JP4544013B2 - Cap member and imaging control device - Google Patents

Description

  The present invention relates to a cap member that covers each of a plurality of connectors provided in a housing of an electronic device, and an imaging control device that includes such a cap member and converts an imaging signal supplied from a camera unit into a video signal.

As a professional camera used in a camera, particularly a broadcasting station, a camera unit that captures a subject image and generates an imaging signal, and converts the imaging signal into a video signal and supplies it to an external device camera control unit An image pickup control device is provided separately, and the camera unit and the image pickup control device are detachably connected.
Such an imaging control device is provided with a plurality of connectors for electrically connecting cables for exchanging the audio and video with another imaging control device via the control unit. It has been.
In order to protect these connectors from dust and water, caps that individually cover each connector are provided for each connector. To prevent such caps from being lost, Such techniques have been proposed.
A single protect cover formed in a size and shape covering a portion where the connector is provided is provided so as to be openable and closable (see Patent Document 1).
In addition, as a protective insulating cover for the plurality of output terminal portions and the plurality of input terminal portions, a first insulating cover portion having a plurality of caps corresponding to the plurality of output terminal portions, and a plurality of portions corresponding to the plurality of input terminal portions The second insulating cover part having the cap is connected to bendable, and even if one of the first insulating cover part and the second insulating cover part is removed from the terminal part, the other is attached to the terminal part. The loss of the protective insulating cover is prevented (see Patent Document 2).
JP-A-8-279940 Japanese Utility Model Publication No. 2-25178

However, in the former prior art, even when only a part of the plurality of connectors is used, it is necessary to open all the remaining connectors, so that the remaining unused connectors are protected from dust and water. There are inconveniences that cannot be made.
In the latter prior art, the cap of the first or second insulating cover portion remains even when only a part of the plurality of terminal portions of the first or second insulating cover portion is used. Since it is necessary to remove from all the terminal portions, there is a disadvantage that the remaining unused terminal portions cannot be protected from dust and water.
In other words, conventionally, there are cases where the dustproof and waterproof functions cannot be sufficiently achieved depending on the usage state of the connector.
The present invention has been made in view of such circumstances, and the object thereof is advantageous in that it is not likely to be lost, and reliably exhibits a dustproof and waterproof function regardless of the usage state of the connector. An object of the present invention is to provide a cap member and an imaging control apparatus including such a cap member.

In order to achieve the above-described object, the present invention is a cap member that covers each of a plurality of connectors provided in a housing of an electronic device,
The cap member includes a plurality of caps that are individually attached to the plurality of connectors, and a plurality of flexible connecting pieces that connect the plurality of caps,
Each of the connecting pieces is formed by an elongated plate piece having a length capable of attaching / detaching only one arbitrary cap , and the elongated plate piece is connected to an imaginary line connecting the centers of two caps to which the elongated plate piece is connected. It is formed by being bent so as to pass through a shifted position .
In addition, the present invention provides an imaging control device that is detachably connected to a camera unit that captures a subject image and generates an imaging signal, and that the imaging signal is input, converts the imaging signal into a video signal, and supplies the image signal to an external device A cap member is provided that includes a housing and a plurality of connectors provided in the housing, and each covers the plurality of connectors, and the cap members are individually attached to the plurality of connectors. And a plurality of flexible connecting pieces for connecting the plurality of caps to each other, and each connecting piece is formed by an elongated plate piece having a length capable of attaching / detaching only one arbitrary cap. The elongated plate piece is formed to be bent so as to pass through a portion shifted from an imaginary line connecting the centers of the two caps to which the elongated plate piece is connected .

  According to the present invention, the cap member is connected to each other by a plurality of connecting pieces having a flexible length and a plurality of caps, so that only an arbitrary cap is removed from the connector and the remaining unused portion is used. These caps can be attached to each connector.

Hereinafter, the present invention will be described by taking a case where the camera is a business camera as an example, but the present invention is naturally applicable to a camera other than the business camera.
(First embodiment)
Next, a first embodiment of the present invention will be described with reference to the drawings.
FIG. 11 is a right side view of the business camera having the imaging control device according to the first embodiment, FIG. 12 is a left side view of the business camera, and FIG. 13 is a view as seen from the arrow A in FIG.
FIG. 14 is a cross-sectional view of the imaging control apparatus according to the first embodiment.
15 is a perspective view of the imaging control apparatus according to the first embodiment, FIG. 16 is a perspective view showing a state where the cover of the imaging control apparatus is removed, and FIG. 17 is a sectional view taken along line XX of FIG.
18 is a perspective view of the frame of the imaging control apparatus according to the first embodiment, FIG. 19 is a view as viewed from an arrow A in FIG. 18, FIG. 20 is a view as viewed from an arrow B in FIG. FIG. 22 is a view taken in the direction of arrow D in FIG. 18, FIG. 23 is a view taken in the direction of arrow E in FIG. 18, and FIG.
25 is a right side view of the imaging control apparatus, and FIG. 26 is a sectional view taken along line XX of FIG.
FIG. 27A is a plan view of the cover, and FIG. 27B is a view taken in the direction of arrow B in FIG.
FIG. 28C is a C arrow view of FIG. 27B, and FIG. 28D is a D arrow view of FIG.
FIG. 29E is a view as viewed from an arrow E in FIG. 27A, and FIG. 29F is a view as viewed from an arrow F in FIG.
FIG. 30 is an explanatory diagram showing the movement of water droplets on the upper wall of the frame.

As shown in FIGS. 11 to 13, the professional camera 100 includes a camera unit 10 and an imaging control device 20 as an electronic device, and the rear part of the camera unit 10 and the front part of the imaging control device 20 are detachable. It is connected to.
A plurality of professional cameras 100 are used simultaneously, and a camera control unit is connected to each imaging control device 20 of the plurality of professional cameras 100 via a cable, and these camera control units are master control devices. Video, audio, etc. are exchanged between each business camera 100 and the master control device or between each business camera 100 and the camera control unit. Voices are exchanged between each other.
The camera unit 10 includes a housing 12 in which an image sensor is incorporated, a lens barrel 14 that is provided on the front surface of the housing 12 and guides a subject to the image sensor, a handle 16 that is provided on the top of the housing 12, and the like. ing.
An interchangeable lens 18 is detachably attached to the lens barrel 14.

