WO2019171722A1 - Dispositif d'imagerie et unité d'imagerie - Google Patents

Dispositif d'imagerie et unité d'imagerie Download PDF

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Publication number
WO2019171722A1
WO2019171722A1 PCT/JP2018/047961 JP2018047961W WO2019171722A1 WO 2019171722 A1 WO2019171722 A1 WO 2019171722A1 JP 2018047961 W JP2018047961 W JP 2018047961W WO 2019171722 A1 WO2019171722 A1 WO 2019171722A1
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WO
WIPO (PCT)
Prior art keywords
outer casing
attached
imaging
cooling fan
imaging unit
Prior art date
Application number
PCT/JP2018/047961
Other languages
English (en)
Japanese (ja)
Inventor
浩司 泉
仁志 川畑
徳介 辻本
Original Assignee
ソニー株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ソニー株式会社 filed Critical ソニー株式会社
Priority to JP2020504806A priority Critical patent/JP7211411B2/ja
Publication of WO2019171722A1 publication Critical patent/WO2019171722A1/fr

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Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03BAPPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
    • G03B17/00Details of cameras or camera bodies; Accessories therefor
    • G03B17/02Bodies
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03BAPPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
    • G03B17/00Details of cameras or camera bodies; Accessories therefor
    • G03B17/02Bodies
    • G03B17/12Bodies with means for supporting objectives, supplementary lenses, filters, masks, or turrets
    • G03B17/14Bodies with means for supporting objectives, supplementary lenses, filters, masks, or turrets interchangeably
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03BAPPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
    • G03B17/00Details of cameras or camera bodies; Accessories therefor
    • G03B17/55Details of cameras or camera bodies; Accessories therefor with provision for heating or cooling, e.g. in aircraft
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K7/00Constructional details common to different types of electric apparatus
    • H05K7/20Modifications to facilitate cooling, ventilating, or heating

