JP2004054159A - camera - Google Patents

Abstract

A camera capable of effectively dissipating heat from a circuit board whose temperature rises with an operation is provided.
When a power supply of a camera is turned on, a first circuit board operates to increase the temperature, and the heat is transmitted to a bottom wall of a case. The heat transmitted to the bottom wall 1044 is radiated from the bottom wall 1044 by a space formed between the bottom wall 1044 and the camera head 20, that is, radiated by the atmosphere. Thereby, a convection phenomenon occurs in the air facing the bottom wall 1044 and the air moves upward, and other unheated air moves to the vicinity of the bottom wall 1044, so that the heat radiation of the bottom wall 1044 efficiently, in other words, The heat radiation of one circuit board 12 or the heat radiation in the case is performed.
[Selection diagram] FIG.

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a camera in which a camera head having a taking lens optical system is movably connected to a camera body.
[0002]
[Prior art]
A digital still camera that detects an object image formed by an imaging lens optical system with an imaging device, generates image data based on an imaging signal output from the imaging device, and stores the image data in a memory device or the like. is there.
Such a digital still camera has a built-in circuit board on which an electric circuit for performing various control processes including the process of the image data is configured. In such a circuit board, a circuit element such as an LSI including a microcomputer or an LSI constituting a peripheral circuit is mounted on a rectangular plate-like substrate, and the entire circuit board has a rectangular plate shape having a thickness.
Further, inside the case forming the exterior of the digital still camera, a memory device housing section for detachably housing the memory device, a battery housing section for housing a battery, a liquid crystal display for displaying the image data, and the like. Housed and held.
In order to save the occupied space inside the case, the circuit board has a thickness direction of the circuit board sandwiched in a space formed between the memory device housing, the battery housing, a liquid crystal display, and the like. It is often arranged in a state.
[0003]
[Problems to be solved by the invention]
Since the circuit elements of the circuit board consume a large amount of power, the temperature of the circuit elements easily rises with the operation. Therefore, it is desirable to efficiently radiate heat from the circuit board in order to stabilize the operation of the circuit elements.
However, when the circuit board is accommodated in a space formed between the memory device accommodating section, the battery accommodating section, the liquid crystal display, and the like in the case, it is difficult to effectively dissipate the heat of the circuit board. There was a problem.
The present invention has been made in view of such circumstances, and a purpose of the present invention is to provide a camera capable of effectively dissipating heat from a circuit board whose temperature rises with operation. .
[0004]
[Means for Solving the Problems]
In order to achieve the above object, a camera according to the present invention includes a camera body, a camera head connected to the camera body, and a circuit board on which circuit elements for controlling various operations of the camera are arranged. In a camera in which a recess for accommodating the camera head is formed in a case of a camera body, the circuit board is disposed inside the case at a position facing a bottom wall of the recess.
In addition, the present invention includes a camera body, a photographing lens optical system, and a camera head coupled to the camera body so as to be movable between a storage position and a photographing position, and controls various operations of the camera. And a circuit board on which a circuit element to be performed is disposed, wherein the camera body is configured to have a case forming an exterior of the camera body, and the case has a recess in which the camera head is housed in the housing position. In the camera formed, the concave portion is covered by the camera head at the storage position, and has a bottom wall facing the atmosphere at the shooting position, and the circuit board is provided on the bottom surface of the concave portion inside the case. It is characterized in that it is arranged at a location facing.
Therefore, according to the present invention, when the temperature of the circuit element rises, heat is transmitted to the bottom wall. The heat transmitted to the bottom wall is radiated from the bottom wall to a space formed between the bottom wall and the camera head, that is, radiated to the atmosphere. Accordingly, a convection phenomenon occurs in the air facing the bottom wall and the air moves upward, and other unheated air moves to the vicinity of the bottom wall, thereby efficiently dissipating heat.
[0005]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of a camera according to the present invention will be described in detail with reference to the drawings.
FIG. 1 is a perspective view of the camera according to the first embodiment of the present invention as viewed from the front, FIG. 2 is a perspective view of the camera as viewed from the rear, and FIG. 4 shows the configuration of the camera according to the first embodiment of the present invention. It is a block diagram.
As shown in FIGS. 1 and 2, the camera 100 includes a camera body 10 and a camera head 20 movably connected to the camera body 10.
The camera body 10 and the camera head 20 are configured to operate by a power supplied from a battery 32 (see FIG. 3).
As shown in FIG. 4, the camera head 20 includes a photographic lens optical system 2002, an image sensor 2004, a camera signal processing unit 2006, a viewfinder device 2008, a flash light 2010, a flash drive unit 2012, an AF auxiliary light source 2014, and an LED. The driving unit 2016 is provided.
The photographing lens optical system 2002 includes a photographing lens for photographing a subject image.
The imaging device 2004 is configured to generate and output an image signal by detecting a subject image captured by the imaging lens optical system 2002.
The camera signal processing unit 2006 is configured to generate and output image data by performing necessary processing on an image signal output from the imaging device 2004.
[0006]
The viewfinder device 2008 is for visually recognizing a subject image to be photographed, and includes an objective lens and an eyepiece. In the present embodiment, a liquid crystal display for displaying the subject image is provided. It is configured as an optical type without having.
The flashlight 2010 is configured to irradiate a subject image with light.
The flash drive unit 2012 is configured to supply a drive signal to the flash light 2010 so that the flash light 2010 emits light.
The AF auxiliary light source 2014 illuminates the subject image with light when the subject image is dark, thereby enabling an autofocus operation of the photographing lens optical system 2002. In the present embodiment, an LED is used. It is constituted by.
The LED driving unit 2016 is configured to cause the AF auxiliary light source 2014 to emit light by supplying a drive signal to the AF auxiliary light source 2014.
