JP2004102086A - Camera with electronic flash and electronic flash dimming controller for camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a proper quantity of subject light during macrophotography by electronic flash lighting without causing diffraction etc., nor making a photographic lens barrel large-sized. <P>SOLUTION: A variable filter 24 capable of adjusting the quantity of transmitted light by controlling the relative angle of a polarizing plate and so on is inserted into the lighting optical path of an electronic flash unit 2. A photographic mode select switch 4 is a switch for selecting various photographic modes including a macrophotography mode. An electronic flash mode select switch 5 is a switch for selecting light emitting operation modes of lighting/non-lighting and normal lighting/small-quantity lighting, etc. of the electronic flash unit 2. When the macrophotography mode is selected with the photographic mode select switch 4 and the use of the electronic flash unit 2 is selected with the electronic flash mode select switch 5, the variable filter 24 is controlled in response to the operation of a release switch 3 according to the distance to a subject to properly increase or decrease the quantity of transmitted light of electronic flash light. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to controlling the amount of light of a strobe device for illuminating an object of a digital camera and a camera including a so-called silver halide film camera, and further, a video camera and the like. And a strobe light control device for the camera.
[0002]
[Prior art]
So-called macro photography is close-up photography, in which the subject is photographed in an enlarged manner by approaching the subject extremely. In such macro photography, when the subject is illuminated by the strobe device and the photograph is taken, the distance to the subject is extremely short as compared with normal photographing, so that the irradiation light of the strobe device is less attenuated. As a result, There is a tendency for overexposed photographs. Some strobe devices allow the amount of light to be reduced to the low light emission mode in addition to the normal full light emission mode. In many cases, overexposure occurs as a result without being able to completely reduce the exposure.
It is possible to cope with such overexposure by further reducing the light amount or making the aperture smaller, thereby considerably restricting the light amount at the time of shooting.
[0003]
However, there is a limit in controlling the light emission of the strobe device alone, and currently, it is not possible to obtain a good photographing result with this function alone. As for the method of narrowing the aperture, if the aperture is reduced beyond a certain limit, the image quality is reduced due to the influence of diffraction by the aperture of the aperture. For this reason, this method is not very suitable. Therefore, in order to more effectively use the illumination of the strobe device in macro photography, it is necessary to further reduce the amount of irradiation of the strobe device.
As a technique for suppressing the irradiation light amount of the strobe device, it is conceivable to limit the irradiation light of the strobe device by a filter such as an ND (intermediate density) filter. As a conventional technique for suppressing the irradiation light amount of the strobe device, there is the following technology for inserting means having a filter function into an irradiation optical path near a light emitting portion of the strobe device.
[0004]
[Patent Document 1]
JP-A-11-295788.
this
Patent Document 1 discloses that in a film-integrated camera, a dimming filter used for a strobe light-emitting panel is formed of a photochromic material whose transmitted light amount of strobe light changes in response to an external light amount stimulus. In this case, by forming the dimming filter with a photochromic material, the strobe light is attenuated by the photochromic filter and is applied to the subject.
[0005]
[Patent Document 2]
JP-A-2000-162738.
this
In summary, Patent Document 2 discloses that, in a film unit with a lens, both a strobe light amount and an aperture opening have a switching mechanism, and a combination of these two controls the light amount at the time of photographing. Specifically, in the first photographing mode, the light emission of the strobe device is prohibited, in the second photographing mode, the light of the strobe device is emitted, the irradiation light amount is set to the normal light amount, and in the third photographing mode, The strobe device emits light, and the amount of irradiation is a very small amount. The aperture opening can be selected by switching between a normal aperture and a small aperture opening. In the first photographing mode in which strobe light emission is prohibited, the aperture opening is set to a small aperture opening, the strobe device is caused to emit light, and the irradiation light amount is normally set. In the second photography mode in which the light amount is set, the aperture opening is set to a small aperture opening, and then the strobe device is made to emit light. Set. This diaphragm is formed of a so-called turret type diaphragm switching plate that rotates with respect to the photographing optical path to switch the diaphragm opening. It also shows that an ND filter or the like is inserted into and removed from a light emitting portion of the strobe device for switching the irradiation light amount of the strobe device.
[0006]
[Patent Document 3]
JP-A-10-90748.
this
Patent Document 3 discloses a mechanism for selectively switching and inserting a plurality of optical filters (including an ND filter) into a photographing optical path, and restricting the aperture to less than a certain limit in order to prevent diffraction by an aperture. It is also shown that a polarizing filter is provided in the irradiation light path of the light emitting section of the strobe device so as to be insertable and removable for restricting the amount of light. When used orthogonally, the amount of transmitted light can be significantly limited. In this case, it is also shown that one is inserted into the light emitting portion of the strobe device and the other is inserted into the photographing optical path). By appropriately controlling these optical filters and the like in accordance with the conditions of the subject, it is possible to perform high-quality imaging without causing aperture diffraction even in the case of a subject having high luminance.
[0007]
[Problems to be solved by the invention]
By the way, as mentioned earlier, when using illumination from a flash device for macro photography, the amount of light emitted from the flash device is further reduced to prevent overexposure.
To do
[Patent Document 1],
[Patent Document 2] and
The use of the technique of Patent Document 3 will be considered.
According to the technique disclosed in Patent Document 1, in the case of macro photography in which the external light condition is different from that of normal photography, a sufficient dimming function can be obtained by using a photochromic filter as it is.
Can't command. Also,
According to the technique disclosed in Patent Document 2, if the amount of light emitted from a strobe device is too small, if the amount of light is too large, the aperture will be reduced to a small value. . And
In the technique disclosed in Patent Document 3, a switching mechanism for selectively inserting and removing a plurality of filters and the like in a photographing optical path to switch the light amount is provided. Therefore, considering the size of the lens barrel of the photographing optical system, this type of switching is performed. It is considered that the size becomes inevitably larger than that of a photographing optical system of a lens barrel having no mechanism, and this is a negative factor for miniaturization of the lens barrel.
[0008]
Therefore, the present invention has been made in view of the above circumstances, and it is possible to obtain an appropriate amount of subject light by strobe lighting at the time of macro shooting without causing diffraction or the like and increasing the size of a shooting lens barrel. It is an object of the present invention to provide a strobe-equipped camera and a strobe light control device for the camera.
An object of claim 1 of the present invention is to provide a camera with a strobe capable of realizing strobe irradiation with an appropriate amount of light during macro shooting.
A second object of the present invention is to provide a camera with a strobe which can control the amount of strobe irradiation very flexibly.
A third object of the present invention is to provide a strobe-equipped camera capable of controlling the amount of strobe irradiation with a simple structure and without requiring a mechanically movable part.
An object of a fourth aspect of the present invention is to provide a camera with a strobe which can control the amount of strobe irradiation with a simpler structure and without requiring a mechanically movable part.
[0009]
A fifth object of the present invention is to provide a strobe-equipped camera capable of controlling the amount of strobe irradiation more flexibly with a simple structure and without requiring a mechanically movable part.
An object of claim 6 of the present invention is to provide a camera with a strobe which can reduce the influence during shooting other than macro shooting.
An object of claim 7 of the present invention is to provide a camera with a strobe capable of effectively avoiding the influence during photographing other than macro photographing, particularly when a diffuser plate is inserted into and removed from the irradiation optical path of the strobe device. It is in.
An object of an eighth aspect of the present invention is to provide a strobe light control device for a camera which can realize strobe irradiation with an appropriate amount of light during macro shooting.