As illustrated in FIGS. 15 and 16, the imaging control apparatus 20 includes a housing 30, an electrical component housed in the housing 30, and a cover 50.
The housing 30 includes a frame 32 having a vertical height, a longitudinal length, and a lateral width, and a cover member 33 (33A, 33B, 33C) attached to the frame 32. .
A recessed portion 31 that is recessed upward is provided over the lower portion of the housing 14 of the camera unit 10 and the lower portion of the housing 30 of the imaging control device 20 so as to hang on the shoulder.
As shown in FIG. 18, the frame 32 includes a front portion 34, a rear portion 36 that protrudes rearward from the rear end of the front portion 34, and a lower portion 38 that protrudes rearward from the lower rear end of the front portion 3202. .
As shown in FIG. 14, the front portion 34 accommodates a plurality of printed circuit boards 102 constituting an electrical component.
As shown in FIG. 13, a connector 108 for a cable connected to the camera control unit is provided at a side portion where the rear portion 36 faces one side, and the audio is provided at a lower portion where the rear portion 36 faces obliquely downward. There are provided two connectors 110 for connecting an intercom (communication device) for exchanging data.
In addition, an operation panel 60 is provided on the rear portion 36, and the operation panel 60 is provided with a plurality of operation members 62 and a display unit 64, which will be described later.
In addition, a connector panel 112 is provided in the lower portion 38, and a plurality of connectors 113 described later are provided on the connector panel 112.
The electrical unit has a function of converting an imaging signal supplied from the camera unit 10 into a video signal, for example, a component signal (Y / R-Y / B-Y signal) and transmitting it to the camera control unit. The video signal may be converted as an electrical signal or as an optical signal.
The electrical component has a function for exchanging the above-described video and audio and a function for supplying power to the outside.

As shown in FIG. 15, a detachable portion 39 that is detachably connected to the rear surface of the camera unit 10 is provided on the front surface of the front portion 34 of the frame 32.
Cover members 33A, 33B, and 33C are attached to the left and right of the front portion 34 of the frame 32, the left and right of the rear portion 36, the rear surface of the rear portion 36, the left and right sides of the lower portion 38, and the rear surface of the lower portion 38, respectively. The cover members 33A, 33B, and 33C may be integrated or separate.

As shown in FIG. 16, more specifically, the housing 30 includes an upper wall 40 that faces upward across the upper surface of the front portion 34 and the upper surface of the rear portion 36.
The cover 50 is detachably attached to the upper wall 40 and is formed so as to cover the upper wall 40 while defining a space S with the upper wall 40 by being attached to the upper wall 40. .

As shown in FIGS. 18, 19, and 26, a plurality of heat radiating vent holes 42 communicating with the inside of the front portion 34 and the inside of the rear portion 36 are provided in the middle portion of the upper wall 40 in the left-right direction. .
The ventilation hole 42 has a circular cross section, and a cylindrical upright wall 44 projects from the upper wall 40 so as to surround the periphery of the ventilation hole 42.
As shown in FIGS. 18 and 19, a plurality of boss portions 46 for attaching accessories such as a viewfinder are projected on the upper wall 40, and a female screw 4602 is formed on the upper end surface of the boss portion 46. .
Further, boss portions 48 for attaching the cover are respectively provided at the four corners of the upper wall 40, and a female screw 4802 is formed on the upper end surface of the boss portion 48.

As shown in FIGS. 26 to 29, the cover 50 has a rectangular main body wall 52 that covers a portion of the surface of the upper wall 40 including the ventilation holes 42, and a side wall 54 that is bent from four sides of the main body wall 52. The front side wall 54 is formed so as to protrude downward from the other side walls 54.
The surface where the main body wall 52 faces the upper wall 40 (the surface facing the space S) is the inner surface 5002 of the cover 50, the surface opposite to the inner surface 5002 is the outer surface 5004 of the cover 50, and the main body wall 52 is the outer surface 5002 and the outer surface. And a thickness between 5004.
A ventilation path 56 for heat dissipation is provided at a location excluding the portion of the main body wall 52 that faces the ventilation hole 42 so that the inner surface 5002 and the outer surface 5004 communicate with each other.
As shown in FIGS. 27A and 28C, the ventilation path 56 is formed as a groove 5601 extending forward and backward on the main body wall 52, and the groove 5601 is spaced from side to side. A plurality are provided.
In this example, the ventilation path 56 has three grooves extending on the main body wall 52 in the front-rear direction at intervals on the left and right sides of the main body wall 52 so as to be positioned on both left and right sides of the vent hole 42. 5601.
As shown in FIG. 26, the ventilation path 56 is formed in a bent shape so that the upper wall 40 (section S facing the inner surface 5002) of the housing 30 is not exposed to the outside of the cover 50. Of course, the ventilation path 56 may be formed in a curved shape so that the upper wall 40 of the housing 30 is not exposed to the outside of the cover 50.
In this example, the ventilation path 56 includes an upper path portion 5602 extending from the outer surface 5004 of the cover 50 toward the inner surface 5002, and a lateral path extending from the lower end of the upper path portion 5602 in a direction orthogonal to the thickness direction of the main body wall 52. The portion 5604 includes a lower passage portion 5606 that extends from the lower end of the lateral passage portion 5604 toward the inner surface 5002 and opens to the inner surface 5002, and the inner surface 5002 and the outer surface 5004 communicate with each other.

As shown in FIG. 26 and FIG. 28C, a water droplet splash preventing wall portion 58 that protrudes toward the upper wall 40 on the inner surface 5002 of the main body wall 52 located between the ventilation hole 42 and the ventilation passage 56. Is provided.
In this example, among the plurality of grooves 5601 provided at positions near the left and right ends of the main body wall 52, the vent holes 42 are provided at positions where the groove 5601 closest to the vent hole 42 is opened on the inner surface 5002 of the main body wall 52. A water drop splash preventing wall 58 that protrudes from the inner surface 5002 of the main body wall 52 toward the upper wall 40 is formed so as to extend along the extending direction of the groove 5601 closest to the ventilation hole 42. .
As shown in FIGS. 27A and 28C, the main body wall 52 is formed with a plurality of circular windows 5210 whose bosses are exposed on the outer surface of the cover 50 with the cover 50 attached to the upper wall 40. Has been.
Further, as shown in FIGS. 17 and 27A, a bolt mounting seat 5212 is formed through the body wall 52 so as to face the female screw 4802 of the boss portion 48 in a state where the cover 50 is aligned with the upper wall 40. ing.
As shown in FIGS. 27 (B) and 28 (D), a plurality of drain holes 59 are formed in the side wall 54 at intervals in the front-rear direction. The drain hole 59 may be formed as a notch.

