにセットされる。このスタンバイモードにおいて、シャッタボタン１３や裏蓋操作部１７，巻戻し操作部１８が操作されると、スタンバイモードが解除されて「分岐処理」が実行される。
【００３５】
図９のフローチャートに示す「分岐処理」では、「スタンバイ処理」，「レリーズ処理」，「予備巻き処理」，「リワインド処理」の何れの処理をカメラ２に実行させるかが判定される。「レリーズ処理」は、シャッタレリーズと１コマ給送処理とを実行する。「予備巻き処理」は、装填直後のフイルムパトローネから写真フイルムを引き出して巻取軸に係止する。「予備巻き処理」には、全ての写真フイルムをフイルム室２２内に巻き上げる「プレワインド処理」と、最初の撮影コマを撮影位置にセットする「初期コマセット処理」とが含まれる。「リワインド処理」は、写真フイルムを全てパトローネ内に巻き戻す。
【００３６】
「分岐処理」では、オフのストロボ充電禁止信号がストロボ回路５８に入力されてストロボ充電が許可される。次いで、裏蓋スイッチ４３がオフ（裏蓋：閉じ状態、又は巻戻し操作部：不操作状態）で、かつレリーズスイッチ４６がオフ（シャッタボタン：不操作状態）であることが確認される。両条件が満たされた場合、「スタンバイ処理」が実行され、カメラ２は省電力なスタンバイモードに復帰する。
【００３７】
また、上記とは異なり、レリーズスイッチ４６がオン（シャッタボタン：操作状態）である時には、「レリーズ処理」が実行される。同様に、裏蓋スイッチ４３がオン（裏蓋：開放状態、又は巻戻し操作部：操作状態）から、オフ（裏蓋：閉じ状態、又は巻戻し操作部：不操作状態）に移行した場合には、開放されていた裏蓋６が閉じられた場合、若しくは巻戻し操作部１８が押圧操作された場合のいずれかとなる。この時には、マイクロコンピュータ５４のＣＰＵ５４ａがＲＡＭ５４ｃに記憶されている状態データを参照して、カメラ２の現在の動作状態が確認される。
【００３８】
ＲＡＭ５４ｃに記憶されている状態データが「初期状態」であるときは、フイルムパトローネが未装填、又はフイルムパトローネ装填済みでリワインドが完了していることを表している。そのため、マイクロコンピュータ５４は、裏蓋６が開放されて新たなフイルムパトローネが装填され、その後に裏蓋６が閉じられたものと判定し、「予備巻き処理」を実行する。また、ＲＡＭ５４ｃの状態データが「予備巻き中」又は「コマ送り中」である場合には、巻戻し操作部１８が操作されたものと判定し、「リワインド処理」を実行する。このように、マイクロコンピュータ５４の簡易な判定処理によって、裏蓋操作部１７と巻戻し操作部１８との何れが操作されたかを判定することができるので、一つの裏蓋スイッチ４３だけで裏蓋操作部１７と巻戻し操作部１８との操作を検出することができる。
【００３９】
図１０に示すように、「予備巻き処理」では、マイクロコンピュータ５４からストロボ回路５８にオンのストロボ充電禁止信号が入力され、ストロボ充電が禁止される。これは、予備巻き処理とストロボ充電とが同時に行なわれて電力不足が生じるのを防止するためである。次いで、モータドライバ５７に正転信号ＭＤ１が入力され、モータ５６が正転を開始する。モータ５６の正転により、フイルム室２２内の巻取軸は写真フイルムを巻き取る方向に回転し、外周に写真フイルムの先端を係止する。
【００４０】
モータ５６の正転開始後、マイクロコンピュータ５４はＳＰＦカウンタ５４ｄにカウント値「４」をセットし、タイマー５４ｅをスタートさせる。カメラ２に新しいフイルムパトローネが装填されている場合には、写真フイルムの巻き上げに連動してスプロケットが従動回転し、給送検出スイッチ５２がオン／オフを繰り返す。ＳＰＦカウンタ５４ｄは、給送検出スイッチ５２のＳＰＦ信号がオンからオフに切り換わる時にカウント値を「１」減算する。また、タイマー５４ｅは、ＳＰＦ信号オン／オフを繰り返す毎にリセットされる。ＳＰＦカウンタ５４ｄのカウント値が「０」になった場合、すなわち４コマ分の長さの写真フイルムが巻取軸に巻き取られると、パトローネ内の写真フイルムが全てフイルム室２２に巻き上げられる「プレワインド処理」が実行される。
【００４１】
また、上記説明とは異なり、モータ５６の正転開始後に給送検出スイッチ５２のＳＰＦ信号が変化せず、この変化しない時間がタイマー５４ｅの設定時間をオーバーした場合には、マイクロコンピュータ５４はフイルムパトローネが装填されなかったものと判定して、モータドライバ５７にブレーキ信号ＭＤ３を入力してモータ５６の回転を停止し、「分岐処理」を実行する。
【００４２】
なお、ＳＰＦ信号の変化を待っている期間に、裏蓋操作部１７若しくは巻戻し操作部１８が操作された場合にも、マイクロコンピュータ５４はフイルムパトローネが装填されていないものと判定して、モータ５６の回転を停止させ、「分岐処理」を実行する。また、ＳＰＦ信号の変化を待っている期間に、シャッタボタン１３が操作された場合には、図１１に示す処理Ａ〜Ｂが実行される。この処理では、シャッタボタン１３の操作が解除されるまでモータ５６の回転を停止させ、シャッタボタン１３の操作解除後にモータ５６を再度正転させてタイマー５４ｅをリセットし、ＳＰＦ信号の変化を待つ。
【００４３】
図１２に示すように、「プレワインド処理」では、ＲＡＭ５４ｃに「予備巻き中」の状態データが記憶される。その後、「予備巻き処理」と同様にタイマー５４ｅがセットされ、ＳＰＦ信号の変化が確認される。写真フイルムがフイルム室２２に巻き上げられている間は、ＳＰＦ信号は常に変化するため、その都度タイマー５４ｅはリセットされる。ＳＰＦ信号の不変化時間がタイマー５４ｅの設定時間をオーバーした場合には、マイクロコンピュータ５４は写真フイルムが全てフイルム室２２内に巻き上げられたものと判定し、モータ５６の回転を停止させて「初期コマセット処理」を実行する。
【００４４】
また、この「プレワインド処理」においても、ＳＰＦ信号の変化の待機中に裏蓋スイッチ４３がオンした場合には、モータ５６の停止後「分岐処理」が実行される。同様に、ＳＰＦ信号の変化の待機中にレリーズスイッチ４６がオンした場合には、図１１の処理Ａ〜Ｂが実行され、シャッタボタン１３の操作が解除されるまでモータ５６の回転を停止させ、シャッタボタン１３の操作解除後にタイマー５４ｅをリセットして、再度ＳＰＦ信号の変化を待つ。
【００４５】
「初期コマセット処理」では、写真フイルムを２コマ分程度パトローネ内に巻き戻して停止させ、最初に撮影が行なわれるコマとしてセットする。
【００４６】
図１３は、「リワインド処理」のフローチャートである。この「リワインド処理」では、マイクロコンピュータ５４は、ストロボ回路５８によるストロボ充電を禁止し、モータドライバ５７に逆転信号ＭＤ２を入力してモータ５６を逆転させ、タイマー５４ｅをスタートさせる。モータ５６の逆転開始後、マイクロコンピュータ５４はＳＰＦ信号の変化を確認し、ＳＰＦ信号が変化しなくなってからタイマー５４ｅの設定時間の経過後に、モータ５６を短時間（例えば、１５０ｍｓｅｃ）だけ正転させる。これは、新たなフイルムパトローネの装填時に実行される「予備巻き処理」に備え、フイルム給送機構のギヤのバックラッシュを解消するためである。その後、モータ５６の回転が停止され、「分岐処理」が実行される。
【００４７】
この「リワインド処理」においても、ＳＰＦ信号の変化の待機中に裏蓋スイッチ４３がオンした場合には、モータ５６の停止後「分岐処理」が実行される。同様に、ＳＰＦ信号の変化の待機中にレリーズスイッチ４６がオンした場合には、シャッタボタン１３の操作が解除されるまでモータ５６の回転を停止させ、シャッタボタン１３の操作解除後にタイマー５４ｅをリセットして、再度ＳＰＦ信号の変化を待つ。