An object of a ninth aspect of the present invention is to provide a strobe light control device for a camera capable of controlling the amount of strobe irradiation very flexibly.
An object of a tenth aspect of the present invention is to provide a strobe light control device for a camera which can control the amount of strobe irradiation with a simple structure and without requiring a mechanically movable part.
[0010]
An object of an eleventh aspect of the present invention is to provide a strobe light control device for a camera which can control the amount of strobe irradiation with a simpler structure and without requiring a mechanically movable part. .
It is an object of a twelfth aspect of the present invention to provide a strobe light control device for a camera which can control the amount of strobe irradiation more flexibly with a simple configuration and without requiring a mechanically movable part. It is in.
An object of a thirteenth aspect of the present invention is to provide a flash dimming control device for a camera, which can reduce the influence during shooting other than macro shooting.
An object of a fourteenth aspect of the present invention is to provide a strobe light control for a camera which can effectively avoid an influence at the time of photographing other than macro photographing, particularly when a diffuser plate is inserted into and removed from an irradiation optical path of a strobe device. It is to provide a device.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, a camera with a flash according to the present invention described in claim 1 has the following features.
In a camera with a strobe equipped with a strobe device for illuminating the subject and having a macro shooting function for taking a picture in close proximity to the subject,
A variable filter that is inserted into the irradiation light path of the light emitting unit of the strobe device and that can limit and adjust the amount of transmitted light;
At least at the time of photographing by the macro photographing function, filter control means for variably controlling the amount of light transmitted to the subject by controlling the amount of light transmitted through the variable filter.
It is characterized by having.
The camera with a strobe according to the present invention described in claim 2 is
The variable filter,
First and second polarizers inserted into an irradiation optical path of a light emitting unit of the strobe device;
Relative rotating means for relatively rotating at least one of the first and second polarizing plates around an optical axis of the irradiation optical path as an axis to control the amount of transmitted light;
It is characterized by including.
[0012]
According to a third aspect of the present invention, there is provided a camera with a strobe according to the present invention, wherein the variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in a vertical direction, and the plurality of segments are formed into a horizontal effective segment. And a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so that the distribution density changes.
In the camera with a strobe according to the present invention as set forth in claim 4, the variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the horizontal direction, and the plurality of segments are divided into effective segments in the vertical direction. And a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change the distribution density.
According to a fifth aspect of the present invention, in the camera with a strobe according to the present invention, the variable filter has a liquid crystal panel divided into a number of segments in a two-dimensional matrix. It is characterized by including a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change the density.
[0013]
In the camera with a strobe according to the present invention as set forth in claim 6, the filter control means limits the amount of transmitted light by applying the variable filter only at the time of photographing by the macro photographing function, and performs photographing without using the macro photographing function. It is characterized in that it sometimes includes a means for preventing the variable filter from acting.
[0014]
The camera with a strobe according to the present invention described in claim 7 is:
A diffusing plate for diffusing incident light, and
The variable filter is provided so as to be able to insert / retreat with the diffusion plate integrally with the irradiation optical path of the light emitting unit of the strobe device,
Further, in order to retract the variable filter and the diffusion plate from the irradiation optical path when the macro photographing function is not used, an insertion / removal operation unit for selectively performing insertion / retraction of the variable filter and the diffusion plate with respect to the irradiation optical path is included. It is characterized by the following.
The strobe light control device for a camera according to the present invention as set forth in claim 8 achieves the above-mentioned object,
In a strobe light control device that adjusts and controls irradiation light of a strobe device that illuminates a subject using a camera having a macro shooting function for shooting a close subject,
A variable filter that is inserted into the irradiation light path of the light emitting unit of the strobe device and that can limit and adjust the amount of transmitted light;
At least at the time of photographing by the macro photographing function of the camera, filter control means for variably controlling the amount of light transmitted to the subject by controlling the amount of light transmitted through the variable filter.
It is characterized by having.
[0015]
According to a ninth aspect of the present invention, there is provided a strobe light control device for a camera according to the present invention,
The variable filter,
First and second polarizers inserted into an irradiation optical path of a light emitting unit of the strobe device;
Relative rotating means for relatively rotating at least one of the first and second polarizing plates around an optical axis of the irradiation optical path as an axis to control the amount of transmitted light;
It is characterized by including.
In the strobe light control apparatus for a camera according to the present invention as set forth in claim 10, the variable filter has a liquid crystal panel divided into a plurality of strip-like segments extending in a vertical direction, and the plurality of segments are horizontally arranged. It is characterized in that it includes a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change the distribution density of effective segments in the direction.
[0016]
The strobe dimming control device for a camera according to the present invention as set forth in claim 11, wherein the variable filter has a liquid crystal panel divided into a plurality of strip-like segments extending in the horizontal direction, and the plurality of segments are vertically divided. It is characterized in that it includes a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change the distribution density of effective segments in the direction.
13. The strobe light control apparatus for a camera according to claim 12, wherein the variable filter has a liquid crystal panel divided into a number of segments in a two-dimensional matrix, and the number of segments is defined as an effective segment. And a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so that the two-dimensional distribution density changes.
14. The strobe light control apparatus for a camera according to claim 13, wherein the filter control means limits the amount of transmitted light by applying the variable filter only during photographing by the macro photographing function. The apparatus is characterized in that it includes a unit that does not allow the variable filter to operate when photographing is not performed.
[0017]
The strobe light control device for a camera according to the present invention described in claim 14 is:
A diffusing plate for diffusing incident light, and
The variable filter is provided so as to be able to insert / retreat with the diffusion plate integrally with the irradiation optical path of the light emitting unit of the strobe device,
Further, in order to retract the variable filter and the diffusion plate from the irradiation optical path when the macro photographing function is not used, an insertion / removal operation unit for selectively performing insertion / retraction of the variable filter and the diffusion plate with respect to the irradiation optical path is included. It is characterized by the following.
[0018]
[Action]
That is, a camera with a strobe according to a first aspect of the present invention is a camera with a strobe equipped with a strobe device for illuminating a subject and having a macro shooting function for taking a picture in close proximity to the subject. And a filter control means for controlling the amount of light transmitted through the variable filter and variably controlling the amount of light applied to the subject at least at the time of photographing by the macro photographing function. .
With such a configuration, it is possible to obtain an appropriate amount of subject light by strobe lighting during macro shooting without causing diffraction or the like and increasing the size of the shooting lens barrel. Strobe irradiation is realized.
Also, in the camera with a strobe according to a second aspect of the present invention, the variable filter includes first and second polarizers inserted into an irradiation optical path of a light emitting unit of the strobe device, and the first and second polarization plates. Relative rotation means for relatively rotating at least one of the plates about the optical axis of the irradiation optical path as an axis to control the amount of transmitted light.
With such a configuration, in particular, the amount of strobe irradiation can be extremely flexibly controlled.
[0019]
According to a third aspect of the present invention, in the camera with a strobe, the variable filter has a liquid crystal panel divided into a plurality of strips extending in a vertical direction, and the plurality of segments are formed by a distribution density of effective segments in a horizontal direction. And a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change.
With such a configuration, in particular, it is possible to control the strobe irradiation light amount with a simple configuration without requiring a mechanically movable part.
A strobe-equipped camera according to claim 4 of the present invention, wherein the variable filter has a liquid crystal panel divided into a plurality of strip-like segments extending in the horizontal direction, and the plurality of segments is formed by a distribution density of effective segments in the vertical direction. And a liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change.