Definitions

  • This technology relates to the technical field of an imaging device and an imaging unit having an imaging function.
  • Imaging devices such as a video camera and a still camera have an accessory such as an interchangeable lens that can be attached to and detached from the mount portion.
  • an accessory such as an interchangeable lens that can be attached to and detached from the mount portion.
  • some of the imaging devices can be improved in functionality by being attached to the mount portion. (For example, refer to Patent Document 1).
  • a cooling fan is provided inside the outer casing in order to reduce the influence of heat generated from each part such as a circuit board disposed inside the outer casing, and is forced by the cooling fan.
  • a cooling flow path for cooling air is formed to suppress a temperature rise in each part such as a circuit board (for example, see Patent Document 1).
  • a cooling fan is arranged inside the outer casing. If the cooling fan breaks down or malfunctions, it is arranged inside the outer casing. There is a possibility that each part is affected by heat and a good operation state of the imaging apparatus cannot be secured.
  • the imaging device and the imaging unit of the present technology have an object of overcoming the above-described problems and improving the maintainability of the cooling fan to ensure a good operating state.
  • an imaging apparatus includes an outer casing in which an insertion hole into which a cooling fan is inserted is formed and a mount portion to which an accessory is attached.
  • the imaging apparatus can be attached to and detached from the outer casing.
  • An imaging unit that covers the insertion hole when attached to the housing, and the cooling fan is detachable from the outer housing via the insertion hole when the imaging unit is detached from the outer housing. It has been made.
  • the outer casing includes a top plate facing in the vertical direction and a peripheral plate whose upper edge is continuous with at least a part of the outer peripheral edge of the top plate,
  • the insertion hole is preferably formed in the peripheral plate.
  • the insertion hole is not formed in the top plate, so that moisture such as rain water does not easily enter the outer casing through the insertion hole.
  • the outer casing is provided with a pair of opposing side plates, and one of the side plates is formed with an intake hole that takes in external air as cooling air, It is preferable that an exhaust hole for discharging cooling air taken into the outer casing from the intake hole to the outside is formed in the other side plate.
  • a cooling air flow path is formed from the intake hole to the exhaust hole through the cooling fan by the rotation of the cooling fan, and the cooling flow
  • a heat radiating fin coupled to the outer casing is positioned on the path.
  • the heat generated in the imaging device is transmitted from the outer casing to the heat radiating fins and released from the heat radiating fins to the cooling flow path.
  • the outer casing is formed of a material having thermal conductivity, a plurality of circuit boards are attached to the outer casing, and the cooling fan is mounted on the outer casing. It is desirable to arrange at a position surrounded by the plurality of circuit boards in the attached state.
  • a control board is disposed inside the imaging unit, and the imaging unit is provided with exhaust heat fins that release heat generated in the control board.
  • the housing is formed with a fin insertion hole through which the exhaust heat fin is inserted in a state where the imaging unit is attached to the outer housing, and the exhaust heat fin is in the state where the imaging unit is attached to the outer housing. It is desirable to be located in the cooling channel.
  • a frame surface portion in which an inner space is formed as an arrangement space is provided in the outer casing, and at least a part of the imaging unit is inserted into the arrangement space. It is desirable to be attached to the outer casing in a state.
  • the mounting of the imaging unit to the outer casing is performed in a state where at least a part of the imaging unit is inserted into the arrangement space.
  • an imaging unit includes an imaging element that photoelectrically converts captured light into an electrical signal, and a mount portion to which an accessory is attached, and a cooling fan is detachable via an insertion hole.
  • the external device can be attached to the external device so as to cover the insertion hole.
  • the cooling fan can be pulled out from the insertion hole and removed by removing the imaging unit, it is possible to improve the maintainability of the cooling fan and ensure a good operating state.
  • FIG. 2 to FIG. 29 show an embodiment of the present technology, and this figure is a perspective view showing a first accessory and an imaging device. It is a perspective view which shows a 2nd accessory, a 3rd accessory, and an imaging device. It is a perspective view of an imaging device shown in the state where the 2nd accessory was attached. It is a perspective view of an imaging device which shows the state where an imaging unit was removed from a device main part. It is a disassembled perspective view which shows an outer panel. It is a disassembled perspective view of an apparatus main body. It is a perspective view of an apparatus main body. It is a perspective view of an apparatus main body. It is a perspective view of a device main part shown in the state where a cooling fan was removed. It is sectional drawing which shows the cooling flow path of cooling air.
  • FIG. 1 shows a 1st filter body and an intermediate ring.
  • FIG. 2 shows a disassembled perspective view which shows a handle
  • FIG. It is a perspective view which shows the state in which the handle was attached to the adjustment stand. It is a front view which shows the state in which the handle
  • FIG. 20 is a perspective view showing a state in which the handle is attached to the adjustment base in a direction different from that in FIGS. 17 and 19.
  • FIG. 22 is a side view, partly in section, showing a state in which the view body has been rotated so that the viewfinder is oriented differently from FIG. 21.
  • FIG. 23 is a side view, partly in section, showing a state in which the view body is rotated so that the viewfinder is oriented in a direction different from that of FIGS.
  • the imaging device and the imaging unit of the present technology are applied to a video camera and an imaging unit provided in the video camera.
  • the scope of application of the present technology is not limited to the video camera and the imaging unit provided in the video camera.
  • the present technology can be widely applied to, for example, other various imaging devices such as a still camera other than a video camera, and imaging units provided in these various imaging devices.
  • the object side is the front and the image plane side is the rear.
  • the lens group shown below may include one or a plurality of lenses and other optical elements such as a diaphragm and an iris in addition to the lens group including one or a plurality of lenses.
  • the imaging apparatus 1 has an apparatus main body 2 and an imaging unit 3, and the imaging unit 3 is detachable from the apparatus main body 2 (see FIGS. 1 to 4).
  • the apparatus main body 2 may be provided as an external device with respect to the imaging unit 3, and in this case, the imaging unit 3 is detachable from the external device.
  • the imaging unit 3 may be provided as an imaging device alone.
  • the apparatus main body 2 has an outer panel 4 and an outer casing 5, and the outer casing 5 is covered with the outer panel 4 (see FIGS. 4 and 5).
  • the outer panel 4 has a base panel portion 6, an upper panel portion 7, and a rear panel portion 8.
  • the base panel portion 6 is continuous with the bottom surface portion 9 facing the up and down direction and the left and right side edges of the bottom surface portion 9, and is separated from the left and right sides. It has a pair of side surface parts 10 and 11 positioned.
  • the base panel unit 6 is provided with various operation units 12, 12,.
  • the operation units 12, 12,... For example, a power button, a photographing button, a zoom knob, a mode switching knob, and the like are provided.
  • Display portions 13 and 13 such as a liquid crystal panel are arranged on the side surface portions 10 and 11, respectively.
  • inflow holes 10a, 10a In the position near the upper end of the side surface portion 10, for example, inflow holes 10a, 10a,.
  • outflow holes 11a, 11a,... Extending vertically are formed side by side at a position near the lower end of the side surface portion 11.
  • Connection terminals 14, 14,... are arranged one above the other on one side of the rear panel 8 (see FIGS. 1 and 2). Connected to the connection terminals 14, 14,... Are cables (not shown) for supplying power and transmitting / receiving signals.
  • the upper panel portion 7 is formed in a plate shape facing the vertical direction, and both left and right end portions are respectively attached to the upper end portions of the side surface portions 10 and 11 (see FIGS. 4 and 5).
  • the rear panel portion 8 is formed in a plate shape facing in the front-rear direction, and the outer peripheral portion is attached to the rear end portion of the base panel portion 6 and the rear end portion of the upper panel portion 7.
  • the upper panel portion 7 is attached to the side surface portions 10 and 11, and the rear panel portion 8 is attached to the base panel portion 6 and the upper panel portion 7, whereby the outer panel 4 is configured, and the outer casing 5 is the outer panel. 4 from above, below, left, right, and rear (see FIG. 4).
  • the adjustment base 15 is attached to the upper surface of the upper panel part 7 (refer FIG. 3 thru
  • the adjustment base 15 is formed in a vertically long rectangular shape, a central portion in the left-right direction is formed as a concave groove portion 16, and left and right side portions of the groove portion 16 are provided as adjustment portions 17, 17.
  • Slide grooves 17a and 17a that are open on the groove portion 16 side and extend in the front-rear direction are formed in the groove portion 16 side portion of the lower ends of the adjustment portions 17 and 17, respectively.
  • the adjusting portions 17 and 17 are formed with adjusting screw holes 17b, 17b,.
  • the outer casing 5 is formed of, for example, a metal material having high thermal conductivity, and includes a main body frame 18 and a side plate 19 (see FIGS. 6 and 7).
  • the main body frame 18 includes a top plate 20 that faces in the up-down direction, a bottom plate 21 that faces in the up-down direction that is positioned directly below the top plate 20, an upper edge that is continuous with the outer periphery of the top plate 20, and a lower edge that is the bottom plate 21.
  • the peripheral surface plate 22 is continuous to the outer peripheral edge, and the frame surface portion 23 is formed in a frame shape.
  • the top plate 20 is formed with an insertion hole 20a penetrating vertically.
  • the heat sink fins 24, 24,... are connected to the bottom plate 21 in the front and rear direction on the upper surface side.
  • the peripheral plate 22 includes a front plate 25 whose upper and lower edges are respectively connected to the front edge of the top plate 20 and the front edge of the bottom plate 21, and both upper and lower edges of the left plate of the top plate 20 and the left side of the bottom plate 21 A side plate 26 that is continuous with the edge, and a rear plate 27 that is connected to the rear edge of the top plate 20 and the rear edge of the bottom plate 21, respectively.
  • the front plate 25 is formed with fin insertion holes 25a and insertion holes 25b penetrating in the front-rear direction and spaced apart from each other in the vertical direction.
  • the side plate 26 is formed with an intake hole 26a and an insertion hole 26b that are penetrated to the left and right, respectively, spaced apart from each other.
  • the frame surface portion 23 is continuous with the outer peripheral portion of the front plate 25 and is formed in a substantially rectangular shape.
  • An arrangement space 5 a surrounded by the frame surface portion 23 and the front plate 25 is formed in the outer casing 5.
  • the side plate 19 is attached to the right end of the main body frame 18 in the left-right direction.
  • exhaust holes 19a, 19a,... Penetrating left and right are formed side by side.
  • the heat radiating fins 28, 28,... are joined to the left side surface of the side plate 19 side by side.
  • the heat radiating fin 28 is provided as a first coupling portion 28a by bending a part of the upper end portion at a right angle, and is provided as a second coupling portion 28b by bending a part of the left end portion at a right angle.
  • the radiating fin 28 is provided as a projecting insertion portion 28c in which the left end portion at the upper end portion protrudes leftward with respect to the other portions.
  • the first coupling portions 28a, 28a,... are inserted through the insertion holes 20a of the top plate 20, and the second coupling portions 28b, 28b,. 26 insertion holes 26b are inserted.
  • a cooling fan 29 is disposed inside the outer casing 5, and the cooling fan 29 is detachable from the outer casing 5 (see FIGS. 6 to 8).
