JP4504439B2 - camera - Google Patents

Description

  The present invention relates to a camera structure, and more particularly to a camera heat dissipation structure.

  Conventionally, a digital camera equipped with an image sensor has much more electrical components and consumes more power than a silver halide camera. For example, the built-in image sensor and power supply board are members that generate a large amount of heat. . In particular, the imaging element needs to efficiently dissipate heat because there is a risk that noise may increase or imaging characteristics may deteriorate due to the temperature rise inside the camera.

  Conventionally, various proposals have been made regarding the heat dissipation structure such as a camera. For example, Patent Documents 1 and 2 propose a structure in which heat generated by an imaging element in an imaging apparatus is efficiently released to the exterior via a heat transfer member.

  Patent Document 3 proposes a structure in which a circuit board is brought into contact with a battery via a heat sink in a video camera, and heat generated by the circuit board is released to the battery.

  Further, Patent Document 4 proposes a structure in which an increase in internal temperature is suppressed by dispersing and arranging an image pickup element, which is a large heat generating member, and a power supply substrate in a magnetic recording / reproducing apparatus.

On the other hand, cameras with a waterproof function are quite common in digital cameras and silver halide cameras, but in particular, digital cameras store the camera body in a special capsule-shaped waterproof case. Such a type is commercially available.
Patent Document 1 is Japanese Patent Application Laid-Open No. 11-334121. Patent Document 2 is Japanese Patent Application Laid-Open No. 7-107393. Patent Document 3 is Japanese Patent Application Laid-Open No. 8-23467. Patent Document 4 is Japanese Patent Application Laid-Open No. 7-143428.

  The heat dissipation structure that dissipates the heat generated by the imaging unit, image display device, etc. in the above-described conventional digital camera, etc., can always provide a sufficient heat dissipation effect when deterioration of camera usage and camera characteristics are considered. That wasn't true. In addition, sufficient consideration was not given to the assembly of the camera. Particularly for digital cameras, there is a strong demand for miniaturization, and it is necessary to apply a heat dissipation structure such as an imaging unit or an image display device that does not hinder the miniaturization.

  On the other hand, with respect to a digital camera having a waterproof function, a type in which the camera is housed in the above-described conventional waterproof case, the waterproof case must be separately carried, and portability is not good. Therefore, adopting a structure that seals the camera exterior with packing etc. like a conventional silver halide camera with waterproof function eliminates air circulation to the outside, heat dissipation deteriorates, and internal temperature rises It is possible to do. The rise in the internal temperature deteriorates the characteristics of the image sensor and the like, and there is a problem that it is impossible to maintain a desired shooting image quality performance.

  The present invention has been made in view of the above-described problems, and avoids the enlargement of the outer shape of the camera, efficiently releases the heat generated inside the camera to the outside, and suppresses the rise in temperature inside the camera. An object of the present invention is to provide a camera that has a heat dissipation structure capable of exhibiting photographing performance and that is compact and has good heat dissipation even when sealed for waterproofing.

  The camera of the present invention includes a photographing lens unit that forms a subject image, a rear end of the photographing lens unit, an image sensor that photoelectrically converts the subject image, and a proximity to the image sensor to protect the back of the camera. A rear cover, an image display means for displaying a photographed image positioned on the back surface of the image sensor and having a display surface facing an opening formed in the rear cover, and the photographing lens section and the image display means. And an attachment member having a heat transfer portion provided extending from at least one side of the attached image display means, the heat transfer portion being in contact with the inner surface portion of the rear cover, Heat generated by the image display means is transmitted to the rear cover.

  According to the present invention, the heat generated in the imaging unit and the image display unit is efficiently transmitted to the rear cover through the heat transfer member, and the temperature rise of the imaging unit and the image display unit is obtained, so that the original photographing of the camera The performance can be maintained and the camera can be made compact.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a perspective view showing an appearance of a camera according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of the camera, and FIG. 3 is an exploded perspective view of an assembly unit around the lens barrel of the camera. FIG. 4 is a perspective view of a CCD substrate and an imaging substrate mounted on the lens barrel. FIG. 5 is an exploded perspective view of the middle frame and battery cover plate housed in the camera. FIG. 6 is a perspective view of an electric board (A) to which a heat transfer contact piece housed in the camera is attached.