【００４８】
なお、上記実施形態では、１３５タイプのフイルムパトローネを使用するカメラを例に説明したが、ＡＰＳタイプのフイルムカートリッジを使用するカメラにも適用することができる。また、フイルムパトローネの装填直後に写真フイルムを全てフイルム室内に巻き取り、１コマの撮影毎にパトローネ内に巻き戻していく予備巻き方式のカメラを例に説明したが、１コマの撮影毎にパトローネから写真フイルムがフイルム室内に巻き上げられていく順巻き式のカメラにも、本発明を適用することができる。
【００４９】
【発明の効果】
以上説明したように、本発明のカメラのスイッチ切換え方法は、簡単な制御によって、一つのスイッチを蓋部材の開閉検出と巻戻し操作部の操作検出とに兼用させることができるので、部品点数と、組立工数と、組込みスペースと削減することができ、カメラのローコスト化と小型化とに寄与することができる。
【図面の簡単な説明】
【図１】本発明を実施したカメラの外観形状を示す斜視図である。
【図２】前カバーを取り外したカメラの外観形状を示す斜視図である。
【図３】本体基部及び裏蓋及び操作部材の外観形状を示す斜視図である。
【図４】裏蓋操作部及び巻戻し操作部が不操作時の操作部材及び裏蓋スイッチの状態を示す説明図である。
【図５】裏蓋操作部が解除位置にある際の操作部材及び裏蓋スイッチの状態を示す説明図である。
【図６】巻戻し操作部が押圧操作されている際の操作部材及び裏蓋スイッチの状態を示す説明図である。
【図７】カメラの構成を示すブロック図である。
【図８】カメラのスタンバイ処理のフローチャートである。
【図９】カメラの分岐処理のフローチャートである。
【図１０】カメラの予備巻き処理のフローチャートである。
【図１１】予備巻き処理及びプレワインド処理にて実行される処理Ａ〜Ｂのフローチャートである。
【図１２】カメラのプレワインド処理のフローチャートである。
【図１３】カメラのリワインド処理のフローチャートである。
【符号の説明】
２ カメラ
６ 裏蓋
１３ シャッタボタン
１７ 裏蓋操作部
１８ 巻戻し操作部
２７ 操作部材
３９ カム部
４２ プリント基板
４３ 裏蓋スイッチ
４６ レリーズスイッチ
５１ シャッタチャージスイッチ
５２ 給送検出スイッチ
５４ マイクロコンピュータ
５５ フイルム給送機構
５６ モータ
５７ モータドライバ[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a camera, and more particularly, to a switch switching method for detecting opening / closing of a lid member and operation of a rewind operation unit using one switch.
[0002]
[Prior art]
When the patrone is loaded with a film patrone, the leading edge of the photographic film is locked to the take-up shaft of the film chamber, and the initial frame setting process, in which the first frame to be shot is set at the shooting position, is linked to the shooting operation. A camera equipped with a film feeding mechanism that performs a frame feed process of automatically winding a photo film for one frame and a rewind process of rewinding the photo film into the patrone after photographing of all frames is completed. Are known.
[0003]
The camera includes a switch for detecting a state of a back cover for opening and closing the patrone chamber and the film chamber, and a switch for detecting a feeding state of the photographic film. When the back cover shifts from the open state to the closed state, it is determined that a new film cartridge has been loaded, and the film feeding mechanism performs an initial frame setting process. If the feeding of the photographic film is not detected within a certain time during the initial frame setting process, it is determined that the back cover is opened and closed without the loading of the film patrone, or that the detection of the feeding has failed, and The initial frame setting process of the transport mechanism is stopped.
[0004]
Further, during the use of the camera, it may be necessary to use different types of photographic films, or it may be necessary to hurry the print creation. In such a case, a camera provided with a rewinding operation unit for forcibly performing a rewind process on a film feeding mechanism in order to remove a film cartridge in use from the camera is also known. The operation state of the rewind operation unit is detected by a switch.
[0005]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 08-190119 [Patent Document 2]
JP-A-11-184000
[Problems to be solved by the invention]
