JP2009020298A - Illuminating device, attachment to illuminating device, camera, illuminating system and camera system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an illuminating device or the like, distinguishing the kind of an attachment. <P>SOLUTION: This illuminating device 30 includes: an irradiating part 36 for applying illuminating light for photographing; and a read part 60 for reading identification information 43 of the attachment 40 having identification information 43 for identifying the kind of the attachment itself and applied to an irradiating part 36 in the state where the attachment 40 is applied to the irradiating part 36. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an illumination device, an attachment to the illumination device, a camera, an illumination system, and a camera system.

A camera that performs white balance adjustment based on light emission amount information transmitted from a lighting device, illuminance information of a subject, or the like is known (for example, see Patent Document 1).
JP 2007-36718 A

  Here, when a color filter or the like is attached to the illumination device, the color temperature of the illumination light changes. Conventionally, when a photographer wears a color filter on the light emitting unit of the lighting device, the photographer himself manually inputs the fact to the camera, and the camera side is based on the manually input color filter information. Therefore, the white balance adjustment is controlled appropriately.

  However, there are many types of color filters depending on the purpose of use, and it is complicated for a photographer to manually input color temperature information and the like each time according to the type of color filter.

  An object of the present invention is to provide an illumination device that can identify the type of an attachment, an attachment that allows the illumination device to identify its type, an illumination system that can identify the type of the attachment relative to the illumination device, and an illumination It is an object of the present invention to provide a camera and a camera system that can perform image processing according to the type of attachment to the apparatus.

  The present invention solves the above problems by the following means. Here, in order to facilitate understanding, description will be given with reference numerals corresponding to the embodiments of the present invention, but the present invention is not limited to this. In addition, the configuration described with reference numerals may be improved as appropriate, or at least a part thereof may be replaced with another configuration.

  The invention according to claim 1 is equipped with an irradiating part (36) for irradiating illumination light for photographing, and identification information (43) capable of identifying its own type, and being attachable to the irradiating part. It is an illuminating device (30) provided with the reading part (60) which reads the said identification information of a thing (40) in the mounting state with respect to the said irradiation part of the said mounting thing.

According to a second aspect of the present invention, in the illumination device according to the first aspect, a plurality of the reading units (160) are provided corresponding to the plurality of unit information (44) included in the identification information (43). It is an illuminating device (130) characterized by these.
According to a third aspect of the present invention, in the illumination device according to the first aspect, the reading unit (60) is provided movably with respect to an attachment (40) mounted on the irradiation unit (36), and The moving direction of the reading unit is the illuminating device (30) characterized in that it is substantially the same as the arrangement direction of the plurality of unit information (44) included in the identification information and arranged in a predetermined direction.
According to a fourth aspect of the present invention, in the illumination device according to the third aspect, the irradiating unit (36) has a light source (36a) and an irradiation direction of the illumination light in order to change an irradiation field angle of the illumination light. The illumination device (30) includes a zoom mechanism (37) for moving the light source, and the reading unit (60) is provided in the zoom mechanism.

  According to a fifth aspect of the present invention, the wearing device (40) is colored based on a reading result of the lighting device (30) according to any one of the first to fourth aspects and the reading unit (60). A camera (10) comprising: an image processing unit (16) that corrects color information of image data generated according to a signal output from the imaging unit (11) when recognized as a filter. is there.

The invention according to claim 6 is an attachment that can be attached to the illumination device (30), can identify the type of the attachment, and is provided in the illumination device while being attached to the illumination device. It is the attachment (40) with respect to an illuminating device provided with the identification information (43) readable by the read part (60) by which it was read.
According to a seventh aspect of the present invention, in the attachment to the lighting device according to the sixth aspect, the identification information (43) is formed by a plurality of unit information (44), and the plurality of unit information is the lighting device ( 30. The attachment (40) to the illumination device, which is arranged in substantially the same direction as the flash irradiation direction in (30) or in a direction orthogonal thereto.
According to an eighth aspect of the present invention, in the attachment for the lighting apparatus according to the seventh aspect, the unit information (44) is 1-bit data.
According to a ninth aspect of the present invention, the attachment to the lighting device according to any one of the fifth to eighth aspects is a color filter or a light diffusing device. (40).

