JP2004117595A - Camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a camera simplified in assembly and repair by making easy to attach and detach between a main board and an electric member by securing to connect the both while simultaneously suppressing to grow in size by arranging effectively an auxiliary board for signal transmission for connecting the both. <P>SOLUTION: A camera with a film compartment 46 and a battery storage compartment 48 arranged adjacent to the compartment 46 is composed by providing with a first printed circuit board 51, a loading lid 16, a second printed circuit board 53 and a connection means 63. The first printed circuit board 51 is arranged in a main body along a surface practically orthogonal to an optical axis of a lens adjoining the film compartment and the battery storage compartment. The loading lid 16 is arranged to be freely opened and closed so that an inside of the film compartment is disclosed at the time of film loading. The second printed circuit board 53 arranged in the loading lid is provided with a connection end 53a connected with the first printed circuit board. The connection means 63, arranged in a space surrounded by one surface of the first printed circuit board and an outer walls of the battery storage compartment and the film compartment, is installed in the first printed circuit board so that the connection end is connected practically orthogonal to the first printed circuit board. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a camera, and more particularly, to a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber, and including a printed circuit board.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a camera for taking a photograph generally includes a film chamber for accommodating a roll film for photographing. Further, in recent cameras, electrification for automating various operations performed at the time of photographing, for example, a focus adjustment operation, an exposure adjustment operation, and a film winding and rewinding operation has been advanced. A drive means such as a motor applied for automation of such a photographing operation requires a power supply battery such as a lithium battery or a dry battery.
[0003]
Therefore, in the conventional camera, a camera in which a power supply battery is built in the camera body is generally put into practical use. In this case, the power battery generally has a large weight and a large size, and generally has a cylindrical shape. Further, the film chamber for storing the film, that is, the film chamber in which the rolled film is wound and stored, or the film chamber for loading the film cartridge, or the photographed portion after being pulled out from the film cartridge is wound, and the light-tight state is obtained. In general, the spool chamber for accommodating the battery while maintaining the above-mentioned condition has a substantially cylindrical shape similarly to the above-mentioned battery accommodating chamber.
[0004]
As described above, since the battery storage room and the film room occupy a relatively large space with respect to the camera body and are substantially cylindrical in shape, it is necessary to devise the arrangement of both to reduce the size of the camera. This is an important design item for realizing
[0005]
Therefore, in a conventional camera, a battery storage chamber is arranged adjacent to one of the film chambers to realize an efficient layout, thereby contributing to the miniaturization of the camera. I have.
[0006]
On the other hand, in the conventional camera automated as described above, in order to electronically control various operations, for example, a plurality of electric boards on which electric components such as a CPU are mounted are provided inside the camera. It is common. In this case, in order to transmit various signals generated from the control unit and the plurality of operation members to a predetermined member, it is necessary to reliably and efficiently connect the plurality of electric boards. On the other hand, it is necessary to consider a device for efficiently performing an assembling operation and a repair of the manufactured camera when manufacturing the camera.
[0007]
2. Description of the Related Art In a conventional camera, for example, a camera disclosed in Japanese Patent Application Laid-Open No. 2002-76560 has a structure in which a plurality of flexible printed circuit boards (FPCs) are mounted on a main board including a printed circuit board arranged at a predetermined position on the front side of the camera. The main substrate is arranged at a position along a plane substantially perpendicular to the optical axis of the photographing lens, and a direction substantially parallel to the main substrate is provided. Are connected to a plurality of auxiliary substrates. In this case, the connector for connecting the main board and the auxiliary board is mounted on a surface that becomes an outer surface when the main board is provided in the camera body.
[0008]
In a conventional camera, for example, in the camera disclosed in Japanese Patent Application Laid-Open No. 7-43806, a main substrate and an auxiliary substrate are configured by a flexible printed circuit (FPC), and a large number of arms are formed from the main substrate. Like that. Then, a so-called parallel pressure connection is adopted in which the arm portion of the main substrate is disposed so as to overlap the auxiliary substrate, and the overlapped portion is press-connected by screwing or the like. Specifically, the arm portion of the main board is arranged along the battery storage chamber, and this is overlapped with a predetermined portion of the auxiliary board extending from the rear lid side to perform parallel pressure connection.
[0009]
[Patent Document 1]
JP 2002-76560 A
[0010]
[Patent Document 2]
JP-A-7-43806
[0011]
[Problems to be solved by the invention]
However, according to the means disclosed in Japanese Patent Application Laid-Open No. 2002-76560, the connector mounted on the main board is disposed toward the outer surface, and a connection portion between the main board and the auxiliary board is provided. That is, in the vicinity of the connection connector, the two are arranged one on top of the other. For this reason, a predetermined space is required around the main substrate, and thus there is a limit to miniaturization of the camera.
[0012]
Further, according to the means, after the main board is arranged at a predetermined position of the camera body, a plurality of auxiliary boards are connected to each other. When an auxiliary board for transmitting signals between the main board and the main board is connected to the connector provided on the outer surface of the main board, the auxiliary board goes around the outer face of the main board from the back side of the camera. Needs to be arranged, so that an arrangement space is required. On the other hand, when the connector is provided on the back side of the main board and the auxiliary board is connected thereto, the arrangement space can be reduced, but on the other hand, the main board is provided in the camera body. In this state, it is difficult to attach and detach the auxiliary substrate.
[0013]
Further, according to the means disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 7-43806, since the main substrate and the auxiliary substrate are constituted by the flexible printed circuit (FPC), the production cost becomes high. There is. Furthermore, since a large number of arms are formed on the main substrate, the shape becomes complicated, and the manufacturing cost is further increased. Further, since the flexible printed circuit boards are configured to be connected by parallel pressure welding, there is a problem that it is difficult to secure good workability at the time of attachment and detachment, and at the same time, positioning for positioning both the main board and the auxiliary board. Since the member needs to be provided on the camera body side, there is also a problem that the camera itself becomes large.
[0014]
The present invention has been made in view of the above points, and an object of the present invention is to interpose an electric member interposed between a main substrate and an electric member provided at a position away from the main substrate. An auxiliary board for transmitting signals between the camera and the main board is efficiently arranged inside the camera, and the connection between the main board and the auxiliary board is secured while suppressing the enlargement of the camera. An object of the present invention is to provide a camera which can contribute to simplification of assembling and repairing of the camera by facilitating detachment of the camera.
[0015]
[Means for Solving the Problems]
In order to achieve the above object, a camera according to a first aspect of the present invention is a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber, the camera being provided on the camera body side. A first printed circuit board disposed at a position adjacent to the film chamber and the battery storage chamber so as to extend along a plane substantially orthogonal to an optical axis of the photographing lens; and A second cover having a loading lid disposed to be openable and closable so as to expose the inside of the film chamber, and a connection end disposed on the loading lid and connected to the first printed circuit board; A circuit board, disposed in a space surrounded by one surface of the first printed circuit board, an outer wall of the battery storage chamber, and an outer wall of the film chamber; Te characterized in that it comprises a connecting means provided on the first printed circuit board so as to connect substantially perpendicularly to the connection end portion of the second printed circuit board.