[0007]
The camera body 10 includes a monitor 1002 as a display unit, a monitor driving unit 1004, a connector 1006 for a memory device, an interface unit 1008 for a memory device, a connector 1010 for external communication, an interface unit 1012 for external communication, and an operation unit. 1014, a speaker 1016, a speaker driving unit 1018, an antenna 1020, a Bluetooth signal processing unit 1022, an interface unit 1024 for Bluetooth communication, a memory 1026, an image signal processing unit 1028, a control unit 1030, a first switch 1070, and a second switch 1072. It is provided with.
The first and second switches 1070 and 1072 are configured to turn on and off according to the position of the camera head 20 to output first and second detection signals S1 and S2.
The monitor 1002 displays image data such as a subject image, character data, and the like. In the present embodiment, the monitor 1002 is configured by a liquid crystal display.
The monitor driving unit 1004 is configured to generate a driving signal based on image data and character data supplied from the image signal processing unit 1028 and supply the generated driving signal to the monitor 1002 so that the monitor 1002 performs display. ing.
The connector 1006 is configured to be connectable to a memory device 30 that stores data including image data.
[0008]
The interface unit 1008 is configured to exchange data including image data with the memory device 30 connected to the connector 1010.
The external connector 1010 is configured to be connected to the cradle-side connector when the camera main body 10 is mounted on a cradle (not shown), and a personal computer or the like is connected via the cradle-side connector. It is configured to be able to communicate with the information processing device.
The interface unit 1012 is configured to control communication of information via the external connector 1010.
The operation unit 1014 includes a plurality of operation switches and operation buttons for performing various operations. The speaker 1016 is configured to emit an operation confirmation sound corresponding to the operation.
The speaker driving unit 1018 is configured to make the speaker 1016 emit sound by supplying a driving signal to the speaker 1016.
The antenna 1020 is configured to transmit and receive a Bluetooth signal as a wireless signal.
The Bluetooth signal processing unit 1022 is configured to perform transmission and reception processing of the Bluetooth signal via the antenna 10120.
The interface unit 1024 is configured to control transmission and reception of the Bluetooth signal.
The memory 1026 is configured to store various data necessary for performing the operation of the camera 100.
The image signal processing unit 1028 performs necessary processing on the image data input from the camera signal processing unit 2006, and supplies the processed image data to the interface units 1008, 1012, 1024, and the memory 1026. Is configured.
[0009]
The control unit 1030 controls the flash drive unit 2012, the LED drive unit 2016, the speaker drive unit 1018, and the interface unit 1024, and performs necessary control based on an input signal supplied from the operation unit 1014. Is configured.
The control unit 1030 turns on power supply to the monitor 1002, the image sensor 2004, the camera signal processing unit 2006, and the image signal processing unit 1028 based on the first detection signal S1 supplied from the first switch 1070. Configured to control off,
Further, the control unit 1030 switches the image displayed on the monitor 1002 to one of a normal display and a mirror display in which left and right are inverted based on the second detection signal S2 supplied from the second switch 1072. The image signal processing unit 1028 is configured to be controlled.
[0010]
As shown in FIGS. 1 and 2, the camera body 10 includes a plate-shaped case 1032 having a thickness in the front-rear direction, a height in a vertical direction larger than the thickness, and a width in a horizontal direction larger than the height. It is configured to have. For convenience of explanation, the left and right in the present invention means left and right when viewed from the front of the camera 100.
The case 1032 has a rectangular bottom wall 1034, a front wall 1036 erected from four sides of the bottom wall 1034, a rear wall 1038, a left side wall 1040, a right side wall 1042, and a right side wall 1042. The existing cover 1048 is attached.
[0011]
A concave portion 1033 for accommodating the camera head 20 is formed at an upper portion of the case 1032 so as to penetrate in the front-rear direction and open upward, and a left portion of the concave portion 1033 has a front wall 1036, a rear wall 1038, and a left side. A protruding portion 1046 constituting each upper portion of the wall 1040 is located, an upper portion of the cover 1048 is located on the right side of the concave portion 1033, and a bottom wall 1044 of the concave portion 1033 is located between the protruding portion 1046 and the cover 1048. Is formed as a flat surface facing.
The upper end of the protrusion 1046 and the upper end of the cover 1048 are configured to have the same height, and the protrusion 1046 and the upper end of the cover 1048 are formed of the same cylindrical surface.
A shutter button 1047 that forms a part of the operation unit 1014 is provided at an upper end of the protrusion 1046.
The antenna 1020 is accommodated and disposed in the internal space of the cover 1048, and the outer surface of the cover 1048 is a part of the operation unit 1014, and is used to operate when performing Bluetooth communication. A Bluetooth switch 1049 is provided.
[0012]
The bottom wall 1034 of the case is provided with the external connector 1010, a lid 1050 for taking out a secondary battery, a hole 1052 for a speaker, and a screw portion 1054 for attaching a tripod.
The lid 1050 closes an opening of a secondary battery housing (not shown) formed on the bottom wall. The secondary battery supplies power for backing up data in the memory 1026.
A nameplate 1056 on which the model number and the serial number of the camera 100 are displayed is attached to the lid 1050 and the bottom wall 1034 with an adhesive or the like. Therefore, when the camera 100 is discarded, the device nameplate 1056 is peeled off from the bottom wall 1034, the lid 1050 is opened, and then the secondary battery is removed and discarded.
The speaker hole 1052 is for transmitting the sound of the speaker 1016 disposed inside the camera body 10 to the outside of the camera body 10.
The tripod mounting screw portion 1054 is formed as a female screw for screwing the camera body 10 to a male screw of a tripod.
[0013]
The rear wall 1038 is provided with the monitor 1002, a zoom button 1058, select buttons 1060 and 1062, and a hanging bracket 1064.
The monitor 1002 is formed in a rectangular plate shape having a thickness, a rectangular display surface is provided on a front surface side thereof, and a rear surface portion is disposed at a position of the rear wall 1038 near the right side wall 1042.