The invention of claim 10 is an illumination system comprising an illuminating device (30) provided with an irradiating unit (36) for irradiating illumination light for photographing, and an attachment (40) attachable to the irradiating unit. The attachment (40) includes identification information (43) that can identify the type of the attachment (40), and the illumination device reads the identification information when the attachment is attached to the irradiation unit. It is an illumination system (30, 40) characterized by including a part (30).
According to an eleventh aspect of the present invention, in the illumination system according to the tenth aspect, the identification information (43) is formed by a plurality of unit information (44), and the reading unit (60) is included in the identification information. A plurality of lighting systems (130, 40) are provided corresponding to the plurality of unit information.
According to a twelfth aspect of the present invention, in the illumination system according to the tenth aspect, the identification information (43) is formed by a plurality of unit information (44) arranged in a predetermined direction, and the reading section ( Reference numeral 60) denotes an illumination system (30, 40) characterized in that the illumination system (30, 40) is provided so as to be movable in the same direction as the arrangement direction of the plurality of unit information with respect to the attachment.
According to a thirteenth aspect of the present invention, in the illumination system according to the twelfth aspect, the irradiating section (36) has a light source (36a) and an irradiation direction of the illuminating light in order to change an irradiation angle of the illuminating light. The illumination system (30, 40) includes a zoom mechanism (37) for moving the light source, and the reading unit (60) is provided in the zoom mechanism.
The invention of claim 14 is the illumination system according to any one of claims 11 to 13, wherein the unit information is 1-bit data (44). 40).
The invention of claim 15 is the illumination system according to any one of claims 10 to 14, wherein the attachment (40) is a color filter or a light diffusing device. (30, 40).

  The invention of claim 16 is a camera system comprising the illumination system (30, 40) according to claim 15 and a camera body (10) to which the illumination device (30) can be connected, wherein the camera body is A communication unit (15) that communicates with the illumination device to obtain the output of the reading unit (60), and the attachment (40) is recognized as a color filter based on the output of the communication unit. The camera system (1) includes an image processing unit (16) that corrects color information of image data generated in accordance with a signal output from the imaging unit (11).

  ADVANTAGE OF THE INVENTION According to this invention, the illuminating device which can identify the kind of attachment, the illuminating device which can make an illuminating device identify its own kind, the illumination system which can identify the kind of attachment with respect to an illuminating device, illumination It is possible to provide a camera and a camera system that can perform image processing according to the type of attachment to the apparatus.

[First Embodiment]
Hereinafter, the present invention will be described in more detail with reference to the drawings. In the following embodiments, a color filter will be described as an example of an attachment to the lighting device. In order to facilitate understanding, a coordinate system composed of an X-axis, a Y-axis, and a Z-axis is set as appropriate in each drawing.

FIG. 1 is a perspective view showing the camera system of the first embodiment.
FIG. 2 is a block diagram showing the configuration of the camera system shown in FIG.
As shown in FIG. 1, the camera system 1 includes a camera body 10, a lens barrel 20, and a lighting device 30.

As shown in FIG. 2, the camera body 10 includes an imaging unit 11, an image data generation unit 12, a display unit 13, an accessory shoe 14, a communication unit 15, and a white balance control unit 16 (WB control unit 16). An imaging device.
The imaging unit 11 is a part that converts subject light that has passed through a photographing lens 21 provided in the lens barrel 20 into an electrical signal. For example, a CCD or the like can be used for the imaging unit 11.
The image data generation unit 12 is a part that generates image data based on a signal output from the imaging unit 11.
The display unit 13 is a part that displays a captured image and a menu screen.

The accessory shoe 14 is a part to which an external device such as the lighting device 30 is connected. The accessory shoe 14 is mechanically engaged with a mounting leg 33 provided in the lighting device 30 in a state where the lighting device 30 is mounted on the camera body 10.
The accessory shoe 14 includes a plurality of electrical contacts (not shown). The mounting leg 33 of the illumination device 30 is also provided with a plurality of electrical contacts (not shown) corresponding to these electrical contacts, and the illumination device 30 and the camera body are mounted in the state where the illumination device 30 is mounted on the camera body 10 body. 10 is electrically connected.
The communication unit 15 is a part that communicates with the lighting device 30 via the plurality of electrical contacts described above, and the camera body 10 can acquire various types of information regarding the lighting device 30.