  In the description of the camera arrangement of the present embodiment, the left-right direction (X direction in the figure) that is the camera width direction is the left-right direction viewed from the subject side of the camera. In the front-rear direction (Z direction in the drawing, that is, the direction along the optical axis O of the taking lens), the subject side is the front side, and the opposite subject side is the rear side or the back side. The vertical direction (the Y direction in the figure) is the vertical direction when the camera is held in a normal state.

  The camera 1 of the present embodiment is a so-called digital camera that incorporates an image sensor for photographing a subject. As shown in FIG. 1, the exterior 2 of this camera has a front cover unit 2A, an intermediate cover unit 2B, a rear cover unit 2C, a connector lid 27, and a battery lid (not shown). It is assumed that a waterproof structure that is sealed through packing or the like is applied to the joint portion.

  A photographic lens barrel 3 that can be retracted is disposed in the front opening of the front cover unit 2A. A lens barrier 15 that opens and closes the front surface of the photographic lens 43 of the photographic lens barrel 3 is attached to the front portion of the front cover unit 2A so as to be slidable in the left-right direction. The lens barrier 15 is opened and closed when the photographing lens 43 is in the retracted position. Hereinafter, the photographing lens barrel is referred to as a lens barrel.

  A release switch operation button 51 is disposed on the upper surface of the middle cover unit 2B.

  A finder eyepiece window portion 25a, an LCD display window portion 25b, switch operation button groups 54 and 55, and the like are disposed on the back surface of the rear cover unit 2C. A battery lid (not shown) that can be opened and closed is disposed on the bottom surface.

  Further, the connector cover 27 is supported at the left end portion of the rear cover unit 2C so as to be freely opened and closed. The connector cover 27 supports the video output terminal section 64 and the USB terminal section 65 which are external connector terminal sections. Furthermore, the card opening of the memory card (recording medium) insertion card slot 63 is opened and closed.

Next, the structure of the camera 1 of this embodiment is demonstrated using FIG.
The camera 1 includes a front cover unit 2A, a middle cover unit 2B, a rear cover unit 2C, a connector lid 27 (not shown), a battery lid (not shown), and the camera exterior 2 as the camera exterior 2 described above. A lens barrel assembly unit 70 as a lens barrel unit including a lens barrel 3 and an LCD display unit 11 as main constituent members incorporated therein, a strobe light emitting unit 5 having a strobe light emitting tube 49, and a finder optical A finder unit 4 having a built-in system, electric boards (A), (B), (C) 6, 7, and 8, a middle frame 24 provided with a battery chamber 24a for storing a power supply battery 12, and a strobe light emission And a release switch operation button 51, an operation switch board 53, and the like.

  The front cover unit 2A is an exterior that protects the front side of the camera, and includes a front cover plate 21 that forms a metal (aluminum, etc.) thin plate exterior, and a synthetic resin that is adhesively fixed to the inside of the front cover plate 21. And a front cover frame 22 for assembly.

  Similarly, the middle cover unit 2B is an exterior of the central portion of the camera, and includes an intermediate cover plate 23 that forms an exterior portion made of a metal (aluminum, etc.) thin plate.

  Further, the rear cover unit 2C is an exterior that protects the rear side of the camera. The rear cover plate 25 that forms an exterior portion made of a thin metal (aluminum, etc.) sheet, and a composite that is bonded and fixed to the inside of the rear cover plate 25. The rear cover frame 26 for assembly is made of resin.

  The front cover frame 22 and the rear cover frame 26 are joined by inserting a screw (not shown) and screwed, and the exterior of the camera 1 is connected by the front cover plate 21, the intermediate cover plate 23, and the rear cover plate 25. Is formed.

  The front cover plate 21 is provided with a strobe light emission window 33, a finder window 32, and a self-timer LED window 34 at the center upper part, a remote control window 35 at the center lower part, and a left opening. The front ring 31 having the photographing lens opening 31a is bonded and fixed to the portion. Further, the front cover frame 22 is provided with a barrier guide groove 22 a extending in the left-right direction at the vertical position of the front cover plate 21.