In FIG. 23, reference numeral 104 denotes a power source that constitutes a part of the electrical component, and reference numeral 106 denotes an exhaust fan.
The power source 104 generates the largest amount of heat among the members and components that make up the electrical component.
The exhaust fan 106 is rotationally driven when the temperature in the housing 30 rises, and external air passes through the plurality of ventilation paths 56, the spaces S, and the plurality of ventilation holes 42 due to the rotation of the exhaust fan 106. 30, led around the electrical components including the power supply 104, and cools the electrical components with the outside air, and the outside air is discharged from the exhaust hole 35 to the outside of the housing 30.
The exhaust fan 106 guides the outside air through the ventilation path 56, the space S, and the ventilation hole 42 to the inside of the housing 30, so that the noise of the exhaust fan 106 is transmitted through the ventilation path 56, the space S, and the ventilation hole 42. It is discharged to the outside above the body 30, thereby preventing it from being transmitted to the ear of the user who is using the imaging control device 20 on the shoulder.
As shown in FIGS. 15 and 17, the cover 50 is attached to the upper wall 40 of the housing 30 by the bolt 51 being screwed into the female screw 4802 of the boss 48 for mounting the cover via the bolt mounting seat 5212. Worn.
As shown in FIG. 26, in the state where the cover 50 is attached to the upper wall 40, a ventilation path 56 is provided at a location of the cover 50 excluding the portion of the main body wall 52 facing the ventilation hole 42, and the ventilation path 56 is formed in a bent shape so that the upper wall 40 of the housing 30 is not exposed to the outside of the cover 50.

If the ventilation hole 42 and the ventilation path 56 are provided as described above, when the imaging control apparatus 20 is used in an environment such as rainy weather and a water droplet falls on the outer surface of the cover 50 from above, the water droplet is bent. After hitting 56 places and reducing the momentum, it is dropped onto the upper wall 40 through the ventilation path 56 and guided onto the upper wall 40. The water accumulated on the upper wall 40 is discharged from the drain hole 59 of the cover 50 to the outside of the cover 50.
At this time, since the momentum of the water droplets dropped on the upper wall 40 is weakened, it is possible to prevent the splashes of the water droplets hitting the upper wall 40 from entering the ventilation hole 42 and air flowing through the ventilation path 56. Therefore, it is advantageous to efficiently release the air whose temperature in the housing 30 has risen to the outside of the housing 30 while reliably preventing water from entering.
Further, since the water droplet splash-preventing wall 58 protruding toward the upper wall 40 is provided at the inner surface 4002 of the main body wall 52 located between the ventilation hole 42 and the ventilation path 56, It is possible to more reliably prevent the splash of the dropped water droplet from entering the ventilation hole 42.
If the water droplet splash preventing wall portion 58 is provided at a location near the ventilation hole 42 at a location where the ventilation path 56 is opened on the inner surface 4002 of the main body wall 52, the splash of the water droplets dropped on the upper wall 40 can be prevented. This is more advantageous in preventing entry into the ventilation hole 42.
In addition, a structure that prevents water droplets from entering the ventilation hole 42 by interposing a water-absorbing member such as a sponge through which air can flow between the cover 50 and the upper wall 40 including the ventilation hole 42 is also possible. Conceivable. In this case, there is a limit to the amount of water that can be absorbed by the water-absorbing member, and the cost of the water-absorbing member is excessive. .

Further, since the ventilation hole 42 provided in the upper wall 40 is circular, and the cylindrical upright wall 44 projects from the upper wall 40 so as to surround the ventilation hole 42, as shown in FIG. When the housing 30 is inclined in the left-right direction from the horizontal state, the water accumulated on the upper surface of the upper wall 40 smoothly moves along the circumferential direction of the cylindrical outer surface of the upright wall 44 as indicated by arrows in the figure. Since it is moved and discharged to the outside of the cover 50 from the drain hole 59, it is advantageous in preventing the water accumulated on the upper surface of the upper wall 40 from getting over the standing wall 44 and entering the ventilation hole 42. Become.
On the other hand, when the ventilation hole 42 has a rectangular shape, and the upright wall 44 having a rectangular frame shape is formed on the upper wall 40 so as to surround the four sides of the ventilation hole 42, the housing 30 is left and right. When inclined in the direction, the water accumulated on the upper surface of the upper wall 40 tends to stagnate on the outer surface of the standing wall 44, and there is a concern that the stagnant water may climb over the standing wall 44 and enter the ventilation hole 42. With the above configuration, such inconvenience can be reliably prevented.
Further, in the above configuration, when the exhaust fan 106 does not operate, the air heated by the power source 104 in the housing 30 moves upward and smoothly passes through the ventilation hole 42, the space S, and the ventilation path 56 to the outside. escape.
On the other hand, when the exhaust fan 106 is operated, an air flow is formed in which outside air flows into the housing 30 through the ventilation path 56, the space S, and the ventilation holes 42. 56 is formed in a bent shape so that the upper wall 40 of the housing 30 is not exposed to the outside of the cover 50, and a water droplet splash preventing wall portion 58 is located between the ventilation hole 42 and the ventilation path 56. Therefore, it is possible to reliably prevent the splash of water droplets from entering the ventilation hole 42.