In recent cameras, various mechanisms have been simplified and the number of parts has been reduced in order to reduce the size and cost. In particular, when a plurality of components having the same function and purpose are provided, the components are shared and shared to reduce the number of components (for example, see Patent Documents 1 and 2). ). In a camera provided with the above-described film feeding mechanism, it has been sought to use a switch for detecting opening / closing of the back cover and a switch for detecting operation of the rewinding operation unit. Therefore, it has been desired to develop a method for easily and inexpensively determining whether the back cover is opened and closed or whether the rewind operation unit is operated when the switch reacts.
[0007]
An object of the present invention is to solve the above-mentioned problem, and an object of the present invention is to provide a switch switching method for detecting opening / closing of a back cover and detecting operation with a rewind operation unit using a single switch.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, a camera switch switching method according to the present invention includes a step of detecting that a switch state has been switched, and a step of referring to a storage unit to confirm a processing state of a film feeding mechanism. If the contents stored in the storage means are not the initial frame setting process or the frame feeding process, it is determined that the film cartridge is loaded in the patrone chamber, and the film feeding mechanism performs the initial frame setting process. And determining that the rewind operation unit has been operated when the content stored in the storage means is the initial frame setting process or the frame forwarding process, and causing the film feeding mechanism to perform a rewind process. It is made to be executed by means. According to this, it is possible to switch the switch very easily and at low cost. Further, since the number of switches can be reduced, the cost, the number of assembling steps, and the installation space of the camera can be reduced.
[0009]
Further, as the content stored in the storage means, the presence or absence of a film cartridge in the cartridge room may be stored. In this case, when the state of the switch is switched when there is no film cartridge, it is determined that the film cartridge is loaded, and the initial frame setting process is performed. Similarly, when the state of the switch is changed while the film cartridge is present, it is determined that the film cartridge has been taken out, and a rewind process is performed.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a perspective view showing an external shape of a camera embodying the present invention. The camera 2 is roughly divided into a main body base 3 (see FIG. 3), a front cover 4 covering a part of the front and upper surfaces of the main body base 3, and a rear cover covering a part of the back and upper parts of the main body base 3. 5 and a back cover 6, a shutter mechanism and a film feeding mechanism incorporated in the main body base 3, and the like. The camera 2 uses a 135-type film cartridge.