  The lens barrier 15 is slidably fitted into the barrier guide groove 22a. The lens barrier 15 can be slid into a closed position (right position) for closing the photographing lens opening 31a and the strobe light emission window 33 and the open position (left position).

  The front ring 31 is provided with a barrier contact protrusion 31b that can contact the tip of the lens barrier 15 in the closed position at the outer peripheral right end, and when the lens barrier 15 in the closed position is pressed, When the front end of the lens barrier 15 abuts on the protrusion 31b, the front cover plate 21 is prevented from being deformed or damaged, and further, the lens barrier is not deformed.

  A finder unit 4 incorporating a finder optical system is disposed behind the finder window 32 of the front cover plate 21.

  A strobe light emitting unit 5 including a strobe light emitting tube 49 is disposed behind the strobe light emitting window 33 of the front cover plate 21.

  The middle cover plate 23 is provided with a release button opening 23a and a DC terminal notch 23b. A release switch operation release button 51 is inserted into the release button opening 23a.

  The middle frame 24 is provided with a battery chamber 24a having a battery storage space at the left side opposite to the imaging unit and having a lower opening into which the power battery 12 can be inserted. A side protrusion is formed, a screw insertion hole 24b for fixing the unit mounting plate 48, which will be described later, at the end of the protruding portion, a screw screw hole 24c (FIG. 5) for fixing the unit mounting plate 48 on the back surface, and a side surface Are provided with locking protrusions 24d (FIG. 5). In addition, a vertically long space capable of storing the strobe capacitor 14 in the vertical direction is formed in the space on the right side of the middle frame 24 and below the rightward protruding portion.

  A battery cover plate 81 also serving as a heat transfer member for a battery chamber made of a thin metal plate is attached to the rear surface of the middle frame 24 so as to cover the battery 12 of the battery chamber 24a accommodated as shown in FIG. Is done. The battery cover plate 81 has two locking holes 81a, is engaged with the protrusions 24d of the middle frame 24, and is screwed onto the middle plate 24 together with the contact pieces 82 by screws 83 into the screw holes 24e. It is done. In this way, by adopting a structure in which the battery cover plate 24 is attached to the battery chamber 24a, the middle frame 24 is easy to mold in addition to improving the heat dissipation of the battery chamber 24a.

  In addition, a contact piece 82 of an elastic contact member formed of an elastically deformable metal plate spring is fixed to the rear cover plate 25 on the back surface of the battery cover plate 81 with a screw 83. As the material of the leaf spring, a metal plate having good thermal conductivity, for example, a phosphor bronze plate is suitable. The contact portions 82a and 82b extending up and down of the contact piece 82 abut against the two contact portions 25f on the left inner surface portion of the rear cover plate 25 in a pressure contact state in the assembled state in the camera. Therefore, heat generated by the battery 12 or the ASIC of the electric board (B) 7 is radiated to the left surface of the rear cover plate 25 through the contact piece 82.

  A finder eyepiece window portion 25a, an LCD window portion 25b, a zoom switch button group 54, and a mode setting button group 55 are disposed on the back surface portion of the rear cover plate 25. Further, in the rear cover plate 25, An operation switch board 53 operated by the zoom switch button group 54 and the mode setting button group 55 is disposed.

  The rear cover frame 26 is provided with a DC-IN terminal opening 26a in the lower left portion and a battery insertion opening 26b having a battery lid (not shown) that can be opened and closed at the bottom.

  The electric board (A) 6 is a board that is arranged in a parallel state close to the front cover plate 21 and constitutes a power supply section, on which the power supply circuit section is mainly mounted. . As shown in FIG. 6, the electric board (A) 6 has a metal leaf spring contact piece 85, which is a heat transfer member for power supply and is an elastic contact member, fixed to the front mounting surface side. The contact piece 85 is attached with screws 86 and 87 in a state of straddling the mounting area 6a on the mounting surface, and can be elastically deformed in the front-rear direction and extended in the left-right direction. 85a and 85b. The contact piece 85 is disposed between the front cover plate 21 and the electric board (A) 6 when attached.