  • the cooling fan 29 has a case part 30 penetrating vertically and a blade 31 rotated inside the case part 30, and a space inside the case part 30 is formed as a vent hole 30 a.
  • the cooling fan 29 is provided with a connector 32 led out from the case portion 30.
  • the cooling fan 29 is configured to cause the air taken in from the upper side to flow downward by the rotation of the blades 31, for example.
  • the cooling fan 29 can be taken in and out of the outer casing 5 through an insertion hole 25b formed in the front plate 25 of the outer casing 5, and the entire cooling fan 29 is inserted into the outer casing 5 from the insertion hole 25b. In the state, it is held by a holding unit (not shown) provided inside the outer casing 5.
  • the connector 32 is connected to the connector terminal 33 provided in the outer casing 5 so that power can be supplied to the cooling fan 29.
  • the connector terminal 33 is connected to one of circuit boards described later.
  • the cooling fan 29 is positioned directly below the heat radiating fins 28, 28,... Coupled to the side plate 19 in a state where the cooling fan 29 is disposed inside the outer casing 5.
  • the fan cover 34 is attached to the front surface of the front plate 25 by screws or the like, and the cooling fan 29 is covered by the fan cover 34.
  • the fan cover 34 is formed in a plate shape that faces in the front-rear direction.
  • the cooling fan 29 can be removed from the outer casing 5 by removing the fan cover 34 from the front plate 25 and pulling out the cooling fan 29 from the insertion hole 25b. it can.
  • a first circuit board 35 is attached to the outer surface (upper surface) of the top plate 20 in the outer casing 5 (see FIGS. 6 and 9).
  • the first coupling portions 28a, 28a,... Of the heat radiation fins 28, 28,... Inserted through the insertion holes 20a are coupled to the lower surface of the first circuit board 35.
  • the first circuit board 35 is attached to the upper surface of a first heat transfer plate (not shown) attached to the top plate 20, and the first coupling portions 28a, 28a,. , And the first circuit board 35 may be coupled to the heat radiation fins 28, 28,... Via the first heat transfer plate.
  • a second circuit board 36 is attached to the outer surface (rear surface) of the rear plate 27 in the outer casing 5.
  • the second circuit board 36 is attached to the rear surface of a second heat transfer plate (not shown) attached to the rear surface of the rear plate 27, and the upper end of the second heat transfer plate and the rear of the first heat transfer plate.
  • the second circuit board 36 may be coupled to the radiation fins 28, 28,... Via the second heat transfer plate and the first heat transfer plate.
  • a third circuit board 37 is attached above the exhaust holes 19a, 19a, on the outer surface (right side surface) of the side plate 19 in the outer casing 5, a third circuit board 37 is attached above the exhaust holes 19a, 19a,.
  • the third circuit board 37 is attached to the right side surface of a third heat transfer plate (not shown) attached to the right side surface of the side plate 19, and the third circuit board 37 is interposed via the third heat transfer plate. It may be coupled to the side plate 19.
  • a fourth circuit board 38 is attached to the outer surface (left side surface) of the side plate 26 in the outer casing 5 below the intake holes 26a.
  • the second coupling portions 28b, 28b,... Of the heat radiation fins 28, 28,... Inserted through the insertion holes 26b are coupled to the right side surface of the fourth circuit board 38.
  • the fourth circuit board 38 is attached to the left side surface of a fourth heat transfer plate (not shown) attached to the side plate 26, and the second coupling portions 28b, 28b, .., And the fourth circuit board 38 may be coupled to the radiation fins 28, 28,... Via the fourth heat transfer plate.
  • a first duct portion 98 is disposed between the side surface portion 10 of the outer panel 4 and the side surface plate 26 of the outer casing 5 (see FIG. 9).
  • the first duct portion 98 is formed in a cylindrical shape whose left-right direction is an axial direction, and one end surface in the axial direction is joined to a portion around the inflow holes 10a, 10a,. The other end surface in the axial direction is joined to a portion around the intake hole 26 a on the outer surface of the side plate 26.
  • a second duct portion 99 is disposed between the side surface portion 11 of the outer panel 4 and the side surface plate 19 of the outer casing 5.
  • the second duct portion 99 is formed in a cylindrical shape in which the left-right direction is an axial direction, and one end surface in the axial direction is joined to a portion around the outflow holes 11a, 11a,. The other end surface in the axial direction is joined to a portion around the exhaust holes 19 a, 19 a,.
  • the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38 are attached to the outer surface of the outer casing 5.
  • the circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38 are isolated.
  • the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 36 are not attached to the second circuit board 36, the third circuit board 37, and the fourth circuit board 38. A good operating state of the circuit board 38 can be ensured.
  • the first duct portion 98 may be formed integrally with the side surface portion 10 of the outer panel 4 or the side surface plate 26 of the outer housing 5, and the second duct 99 is formed as the side surface portion 11 of the outer panel 4 or the outer housing. 5 side plates 19 may be formed integrally.
  • the cooling fan 29 when the cooling fan 29 is rotated, convection is generated as the cooling fan 29 rotates.
  • the cooling fan 29 is rotated, as indicated by arrows in FIG. 9, external air is cooled as cooling air from the inflow holes 10 a, 10 a, etc. formed in the side surface portion 10 of the outer panel 4.
  • the exhausted air flows into the ventilation plate 30a of the cooling fan 29 from the intake hole 26a formed in the side plate 26 of the outer casing 5, and the exhaust holes 19a and 19a formed in the side plate 19 Are discharged from the outflow holes 11a, 11a,... Formed in the side surface portion 12 of the outer panel 4. Therefore, the cooling air cooling passages are sequentially arranged from the inflow holes 10a, 10a,... Through the intake holes 26a, the vent holes 30a, and the exhaust holes 19a, 19a,. ⁇ It is said to be a flow path.
  • the cooling air flows from the cooling holes 29 to the cooling fans 29 along the radiation fins 28, 28,... And exhausts from the cooling fans 29 along the radiation fins 24, 24,. It flows toward the holes 19a, 19a,.
  • a battery 500 is mounted on the rear surface of the apparatus body 2 (see FIGS. 1 and 2).
  • the battery 500 has a function of supplying power to each part of the apparatus main body 2 and the imaging unit 3.
  • the imaging unit 3 is configured by arranging necessary parts inside and outside the casing 39 (see FIGS. 10 to 13).
  • the housing 39 has a front case portion 40 formed in a thin box shape opened rearward and a rear case portion described later formed in a thin box shape opened forward.
  • a transmission hole 40 a penetrating in the front-rear direction is formed at the center of the front case part 40.
  • a part of the front surface of the front case portion 40 is formed as a mount portion 41 to which a first accessory and a second accessory described later are selectively attached.
  • the portion of the mount 41 that is continuous with the transmission hole 40a is formed as an annular first mount surface 42.
  • the mount portion 41 is partially formed as an annular second mount surface 43, and the second mount surface 43 is positioned away from the first mount surface 42 on the outer peripheral side of the first mount surface 42. ing.
  • the first mount surface 42 and the second mount surface 43 are located on the same plane and are formed in a concentric shape with the center of the transmission hole 40a as a reference.
  • the front case part 40 is provided with positioning pins 42a and 43a protruding forward on the first mount surface 42 and the second mount surface 43, respectively.
  • coupling holes 40b and 40b are formed on the outer peripheral side of the first mount surface 42 so as to be spaced apart in the circumferential direction, and the coupling holes 40b and 40b are formed in an arc shape (see FIG. 12). ).
  • a screw groove 40c is formed in a portion near the inner periphery of the front case portion 40 (see FIG. 13). Screw holes 40d, 40d,... Opened in the first mount surface 42 are formed in the front case portion 40 so as to be spaced apart in the circumferential direction.
  • the inner peripheral surface of the front case part 40 is formed as a positioning part 40e.
  • a decorative ring 44 is attached to the front surface of the front case portion 40 between the first mount surface 42 and the second mount surface 43 (see FIGS. 10 to 13).
  • a cutout 44a opened downward is formed at the lower end of the decorative ring 44 (see FIG. 12).
  • An annular mounting lever 45 is rotatably supported on the front surface of the front case portion 40 between the first mount surface 42 and the decorative ring 44 (see FIGS. 10 to 13).
  • the mounting lever 45 includes an annular base portion 45a, coupling portions 45b and 45b projecting rearward from the base portion 45a, and an operation projection 45c projecting forward from the base portion 45a.
  • the mounting lever 45 is supported by the front case portion 40 in a state where the coupling portions 45b and 45b are inserted into the coupling holes 40b and 40b, respectively.
  • a coupling ring 46 is rotatably supported on the rear surface side of the front case portion 40 (see FIGS. 12 and 13).
  • a screwing groove 46 a is formed on the outer peripheral surface of the coupling ring 46, and the screwing groove 46 a is screwed into the screw groove 40 c of the front case part 40.
  • Engagement portions 46 b, 46 b, 46 b protruding inward are provided in the inner peripheral portion of the coupling ring 46 so as to be spaced apart in the circumferential direction.
  • the coupling ring 46 is coupled with coupling portions 45b and 45b of the mounting lever 45 inserted into the coupling holes 40b and 40b. Accordingly, when the operation protrusion 45c is operated, the mounting lever 45 and the coupling ring 46 are integrally rotated with respect to the front case portion 40, and the screwing groove 46a is screwed into the screw groove 40c along with the rotation. The position is changed, and the mounting lever 45 and the coupling ring 46 are integrally displaced with respect to the front case portion 40 in the front-rear direction.
  • contacts 47, 47 are arranged side by side in the circumferential direction on the inner peripheral side of the second mount surface 43.
  • the contacts 47, 47 are located in the notch 44 a of the decorative ring 44.
  • a filter holder 48 is disposed inside the front case portion 40, and the filter holder 48 is attached to the inner surface of the front case portion 40.
  • the filter holder 48 is formed in a shallow case shape opened rearward, and has a through hole 48a penetrating in the front-rear direction.
  • the filter holder 48 is provided with a support portion 48b protruding rearward at a portion immediately above the through hole 48a.
  • a holding member 49 is attached to the filter holder 48.
  • the holding member 49 includes a holding portion 49a formed in a frame shape and a contact arrangement portion 49b protruding downward from the holding portion 49a.
  • a substantially rectangular infrared cut filter 50 is held in the holding portion 49a, and contacts 51, 51,... Are arranged in the circumferential direction in the contact arrangement portion 49b.
  • the holding member 49 is attached to the filter holder 48 from the front side with the holding portion 49a covering the through hole 48a.
  • the intermediate ring 52, the first filter body 53, and the second filter body 54 are disposed on the rear side of the filter holder 48.
  • the intermediate ring 52 is positioned between the first filter body 53 and the second filter body 54 in the front-rear direction (optical axis direction), the first filter body 53 is positioned on the front side of the intermediate ring 52, and the second The filter body 54 is positioned on the rear side of the intermediate ring 52 (see FIGS. 12 to 15).
  • the intermediate ring 52 includes a substantially annular ring portion 55 and a first drive gear 56, a first driven gear 57, a second drive gear 58, and a second driven gear 59 that are rotatably supported by the ring portion 55, respectively. And have.
  • a second driven gear 59, a first drive gear 56, a second drive gear 58, and a first driven gear 57 are sequentially supported on the ring portion 55 in the circumferential direction.
  • the first drive gear 56 is a two-stage gear having a small diameter portion 56a and a large diameter portion 56b.
  • the small diameter portion 56a is supported on the rear surface side of the ring portion 55, and the large diameter portion 56b is supported on the front surface side of the ring portion 55.
  • the second drive gear 58 is a two-stage gear having a small diameter portion 58a and a large diameter portion 58b.
  • the small diameter portion 58a is supported on the front side of the ring portion 55, and the large diameter portion 58b is supported on the rear surface side of the ring portion 55.