[0011]
As the shutter mechanism, a simple shutter mechanism is used in which a shutter charge is performed by one frame feed of a photographic film after photographing, and a shutter blade is opened and closed using a spring force accumulated by the shutter charge when the shutter is released. The film feeding mechanism includes a motor, a plurality of gears, and a winding shaft for winding the photographic film. The film feeding mechanism includes a pre-winding process (including an initial frame setting process) in which the leading end of the photographic film is locked on a winding shaft and the entire film is wound, and a frame to be photographed first is set at a shooting position. And rewind processing for rewinding all of the photographic film. When the film cartridge is loaded in the film feeding mechanism of the camera 2, all the photographic films are pulled out from the patrone and wound around the winding shaft, and the photograph film is rewound into the patrone one frame at a time for each photographing. A prewinding method is used.
[0012]
On the front and upper surfaces of the camera 2, a well-known photographing lens 8, an object-side finder window 9, a strobe light emitting unit 10, a strobe operation unit 11, a lens barrier operation unit 12, a shutter button 13, a remaining number of shots display window 14, and a strobe charge. A display window 15 and the like are provided. This camera 2 does not have a power switch. Therefore, when the camera 2 is not used, the camera 2 is set to the standby mode which is a power saving mode, and when the back cover operation unit 17, the rewind operation unit 18, and the shutter button 13 are operated, the mode is shifted from the standby mode to the shooting mode. .
[0013]
On one side of the camera 2, there are provided a back cover operation unit 17 that is operated when the back cover 6 is opened, and a rewind operation unit 18 that causes the film feeding mechanism to execute a rewind process. The back cover operation unit 17 is accommodated in a slit 4a formed by the front cover 4 and the back cover 6, and is slid between a lock position located below the slit 4a and a release position located above the slit 4a. , Will be retained. The rewind operation section 18 is housed in an opening 4 b formed in the front cover 4, and is pressed so as to be pushed into the camera 2.
[0014]
FIG. 2 is a perspective view showing a state where the front cover 4 is removed from the camera 2, and FIG. 3 is a perspective view showing an appearance of the main body base 3 and the back cover 6. The main body base 3 has a substantially cylindrical patrone chamber 21 in which a film patrone is loaded, a film chamber 22 in which a photographic film drawn out of the film patrone is wound up, and a light shielding tube 24 having a photographing opening 23 formed in the front. Are formed integrally. The patrone chamber 21 and the film chamber 22 are opened on the back side for loading and unloading the film patrone.
[0015]
The back cover 6 has a rectangular plate shape, and is rotatably attached to the back of the main body base 3 using a shaft attachment portion 6a provided on one short side. On the other short side 6b of the back cover 6, an engaging claw 6c used for locking the back cover 6 and a pressing protrusion 6d used when the back cover 6 is opened are integrally provided.
[0016]
An operation member 27 integrally formed with a back cover operation unit 17 and a rewind operation unit 18 is attached to the side surface of the patrone chamber 21 of the main body base 3 so as to be slidable in the vertical direction. The operation member 27 has a substantially L-shape, and long holes 28 are formed at upper and lower positions on a long side portion, respectively. Guide projections 29 integrally formed on the side surfaces of the patrone chamber 21 are inserted into the long holes 28, respectively, and guide the operation member 27 in the vertical direction. Spring hook claws 31, 32 on which the ends of the tension springs 30 are hooked, respectively, are integrally formed on the upper side surface of the operation member 27 and the side surface of the cartridge chamber 21. The extension spring 30 pulls the operation member 27 downward, and urges the back cover operation unit 17 to the lower locked position.
[0017]
On the back surface of the operation member 27 facing the side surface of the patrone chamber 21, an engagement groove (not shown) for engaging with the engagement claw 6c of the back cover 6 is formed. The engagement between the engagement groove and the engagement claw 6c is performed when the operation member 27 is slid downward, that is, when the back cover operation unit 17 is at the lower lock position. Is released when the is slid to the upper release position.
[0018]
At the lower end of the operation member 27, an elastic holding claw 35 is formed integrally. As shown in FIG. 4, the holding claw 35 comes into contact with the inclined surface of the substantially triangular locking protrusion 36 formed on the side surface of the patrone chamber 21 when the back cover operating portion 17 is at the lock position. I have. As shown in FIG. 5, when the back cover operating section 17 is moved to the upper release position, the holding claw 35 is elastically deformed along the inclination of the locking projection 36, and rides over and engages with the locking projection 36. I do. Thereby, the back cover operation unit 17 is held at the release position against the bias of the tension spring 30.