With such a configuration, in particular, it is possible to control the amount of strobe irradiation with a simpler configuration without requiring a mechanically movable portion.
[0020]
In a camera with a strobe according to a fifth aspect of the present invention, the variable filter has a liquid crystal panel divided into a plurality of segments in a two-dimensional matrix, and the two-dimensional distribution density of the effective segments varies in the plurality of segments. And a liquid crystal filter for controlling the amount of transmitted light.
With such a configuration, in particular, it is possible to more flexibly control the amount of strobe irradiation with a simple configuration without requiring a mechanically movable portion.
In the camera with a strobe according to claim 6 of the present invention, the filter control means limits the amount of transmitted light by applying the variable filter only at the time of photographing by the macro photographing function, and the variable at the time of photographing without using the macro photographing function. Includes means that does not activate the filter.
With such a configuration, particularly, the influence during shooting other than macro shooting is reduced.
[0021]
The strobe-equipped camera according to claim 7 of the present invention further includes a diffusion plate for diffusing incident light, and the variable filter is inserted / integrated with the diffusion plate with respect to an irradiation optical path of a light emitting unit of the strobe device. The variable filter and the diffusion plate are inserted / retracted with respect to the irradiation optical path in order to retract the variable filter and the diffusion plate from the irradiation optical path when the macro photographing function is not used. It comprises an insertion / removal operation means for performing a selection operation.
With such a configuration, particularly in the case where there is a diffusion plate that is inserted into and retracted from the irradiation optical path of the strobe device, the influence during imaging other than macro imaging can be effectively avoided.
Further, a strobe light control device for a camera according to claim 8 of the present invention is a strobe light control device for adjusting and controlling irradiation light of a strobe device for illuminating a subject by using a camera having a macro shooting function for shooting a close subject. In the apparatus, a variable filter that is inserted into an irradiation light path of a light emitting unit of the strobe device and that can limit and adjust the amount of transmitted light, and controls the amount of transmitted light of the variable filter during photographing by at least the macro photographing function of the camera. And a filter control means for variably controlling the amount of light applied to the subject.
With such a configuration, it is possible to obtain an appropriate amount of subject light by strobe lighting during macro shooting without causing diffraction or the like and increasing the size of the shooting lens barrel. Strobe irradiation is realized.
[0022]
Also, in the strobe dimming control device for a camera according to the ninth aspect of the present invention, the variable filter includes first and second polarizing plates inserted into an irradiation optical path of a light emitting unit of the strobe device; Relative rotation means for relatively rotating at least one of the second polarizing plates around the optical axis of the irradiation optical path as an axis to control the amount of transmitted light.
With such a configuration, in particular, the amount of strobe irradiation can be extremely flexibly controlled.
According to a tenth aspect of the present invention, there is provided a strobe dimming control device for a camera, wherein the variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in a vertical direction, and the plurality of segments are provided in a horizontal effective direction. A liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change the distribution density of the segments, is included.
With such a configuration, in particular, it is possible to control the strobe irradiation light amount with a simple configuration without requiring a mechanically movable part.
[0023]
According to an eleventh aspect of the present invention, in the camera flash control device according to the eleventh aspect, the variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the horizontal direction, and the plurality of segments are set to be effective in the vertical direction. A liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change the distribution density of the segments, is included.
With such a configuration, in particular, it is possible to control the amount of strobe irradiation with a simpler configuration without requiring a mechanically movable portion.
According to a twelfth aspect of the present invention, in the camera flash control device according to the twelfth aspect, the variable filter has a liquid crystal panel divided into a number of segments in a two-dimensional matrix, and the number of segments is converted into a two-dimensional effective segment. A liquid crystal filter for controlling the amount of transmitted light, which is selectively effective so as to change the distribution density, is included.
With such a configuration, in particular, the strobe irradiation light amount can be more flexibly and delicately controlled with a simple configuration without requiring a mechanically movable portion.
[0024]
According to a thirteenth aspect of the present invention, in the camera flash control device according to the thirteenth aspect, the filter control means limits the amount of transmitted light by applying the variable filter only during shooting by the macro shooting function, and does not use the macro shooting function. It includes a unit that does not operate the variable filter at the time of photographing.
With such a configuration, particularly, the influence during shooting other than macro shooting is reduced.
The strobe dimming control device for a camera according to claim 14 of the present invention further includes a diffuser plate for diffusing incident light, and the variable filter includes a diffuser plate with respect to an irradiation optical path of a light emitting unit of the strobe device. The variable filter and the diffusion plate are provided so as to be integrally inserted / retracted, and are retracted from the irradiation optical path when the macro photographing function is not used. It includes an insertion / removal operation means for selecting insertion / retraction.
With such a configuration, particularly in the case where there is a diffusion plate that is inserted into and retracted from the irradiation optical path of the strobe device, the influence during imaging other than macro imaging can be effectively avoided.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a camera with a strobe and a strobe light control device of the camera according to the present invention will be described in detail based on an embodiment of the present invention with reference to the drawings.
FIG. 1 and FIG. 2 show a configuration of a main part of a camera with a flash according to a first embodiment of the present invention. FIG. 1 is a perspective view schematically showing an external configuration of a camera with a strobe, and FIG. 2 is an exploded perspective view schematically showing a configuration of an optical system near a light emitting portion of a strobe unit of the camera with a strobe.
The camera with a flash shown in FIG. 1 includes a shooting lens 1, a flash unit 2, a release switch 3, a shooting mode selection switch 4, and a flash mode selection switch 5.
The taking lens 1 is a lens in which a lens system for forming a subject image is housed and held in a lens barrel. This lens system forms a subject image on an image sensor input surface in the case of a digital camera, and forms a subject image on a film surface in the case of a silver halide film camera.
[0026]
The strobe unit 2 constitutes a strobe device, and FIG. 1 mainly shows the vicinity of the light emitting unit. The release switch 3 constitutes a so-called shutter button, and is pressed when shooting. The photographing mode selection switch 4 is a switch for selecting various photographing modes including a macro photographing mode. By operating the photographing mode selection switch 4, a camera control which is built in the camera body B but is not shown The corresponding command is given to the section, and the photographing mode is selected. The camera control unit is configured using a CPU (central processing unit) including a microprocessor or the like. The strobe mode selection switch 5 is a switch for selecting a light emission operation mode of the strobe unit 2 such as light emission / non-light emission, normal light emission / small light emission, and the like. Alternatively, a corresponding command is given to a strobe control unit (also built in the camera body B but not shown) associated therewith to select a strobe light emission mode. The camera control unit controls each unit of the camera to execute various operations such as photographing.
[0027]
The strobe unit 2 includes a light emitting tube 21, a reflector 22, a Fresnel plate 23, and a variable filter 24, as shown in FIG. The arc tube 21 is a strobe light source such as a xenon (xenon) discharge tube. The reflection plate 22 reflects light emitted to the rear of the arc tube 21 toward the front, and a parabolic mirror having a semi-elliptical surface or the like is used. The Fresnel plate 23 is an optical element that protects the front surface of the light emitting unit of the strobe unit 2 and diffuses the light emitted from the strobe unit 2 that is directly irradiated from the arc tube 21 and forward through the reflector 22. The variable filter 24 is inserted between the arc tube 21 and the Fresnel plate 23, transmits the illumination light of the strobe device radiated forward from the arc tube 21 and the reflection plate 22, and controls the transmitted light amount to the camera control unit. Alternatively, the optical filter can be variably controlled by a strobe control unit.