  • a first drive motor 60 and a second drive motor 61 are arranged inside the housing 39, a worm 60 a is provided in the first drive motor 60, and a worm 61 a is provided in the second drive motor 61. It has been.
  • the worm 60 a of the first drive motor 60 is meshed with the small diameter portion 56 a of the first drive gear 56. Accordingly, the first drive gear 56 is rotated in a direction corresponding to the rotation direction of the first drive motor 60.
  • the worm 61a of the second drive motor 61 is engaged with the small diameter portion 58a of the second drive gear 58 (see FIG. 15). Accordingly, the second drive gear 58 is rotated in a direction corresponding to the rotation direction of the second drive motor 61.
  • the first filter body 53 is formed in a substantially disc shape and has a gear portion 53a on the outer peripheral surface (see FIGS. 12 and 14). At the center of the first filter body 53, a supported hole 53b penetrating back and forth is formed.
  • a first neutral density filter 62, a second neutral density filter 63, and a transparent plate 64, which are formed in a substantially rectangular shape, are disposed on the first filter body 53, respectively.
  • the first neutral density filter 62, the second neutral density filter 63, and the transparent plate 64 are positioned at equal intervals in the circumferential direction.
  • the first neutral density filter 62 and the second neutral density filter 63 are also referred to as ND (neutral density) filters, and are neutral density filters that reduce only the amount of light without affecting the color development of the image.
  • the first neutral density filter 62 has an optical density lower than the optical density of the second neutral density filter 63, and the first neutral density filter 62 has an optical density of 0.3, for example.
  • the neutral density filter 63 has an optical density of 0.6.
  • the first filter body 53 has a support portion 48b inserted in the supported hole 53b and is rotatably supported by the filter holder 48 (see FIG. 13).
  • the gear portion 53 a is engaged with the large diameter portion 56 b of the first drive gear 56 and the first driven gear 57, and the filter holder 48 is moved in a direction corresponding to the rotation direction of the first drive motor 60. (See FIG. 14).
  • any one of the first neutral density filter 62, the second neutral density filter 63, and the transparent plate 64 is positioned immediately behind the infrared cut filter 50, The degree of reduction of the light transmitted through the infrared cut filter 50 is changed according to the rotational position of the filter body 53.
  • the second filter body 54 is formed in a substantially disk shape and has a gear portion 54a on the outer peripheral surface (see FIGS. 12 and 15). At the center of the second filter body 54, a supported recessed portion 54b opened forward is formed.
  • a third neutral density filter 65, a fourth neutral density filter 66, and a transparent plate 67 which are each formed in a substantially rectangular shape, are disposed.
  • the third neutral density filter 65, the fourth neutral density filter 66, and the transparent plate 67 are positioned at equal intervals in the circumferential direction.
  • the third neutral density filter 65 and the fourth neutral density filter 66 are also called ND filters, and are neutral density filters that reduce only the amount of light without affecting the color development of the image.
  • the third neutral density filter 65 has an optical density lower than that of the fourth neutral density filter 66, and the third neutral density filter 65 has an optical density of 0.9, for example.
  • the neutral density filter 66 has an optical density of 1.8. Therefore, the optical density of the third neutral density filter 65 and the fourth neutral density filter 66 is higher than the optical density of the first neutral density filter 62 and the second neutral density filter 63.
  • the second filter body 54 has a support portion 48b inserted into the supported recessed portion 54b and is rotatably supported by the filter holder 48 (see FIG. 13).
  • the gear portion 54 a is engaged with the large diameter portion 58 b of the second drive gear 58 and the second driven gear 59, and the filter holder 48 is moved in a direction corresponding to the rotation direction of the second drive motor 61. (See FIG. 15).
  • any one of the third neutral density filter 65, the fourth neutral density filter 66, and the transparent plate 67 is positioned immediately behind the infrared cut filter 50.
  • the neutral density filter 62, the second neutral density filter 63, or the transparent plate 64 is located immediately behind the third neutral density filter 65 and the fourth neutral density filter 65 according to the rotational position of the second filter body 54.
  • the degree of reduction of light transmitted through the sex density filter 66 or the transparent plate 67 is changed.
  • the third neutral density filter 65 and the fourth neutral density with respect to any of the first neutral density filter 62, the second neutral density filter 63, and the transparent plate 64. Since one of the filter 66 and the transparent plate 67 is positioned on the light incident path (on the optical axis), the first neutral density filter 62, the second neutral density filter 63, the transparent plate 64, and the third Nine kinds of light reduction levels can be set by the combination of the neutral density filter 65, the fourth neutral density filter 66, and the transparent plate 67.
  • rotation detection sensors 68 and 68 are arranged on the outer peripheral side of the intermediate ring 52 (see FIG. 12). The rotation positions of the first filter body 53 and the second filter body 54 are detected by the rotation detection sensors 68 and 68.
  • the rear cover 69 is attached to the filter holder 48 from behind (see FIGS. 12 and 13).
  • the rear cover 69 is formed in a shallow case shape that opens forward, and is attached to the filter holder 48 so as to cover the intermediate ring 52, the first filter body 53, and the second filter body 54 from the rear.
  • a substantially rectangular low-pass filter 70 is held at a position near the lower end of the rear cover 69.
  • the low-pass filter 70 blocks high-frequency components of light.
  • An element holder 71 is disposed behind the rear cover 69.
  • the element holder 71 is formed in a substantially rectangular frame shape.
  • the element unit 72 is held in the element holder 71.
  • the element unit 72 has a plate-like holding base 72a facing substantially in the front-rear direction, an image sensor 72b held by the holding base 72a, an element control board 72c for controlling the image sensor 72b, and a joint attached to both upper and lower ends of the holding base 72a.
  • Parts 72d and 72d For example, a CCD (Charge-Coupled Device), a CMOS (Complementary Metal-Oxide-Semiconductor), or the like is used as the imaging element 72b.
  • the image sensor 72b is mounted on the front surface of the element control board 72c.
  • the element unit 72 is held by the element holder 71 by joining the joints 72d and 72d to the upper and lower ends of the element holder 71, respectively.
  • a substrate holder 73 is disposed behind the element holder 71.
  • the substrate holder 73 is, for example, formed in a substantially rectangular frame shape with a metal material having high thermal conductivity, and has an arrangement recess 73a that opens forward.
  • the substrate holder 73 is formed with an attachment hole 73b communicating with the arrangement recess 73a.
  • the substrate holder 73 is attached to the element holder 71, and in a state where the substrate holder 73 is attached to the element holder 71, the imaging element 72b and the element control board 72c are arranged in the arrangement recess 73a.
  • a first control board 74 is attached to the upper end of the board holder 73 (see FIG. 13).
  • a control circuit that controls driving of the first drive motor 60 and the second drive motor 61 is formed on the first control board 74.
  • a second control board 75 is attached to the rear surface of the board holder 73 (see FIGS. 12 and 13).
  • the second control board 75 functions as a relay board that performs transmission and reception of signals between the imaging unit 3 and the apparatus body 2 in a state where the imaging unit 3 is attached to the apparatus body 2.
  • a heat transfer member 76 is attached to the substrate holder 73 in a state of being inserted into the attachment hole 73b (see FIG. 13). The front end portion of the heat transfer member 76 is joined to the element control board 72c.
  • the housing 39 has the front case part 40 and the rear case part 77 as described above (see FIGS. 10, 12, and 13).
  • the rear case part 77 is formed in a thin box shape opened forward.
  • An insertion hole 77a penetrating in the front-rear direction is formed in the center portion of the rear case portion 77.
  • the rear case part 77 is coupled to the rear cover 69 and the filter holder 48 from the rear. In a state where the rear case part 77 is coupled to the rear cover 69 and the filter holder 48, the element holder 71, the element unit 72, the substrate holder 73, the first control board 74, and the second control board 75 are covered by the rear case part 77. Is called.
  • the rear end portion of the heat transfer member 76 is inserted into the insertion hole 77a of the rear case portion 77.
  • a fin unit 78 is attached to the rear surface of the rear case part 77 (see FIGS. 12 and 13).
  • the fin unit 78 has a mounting plate 78a attached to the rear surface of the rear case portion 77 and exhaust heat fins 78b, 78b,... Attached to the rear surface of the attachment plate 78a, and the exhaust heat fins 78b, 78b,. .. are located apart from each other on the left and right.
  • the attachment plate 78a is attached to the rear surface of the rear case portion 77 so as to partially cover the insertion hole 77a of the rear case portion 77 from behind, and the rear surface of the heat transfer member 76 is joined to the front surface.
  • the heat transfer member 76 has a front end joined to the element control board 72c and a rear end joined to the mounting plate 78a of the fin unit 78. Therefore, the heat generated in the element unit 72 is transmitted to the fin unit 78 via the heat transfer member 76 and is discharged from the heat exhaust fins 78b, 78b,.
  • the substrate holder 73 is formed of a metal material having high thermal conductivity and the heat transfer member 76 is attached to the substrate holder 73, the first control board 74 and the second control board 74 respectively attached to the substrate holder 73 are provided. Heat generated in the control board 75 is transmitted to the fin unit 78 through the board holder 73 and the heat transfer member 76 and is discharged from the heat exhaust fins 78b, 78b,.
  • the first filter body 53 and the second filter body 54 that reduce the amount of light traveling toward the imaging element 72b are provided and sandwich the second filter body 54 therebetween.
  • the first filter body 53 and the image sensor 72b are located, and the first neutral density filter 62 having the lowest optical density is provided in the first filter body 53.
  • the first density filter is located closer to the object side than the second filter body 54. Since the first neutral density filter 62 having the lowest optical density is provided in the filter body 53, the first neutral density filter 62 and the second neutral density filter provided in the first filter body 53 are provided. It is difficult for scorch to occur in 63, and deterioration of the first neutral density filter 62 and the second neutral density filter 63 can be suppressed.
  • the light is transmitted through the first neutral density filter 62 or the second neutral density filter 63 of the first filter body 53, and the third neutral density filter 65 or the fourth neutral density filter 65 of the second filter body 54. Since the possibility that the light is incident on the neutral density filter 66 of the third neutral density filter 66 increases, the light whose light amount has been reduced by the first neutral density filter 62 or the second neutral density filter 63 becomes the third neutral density filter 65. Alternatively, the light is easily incident on the fourth neutral density filter 66. Therefore, the third neutral density filter 65 and the fourth neutral density filter 66 provided in the second filter body 54 are less likely to be burned, and the third neutral density filter 65 and the fourth neutral density filter 65 are prevented from burning. It is also possible to suppress deterioration of the property density filter 66.
  • the infrared cut filter 50 is disposed on the opposite side of the second filter body 54 with the first filter body 53 interposed therebetween, the first neutral density filter 62, the second neutral density filter 63, The light transmitted through the infrared cut filter 50 is incident on the third neutral density filter 65 and the fourth neutral density filter 66.
  • the first neutral density is suppressed by suppressing the temperature rise of the first neutral density filter 62, the second neutral density filter 63, the third neutral density filter 65, and the fourth neutral density filter 66.
  • Good performance of the filter 62, the second neutral density filter 63, the third neutral density filter 65, and the fourth neutral density filter 66 can be ensured.