[0016]
According to a second aspect of the present invention, in the camera according to the first aspect, the second printed circuit board is formed of a flexible printed circuit board, and the connecting means is a quadrature connection mounted on the first printed circuit board. It is a FPC connector of a type.
[0017]
In a third aspect of the present invention, in the camera according to the first aspect, an open position exposing the inside of the battery storage room provided on the side of the camera body, and a closed position covering the inside of the battery storage room. A battery compartment lid configured to be freely openable and closable between the battery compartment cover, and when the battery compartment cover is arranged at its open position, the connection means is exposed, By moving the connection end of the printed circuit board in a direction along the optical axis of the taking lens, the connection end can be connected to the connection means.
[0018]
According to a fourth aspect of the present invention, there is provided a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber, the camera being provided on the camera body side, wherein the film chamber and the A first printed circuit board arranged at a position adjacent to the battery storage chamber along a plane substantially orthogonal to the optical axis of the photographing lens, a display device for performing display, and a first printed circuit board. A display device driving circuit disposed to drive the display device; and a wiring connected between the display device and the first printed circuit board, and a connection connected to the first printed circuit board. A second printed circuit board having an end portion, a first printed circuit board disposed in a space surrounded by one surface of the first printed circuit board, an outer wall of the battery storage chamber, and an outer wall of the film chamber; Connection means provided on the first printed circuit board so that the connection end of the second printed circuit board can be connected substantially perpendicularly to one surface of the first printed circuit board. It is characterized by having.
[0019]
According to a fifth aspect of the present invention, there is provided a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber, wherein the inside of the battery storage chamber is provided with a side surface of the camera body. And a battery compartment lid configured to be openable and closable between an open position exposing the battery compartment and a closed position covering the inside of the battery compartment, and the film compartment and the battery compartment provided on the camera body side. A first printed circuit board disposed along a plane substantially perpendicular to the optical axis of the photographing lens at a position adjacent to the camera, and opening and closing so as to expose the inside of the film chamber when the film is loaded. A loading lid freely disposed, a second printed circuit board having a connection end disposed on the loading lid and connected to the first printed circuit board, and the first printed circuit board One of And the battery compartment is disposed in a space surrounded by an outer wall of the battery compartment and an outer wall of the film compartment, and is exposed when the battery compartment lid is disposed at its open position. Connecting means mounted on the first printed circuit board so that the connection end of the second printed circuit board can be freely attached to and detached from one surface of the printed circuit board in a direction substantially orthogonal to the first printed circuit board. It is characterized by doing.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described with reference to the illustrated embodiments.
FIGS. 1, 2, 3 and 4 are views showing a camera according to an embodiment of the present invention. FIG. 1 is an external perspective view mainly showing the front side of the camera in the non-use state when the lens barrier of the present camera is arranged at the closed position. FIG. 2 is an external perspective view mainly showing the front side of the camera in use when the lens barrier of the present camera is arranged at the open position. FIG. 3 is an external perspective view mainly showing the rear side of the camera in use when the lens barrier of the present camera is arranged at the open position. FIG. 4 is an external perspective view mainly showing the rear side of the camera when the rear cover of the camera is opened.
[0021]
As shown in the drawing, the camera 1 has a camera body 50 (see FIGS. 2 and 3 and FIG. 4 described later) disposed inside, and an exterior member 10 covering a part of the outer surface of the camera body 50. The lens barrier 11 slidably disposed in the direction of the arrow X shown in FIGS. 1 and 2 and partially covering the front side of the camera 1, and the support shaft 31 provided at one end of the camera body 50 are rotated. The center of the camera 1 is rotatably disposed in the direction of the arrow W shown in FIG. 3 so that the inside of the film chamber can be opened and closed by rotating the film so that the inside of the film chamber can be exposed when a film (film cartridge) is loaded. And a rear lid 16 which is a loading lid for the film.
[0022]
As described above, the lens barrier 11 is slidably provided in the direction of the arrow X shown in FIGS. The lens barrier 11 is linked to a power switch (see FIG. 7), and is configured so that the power switch is turned on and off by opening and closing the lens barrier 11.
[0023]
That is, when the lens barrier 11 is slid from the closed position shown in FIGS. 1 and 4 in the direction of the arrow X1 to the open position shown in FIGS. 2 and 3, the power switch is turned on and the camera is turned on. 1 is configured to be in a state in which a photographing operation can be performed. On the other hand, when the lens barrier 11 is slid in the direction of the arrow X2 from the open position shown in FIGS. 2 and 3 to the closed position in FIGS. 1 and 4, the power switch is turned off and the camera 1 is turned off. Is configured to be in a state where the photographing state cannot be executed.
[0024]
A plurality of upper surface operation members 5 are provided near one end on the upper surface side of the exterior member 10 of the camera 1. The upper operation member 5 includes a release button 12 which is a member operated when executing a photographing operation and which is an operation member linked to a release switch for generating a predetermined instruction signal by operating the release button. An operation member that is operated when performing a zooming operation for obtaining a shooting magnification of the zoom lens, by operating the zooming operation (short focal length (wide angle) side) in conjunction with the zooming operation of the photographing lens. Zoom-down button 13 which is an operation member interlocked with a zoom-down switch for generating an instruction signal of (a magnification change operation to), and an operation member which is similarly operated when executing a magnification operation for obtaining a desired photographing magnification. The zoom-up switch generates an instruction signal for zoom-up operation (zooming operation toward the long focal length (telephoto) side) by operating this in conjunction with the zooming operation of the taking lens. There is a zoom up button 14 or the like as an operation member of.
[0025]
In the vicinity of the other end on the upper surface side of the exterior member 10 of the camera 1, a so-called pop-up type flash light emitting device 15 is disposed. The flash light emitting device 15 is linked to turning on and off of a power switch by the lens barrier 11. That is, when the lens barrier 11 is disposed at the open position and the power switch is turned on, the flash light emitting device 15 is disposed at the use position protruding upward from the upper surface of the exterior member 10. In addition, when the lens barrier 11 is disposed in the closed position and the power switch is turned off, the flash light emitting device 15 is stored in a predetermined position (unused position) inside the exterior member 10.
[0026]
A rear cover 16 is provided on the back side of the camera 1. The rear lid 16 is rotatable about the support shaft 31 (see FIGS. 3 and 4) provided at one end of the camera body 50 as described above. Then, by opening the rear lid 16, the film chambers (the patrone chamber 46 and the spool chamber 49, which will be described later) provided near both ends of the camera body 50 are opened, so that the film can be loaded into the camera body 50. It can be taken out.