The zoom button 1058 is used to perform an operation of designating a wide angle and a telephoto of digital zoom processing performed by the image signal processing unit 1028 on the image data.
The select buttons 1060 and 1062 are for performing various operations on the camera 100.
The zoom button 1058 and the selection buttons 1060 and 1062 constitute a part of the operation unit 1014.
The hanging bracket 1064 is for attaching a strap.
[0014]
Here, the mounting structure of the hanging hardware 1064 will be described.
As shown in FIG. 17A, the hanging bracket 1064 includes a ring 1064A for attaching a strap and a shaft 1064B to which the ring 1064A is connected. It has a cylindrical portion 1064C and a groove 1064D provided on the entire outer periphery of the cylindrical portion 1064C.
As shown in FIG. 17B, an insertion hole 1038A for inserting the cylindrical portion 1064C is provided in a rear wall 1038 of the case 1032 of the camera body 10, and a lower wall near the insertion hole 1038A. Screw insertion holes 1034A are provided at 1034 places.
The groove 1604D is provided so as to be located on the inner surface of the rear wall 1038 in a state where the columnar portion 1064C is inserted into the insertion hole 1038A from the outer surface of the rear wall 1038.
A mounting piece 16 is used to attach the hanging bracket 1064 to the case 1032. The mounting piece 16 is composed of a first piece 1602 that can contact the upper surface of the lower wall 1034 of the case 1032, and a rear wall of the case 1032. 1038 is provided with a second piece 1604 which can be brought into contact with the inner surface of the 1038. The first piece 1602 is provided with a screw hole 1606, and the second piece 1604 is engaged with the groove 1064D. A groove 1608 is provided.
The screw hole 1606 of the mounting piece 16 is inserted into the rear wall 1038 with the first piece 1602 abutting on the upper surface of the lower wall 1034 of the case 1032 and the second piece 1604 abutting on the inner surface of the rear wall 1038. When the engagement groove 1608 is engaged with the groove portion 1064D of the cylindrical portion 1064 inserted into the hole 1038A, the case 1032 is provided at a position corresponding to the screw insertion hole 1034A.
[0015]
According to such a configuration, the screw insertion hole 1034A of the case 1032 and the screw hole of the mounting piece 16 are formed only when the engagement groove 1608 of the mounting piece 16 is securely engaged with the groove 1604D of the hanging bracket 1064. 1606 match.
In this state, by screwing the screw into the screw hole 1606 via the screw insertion hole 1034A, the hanging bracket 1064 can be securely attached to the case 1032.
When the engaging groove 1606 of the mounting piece 16 does not engage with the groove 1604D of the hanging bracket 1064, the screw insertion hole 1034A of the case 1032 does not coincide with the screw hole 1606 of the mounting piece 16.
In this state, the screw cannot be screwed into the screw hole 1606 via the screw insertion hole 1034A, and it is instantaneously determined that the engagement between the mounting piece 16 and the hanging bracket 1064 is insufficient. Can be.
Therefore, it can be easily confirmed whether or not the hanging bracket 1064 and the attachment piece 16 are securely engaged, which is advantageous in securely mounting the hanging bracket 1064 to the case 1032. .
[0016]
On the other hand, conventionally, as shown in FIGS. 21A to 21C, the case 1032 is inserted into the case 1032 in a state where the columnar portion 1064C of the hanging bracket 1064 is inserted into an insertion hole (not shown) of the case 1032. The hanging metal 1064 is attached to the case 1032 by engaging the E-ring 30 with the groove 1064C located on the inner surface of the case 1032. Therefore, as shown in FIG. 21 (D), even if the engagement of the E-ring 30 with the groove 1064C is insufficient, there is a disadvantage that it is difficult to judge this easily. According to the mounting structure of the lowering bracket, such a problem can be solved.
[0017]
The following is a summary of the mounting structure of the hanging bracket described above.
A structure in which a hanging bracket for attaching a strap having a ring and a shaft to which the ring is connected is attached to a case, wherein the shaft includes a cylindrical portion and a groove provided around the entire outer periphery of the cylindrical portion. The case is provided with an insertion hole through which the cylindrical portion is inserted, and further provided with a mounting piece for mounting the shaft to the case, wherein the mounting piece has an engagement groove engageable with the groove. And a screw hole for attaching the attachment piece to the case is provided, and the groove is provided so as to be located on the inner surface of the case in a state where the cylindrical portion is inserted into the insertion hole from the outer surface of the case. The screw hole of the mounting piece is provided at a position corresponding to the screw insertion hole of the case in a state where the engagement groove is engaged from the inner surface of the case with the groove of the cylindrical portion inserted into the insertion hole of the case. Configured as It has been.
[0018]
Next, another mounting structure of the hanging hardware will be described.
As shown in FIG. 18, the hanging bracket 1069 has a ring 1069A for attaching a strap, a shaft 1069B to which the ring 1069A is connected, and a locking plate 1069C provided at the tip of the shaft. It is configured.
In addition, an insertion groove 1038E for inserting the locking plate 1069C is provided in a rear wall 1038 of the case 1032 of the camera body 10, and a screw insertion hole 1034A penetrates the lower wall 1034 near the insertion groove 1038E. Is established. The insertion groove 1038E is formed so that the shaft 1069B cannot be inserted, and only the locking plate 1069C can be inserted. As shown in FIG. 19, the locking plate 1069C inserted through the insertion groove 1038E is turned by 90 degrees. When rotated, the locking plate 1069C and the insertion groove 1038E are substantially orthogonal to each other, and the locking plate 1069C is configured not to drop out of the insertion groove 1038E.
The locking plate 1069C is provided so as to be located on the inner surface of the rear wall 1038 in a state where the locking plate 1069C is inserted into the insertion groove 1038E from the outer surface of the rear wall 1038.
