JP2010191381A - Digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide constitution capable of fixing a capacitor for a stroboscope without disturbing downsizing in a digital camera including a strobe light emitting part and the capacitor for the stroboscope. <P>SOLUTION: The digital camera includes: the columnar capacitor for the stroboscope which holds a charge used for the strobe light emitting part; a relay substrate on the one surface of which the capacitor for the stroboscope is soldered so as to be erected and on the other surface of which a lead wire for electrically connecting an electric board and the capacitor for the stroboscope is soldered; and a holding member which is formed of an electric insulating material, holds the relay substrate at the other surface side and has a second engaging part engaged with a first engaging part formed at a front side housing from the rear side. By combining the front side housing and a rear side housing in such a state that the second engaging part is engaged with the first engaging part, the capacitor for the stroboscope is positioned. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a digital camera including a strobe light emitting unit.

  2. Description of the Related Art There is known a digital camera configured to capture and record an optical image as electronic image data using an imaging lens and an imaging element. The main components that determine the external dimensions of the casing of the digital camera are an imaging unit, an image display device, a power supply battery, a recording medium, an electric board, an operation member, and a strobe device. Here, the imaging unit includes a lens barrel that holds an imaging lens and an imaging element.

  In particular, the strobe device has a low degree of freedom in the shape of the strobe capacitor and requires wiring and a circuit with a high voltage. Therefore, the strobe device is difficult to downsize, and tends to hinder downsizing of the digital camera.

  Therefore, for example, Japanese Patent Application Laid-Open No. 2008-216534 discloses a technique that can reduce the number of parts by configuring the strobe device integrally with the terminal portion of the power supply battery, thereby reducing the size of the digital camera. Yes.

JP 2008-216534 A

  In the technique disclosed in Japanese Patent Application Laid-Open No. 2008-216534, since the strobe capacitor is fixed in the digital camera by housing the strobe capacitor in the case, the thickness of the case reduces the size of the digital camera. It will be disturbed.

  The present invention has been made in view of the above points, and provides a configuration capable of fixing a strobe capacitor without hindering downsizing in a digital camera including a strobe light emitting unit and a strobe capacitor. For the purpose.

  The digital camera of the present invention is exposed to the front of the front case, a case that can be divided into a front case and a rear case, a first engagement portion provided on the rear side of the front case, and the front case. A strobe light emitting unit, an electric board disposed on a rear side of the strobe light emitting unit, and having a light emission control circuit for controlling light emission of the strobe light emitting unit; and a rear side of the electric board, the strobe light emitting unit A columnar strobe capacitor for holding the electric charge used for the above-mentioned and soldered so that the strobe capacitor is erected on one surface, and the electric substrate and the strobe capacitor are electrically connected to the other surface. A relay board soldered to a lead wire connected to the second wiring board, and an electrically insulating material that holds the relay board on the other surface side and engages the first engagement portion from the rear side. A holding member having an engaging portion; And by engaging the second engagement portion with the first engagement portion, the strobe capacitor is positioned in the left-right direction and the up-down direction with respect to the case, and the front case and the By combining a rear case, the strobe capacitor is sandwiched between the electric substrate and the rear case, and the strobe capacitor is positioned in the front-rear direction with respect to the front case.

  According to the present invention, it is possible to provide a configuration capable of fixing a strobe capacitor without hindering miniaturization in a digital camera including a strobe light emitting unit and a strobe capacitor.

It is a perspective view which shows the front side of a digital camera. It is a rear view of a digital camera. FIG. 3 is a sectional view taken along line III-III in FIG. 2. It is a disassembled perspective view of a digital camera. It is a figure for showing the electrical connection of a control unit and a capacitor unit in the case of a digital camera. It is a disassembled perspective view of a capacitor unit. It is a perspective view which shows the state which assembled the capacitor unit. It is a figure explaining the positional relationship of a holding member and a soldering part. It is a figure explaining the mode of engagement with a holding member and a front case. It is a figure which shows the state which the holding member engaged with the front side housing | casing.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. In each drawing used for the following description, the scale is different for each component in order to make each component large enough to be recognized on the drawing. It is not limited only to the quantity of the component described in the figure, the shape of the component, the ratio of the size of the component, and the relative positional relationship of each component.