[0027]
The rear lid 16 is configured to be able to maintain its closed state by predetermined locking means including a locking claw 44 (see FIG. 4). The locked state of the rear lid 16 is configured to be released by operating the lock release button 17, so that the rear lid 16 can be easily opened. The locking means and the releasing means of the rear lid 16 are not directly related to the present embodiment, and are generally used in a conventional camera. Omitted.
[0028]
On the front side of the camera 1, various parts for performing a shooting operation are provided at a portion which is exposed to the outside when the lens barrier 11 is opened and is covered by the lens barrier 11 when the lens barrier 11 is closed. Are disposed. For example, a photographic lens barrel 18 that holds a photographic lens 19 is disposed near the approximate center of the front side of the camera 1. The photographing lens barrel 18 is retracted inside the camera body 50 in accordance with the on / off state of a power switch in conjunction with opening and closing operations of the lens barrier 11, and a predetermined photographing preparation position protruding to the front side of the camera body 50. It is configured to be able to move between and. That is, when the lens barrier 11 is moved to the open position and the power switch is turned on, the photographic lens barrel 18 is extended forward and is arranged at a predetermined photographic preparation position in conjunction with this. FIG. 2). When the power switch is turned off with the operation of moving the lens barrier 11 to the closed position, the photographic lens barrel 18 is retracted backward from the photographic preparation position shown in FIG. It is arranged at a predetermined storage position inside 50 (the state shown in FIG. 1).
[0029]
A finder objective lens 21 constituting a part of a finder device for observing a subject to be photographed is provided at a periphery of the photographing lens barrel 18 and a finder objective lens 21 for detecting information on a distance to the subject. An autofocus module (hereinafter, referred to as an AF module) 22 that constitutes a part of a passive type autofocus device, and a part of a photometric device that includes a condenser lens, a photometric sensor, and the like, and that measures luminance of a subject and the vicinity thereof. And a light metering window 23 serving as an exposure part of a light metering sensor 23a (see FIG. 5), and a light emitting diode (LED) or the like for displaying a progress of a set time when a photographing operation in a self-timer mode is executed. A self-timer display window 24 serving as an exposed portion of a self-timer LED 24a (see FIG. 5); And a remote control sensor window 25, etc., which is an exposure part of a remote control sensor 25a (see FIG. 6) for detecting pulsed infrared light emitted from a predetermined remote control device. Is established.
[0030]
On the rear side of the camera 1, a finder eyepiece 41 constituting a part of the finder device is provided at a substantially central portion near the upper edge. In the vicinity of the finder eyepiece 41, a strobe LED 42, which is a light emitting diode for displaying a charging state and a light emitting state of the flash light emitting device, and a signal from the auto focus device for displaying a focused state or a photometric device An AF-LED 43 or the like, which is a light-emitting diode for receiving a signal from the camera and displaying a camera shake warning or the like, is provided.
[0031]
As described above, the rear cover 16 is rotatably provided in the direction of arrow A shown in FIG. 4 by the support shaft 31 provided at one end of the camera body 50. When the rear lid 16 is closed as shown in FIG. 3, the rear side of the camera 1 is covered. When the rear cover 16 is opened as shown in FIG. 4, the rear side of the camera 1 is exposed.
[0032]
A liquid crystal display device (LCD) 34 for displaying information for displaying the state of the camera 1 and various information is provided on the rear lid 16. A rear operation member 6 including a plurality of operation members is disposed near the liquid crystal display device 34. The rear operation member 6 includes a self-remote control setting button 35 which is an operation member for switching a photographing operation mode that can be set, such as a normal photographing mode, a self-timer mode, a remote control mode, and a camera shake reduction mode. A flash mode button 36 which is an operation member for selecting and switching a photographing operation mode when using a flash light emitting device, such as a red-eye reduction light emission mode, a light emission stop mode, a forced light emission mode, a night scene mode, a red-eye reduction night scene mode, etc. A spot mode, which is a shooting mode in which the photometry target range and the focusing target range at the time of shooting are limited to a predetermined position substantially in the center of the screen, and shooting in which the focus state of the shooting lens 19 is fixed at an infinity position (∞). A spot distant mode button 37, which is an operation member for switching the mode to the distant view mode, A rewind button 38 which is an operation member operated when rewinding the film during use; a date setting button 39 which is an operation member which is operated when setting date and time information of the internal clock; To select the date imprint function for imprinting date information etc. on the top and to select and set the type of date information to be imprinted (year / month / day / month / day / day / month / year / date / time / etc.) , A date mode button 40 and the like.
[0033]
As described above, the camera 1 is configured such that the setting of the camera shake reduction mode can be set by the same member (self-remote control setting button 35) as the operation member for setting the self-timer mode and the remote control mode. Therefore, it is possible to set a combination with an operation member provided separately, that is, a shooting mode that can be set with the strobe mode button 36 and the spot distant mode button 37.
[0034]
In the camera 1, the self-timer mode, the remote control mode, and the camera shake reduction mode can be selectively set by the same operation member (35). Generally, when performing a photographing operation using a self-timer or a remote controller, the camera 1 is generally used by mounting it on a fixed object such as a tripod. Therefore, it is considered that there is no inconvenience even if the three operation modes (the self-timer mode, the remote control mode, and the camera shake reduction mode) can be selectively set with the same operation member (35). With such a configuration, it is possible to suppress operational confusion caused by providing a large number of operation members related to setting, and thus, it is possible to ensure favorable operability.
[0035]
Further, the rear lid 16 is provided with a patrone window 33 made of a transparent window at a predetermined position on the side facing the patrone chamber 46 when the back lid 16 is closed. This patrone window 33 is used to check whether or not a film patrone (not shown) is loaded in the camera 1 and, if a film patrone is loaded, a film type or the like described on the outer peripheral surface of the film patrone. Is arranged at a predetermined position so that the user can confirm the information described above, and has a light-tight structure such that light does not enter the inside from the patrone window 33. Note that the patrone window 33 is not directly related to the present embodiment, and is generally used in a conventional camera, so that a detailed description thereof will be omitted.
[0036]
On one side of the exterior member 10 of the camera 1, a battery compartment lid 32 for attaching and detaching a power supply battery 45 serving as a main power supply of the camera 1 to and from a battery storage chamber 48 (see FIG. 4) is shown by an arrow in FIG. It is arranged to be rotatable in the B direction. In this case, the support shaft of the battery chamber cover 32 is configured to be coaxial with the support shaft 31 of the rear cover 16. When the battery chamber cover 32 is arranged at the closed position shown in FIG. 3, the power supply battery 45 stored in the battery storage chamber 48 is covered and hidden by the battery chamber cover 32 from the outside. Further, by arranging the battery chamber cover 32 at the open position shown in FIG. 4, the power supply battery 45 can be attached to and detached from the battery storage chamber 48. Further, in a state where the battery chamber cover 32 is disposed at the open position and the power supply battery 45 is taken out from the inside of the battery storage chamber 48, the auxiliary board provided on the rear cover 16 and the second print The rear cover FPC (PC3) 53 as a circuit board and the main board (PC1) 51 (see FIG. 5 and subsequent figures) as a first printed circuit board can be connected and disconnected. .