  The WB control unit 16 reproduces an object that appears white to human eyes in white regardless of the color temperature of light emitted from a light source (for example, a fluorescent light, an incandescent light bulb, sunlight, a lighting device 30 to be described later). This is a part for performing known color correction control for automatically adjusting the color information included in the image data.

The lens barrel 20 is an interchangeable lens that is detachably attached to the camera body 10 and includes a photographing lens 21 and a communication unit 22.
The taking lens 21 is formed by a plurality of lens groups including a zoom lens group, for example.
The communication unit 22 is a part that communicates with the communication unit 15 provided in the camera body 10.

The illumination device 30 irradiates a subject with illumination light for photographing during photographing using the camera body 10, and is generally called a flash device, a speedlight device, or the like.
The illumination device 30 includes a base unit 31, a head unit 32, a mounting leg 33, a display unit 34, a communication unit 35, an irradiation unit 36, a zoom mechanism 37, and a control unit 38 (the base unit 31 and the head unit 32). (See FIG. 1).
FIG. 3 is a diagram illustrating an internal structure of the lighting device.

The base portion 31 is a box-shaped portion that houses a battery or the like (not shown). The base portion 31 includes an attachment leg 33 described later at one end thereof, and is connected to the camera body 10 via the attachment leg 33.
The head portion 32 is a box-shaped portion connected to the other end portion of the base portion 31. The head unit 32 is provided so as to be rotatable about the Y axis and the X axis in FIG. 1 with respect to the base unit 31, and the illumination device 30 can perform so-called bounce shooting.

The mounting leg 33 mechanically engages with the accessory shoe 14 described above to mechanically and electrically connect the camera body 10 and the lighting device 30.
The display unit 34 is provided on the base unit 31. The display unit 34 includes a liquid crystal display panel that can display the focal length of the zoom lens, the dimmable range, and the like.
The communication unit 35 is a part that communicates with the communication unit 15 provided in the camera body 10.

The irradiation unit 36 is a part that irradiates illumination light, and is provided in the head unit 32. As shown in FIG. 3, the irradiation unit 36 includes a light emitting tube 36a, a reflecting plate 36b, and a lens 36c.
The arc tube 36 a is a light source of the illumination device 30 that emits illumination light (flash) when supplied with electricity stored in a capacitor (not shown) provided in the illumination device 30. For the arc tube 36a, for example, a xenon lamp or the like can be used. In FIG. 3, the irradiation direction of the irradiation unit 36 is parallel to the Z-axis direction, but the irradiation direction during bounce shooting is a direction inclined with respect to the Z-axis.
The reflection plate 36b is provided behind the arc tube 36a in the illumination light irradiation direction. The reflection plate 36b reflects light emitted from the arc tube 36a backward in the irradiation direction in the irradiation direction.
The lens 36c is a Fresnel lens provided in front of the light emitting tube 36a in the irradiation direction of the illumination light, and collects the light irradiated from the light emitting tube 36a in a predetermined range.

  The zoom mechanism 37 moves the arc tube 36a and the reflection plate 36b back and forth in the irradiation direction in accordance with the focal length of the zoom lens provided in the lens barrel 20. Information on the focal length is transmitted from the communication unit 15 provided in the camera body 10 body. As a result, the irradiation unit 36 changes the distance between the arc tube 36a and the lens 36c and changes the illumination field angle of illumination light.

The zoom mechanism 37 includes a zoom stage 37a and an actuator 37b.
The zoom stage 37a is a part that supports the arc tube 36a and the reflection plate 36b. The zoom stage 37a is housed inside a box-shaped head unit housing 32a, and is disposed to face the bottom of the head unit housing 32a.

The actuator 37b is an electric motor that drives the zoom stage 37a with respect to the head unit casing 32a, and is fixed to the head unit casing 32a. A pinion 37c is provided on the output shaft of the actuator 37b, and the pinion 37c is engaged with a rack 37d provided in the zoom stage 37a.
The control unit 38 (see FIG. 2) is a unit that comprehensively controls the display unit 34, the communication unit 35, the irradiation unit 36, the zoom mechanism 37, and the like, and includes, for example, an arithmetic device such as a CPU.