  FIG. 1 is a perspective view showing the front side of the digital camera. FIG. 2 is a rear view of the digital camera. 3 is a cross-sectional view taken along the line III-III in FIG. FIG. 4 is an exploded perspective view of the digital camera. FIG. 5 is a diagram illustrating electrical connection between the control unit and the capacitor unit in the housing of the digital camera. FIG. 6 is an exploded perspective view of the capacitor unit. FIG. 7 is a perspective view showing a state where the capacitor unit is assembled. FIG. 8 is a diagram illustrating the positional relationship between the holding member and the soldering portion. FIG. 9 is a diagram for explaining a state of engagement between the holding member and the front housing. FIG. 10 is a diagram illustrating a state in which the holding member is engaged with the front housing.

  As shown in FIG. 1, the digital camera 1 of the present embodiment has a box-shaped housing having a substantially rectangular parallelepiped shape. Here, in the present embodiment, the surface facing the subject when the digital camera 1 captures an image is referred to as the front of the digital camera 1. Further, the surface that the user faces when using the digital camera 1, that is, the surface opposite to the front surface is referred to as the back surface of the digital camera 1.

  Further, in a state where the digital camera 1 is held at a so-called upright position (a normal photographing state, a so-called lateral position state), an upper surface is referred to as an upper surface of the digital camera 1. The surface facing the top surface of the digital camera 1 is referred to as the bottom surface.

First, a schematic configuration of the digital camera 1 will be described below.
As shown in FIG. 1, the housing of the digital camera 1 includes a front housing 10 and a rear housing 20. As will be described in detail later, constituent members for realizing each function of the digital camera 1 are held at predetermined positions in the housing.

  The front housing 10 has a shape that mainly covers the front surface of the digital camera 1 and further covers a part of the left side surface, right side surface, top surface, and bottom surface. The rear housing 20 has a shape that mainly covers the back surface of the digital camera 1 and further covers a part of the left side surface, right side surface, top surface, and bottom surface.

  In other words, the front housing 10 and the rear housing 20 have a substantially box shape in which the rear side (rear side) and the front side (front side) are opened. The housing of the digital camera 1 is configured by combining the front housing 10 and the rear housing 20 with the openings facing each other.

  In the present embodiment, as an example, the front housing 10 and the rear housing 20 have functions as exterior members that constitute the external appearance of the digital camera 1. Of course, it goes without saying that the digital camera 1 may be configured to include other exterior members that cover at least a part of the outside of the front housing 10 and the rear housing 20.

  In front of the digital camera 1, a lens barrel 31 that houses an imaging lens and a strobe light emitting unit 41 are disposed. The lens barrel 31 holds the imaging lens so that the optical axis O is substantially orthogonal to the front of the digital camera 1.

  In the present embodiment, as an example, the lens barrel 31 can be expanded and contracted in a direction along the optical axis O, and is accommodated in the main body of the digital camera 1 during the non-imaging operation of the digital camera 1. It is a cylinder.

  The lens barrel 31 is arranged so that the optical axis O is biased to the right side of the center portion of the front of the digital camera 1. This is because the digital camera 1 according to the present embodiment assumes that the left side of the main body is grasped by a human right hand. In other words, the lens barrel 31 is disposed on the opposite side of the grip portion on the front surface of the digital camera 1. The lens barrel 31 is a member constituting an imaging unit 30 (not shown in FIG. 1), which will be described in detail later.

  The strobe light emitting unit 41 emits a flash for illuminating the subject. The configuration of the strobe light emitting unit 41 is well known and will not be described in detail. However, the strobe light emitting unit 41 generally includes a xenon tube that emits light. The strobe light emitting unit 41 is appropriately provided with a reflector, a lens, and the like so that light emitted from the xenon tube is irradiated with a predetermined intensity distribution in a predetermined angular range in front of the digital camera 1. The

  The strobe light emitting unit 41 is disposed on the left side and on the upper side of the center of the front surface of the digital camera 1. In other words, the strobe light emitting unit 41 is disposed on the front side of the digital camera 1 substantially above the gripping unit. The strobe light emitting unit 41 is a member constituting a control unit 40 (not shown in FIG. 1), which will be described in detail later.