[0028]
In the configuration of FIG. 2, the variable filter 24 has a first polarizing plate 24a and a second polarizing plate 24b. The first polarizing plate 24a has, for example, a polarization direction along a vertical direction, that is, a vertical direction in a normal case. The second polarizing plate 24b is configured to be capable of variably adjusting the polarization direction. For example, from the same vertical direction as the first polarizing plate 24a, that is, the polarization direction along the vertical direction normally, the horizontal direction, that is, Normally, it can be relatively rotated about the irradiation optical axis in the range up to the polarization direction along the horizontal direction. If the polarization directions of the first polarizing plate 24a and the second polarizing plate 24b are the same, that is, the relative angle is 0 °, only light along this polarization direction is transmitted, and light having a polarization direction different from this polarization direction is transmitted. Is attenuated. At this time, the transmitted light amount of the variable filter 24 is the maximum transmitted light amount and is a value close to the transmitted light amount of only the single first polarizing plate 24a, but actually, the two polarizing plates 24a and 24b are Since the light passes through, the light transmitted as it is is slightly attenuated by the transmittance, and the attenuated light also increases the attenuation rate, so that the amount of transmitted light is lower than in the single case. If the polarization directions of the first polarizing plate 24a and the second polarizing plate 24b are different from each other by 90 °, the light is blocked as much as possible, and the transmitted light is most attenuated. At this time, the transmitted light amount of the variable filter 24 is minimized. Therefore, if the relative rotation angle of the second polarizing plate 24b with respect to the first polarizing plate 24a is changed in the range of 0 to 90 °, the transmission between the maximum transmitted light amount and the minimum transmitted light amount is performed. The light quantity changes continuously (the above corresponds to claim 1, claim 2, claim 8 and claim 9).
[0029]
FIG. 3 is an operation block diagram schematically showing an operation flow of the camera with a flash of FIG.
At the time of photographing, the user operates the photographing mode selection switch 4 (step # 1), selects the macro photographing mode (step # 1A), and operates the strobe mode selection switch 5 (step # 2). Is selected (step # 2A), turning on the release switch 3 (step # 3) causes the camera to operate as follows.
First, the object distance is measured (step # 4), and the measured distance data is processed (step # 5). As a result of the processing of the distance measurement data, the operation of the camera control unit (step # 6) drives the photographing lens 1 in accordance with the subject distance to perform focusing control, and also controls the rotation amount control unit in accordance with the subject distance. By the operation (Step # 7), the rotation amount of the second polarizing plate 24b of the variable filter 24 is controlled and set to a predetermined rotation angle. The rotation angle of the second polarizing plate 24b is set so that the smaller the shooting distance in macro shooting, the smaller the transmitted light amount and the smaller the irradiation light amount.
[0030]
On the other hand, when the release switch 3 is turned on, exposure data such as the brightness of the subject is obtained (step # 8), and the automatic exposure (AE) process is controlled (step # 9). As a result of the automatic exposure control process, the aperture of the camera is controlled by the operation of the camera control unit (step # 6) to make the exposure appropriate, and the operation of the light amount control unit (step # 10) reduces the light emission amount of the arc tube 21. It controls and weakens the amount of light as weak light emission.
In this way, when an external light source is required during macro shooting, the strobe unit already provided in the camera can be used to achieve better shooting even when the ambient light amount in the shooting situation is low. Condition can be provided. At this time, a mechanism for appropriately adjusting the light amount is provided only in the strobe unit. In this configuration, in addition to controlling the amount of light emitted from the light emitting tube 21 of the strobe unit to a small amount in accordance with the brightness of the subject, the amount of transmitted strobe light in accordance with the distance to the subject during macro shooting is controlled. Can be adjusted appropriately. For this reason, there is no failure that an image is shot due to an excessive amount of strobe light at a short distance and the image is overexposed and fly white. In addition, shooting with a more appropriate light amount becomes possible, and high quality macro shooting becomes possible.
[0031]
In the first embodiment, two polarizing plates 24a and 24b are used, and the relative rotation angle of the second polarizing plate 24b with respect to the first polarizing plate 24a is controlled in association with the distance to the subject. Macro photography with appropriate strobe illumination can be realized with a simple configuration of adjusting the amount of transmitted light, so that it is easy to implement without increasing the size of a camera, especially a photographic lens barrel. . Further, in the configuration of this embodiment, it is not necessary to add a new mechanism to the conventional lens barrel inside the lens barrel of the taking lens. Therefore, the present invention can be easily applied to a camera having a conventional configuration without increasing the size of the lens barrel of the photographing lens 1 or increasing the cost of the lens barrel.
[0032]
FIGS. 4 and 5 show a configuration of a main part of a camera with a strobe light according to a second embodiment of the present invention. FIG. 4 is a perspective view schematically showing an external configuration of a camera with a flash, and FIG. 5 is an exploded perspective view schematically showing a configuration of an optical system near a light emitting portion of a flash unit of the camera with a flash.
The camera with a flash shown in FIG. 4 includes the same photographic lens 1, release switch 3, shooting mode selection switch 4 and flash mode selection switch 5 as those in FIG. 1, and a flash unit slightly different from the flash unit 2 in FIG. 6 is provided.
In this case, the strobe mode selection switch 5 is a switch for selecting a light emission operation mode of the strobe unit 6 such as light emission / non-light emission, normal light emission / small light emission, and the like. A corresponding command is given to the camera control unit or a strobe control unit associated therewith (also built in the camera body B but not shown), and the strobe light emission mode is selected.
[0033]
As shown in FIG. 5, the strobe unit 6 includes a light emitting tube 61, a reflecting plate 62, and a Fresnel plate 63 similar to the light emitting tube 21, the reflecting plate 22, and the Fresnel plate 23 of FIG. The filter 24 includes a variable filter 64 composed of a liquid crystal filter having a different method of controlling the light transmission characteristics of the filter. The variable filter 64 is inserted between the arc tube 61 and the Fresnel plate 63, transmits the light emitted from the strobe device radiated forward from the arc tube 61 and the reflection plate 62, and controls the transmitted light amount to the camera control unit. Alternatively, the optical filter can be variably controlled by a strobe control unit.
In the configuration of FIG. 5, the variable filter 64 has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the vertical direction in this case, as shown in FIG. The transmitted light amount is controlled as being selectively effective as in (a) to (d) so that the distribution density of the effective segments changes. For example, in FIG. 6, (a) shows a state in which all segments are invalid and the amount of transmitted light is maximum, and (b) shows a state in which 1/3 of the segments are uniformly distributed in the horizontal direction to be effective. (C) is a state where a half of the segments are distributed uniformly in the horizontal direction and the effective amount of transmitted light is slightly small, and (d) is a state where the 2/3 of the segments are horizontally distributed. This is a state in which the amount of transmitted light that is uniformly distributed and effective is the smallest.
[0034]
Therefore, if a large number of segments are changed as shown in FIGS. 6A to 6D, the amount of transmitted light changes stepwise between them (the above are claims 1, 3 and 5). Claim 8 and Claim 10).
FIG. 7 is an operation block diagram schematically showing an operation flow of the camera with a flash of FIG.
At the time of photographing, the user operates the photographing mode selection switch 4 (step # 11), selects the macro photography mode (step # 11A), and operates the strobe mode selection switch 5 (step # 12). Is selected (step # 12A), turning on the release switch 3 (step # 13) causes the camera to operate as follows.