Here, as shown in FIG. 1, the illumination device 30 can attach the color filter 40 to the lens 36 c. The color filter 40 corrects or colors the illumination light emitted by the illumination device 30. The illumination device 30 and the color filter 40 cooperate to function as an illumination system.
FIG. 4 is a plan view of the color filter.
In FIG. 4, (a) and (b) show, for example, different types of color filters 40a and 40b having different colors.

In addition to the color filters 40a and 40b shown in FIG. 4, for example, a plurality of types having different colors and the like are prepared so as to be attachable to the lighting device 30, and the plurality of types of color filters 40 are respectively provided. They have substantially the same outer shape. In the present specification, when the color filter 40 is simply referred to, it means a plurality of types of color filters that can be attached to the illumination device 30, including the color filters 40 a and 40 b shown in FIG. 4.
The lighting device 30 is configured so that one of the plurality of types of color filters 40 is selectively attached.

The color filter 40 includes a filter unit 41 (41a, 41b) and a data holding unit 42 (42a, 42b).
The filter unit 41 is a portion that is placed over the lens 36 c in a mounted state with respect to the illumination device 30.
The data holding unit 42 is a portion provided with a data code 43 to be described later, and is opposed to the bottom of the head unit housing 32 a in a mounted state with respect to the lighting device 30. The data holding unit 42 is formed integrally with the filter unit 41. When the color filter 40 is attached to the lighting device 30, the filter unit 41 and the data holding unit 42, as shown in FIG. It is bent at a substantially right angle at the boundary.

When the color filter 40 is mounted on the lighting device 30, the filter holder 50 is used.
As shown in FIG. 1, the filter holder 50 is a cup-shaped member that is used by being placed on the front end portion in the irradiation direction of the head portion 32. 2 and 3 show the filter holder 50 omitted.
As shown in FIG. 3, the head unit 32 of the illumination device 30 is provided with a switch 32 b that detects the attachment / detachment state of the filter holder 50. Accordingly, the illumination device 30 can detect that the filter holder 50 is attached to the head portion 32 and that the filter holder 50 is removed from the head portion 32. The type of the switch 32b is not particularly limited, and may be, for example, a mechanical switch having a movable contact member or an electrical switch having an electrical contact.

Here, each of the color filters 40a and 40b includes a data code 43 (43a and 43b) that is identification information that can identify the type of the self (color filter 40).
The data code 43 is formed by a plurality (four in this embodiment) of unit data 44 (44a, 44b) provided in the data holding unit 42 of the color filter 40. The four unit data 44 are arranged so as to be substantially parallel to the moving direction of the zoom stage 37a, that is, the irradiation direction of the illumination light in a state where the color filter 40 is mounted on the illumination device 30.
The unit data 44 is formed by a rectangular area having a reflectance different from the color of the base material forming the data holding unit 42, and functions as 1-bit data (data that can identify 1 or 0). ing. The color filter 40 is configured to cause the reading unit 60 described later to identify its type by combining four 1-bit data.

  The head housing 32a is provided with a light transmitting portion 32c formed of a light transmitting material at a portion overlapping the data code 43 with the color filter 40 attached.

The illumination device 30 includes a reading unit 60 that reads the data code 43 described above.
FIG. 5 is a circuit diagram showing the structure of the reading unit shown in FIG.
The reading unit 60 detects a light-emitting diode (LED) 61 that irradiates light to the data code 43 provided in the data holding unit 42 and light reflected from the light-emitting diode 61 and reflected by the data holding unit 42. And a phototransistor 62. The output of the phototransistor 62 is transmitted to the CPU provided in the control unit 38 via the A / D converter 63.
As shown in FIG. 3, the reading unit 60 is attached to the zoom stage 37a, and moves forward and backward in the irradiation direction integrally with the zoom stage 37a.