  On the top surface of the digital camera 1, a power switch 2, a shutter release switch 3, and a zoom switch 4 are disposed. The power switch 2, the shutter release switch 3, and the zoom switch 4 are arranged so as to be biased to the left side (gripping part side) of the upper surface so that fingers can easily reach when the digital camera 1 is gripped.

  As shown in FIG. 2, an image display device 60 and an operation member 51 are disposed on the back surface of the digital camera 1.

  The image display device 60 is a so-called flat panel display having a substantially rectangular display surface, and includes, for example, a liquid crystal display device capable of color display or an organic electroluminescence display device. The image display device 60 displays photographing conditions such as an aperture value and a shutter speed, a real-time moving image of a subject called a so-called electronic finder or live view, and a photographing result when the digital camera 1 performs an photographing operation. Further, during the playback operation of the digital camera 1, the image display device 60 displays, for example, a still image or a moving image recorded on a recording medium in the main body of the digital camera 1.

  The image display device 60 is arranged so that the display surface is along the back surface of the digital camera 1. Further, the image display device 60 is arranged to be biased to the right side on the back surface of the digital camera 1. In other words, the image display device 60 is disposed on the back side of the digital camera 1 on the side opposite to the grip portion, and is disposed on the rear side of the lens barrel 31.

  The operation member 51 is a member for a user to input an operation instruction to the digital camera 1 and includes a push switch, a dial switch, a volume switch, a lever switch, a pressure sensitive switch, a touch sensor, and the like. In the present embodiment, as an example, the operation member 51 includes a dial switch 52 and a plurality of push switches 53.

  The operation member 51 is disposed on the back surface of the digital camera 1 so as to extend in the vertical direction at a position that does not overlap the image display device 60. In other words, the operation member 51 is arranged on the left side (operation unit side) on the back surface of the digital camera 1. The operation member 51 is a member constituting an operation unit 50 (not shown in FIG. 2), which will be described in detail later.

  A lid member 5 is disposed on the bottom surface of the digital camera 1. The lid member 5 is configured to be freely opened and closed by a hinge portion and a lock mechanism (not shown). The lid member 5 is disposed to open and close an opening of a storage chamber 7 provided inside the digital camera 1. The storage chamber 7 is a space for storing the power battery and the recording medium in the housing of the digital camera 1. The lid member 5 can be opened by operating the lock mechanism as shown by a two-dot chain line in FIG.

Next, the internal configuration of the digital camera 1 will be described below.
As shown in the cross-sectional view of FIG. 3 and the exploded perspective view of FIG. 4, the imaging unit 30, the control unit 40, the operation unit 50, the image display device 60, and the capacitor unit 70 are arranged inside the housing of the digital camera 1. It is installed.

  In addition to the above-described imaging lens 32 and the lens barrel 31 that holds the imaging lens 32, the imaging unit 30 includes a drive mechanism unit for driving the zoom operation, focusing operation, collapsing operation, and the like of the lens barrel 31, and An imaging device 33 is provided.

  The drive mechanism unit of the image pickup unit 30 includes one or a plurality of electric motors, and enables the lens barrel 31 to be extended and at least a part of the image pickup lens 32 to be moved by a speed reduction mechanism, a cam mechanism, or the like. . For example, in the present embodiment, the drive mechanism unit includes a zoom motor 34 that serves as power for zoom operation of the lens barrel 31. The zoom motor 34 is disposed on the right side of the imaging unit 30, that is, on the right side of the lens barrel 31.

  In addition, the imaging element 34 includes a photoelectric conversion element called a CCD (Charge Coupled Device) sensor, a CMOS (Complementary Metal Oxide Semiconductor) sensor, or the like. Has been.

  Although not shown, the imaging unit 30 is appropriately provided with an aperture mechanism, a shutter mechanism, an optical filter such as an ND filter and a low-pass filter, and the like. Further, the imaging unit 30 may include an image blur correction mechanism that shifts the image sensor 34 to perform image blur correction.

  The imaging unit 30 is fixed in a state where the lens barrel 31 is positioned on the right side of the front housing 10 so that the lens barrel 31 can protrude frontward from a through hole 10 a provided in the front housing 10.