[0019]
As shown in FIG. 20, a mounting piece 18 is used to attach the hanging bracket 1069 to the case 1032, and the mounting piece 18 is a first piece 1802 that can contact the upper surface of the lower wall 1034 of the case 1032. And a second piece 1804 that can be brought into contact with the inner surface of the rear wall 1038 of the case 1032. The first piece 1802 is provided with a screw hole 1806, and the second piece 1804 is An engagement groove 1808 is provided which can be engaged with the plate 1069C and engages with the locking plate 1069C to prevent rotation of the hanging bracket 1069.
The screw hole 1806 of the mounting piece 18 is inserted into the rear wall 1038 in a state where the first piece 1802 is in contact with the upper surface of the lower wall 1034 of the case 1032 and the second piece 1804 is in contact with the inner surface of the rear wall 1038. When the engaging groove 1808 of the mounting piece 18 is engaged with the locking plate 1069C which is inserted into the groove 1038E and rotated 90 degrees, the engaging plate 1609 is provided at a position corresponding to the screw insertion hole 1806 of the case 1032. I have.
[0020]
According to such a configuration, the screw insertion hole 1034A of the case 1032 and the mounting piece 18 can be inserted only when the engagement groove 1808 of the mounting piece 18 is securely engaged with the locking plate 1069C of the hanging bracket 1064. The screw holes 1806 coincide with each other.
In this state, by screwing the screw into the screw hole 1806 via the screw insertion hole 1034A, the hanging bracket 1069 can be securely attached to the case 1032.
When the engaging groove 1808 of the mounting piece 18 does not engage with the locking plate 1069C of the hanging bracket 1069, the screw insertion hole 1034A of the case 1032 does not match the screw hole 1806 of the mounting piece 18.
In this state, the screw cannot be screwed into the screw hole 1806 through the screw insertion hole 1034A, and it is immediately determined that the engagement between the mounting piece 18 and the hanging bracket 1069 is insufficient. Can be.
Therefore, it can be easily confirmed whether or not the hanging bracket 1069 and the mounting piece 18 are securely engaged, which is advantageous in securely mounting the hanging bracket 1069 to the case 1032. .
[0021]
The following is a summary of the mounting structure of the hanging bracket described above.
A structure in which a hanging bracket for attaching a strap having a ring and a shaft to which the ring is connected is attached to a case, wherein the shaft includes a locking plate provided at a tip of the shaft, and the case includes An insertion groove for inserting the locking plate is provided, and a mounting piece for mounting the shaft to the case is provided. The mounting piece includes an engagement groove engageable with the locking plate, A screw hole for attaching a mounting piece to the case is provided, and the locking plate is provided so as to be located on an inner surface of the case in a state where the locking plate is inserted into an insertion groove from an outer surface of the case. The screw hole of the mounting piece is provided at a position corresponding to the screw insertion hole of the case in a state where the engagement groove is engaged from the inner surface of the case to the locking plate inserted into the insertion groove of the case. It is configured to be.
[0022]
A mode switching dial 1065 for switching and setting the operation mode of the camera 100 to a plurality of types of photographing modes and reproduction modes is provided at a position closer to the upper side of the left side wall 1040.
A push-type power switch 1067 is provided at the center of the mode dial 1065. When the power switch 1067 is turned on / off, the power supply is turned on / off by the control unit 1030 regardless of the on / off state of the first switch 1070.
As shown in FIG. 3, a lower half of the left side wall 1040 is provided with a memory device housing portion 1064 for housing the memory device 30 and a battery housing portion 1066 for housing the battery 32. The two housing portions 1064 and 1066 face the outside through the respective openings, and these two openings are opened and closed by the lid 1068.
[0023]
The camera head 20 is configured to have a case 2022. The case 2022 is swingably coupled on both upper sides to both side surfaces of the concave portion 1033 via left and right pivots 2044 and 2046. A rotation axis for swinging the camera head 20 is formed by the shaft supports 2044 and 2046.
The case 2022 includes a rectangular lower wall 2024, a front wall 2026 erected from four sides of the lower wall 2024, a rear wall 2028, a left side wall 2030, a right side wall 2032, and the front wall 2026 and the rear wall 2028. , And an upper wall 2034 connecting the upper portions of the left and right side walls 2030 and 2032.
The case 2022 is formed with the same thickness as the case 1032 so as to be integrated with the camera body 10 when housed in the concave portion 1033, and the upper portion is formed with the cylindrical surface of the projecting portion 1046 and the cover 1048. They are formed of cylindrical surfaces of the same shape.
A window 2022A for a photographing lens, a window 2022B for a viewfinder, a window 2022D for an AF auxiliary light source, and a window 2022E for a flashlight are opened in a lower wall 2024 of the case 2002.
An eyepiece window 2022C is opened in the upper wall 2034 of the case 2022.
[0024]
As shown in FIG. 6, a housing 2036, a board 2038, and a columnar capacitor 2040 are attached inside the case 2032, and the photographing lens optical system 2002 is inside the case 2022. , A viewfinder device 2008, a flash light 2010, an AF auxiliary light source 2016, and an indicator lamp 2017 (see FIG. 2).
The photographing lens optical system 2002, the imaging device 2004, and the viewfinder device 2008 are held by the housing 2036.
The photographing lens optical system 2002 is disposed so that its optical axis faces outward through a photographing lens opening provided in the housing 2036 and the photographing lens window 2022A.
[0025]
The viewfinder device 2008 includes an objective lens opening provided in the housing 2036, an objective lens facing outward through the objective lens window 2022 </ b> B, and an eyepiece opening provided in the housing 2036. The eyepiece is arranged to face outward through the eyepiece window 2022C.
The AF auxiliary light source 2016 and the flash light 2010 are fixed on the front surface of the substrate 2038, and the capacitor 2040 is fixed on the rear surface of the substrate 2038.
A recess 2042 is formed at the housing 2036 facing the rear wall 2028 of the case 2032. It is arranged to be accommodated.