  As shown in FIG. 2, the illumination device 30 includes a memory device 39 in which color temperature information corresponding to the type of the color filter 40 is recorded. The control unit 38 outputs the output of the reading unit 60 and the memory. Based on the color temperature information recorded in the device 39, information on the filter mounted on the display unit 34, such as color temperature information, is displayed.

Next, the control performed by the control unit 38 provided in the illumination device 30 of the camera system 1 and the WB control unit 16 provided in the camera body 10 will be described step by step using a flowchart. This control is performed when the auto WB mode for automatically adjusting the white balance is selected on the camera body 10 side.
6A is a flowchart illustrating the control performed by the control unit 38, and FIG. 6B is a flowchart illustrating the control performed by the WB control unit 16.

[FIG. 6A: Lighting device side control flow]
(Step S01: Filter holder attachment / detachment detection)
When the power supply is on, the lighting device 30 detects that the filter holder 50 is attached or removed from the lighting device 30 according to the output of the switch 32b. Then, the reading operation of the data code 43 is started (proceeding to step S02).
Also, the lighting device 30 starts the reading operation of the data code 43 even when the power is turned from the off state to the on state (proceeds to step S02).

The reason why the data code 43 is read when the filter holder 50 is detached from the illumination device 30 is to confirm that the color filter 40 has actually been removed.
The reason why the data code 43 is read when the lighting device 30 is powered on is that the color filter 40 may be attached when the power is turned off.
When the filter holder 50 is not detected, the control unit 38 regards that the color filter 40 is not attached, and proceeds to step S06.

(Step S02: Zoom stage drive)
When the reading unit 60 is at a position other than the predetermined reading start position, the control unit 38 drives the zoom stage 37a to move the reading unit 60 to the reading start position. In the present embodiment, the reading start position is, for example, the wide position or the tele position of the zoom mechanism 37, but is not limited to this.
When the zoom mechanism 37 is positioned between the tele position and the wide position, the control unit 38 drives the zoom stage 37a closer to the tele position and the wide position to move the reading unit 60 to the reading start position. Let
Thereafter, the control unit 38 controls the actuator 37b to drive the zoom stage 37a from the wide position to the tele position or from the tele position to the wide position.

(Step S03: Read data code)
Along with the control for moving the zoom stage 37a in step S02, the control unit 38 issues a command to the reading unit 60 to read the data code 43 provided in the color filter 40. The output of the reading unit 60 is A / D converted by the A / D converter 63 and output to the control unit 38.
When the reading of the data code 43 by the reading unit 60 is normally completed, the control unit 38 proceeds to step S04. On the other hand, when the data code 43 cannot be read, such as when the color filter 40 does not include code data, an output error of the reading unit 60 occurs, and the control unit 38 performs a step in accordance with the error signal. Proceed to S05.

(Step S04: Color temperature display)
The control unit 38 determines the color temperature of the illumination light emitted from the illumination device 30 based on the output of the reading unit 60 and the information recorded in the memory device 39, and causes the display unit 34 to display this color temperature information. The process proceeds to step S06.
(Step S05: Error display)
The control unit 38 displays an error message indicating that the data code 43 of the color filter 40 cannot be read on the display unit 34, and proceeds to step S06.

(Step S06: Color temperature information transmission)
The control unit 38 transmits the color temperature information acquired by the reading unit 60 to the camera body 10 via the communication unit 35 of the illumination device 30 and the communication unit 15 of the camera body 10.
In addition, even if it is determined in step S01 that the color filter 40 is not attached, and even if the data code 43 cannot be read in step S03, the control unit 38 of the lighting device 30 can be Transmit color temperature information to The color temperature at this time is the color temperature of the raw light emitted from the arc tube 36a.

[FIG. 6B: Camera body side control]
Next, control of the WB control unit 16 will be described. When the color temperature information is received by the communication unit 15 from the lighting device 30 via the communication unit 35, this flow starts.
(Step S10: Color temperature information recording)
The camera body 10 records the color temperature information transmitted from the illumination device 30 in step S06 in a memory device (not shown). Thereafter, in response to an operation of a release switch provided in the camera body 10, a command for causing the illumination device 30 to perform monitor light emission (pre-light emission) is issued, and the process proceeds to step S11.