[0019]
When the back cover operation unit 17 is moved to the release position, the holding claw 35 presses the protrusion 6 d of the back cover 6 by its elasticity. As a result, the back cover 6 in which the engagement between the engagement claw 6c and the engagement groove is released by the upward movement of the operation member 27 is opened. When the back cover 6 in the open state is closed, the projection 6d of the back cover 6 presses the holding claw 35 of the operation member 27 to elastically deform the engagement, and releases the engagement with the locking projection 36. As a result, the operation member 27 slides downward by the urging force of the tension spring 30, and engages the engagement groove on the back surface with the engagement claw 6c to lock the back cover 6.
[0020]
The rewinding operation section 18 has a substantially cylindrical shape, and its tip is inclined in accordance with the exterior surface of the camera 2 having a curved shape. The rewinding operation part 18 is formed integrally with a bent part 38 formed to be elastic with respect to the operation member 27. The bent portion 38 is integrally formed with a cam portion 39 disposed along the outer peripheral surface of the patrone chamber 21 and near the front surface of the patrone chamber 21. In this way, by integrally forming the back cover operation unit 17, the rewind operation unit 18, and the cam unit 39, the number of parts and the number of assembly steps are reduced, so that cost can be reduced. In addition, since the installation space is reduced, it is possible to contribute to downsizing of the camera.
[0021]
A back cover switch 43 for detecting a sliding operation of the back cover operation unit 17 and a pressing operation of the rewinding operation unit 18 is mounted on a front surface of a printed circuit board 42 mounted on a front surface of the main body base 3. The back cover switch 43 is a leaf-type switch in which a pair of metal contact pieces 43a and 43b are held by a holder 43c having an insulating property such as plastic, and is turned off when both metal contact pieces 43a and 43b are separated. Turns on when they come into contact with each other.
[0022]
As shown in FIG. 4, the tip of the metal contact piece 43 a of the back cover switch 43 is disposed above the cam portion 39 of the operation member 27. A plastic pad 43d is attached to the tip of the metal contact piece 43a to make smooth contact with the cam portion 39. When the back cover operation unit 17 is in the lock position, that is, when the back cover 6 is closed, and when the rewind operation unit 18 is not pressed, the metal contact piece 43a does not contact the cam unit 39. The back cover switch 43 is kept off.
[0023]
On the other hand, as shown in FIG. 5, when the back cover operation part 17 is slid to the release position and the back cover 6 is opened, the pad 43d is pressed by the cam part 39, and the metal contact piece 43a is elastically deformed. To contact the other metal contact piece 43b. Also, as shown in FIG. 6, when the rewinding operation section 18 is pressed, the cam section 39 presses the pad 43d due to the elastic deformation of the bending section 38, thereby elastically deforming the metal contact piece 43a, thereby causing the other side to elastically deform. To the metal contact piece 43b. In these cases, the back cover switch 43 is turned on. As a result, the operations of the back cover operation unit 17 and the rewinding operation unit 18 can be detected by one back cover switch 43, so that the number of parts and the number of assembly steps are reduced, and the cost can be reduced. In addition, since the installation space is reduced, it is possible to contribute to downsizing of the camera.
[0024]
On the front surface of the printed circuit board 42, in addition to the back cover switch 43, a release switch 46 for detecting a pressing operation of the shutter button 13, a strobe switch 47 for detecting a sliding operation of the strobe operation unit 11, and a shutter release interlocking. A synchro switch 48 for operating a strobe circuit and causing the strobe light emitting section 10 to emit light is attached. The release switch 46 is turned on when the shutter button 13 is pressed, and turned off when the shutter button 13 is released.
[0025]
As shown in the block diagram of FIG. 7, the printed circuit board 42 has a shutter charge switch 51 for detecting the state of the shutter mechanism (whether or not it is in a charged state) and a feed detection for detecting the state of feeding the photographic film. The switch 52 is connected using a lead wire or the like. The shutter charge switch 51 turns off when the shutter mechanism is in a charged state, and turns on when the shutter mechanism is in a non-charged state. The feed detection switch 52 detects one rotation of the sprocket that rotates following the perforation of the photographic film and repeats on / off in conjunction with the rotation of the sprocket. The sprocket makes one rotation following the feeding of one frame of the photographic film, and therefore, by detecting one rotation of the sprocket, the feeding of one frame of the photographic film can be detected.
[0026]
Further, a microcomputer 54 for controlling the operation of the entire camera 2 is attached to the back surface of the printed circuit board 42. The back cover switch 43, the release switch 46, the shutter charge switch 51, and the feed detection switch 52 input signals SB, S1, SHC, and SPF to the microcomputer 54. The printed circuit board 42 includes a motor driver 57 for driving a motor 56 serving as a power source of the film feeding mechanism 55, and a strobe circuit 58 including a strobe discharge tube in the strobe light emitting unit 10, a strobe switch 47, and a synchro switch 48. Are formed. Power is supplied to the microcomputer 54 from a battery 59.