Next, a modified example of the ventilation path will be described with reference to FIG.
FIG. 31A is a cross-sectional view of modification 1 of the ventilation path, and FIG. 31B is a cross-sectional view of modification 2 of the ventilation path.
In the first and second modifications, the ventilation path 56 is formed by a groove extending in the front and rear direction with a space left and right.
In the modified example 1, a thin bottom wall 5612 extending in the front-rear direction is provided on the main body wall 52 portion where the ventilation path 56 is provided, and a strip plate 5614 extending in the front-rear direction is provided above the bottom wall 5612. Further, grooves 5616 and 5618 extending in the front-rear direction are formed in a bottom wall 5612 portion below the belt plate 5614 and an inner portion of the bottom wall 5612, respectively.
The shape of the cross section perpendicular to the extending direction of the groove has an upper path portion 5602 extending from the outer surface 5004 of the cover 50 toward the inner surface 5002 on both the left and right sides of the band plate 5614, and an upper path portion 5602 below the band plate 5614. A lateral path portion 5604 extending from the lower end of the main body wall 52 in a direction orthogonal to the thickness direction of the main body wall 52, and a lower path portion 5606 extending from the lower end of the lateral path portion 5604 toward the inner surface 5002 and opening to the inner surface 5002 (groove 5616, 5618).
In the modified example 2, a thin bottom wall 5612 extending in the front-rear direction is provided on the main body wall 52 portion where the ventilation path 56 is provided, and a strip plate 5614 extending in the front-rear direction is provided above the bottom wall 5612. A groove 5616 extending in the front-rear direction is formed in the bottom wall 5612 portion below the belt plate 5614.
Further, a reinforcing rib 5620 that protrudes downward extends along the longitudinal direction of the band plate 5614 at the center of the lower surface of the band plate 5614 in the left-right direction, and the lower part of the reinforcing rib 5620 is located in the groove 5616. Yes.
The shape of the cross section perpendicular to the extending direction of the groove has an upper path portion 5602 extending from the outer surface 5004 of the cover 50 toward the inner surface 5002 on both the left and right sides of the band plate 5614, and an upper path portion 5602 below the band plate 5614. A lateral path portion 5604 extending from the lower end of the main body wall 52 in a direction orthogonal to the thickness direction of the main body wall 52, and a lower portion extending from the lower end of the lateral path portion 5604 toward the inner surface 5002 on both the left and right sides of the reinforcing rib 5620 and opening to the inner surface 5002. And a road portion 5606.
The effect similar to the above is also exhibited by the ventilation paths 56 of the first and second modifications.

Next, a modification of the standing wall 44 will be described with reference to FIG.
FIG. 32 shows a cross-sectional view in the vicinity of the ventilation hole 42 and the upright wall 44.
In the standing wall 44 according to this modified example, a cylindrical shape is provided so as to surround the periphery of the circular ventilation hole 42 from the upper wall 40, and further protrudes radially outward over the entire circumference of the upper outer peripheral surface of the standing wall 44. An annular plate-like flange 4420 is provided.
According to the standing wall 44 of such a modification, it is needless to say that the same effect as described above is provided, and since the flange 4420 is provided, the water accumulated on the upper surface of the upper wall 40 gets over the standing wall 44 and ventilates. This is more advantageous in preventing entry into the hole 42.

Next, a modification of the upper surface of the upper wall 40 will be described.
FIG. 33 is a cross-sectional view of a modification of the upper surface of the upper wall 40.
In this modification, a large number of fine protrusions 4020 having a dome-shaped cross section are formed on the upper surface of the upper wall 40.
According to this modification, the momentum of water droplets that have entered the upper surface of the upper wall 40 through the ventilation path 56 can be attenuated by the curved surface of the convex portion 4020, and the splash of water droplets that hit the upper wall 40 is ventilated. This is more advantageous in preventing entry into the hole 42.

Next, the configuration of the operation panel will be described in detail with reference to FIGS. 6 to 10 and FIG.
FIG. 6 is an exploded perspective view of the operation panel of the imaging control apparatus according to the first embodiment.
FIG. 7A is a plan view of a substrate constituting the operation panel, and FIG. 7B is a view taken in the direction of arrow B in FIG.
FIG. 8 is a cross-sectional view showing the configuration of the print sheet, and FIG. 9 is an explanatory view showing the manufacturing process of the print sheet.
As shown in FIG. 12, the operation panel 60 is provided in the rear portion 36 of the housing 30. As described above, the operation panel 60 includes a plurality of operation members 62 for operating the imaging control device 20, and each of the operation members 62. In the vicinity of the operation member 62, there is provided a display unit 64 on which the functional usage of the operation member 62 is displayed.
In addition, a plurality of operation members 62 and a guide bar 37 for protecting the display unit 64 (see FIGS. 10 and 11) are provided on the rear portion 36 of the upper and lower portions of the operation panel 60 so as to protrude rearward. .
As shown in FIG. 12, the plurality of operation members 62 are a TALLY switch 6202, a RET1 button 6204, a RET button 6206, and a RET2 / 3/4 switch that are operated to exchange images with the camera control unit. 6208, a PGM (program) ½ level adjustment knob 6210, an INCOM level adjustment knob 6212, a PROD / ENG switch 6214, a MIC / LEVEL switch 6216, and a light source to be described later, which are operated to exchange audio by intercom. And a light switch 6218 for turning on / off.
For example, when the operation member 62 is the RET1 button 6204, the display unit 64 is displayed as “RET1”, and when the operation member 62 is the PGM (program) 1/2 level adjustment knob 6210, the display unit 64 displays “PGM1”. ”And“ PGM2 ”, and in the case of the light switch 6218, it is displayed as“ LIGHT ”,“ ON ”, and“ OFF ”.

As shown in FIG. 6, the operation panel 60 includes a substrate 66 attached to the rear portion 36 of the housing 30, a mounting plate 68 overlaid on the substrate 66, and a printing overlaid on the mounting plate 68. It is comprised with the sheet | seat 70. FIG.
As shown in FIGS. 6 and 7, a plurality of operation members 62 are supported on the substrate 66, and a light source 72 is provided at a position corresponding to the display unit 64 toward the rear.
In FIG. 6, reference numeral 62A denotes a position where the operation member 62 is operated (a lever in the case of a lever switch, a button in the case of a button switch, and a knob for rotation in the case of a volume). Reference numeral 62B denotes a case in which an electric contact piece or a sliding portion that operates in response to the operation of the operation member 62 is accommodated.
The light source 72 is composed of a white light emitting diode, and is attached to the substrate 66 so as to emit light backward.
A light source 74 for hand illumination is provided below the substrate 66. The light source 74 for hand illumination is composed of a white light emitting diode, and is attached to the substrate 66 so as to emit light downward.
Of course, the light colors of the light sources 72 and the light source 74 for hand illumination may be other than white.