The AF auxiliary light source 2016 is disposed so as to face outward through the AF auxiliary light window 2022D.
The flashlight 2010 is disposed so as to face outward through the flashlight window 2022E.
The photographing lens optical system 2002 and the flashlight 2010 are arranged at intervals on a straight line parallel to the rotation axis of the camera head 20.
As shown in FIG. 2, the indicator lamp 2017 is provided on the upper wall 2034 of the case 2022 so as to face outward. The indicator lamp 2017 indicates a charge amount for causing the flash light 2010 to emit light, and is turned on by the flash drive unit 2012.
[0026]
As shown in FIGS. 5 and 7, the left shaft support portion 2044 of the left and right shaft support portions 2044 and 2046 of the camera head 20 includes a shaft portion 2048 and a bearing portion 2056.
The shaft portion 2048 protrudes from an upper portion of a left side wall 2028 of the case 2022.
An annular convex portion 2050 is formed on the outer periphery of the base portion of the shaft portion 2048, and first and second cam portions 2052 and 2054 are formed to protrude at a portion of the shaft portion 2048 on the tip side of the convex portion 2050. ing.
The bearing portion 2056 is constituted by two bearing members 2058 incorporated inside the left side surface of the concave portion 1033.
The convex portion 2050 of the shaft portion 2048 is configured to be rotatably supported by the concave groove 2060 of the bearing portion 2056.
[0027]
The first cam portion 2052 is formed to extend over a first angular range in the circumferential direction of the shaft portion 2048.
The second cam portion 2054 is formed to extend over a second angular range in the circumferential direction of the shaft portion 2048 that is different from the first angular range.
As shown in FIG. 8, in a state where the protrusion 2038 of the shaft portion 2036 is supported by the groove 2060 of the bearing portion 2056, the first switch 1070 is provided on the bearing portion 2056 so as to face the shaft portion 2036. Two switches 1072 are attached. The first switch 1070 has an operating piece, and is turned on when the operating piece is pressed by the first cam portion 2052, and turned off when the pressing is released, so that the first detection signal S1 is generated. It is configured to output.
The second switch 1072 has an operating piece, and is turned on when the operating piece is pressed by the second cam portion 2054, and turned off when the pressing is released. It is configured to output.
[0028]
As shown in FIG. 9, the right side support portion 2046 of the left and right side support portions 2044 and 2046 of the camera head 20 is configured by the hinge mechanism 22.
The hinge mechanism 22 includes a fixed plate 2202, a hinge base 2204, a hinge plate 2206, a click spring 2208, and a click plate 2210.
The fixing plate 2202 has a height and a width, and the lower half 2202C in the height direction is attached to the upper part of the right side wall 1042 of the camera body 10 so that the upper half 2202A in the height direction is formed. It is arranged so as to face the recess 1033. A rectangular hole 2202B is formed in the upper center of the fixed play and 2202, and two screw holes 2202D are formed on both sides of the hole 2202B.
The hinge base 2204 has a base 2204A attached to an upper portion of the fixing plate 2202, and a shaft 2204B is provided at a position of the base 2204A opposite to the fixing plate 2202, and a diameter of the shaft 2204B is provided. An arc-shaped groove 2204C is provided outside the direction. The angle range in which the groove 2204C extends is 300 degrees in the present embodiment.
At the tip of the shaft portion 2204B, there is provided an engagement protrusion 2204D having a rectangular frame shape in cross section, which protrudes in the axial direction, and two tips are provided at both ends of the engagement protrusion 2204D at the tip of the shaft portion 2204B. A screw insertion hole 2204D is formed.
[0029]
The hinge plate 2206 is formed in a plate shape, and is provided with a hole 2206A at the center thereof, which is inserted into the shaft portion 2204B of the hinge base 2204 and rotatably supported by the shaft portion 2204B. Engaging recesses 2206B and 2206B are formed on both sides of the hinge plate 2206 with the hole 2206A interposed therebetween.
A guide pin 2206C, which is guided by the groove 2204C, protrudes from the hinge plate 2206 at a position facing the groove 2204C of the hinge base 2204. Also, two attachment pieces 2206D extend downward from both sides in the width direction of the lower portion of the hinge plate 2206.
The click spring 2208 is formed in an annular plate shape curved in the thickness direction, and is provided with one spherical projection 2208A protruding in one direction in the thickness direction, that is, in a direction away from the hinge plate 2206. I have.
The outer edge of the click spring 2208 is provided with two engaging projections 2208B that respectively engage with the two engaging recesses 2206B of the hinge plate 2206.
The clip plate 2210 is formed in a disk shape, and is provided with five concave portions 2210A, 2210B, 2210C, 2210D, and 2210E at intervals in the circumferential direction near the outer peripheral portion. These five concave portions are formed so as to be engaged with and disengaged from the convex portion 2208A of the click spring 2208.
In the present embodiment, the angular positions of the five concave portions as viewed from the central axis of the click plate 2210 are set as follows. That is, assuming that the concave portion 2210A is 0 degree, the concave portion 2210B has 90 degrees, the concave portion 2210C has 180 degrees, the concave portion 2210D has 270 degrees, and the concave portion 2210E has 300 degrees.
[0030]
FIGS. 11A and 11B are cross-sectional views of a main part showing the relationship between the protrusion 2208A of the click spring 2208 and the five recesses 2210A to 2210E of the click plate 2210.
As shown in FIGS. 11A and 11B, the depth of one of the five recesses 2210A to 2210E, for example, the recess 2210A, is larger than the other recesses 2210B to 2210E. It is set as follows.
At the center of the click plate 2210, an engagement hole 2210F that engages with the engagement protrusion 2204D of the hinge base 2204 is formed. Further, two screw insertion holes 2210G are formed on both sides of the engagement hole 2210A.