  The electric board (B) 7 is a main control board as a battery chamber front side board, on which an ASIC that is an image processing circuit and various control circuit units are mounted, and further, a video output connector terminal 64 and a USB connector. The terminal portion 65 is mounted with a connector 61 for connection to the imaging substrate 10 side, a card slot 63 into which a memory card can be mounted, and the like. The card slot 63 is located inside the card opening on the left end surface of the rear cover frame 26. The terminal portions 64 and 65 are located inside the terminal opening on the left end surface of the rear cover frame 26. The ASIC is an IC that requires heat dissipation.

  The electric boards (A), (B) 6, 7 are fixedly supported at a predetermined distance from the left side of the lens barrel 3 and in front of the middle frame 24. That is, in the assembled state of the camera, the electric board (B) 7 is arranged at the front part of the battery chamber 24a, and further, the electric board (A) 6 is arranged at the front part in a state facing the inner surface of the front cover plate 21. The

  In the assembled arrangement state, the contact portions 85a and 85b of the contact piece 85 attached to the electric board (A) 6 are in contact with the contact portions 21a and 21b (FIG. 2) on the left inner surface of the front cover plate 21 in a pressure contact state. To do. Therefore, the heat generated by each mounted component on the electric board (A) 6 is transmitted to the surface of the front cover plate 21 via the contact piece 85 and is radiated. Note that the contact portions 21a and 21b on the left inner surface of the front cover plate 21 are in the vicinity of the grip portion 21c, but are the inner surfaces of the portions covered by the lens barrier 15 in the photographing state.

  Further, the heat generated by the ASIC or the like mounted on the electric substrate (B) 7 disposed in a state of facing the middle frame 24 is transmitted to the middle frame 24, and further the battery attached to the middle frame 24. Heat is radiated to the rear cover 25 side along with the heat of the battery 12 through the cover plate 81 and the contact piece 82.

  The electric board (C) 8 is fixedly supported on the lower side of the lens barrel 3 in a state of protruding to the right side of the middle frame 24, and is mainly mounted with a strobe control circuit unit and a strobe capacitor 14, and further includes a DC Connector terminals 66 are mounted. The terminal 66 is located inside the DC terminal opening 26 a on the right end surface of the rear cover frame 26.

  As shown in FIG. 3, the lens barrel periphery assembly unit 70 includes a lens barrel 3, an imaging substrate 10 as a lens barrel side electric substrate as an imaging unit, a photographing lens unit including a lens driving unit 13, and an image display. And a unit mounting plate 48 that is a mounting member for holding the photographing lens unit and the LCD display unit 11 and is assembled as one unit.

  The lens barrel 3 includes a fixed frame 41 having a waterproof packing 44 attached to the outer periphery, a movable frame 42 supported by the fixed frame 41 so as to be movable back and forth in the optical axis O direction, a holding frame 43, a mirror It has a CCD substrate 9 as an image pickup device substrate on which a CCD 46 as an image pickup device is mounted at the image plane position of the photographing lens 43 inside the cylinder, and a CCD positioning plate 75.

  The CCD substrate 9 is fixedly supported on the back surface (lens barrel back surface) of the fixed frame 41 with its main plane (widest surface or functionally main surface) orthogonal to the optical axis O. The CCD 46, which is an image sensor, is mounted at the imaging plane position of the photographing lens 43 on the inner surface side of the lens barrel, and a part of the imaging circuit is mounted. The CCD 46 mounted on the CCD substrate 9 is positioned and fixed to the fixed frame 41 via a metal CCD positioning plate 75 that also serves as an imaging heat transfer member. That is, the CCD 46 is mounted at a predetermined position of the CCD positioning plate 75 shown in FIG. It is fixed to the fixed frame 41 by the inserted screw. The CCD positioning plate 75 is provided with a screw screw hole 75d at a protruding portion which becomes a heat transfer portion at the rear portion.

  The lens driving unit 13 is disposed in a state of protruding in the left direction on the front side of the fixed frame 41, and includes a driving force transmission unit such as a gear train therein, and a driving motor 45 serving as a lens driving source at a lower position. Is provided to move the moving frame 42 to perform the collapsing operation and zoom adjustment.