[0037]
As shown in FIG. 4, when the rear lid 16 of the camera 1 is opened, the cartridge chamber 46 and the spool chamber 49 disposed near both ends of the camera body 50, and an exposure opening formed between the two. 50a and the film mask surface 50b formed in the vicinity thereof are exposed.
[0038]
A film patrone chamber (hereinafter simply referred to as a patrone chamber) 46 is a space for accommodating a film patrone (not shown), and in the present camera 1, a predetermined position near one side of the camera body 50 (the present camera 1). Is formed on the side of the gripping hand when the user uses it. A film unwinding shaft (not shown), which engages with a film shaft of the film cartridge, is rotatably disposed on a floor surface at a substantially central portion inside the cartridge chamber 46. The film rewinding shaft is configured to receive a rotational driving force transmitted from a driving source (a driving motor or the like) via a predetermined driving force transmitting mechanism and rotate the cartridge shaft in a predetermined direction. This serves to rewind a photographed film stored in a spool chamber 49 described later into the film cartridge. The specific rewinding mechanism is the same as that used in a conventional camera.
[0039]
A substantially cylindrical spool shaft 49a is rotatably disposed inside the spool chamber 49. A claw portion 49b is formed at a predetermined position on the outer peripheral surface of the spool shaft 49a. The claw portion 49b is formed so that the perforation of the rolled film pulled out from the film cartridge can be engaged, and when both are engaged, the spool shaft 49a is moved to a predetermined position by a predetermined drive motor. , The film can be wound up. The spool shaft 49a can normally rotate only in the direction in which the film is wound, but can rotate in both the forward and reverse directions during the film rewinding operation. The specific mechanism is the same as the drive mechanism used in the conventional camera.
[0040]
An exposure opening 50a is provided in a space between the cartridge chamber 46 and the spool chamber 49. A photographic lens barrel 18 is provided in front of the exposure opening 50a. The periphery of the exposure opening 50a is a film mask surface 50b, and the film drawn from the film cartridge loaded in the cartridge chamber 46 and wound on the spool shaft 49a of the spool chamber 49 is used as the film mask. Are in contact with each other. As a result, the film is positioned during the photographing operation.
[0041]
Next, the configuration of a plurality of electric circuit boards provided inside the camera 1 will be described below.
[0042]
FIG. 5 is a perspective view showing a state in which the exterior member of the camera of the present embodiment is removed. FIG. 6 is a block diagram showing a schematic configuration of an electric circuit in the camera.
[0043]
The photographing lens barrel 18 is disposed substantially at the center of the camera body 50. A finder unit 60 is provided above the photographing lens 19. The flash light emitting device 15 is disposed near the finder unit 60 and on the upper surface of the other end of the camera body 50 (the end on the spool chamber 49 side).
[0044]
A flash light emitting capacitor 47 is provided at one end of the camera body 50 (end on the patrone chamber 46 side) and at a predetermined position near the back of the battery storage chamber 48.
[0045]
A main substrate (PC1) 51 is fixed to the camera main body 50 at one end of the camera main body 50 (end on the side of the patrone chamber 46) and on the front side of the battery storage chamber 48. Also, a sub-board (PC2) 52 is fixed to the camera body 50 in the vicinity of the main board 51 and at one end of the camera body 50 on the upper surface side of the battery storage chamber 48, similarly to the main board 51. Have been. The main substrate 51 and the sub-substrate 52 are both formed of a multilayer hard substrate, and a plurality of flexible printed substrates, that is, a lower surface FPC (PC4) 54 and a lens barrel FPC (PC5) are provided for the main and sub-substrates 51 and 52. 55, a photometric FPC (PC6) 56, an AF-FPC (PC7) 57, an upper surface FPC (PC8) 58, etc., are respectively arranged at predetermined positions, and predetermined terminal portions are press-connected by fastening means such as screws.
[0046]
Here, details of the main substrate will be described with reference to FIGS. 7 and 8 are perspective views showing only the main board (PC1) of the camera taken out. FIG. 7 mainly shows the front side of the main board, and FIG. 8 mainly shows the back side of the main board. Is shown in
[0047]
The main board 51 in the camera 1 of the present embodiment is formed of a multilayer hard board as described above. On its mounting surface, there are provided a control circuit 61 including a display device drive circuit for performing various calculations such as a focusing operation, a photometric operation and an automatic exposure operation, and a CPU for controlling the entire camera, and a control circuit 61 (FIG. 6 is shown as a CPU) and an interface circuit 62 (shown as an IFIC in FIG. 6) for performing various analog signal processing and the like which is not processed by the CPU, and a quadrature which is a connection means serving as a connection portion with a rear lid FPC 53. A connection type FPC connector (hereinafter, simply referred to as an FPC connector) 63, a barrier switch 64 for generating an ON signal or an OFF signal in conjunction with the opening / closing operation of the lens barrier 11, a remote control sensor 25a, an EEPROM, a power transistor, and a motor driver. And the like are arranged at predetermined positions. Further, on the mounting surface of the main board 51, a plurality of terminal portions 51a, 51b, and 51c for press-connecting the plurality of auxiliary substrates (the flexible printed circuit boards (PC4 to PC8)) are formed. I have.
[0048]
The lens barrel FPC 55 is connected via the terminal 51 a of the main board 51, the photometric FPC 56 and the AF-FPC 57 are connected via the terminal 51 b of the main board 51, and the terminal FPC 58 is connected via the terminal 51 c of the main board 51. 58b are connected by pressure contact. Further, the terminal portion 58a of the upper surface FPC 58 is connected by pressure connection via the terminal portion 52a of the sub-board 52. Thus, the main and sub substrates 51 and 52 are electrically connected via the upper surface FPC 58. The sub-board 52 is also connected to the flash light emitting device via the lead wire 59. The connection of the lower surface FPC 54 is not shown, but is connected to the main board 51 by the same means.
[0049]
The control circuit 61 and the interface circuit 62 are both mounted on a COB (Chip On Board). The FPC connector 63 is a connection member for ensuring electrical connection with the rear cover FPC 53 as described above, and is substantially perpendicular to the main board 51 (in a direction orthogonal to the main board 51). Are formed so that they can be connected to each other.
[0050]
The wiring pattern on the back side is formed, for example, at the center of an LCD drive line (wiring for driving the liquid crystal display device 34) extending from the control circuit 61, and approximately half of the wiring is provided by the control circuit 61. Are wired toward the FPC connector 63 disposed adjacent to the. Other wiring is wired to each electric member, each terminal part, and the like through the inner layer.