  The control unit 40 is disposed on the left side of the imaging unit 30 in the housing of the digital camera 1. The control unit 40 has a flat shape that is thin in the front-rear direction, and is disposed to be biased toward the front side in the housing of the digital camera 1.

  The control unit 40 includes the strobe light emitting unit 41, the battery holding unit 42, the recording medium holding unit 43, and the electric substrate 44 described above. The strobe light emitting unit 41 is disposed on the uppermost front side of the control unit 40.

  A battery holding unit 42 is disposed below the strobe light emitting unit 41. The battery holding unit 42 is configured to hold the power battery inserted from the opening of the storage chamber 7 provided on the bottom surface of the digital camera 1 at a predetermined position in the storage chamber 7.

  On the rear side of the strobe light emitting unit 41 and the battery holding unit 42, an electric substrate 44 is disposed. The electric substrate 44 is a double-sided mounting substrate on which an electric circuit for controlling the operation of the digital camera 1 is formed. The electric board 44 includes, for example, a main control circuit that controls the entire digital camera 1, an image processing circuit that processes a video signal from the image sensor 33, a light emission control circuit that controls light emission of the strobe light emitting unit 41, and an image display device 60. A display control circuit for controlling display, an input / output circuit, a clock circuit, a power supply circuit, and the like are provided.

  A recording medium accommodating portion 43 is disposed below the front surface of the electric substrate 44. The recording medium storage unit 43 is configured to hold the recording medium in a predetermined position in the storage chamber 7 and to electrically connect the electric substrate 44 and the recording medium. The recording medium accommodating portion 43 is mounted on the front surface of the electric substrate 44 so that the opening for inserting the recording medium faces downward in the accommodating chamber 7.

  In the control unit 40 described above, the battery holding unit 42, the recording medium holding unit 43, and the electric board 44 are arranged in order from the front side to the rear side of the digital camera 1, and above the battery holding unit 42. A strobe light emitting unit 41 is arranged. The control unit 40 is fixed to the left side of the front case 10 so that the strobe light emitting part 41 is exposed to the front side from the through hole 10b provided in the front case 10 in the assembled state as shown in FIG. The

  The image display device 60 is fixed by being sandwiched between the rear housing 20 and the holding plate 21 fixed to the front side of the rear housing 20. The holding plate 21 is made of a conductive material such as metal and is electrically connected to the ground potential of the power battery.

  In the present embodiment, the image display device 60 is disposed on the rear side of the imaging unit 30 so as to be exposed on the back surface of the digital camera 1. As shown in FIG. 3, the image display device 60 is larger in the left-right direction than the imaging unit 30, and when the digital camera 1 is viewed from the front, a protruding portion 60 a that partially protrudes to the left side of the imaging unit 30. It is arranged to have.

  The capacitor unit 70 includes a strobe capacitor 71 for holding electric charges used for light emission of the strobe light emitting unit 41. The strobe capacitor 71 has a substantially columnar shape extending in the vertical direction within the housing of the digital camera 1. In the present embodiment, the capacitor unit 70 includes two strobe capacitors 71 arranged in the left-right direction of the digital camera 1.

  As shown in FIG. 3, the capacitor unit 70 is a region between the control unit 40 disposed on the left side of the imaging device 30 and a projecting portion 60 a that projects to the left of the imaging unit 30 of the image display device 60. It is arranged.

  As will be described in detail later, in the capacitor unit 70, the second engagement portion 91 provided on the holding member 90 is engaged with the first engagement portion 11 formed on the back side near the outer peripheral edge portion of the front housing 10. As a result, the above-mentioned predetermined position in the housing is positioned.

  When the rear housing 20 is assembled to the front housing 10, the holding plate 21 fixed to the front side of the rear housing 20 comes into contact with the strobe capacitor 71 to bring the strobe capacitor 71 into contact. It is configured to urge forward. Around the strobe capacitor 71, a maltoprene 72 (sponge-like member), which is an elastic member for filling a gap between the strobe capacitor 71 and the control unit 40, is attached. The capacitor unit 70 having 71 is fixed in the housing without play.