[0035]
First, the object distance is measured (step # 14), and the measured distance data is processed (step # 15). As a result of the processing of the distance measurement data, the operation of the camera control unit (step # 16) drives the photographing lens 1 in accordance with the subject distance to perform focusing control, and also controls the liquid crystal segment pattern control unit in accordance with the subject distance. The operation (step # 17) controls and drives the liquid crystal panel of the variable filter 64 to set a segment pattern corresponding to a predetermined transmitted light amount. Note that the segment pattern is set such that the effective segment is increased, the transmitted light amount is limited, and the irradiation light amount is reduced as the shooting distance becomes shorter during macro shooting.
On the other hand, when the release switch 3 is turned on, exposure data such as the brightness of the subject is obtained (step # 18), and the automatic exposure (AE) process is controlled (step # 19). As a result of the automatic exposure control processing, the aperture of the camera is controlled by the operation of the camera control unit (step # 16) to make the exposure appropriate, and the light emission amount of the arc tube 61 is controlled by the operation of the light amount control unit (step # 20). It controls and weakens the amount of light as weak light emission.
[0036]
In this way, when an external light source is required during macro shooting, the strobe unit already provided in the camera can be used to achieve better shooting even when the ambient light amount in the shooting situation is low. Condition can be provided. At this time, only the strobe unit is provided with a variable filter 64 composed of a liquid crystal panel for appropriately adjusting the amount of light. In this configuration, in addition to controlling the amount of light emitted from the light emitting tube 61 of the strobe unit to a small amount in accordance with the brightness of the object, the amount of transmitted strobe light in accordance with the distance to the object during macro shooting is controlled. Can be adjusted appropriately. For this reason, there is no failure that an image is shot due to an excessive amount of strobe light at a short distance and the image is overexposed and fly white. In addition, shooting with a more appropriate light amount becomes possible, and high quality macro shooting becomes possible.
In the second embodiment, a variable filter 64 composed of a liquid crystal panel divided into a plurality of strip-like segments extending in the vertical direction is used, and the distribution density of the effective segments in the horizontal direction is changed. 6 (a) to 6 (d), it is possible to realize macro photography by appropriate strobe lighting with a simple configuration in which the amount of transmitted light is selectively enabled as shown in FIGS. It can be easily implemented without increasing the size of the lens barrel and the like.
[0037]
In addition, the configuration of the variable filter 64 according to the second embodiment does not require a mechanically movable part, so that the configuration is simple and can be easily implemented. Further, in the configuration of this embodiment, it is not necessary to add a new mechanism to the conventional lens barrel inside the lens barrel of the taking lens. Therefore, the present invention can be easily applied to a camera having a conventional configuration without increasing the size of the lens barrel of the photographing lens 1 or increasing the cost of the lens barrel.
In addition, the second embodiment is advantageous in terms of the light distribution characteristics of the strobe light, for example, when the position of the light emitting unit of the strobe unit 6 is located above the taking lens 1. However, since the strobe light distribution characteristics also depend on the shape of the Fresnel plate 63, the angle of the reflector 62, the shape of the arc tube 61, and the like, the direction of the segment is determined only by the position of the light emitting portion of the strobe unit 6 with respect to the photographing lens 1. Is not limited.
[0038]
As shown in FIG. 6, the variable filter 64 using a liquid crystal panel is divided into a number of strip-shaped segments extending in the vertical direction, and the number of segments is changed so that the distribution density of effective segments in the horizontal direction changes. The variable filter 64 'using a liquid crystal panel divided into a large number of strips extending in the horizontal direction as shown in FIGS. 8A to 8D is not limited to the segment pattern that is selectively effective. May be provided. That is, the number of segments is selectively enabled as shown in FIGS. 8A to 8D so that the distribution density of the effective segments in the vertical direction changes, and the amount of transmitted light is controlled. For example, in FIG. 8, (a) shows a state where all the segments are invalid and the amount of transmitted light is maximum, and (b) shows a state where the amount of transmitted light which is effective by distributing 1/3 of the segments uniformly in the vertical direction. (C) is a state where a half of the segments are distributed uniformly in the vertical direction and the amount of transmitted light that is effective is somewhat small, and (d) is a state where the 2/3 of the segments are vertically distributed. This is a state in which the amount of transmitted light that is uniformly distributed and effective is the smallest. Therefore, if a large number of segments are changed as shown in FIGS. 8A to 8D, the amount of transmitted light changes stepwise between them (the above are claims 1, 4 and 5). (Corresponding to claim 8 and claim 11).
[0039]
Alternatively, as shown in Fig. 9, the variable filter 64 "may have a configuration in which a liquid crystal panel is divided into a number of vertical and horizontal matrix-shaped segments. 9 (a) to 9 (d) to selectively control the amount of transmitted light, for example, in FIG. (B) is a state in which the amount of transmitted light that is effective by distributing a very small portion of the segments almost uniformly is somewhat large, and (c) is effective by distributing a relatively large number of segments almost uniformly. The transmitted light amount is a little small, and (d) is a state in which more segments are distributed almost uniformly and the effective transmitted light amount is the smallest. If a large number of segments are changed as shown in FIGS. 9A to 9D, the amount of transmitted light changes stepwise between them (the above is the case of claims 1, 5, and 5). (Corresponding to claim 8 and claim 12).
[0040]
FIG. 10 is an operation block diagram schematically showing an operation flow of the camera with a strobe according to the third embodiment of the present invention. In this case, the configuration of the camera with a strobe is almost the same as that shown in FIGS. 4 and 5, and as shown in FIG. 10, the strobe unit 7 includes an arc tube 71, a reflector 72, a Fresnel plate 73 and a variable It has a filter 74. The variable filter 74 is of a type that relatively controls the rotation of one of the two polarizing plates like the variable filter 24 of FIG. 2, or the variable filters 64 and 64 ′ shown in FIGS. 5, 6, 8, and 9. And 64 ″, which is selectively activated by using a liquid crystal panel divided into a plurality of segments. In the camera with a flash according to the third embodiment, macro photography is not performed. In the normal photographing mode, the variable filter 74 is disabled and controlled so as not to limit the transmitted light of the strobe so as to eliminate the influence on the photographing (corresponding to claims 6 and 13).
[0041]
Next, the operation block diagram of FIG. 10 will be described.
After the photographing is started, the user operates the photographing mode selection switch 4 (step # 21), selects the macro photographing mode, and operates the strobe mode selection switch 5 (step # 22) to use the strobe. Is selected, the strobe is turned on (step # 22A) and the release switch 3 is turned on (step # 23), and the camera operates as follows.
First, the object distance is measured (step # 24), and the measured distance data is processed (step # 25). As a result of the processing of the distance measurement data, the photographing control operation (step # 26) of the camera control unit drives the photographing lens 1 in accordance with the subject distance to perform focusing control, and performs the polarization plate rotation in accordance with the subject distance. The variable filter 74 is controlled and driven by a variable control operation (step # 27) for the variable filter 74 by dynamic control or liquid crystal segment pattern control, and is set to a predetermined transmitted light amount. On the other hand, with the ON operation of the release switch 3, exposure data such as the brightness of the subject is acquired (step # 28), and the automatic exposure (AE) process is controlled (step # 29). As a result of the automatic exposure control processing, the aperture of the camera is controlled by the operation of the camera control unit (step # 26) to make the exposure appropriate, and the variable filter 74 is controlled by the variable control operation (step # 27) to control the irradiation. adjust.