[0051]
The sub-board 52 and the plurality of flexible printed boards (53 to 58) are configured as shown below, for example.
[0052]
On the sub-board (PC2) 52, various switches 5a (shown as upper surface SWs in FIG. 6) interlocking with the upper surface operation member 5, such as a photographing preparation operation (magnification (zoom) operation) and a photographing operation (release operation), etc. ), A charging light emitting circuit of the flash light emitting device 15 (shown as a strobe circuit in FIG. 6), and the like, and exchange signals with the control circuit 61 via the upper surface FPC 58.
[0053]
The rear cover FPC (PC3) 53 is a flexible printed board arranged on the rear cover 16 as described above.
[0054]
FIG. 9 is a schematic perspective view showing the rear lid of the camera and an electric board (rear lid FPC (PC3)) provided on the rear lid. FIG. 10 is a schematic perspective view showing only the rear lid FPC (PC3) of the present camera and the liquid crystal display device connected thereto.
[0055]
The rear lid FPC 53 has a terminal 53c for transmitting a drive signal of the liquid crystal display device 34 connected thereto, and various switches (shown as a rear lid SW in FIG. 6) 6a interlocking with the rear operation member 6. A wiring pattern for transmitting a signal from the device is formed. The liquid crystal display 34 is connected to a predetermined position of the rear lid FPC 53 via the conductive rubber 65.
[0056]
The rear lid FPC 53 is arranged along the outer periphery of the flash light emitting capacitor 47 as will be described later, passes through the battery storage chamber 48, and is connected to the main board 51 via the FPC connector 63. (See FIG. 12). In this case, a substantially concave cutout 53b is formed at a predetermined position on both side edges in the width direction in the vicinity of the connection end 53a serving as a connection portion connected to the FPC connector 63. The notch 53b is formed so that it is easy to perform the attaching / detaching operation between the rear lid FPC 53 and the FPC connector 63 of the main board 51 even in a narrow space inside the battery storage chamber 48 as described later. Have been.
[0057]
The lower surface FPC (PC4) 54 is a flexible printed circuit board disposed on the bottom surface side of the camera body 50 and mainly handling signals for controlling the drive system. The lower surface FPC 54 includes a rear lid open / close switch (SW) for detecting the open / closed state of the rear lid, a switching plunger solenoid device for switching a driving force transmission path for driving the film and for changing the magnification of the photographing lens 19, and a film. A film perforation detector for detecting the perforation of the film to detect the moving state of the film; a motor rotation detector for detecting the rotation state of each drive motor; a gear arm detector for detecting the switching state of the driving force transmission path; Each predetermined signal from a zoom initial position detector or the like for detecting the position of the lens 19 is transmitted to the control circuit 61 and the interface circuit 62 of the main board 51. Each signal from these detectors is processed in the interface circuit 62 of the main board 51.
[0058]
The lens barrel FPC (PC5) 55 is a flexible printed circuit board that handles signals for controlling the photographing lens barrel 18, and is a focus pulse detector / shutter operation detector disposed inside the photographing lens barrel 18. Each predetermined signal from a focus motor, a shutter motor, a shutter plunger solenoid device and the like is transmitted to a control circuit 61 and an interface circuit 62 of the main board 51. Each signal from the focus pulse detector, the shutter operation detector and the like is processed in the interface circuit 62 of the main board 51. The focus motor and the shutter plunger solenoid device are driven by an interface circuit 62 controlling a power transistor based on an instruction from a control circuit 61 of the main board 51.
[0059]
A self-timer LED 24a and a photometric sensor 23a are mounted on the photometric FPC (PC6) 56. The self-timer LED 24a is driven by the interface circuit 62 based on an instruction from the control circuit 61. The photometric sensor 23a is driven and controlled by the control circuit 61.
[0060]
The AF module 22 is mounted on the AF-FPC (PC 7) 57, and signals are transmitted to and from a control circuit 61 that controls the AF module 22.
[0061]
On the upper surface FPC (PC8) 58, an AF-LED 43, a strobe LED 42, a date imprinting LED, and the like for displaying a focused state and a camera shake warning are mounted. The driving of these LEDs is controlled by the control circuit 61 based on each predetermined instruction signal. As described above, the main board 51 and the sub-board 52 are electrically connected via the upper surface FPC 58.
[0062]
The connection between the photometric FPC 56 and the AF-FPC 57 with respect to the main board 51 is as shown in FIG. FIG. 11 is an exploded view of a main part of the present camera, in which a connection portion between the main substrate (PC1), the photometric FPC (PC6) and the AF-FPC (PC7) is enlarged to show a superimposed state.
[0063]
As described above, the AF-FPC 57 is a flexible printed board on which the AF module 22 is mounted, and is configured by one-sided wiring. The photometric FPC 56 is a flexible printed circuit board on which the photometric sensor 23a and the self-timer LED 24a are mounted, and is configured by double-sided wiring. This has the function of shielding the minute signal line of the photometric sensor on the back surface to obtain a stable photometric result by being constituted by double-sided wiring, and also performs a part of the wiring sequence of the terminal portion 51b of the main substrate 51. ing. Thus, the configuration is such that the wiring area of the main substrate 51 is saved. Further, with such a structure, analog signals such as AF signals and photometric signals are shielded to make wiring less susceptible to noise.
[0064]
The photometric FPC 56 and the AF-FPC 57 are superimposed on the front surface of the terminal portion 51b of the main board 51 and are press-connected by screws or the like.
[0065]
That is, a photometric FPC 56 for mounting a photometric sensor that handles a small current is formed by double-sided wiring, and is connected between the main substrate 51 and the AF-FPC 57 by being overlapped. Then, the order of wiring from the main board 51 to the AF-FPC 57 is switched by the double-sided wiring of the photometric FPC 56. With such a configuration, the main board 51 having a high mounting density and a small degree of freedom of wiring and the AF-FPC 57 having a small degree of freedom by single-sided connection are efficiently connected to realize an efficient connection with a small area. I have to.
[0066]
The connection between the main board 51 and the rear lid FPC 53 is as follows. That is, FIG. 12, FIG. 13, FIG. 14, and FIG. 15 are views showing the connection between the main board and the rear lid FPC in the camera of the present embodiment. 12 is a cross-sectional view showing the left half of the camera as viewed from the front. FIG. 13 is an enlarged cross-sectional view of a main part, in which the vicinity of a connection portion between the main board and the rear cover FPC in the present camera is enlarged. FIG. 14 is a schematic perspective view of a portion corresponding to FIG. FIG. 15 is a member configuration diagram schematically showing the internal configuration when viewed from the left side of the camera.