[0027]
The microcomputer 54, which is a determination unit, includes a CPU 54a, a ROM 54b in which an operation program of the CPU 54a is stored, and a RAM 54c, which is a storage unit that appropriately stores state data indicating an operation state of the camera 2. In addition, the microcomputer 54 incorporates an SPF counter 54d for counting the SPF signal of the feed detection switch 52 and a timer 54e. The microcomputer 54 used in this embodiment is, for example, a very inexpensive microcomputer having a 4-bit CPU and a ROM and a RAM of several bytes to several kilobytes, and does not affect the cost of the camera 2.
[0028]
The state data stored in the RAM 54c is of three types: "initial state", "preliminary winding", and "frame advance". The “initial state” indicates a state in which the film patrone has not been loaded or the film patrone has been loaded and the rewind processing has been completed. “Preliminary winding” indicates that the film cartridge has been loaded and the preliminary winding process is being performed. "Frame feeding" indicates that the film cartridge has been loaded and the one-frame feeding process is being executed. The CPU 54a confirms the current operation state of the camera 2 by appropriately rewriting and referring to the state data in the RAM 54c according to the operation state of the camera 2, and uses it to determine a process to be executed next.
[0029]
The microcomputer 54 inputs the motor drive signals MD1 to MD3 to the motor driver 57. MD1 is a forward rotation signal for rotating the motor 56 forward, and MD2 is a reverse rotation signal for rotating the motor 56 backward. MD3 is a brake signal for stopping the rotation of the motor 56.
[0030]
A strobe charge prohibition signal (FINH signal) for prohibiting or permitting strobe charging is input from the microcomputer 54 to the strobe circuit 58. This strobe charge prohibition signal prohibits charging when it is at the H level (on) and permits charging when it is at the L level (off). The contents of each signal and the contents of the status data are described in Tables 1 and 2 below.
[0031]
[Table 1]

[0032]
[Table 2]

[0033]
The microcomputer 54 controls the camera 2 by determining which of the back cover operating unit 17 and the rewinding operation unit 18 has been operated when the back cover switch 43 is turned on or off. Control for operating the film feeding mechanism 55 according to the result is also included. Hereinafter, a control method of the microcomputer 54 when the back cover switch 43 is turned on / off will be described.
[0034]
The camera 2 is not provided with a power switch. Therefore, the camera 2 at the time of non-use is set to the power saving standby mode by the “standby process” shown in the flowchart of FIG. In this standby mode, when the shutter button 13, the back cover operation unit 17, and the rewind operation unit 18 are operated, the standby mode is released and the "branching process" is executed.
[0035]
In the “branch processing” shown in the flowchart of FIG. 9, it is determined which of the “standby processing”, “release processing”, “preliminary winding processing”, and “rewind processing” is to be executed by the camera 2. The “release process” executes a shutter release and a one-frame feeding process. In the "preliminary winding process", the photographic film is pulled out from the film patrone immediately after loading, and locked on the winding shaft. The "preliminary winding process" includes a "prewind process" in which all the photo films are wound into the film chamber 22, and an "initial frame setting process" in which the first shot frame is set at the shooting position. "Rewind processing" rewinds all the photographic films into the patrone.
[0036]
In the "branch processing", an off-state strobe charge prohibition signal is input to the strobe circuit 58, and strobe charging is permitted. Next, it is confirmed that the back cover switch 43 is off (back cover: closed state, or the rewind operation unit: no operation state) and the release switch 46 is off (shutter button: no operation state). When both conditions are satisfied, the “standby process” is executed, and the camera 2 returns to the power saving standby mode.
[0037]
Also, unlike the above, when the release switch 46 is on (shutter button: operating state), a “release process” is executed. Similarly, when the back cover switch 43 changes from ON (back cover: open state or rewind operation unit: operation state) to OFF (back cover: closed state, or rewind operation unit: non-operation state). Is either when the opened back cover 6 is closed or when the rewind operation unit 18 is pressed. At this time, the CPU 54a of the microcomputer 54 checks the current operation state of the camera 2 with reference to the state data stored in the RAM 54c.
[0038]
When the status data stored in the RAM 54c is "initial status", it indicates that the film cartridge has not been loaded or the film cartridge has been loaded and rewinding has been completed. Therefore, the microcomputer 54 determines that the back cover 6 has been opened, a new film cartridge has been loaded, and then the back cover 6 has been closed, and executes the “preliminary winding process”. If the status data in the RAM 54c is "preliminary winding" or "frame advance", it is determined that the rewinding operation unit 18 has been operated, and "rewind processing" is executed. As described above, it is possible to determine which of the back cover operating unit 17 and the rewinding operation unit 18 has been operated by the simple determination processing of the microcomputer 54, so that the back cover switch 43 can be used with only one back cover switch 43. The operation of the operation unit 17 and the rewind operation unit 18 can be detected.