[0042]
On the other hand, after the start of photographing, the user operates the photographing mode selection switch 4 (step # 21), selects the normal photographing mode, and operates the strobe mode selection switch 5 (step # 31) to use the strobe. If the user selects to perform the operation, the release switch 3 is turned on (step # 33), the object distance is measured (step # 34), and the distance measurement data is processed (step # 35). On the other hand, in response to the ON operation of the release switch 3, exposure data such as the brightness of the subject is obtained (step # 37), and the automatic exposure (AE) process is controlled (step # 38). Based on the result of the automatic exposure control processing and the result of the processing of the distance measurement data, the process shifts to shooting by a shooting control operation (step # 36) in which the irradiation light of the strobe unit 7 is not limited by the variable filter 74 or the like.
[0043]
After the start of shooting, the user operates the shooting mode selection switch 4 (step # 21), selects the normal shooting mode, and operates the strobe mode selection switch 5 (step # 31) to use the strobe. If not, and the user operates the photographing mode selection switch 4 (step # 21), selects the macro photographing mode, and operates the strobe mode selection switch 5 (step # 31). If you choose not to use, turn off the strobe. In this state, when the release switch 3 is turned on (step # 33), the same operation as in the case of using the strobe in the normal shooting described above is performed.
That is, the object distance is measured (step # 34), and the measured distance data is processed (step # 35). On the other hand, in response to the ON operation of the release switch 3, the exposure data such as the brightness of the object is obtained. Is obtained (step # 37), and the automatic exposure (AE) process is controlled (step # 38). Based on the result of the automatic exposure control processing and the result of the processing of the distance measurement data, the process shifts to shooting by a shooting control operation (step # 36) in which the irradiation light of the strobe unit 7 is not limited by the variable filter 74 or the like.
[0044]
As described above, when the user selects the shooting in the normal shooting mode as the shooting mode after starting the shooting, the variable filter provided in the strobe unit 7 is used regardless of whether the strobe is used or not. Reference numeral 74 performs photographing control that does not limit strobe transmitted light. In addition, even if the user selects the macro shooting mode and does not use the strobe after the start of the shooting, the variable filter 74 provided in the strobe unit 7 performs the shooting control without limiting the strobe transmitted light. Do. This has little meaning in actual photographing, but it is often possible to reduce power consumption and the like by disabling the variable filter 74, and it is possible to quickly shift to the next normal photographing. There is an advantage. When the user selects the macro shooting mode and uses the strobe after the start of the shooting, the variable filter 74 provided in the strobe unit 7 controls the rotation of the polarizing plate or the rotation of the polarizing plate during the shooting control. Controls the liquid crystal pattern.
[0045]
In this way, when an external light source is required during macro shooting, the strobe unit already provided in the camera can be used to achieve better shooting even when the ambient light amount in the shooting situation is low. Shooting under conditions can be performed. At this time, only the strobe unit is provided with the variable filter 74 for appropriately adjusting the light amount. In this configuration, the amount of transmitted strobe light can be appropriately adjusted according to the brightness of the subject and the distance to the subject during macro shooting. Therefore, the failure of overexposure due to the excessive light amount of the strobe light at a short distance is eliminated, and moreover, photographing with a more appropriate light amount becomes possible, and high quality macro photographing becomes possible.
The configuration and control of the camera with a flash according to the first and second embodiments are necessary only when shooting with a flash at the time of macro shooting. In the flash shooting at a normal distance, the light amount of the flash light is used. No restrictions are required. Therefore, in the camera with a flash according to the third embodiment, the above-described limitation of the light amount of the flash light does not work during normal shooting. By doing so, it is possible to perform shooting comparable to that of a conventional camera without running out of light during normal flash shooting.
[0046]
FIGS. 11 to 13 show a configuration of a main part of a camera with a strobe according to a fourth embodiment of the present invention. FIG. 11 is a perspective view schematically showing an external configuration of a camera with a strobe, and FIGS. 12 and 13 are exploded views schematically showing a configuration of an optical system near a light-emitting portion of a flash unit of the camera with a strobe in different states. It is a perspective view. FIG. 12 shows a state where the filter unit is retracted from the irradiation light path, and FIG. 13 shows a state where the filter unit is inserted into the irradiation light path.
The camera with a strobe shown in FIG. 11 includes a photographic lens 1, a release switch 3, a photographic mode selection switch 4 and a strobe mode selection switch 5 similar to those in FIG. 4, and is slightly different from the strobe unit 6 in FIGS. A different strobe unit 8 is provided, and a filter selection switch 9 is further provided.
In this case, the strobe mode selection switch 5 is a switch for selecting a light emission operation mode such as light emission / non-light emission of the strobe unit 8, and by operating the strobe mode selection switch 5, the camera control unit or the camera control unit is linked. A corresponding command is given to a strobe control unit (also built in the camera body B but not shown) to select a strobe light emission mode.
[0047]
As shown in FIG. 12, the strobe unit 8 includes an arc tube 81, a reflection plate 82, and a Fresnel plate 83 similar to the arc tube 61, the reflection plate 62, and the Fresnel plate 63 of FIG. 5, respectively. A filter unit 84 different from the filter 64 is provided. The filter unit 84 is disposed between the arc tube 81 and the Fresnel plate 83 so as to be insertable, and transmits the irradiation light of the strobe device radiated forward from the arc tube 81 and the reflection plate 82 and controls the transmitted light. It has a function to do. The filter unit 84 is integrally formed of a variable filter 84a, which is an optical filter capable of changing the amount of transmitted light, which is substantially the same as the variable filter 24 in FIG. 2 and the variable filter 64 in FIG. 5, and a diffusion plate 84b for diffusing incident light. The filter unit 84 is provided so as to be inserted / retracted into the irradiation optical path in the strobe unit 8. FIG. 12 shows a state where the filter unit 84 is retracted from the irradiation light path, and FIG. 13 shows a state where the filter unit 84 is inserted on the irradiation light path. The filter selection switch 9 is a switch for selecting insertion / retreat of the filter unit 84 into the irradiation optical path. In this case, by operating the filter selection switch 9, the filter unit 84 including the variable filter 84a and the diffusion plate 84b is integrally operated, and the filter unit inserted into the irradiation optical path for macro photography and when using a strobe. 84 is retracted from the irradiation optical path during normal photographing (corresponding to claims 7 and 14).
[0048]
FIG. 14 is an operation block diagram schematically showing an operation flow of the camera with a flash in FIG. 11 (to FIG. 13).
After the photographing is started, the user operates the photographing mode selection switch 4 (step # 41), selects the macro photographing mode, and operates the strobe mode selection switch 5 (step # 42) to use the strobe. Is selected, the strobe is turned on (step # 43), and the use of the filter by operating the filter selection switch 9 is determined (step # 44). If the use of the filter is selected, As shown in FIG. 13, the filter unit 84 is inserted on the irradiation light path (step # 45). In this state, by turning on the release switch 3 (step # 46), the photographing operation as described above (for example, step # 14 to step # 20 in FIG. 7, or step # 24 to step # in FIG. 10). 29 etc.) (step # 47). Then, the filter unit 84 is retracted from the irradiation light path (step # 48), and it is determined whether or not the macro shooting mode should be canceled by selecting the shooting mode (step # 49). Shifts to the selection of the shooting mode in step # 41 and waits. If the macro mode is not canceled in step # 49, the flow shifts to selection of use of the strobe in step # 42.