  The unit mounting plate 48 is a mounting plate made of a metal plate that is arranged in parallel to and close to the rear cover plate 25 behind the CCD 46 and also serves as an imaging heat transfer member. The mounting plate 48 is arranged in a relief opening 48a for the CCD substrate 9, a screw insertion hole 48b arranged around the escape opening 48a, a screw screw hole 48c arranged in an upward bent protruding portion, and a lower left protruding portion. A screw insertion hole 48d, a screw screw hole 48e disposed in the lower right folded protrusion, and a screw insertion hole 48f are provided. The unit mounting plate 48 is fixed on the rear surface of the fixed frame 41 by screwing screws 76 into screw screw holes 41b arranged on the rear surface orthogonal to the optical axis O of the fixed frame 41 through screw insertion holes 48b. The Further, the screw 77 is inserted into the screw insertion hole 48f and screwed into the screw screw hole 75d of the CCD positioning plate 75, and the CCD positioning plate 75 and the unit mounting plate 48 are connected. With this connection, the heat of the CCD 46 can be transmitted to the unit mounting plate 48.

  Further, an elastically deformable metal plate spring contact piece 72 as an imaging heat transfer elastic contact member is disposed at a position between the rear cover plate 25 at a position below the left rear surface of the unit mounting plate 48, and the unit mounting plate 48 and fastened to the middle frame 24 by fastening. That is, by screwing a screw 78 into which the screw insertion hole 72b of the contact piece 72 and the screw insertion hole 48d of the unit mounting plate 48 are inserted into the screw screw hole 24c of the middle frame 24, the contact piece 72 is attached to the unit. The plate 48 and the middle frame 24 are fixed together. The contact portion 72a at the tip of the contact piece 72 is in pressure contact with the contact portion 25d (FIG. 2) at the lower left side of the LCD display window portion (opening portion) 25b on the inner surface of the rear cover plate 25 in the camera built-in state. Is abutted. The heat transmitted to the unit mounting plate 48 by the contact piece 72, that is, the heat of the CCD 46, the TGIC 74 and the LCD unit 71 described later, is transmitted to the rear cover plate 25 side.

  Further, a contact piece 73 of an elastically deformable metal plate spring, which is a heat transfer elastic contact member for an imaging circuit shown in FIG. 3 to be described later, is fixed to the upper left portion of the unit mounting plate 48 with screws 79.

  The LCD display unit 11 has an LCD unit 70 composed of an LCD element or the like of image display means for displaying a photographed image or various information data. The LCD unit 70 is held by an LCD frame 71 made of a metal plate. Has been.

  As shown in FIG. 3, the LCD display unit 11 is bonded and fixed to the back surface of the unit mounting plate 48 with a double-sided adhesive tape in a state where the LCD display surface is orthogonal to the optical axis O and is directed to the back surface side. The lens barrel periphery assembly unit 70 is assembled and unitized. Note that, in the unitized state, the LCD display unit 11 is in a state in which a part thereof protrudes from the back side of the fixed frame 41 of the lens barrel 3. Further, the heat generated in the LCD display unit 11 is transmitted to the unit mounting plate 48 side in the bonded state.

  As shown in FIG. 3, the imaging board 10 includes a TGIC (timing generator IC) 74 that is a part of the imaging circuit for processing the imaging output signal of the CCD 46, and a connector for connection to the electrical board (B). 62 and the like are mounted, and are connected to the CCD substrate 9 and the flexible printed circuit board 47 through the connector 62.

  The imaging substrate 10 is located in a space between the protruding portion of the lens driving unit 13 and the protruding portion on the left side of the fixed frame 41 of the LCD display unit 11, and the main plane of the substrate is the optical axis O. And fixedly supported by the fixed frame 41 in a state where the longitudinal direction of the substrate is along the vertical direction (vertical direction).