Control of lighting and extinction of the plurality of light sources 72 and the light source 74 for hand illumination will be described with reference to FIG.
FIG. 10 is a block diagram showing a configuration of a control portion that controls a plurality of light sources 72 and a light source 74 for hand illumination.
The board 66 is provided with the light switch 6218, the control means 76, and the driving means 78 as a configuration for controlling the plurality of light sources 72 and the light source 74 for hand illumination.
In this example, the light switch 6218 is configured by a lever switch, and is configured to be switched between “LIGHT”, “ON”, and “OFF”.
The drive unit 78 generates a first drive signal S1 for turning on the plurality of light sources 72 and a second drive signal S2 for turning on the light source 74 for hand illumination. Each is supplied to the light source 74 for illumination.
The control means 76 controls on and off of the first and second drive signals S1 and S2 in accordance with the switching operation of the light switch 6218.
Such control means 76 and driving means 78 can be realized by various conventionally known circuits including a microcomputer and a digital IC.
In this example, when the light switch 6218 is switched to the “LIGHT” position, the driving unit 76 is controlled by the control unit 76, the first driving signal S1 is turned off, the second driving signal S2 is turned on, The light source 72 is turned on simultaneously, and the light source 74 for hand illumination is extinguished.
Further, when the light switch 6218 is switched to the “ON” position, the driving unit 76 is controlled by the control unit 76, and both the first and second driving signals S1 and S2 are turned on. Both of the illumination light sources 74 are turned on simultaneously.
When the light switch 6218 is switched to the “OFF” position, the driving unit 76 is controlled by the control unit 76, and both the first and second driving signals S1 and S2 are turned on. Both illumination light sources 74 are extinguished simultaneously.

As shown in FIG. 6, the attachment plate 68 includes a first plate portion 68 </ b> A that is superimposed on the substrate 66, and a second plate portion 68 </ b> B that is bent from the lower end of the first plate portion.
The first plate portion 68A is provided with insertion holes 6802 for the plurality of operation members 62, and windows 6804 having sizes and shapes corresponding to the display portions 64 are formed at locations corresponding to the plurality of light sources 72, respectively. Yes.
In the second plate portion 68B, a hand illumination window 6806 is formed at a location corresponding to the light source 74 for hand illumination, and a diffuser plate 6807 for diffusing light is provided in the hand illumination window 6806.
The second plate portion 68B is provided with the insertion holes 6808 of the two connectors 110 for intercom connection described above.

As shown in FIG. 6, the print sheet 70 is provided with insertion holes 7002 for a plurality of operation members 62, and the display portions 64 are formed at locations corresponding to the plurality of windows 6804.
As shown in FIG. 8, the print sheet 70 is a multilayer print sheet configured by printing four layers of print layers 7012, 7014, 7016, and 7018 on a transparent substrate 7010.
The transparent substrate 7010 is configured such that one surface in the thickness direction is a front surface 7010A and the other surface is a back surface 7010B.

The printing sheet (multilayer printing sheet) 70 is manufactured as follows.
First, as shown in FIG. 8, a first print layer 7012 is formed on the back surface 7010 </ b> B of the transparent substrate 7010.
As shown in FIG. 9A, the first printed layer 7012 has a frame 7012A formed of white paint, a mark 7012B indicating the position of each insertion hole 7002, and the like.
Next, as illustrated in FIG. 8, the second print layer 7014 is formed over the first print layer 7012.
As shown in FIG. 9B, the second printed layer 7014 is covered with an opaque paint that does not transmit light, in this example, a black opaque paint so as to cover the entire area of the back surface 7010B except for the display portion 64. More specifically, it is configured in a rectangular shape so as to cover the entire area of the back surface 7010B excluding the display of the functional usage of the operation member 62 constituting the display unit 64.
Accordingly, the display unit 64 is formed as a so-called blank character that is transparent on the second print layer 7014.

Next, as shown in FIG. 8, a third print layer 7016 is formed over the second print layer 7014.
As shown in FIG. 9C, the third printed layer 7016 is placed inside the second printed layer 7014 by an opaque paint that transmits light, in this example, a white opaque paint. The region including all the display portions 64 is covered with a rectangular outline smaller than the second print layer 7014. In this example, the third print layer 7016 is configured to cover an area including all the display units 64, but may be configured to cover only each display unit 64.
Next, as illustrated in FIG. 8, a fourth print layer 7018 is formed over the third print layer 7016.
As shown in FIG. 9D, the fourth printed layer 7018 is made of an opaque paint that transmits light, in this example, an orange opaque paint, and all the remaining display parts except the uppermost display part 64. 64 is configured with a rectangular outline covering 64. Therefore, a region where the fourth print layer 7018 is not formed exists at the uppermost part of the back surface of the third print layer 7018.
In addition, when a printing layer is formed on the surface 7010A of the transparent substrate 7010, there is a problem that an object hits the surface 7010A and the printing layer is peeled off, but all the printing layers are formed on the back surface 7010B of the printing sheet 70 as in this example. Thus, there is an advantage that the above-mentioned problems can be solved.

Next, the display of the display unit 64 on the print sheet 70 will be described.
As shown in FIG. 8, the print sheet 70 is attached with the fourth print layer 7018 superimposed on the attachment plate 68.
When the light source 72 located on the back surface 7010B side of the transparent substrate 7010 faces the area where the fourth printed layer 7018 is formed, the light from the light source 72 passes through the window 6802 of the mounting plate 68. When passing through the fourth print layer 7018, the color becomes orange, passes through the third print layer 7016, passes through the display portion 64 of the second print layer 7014, passes through the first print layer 7012, and the transparent substrate 7010. Orange light is emitted from the surface 7010A toward the rear.
Therefore, when the operation panel 60 is viewed from the back of the transparent substrate 7010, that is, from the back of the housing 30, the display unit 64 is visually recognized in a state of emitting light with orange light.
In addition, when the light source 72 located in a region where the fourth print layer 7018 is not formed, that is, a portion facing the third print layer 7016 is turned on, the light from the light source 72 passes through the third print layer 7016. As a result, the color becomes white, and the white light passes through the display portion 64 of the second print layer 7014, the first print layer 7012, and the transparent substrate 7010, and is irradiated backward.
Therefore, when the operation panel 60 is viewed from behind the transparent substrate 7010, that is, from the back of the housing 30, the display unit 64 is visually recognized in a state of emitting light with white light.
Further, in an environment where the light source 72 is turned off and the back of the housing 30 is bright, external light travels from the front surface 7010A side of the transparent substrate 7010 toward the back surface 7010B and passes through the first print layer 7012. And passes through the display portion 64 of the second print layer 7014 to reach the third print layer 7016.
Here, the light reflected by the third print layer 7016 turns white, and again passes through the display portion 64 portion of the second print layer 7014, the first print layer 7012, and the transparent substrate 7010 from the surface 7010A. Go backwards.
Therefore, when the operation panel 60 is viewed from the rear of the housing 60, the display unit 64 is visually recognized in a state of being reflected by white light.