[0031]
The assembly of the hinge mechanism 22 is performed as follows.
The hinge base 2204, the hinge plate 2206, the click spring 2208, and the click plate 2210 are stacked on the upper part 2202A of the fixing plate 2202 in this order.
Here, the shaft 2204B of the hinge base 2204 is inserted into the hole 2206A of the hinge plate 2206, and the guide pin 2206C of the hinge plate 2206 is positioned in the groove 2204C of the hinge base 2204.
Further, the engaging projection 2208B of the click spring 2208 is engaged with the engaging recess 2206B of the hinge plate 2206.
In this state, the two screws 2212 are screwed into the screw holes 2202D of the fixed plate 2202 via the screw insertion holes 2210G of the click plate 2210 and the screw insertion holes 2204D of the hinge base 2204.
Thus, the hinge plate 2206 and the click spring 2208 are swingably supported by the fixed plate 2202, the hinge base 2204, and the click plate 2210, and the hinge mechanism 22 is assembled as shown in FIG.
At this time, the convex portion 2208A of the click spring 2208 engages with each of the concave portions 2210A to 2210E of the click plate 2210, whereby the rotational position of the hinge plate 2206 is positioned and held at the respective positions of the concave portions. Will be.
In addition, the hinge plate 2206 has a limit of a rotation range of 300 degrees around a shaft portion by the guide pin 2206C being in contact with each of two ends located in the extending direction of the groove 2204C of the hinge base 2204. The position is determined.
[0032]
When the hinge mechanism 22 is assembled in this manner, the hinge mechanism 22 is assembled to the camera body 10 and the camera head 20 as follows.
The mounting piece 2206D of the hinge plate 2206 is attached to the right side wall 2032 of the case 2022 of the camera head 20 with a screw, and the lower part 2202C of the fixing plate 2202 is attached to the right side wall 1042 of the camera body 10 with a screw. Thereby, the hinge mechanism 22 is assembled to the camera body 10 and the camera head 20, and the hinge mechanism 22 is externally covered by the cover 1048.
[0033]
FIG. 15 is an explanatory view showing the arrangement of the circuit boards housed and held in the camera body 10, and FIG. 16 is a longitudinal sectional view of FIG.
Inside the case 1032 of the camera body 10, the memory device housing 1064 and the battery housing 1066, and a portion on the back side of the monitor 1002 are arranged. Further, the first circuit board 12, the second circuit The substrate 14 is housed and held.
The first circuit board 12 is configured by mounting LSIs 1204, 1206, etc. as circuit elements on a component mounting surface 1203 on the front side of a rectangular printed board 1202.
In this embodiment, the LSI 1204 is formed of a microcomputer having a high operating clock frequency, and constitutes the image signal processing unit 1028 and the control unit 1030 described in FIG. 4, and the LSI 1206 is provided in the memory 1026 described in FIG. Is composed.
These LSIs 1204 and 1206 have relatively high power consumption and tend to increase in temperature with their operation.
The first circuit board 12 has a component mounting surface 1203 facing in parallel with the bottom wall 1044 near a lower portion of the bottom wall 1044 constituting the concave portion 1033 of the case 1032 and extending in the bottom direction. The first circuit board 12 is disposed along the longitudinal direction of the wall 1044, and the first circuit board 12 is located above the second circuit board 14 and the monitor 1002, as shown in FIG.
[0034]
The second circuit board 14 is configured by mounting an LSI (not shown) as a circuit element on a component mounting surface 1403 on the front side of a rectangular printed board 1402. The LSI comprises a monitor driver 1004, an interface 1008 for a memory device, an interface 1012 for external communication, an interface 1024 for Bluetooth, a speaker driver 1018, and the like.
These LSIs of the second circuit board 14 have relatively low power consumption, and the temperature rise accompanying their operation is less than that of the first circuit board 12.
The second circuit board 14 is provided with its component mounting surface 1403 in the vicinity of the front wall 1036 of the case 1032 so as to face in parallel with the front wall 1036.
[0035]
Next, the swing operation of the camera head in the camera 100 configured as described above will be described.
FIG. 12 is an explanatory diagram showing the swinging operation of the camera head with respect to the camera body.
As shown in (A), the camera head 20 is in the storage position, that is, in a state where the lower wall 2024 of the case 2022 of the camera head 20 faces the upper surface of the concave portion 1033 of the camera body 10. The swing angle is set to 0 degree. In this case, the angle of the hinge plate 2206 of the hinge mechanism 22 is also 0 degree, and the camera head 20 is held at the position of 0 degree by the hinge mechanism 22 and does not swing unless a force equal to or more than a predetermined value is applied. ing.
In this state, the first switch 1070 is not pressed by the first cam portion 2052, so that the first detection signal S1 is in the off state, and the second switch 2010 is not pressed by the second cam portion 2054, so that The second detection signal S2 is also off. Therefore, the control unit 1030 holds the state in which the power supply is stopped.
When the camera head 20 is in the storage position, the taking lens window 2022A facing the taking lens optical system 2002, the viewfinder window 2022B facing the viewfinder device 2008, and the AF auxiliary light facing the AF auxiliary light source 2016. The window 2022D for the flashlight and the window 2022E for the flashlight facing the flashlight 2010 are located on the bottom wall 1044 forming the bottom surface of the concave portion 1033, and are covered by the camera main body 10; The camera components such as the members are protected by the camera body 10.
[0036]
Next, when the photographer swings the camera head 20 in the direction of the arrow in order to perform photographing with the camera 100, the convex portion of the hinge mechanism 22 is disengaged from the concave portion. The first and second switches are used until the angle of the camera head 20 shown in FIG. 12B reaches X degrees (an angle within a range where there is no vignetting, for example, any angle between 45 degrees and 55 degrees). 1070 and 2010 are both in the off state, and the control unit 1030 holds the state in which the power supply is stopped.