[0049]
On the other hand, in the photographing mode selection in step # 41, if the normal photographing mode is selected, the use of the strobe is determined (step # 51). If the use of the strobe is selected, the strobe is used. When the shutter switch is turned on (step # 52) and the release switch 3 is turned on (step # 53), strobe photographing is performed with the filter unit 84 retracted from the illumination optical path as shown in FIG. 12 (step # 53). 54). After the photographing is completed, the process shifts to the selection of the photographing mode in step # 41 and waits.
If it is determined in step # 51 that the strobe is not used in step S51, the strobe is turned off (step # 55) and the release switch 3 is turned on (step # 53). In step # 54, normal photographing without using a flash is performed in a state where the filter unit 84 is retracted from the illumination light path as shown in FIG. After the photographing is completed, the process shifts to the selection of the photographing mode in step # 41 and waits.
[0050]
Further, in the photographing mode selection of step # 41, in the state where the macro mode is selected, the selection of the use of the strobe is determined in step # 42, and when the use of the strobe is not selected, the strobe is turned off. By turning on the release switch 3 (step # 55) (step # 53), in step # 54, macro shooting is performed with the filter unit 84 retracted from the illumination light path. After the photographing is completed, the process shifts to the selection of the photographing mode in step # 41 and waits.
As described above, when the normal photographing mode is selected in the photographing mode selection in step # 41, the filter unit 84 retreats from the irradiation light path of the strobe unit 8 regardless of the use of the strobe. Also, when the macro shooting mode is selected in the shooting mode selection in step # 41 and the strobe is not used in step # 42, the filter unit 84 retreats from the irradiation light path in the strobe unit 8.
[0051]
If the macro photography mode is selected in the photography mode selection in step # 41 and the use of the strobe is selected in step # 42, the filter unit 84 is used by the filter selection switch 9 in step # 44. It is determined whether or not to use the filter unit 84, and when the use of the filter unit 84 is selected, the filter unit 84 is inserted into the irradiation optical path of the strobe unit 8. After the photographing, in step # 48, the filter unit 84 retreats from the irradiation optical path of the strobe, and in step # 49, it is determined whether or not to release the macro photographing mode.
Note that, here, when the use of the strobe is selected after the macro shooting mode is selected, whether or not to use the filter unit 84 is selected. For example, after the macro shooting mode is selected, the use of the strobe is selected. In such a case, the selection of the use or non-use of the filter unit 84 may be omitted, and the camera may be operated to automatically insert the filter unit 84.
[0052]
By integrating a variable filter 84a capable of adjusting the amount of strobe light similar to that described in each of the above-described embodiments with a diffusion plate 84b, a problem may occur when shooting using a strobe during macro shooting. This makes it possible to prevent unevenness in the light amount, thereby enabling more appropriate photographing. In addition, when performing ordinary flash photography, the variable filter 84a and the diffusion plate 84b cause a reduction in the amount of irradiation light. Therefore, it is advantageous that the variable filter 84a and the diffusion plate 84b are not present on the irradiation light path of the flash for long-distance photography. . Therefore, in such a case, by retracting the filter unit 84 from the irradiation light path of the strobe, the strobe light can be sufficiently reached even at a long-distance shooting, and appropriate shooting can be realized even in the normal shooting. Can be.
As described above, by appropriately adjusting the amount of strobe light during macro shooting near the strobe, appropriate strobe macro shooting is realized. The variable filter for adjusting the irradiation light amount can be controlled and adjusted in a plurality of stages, and the flash irradiation light amount at the time of macro shooting can be controlled only by the variable filter. Therefore, since there is no need to provide a complicated mechanism inside the photographing lens barrel or the like, there is no possibility that this will be a factor that hinders downsizing of the photographing lens barrel.
In the vicinity of the strobe device, the above-described configuration is relatively easy to lay out and to provide, compared to the photographing lens barrel or its vicinity. Therefore, it contributes to shortening of the design period and, ultimately, cost reduction.
[0053]
【The invention's effect】
As described above, according to the present invention, a strobe-equipped camera capable of obtaining an appropriate subject light amount by strobe lighting during macro shooting without causing diffraction or the like and increasing the size of a shooting lens barrel. And a strobe light control device for a camera.
That is, according to the camera with a strobe of claim 1 of the present invention, in a camera with a strobe equipped with a strobe device for illuminating a subject and having a macro shooting function for taking a picture in close proximity to the subject, irradiation of a light emitting unit of the strobe device is performed. A variable filter inserted into the optical path and capable of limiting and adjusting the amount of transmitted light; and a filter control means for variably controlling the amount of light emitted to the subject by controlling the amount of transmitted light of the variable filter at least at the time of shooting by the macro shooting function. By doing so, it becomes possible to obtain an appropriate amount of subject light by strobe lighting during macro shooting without causing diffraction or the like and increasing the size of the taking lens barrel. Strobe irradiation can be realized.
[0054]
According to the camera with a strobe of the second aspect of the present invention, the variable filter includes first and second polarizers inserted into an irradiation optical path of a light emitting unit of the strobe device, and the first and second polarizers. Relative rotation means for controlling at least one of the polarizing plates relative to the optical axis of the irradiation optical path in the vicinity of the optical axis to control the amount of transmitted light, thereby controlling the amount of strobe irradiation very flexibly. Becomes possible.
According to the camera with a strobe of claim 3 of the present invention, the variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the vertical direction, and the plurality of segments are defined as horizontal effective segments. By including a liquid crystal filter that controls the amount of transmitted light, which is selectively effective so that the distribution density changes, it is possible to control the amount of light emitted from the strobe with a simple configuration and without the need for mechanically movable parts. It becomes.
According to the camera with a strobe of claim 4 of the present invention, the variable filter has a liquid crystal panel divided into a plurality of strip-like segments extending in the horizontal direction, and the plurality of segments are formed as vertical effective segments. By including a liquid crystal filter that controls the amount of transmitted light, which is selectively effective so that the distribution density changes, it is possible to control the amount of light emitted from the strobe with a simpler structure and without the need for a mechanically movable part. It becomes possible.
[0055]
According to the camera with a strobe of claim 5 of the present invention, the variable filter has a liquid crystal panel divided into a number of segments in a two-dimensional matrix, and the number of segments is determined by a two-dimensional distribution density of effective segments. In particular, by including a liquid crystal filter that controls the amount of transmitted light, which is selectively effective so as to change, it is possible to more flexibly control the amount of light emitted from the strobe with a simple configuration and without the need for mechanically movable parts. It becomes possible.
According to the camera with a strobe of claim 6 of the present invention, the filter control means limits the amount of transmitted light by applying the variable filter only at the time of shooting by the macro shooting function, and at the time of shooting without using the macro shooting function. By including the means that does not allow the variable filter to act, it is possible to reduce the effects particularly during shooting other than macro shooting.
[0056]
According to the camera with a strobe of claim 7 of the present invention, the camera further includes a diffusion plate for diffusing incident light, and the variable filter is integrated with the diffusion plate with respect to an irradiation optical path of a light emitting unit of the strobe device. The variable filter and the diffuser are inserted / removed from the irradiation optical path so that the variable filter and the diffusion plate are retracted from the irradiation optical path when the macro photographing function is not used. By including the insertion / removal operation means for selecting the evacuation, it is possible to effectively avoid the influence at the time of photographing other than the macro photographing, especially when there is a diffusion plate inserted / removed in the irradiation optical path of the strobe device. Becomes possible.