When the board 66, the mounting plate 68, and the printing sheet 70 having the above-described configuration are provided, the light switch 6218 is turned on when the business camera 100 is used in a dark environment such as a studio, a stage, or at night. When switched to “LIGHT”, the plurality of light sources 72 are turned on, and the light source 74 for hand illumination is extinguished. As a result, each display unit 64 is illuminated by a plurality of light sources 72, and the user can easily view each illuminated display unit 64, and can accurately operate the desired operation member 62 without error. This is advantageous in improving operability.
Further, when the light switch 6218 is switched to “ON”, both the plurality of light sources 72 and the light source 74 for hand illumination are turned on. As a result, in addition to each display unit 64 being illuminated, the light of the light source 74 for hand illumination passes through the diffusion plate 6807 of the hand illumination window 6806 and is diffused toward the lower side of the operation panel 60. In order to improve the convenience of the business camera 100, it is possible to brightly illuminate the user's hand because it is irradiated, and to easily see documents such as scripts and watches even in a dark environment. It will be advantageous.
When the light switch 6218 is switched to “OFF”, both the plurality of light sources 72 and the light source 74 for hand illumination are extinguished. As a result, the portions of the display portions 64 and the diffusion plate 6807 are darkened, which is advantageous when it is desired to avoid generating light as much as possible in a dark environment.
When the business camera 100 is used in a bright environment such as outdoors in the daytime, the light switch 6218 is switched to “OFF” to turn off both the plurality of light sources 72 and the light source 74 for hand illumination. In this case, as described above, each display unit 64 is displayed in white by external light, so that the display unit 64 can be easily viewed. Therefore, in a bright environment, the supply of the first and second drive signals S1 and S2 to the plurality of light sources 72 and the light source 74 for hand illumination is turned off to suppress power consumption and ensure the visibility of the display unit 64. Can be advantageous.
In addition, when the display unit of the operation panel is printed with daylight paint, the display unit continues to emit light for a predetermined time. Therefore, there is a possibility that the display unit that emits light in shooting at a concert hall, a television studio, or the like may enter the field of view of the audience behind the business camera 100 and hinder viewing. In particular, when the display unit that emits light intermittently enters the spectator's field of view as the business camera 100 moves or changes direction, it is as if the light is blinking, which is annoying.
On the other hand, in this example, by providing the light switch 6218, the plurality of light sources 72 of the display unit 64 and the light source 74 for hand illumination can be appropriately turned on and off according to the shooting situation and shooting environment. It is possible to reliably prevent the light from interfering with the audience.

In this example, the plurality of light sources 72 are turned on and the light source 74 for hand illumination is extinguished, the state where both the plurality of light sources 72 and the light source 74 for hand illumination are turned on, and the plurality of light sources 72. However, the combination of lighting and extinction of the plurality of light sources 72 and the light source 74 for hand lighting is described. It is not limited to.
For example, if a combination of turning off the plurality of light sources 72 and turning on the light source 74 for hand illumination is added, only hand illumination can be performed without lighting the display unit 64.
Further, instead of the combination of turning on both of the plurality of light sources 72 and the light source 74 for hand illumination, a combination of turning off the light source 72 and turning on the light source 74 may be employed.
Further, on / off means for switching between lighting and blinking of the plurality of light sources 72 and on / off means for switching between lighting and blinking of the light source 74 for hand illumination may be provided.

Further, when both of the plurality of light sources 72 and the light source 74 for hand illumination are off in a dark environment, it is difficult to find the position of the light switch 6218.
Therefore, a touch sensor for detecting contact with an object (person) is provided on the guide bar 37, and a detection signal of the touch sensor is supplied to the control means 76, and the control means 76 supplies the light source 72 based on the detection signal of the touch sensor. You may comprise so that 1st drive signal S1 may be supplied.
In this case, since the guide bar 37 protrudes rearward from the rear portion 36 in the upper and lower portions of the operation panel 60, it is easy to touch the guide bar 37 in a dark environment, and display is easy even in a dark environment. It is advantageous that the portion 64 can be illuminated and viewed.
The first drive signal S1 may be continuously supplied to the plurality of light sources 72 when the guide bar 37 is touched, or the first drive signal S1 may be supplied to the plurality of light sources 72 for a predetermined time (for example, about 10 seconds). The light source 72 may be supplied, and when the predetermined time has elapsed, the supply of the first driving means S1 may be stopped. In this case, the light switch 6218 can be operated while the plurality of light sources 72 are turned on.

Further, the imaging control device 20 is provided with an optical sensor for detecting ambient brightness, and a detection signal of the optical sensor is supplied to the control means 76 in FIG. 10, and the control means 76 is configured to provide the brightness based on the detection signal of the sensor. May be configured to supply the first drive signal S <b> 1 to the plurality of light sources 72. The predetermined brightness is set to such a level that it is difficult to visually recognize the display unit 64, for example.
According to such a configuration, it is possible to automatically illuminate the display unit 64 without performing a human operation in a dark environment, which is more advantageous in improving convenience.

Moreover, you may provide the light quantity adjustment means to adjust the light quantity of the several light source 72 and the light source 74 for hand illumination. The light amount adjustment by the light amount adjusting unit is, for example, the magnitude of both or one of the first and second driving signals S1 and S2 supplied from the driving unit 78 to the plurality of light sources 72 and the light source 74 for hand illumination. It can be done by adjusting.
The light amount adjusting means includes an operation member (operation switch or operation knob) similar to the operation member 62 described above, and the operation member may be provided on the operation panel 60, for example, and the light amount is adjusted by operating the operation member. Configured as follows.
When such a light amount adjusting means is provided, it is possible to make it easier for the user to visually recognize the display unit 64 and the object at hand by adjusting the light amounts of the plurality of light sources 72 and the light source 74 for hand illumination.

Next, the configuration of the cap member of the present invention will be described in detail with reference to FIGS.
FIG. 1 is a perspective view of a cap member according to the first embodiment, FIG. 2A is a plan view of the cap member, FIG. 1B is a view as viewed from an arrow B in FIG. 3A, and FIG. B) C view, (D) is (D) view of (C), FIG. 4 (E) is E view of FIG. 1 (A), (F) is F arrow of FIG. 1 (A). FIG.
FIG. 5 is an explanatory view showing an attached state of the cap member.