[0037]
When the angle of the camera head 20 becomes X degrees, the first switch 1070 is pressed by the first cam portion 2052, and the first detection signal S1 is turned on, whereby the control unit 1030 controls the power supply. Start. In this case, the second switch 1072 is kept off.
As shown in FIG. 13, when the angle of the camera head 20 is smaller than X degrees, there is vignetting in which the location of the camera body 10 is reflected in a shooting range of the shooting lens optical system 2002. When the angle of the camera head 20 becomes X degrees or more, the vignetting is eliminated.
[0038]
As shown in FIG. 12C, the camera head 20 is further swung in the direction of the arrow, and when the angle becomes 90 degrees, the convex portion 2208A of the click spring 2208 of the hinge mechanism 22 is inserted into the concave portion 2210B of the click plate 2210. It will be in the engaged state. As a result, the swinging posture of the camera head 20 is maintained, the first switch 2002 is kept on, and the second switch 1072 is kept off. In this case, as shown in FIGS. 1 and 14A, the camera head 20 is in a state in which the optical axis of the photographic lens optical image 2002 is directed forward of the camera body 10.
Therefore, the photographer can shoot while visually recognizing the subject image displayed on the monitor 1002 or visually recognizing the subject image from the eyepiece window 2022C.
[0039]
As shown in FIG. 12 (D), the camera head 20 is further swung in the direction of the arrow, and when the angle becomes 180 degrees, the convex portion 2208A of the click spring 2208 of the hinge mechanism 22 is inserted into the concave portion 2210C of the click plate 2210. It will be in the engaged state. As a result, the swing posture of the camera head 20 is maintained, the first switch 2002 is kept on, and the second switch 1072 is kept off.
In this case, as shown in FIG. 1 and FIG. 14A, the camera head 20 is in a state where the optical axis of the photographic lens optical image 2002 is directed upward of the camera body 10.
Therefore, the photographer can perform photographing while visually recognizing the subject image displayed on the monitor 1002.
[0040]
As shown in FIG. 12 (E), the camera head 20 is further swung in the direction of the arrow, and when the angle becomes 270 degrees, the convex portion 2208A of the click spring 2208 of the hinge mechanism 22 is inserted into the concave portion 2210D of the click plate 2210. It will be in the engaged state. Accordingly, the swing posture of the camera head 20 is maintained, and the first switch 2002 is maintained in the on state, but the second switch 1072 is switched from the off state to the on state by the second cam portion 2054. Accordingly, the control unit 1030 that has received the second detection signal S2 in the ON state switches the image displayed on the monitor 1002 to mirror display.
In this case, as shown in FIG. 14B, the camera head 20 is in a state where the optical axis of the photographing lens optical system 2002 is directed to the rear of the camera body 10.
Therefore, the photographer turns the optical axis of the photographing lens optical system 2002 toward the photographer himself in a state where the photographer is located behind the camera body 10 while visually recognizing the subject image displayed on the monitor 1002. Face-to-face photography can be performed.
In this case, the rear of the camera body 10 is directed toward the subject, that is, both the optical axis of the photographing lens optical system 2002 of the camera head 20 and the display surface of the monitor 1002 are directed toward the subject. It is also possible to take a picture while visually recognizing the subject from the eyepiece window 2022C of the camera head 20 from the side.
[0041]
As shown in FIG. 12 (F), the camera head 20 is further swung in the direction of the arrow, and when the angle becomes 300 degrees, the convex portion 2208A of the click spring 2208 of the hinge mechanism 22 is inserted into the concave portion 2210E of the click plate 2210. It will be in the engaged state. As a result, the swing posture of the camera head 20 is maintained, and both the first and second switches 1070 and 1072 are maintained in the ON state. As a result, the image displayed on the monitor 1002 is maintained as a mirror display.
In this case, as shown in FIG. 14F, the camera head 20 is in a state where the optical axis of the photographing lens optical system 2002 is slightly downward from behind the camera body 10.
Accordingly, the photographer turns the optical axis of the photographing lens optical system 2002 toward the photographer himself while being positioned behind the camera 100 and below the camera 100, and is displayed on the monitor 1002. Face-to-face shooting can be performed while visually recognizing the subject image itself.
[0042]
When the camera head 20 is swung back to the storage position shown in FIG. 14A after the photographing is completed, the first detection signal S1 from the first switch 1070 is turned off, whereby the control is performed. The power supply is stopped by the unit 1030.
[0043]
In the present embodiment, when the camera head 20 is located in the range of X degrees to 300 degrees, the camera 100 can take a picture, and the camera head 20 in the range of X degrees to 300 degrees is set. Corresponds to the photographing position in the claims.
[0044]
Next, the operation of the camera 100 configured as described above will be described.
As shown in FIG. 16, the bottom wall 1044 of the camera body 10 is located at the upper side, the lower wall 1034 is located at the lower side, and the camera head 20 is in the shooting position where it is swung at 90 degrees from the storage position. And
In this state, when the power of the camera 100 is turned on, the first circuit board 14 operates to increase the temperature, and the heat is transmitted to the bottom wall 1044 of the case 1032.
When the temperature of the second circuit board 14 increases due to operation, most of the heat is transmitted to the front wall 1036 of the case 1032 and is radiated by the air in contact with the front wall 1036, and the remaining heat is transferred to the case 1032. It moves upward inside and is transmitted to the bottom wall 1044.
When the monitor 1002 operates and rises in temperature, most of the heat is radiated through the display surface of the monitor 1002 by the air in contact with the display surface, and the remaining heat moves upward inside the case 1032 and moves upward. It is transmitted to the bottom wall 1044.
The heat transmitted to the bottom wall 1044 is radiated from the bottom wall 1044 by a space formed between the bottom wall 1044 and the camera head 20, that is, radiated by the atmosphere.