  • first filter body 53 and the second filter body 54 are respectively rotatable, and the first filter body 53 and the second filter body 54 have optical densities different from each other and are spaced apart in the circumferential direction.
  • a first neutral density filter 62, a second neutral density filter 63, a third neutral density filter 65, and a fourth neutral density filter 66 are provided.
  • the imaging unit 3 configured as described above is detachable from the outer casing 5 of the apparatus main body 2 as described above (see FIGS. 3 and 4).
  • the imaging unit 3 is attached to the outer casing 5 in an arrangement space 5a in which at least a part of the imaging unit 3 is formed at the front end of the outer casing 5 in a state where the cooling fan 29 is arranged inside the outer casing 5.
  • the imaging unit 3 is fixed to the front plate 25 or the frame surface portion 23 by screws or the like.
  • the heat exhaust fins 78 b, 78 b,... Of the fin unit 78 are inserted from the fin insertion holes 25 a of the front plate 25 and are positioned inside the outer casing 5. (See FIG. 9).
  • the exhaust heat fins 78b, 78b,... Pass through the intake holes 26a, the vent holes 30a, and the exhaust holes 19a, 19a,. It is located in the cooling flow path of the cooling air.
  • a handle 79 is detachably attached to the adjustment base 15 attached to the upper surface of the upper panel portion 7 in the outer panel 4 (see FIGS. 16 to 18).
  • the handle 79 has a base pedestal portion 80 extending in the front-rear direction, a connecting portion 81 projecting upward from one end portion in the longitudinal direction of the base pedestal portion 80, and an upper end portion of the connecting portion 81 and extending in the same direction as the base pedestal portion 80. And a hand portion 82.
  • a supported plate 83 is detachably attached to the lower surface of the base table 80. Both left and right end portions of the supported plate 83 are provided as guided portions 83a and 83a protruding in opposite directions.
  • a lock lever 84 is supported on the base table 80.
  • the handle 79 has a guided portion 83a, 83a of the supported plate 83 inserted in the slide groove 17a, 17a of the adjustment base 15 and slid on the adjustment portion 17, 17, respectively. It is possible to slide to. Therefore, the handle 79 can be attached to the adjustment table 15 at a desired position by moving the handle 79 in the front-rear direction with respect to the adjustment table 15. In a state where the handle 79 is moved in the front-rear direction with respect to the adjustment table 15, the handle 79 is locked at the position moved with respect to the adjustment table 15 by operating the lock lever 84.
  • the handle 79 is movable in the front-rear direction with respect to the adjustment table 15, and therefore, when the image pickup apparatus 1 is used, the center of gravity of the entire handle is taken into consideration and the handle 79 is held in the most balanced position.
  • a handle 79 can be attached to perform stable shooting.
  • the handle 79 can be reversed and the guided portions 83a and 83a can be inserted into the slide grooves 17a and 17a and slid on the adjusting portions 17 and 17 (see FIG. 19). Therefore, by setting the handle 79 in an easy-to-hold direction, a good shooting state can be ensured.
  • the handle 79 can be attached to the adjustment base 15 with the base base portion 80 and the handle portion 82 extending in the left-right direction (see FIG. 20).
  • the supported plate 83 is removed from the base pedestal 80, and a mounting screw (not shown) is screwed into the desired adjustment screw hole 17 b to attach the base pedestal 80 to the one adjustment portion 17.
  • the handle 79 can be attached to the adjustment base 15 in such a direction that the handle portion 82 extends in the left-right direction in this way, the degree of freedom of the orientation of the handle 79 relative to the adjustment base 15 is increased, and the handle 79 can be easily gripped. By setting the direction, it is possible to ensure a better shooting state.
  • the finder unit 85 is also detachable from the adjustment base 15 (see FIGS. 16 and 21).
  • the viewfinder unit 85 includes shaft holders 86 and 87, guided members 88, support shafts 89 and 89, a rotating arm 90, and a view main body 91.
  • the shaft holder 86 is connected to the left and right and has cylindrical support tube portions 86a and 86a, respectively.
  • a first lock lever 92 is supported on the shaft holder 86.
  • the shaft holder 87 is connected to the left and right and has cylindrical support cylinders 87a and 87a and cylindrical connection cylinders 87b and 87b positioned above the support cylinders 87a and 87a, respectively.
  • the axial directions of the connecting cylinder portions 87b and 87b are orthogonal to the axial direction of the support cylinder portions 87a and 87a.
  • a second lock lever 93 is supported on the lower side of the shaft holder 87, and a third lock lever 94 is supported on the upper side.
  • the guided member 88 is connected to the lower side of the shaft holder 86.
  • the left and right end portions of the guided member 88 are provided as guided portions 88a and 88a protruding in opposite directions.
  • a fourth lock lever 95 is supported on the guided member 88.
  • the support shafts 89 and 89 are inserted into the shaft holders 86 and 87 in a state parallel to the left and right.
  • the support shaft 89 is inserted into the support tube portion 86 a of the shaft holder 86 and the support tube portion 87 a of the shaft holder 87, and is slidable in the axial direction (front-rear direction) with respect to the shaft holders 86 and 87.
  • the rotation arm 90 includes a rotation fulcrum portion 90a that is connected to the view main body 91 so as to be capable of being connected, an arm portion 90b that protrudes from the rotation fulcrum portion 90a, and a connection shaft portion 90c that protrudes from the arm portion 90b.
  • the connecting shaft 90c has a protruding direction from the arm 90b orthogonal to the protruding direction of the arm 90b from the rotation fulcrum 90a.
  • a fifth lock lever 96 is supported on the rotation fulcrum 90 a of the rotation arm 90.
  • Rotating arm 90 has a connecting shaft portion 90c inserted into connecting tube portions 87b and 87b of shaft holder 87, and connecting shaft portion 90c is slidable in the axial direction (left-right direction) with respect to shaft holder 87.
  • the connecting shaft portion 90 c is locked to the shaft holder 87 by operating the third lock lever 94.
  • the connecting shaft portion 90c can be rotated in the direction around the shaft by the shaft holder 87, and when the connecting shaft portion 90c is rotated with respect to the shaft holder 87, the third lock lever 94 is operated.
  • the connecting shaft portion 90 c is locked to the shaft holder 87.
  • the rotation arm 90 has a rotation fulcrum portion 90a connected to the view main body 91 so as to be rotatable with respect to each other, and operates the fifth lock lever 96 in a state where the rotation arm 90 or the view main body 91 is rotated. As a result, the view body 91 is locked.
  • the view main body 91 is provided with one end portion as a finder portion 91a and a connecting fulcrum portion 91b connected to the rotation fulcrum portion 90a at the other end portion.
  • the finder unit 85 is moved back and forth with respect to the adjustment table 15 by the guided portions 88a and 88a of the guided member 88 being inserted into the slide grooves 17a and 17a of the adjustment table 15 and sliding on the adjustment units 17 and 17, respectively. It is slidable in the direction. Therefore, the finder unit 85 can be attached to a desired position with respect to the adjustment table 15 by moving the finder unit 85 in the front-rear direction with respect to the adjustment table 15. In a state where the finder unit 85 is moved in the front-rear direction with respect to the adjustment table 15, the finder unit 85 is locked at a position moved with respect to the adjustment table 15 by operating the fourth lock lever 95.
  • the finder unit 85 is movable in the front-rear direction with respect to the adjustment table 15, the finder unit 85 is attached to a position with the best balance in consideration of the entire center of gravity when the imaging apparatus 1 is used. Stable shooting can be performed.
  • the finder unit 85 can be slid on the adjusting portions 17 and 17 by inserting the guided portions 88a and 88a into the slide grooves 17a and 17a in the opposite direction. Therefore, by setting the finder unit 85 in an easy-to-see direction, a good shooting state can be ensured.
  • the support shafts 89 and 89 can be moved with respect to the shaft holders 86 and 87.
  • a better shooting state can be achieved. Can be secured.
  • the finder unit 85 can rotate the connecting shaft portion 90c in the direction around the axis with respect to the shaft holder 87, and the rotation fulcrum portion 90a is connected to the view body 91 so as to be rotatable relative to each other.
  • the viewfinder 91a of the view main body 91 can be adjusted and used in a desired direction, and an even better shooting state can be secured (see FIGS. 22 and 23).
  • finder unit 85 can move the connecting shaft portion 90c in the left-right direction with respect to the shaft holder 87 (see FIGS. 24 and 25).
  • the finder portion 91a of the view main body 91 can be used by adjusting it to a desired position in the left-right direction, and a better shooting state can be ensured.
  • the guided member 88 is attached to one adjusting portion 17 by screwing a mounting screw (not shown) into a desired adjusting screw hole 17b with the support shafts 89, 89 extending in the left-right direction. May be enabled.
  • the finder unit 85 may be configured such that the connecting shaft portion 90 c of the rotating arm 90 is inserted into the shaft holders 86 and 87 instead of the support shaft 89.
  • the viewfinder 91a of the view main body 91 can be set to be viewed from the left-right direction, and the degree of freedom of the shooting mode is increased. It is possible to secure a better shooting state.
  • the first accessory 100 and the second accessory 200 are selectively attached to the mount portion 41 of the imaging unit 3. It should be noted that accessories other than the first accessory 100 and the second accessory 200 may be detachable from the mount portion 41.
  • the first accessory 100 is, for example, an interchangeable lens, and required parts are arranged inside and outside the outer cylinder 101 (see FIG. 1).
  • the first accessory 100 is attached to the imaging unit 3 with a part thereof in contact with the first mount surface 42 of the mount portion 41.
  • a plurality of lens groups are arranged in the outer cylinder 101 so as to be separated in the optical axis direction.
  • a portion near the rear end of the outer cylinder 101 is provided as a mounting portion 102, and an outer peripheral portion of the rear surface of the mounting portion 102 is formed as a mounting surface 102a.
  • the mounting portion 102 is formed with a positioning hole (not shown) opened in the mounting surface 102a.
  • the rear end portion of the outer cylinder 101 is provided as a coupling portion 103.
  • the coupling portion 103 protrudes rearward from a portion inside the mounting surface 102a of the mounting portion 102 and is formed in a substantially cylindrical shape.
  • Arc-shaped engagement pieces 104, 104, 104 protruding outward are provided at the rear end portion of the coupling portion 103 so as to be spaced apart in the circumferential direction.
  • a plurality of terminals (not shown) arranged side by side in the circumferential direction are arranged in the coupling portion 103.
  • the diameter of the outer peripheral surface 103a in the coupling portion 103 is substantially the same as the inner diameter of the front case portion 40, that is, the diameter of the positioning portion 40e.
  • the first accessory 100 is attached to the mount 41 of the imaging unit 3 as follows.
  • the positioning pin 42a of the mounting portion 41 is inserted into the positioning hole formed in the mounting portion 102, and the mounting surface 102a of the mounting portion 102 is in proximity to or in contact with the first mounting surface 42.
  • the coupling portion 103 is inserted into the transmission hole 40a.
  • the engagement pieces 104, 104, 104 of the coupling portion 103 are respectively inserted into the portions between the engagement portions 46 b, 46 b, 46 b of the coupling ring 46, and the engagement pieces 104, 104, 104 are in front of the filter holder 48.
  • the terminal of the coupling part 103 is connected to the contacts 51, 51,.
  • the diameter of the outer peripheral surface 103a in the coupling portion 103 is substantially the same as the diameter of the positioning portion 40e. Therefore, when the coupling portion 103 is inserted into the transmission hole 40a, the positioning portion 40e causes the first Positioning in the direction orthogonal to the optical axis direction of the accessory 100 is performed.
  • the mounting lever 45 is rotated, and the coupling ring 46 is rotated with respect to the front case portion 40 together with the mounting lever 45.