  The contact piece 73 on the unit mounting plate 48 side is in pressure contact with the surface of the TGIC 74 mounted on the imaging substrate 10 in the fixed support state. That is, the silicon rubber portion 73 a disposed at the tip of the contact piece 73 comes into contact with the surface of the TGIC 74 in a pressure contact state. Therefore, the heat generated by the TGIC 74 is transmitted to the unit mounting plate 48 side via the contact piece 73.

  The contact piece 73 may be formed as an integral part of the unit mounting plate 48. In that case, it is necessary to obtain a reliable contact force with the elasticity of silicon rubber with respect to the TGIC 74. Further, the silicon rubber 73a may be a sheet material having good thermal conductivity, or the contact side 73 may be in direct contact with the TGIC 74.

  As described above, the lens barrel periphery assembly unit 70 has the imaging substrate 10, the unit mounting plate 48, and the LCD display unit 11 with respect to the fixed frame 41 of the lens barrel 3 on which the lens driving unit 13, the CCD substrate 9 and the like are mounted. Are assembled and unitized.

  When the above-described components of the camera 1 described above are incorporated into the camera exterior 2 of the camera 1, first, the strobe light emitting unit 5 is bonded and fixed to the inner surface of the front cover unit 2A, and the lens barrier 15 is attached to the guide groove 22a. It is inserted into and slidably attached.

  Then, the lens barrel periphery assembly unit 70 unitized by the unit mounting plate 48 is attached to the middle frame 24 on which the electric boards (A), (B), (C) 6, 7, and 8 are fixedly supported. Assemble as a camera built-in block.

  That is, the screw 56 is inserted into the screw insertion hole 24b of the middle frame 24 and screwed into the screw screw hole 48c of the upward bending projecting portion of the unit mounting plate 48, and the screw 78 is inserted into the screw insertion hole 72b of the contact piece 72 and By inserting the screw insertion hole 48d of the lower left protruding portion and screwing it into the screw screw hole 24c of the middle frame 24, the middle frame 24 and the lens barrel surrounding assembly unit 70 are integrated. Then, the screw 57 inserted through the screw insertion hole 8a provided on the DC terminal side of the electric board (C) 8 is screwed into the screw screw hole 48e of the unit mounting plate 48, and the tip of the electric board (C) 8 is attached. Fix to the unit mounting plate 48. Further, the connection connector 62 of the imaging board 10 is connected to the connection connector 61 of the electric board (B) 7. Further, a finder unit is attached to the upper portion of the fixed frame 41 of the lens barrel 3 and fixedly supported.

  The lens barrel assembly unit 70 and the camera built-in block made up of each electric substrate and the like are covered in a state of being sandwiched inside the front cover unit 2A and the rear cover unit 2C, and a screw (not shown) is inserted through the rear cover frame 26, The camera 1 is completed by screwing into a screw screw hole (not shown) of the cover frame 22.

  In the assembled state of the camera 1, the front end portion of the fixed frame 41 of the lens barrel 3 is fitted and attached to the inner peripheral portion of the front ring 31 attached to the front cover unit 2A. The packing 44 provided on the outer periphery of the fixed frame 41 is inserted into the inner peripheral surface of the front ring 31 while being deformed into a U-shaped cross section, and the fitting gap between the lens barrel 3 and the front cover unit 2A is waterproofed. The The moving frame 42 of the inserted lens barrel 3 is fitted into the photographing lens opening 31a of the front ring 31 via a waterproof packing (not shown) and can be photographed to project forward from a retracted position where photographing is impossible. It is possible to advance and retreat between positions. Furthermore, when the moving frame 42 is in the retracted position, the moving frame 42 and the front surface of the taking lens 43 are covered with the lens barrier 15. When the lens barrier 15 is slid and moved to the open position retracted from the front surface of the moving frame 42 and the photographing lens 43, the moving frame 42 is automatically extended to the photographing possible position. When the lens barrier 15 is in a closed position that covers the front surface of the photographic lens 43, when the lens barrier 15 is pressed by the user, the tip of the lens barrier 15 comes into contact with the protruding portion 31b of the front ring 31, so that the thin metal plate The front cover plate 21 is prevented from being deformed or damaged, and further, the lens barrier 15 is prevented from being deformed.