Accordingly, a convection phenomenon occurs in the air facing the bottom wall 1044 and the air moves upward, and other unheated air moves to the vicinity of the bottom wall 1044, so that the heat of the bottom wall 1044 is efficiently released, in other words. Then, the heat radiation of the first circuit board 12 or the heat radiation in the case is performed.
When the camera head 20 is swung from the storage position to the shooting position (in this example, 90 degrees), a relatively large space is formed above the bottom wall 1044 between the camera head 20 and the camera head 20. As a result, the upward movement of the air heated by the bottom wall 1044 is smoothly performed, thereby increasing the convection phenomenon.
Note that even when the camera head 20 is in the storage position, a slight gap is formed between the bottom wall 1044 and the camera head 20, so that convection occurs even in this state. As a result, heat radiation from the bottom wall 1044 is ensured.
[0045]
As described above, according to the present embodiment, the first circuit board 12 whose temperature rises with the operation is arranged at a position facing the bottom wall 1044 of the concave portion 1033 for accommodating the camera head 20. The heat generated at 12 can be efficiently dissipated through the bottom wall 1044. Therefore, by suppressing the temperature rise of the circuit element mounted on the first circuit board 12, it is advantageous in stabilizing the operation of the circuit element.
In addition, since the convection of air occurs in the space formed between the bottom wall 1044 and the camera head 20, there is an advantage that the heat radiation effect is improved.
Further, since the bottom wall 1044 constituting the concave portion 1033 is a place where the camera head 20 is stored, it is hardly touched by a finger or the like, so that the user of the camera does not feel uncomfortable.
[0046]
In the present embodiment, the camera head 20 is swingably connected by two shaft supports 2044 and 2046 provided on both sides of the concave portion 1033 of the camera body 10, but only one shaft support is provided. The configuration provided, that is, the configuration in which the camera head 20 is supported in a cantilever manner may be employed.
Further, in the embodiment, the case where the camera head 20 is provided so as to be able to swing with respect to the camera body has been described. However, various movement configurations of the camera head 20 are possible, and the camera head 20 is not limited to only swing.
[0047]
【The invention's effect】
As described above, according to the camera of the present invention, it is possible to effectively dissipate heat from a circuit board whose temperature rises with operation.
[Brief description of the drawings]
FIG. 1 is a perspective view of a camera according to a first embodiment of the present invention as viewed from the front.
FIG. 2 is a perspective view of the camera according to the first embodiment of the present invention as viewed from the rear.
FIG. 3 is an explanatory diagram showing a state in which a battery and a memory device are inserted into the camera according to the first embodiment of the present invention.
FIG. 4 is a block diagram illustrating a configuration of a camera according to the first embodiment of the present invention.
FIG. 5 is a perspective view of a camera head.
FIG. 6 is a perspective view of components housed in the camera head.
FIG. 7 is an exploded perspective view showing a pivot portion of the camera head.
FIG. 8 is a perspective view showing a pivot portion of the camera head.
FIG. 9 is an exploded perspective view of a hinge mechanism.
FIG. 10 is an assembly view of a hinge mechanism.
FIG. 11 is a sectional view of a main part showing a relationship between a convex portion of a click spring and five concave portions of a click plate.
FIG. 12 is an explanatory diagram showing a swing operation of a camera head with respect to a camera body.
FIG. 13 is an explanatory diagram showing a photographing range of a photographing lens optical system of a camera head.
14A is a diagram illustrating a state in which the camera head faces the front of the camera body, and FIG. 14B is a diagram illustrating a state in which the camera head faces the rear of the camera body.
FIG. 15 is an explanatory view showing an arrangement of a circuit board housed and held in the camera body 10;
FIG. 16 is a longitudinal sectional view of FIG.
17A is a perspective view of a hanging bracket, FIG. 17B is a view showing a hanging bracket and a case, FIG. 17C is a perspective view of a mounting piece, and FIG. 17D is a perspective view of a mounting piece. It is a figure which shows the attachment state of.
FIG. 18 is a perspective view showing another example of the hanging bracket.
FIG. 19 is a diagram showing an attachment state of a hanging bracket and a case.
FIG. 20 is a diagram showing a mounting state of a hanging bracket, a mounting piece, and a case.
21A is a perspective view of an E-ring, FIG. 21B is a front view of a hanging bracket, FIG. 21C is a diagram showing a state where the E-ring is attached to the hanging bracket, and FIG. It is a figure showing the state where engagement is insufficient.
[Explanation of symbols]
100 camera 10 main body 20 camera head 12 first circuit board 1032 case 1033 recess 1044 bottom wall.

Claims (6)

The camera body,
A camera head connected to the camera body,
A circuit board on which circuit elements for controlling various operations of the camera are arranged,
In a camera in which a recess for accommodating the camera head is formed in a case of the camera body,
The circuit board is arranged at a position facing the bottom wall of the concave portion inside the case,
A camera characterized in that: The camera body,
A camera head having a taking lens optical system and coupled to the camera body so as to be movable between a storage position and a taking position;
A circuit board on which circuit elements for controlling various operations of the camera are arranged,
The camera body is configured to have a case forming an exterior of the camera body,
In the camera, in which the case has a recess in which the camera head is housed in the housing position,
The concave portion is covered by the camera head at the storage position, and has a bottom surface facing the atmosphere at the shooting position,
The circuit board is arranged at a position facing the bottom surface of the concave portion inside the case,
A camera characterized in that: The camera according to claim 2, wherein a gap is secured between the camera head and the bottom surface at the storage position. 3. The camera according to claim 2, wherein the circuit element includes a microcomputer having a high operation clock frequency. 3. The camera according to claim 2, wherein the bottom wall of the recess and the circuit board each have a rectangular shape in a plan view, and are arranged so that their longitudinal directions are substantially coincident with each other. A display unit is arranged below the circuit board and inside the case so as to face the rear wall, and another circuit board is arranged so as to face the front wall. Item 2. The camera according to Item 2.

Images