  The operation unit 50 includes the operation member 51 described above and a substrate that supports the operation member 51. As shown in FIG. 3, the operation unit 50 is disposed on the rear side of the control unit 40 and in a region that does not overlap the image display device 60 and the capacitor unit 70 when the digital camera 1 is viewed from the front. ing. That is, the operation unit 50 is disposed on the left side of the image display device 60 and the capacitor unit 70. The operation unit 50 is fixed to the rear housing 20.

  Next, details of the configuration for electrically connecting the strobe light emitting unit 41, the light emission control circuit of the electric board 44, and the strobe capacitor 71 in the digital camera 1 of the present embodiment will be described.

  5 shows a state in which the holding member 90 is removed from the capacitor unit 70 for the sake of explanation. FIG. 6 shows a state where soldering between the strobe capacitor 71 and the relay substrate 80 is separated.

  Schematically, the pair of strobe capacitors 71 constituting the capacitor unit 70 are electrically connected to the electric substrate 44 (light emission control circuit) via the relay substrate 80, the first lead wire 101, and the second lead wire 102. Connected in parallel. The strobe light emitting unit 41 is electrically connected to the electric board 44 (light emission control circuit) via the third lead wire 103 and the fourth lead wire 104.

  In the present embodiment, the pair of strobe capacitors 71 constituting the capacitor unit 70 is of a type having a so-called radial lead wire 71a as shown in FIG. The pair of strobe capacitors 71 are both soldered with the lead wires 71a inserted into the through holes 81 of the relay substrate 80, and are erected on the lower surface 80a (one surface) of the relay substrate 80. It is fixed.

  The relay substrate 80 is a substrate in which the wiring pattern 84 is formed only on the upper surface 80b (the other surface). The wiring pattern 84 is formed so as to electrically connect a pair of strobe capacitors 71 in parallel.

  Lands 82 and 83 for soldering one end of the first lead wire 101 and the second lead wire 102 are formed. The lands 82 and 83 are electrically connected to the anode and the cathode of the strobe capacitor 71 via the wiring pattern 84, respectively.

  That is, one end of the first lead wire 101 and the second lead wire 102 is connected to the upper surface 80b of the relay substrate 80 by so-called surface soldering. The first lead wire 101 and the second lead wire 102 are electrically connected to the anode and the cathode of the strobe capacitor 71, respectively.

  On the other hand, the other ends of the first lead wire 101 and the second lead wire 102 are connected to a land (not shown) of a soldering portion 100 formed on the rear surface of the electric substrate 44 by soldering. That is, the other ends of the first lead wire 101 and the second lead wire 102 are connected to the rear surface of the electric substrate 44 by so-called surface soldering. As described above, since the soldering of the lead wire to the electric substrate 44 which is a multilayer substrate is performed by surface soldering without using the through hole, the degree of freedom of the wiring pattern of the electric substrate 44 is improved. It becomes easy to reduce the size.

  The lengths of the first lead wire 101 and the second lead wire 102 are set long with a margin in order to improve the ease of the soldering operation. Therefore, the first lead wire 101 and the second lead wire 102 are , With surplus part. As shown in FIG. 5, the surplus portion is formed into a substantially circular shape by extending the first lead wire 101 and the second lead wire 102 downward along the side surface of the strobe capacitor 71 and then turning back upward. It is accommodated in a space between a columnar strobe capacitor 71 and a substantially flat electric substrate 44.

  The first lead wire 101 and the second lead wire 102 are routed along each other, and are bundled by a bundling member 110 such as a heat shrinkable tube in the vicinity of the soldering portion 100 on the other end side. Thus, safety can be improved by bundling the first lead wire 101 and the second lead wire 102 with the bundling member 110.

  One ends of the third lead wire 103 and the fourth lead wire 104 are electrically connected to a xenon tube (not shown) in the strobe light emitting unit 41 disposed on the front side of the electric substrate 44. The third lead wire 103 and the fourth lead wire 104 are routed around the rear side of the electric substrate 44 through a notch 44 a provided at the upper end portion of the electric substrate 44.

  The other ends of the third lead wire 103 and the fourth lead wire 104 are connected to a land (not shown) of the soldering unit 100 formed on the rear surface of the electric substrate 44 by soldering. That is, the other ends of the third lead wire 103 and the fourth lead wire 104 are connected to the rear surface of the electric substrate 44 by so-called surface soldering. As described above, since the soldering of the lead wire to the electric substrate 44 which is a multilayer substrate is performed by surface soldering without using the through hole, the degree of freedom of the wiring pattern of the electric substrate 44 is improved. It becomes easy to reduce the size.