First, the configuration of the connector panel 112 will be described with reference to FIG.
A plurality of connectors 113 provided on the connector panel 112 are used for communication between a user (cameraman) of the business camera 100 and a tracker, and transmission / reception of signals for transmission / reception between the user of the business camera 100 and an intercom (intercom). TRACKER connector 114 for performing, DCIN (DC power input) connector 116 for receiving DC power supply from an AC adapter or a battery, RETURN (return video signal output) connector 118 for outputting a return video signal, characters, etc. Prompter video input / output signal PROMPTER (prompter signal input / output) connector 120 for the prompter for displaying the signal, DCOUT (DC power output) connector 122 for supplying DC power to an external device (accessory), AUDIO IN CH1 (audio input channel 1) connector 124 for inputting voice, AUDIO IN CH2 (audio input channel 2) connector 126, and a remote control panel or remote control unit for performing remote control with respect to the imaging control device 20 are connected. REMOTE (remote) connector 128 to be connected, RETCTRL (return control) connector 130 to input a return video signal selection signal and an intercom microphone on / off control signal, and an earphone are connected to switch between intercom sound and program sound. EAROPHONE (earphone) jack 132 or the like.
In addition, a display unit 115 made up of characters “TRACKER” indicating the functional use (name) of the TRACKER connector 114 is provided at the connector panel 112 in the vicinity of the TRACKER connector 114. Further, a display portion 115 made up of characters “RETURN” indicating the functional application (name) of the RETURN connector 118 is provided at 112 positions on the connector panel 112 close to the RETURN connector 118.
Similarly, a display portion 115 indicating the functional application (name) of the connector 113 is provided at a portion of the connector panel 112 adjacent to each connector 113.

In FIG. 13, reference numeral 140 denotes an audio signal selection switch for setting an audio signal to be input to the AUDIO IN CH1 connector 124 and the AUDIO IN CH2 connector 126. The audio signal selection switch is switched to three of FRONT, REAR, and LINE. . When switched to FRONT, the audio input from the camera is selected as an audio signal, and when switched to REAR, the signals input from the AUDIO IN CH1 connector 124 and AUDIO IN CH2 connector 126 are output to the camera control unit, and LINE Is switched to, the level of the signal input from the AUDIO IN CH1 connector 124 and the AUDIO IN CH2 connector 126 is set to a predetermined value.
Reference numeral 142 denotes a microphone power supply mode selection switch for setting whether or not to supply power to the AUDIO IN CH1 connector 124 and the AUDIO IN CH2 connector 126.

As shown in FIG. 5, the cap member 80 covers each of the plurality of connectors 113.
As shown in FIGS. 1 to 5, the cap member 80 includes a plurality of caps 82 that are individually attached to the plurality of connectors 113, and a plurality of flexible connecting pieces 84 that connect the plurality of caps 82 to each other. It has.
In the present embodiment, the connecting piece 84 connects all the caps 82 attached to the plurality of connectors 113.
The connecting piece 84 is formed of a transparent material so that the display unit 115 can be viewed with the cap member 80 mounted on the connector panel 112. In the present embodiment, the cap 82 and the connecting piece 84 are integrally formed using a transparent elastomer.
Each connecting piece 84 is formed of an elongated plate piece having such a length that only one cap 82 can be attached / detached.
For example, when the distance between adjacent connectors 113 is short, as shown in FIG. 2A, the connecting piece 84A is connected to an imaginary line L1 connecting the centers of the two caps 82 to which the connecting piece 84 is connected. Thus, the length of the connecting piece 84 is secured.
Further, for example, as shown in FIG. 2A, the connecting piece 84B is formed by passing and bending through a position shifted with respect to an imaginary line L2 connecting the centers of the two caps 82 to which the connecting piece 84 is connected. Thus, the length of the connecting piece 84 is secured.

Further, a tab 86 is projected from a cap 82 that is frequently used for desorption. A hole 8602 for attaching the knob piece 86 to the housing is formed in the knob piece 86. That is, in the cap 82 that is frequently used for attachment / detachment, the cap 82 can be easily attached and detached by placing a finger on the knob piece 86, and the connecting piece 84 connected to the cap 82 is cut to form the hole 8602. By inserting a string or the like through the cable and attaching the end of the string to an appropriate position of the housing 30 (connector panel 112), the cap 82 can be attached and detached without losing the cap 82. .
An attachment piece 88 projects from the connecting piece 84 having a long length. A screw insertion hole 8802 (two screw insertion holes 8802 in the present embodiment) for attaching the connecting piece 84 having a long length to the housing is formed in the attachment piece 88. That is, the screw inserted through the screw insertion hole 8802 is screwed into the housing 30 (connector panel 112) to attach the connecting piece 84 to the housing, and a part of the cap member 80 is attached to the housing 30. The cap member 80 is prevented from being lost.

According to the present embodiment, the cap member 80 is connected to the plurality of caps 82 by the plurality of flexible connecting pieces 84, and each connecting piece 84 can be attached to and detached from only one arbitrary cap 82. Therefore, only the optional cap 82 can be removed from the connector 113 and the remaining cap 82 can be attached to each connector 113.
Therefore, regardless of the usage state of the plurality of connectors 131, the caps 82 attached to the connectors 113 are advantageous in reliably exhibiting the dustproof and waterproof functions without losing the caps 82.
Further, in the present embodiment, since the cap 82 and the connecting piece 84 are integrally formed using a transparent elastomer, even if the connecting piece 84 is overlaid on the display portion 115 provided on the connector panel 112. The display unit 115 can be visually recognized, which is advantageous in improving usability.
In the present embodiment, the cap 82 and the connecting piece 84 are integrally formed using a transparent elastomer, and the cap 82 has elasticity. Therefore, the cap 82 removed from the connector 113 is adjacent to the connector 82. Unlike the case where the cap 82 is formed of a synthetic resin material, it can be prevented that an unpleasant sound is generated even when it hits the connector on the cable side connected to 113, which is advantageous in improving usability.

Further, a cap member that includes a cap that can be attached to and detached from a single connector 113 and that prevents the cap from being lost by connecting the cap to the housing 30 via a mounting piece and a screw has been conventionally used. A case where such a cap member is provided on all of the plurality of connectors 113 is also conceivable.
However, this case is disadvantageous in that the work of attaching the attachment piece to the housing must be performed by the number of caps, and the work becomes complicated.
Further, in such a conventional cap member, the attachment piece has an annular portion in which a hole through which the base end portion of the connector is inserted, and a belt-like portion connecting the annular portion and the cap, In many cases, the annular portion is sandwiched between the base end of the connector 113 and the connector panel 112.
For this reason, when the cap member is attached or removed, the connector 113 must be attached to or removed from the connector panel 112 at the same time. For example, when the cap member is exchanged, the work is extremely complicated. Become.
On the other hand, in the present embodiment, the connecting piece 84 can be attached to the housing 30 by screwing the attachment piece 88 of the cap member 80 into the housing 30 (connector panel 112) via a screw. This is advantageous in that the cap member 80 can be easily attached.
In addition, when replacing the cap member 80, it is only necessary to attach and detach the screw that attaches the attachment piece 88 to the connector panel 112 without removing the connector 113 from the connector panel 112, and the operation becomes extremely simple.