[0039]
As shown in FIG. 10, in the "preliminary winding process", an on-state strobe charge prohibition signal is input from the microcomputer 54 to the strobe circuit 58, and strobe charging is prohibited. This is to prevent a shortage of power due to the simultaneous pre-winding process and flash charging. Next, the normal rotation signal MD1 is input to the motor driver 57, and the motor 56 starts normal rotation. By the forward rotation of the motor 56, the take-up shaft in the film chamber 22 rotates in the direction in which the photo film is taken up, and the leading end of the photo film is locked on the outer periphery.
[0040]
After the start of normal rotation of the motor 56, the microcomputer 54 sets the count value "4" in the SPF counter 54d, and starts the timer 54e. When a new film cartridge is loaded in the camera 2, the sprocket is rotated in conjunction with the winding of the photographic film, and the feed detection switch 52 repeats on / off. The SPF counter 54d decrements the count value by "1" when the SPF signal of the feed detection switch 52 switches from on to off. The timer 54e is reset each time the SPF signal is turned on / off. When the count value of the SPF counter 54d becomes "0", that is, when the photo film having a length of four frames is wound on the winding shaft, all the photo films in the cartridge are wound up in the film chamber 22. Process ”is executed.
[0041]
Also, unlike the above description, if the SPF signal of the feed detection switch 52 does not change after the normal rotation of the motor 56 starts, and the time during which this change does not exceed the set time of the timer 54e, the microcomputer 54 starts It is determined that the cartridge has not been loaded, the brake signal MD3 is input to the motor driver 57, the rotation of the motor 56 is stopped, and the "branching process" is executed.
[0042]
When the back cover operation unit 17 or the rewind operation unit 18 is operated while waiting for a change in the SPF signal, the microcomputer 54 determines that the film cartridge is not loaded, and The rotation of 56 is stopped, and "branch processing" is executed. In addition, when the shutter button 13 is operated while waiting for a change in the SPF signal, the processes A and B shown in FIG. 11 are executed. In this process, the rotation of the motor 56 is stopped until the operation of the shutter button 13 is released, and after the operation of the shutter button 13 is released, the motor 56 is rotated forward again to reset the timer 54e and wait for a change in the SPF signal.
[0043]
As shown in FIG. 12, in the "pre-wind process", the state data of "preliminary winding" is stored in the RAM 54c. Thereafter, the timer 54e is set in the same manner as in the "preliminary winding process", and a change in the SPF signal is confirmed. While the photo film is being wound up in the film chamber 22, the SPF signal is constantly changing, so that the timer 54e is reset each time. When the invariable time of the SPF signal exceeds the set time of the timer 54e, the microcomputer 54 determines that all the photographic films have been wound into the film room 22, stops the rotation of the motor 56, and returns to the "initial state". Frame set processing. "
[0044]
Also in this “pre-winding process”, if the back cover switch 43 is turned on while waiting for the change of the SPF signal, the “branching process” is executed after the motor 56 stops. Similarly, when the release switch 46 is turned on while waiting for a change in the SPF signal, the processes A to B in FIG. 11 are executed, and the rotation of the motor 56 is stopped until the operation of the shutter button 13 is released. After the release of the operation of the shutter button 13, the timer 54e is reset, and a change in the SPF signal is waited again.
[0045]
In the "initial frame setting process", the photographic film is rewound into the patrone for about two frames and stopped, and set as a frame to be photographed first.
[0046]
FIG. 13 is a flowchart of the “rewind processing”. In this "rewind process", the microcomputer 54 inhibits the flash charging by the flash circuit 58, inputs the reverse rotation signal MD2 to the motor driver 57, reverses the motor 56, and starts the timer 54e. After the start of the reverse rotation of the motor 56, the microcomputer 54 confirms the change of the SPF signal, and after the elapse of the set time of the timer 54e after the SPF signal stops changing, the microcomputer 54 rotates the motor 56 forward for a short time (for example, 150 msec). . This is to eliminate the backlash of the gear of the film feeding mechanism in preparation for the "preliminary winding process" executed when a new film cartridge is loaded. Thereafter, the rotation of the motor 56 is stopped, and the “branching process” is executed.
[0047]
Also in this “rewind process”, if the back cover switch 43 is turned on while waiting for a change in the SPF signal, the “branch process” is executed after the motor 56 stops. Similarly, when the release switch 46 is turned on while waiting for a change in the SPF signal, the rotation of the motor 56 is stopped until the operation of the shutter button 13 is released, and the timer 54e is reset after the operation of the shutter button 13 is released. Then, it waits for a change in the SPF signal again.