[0067]
As shown in the figure, the FPC connector 63 is provided on the back side of the main board 51 in a direction along the optical axis O of the photographing lens 19 (see FIGS. 2 and 4), that is, in a direction substantially orthogonal to the main board 51. The flexible printed circuit board (rear cover FPC53) is inserted and removed. The FPC connector 63 is disposed in a space surrounded by a cartridge chamber 46 (film chamber) formed at one end of the camera body 50, a battery storage chamber 48, and the main board 51.
[0068]
That is, as shown in the drawing, the cartridge chamber 46 and the battery storage chamber 48 are formed in a substantially columnar shape, and both are arranged adjacent to each other. The main substrate 51 is provided on the front side. Accordingly, a space having a substantially triangular cross section is formed by the cartridge chamber 46, the battery storage chamber 48, and the main substrate 51. Generally, such a space has a structure in which members are hardly arranged, and thus tends to be a so-called dead space. However, in the camera 1 of the present embodiment, the FPC connector 63 is arranged in this triangular space to realize an efficient layout.
[0069]
On the other hand, two step portions 50c and 50d are formed at predetermined positions on a part of the inner wall surface of the battery storage chamber 48 and a part of the outer wall surface of the patrone chamber 46, as shown in FIG. A hole 48c is formed in a part of the inner wall surface of the battery storage chamber 48, which is a portion connected to the step 50c. The hole 48c is formed at a position substantially opposed to a portion where the FPC connector 63 is arranged.
[0070]
By forming the steps 50c and 50d and the hole 48c in this way, the wall thickness of the wall of the patrone chamber 46 is partially reduced, but the strength of the camera body 50 may be impaired. There is nothing.
[0071]
As shown in FIG. 12, the rear lid FPC 53 is disposed substantially along the inner wall surface of the rear lid 16, and the connection end 53 a at the tip end thereof extends from one end of the rear lid 16, and the flash light emitting capacitor 47. And it is arrange | positioned along the outer periphery of the support shaft 31, and is arrange | positioned along the inner wall surface of the battery storage chamber 48 further. Finally, the connection end 53a is inserted into the FPC connector 63 through the step 50c and the hole 48c, whereby the connection between the rear cover FPC 53 and the main board 51 is ensured. In this case, the step portion 50c functions as a guiding means for guiding the connection end portion 53a to the FPC connector 63.
[0072]
On the other hand, the FPC connector 63 is formed by a connector 63a and a stopper 63b as shown in FIG. This stopper portion 63b is configured to be movable between the ten thousand portion shown in FIG. Then, after inserting and connecting the rear lid FPC53 in a state where the stopper 63b is located at the dotted line position B in FIG. 13, the connection end of the rear lid FPC53 inserted and connected by moving the stopper 63b to the solid line position in FIG. Since the portion 53a is locked by a predetermined locking means at that position, even if a certain amount of force is applied to the rear lid FPC 53 by, for example, the opening and closing operation of the rear lid 16, it cannot be removed easily. Is configured to be maintained. In this case, the step 50d is formed to secure a movement area of the stopper 63b of the FPC connector 63.
[0073]
When the rear cover FPC 53 is connected to the main board 51 via the FPC connector 63, a predetermined flexible sheet member (not shown) is fitted on the inner wall surface of the battery storage chamber 48. I have. With this sheet member, a part of the rear lid FPC 53, which is formed on the inner wall surface of the battery storage chamber 48, and the step 50c and the hole 48c formed on the inner wall surface of the battery storage chamber 48 are covered. ing.
[0074]
In the camera 1 of the present embodiment configured as above, the connection portion between the rear cover FPC 53 and the main board 51 can be easily separated simply by opening the battery storage chamber 48.
[0075]
In general, since the internal space of the battery storage chamber 48 is formed relatively narrow, the above-described operation, that is, the operation of inserting and removing the connection end portion 53a into and from the FPC connector 63 is accompanied by difficulty. However, in the camera 1 of the present embodiment, by providing the step portion 50c on the inner wall surface of the battery storage chamber 48, the connection end 53a of the rear lid FPC 53 can be easily guided to the vicinity of the insertion portion of the FPC connector 63. It is configured.
[0076]
Further, the rear cover FPC 53 is formed by single-sided wiring, and when the rear cover FPC 53 is arranged at a predetermined position, the wiring pattern surface can be visually observed from the battery storage chamber 48, but is arranged alongside. It has become. Accordingly, the connection site can be easily confirmed visually from the hole 48c of the battery storage chamber 48.
[0077]
Further, the notch 53b is formed at both side edges near the connection end 53a of the rear lid FPC 53 as described above. This is provided for the following reason. For example, when manufacturing or assembling or repairing the camera 1, the connection end 53a of the rear cover FPC 53 and the FPC connector 63 are attached and detached. In such a case, the notch 53b is This is used as a part to which a tool such as tweezers is applied so that the two can be easily attached and detached.
[0078]
As described above, according to the first embodiment, the space surrounded by the main substrate 51, the patrone chamber 46 (film chamber), and the battery storage chamber 48 is a space that is likely to be generated in a camera using a general film. However, the shape tends to be a wasteful space. An FPC connector 63 for connecting the rear lid FPC 53 to such a space is arranged to connect the rear lid FPC 53 in a direction substantially orthogonal to the main board 51. The space can be effectively used, and the size of the camera 1 itself can be suppressed.
[0079]
When connecting the rear cover FPC 53 including the LCD drive line to the main board 51, the rear cover FPC 53 is configured to be inserted and connected to the FPC connector 63 mounted on the main board 51 in a direction substantially orthogonal to the main board 51. Therefore, the main board 51, which tends to be expensive due to a large number of wirings and mounted components, can be formed of a substantially rectangular simple shape and a hard board, thereby contributing to a reduction in manufacturing cost.
[0080]
Further, when the main substrate 51 is formed of a hard substrate, it is not necessary to form a connecting arm or the like required for flexible printed circuit boards, so that member costs can be suppressed, and the camera can be reduced in size. It can also contribute to the development.
[0081]
Further, even if the main substrate 51 is formed of a flexible printed circuit board separately from the above-described embodiment, it is not necessary to form the arms and the like, so that the shape can be simplified. Therefore, it is possible to reduce the cost of the substrate itself, thereby contributing to a reduction in the manufacturing cost of the camera itself, and it is easy to contribute to a reduction in the size of the camera.
[0082]
In a predetermined space (triangular space) surrounded by the main board 51, the patrone chamber 46 (film chamber), and the battery storage chamber 48, for example, when the flexible printed circuit boards are overlapped and connected by pressure, the camera body 50 is connected. It is necessary to form a thick portion capable of withstanding the amount of force for screwing the alligator screw in, or to form a projection boss portion for positioning each of a plurality of flexible printed boards to be connected. However, according to the present embodiment, the structure of the camera body 50 can be simplified since these configurations are not required at all. Therefore, the manufacturing cost of the mold for manufacturing the camera body 50 can be suppressed. Further, as compared with the case where the camera body 50 is press-connected to the camera body 50, it is not necessary to consider the strength of the camera body 50, so that the degree of freedom in design is improved, and as a result, a small and inexpensive camera is realized. can do.