  • the coupling ring 46 is rotated, the screwing position of the screwing groove 46a with respect to the screw groove 40c is changed with the rotation of the coupling ring 46, and the mounting lever 45 and the coupling ring 46 are integrated into the front case portion 40.
  • it is displaced backward.
  • the coupling ring 46 is rotated, the engaging portions 46b, 46b, 46b are positioned in front of the engaging pieces 104, 104, 104, respectively, and the engaging portions 46b, 46b, 46b are respectively engaged with the engaging pieces 104, 104. , 104.
  • the first accessory 100 is attached to the mount portion 41 with the surface 102 a in contact with the first mount surface 42.
  • the second accessory 200 is an adapter, for example, and has a substantially annular support base 201 (see FIGS. 2, 13, 26, 27, and 28).
  • the support base 201 is formed with an annular recess 201a that is opened rearward.
  • the annular recess 201a is formed in an annular shape.
  • An annular projecting portion 201 b that protrudes rearward is provided on the inner peripheral portion of the support base 201.
  • the annular protrusion 201b is formed in a stepped shape with a cross-sectional shape, and is formed in a shape that decreases in diameter toward the rear.
  • the outer diameter of a part of the annular protrusion 201b is substantially the same as the inner diameter of the front case portion 40, that is, the diameter of the positioning portion 40e.
  • a substantially annular mounting ring 202 is attached to the outer peripheral portion of the rear surface of the support base 201.
  • the rear surface of the mounting ring 202 is formed as a mounting surface 202a.
  • the mounting surface 202a is positioned in front of the rear surface of the annular protrusion 201b.
  • the mounting ring 202 has a positioning hole (not shown) opened in the mounting surface 202a. In the mounting ring 202, screw insertion holes 202b, 202b,.
  • a receiving ring 203 is attached to the inner periphery of the front end of the support base 201.
  • a screw groove 203 a is formed on the outer peripheral surface of the receiving ring 203.
  • the receiving ring 203 is formed with notches 203b and 203b that are opened forward and inward and spaced apart in the circumferential direction.
  • Contact points 204, 204,... are arranged in the circumferential direction on the front surface of the support base 201.
  • the contacts 204, 204,... are located in the notches 203b, 203b of the receiving ring 203.
  • a mounting ring 205 is rotatably supported by the receiving ring 203.
  • the attachment ring 205 has a substantially annular annular portion 206 and engaging portions 207, 207,... Projecting inward from the front end portion of the annular portion 206, and the engaging portions 207, 207,. -Are provided in the circumferential direction apart.
  • a screwing groove 206 a is formed on the inner peripheral surface of the annular portion 206, and the screwing groove 206 a is screwed into the screw groove 203 a of the receiving ring 203.
  • An annular operation lever 208 is attached to the front end of the attachment ring 205.
  • the operation lever 208 has an annular base portion 208a and operation protrusions 208b, 208b, 208b protruding from the base portion 208a.
  • the operation protrusions 208b, 208b, and 208b are spaced apart in the circumferential direction.
  • a terminal arrangement member 209 is attached to the rear surface of the support base 201.
  • the terminal arrangement member 209 is formed in a shape along the annular recess 201a of the support base 201, and has an annular relief recess 209a. .. Are arranged side by side in the circumferential direction on the rear surface of the lower end portion of the terminal arrangement member 209.
  • a window member 211 is attached to the inner peripheral surface of the annular protrusion 201b of the support base 201 by, for example, screwing or the like.
  • the window member 211 has a substantially annular flange base 212 and connecting surface portions 213, 213,... That protrude from the rear end portion of the flange base 212 toward each other, and inner ends of the connecting surface portions 213, 213,. It has the protruding protrusions 214, 214,... Protruding rearward from the edges.
  • the connecting surface portions 213, 213,... are formed, for example, in a straight line in which four ends are provided in the front-rear and left-right directions, and the inner edge extends in the left-right direction or the up-down direction.
  • a so-called flocking coating is formed on the inner surface of the window member 211 to form a texture in which a small number of flocks exist.
  • the operation protrusion 208b when the operation protrusion 208b is operated, the operation lever 208 and the mounting ring 205 are integrally rotated with respect to the receiving ring 203, and the screw groove of the screw groove 206a is rotated with the rotation.
  • the screwing position with respect to 203a is changed, and the operation lever 208 and the mounting ring 205 are integrally displaced with respect to the receiving ring 203 in the front-rear direction.
  • the second accessory 200 is attached to the mount portion 41 of the apparatus main body 2 as follows.
  • the positioning pin 43a of the mount unit 41 is inserted into the positioning hole formed in the mounting unit 202, and the mounting surface 202a of the mounting unit 202 is pressed against the second mount surface 43 from the front side.
  • the annular protrusion 201b of the support base 201 and the portion excluding the front end of the window member 211 are inserted into the transmission hole 40a (see FIG. 13).
  • the terminals 210, 210,... Arranged on the terminal arrangement member 209 are connected to the contacts 47, 47,.
  • the operation projection 45 c of the mounting lever 45 is inserted into the relief recess 209 a of the terminal arrangement member 209.
  • the terminal arrangement member 209 is formed with the relief recess 209a into which the operation protrusion 45c of the mounting lever 45 is inserted, the mounting lever 45 is attached to the mounting portion 41 when the second accessory 200 is attached to the second mounting portion 45.
  • the second accessory 200 can be smoothly attached to the mount portion 41 without interfering with the accessory 200.
  • the outer diameter of a part of the annular protrusion 201b is substantially the same as the diameter of the positioning portion 40e. Therefore, when the annular protrusion 201b is inserted into the transmission hole 40a, the outer diameter is increased by the positioning portion 40e. The positioning of the second accessory 200 in the direction orthogonal to the optical axis direction is performed.
  • screws 220, 220,... are inserted into the screw insertion holes 202b, 202b,..., Respectively, and the screws 220, 220,.
  • the second accessory 200 is attached to the mount portion 41 in a state where the mounting surface 202 a is in contact with the second mount surface 43.
  • the contacts 51, 51,... To which the terminals of the first accessory 100 are connected are shielded by the window member 211.
  • the contacts 51, 51,... are shielded, so that reflection of light at the contacts 51, 51,.
  • the quality of the captured image can be improved.
  • the opening edge of the holding portion 49a in the holding member 49 is shielded by the protruding protrusions 214, 214,.
  • the opening edge of the holding portion 49a is shielded when the first accessory 100 is not used, it is possible to prevent further reflection of light at the holding portion 49a when the second accessory 200 is used and to further improve the image taken. The quality can be improved.
  • the inner surface of the window member 211 is flocked, the reflection of light at the window member 211 is prevented when the second accessory 200 is used, and the quality of the captured image is further improved. be able to.
  • the imaging unit 3 is formed with a positioning portion 40e for positioning the first accessory 100 and the second accessory 200 in the direction orthogonal to the optical axis.
  • the positioning in the direction orthogonal to the optical axis of the first accessory 100 and the second accessory 200 with respect to the housing 39 of the imaging unit 3 is performed by one positioning unit 40e, the first accessory 100 The same positioning accuracy with respect to the housing 39 is ensured when the second accessory 200 is mounted on the mount surface 42 and when the second accessory 200 is mounted on the second mount surface 43, and the second accessory 200 is mounted when the first accessory 100 is mounted. It is possible to improve the quality of images taken when the camera is mounted.
  • the third accessory 300 is attached to the second accessory 200 (see FIG. 2).
  • the third accessory 300 is, for example, an interchangeable lens, and each required part is arranged inside and outside the outer cylinder 301.
  • a plurality of lens groups are arranged apart from each other in the optical axis direction.
  • the rear end portion of the outer cylinder 301 is provided as a coupling portion 302.
  • Arc-shaped engagement pieces 303, 303,... Projecting outward are provided at the rear end of the coupling portion 302 so as to be spaced apart in the circumferential direction.
  • the coupling portion 302 is provided with a plurality of terminals (not shown) that are spaced apart in the circumferential direction.
  • a photographing frame 304 is detachably attached to the front end portion of the outer cylinder 301.
  • the third accessory 300 is attached to the second accessory 200 as follows.
  • the third accessory 300 is brought into a state in which the rear surface of the coupling portion 302 is in proximity to or in contact with the receiving ring 203 from the front side, and the coupling portion 302 is inserted inside the attachment ring 205.
  • the engaging pieces 303, 303,... Of the coupling portion 302 are inserted into the portions between the engaging portions 207, 207,. Is brought close to or in contact with the front surface of the receiving ring 203.
  • bond part 302 is connected to the contact 204,204, ....
  • the operation lever 208 is rotated and the mounting ring 205 is rotated with respect to the receiving ring 203 together with the operation lever 208.
  • the mounting ring 205 is rotated, the screwing position of the screwing groove 206 a with respect to the screw groove 203 a is changed with the rotation of the mounting ring 205, and the operation lever 208 and the mounting ring 205 are integrated with the receiving ring 203. Is displaced backwards.
  • the engaging portions 207, 207,... are positioned on the front side of the engaging pieces 303, 303,. It is pressed against the engagement pieces 303, 303,.
  • the engaging portions 207, 207,... are pressed against the engaging pieces 303, 303,.
  • the third accessory 300 is attached to the second accessory 200 by being sandwiched by the receiving ring 203.
  • the housing 39 having the mount portion 41 to which at least the first accessory 100 and the second accessory 200 are selectively attached, and the captured light as an electrical signal.
  • the first mount surface 42 and the second mount surface 43 are located on the same plane.
  • first accessory 100 and the second accessory 200 are attached to the first mount surface 42 and the second mount surface 43, respectively, located on the same plane. Regardless of which of the second accessories 200 is attached, it is possible to ensure good optical performance and improve image quality.
  • the mount portion 41 Even when either the first accessory 100 or the second accessory 200 is attached to the mount portion 41, the high accuracy of the length of the flange back is ensured, and the image quality is ensured by ensuring good optical performance. Improvements can be made.
  • both the first mount surface 42 and the second mount surface 43 are formed as a part of the front case portion 40, the first mount surface 42 and the second mount surface 43 are the same member.
  • high planar accuracy of the first mount surface 42 and the second mount surface 43 can be secured, and the number of components can be reduced and the strength can be improved.
  • the cooling air flows from the cooling holes 29 to the cooling fans 29 along the radiation fins 28, 28,... And exhausts from the cooling fans 29 along the radiation fins 24, 24,. It flows toward the holes 19a, 19a,.
  • the heat generated in the first circuit board 35 is mainly transmitted from the first coupling portions 28a, 28a, ... to the radiation fins 28, 28, ....
  • the heat generated in the second circuit board 36 is mainly transmitted from the rear plate 27 to the heat radiation fins 28, 28,... Via the side plate 19 and radiated from the rear plate 27 via the bottom plate 21. It is transmitted to the fins 24, 24,.
  • the heat generated in the third circuit board 37 is mainly transmitted to the radiation fins 28, 28,.
  • the heat generated in the fourth circuit board 38 is mainly transmitted from the second coupling portions 28b, 28b,... To the radiation fins 28, 28,.
  • the heat generated in the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38 are all radiating fins 28, 28,. , 24,... Therefore, the air flows from the intake hole 26a along the heat radiation fins 28, 28,... Toward the cooling fan 29, and from the cooling fan 29 along the heat radiation fins 24, 24,. Heat is efficiently released from the radiation fins 28, 28,... Or the radiation fins 24, 24,.
  • the temperature rise of the second circuit board 36, the third circuit board 37, and the fourth circuit board 38 is suppressed.