  Further, in the assembled state of the camera 1, the contact piece 85 of the electric base plate (A) 6 contacts the inner surface contact portion 21a of the front cover plate 21 with an appropriate pressure without adjustment at the time of assembly. The generated heat is reliably transmitted to the front cover plate 21. Further, since the contact piece 82 of the battery cover plate 81 attached to the inner frame 24 is also in contact with the inner surface contact portion 25f of the rear cover plate 25 at an appropriate pressure without adjustment during assembly, the battery 12 and the electric board ( B) Heat generated by the ASIC 7 is transmitted to the rear cover plate 25 reliably. Further, since the contact piece 72 of the unit mounting plate 48 is also brought into contact with the inner surface contact portion 25d of the rear cover plate 25 with an appropriate pressure without adjustment at the time of assembly, the CCD 46, TGIC 74, and LCD portion 70 of the lens barrel periphery assembly unit 70. The heat generated by the above is reliably transmitted to the rear cover plate 25.

  In the case of shooting with the camera 1 of the present embodiment having the configuration and arrangement described above, first, the battery 12 is loaded into the battery chamber 24 a and the memory card is loaded into the card slot 63. Therefore, when the lens barrier 15 is slid in the left direction and the front surface of the photographing lens 43 is opened, the moving frame 42 is extended to the photographing possible position. When the release switch operation button 51 is pressed in the extended state, an electrical signal of the subject image is generated by the CCD 46, and subject image image data subjected to image processing is recorded on the memory card.

  In the digital camera 1 of the present embodiment in which the respective constituent members are arranged as described above, the LCD display unit 11 is arranged on the back side of the lens barrel 3 having the CCD substrate 9 arranged on the right side of the camera. Furthermore, the imaging unit 10 is arranged on the left side, and the lens barrel assembling unit 70 is assembled in a unitized state. Therefore, it contributes to the downsizing of the camera, in particular, the reduction in thickness, and at the same time the camera assembly operation is facilitated. Further, the battery chamber 24a and the electric boards (A), (B) 6, 7 are arranged on the left side of the camera, the strobe light emitting unit 5 is arranged in the upper center of the camera, and behind the strobe light emitting unit 5. Since the strobe condenser 14 is housed in a vertically long space sandwiched between the battery chamber 24a and the lens barrel 3, the digital camera 1 can reduce the size of the camera without impairing the functions inherent to the camera. It is possible to reduce the thickness and provide a digital camera with good portability and ease of use.

  In the camera 1 of the present embodiment, the heat generated in the power supply unit is efficiently transmitted to the left side of the front cover plate 21 and the portion covered with the lens barrier 15 at the time of shooting. Further, the heat generated by the TGIC of the battery unit and the control circuit is efficiently transmitted to the left side of the rear cover plate 25. Furthermore, heat generated in the image pickup unit such as a CCD or the LCD unit is efficiently transmitted to the left side of the LCD window opening at the center of the rear cover plate 25. The camera exterior of the camera 1 has a waterproof structure, and the inside of the camera is shut off from the outside, but the heat generated inside the exterior as described above is the front cover plate as described above. 21 and the rear cover plate 25 are stably transmitted in a dispersed state, so that the temperature rise of the power supply unit, the imaging unit, and the LCD display unit can be suppressed, and a desired shooting image quality performance can be satisfied. . In addition, since only a part of the camera exterior is not heated, it is transmitted in a distributed manner to each part of the camera exterior, so that holding of the camera at the time of shooting is not hindered. Further, the heat generated in the power supply unit is transmitted to the portion covered by the lens barrier 15 at the time of photographing although it is in the vicinity of the grip portion 21c of the front cover plate 21, so that the camera hold is not hindered.

  In the camera of the above-described embodiment, the contact piece 72 that is the heat transfer elastic contact is attached to the unit mounting plate 48 of the lens barrel periphery assembly unit 70, but this is a modification to the contact piece, and is in contact with the LCD frame. A lens barrel assembly unit 70A having a configuration in which a piece is formed can be proposed.

  FIG. 7 is an exploded perspective view of the lens barrel periphery assembly unit of the modified example, and FIG. 8 is a perspective view of the rear cover plate with which the contact pieces of the LCD frame in the modified example of FIG. FIG.