[0083]
Since the FPC connector 63 is used, efficient connection between the main board 51 and the rear lid FPC can be ensured, thereby contributing to space saving. Therefore, in the conventional camera, the electric parts that tend to have a large number of wires, such as an LCD driver, are usually mounted on the substrate on the rear cover side. Even when there is little space in the direction (along the optical axis O), it is not necessary to mount an LCD driver or the like on the substrate on the rear lid side, and it can be mounted on the mounting surface of the main substrate 51. And it can contribute to reduction of manufacturing cost.
[0084]
When the battery housing chamber 48 is arranged at the open position while the main board 51 is arranged at a position covered by the exterior member 10 of the camera 1, the connection portion between the main board 51 and the rear cover FPC 53, that is, the FPC connector 63 is easy to operate. Although it is configured to be exposed at the position, it is easy to attach and detach the main substrate 51 and the back cover FPC 53 without disassembling the exterior member 10 or the like. Is configured such that it is difficult to directly touch the main board 51 on which the is mounted. Therefore, accidents such as mechanical damage to these electric components by touching the electric components on the main board 51 or electrical damage due to static electricity or the like can be suppressed.
[0085]
In addition, since the wiring pattern surface of the flexible printed circuit board (rear cover FPC 53) connected to the FPC connector 63 is configured to be visible from the battery storage chamber 48 side, the attaching and detaching work can be easily performed visually, and at the same time, the flexible printed circuit board can be easily viewed. Of the FPC connector 63 can be easily confirmed. Therefore, it is possible to contribute to improvement of work efficiency.
[0086]
A step 50c is formed on the outer wall of the patrone chamber 46 (film chamber) and on the inner wall of the battery chamber 48 as guide means for guiding the rear lid FPC53 to the FPC connector 63 on the main board 51. This facilitates the positioning of the FPC connector 63, thereby improving the workability when the FPC connector 63 is inserted and connected.
[0087]
Since the attachment / detachment work between the FPC connector 63 of the main board 51 and the rear lid FPC 53 can be performed from the battery storage chamber 48 side, the work can be easily performed without disassembling the exterior member 10 of the camera 1. it can. Therefore, an assembling operation, a repair operation, and the like during the manufacture of the camera 1 can be simplified.
[0088]
The FPC connector 63 is disposed at a position where a user grips the camera 1 when using the camera 1. The stopper 63 b of the FPC connector 63 moves in a direction along the optical axis O of the photographing lens 19 to lock and lock the FPC connector 63. The lock is released. The strength of the grip portion in a general camera is ensured in consideration of the direction in which the force is applied. Therefore, even if a force is applied to the stopper portion 63b for attaching and detaching the rear cover FPC 53 to and from the FPC connector 63 of the main board 51, there is little fear that the relevant portion of the camera body 50 is physically damaged.
[0089]
On the mounting surface of the main board 51, a control circuit 61 including a display device driving circuit and an FPC connector 63 to which a rear lid FPC 53 including an LCD driving line is connected are mounted at close positions on the same surface, and the mounting surface Since the main board 51 is arranged to face the camera body 50 when the main board 51 is provided on the camera body 50, it is possible to provide extremely efficient wiring, and the surface area of the main board 51 itself can be reduced. . Therefore, it is possible to contribute to downsizing of the camera itself and reduction in manufacturing cost.
[0090]
In the camera 1 of the above-described embodiment, the film chamber adjacent to the battery storage chamber 48 and the main substrate 51 is configured as the patrone chamber 46. Instead, the spool chamber 49 is arranged at the same position. In this case, the main board 51 and the rear lid FPC 53 can be easily formed with the same connection means.
[0091]
In the above-described embodiment, the configuration is such that the liquid crystal display device 34 for displaying information and the flexible printed circuit board (53) for connecting the same are arranged at a predetermined position on the rear lid 16, but the present invention is not limited to such a configuration. In the case where the flexible printed circuit board and the main board 51 are arranged on another surface such as the upper surface and the side surface of the camera 1, the connecting means between the flexible printed circuit board and the main substrate 51 can be easily applied.
[0092]
[Appendix]
According to the embodiment of the present invention, an invention having the following configuration can be obtained.
[0093]
(1) In a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber,
A first printed circuit board that is disposed on the camera body side and that is disposed adjacent to the film chamber and the battery storage chamber and along a plane substantially orthogonal to the optical axis of the photographing lens;
A loading lid that is openably and closably disposed so as to expose the inside of the film chamber when loading the film,
A second printed circuit board provided on the loading lid and having a connection end connected to the first printed circuit board;
The first printed circuit board is disposed in a space surrounded by one surface of the first printed circuit board, an outer wall of the battery storage chamber, and an outer wall of the film chamber, and the second surface of the first printed circuit board is positioned with respect to one surface of the first printed circuit board. Connection means provided on the first printed circuit board so that the connection end of the printed circuit board can be connected substantially vertically;
A camera comprising:
[0094]
(2) In the camera described in Appendix (1),
A battery compartment lid configured to be openable and closable between an open position exposing the inside of the battery compartment provided on the side of the camera body and a closed position covering the inside of the battery compartment; ,
When the battery chamber lid is disposed at the open position, the connection means is exposed, and the connection end of the second printed circuit board is oriented in the direction along the optical axis of the taking lens. The camera is configured so that the connection end can be connected to the connection means by moving the connection means.
[0095]
(3) In the camera described in Appendix (1),
A liquid crystal display device provided on the loading lid for displaying information;
A camera, wherein the first printed circuit board has a liquid crystal display device driving circuit for driving the liquid crystal display device.
[0096]
(4) In the camera described in Appendix (2),
A single-sided conductive pattern is formed at the connection end of the second printed circuit board, and the connection end is exposed when the battery chamber lid is placed at its open position. A camera in which, when an end is connected to the first printed circuit board, the surface on which the one-sided conductive pattern is formed is located at a position where the battery compartment can be visually checked.
[0097]
(5) In the camera described in Appendix (3),
A camera in which the first printed circuit board is connected to the second printed circuit board, and the liquid crystal display device driving circuit is mounted on a surface of the first printed circuit board.
[0098]
【The invention's effect】
As described above, according to the present invention, a signal transmission device is provided between a main board and an electric member provided at a position distant from the main board to transmit a signal between the electric member and the main board. In addition to efficiently arranging the auxiliary board inside the camera, securing the connection between the main board and the auxiliary board while suppressing enlargement of the camera, and facilitating the attachment and detachment between the two, A camera that can contribute to simplification of repair and the like can be provided.
[Brief description of the drawings]
FIG. 1 is an external perspective view mainly showing a front side of a camera in an unused state when a lens barrier is arranged at a closed position, showing a camera according to an embodiment of the present invention.