  • the heat generated in the first control board 74, the second control board 75, and the element control board 72c of the image pickup unit 3 is mainly exhausted through the board holder 73, the heat transfer member 76, and the mounting plate 78a. It is transmitted to the fins 78b, 78b,.
  • the outer casing 5 in which the insertion hole 25b into which the cooling fan 29 is inserted is formed and the imaging element 72b are detachable from the outer casing 5 and are detachable.
  • the cooling fan 29 can be pulled out from the insertion hole 25 b and removed from the outer casing 5, so that the maintainability of the cooling fan 29 is improved and the imaging apparatus 1 is improved. It is possible to ensure a good operating state.
  • the outer casing 5 has a top plate 20 that faces in the vertical direction and a peripheral plate 22 whose upper edge is continuous with at least a part of the outer periphery of the top plate 20, and an insertion hole 25 b is formed in the peripheral plate 22. Yes.
  • the outer casing 5 is provided with a pair of side plates 19 and 26 facing each other, and the side plates 26 are formed with intake holes 26a for taking in external air as cooling air, and the side plates 19 are provided with the outer casing 5 from the intake holes 26a.
  • Exhaust holes 19a, 19a,... Are formed for discharging the cooling air taken into the outside to the outside.
  • the cooling flow path is formed between the side plate 19 and the side plate 26, the cooling air is smoothly flowed inside the outer casing 5, and each part or the outer casing 5 disposed inside the outer casing 5. It is possible to improve the cooling efficiency for each part to be attached.
  • a cooling flow path for cooling air is formed by rotation of the cooling fan 29 from the intake hole 26a through the cooling fan 29 to the exhaust holes 19a, 19a,...
  • the heat generated in the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38 is transmitted from the outer casing 5 to the radiation fins, and the radiation fins 24, 24,. .., 28, 28,... Are discharged into the cooling flow path, so that it is possible to further improve the cooling efficiency for each part disposed inside the outer casing 5 and each part attached to the outer casing 5. .
  • the outer casing 5 is made of a material having thermal conductivity, and the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38 are attached to the outer casing 5.
  • the cooling fan 29 is disposed at a position surrounded by the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38.
  • the cooling fan 29 is located inside the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38, the cooling flow path for the cooling air is the first.
  • the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38 are formed inside the first circuit board 35, the second circuit board 36, and the third circuit board 38.
  • the cooling efficiency for the substrate 37 and the fourth circuit substrate 38 can be improved.
  • the cooling fan 29 is located inside the first circuit board 35, the second circuit board 36, the third circuit board 37, and the fourth circuit board 38, the space inside the outer casing 5 is Can be effectively utilized as a space for disposing the cooling fan 29, and the imaging apparatus 1 can be downsized while improving the cooling efficiency.
  • a first control board 74, a second control board 75, and an element control board 72c are arranged inside the imaging unit 3, and the first control board 74, the second control board 75, and element control are arranged in the imaging unit 3.
  • Exhaust heat fins 78b, 78b,... That release heat generated in the substrate 72c are provided, and the outer casing 5 is formed with fin insertion holes 25a through which the exhaust heat fins 78b, 78b,. In the state where the imaging unit 3 is attached to the outer casing 5, the heat exhaust fins 78b, 78b,... Are positioned in the cooling flow path.
  • the rise in the temperature of the first control board 74, the second control board 75, and the element control board 72c is suppressed by the cooling air taken in from the intake hole 26a in a state where the imaging unit 3 is attached to the outer casing 5. Therefore, a dedicated cooling means for suppressing the temperature rise of the first control board 74, the second control board 75, and the element control board 72c is not required, and the first structure is simplified after the structure is simplified. The cooling efficiency of the control board 74, the second control board 75, and the element control board 72c can be improved.
  • the outer casing 5 is provided with a frame surface portion 23 in which the inner space is formed as the arrangement space 5a, and at least a part of the imaging unit 3 is attached to the outer casing 5 in a state of being inserted into the arrangement space 5a.
  • the imaging unit 3 is attached to the outer casing 5 in a state where at least a part of the imaging unit 3 is inserted into the arrangement space 5a, the imaging unit 3 can be easily attached to the outer casing 5. In addition, a stable attachment state of the imaging unit 3 to the outer casing 5 can be ensured.
  • An imaging device (video camera) 1 includes an imaging element 72b having a photoelectric conversion function for converting captured light into an electrical signal, and a camera signal processing unit 401 that performs signal processing such as analog-digital conversion of a captured image signal. And an image processing unit 402 that performs recording / reproduction processing of an image signal.
  • the imaging apparatus 1 includes a display unit 403 (display unit 13) that displays captured images and the like, an R / W (reader / writer) 404 that writes and reads image signals to and from the memory 408, and imaging.
  • a CPU (Central Processing Unit) 405 that controls the entire apparatus 1, an input unit 406 (operation unit 12) such as various switches that are operated by a user, and the first accessory 100 or the third accessory 300.
  • a lens drive control unit 407 for controlling the driving of the lens provided in the lens.
  • the camera signal processing unit 401 performs various signal processing such as conversion of an output signal from the image sensor 72b into a digital signal, noise removal, image quality correction, and conversion into a luminance / color difference signal.
  • the image processing unit 402 performs compression encoding / decompression decoding processing of image signals based on a predetermined image data format, conversion processing of data specifications such as resolution, and the like.
  • the display unit 403 has a function of displaying various data such as an operation state of the user input unit 406 and a captured image.
  • the R / W 404 writes the image data encoded by the image processing unit 402 to the memory 408 and reads the image data recorded in the memory 408.
  • the CPU 405 functions as a control processing unit that controls each circuit block provided in the imaging apparatus 1, and controls each circuit block based on an instruction input signal from the input unit 406.
  • the input unit 406 outputs an instruction input signal corresponding to the operation by the user to the CPU 405.
  • the lens drive control unit 407 controls a motor (not shown) that drives the lens groups 410, 410,... Based on a control signal from the CPU 405.
  • the memory 408 is a semiconductor memory that can be attached to and detached from a slot connected to the R / W 404, for example. Note that the memory 408 may not be detachable from the slot but may be incorporated in the imaging apparatus 1.
  • the captured image signal is output to the display unit 403 via the camera signal processing unit 401 under the control of the CPU 405 and displayed as a camera-through image.
  • the CPU 405 outputs a control signal to the lens drive control unit 407, and a predetermined lens group 410 is set based on the control of the lens drive control unit 407. Moved.
  • the shot image signal is output from the camera signal processing unit 401 to the image processing unit 402, subjected to compression coding processing, and converted into digital data of a predetermined data format. Is done.
  • the converted data is output to the R / W 404 and written to the memory 408.
  • Focusing is performed by the lens drive control unit 407 moving a predetermined lens group 410 based on a control signal from the CPU 405.
  • predetermined image data is read from the memory 408 by the R / W 404 in accordance with an operation on the input unit 406, and decompression decoding processing is performed by the image processing unit 402. After that, the reproduced image signal is output to the display unit 403 to display the reproduced image.
  • imaging refers to conversion from a photoelectric conversion process in which light captured by the image sensor 72 b is converted into an electrical signal to a digital signal for an output signal from the image sensor 72 b by the camera signal processing unit 401.
  • Processing such as noise removal, image quality correction, conversion to luminance / color difference signals, compression / decompression processing of image signals based on a predetermined image data format by the image processing unit 402, and conversion processing of data specifications such as resolution ,
  • imaging may refer only to a photoelectric conversion process that converts light captured by the image sensor 72 b into an electrical signal, and from a photoelectric conversion process that converts light captured by the image sensor 72 b into an electrical signal.
  • the camera signal processing unit 401 may refer to processing such as conversion of an output signal from the image sensor 72b into a digital signal, noise removal, image quality correction, and conversion to a luminance / color difference signal, and the like.
  • the camera signal processing unit 401 converts the output signal from the image sensor 72b to a digital signal, noise removal, image quality correction, conversion to a luminance / color difference signal, and the like, Data such as compression encoding / decompression decoding processing and resolution of an image signal based on a predetermined image data format by the image processing unit 402 It may refer to the conversion process of the specification.
  • the imaging unit and the imaging device are configured to include only a part or all of the imaging element 72b, the camera signal processing unit 401, the image processing unit 402, and the R / W 404 that perform the above processing. Also good.
  • the imaging unit may include a part of the imaging element 72b, the camera signal processing unit 401, the image processing unit 402, and the R / W 404, and the apparatus main body 2 may be configured to include the rest.
  • the present technology can be configured as follows.
  • An outer casing formed with an insertion hole into which a cooling fan is inserted;
  • An imaging unit that has a mount portion to which an accessory is attached and is detachable from the outer casing and covers the insertion hole in a state of being attached to the outer casing;
  • the imaging apparatus in which the cooling fan is detachable from the outer casing through the insertion hole in a state where the imaging unit is detached from the outer casing.
  • the outer casing has a top plate facing in the vertical direction and a peripheral plate whose upper edge is continuous with at least a part of the outer periphery of the top plate,
  • the outer casing is provided with a pair of opposing side plates, An intake hole that takes in external air as cooling air is formed in one of the side plates, The imaging device according to (2), wherein the other side plate is formed with an exhaust hole for discharging cooling air taken into the outer casing from the intake hole to the outside.
  • a cooling air flow path from the intake hole to the exhaust hole through the cooling fan is formed by the rotation of the cooling fan,
  • the outer casing is formed of a material having thermal conductivity, A plurality of circuit boards are attached to the outer casing, The imaging device according to any one of (1) to (4), wherein the cooling fan is disposed at a position surrounded by the plurality of circuit boards in a state where the cooling fan is attached to the outer casing.
  • a control board is arranged inside the imaging unit,
  • the image pickup unit is provided with exhaust heat fins that release heat generated in the control board,
  • the outer casing is formed with a fin insertion hole through which the exhaust heat fin is inserted in a state where the imaging unit is attached to the outer casing.
  • a frame surface portion in which an inner space is formed as an arrangement space in the outer casing is provided,
  • An image sensor that photoelectrically converts the captured light into an electrical signal
  • a mount part to which the accessory can be attached An imaging unit which is attachable to the external device in a state of covering the insertion hole with respect to the external device in which the cooling fan is detachable through the insertion hole.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Thermal Sciences (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Studio Devices (AREA)
  • Camera Bodies And Camera Details Or Accessories (AREA)
  • Cameras Adapted For Combination With Other Photographic Or Optical Apparatuses (AREA)
  • Cooling Or The Like Of Electrical Apparatus (AREA)