  In the lens barrel periphery assembling unit 70A of the above-described modified example, the LCD frame 71 is an integral part that extends from the left side to the left side, and is an elastically deformable member that is a heat transfer elastic contact part for photographing and image display units. Two contact portions 71a are provided. When the contact portion 71a is incorporated in the camera, the contact portion 71a contacts the contact area 25e at the lower left position of the LCD display window (opening) 25b of the rear cover plate 25 shown in FIG. Then, the heat of the CCD 46 transmitted through the LCD unit 70 and the unit mounting plate 48 and the heat of the TGIC 74 (imaging unit) on the imaging substrate are transmitted to the rear cover plate 25 through the contact unit 71a.

  According to the camera to which the lens barrel assembly unit 70A of the present modification is applied, the same effect as the camera 1 of the above-described embodiment can be obtained, but in particular, the contact piece for heat transfer of the photographing unit and the image display unit is provided. Since it is provided integrally with the LCD frame 71, the number of components is reduced, assembly is simplified, and further cost reduction and downsizing can be realized.

The following configurations can be obtained based on the above-described embodiment and its modifications. That is,
(1) a photographic lens unit that forms a subject image;
An image sensor provided at the rear end of the photographing lens unit for photoelectrically converting a subject image;
A metal back cover that is close to the image sensor and protects the back of the camera;
Image display means for displaying a photographed image located on the back surface of the image sensor and arranged so that a display surface faces an opening formed in the rear cover;
An image display means holding member that is arranged in a state capable of transferring heat to the photographing lens section, holds the image display means, and has a heat transfer section provided to extend from at least one side of the held image display means;
And the heat transfer section contacts the periphery of the opening on the inner surface of the rear cover and transfers heat generated by the imaging device and the image display means to the rear cover.

It is a perspective view which shows the external appearance of the camera of one Embodiment of this invention. It is a disassembled perspective view of the camera of the said FIG. It is a disassembled perspective view of the lens barrel periphery assembly unit in the camera of FIG. FIG. 4 is a perspective view of a CCD substrate and an imaging substrate mounted on the lens barrel in FIG. 3. It is a disassembled perspective view of the inner frame and battery cover board accommodated in the camera of the said FIG. It is a perspective view of the electric board | substrate (A) to which the contact piece for heat transfer accommodated in the camera of the said FIG. 1 was attached. FIG. 4 is an exploded perspective view of a lens barrel periphery assembly unit in which a contact piece is formed on an LCD frame, which is a modification of the lens barrel periphery assembly unit in the camera of the embodiment of FIG. 1. It is the perspective view which looked at the back cover board which shows the part which the contact piece of the LCD frame in the modification of the said FIG. 7 contacts from the inner surface side.

Explanation of symbols

3 ... Shooting lens barrel (shooting lens)
25 ... Rear cover plate (rear cover)
46 ... CCD (imaging device)
48 ... Unit mounting plate (heat transfer member for imaging)
70: LCD unit (image display means)
71a ... contact part (heat transfer part)
72 ... contact piece (elastic contact member, heat transfer part)
75 ... CCD positioning plate (heat transfer part)

Claims (4)

A photographic lens that forms a subject image;
An image sensor provided at the rear end of the photographing lens unit for photoelectrically converting a subject image;
A rear cover that is close to the image sensor and protects the back of the camera;
Image display means for displaying a photographed image located on the back surface of the image sensor and arranged so that a display surface faces an opening formed in the rear cover;
An attachment member having a heat transfer portion provided with the photographing lens portion and the image display means attached, and extending from at least one side of the attached image display means;
The camera is characterized in that the heat transfer section contacts the inner surface of the rear cover and transfers heat generated by the imaging device and the image display means to the rear cover.   The camera according to claim 1, wherein an inner surface portion of the rear cover is a lower left portion of the opening.   The camera according to claim 1, wherein the rear cover is made of metal.   The camera according to any one of claims 1 to 3, wherein the inside of the camera including the photographing lens unit and the image display means is configured by a waterproof structure.

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