  As described above, in the digital camera 1 of the present embodiment, the strobe capacitor 71, the light emission control circuit of the electric board 44, and the strobe light emitting unit 41 include the relay board 80 and the first to fourth lead wires 101. ~ 104 are electrically connected.

  Next, in the digital camera 1 of the present embodiment, the strobe capacitor 71 is positioned and fixed immediately after the electric board 44 and on the front side of the protruding portion 60a of the image display device 60 as shown in FIG. Details will be described.

  As described above, the pair of strobe capacitors 71 are fixed on one surface of the relay substrate 80 by soldering. The relay substrate 80 is held by a holding member 90 disposed on the other surface side.

  The holding member 90 is a member formed of an electrically insulating material such as synthetic resin. The holding member 90 is provided with a fixing portion 93 for positioning and fixing the holding member 90 and the relay substrate 80. Although the configuration of the fixing portion 93 is not particularly limited, in the present embodiment, the fixing portion 93 has a claw portion that elastically clamps the front and rear end portions of the relay board 80, and is between the relay board 80. It has the structure engaged by what is called a snap fit.

  In addition, the holding member 90 has a substantially flat covering portion 92 that covers the upper surface 80b of the relay substrate 80 as shown in FIG. On the left side of the covering portion 92, a substantially flat flange portion 94 extending to the left side and the lower side is formed. As shown in FIG. 8, the flange portion 94 is formed so as to be substantially parallel to the rear surface of the electric substrate 44 and cover the soldering portion 100 in a state where the capacitor unit 70 is disposed immediately after the electric substrate 44. ing.

  In addition, a pair of second engaging portions 91 having convex portions protruding forward are formed on the upper surface of the covering portion 92. The pair of second engaging portions 91 formed on the holding member 90 is formed on the rear surface of the front housing 10 and is recessed on the front side (front in the optical axis direction) as shown in FIGS. 9 and 10. It is comprised so that it may engage in a pair of 1st engaging part 11 which is a recessed part. In addition, the recessed part recessed in the front side refers to the recessed part which opens toward the rear side of the digital camera 1, and has a bottom face part ahead of this opening.

  The second engaging portion 91 and the first engaging portion 11 have a shape that fits with a predetermined gap, and thereby, the holding member 90, that is, the left and right sides of the capacitor unit 70 with respect to the front housing 10. A direction and a position in the vertical direction are determined.

  Further, the second engaging portion 91 has a shape in which the tip is brought into contact with the bottom portion or the step portion in the first engaging portion 11. As described above, when the front housing 10 and the rear housing 20 are combined, the capacitor unit 70 is biased forward by the holding plate 21 of the rear housing 20, so that the second engagement The front-rear direction position of the capacitor unit 70 with respect to the front housing 10 is determined by the tip of the portion 91 coming into contact with the bottom or stepped portion in the first engaging portion 11.

  As described above, the digital camera 1 according to the present embodiment has the relay board 80 on which the columnar strobe capacitor 71 is soldered so as to stand upright on one side, and the relay on the other side of the relay board. The capacitor unit 70 includes a holding member 90 that holds the substrate 80. The holding member 90 of the capacitor unit 70 has a second engagement portion 91 that engages with the first engagement portion 11 formed in the vicinity of the outer peripheral edge portion of the back surface of the front housing 10 from the rear side. In addition, it is configured to be positioned with respect to the front housing 10 by being urged forward by the rear housing 20. The capacitor unit 70 is sandwiched and fixed between the electric board 44 and the rear housing 20.

  According to such a configuration, the strobe capacitor 71 can be fixed in the housing without being housed in a case, and the digital camera 1 can be easily reduced in size, particularly reduced in thickness. That is, according to the present embodiment, the strobe capacitor can be fixed without hindering the downsizing of the digital camera 1.