[0048]
In the above embodiment, a camera using a 135 type film cartridge has been described as an example, but the present invention can also be applied to a camera using an APS type film cartridge. In addition, the pre-winding type camera in which the photographic film is completely wound into the film chamber immediately after the film patrone is loaded and is rewound into the patrone every time one frame is shot has been described as an example. The present invention can also be applied to a forward-wound camera in which a photographic film is wound up into a film chamber.
[0049]
【The invention's effect】
As described above, according to the camera switch switching method of the present invention, one switch can be used for both open / close detection of the lid member and operation detection of the rewinding operation unit with a simple control. In addition, the number of assembling steps and the installation space can be reduced, which can contribute to lower cost and downsizing of the camera.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an external shape of a camera embodying the present invention.
FIG. 2 is a perspective view showing an external shape of the camera with a front cover removed.
FIG. 3 is a perspective view showing an external shape of a main body base, a back cover, and an operation member.
FIG. 4 is an explanatory diagram showing states of an operation member and a back cover switch when the back cover operation unit and the rewind operation unit are not operated;
FIG. 5 is an explanatory diagram illustrating states of an operation member and a back cover switch when the back cover operation unit is at a release position.
FIG. 6 is an explanatory diagram illustrating states of an operation member and a back cover switch when a rewind operation unit is pressed.
FIG. 7 is a block diagram illustrating a configuration of a camera.
FIG. 8 is a flowchart of a standby process of the camera.
FIG. 9 is a flowchart of a camera branching process.
FIG. 10 is a flowchart of a preliminary winding process of the camera.
FIG. 11 is a flowchart of processes A and B executed in a preliminary winding process and a prewind process.
FIG. 12 is a flowchart of a prewind process of the camera.
FIG. 13 is a flowchart of a rewind process of the camera.
[Explanation of symbols]
2 Camera 6 Back cover 13 Shutter button 17 Back cover operation unit 18 Rewind operation unit 27 Operation member 39 Cam unit 42 Printed circuit board 43 Back cover switch 46 Release switch 51 Shutter charge switch 52 Feed detection switch 54 Microcomputer 55 Film feed Mechanism 56 Motor 57 Motor driver

Claims (2)

A cover member for opening and closing the patrone chamber and the film chamber, and a photo film taken out of the film patrone loaded in the patrone chamber, wound around a winding shaft of the film chamber, and initially setting a frame to be photographed at a photographing position. A film feeding mechanism for performing a frame setting process, a frame feeding process for feeding one frame of photo film for each photographing, and a rewinding process for rewinding all the photo films in the film chamber into the cartridge, and a film feeding mechanism. Camera having a rewind operation unit forcibly performing rewind processing on the camera,
One switch for detecting the opening and closing of the lid member and the operation of the rewinding operation unit, and when the switch is turned on or off, which of the opening and closing of the lid member or the operation of the rewinding operation unit is performed. Determining means for determining, and storage means for storing the processing state of the film feeding mechanism and holding the stored contents until a different processing is executed,
The determining means includes:
A step of detecting that the state of the switch has been switched and a step of checking the processing state of the film feeding mechanism with reference to the storage means;
If the contents stored in the storage means are not the initial frame setting process or the frame feeding process, it is determined that the film cartridge is loaded in the patrone chamber and the film feeding mechanism performs the initial frame setting process. Determining that the rewinding operation unit has been operated when the storage content of the means is the initial frame setting process or the frame forwarding process, and causing the film feeding mechanism to perform a rewind process. Characteristic camera switch switching method. A cover member for opening and closing the patrone chamber and the film chamber, and a photo film taken out of the film patrone loaded in the patrone chamber, wound around a winding shaft of the film chamber, and initially setting a frame to be photographed at a photographing position. A film feeding mechanism for performing a frame setting process, a frame feeding process for feeding one frame of photo film for each photographing, and a rewinding process for rewinding all the photo films in the film chamber into the cartridge, and a film feeding mechanism. Camera having a rewind operation unit forcibly performing rewind processing on the camera,
One switch for detecting the opening and closing of the lid member and the operation of the rewinding operation unit, and when the switch is turned on or off, which of the opening and closing of the lid member or the operation of the rewinding operation unit is performed. A determination means and a storage means for storing the presence or absence of a film cartridge in the patrone room, and holding the storage contents until the film patrone is loaded or unloaded,
The determining means includes:
A step of detecting that the state of the switch has been switched, and a step of checking the presence or absence of the film cartridge by referring to the storage means,
If the storage content of the storage means is "no film", it is determined that the film cartridge is loaded in the patrone chamber, and the film feeding mechanism performs an initial frame setting process, and the storage content of the storage means. And determining that the rewinding operation unit has been operated, and causing the film feeding mechanism to perform a rewinding process. .

Images