In the present embodiment, the case where the connecting piece 84 connects all the caps 82 attached to the plurality of connectors 113 has been described. However, the connecting piece 84 of the cap 82 attached to the plurality of connectors 113 is described. Of course, it is possible to connect only a part. In this case, it is only necessary to prepare a plurality of cap members 80 and cover all of the plurality of connectors 113 with the caps 82 of the plurality of cap members 80.
In this embodiment, the case where the cap 82 and the connecting piece 84 are integrally formed using a transparent elastomer has been described. However, one or both of the cap 82 and the connecting piece 84 are formed of an opaque material. It is optional. However, when at least the connecting piece 84 is made of a transparent material, it is advantageous in that the display portion 115 can be prevented from being invisible by the connecting piece 84.
In this embodiment, the case where the attachment piece 88 is used has been described. However, since the unused cap 82 is attached to the connector 113, the cap member 80 can be prevented from being lost. May be omitted.
Further, the cap 82 and the connecting piece 84 may be formed separately and integrally configured by bonding or the like.
In addition, it is optional to configure one or both of the cap 82 and the connecting piece 84 with a material other than an elastomer, for example, a flexible synthetic resin material.
In the present embodiment, the case where the cap member 80 is applied to the imaging control apparatus 20 has been described. However, the present invention is widely applicable to electronic devices having a plurality of connectors.

It is a perspective view of the cap member in a 1st embodiment. (A) is a top view of a cap member, (B) is a B arrow directional view of (A). (C) is a C arrow view of FIG. 2 (B), (D) is a D arrow view of (C). (E) is a view on arrow E in FIG. 1 (A), and (F) is a view on arrow F in FIG. 1 (A). It is explanatory drawing which shows the attachment state of a cap member. It is a disassembled perspective view of the operation panel of the imaging control device in the first embodiment. (A) is a top view of the board | substrate which comprises an operation panel, (B) is a B arrow directional view of (A). It is sectional drawing which shows the structure of a printing sheet. It is explanatory drawing which shows the manufacturing process of a printing sheet. It is a block diagram which shows the structure of the control part which controls the several light source 72 and the light source 74 for hand illumination. It is a right view of the business camera which has the imaging control apparatus in 1st Embodiment. It is a left view of the business camera. It is A arrow directional view of FIG. It is sectional drawing of the imaging control apparatus in 1st Embodiment. It is a perspective view of the imaging control device in a 1st embodiment. It is a perspective view which shows the state which removed the cover of the imaging control apparatus. It is XX sectional drawing of FIG. It is a perspective view of the frame of the imaging control device in a 1st embodiment. It is A arrow line view of FIG. It is a B arrow line view of FIG. It is C arrow line view of FIG. It is a D arrow line view of FIG. It is the E arrow line view of FIG. It is F arrow line view of FIG. It is a right view of an imaging control device. It is XX sectional drawing of FIG. (A) is a top view of a cover, (B) is a B arrow view of (A). (C) is a C arrow view of FIG. 27 (B), (D) is a D arrow view of (C). (E) is an E arrow view of FIG. 27 (A), (F) is an F arrow view of FIG. 27 (A). It is explanatory drawing which shows the movement of the water droplet in the upper wall of a flame | frame. (A) is sectional drawing of the modification 1 of a ventilation path, (B) shows sectional drawing of the modification 2 of a ventilation path. It is sectional drawing of the ventilation hole 42 and standing wall 44 vicinity. 6 is a cross-sectional view of a modification of the upper surface of the upper wall 40. FIG.

Explanation of symbols

20... Imaging control device, 30... Casing, 113 .. connector, 80... Cap member, 82.

Claims (10)

Cap members that respectively cover a plurality of connectors provided in a housing of an electronic device,
The cap member includes a plurality of caps that are individually attached to the plurality of connectors, and a plurality of flexible connecting pieces that connect the plurality of caps,
Each of the connecting pieces is formed by an elongated plate piece having a length capable of attaching / detaching only one arbitrary cap , and the elongated plate piece is connected to an imaginary line connecting the centers of two caps to which the elongated plate piece is connected. are formed by bending so as to pass through the offset position Te, caps member. The connecting piece is that is formed of a transparent material, the cap member according to 請 Motomeko 1. The connecting piece is that not consolidate all caps to be attached to the plurality of connectors, the cap member according to 請 Motomeko 1 or 2. The cap, the tab capable of multiplying the finger is projected, the knob piece, holes for attaching the該摘seen piece to the housing is formed,請 Motomeko 1-3 The cap member according to any one of the above. Mounting pieces protruding from the large connecting piece length of the plurality of connecting pieces, that the large connecting piece of said length to said mounting piece has a screw insertion hole for attaching is formed on the housing cap member according to any one of 請 Motomeko 1-4. An imaging control device that is detachably connected to a camera unit that captures an image of a subject and generates an imaging signal, the imaging signal is input, and the imaging signal is converted into a video signal and supplied to an external device,
A housing, a plurality of connectors provided in the housing, and cap members that respectively cover the plurality of connectors;
The cap member includes a plurality of caps that are individually attached to the plurality of connectors, and a plurality of flexible connecting pieces that connect the plurality of caps,
Each of the connecting pieces is formed by bending an elongated plate piece having a length that allows only one arbitrary cap to be attached / detached, and is shifted from an imaginary line connecting the centers of the two caps to which the connecting piece is connected. The imaging control device provided so that it may pass. The imaging control device according to claim 6, wherein the connection piece is formed of a transparent material . The imaging control device according to claim 6 or 7, wherein the connection piece connects all caps attached to the plurality of connectors . The cap, the tab capable of multiplying the finger is projected, the knob piece of 請 Motomeko 6-8 hole for attaching the該摘seen piece to the housing is formed The imaging control device according to any one of the above. A mounting piece projects from a connecting piece having a long length among the plurality of connecting pieces, and a screw insertion hole for attaching the connecting piece having a long length to the housing is formed in the mounting piece. imaging control device according to any one of 請 Motomeko 6-9.

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