(Step S11: Metering)
The illuminating device 30 performs pre-light emission in response to this command, and a photometry unit (not shown) provided in the camera body 10 at that time measures the subject brightness at the time of the pre-light emission, and proceeds to step S12.

(Step S12: WB adjustment)
The WB control unit 16 performs white balance setting according to the output of the photometry unit. Here, since the color temperature information of the illumination light to be irradiated by the illumination device 30 is transmitted in advance from the illumination device 30 (held in step S10), the WB control unit 16 improves the accuracy of the WB adjustment. To do.
Thereafter, the camera system 1 exposes subject light to the imaging unit 11 in accordance with the release switch operation by the photographer, and the image data generation unit 12 generates image data in accordance with the output of the imaging unit 11. In this image data, color information is corrected according to the white balance set by the WB control unit 16.

According to the camera system 1 described above, the following effects can be obtained.
(1) Since the data code 43 is provided in the color filter 40 and the reading unit 60 that reads the data code 43 is provided in the illumination device 30, the user of the camera system 1 selects the type of the color filter 40 for the camera body 10. This is convenient because it does not require manual input.
(2) Since the reading unit 60 that reads the data code 43 is provided in the zoom mechanism 37 provided in advance in the illumination device 30, it is not necessary to separately provide a mechanism for scanning the reading unit 60 in order to read a plurality of unit information. . Therefore, the enlargement of the lighting device 30 can be prevented and the cost can be reduced.

[Second Embodiment]
Next, a second embodiment of a lighting device to which the present invention is applied will be described. In the second embodiment and other embodiments, the same functions as those in the first embodiment described above are denoted by the same reference numerals or unified reference numerals at the end, and repeated descriptions and drawings are appropriately omitted. To do.
FIG. 7 is a diagram illustrating an internal structure of the illumination device according to the second embodiment.

The illumination device 130 of the second embodiment is a type in which the irradiation angle of view is fixed, and does not include a mechanism corresponding to the zoom mechanism 37 included in the illumination device 30 of the first embodiment.
The illumination device 130 includes a plurality of sensor units 160 corresponding to the plurality of unit data 44 forming the data code 43 provided in the color filter 40. In the illuminating device 130 of 2nd Embodiment, the four sensor parts 160 are arranged, for example along the irradiation direction of illumination light.

  In the illumination device 130, each of the four sensor units 161 reads the unit data 44 facing each other and outputs the unit data 44 to the control unit 162 (the control unit 162 is not shown). The control unit 162 responds to this output. The type of the color filter 40 and the color temperature of the illumination light corresponding to this are determined.

According to the second embodiment, the type of the color filter 40 can be determined based on the data code 43 provided in the color filter 40 even in the simple type lighting device 130 that does not include the zoom mechanism. .
In addition, since the plurality of sensor units 161 are arranged along the irradiation direction of the illumination light, the color filter 40 is commonly used in the illumination device 30 of the first embodiment and the illumination device 130 of the second embodiment. can do.

[Deformation]
The illumination device, the attachment to the illumination device, the camera, the illumination system, and the camera system of the present invention are not limited to the above-described embodiments, and various modifications and changes as described below can be appropriately made. These are also included in the technical scope of the present invention.
(1) In the embodiment, the attachment attached to the illumination device is a color filter. However, the attachment is not limited thereto, and may be, for example, a light diffusion device that diffuses illumination light. In the embodiment, the WB is adjusted in accordance with the color filter. However, when the light diffusing device is attached, it is preferable to perform control to automatically drive the zoom mechanism of the illumination device to the wide position.
(2) Although the reading unit of the embodiment includes the optical sensor, the configuration of the reading unit and the data code 43 is not limited to this. For example, the data code may be formed of a magnetic material and the sensor of the reading unit may be a magnetic sensor.
(3) The plurality of unit data forming the data code of the second embodiment are arranged in parallel to the irradiation direction as shown in FIG. 3, but not limited to this, the plurality of unit data are arranged in a direction orthogonal to the irradiation direction. While arranging, a plurality of sensor units may be arranged correspondingly. In this case, the dimension of the illumination device in the irradiation direction can be reduced.
(4) In addition to the so-called external illumination device described in the embodiment, the present invention can also be applied to a built-in illumination device provided in the camera body. In this case, a memory device or the like in which color temperature information or the like corresponding to the attachment is recorded on the camera body side may be provided.