Abstract

Afin d'améliorer la maintenabilité d'un ventilateur de refroidissement et d'assurer un excellent état de fonctionnement du ventilateur, la présente invention concerne un boîtier externe, dans lequel est formé un trou d'insertion dans lequel est inséré le ventilateur de refroidissement, et une unité d'imagerie, qui comporte une partie de montage sur laquelle un accessoire est fixé, qui peut être fixé au boîtier externe et détaché de celui-ci, et qui recouvre le trou d'insertion lorsqu'il est fixé au boîtier externe, le ventilateur de refroidissement pouvant être fixé à et détaché du boîtier externe à travers le trou d'insertion dans un état dans lequel l'unité d'imagerie a été détachée du boîtier externe. Ainsi, en détachant l'unité d'imagerie du boîtier externe, le ventilateur de refroidissement peut être retiré à travers le trou d'insertion et détaché du boîtier externe de sorte que la maintenabilité du ventilateur de refroidissement puisse être améliorée et qu'un excellent état de fonctionnement du ventilateur puisse être assuré.
PCT/JP2018/047961 2018-03-06 2018-12-26 Dispositif d'imagerie et unité d'imagerie WO2019171722A1 (fr)

Priority Applications (1)

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JP2020504806A JP7211411B2 (ja) 2018-03-06 2018-12-26 撮像装置及び撮像ユニット

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JP2018040138 2018-03-06
JP2018-040138 2018-03-06

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20230015180A (ko) * 2021-07-22 2023-01-31 서민환 카메라의 기판배열구조

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007235725A (ja) * 2006-03-02 2007-09-13 Fujifilm Corp 撮影システム
JP2009071516A (ja) * 2007-09-12 2009-04-02 Olympus Imaging Corp 電子カメラ
WO2016194479A1 (fr) * 2015-05-29 2016-12-08 ソニー株式会社 Dispositif de capture d'images

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP6419598B2 (ja) * 2015-02-16 2018-11-07 株式会社日立国際電気 カメラ装置およびカメラ装置の結露防止方法

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007235725A (ja) * 2006-03-02 2007-09-13 Fujifilm Corp 撮影システム
JP2009071516A (ja) * 2007-09-12 2009-04-02 Olympus Imaging Corp 電子カメラ
WO2016194479A1 (fr) * 2015-05-29 2016-12-08 ソニー株式会社 Dispositif de capture d'images

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20230015180A (ko) * 2021-07-22 2023-01-31 서민환 카메라의 기판배열구조
KR102618007B1 (ko) * 2021-07-22 2023-12-27 서민환 카메라의 기판배열구조

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