FIG. 2 is an external perspective view mainly showing the front side of the camera in use when the lens barrier is arranged at an open position, showing the camera of FIG. 1;
FIG. 3 is an external perspective view mainly showing the rear side of the camera in use when the lens barrier is arranged at an open position, showing the camera of FIG. 1;
FIG. 4 is an external perspective view mainly showing a rear side of the camera when the rear cover is opened in a state where the camera of FIG. 1 is opened.
FIG. 5 is a perspective view showing a state where an exterior member of the camera of FIG. 1 is removed.
FIG. 6 is a block diagram showing a schematic configuration of an electric circuit in the camera of FIG. 1;
FIG. 7 is a perspective view showing only a main board (PC1) in the camera of FIG. 1 and mainly showing a front surface side of the main board.
FIG. 8 is a perspective view showing only the main board (PC1) in the camera of FIG. 1 and mainly showing the back side of the main board.
FIG. 9 is a schematic perspective view showing the rear cover and the electric board (rear cover FPC (PC3)) disposed on the rear cover in the camera of FIG. 1;
FIG. 10 is a schematic perspective view showing only a rear cover FPC (PC3) and a liquid crystal display device connected thereto in the camera of FIG. 1;
11 is an exploded view of a main part of the camera shown in FIG. 1 in which a connection portion between a main substrate (PC1), a photometric FPC (PC6), and an AF-FPC (PC7) is enlarged to show a superimposed state.
12 is a cross-sectional view showing a connection between a main board and a rear cover FPC in the camera of FIG. 1 and showing a left half as viewed from the front of the camera.
13 is an enlarged cross-sectional view of a main part of the camera of FIG. 1, showing a connection between a main board and a rear lid FPC, and showing an enlarged vicinity of a connection portion between the main board and the rear lid FPC.
14 is a schematic perspective view of a portion corresponding to FIG. 13, showing a connection between a main board and a rear cover FPC in the camera of FIG. 1;
15 is a diagram showing a connection between a main board and a rear cover FPC in the camera of FIG. 1, and is a member configuration diagram schematically showing an internal configuration when viewed from the left side of the camera.
[Explanation of symbols]
1. Camera
5 Upper surface operation member
6 ... Back operation member
10 Exterior members
11 Lens barrier
15 Flash light emitting device
16: Rear lid (film loading lid)
18… photographic lens barrel
19 …… Shooting lens
22 Auto focus module (AF module)
23 Photometry window
23a ... Photometric sensor
24 ... Self-timer display window
24a …… Self-timer LED
25 Remote control sensor window
25a Remote control sensor
31 ... Spindle
32 Battery cover
34 Liquid Crystal Display (LCD; Display)
45 ... Power battery
46 ... Patrone room (film room)
47 ... Flashlight condenser
48 …… Battery storage room
48c ... hole
49 …… Spool room (film room)
50 Camera body
50c: Step portion (guide means)
50d ... step
51: Main board (PC1; hard board; first printed circuit board)
51a / 51b / 51c / 52a / 53c / 58b ... Terminal part
52: Sub-board (PC2; hard board)
53: Rear lid FPC (PC3; flexible printed circuit board; auxiliary board)
53a: Connection end (rear lid FPC; second printed circuit board)
53b: Notch
53 ... Back lid FPC (PC3)
54 ... Bottom surface FPC (PC4)
55 ... Barrel FPC (PC5)
56 Photometric FPC (PC6)
57 AF-FPC (PC7)
58 Top surface FPC (PC8)
59 ... Lead wire
60 …… Finder unit
61 Control circuit (CPU; including liquid crystal display device drive circuit)
62 Interface circuit (IFIC)
63 FPC connector (connection means)

Claims (5)

In a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber,
A first printed circuit board that is disposed on the camera body side and that is disposed adjacent to the film chamber and the battery storage chamber and along a plane substantially orthogonal to the optical axis of the photographing lens;
A loading lid that is openably and closably disposed so as to expose the inside of the film chamber when loading the film,
A second printed circuit board provided on the loading lid and having a connection end connected to the first printed circuit board;
The first printed circuit board is disposed in a space surrounded by one surface of the first printed circuit board, an outer wall of the battery storage chamber, and an outer wall of the film chamber, and the second surface of the first printed circuit board is positioned with respect to one surface of the first printed circuit board. Connection means provided on the first printed circuit board so that the connection end of the printed circuit board can be connected substantially vertically;
A camera comprising: The second printed circuit board is made of a flexible printed circuit board,
The camera according to claim 1, wherein the connection means is an orthogonal connection type FPC connector mounted on the first printed circuit board. A battery compartment lid configured to be openable and closable between an open position exposing the inside of the battery compartment provided on the side of the camera body and a closed position covering the inside of the battery compartment; ,
When the battery chamber lid is disposed at the open position, the connection means is exposed, and the connection end of the second printed circuit board is oriented in the direction along the optical axis of the taking lens. 2. The camera according to claim 1, wherein the connection end is connected to the connection means by moving the connection means. In a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber,
A first printed circuit board that is disposed on the camera body side and that is disposed adjacent to the film chamber and the battery storage chamber and along a plane substantially orthogonal to the optical axis of the photographing lens;
A display device for displaying,
A display device driving circuit disposed on the first printed circuit board and driving the display device;
A second printed circuit board including a wiring connecting the display device and the first printed circuit board, and a connection end connected to the first printed circuit board;
The first printed circuit board is disposed in a space surrounded by one surface of the first printed circuit board, an outer wall of the battery storage chamber, and an outer wall of the film chamber, and the second surface of the first printed circuit board is positioned with respect to one surface of the first printed circuit board. Connection means provided on the first printed circuit board so that the connection end of the printed circuit board can be connected substantially vertically;
A camera comprising: In a camera having a film chamber for storing a film and a battery storage chamber disposed adjacent to the film chamber,
A battery compartment lid configured to be openable and closable between an open position exposing the inside of the battery compartment provided on the side of the camera body and a closed position covering the inside of the battery compartment;
A first printed circuit board that is disposed on the camera body side and that is disposed adjacent to the film chamber and the battery storage chamber and along a plane substantially orthogonal to the optical axis of the photographing lens;
A loading lid that is openably and closably disposed so as to expose the inside of the film chamber when loading the film,
A second printed circuit board provided on the loading lid and having a connection end connected to the first printed circuit board;
It is disposed in a space surrounded by one surface of the first printed circuit board, the outer wall of the battery storage chamber, and the outer wall of the film chamber, and is exposed when the battery chamber lid is disposed in its open position. The first printed circuit board so that the connection end of the second printed circuit board can be attached to and detached from one surface of the first printed circuit board in a direction substantially orthogonal to the first printed circuit board. Connection means mounted on the circuit board,
A camera comprising:

Images