It is a perspective view which shows the camera system of 1st Embodiment. It is a block diagram which shows the structure of the camera system shown in FIG. It is a figure which shows the internal structure of the illuminating device with which the camera system shown in FIG. 1 was equipped. It is a top view of the color filter with which the illuminating device shown in FIG. 3 is mounted | worn. FIG. 3 is a circuit diagram illustrating a configuration of a reading unit provided in the camera system illustrated in FIG. 2. It is a flowchart which shows the control in case the camera system shown in FIG. 1 performs WB adjustment according to a color filter. It is a figure which shows the internal structure of the illuminating device of 2nd Embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Camera system: 10 Camera body: 30 Illumination device: 36 Irradiation part: 40 Color filter: 43 Data code: 60 Reading part

Claims (16)

An irradiation unit that emits illumination light for photographing; and
An illuminating apparatus comprising: a reading unit that has identification information capable of identifying its own type and reads the identification information of an attachment that can be attached to the irradiation unit in a state of attachment of the attachment to the irradiation unit. The lighting device according to claim 1.
A plurality of reading units are provided corresponding to a plurality of unit information included in the identification information. The lighting device according to claim 1.
The reading unit is provided so as to be movable with respect to an attachment attached to the irradiation unit,
The moving direction of the reading unit is substantially the same direction as the arrangement direction of the plurality of unit information included in the identification information and arranged in a predetermined direction. The lighting device according to claim 3.
The irradiation unit includes a light source and a zoom mechanism that moves the light source in the irradiation direction of the illumination light in order to change an irradiation angle of view of the illumination light,
The reading device is provided in the zoom mechanism. The lighting device according to any one of claims 1 to 4,
An image processing unit that corrects color information of image data generated according to a signal output from the imaging unit when the attached object is recognized as a color filter based on a reading result of the reading unit. A camera with that. A fitting that can be attached to a lighting device,
What is attached to the lighting device, characterized in that it can identify the type of the device and has identification information readable by a reading unit provided in the lighting device in a state of being mounted on the lighting device. . In the attachment with respect to the illuminating device of Claim 6,
The identification information is formed by a plurality of unit information,
The plurality of unit information is arranged in a direction substantially the same as or orthogonal to a flashing direction of the lighting device. In the attachment with respect to the illuminating device of Claim 7,
The unit information is 1-bit data. The attachment to the lighting device according to any one of claims 5 to 8,
An attachment to a lighting device, which is a color filter or a light diffusing device. An illumination system including an illumination device including an irradiation unit that emits illumination light for photographing, and an attachment that can be attached to the irradiation unit,
The wearing item includes identification information capable of specifying the type of the self,
The illumination system includes a reading unit that reads the identification information in a mounted state of the wearing object with respect to the irradiation unit. The lighting system according to claim 10.
The identification information is formed by a plurality of unit information,
A plurality of the reading units are provided corresponding to the plurality of unit information included in the identification information. The lighting system according to claim 10.
The identification information is formed by a plurality of unit information arranged in a predetermined direction,
The illumination system is characterized in that the reading unit is provided so as to be movable in a direction substantially the same as an arrangement direction of the plurality of unit information with respect to the attachment. The lighting system according to claim 12, wherein
The irradiation unit includes a light source and a zoom mechanism that moves the light source in the irradiation direction of the illumination light in order to change an irradiation angle of view of the illumination light,
The illumination system, wherein the reading unit is provided in the zoom mechanism. The illumination system according to any one of claims 11 to 13,
The unit system is 1-bit data. The lighting system according to any one of claims 10 to 14,
The wearing system is a color filter or a light diffusing device. A camera system comprising the illumination system according to claim 15 and a camera body to which the illumination device can be connected,
The camera body is
A communication unit that communicates with the illumination device to obtain the output of the reading unit;
An image processing unit that corrects color information of image data generated according to a signal output from the imaging unit when the attached object is recognized as a color filter based on the output of the communication unit. A camera system characterized by

Images