  In addition, since the holding member 90 is configured to hold the relay substrate without requiring a tool or an adhesive and to engage with the front housing 10, the assembly work of the digital camera 1 is facilitated. Furthermore, as shown in FIG. 9, the capacitor unit 70 is assembled as a unit and then connected to the electric substrate 44 via the first lead wire 101 and the second lead wire 102 having surplus portions, so that soldering is performed. Work becomes easy.

  By the way, in this embodiment, the area | region where the 1st-4th lead wires 101-104 to which a high voltage is applied is soldered to the relay board | substrate 80 or the electric board | substrate 44 is shown in FIG. It is covered with the part 92 and the collar part 94. In this way, by forming the member that covers the soldered portion of the lead wire with the electrically insulating member integrally with the holding member 90, it is possible to improve the safety and further reduce the size and the assembly of the housing. be able to.

  Further, in the present embodiment, the strobe capacitor 71 is urged and positioned by the holding plate 21 of the rear casing 20 that is electrically connected to the ground potential. In this way, the strobe capacitor 71 is fixed by the rear casing 20 having a ground potential, thereby improving safety and eliminating the need for a dedicated component such as a case for holding the strobe capacitor 71. It is possible to reduce the size of the housing and improve the assemblability.

  The present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the spirit or idea of the invention that can be read from the claims and the entire specification, and a digital camera with such a change Is also included in the technical scope of the present invention.

  As described above, the present invention is suitable for a digital camera including a strobe light emitting unit.

1 Digital camera,
2 Power switch,
3 Shutter release switch,
4 Zoom switch,
5 Lid member,
7 containment chamber,
10 Front housing,
11 1st engaging part,
20 rear housing,
21 holding plate,
30 imaging unit,
31 lens barrel,
32 imaging lens,
33 Image sensor,
34 Motor for zoom 40 Control unit,
41 Strobe flash unit,
42 battery holder,
43 recording medium holding unit,
44 electrical board,
50 operation units,
51 operation members,
52 Dial switch,
53 Push switch,
60 image display device,
70 capacitor unit,
71 Strobe capacitor,
80 relay board,
80a Lower surface (one surface),
80b upper surface (the other surface),
81 through hole,
82 rand
83 rand,
84 Wiring pattern,
90 holding member,
91 second engaging portion,
92 covering part,
93 fixing part,
94
100 soldering part,
101 first lead wire,
102 second lead wire,
103 third lead wire,
104 4th lead wire,
110 Bundling member.

Claims (5)

A housing that can be divided into a front housing and a rear housing;
A first engagement portion provided on the rear side of the front housing;
A strobe light emitting unit exposed on the front surface of the front housing;
An electric substrate disposed on the rear side of the strobe light emitting unit and having a light emission control circuit for controlling light emission of the strobe light emitting unit;
A columnar strobe capacitor disposed on the rear side of the electric substrate and holding a charge used in the strobe light emitting unit;
The relay board is soldered so that the strobe capacitor is erected on one side, and the lead wire for electrically connecting the electric board and the strobe capacitor is soldered on the other side;
A holding member made of an electrically insulating material, holding the relay board on the other surface side, and having a second engagement portion that engages with the first engagement portion from the rear side;
Comprising
By engaging the second engaging portion with the first engaging portion, the strobe capacitor is positioned in the left-right direction and the up-down direction with respect to the housing,
In addition, by combining the front housing and the rear housing, the strobe capacitor is sandwiched between the electric substrate and the rear housing, and the strobe capacitor is positioned in the front-rear direction with respect to the front housing. A digital camera characterized by being made. The first engagement portion is a recess formed on the back surface in the vicinity of the outer peripheral edge of the front housing,
The digital camera according to claim 1, wherein the second engaging portion is a convex portion that has a shape that fits into the concave portion and protrudes to the front side.   3. The digital camera according to claim 1, wherein a portion of the rear housing that holds the strobe capacitor is a holding plate for fixing the image display device to the rear housing. The lead wire is soldered onto a land formed on the other surface of the relay substrate,
4. The digital camera according to claim 1, wherein the holding member has a covering portion that covers a soldering portion between the lead wire and the relay substrate. 5. The lead wire is soldered onto a land formed on a rear surface of the electric board,
5. The digital camera according to claim 1, wherein the holding member has a flange portion that covers a soldered portion between the lead wire and the electric substrate.

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