Further, according to the strobe light control apparatus for a camera of the eighth aspect of the present invention, the strobe light control for adjusting and controlling the irradiation light of the strobe device for illuminating the subject by using the camera having a macro shooting function for shooting a close subject. In the light control device, a variable filter that is inserted into an irradiation light path of a light emitting unit of the strobe device and that can limit and adjust a transmitted light amount, and controls a transmitted light amount of the variable filter at least during photographing by the macro photographing function of the camera. Filter control means for variably controlling the amount of light applied to the object to obtain an appropriate amount of object light by strobe lighting during macro shooting without causing diffraction or the like and increasing the size of the taking lens barrel. In particular, strobe irradiation with the appropriate amount of light during macro shooting can be realized. To become.
[0057]
According to the strobe dimming control device for a camera of the ninth aspect of the present invention, the variable filter includes a first and a second polarizing plate inserted into an irradiation optical path of a light emitting unit of the strobe device; A relative rotation means for rotating at least one of the first and second polarizers around the optical axis of the irradiation optical path as an axis to control the amount of transmitted light makes it possible to make the amount of light emitted from the strobe extremely flexible. Can be controlled.
According to the strobe dimming control device for a camera according to claim 10 of the present invention, the variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the vertical direction, and Including a liquid crystal filter that controls the amount of transmitted light, which is selectively effective so that the distribution density of the effective segments of the strobe changes, the strobe irradiation light can be controlled with a simple configuration and without the need for a mechanically movable part. It is possible to do.
[0058]
According to the strobe light control device for a camera according to claim 11 of the present invention, the variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the horizontal direction, and Including a liquid crystal filter that controls the amount of transmitted light, which is selectively effective so that the distribution density of effective segments of the strobe changes, the strobe irradiation light amount can be reduced, particularly with a simpler configuration and without the need for mechanically movable parts. It becomes possible to control.
According to the strobe light control device for a camera of the twelfth aspect of the present invention, the variable filter has a liquid crystal panel divided into a large number of segments in a two-dimensional matrix, and the large number of segments are defined as effective segments. Including a liquid crystal filter that controls the amount of transmitted light, which is selectively effective so that the two-dimensional distribution density changes, makes it possible to more flexibly reduce the amount of light emitted from the strobe with a simple configuration and without the need for a mechanically movable part. Fine control is possible.
[0059]
According to the camera flash control device of the thirteenth aspect of the present invention, the filter control means limits the amount of transmitted light by applying the variable filter only at the time of photographing by the macro photographing function. By including a unit that does not allow the variable filter to operate during shooting without using, it is possible to reduce the influence particularly during shooting other than macro shooting.
According to the flash light control device for a camera of claim 14 of the present invention, the flash light control device further includes a diffusion plate for diffusing incident light, and the variable filter is configured to control the diffusion light path with respect to an irradiation optical path of a light emitting unit of the flash device. The irradiation of the variable filter and the diffusion plate is performed so that the variable filter and the diffusion plate are retracted from the irradiation optical path when the macro photographing function is not used. By including an insertion / removal operation means for selectively performing insertion / retraction with respect to the optical path, particularly in a case where a diffusion plate is inserted / removed into the irradiation optical path of the strobe device, it is possible to effectively reduce the influence during imaging other than macro imaging. Can be avoided.
[Brief description of the drawings]
FIG. 1 is a perspective view schematically showing an external configuration of a camera with a flash according to a first embodiment of the present invention.
FIG. 2 is an exploded perspective view schematically showing a configuration of an optical system near a light emitting unit of the strobe device of the camera with a strobe of FIG.
FIG. 3 is an operation block diagram schematically showing an operation flow of the camera with a flash in FIG. 1;
FIG. 4 is a perspective view schematically showing an external configuration of a camera with a flash according to a second embodiment of the present invention.
5 is an exploded perspective view schematically showing a configuration of an optical system in the vicinity of a light emitting unit of the strobe device of the camera with a strobe of FIG.
6 is a diagram schematically showing a segment drive pattern of a liquid crystal filter provided in the vicinity of a light emitting portion of the strobe device of the camera with a strobe in FIG.
FIG. 7 is an operation block diagram schematically showing an operation flow of the camera with a strobe light of FIG. 4;
8 is a diagram schematically showing another segment drive pattern of a liquid crystal filter provided near the light emitting portion of the strobe device of the camera with a strobe in FIG.
9 is a diagram schematically showing another segment drive pattern of a liquid crystal filter provided near the light emitting portion of the strobe device of the camera with a strobe in FIG.
FIG. 10 is an operation block diagram schematically showing an operation flow of a camera with a strobe according to a third embodiment of the present invention.
FIG. 11 is a perspective view schematically showing an external configuration of a camera with a strobe according to a fourth embodiment of the present invention.
12 is an exploded perspective view schematically showing a configuration of an optical system in the vicinity of a light emitting unit of the strobe device of the camera with a strobe of FIG. 11 in a state where a filter and a diffusion plate are retracted from an irradiation optical path.
13 is an exploded perspective view schematically illustrating a configuration of an optical system in the vicinity of a light emitting unit of the strobe device of the camera with a strobe of FIG. 11 in a state where a filter and a diffusion plate are inserted into an irradiation optical path.
FIG. 14 is an operation block diagram schematically showing an operation flow of the camera with a flash in FIG. 11;
[Explanation of symbols]
1 Shooting lens
2,6.7,8 Strobe unit (strobe device)
3 Release switch
4 Shooting mode selection switch
5 Strobe mode selection switch
21,61,71,81 Arc tube
22, 62, 72, 82 reflector
23, 63, 73, 83 Fresnel plate
24, 64, 74, 84a Variable filter
24a, 24b Polarizing plate
84b Diffusing plate
84 Filter unit
B camera body

Claims (14)

In a camera with a strobe equipped with a strobe device for illuminating the subject and having a macro shooting function for taking a picture in close proximity to the subject,
A variable filter that is inserted into the irradiation light path of the light emitting unit of the strobe device and that can limit and adjust the amount of transmitted light;
A camera with a strobe, comprising: a filter control means for variably controlling the amount of light transmitted to the subject by controlling the amount of light transmitted through the variable filter at least at the time of photographing by the macro photographing function. The variable filter,
First and second polarizers inserted into an irradiation optical path of a light emitting unit of the strobe device;
2. A relative rotation means for relatively rotating at least one of the first and second polarizing plates around an optical axis of the irradiation optical path as an axis to control the amount of transmitted light. Camera with strobe as described. The variable filter has a liquid crystal panel divided into a number of vertically extending strip-shaped segments, and selectively transmits the plurality of segments so as to change the distribution density of the effective segments in the horizontal direction. The strobe-equipped camera according to claim 1, further comprising a liquid crystal filter for controlling a light amount. The variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the horizontal direction, and selectively transmits the plurality of segments so as to change the distribution density of the effective segments in the vertical direction. The strobe-equipped camera according to claim 1, further comprising a liquid crystal filter for controlling a light amount. The variable filter has a liquid crystal panel divided into a large number of segments in a two-dimensional matrix, and selectively activates the large number of segments so that the two-dimensional distribution density of effective segments changes, thereby reducing the amount of transmitted light. The strobe-equipped camera according to claim 1, further comprising a liquid crystal filter for controlling. The filter control means includes means for applying the variable filter only at the time of photographing by the macro photographing function to limit the amount of transmitted light, and not applying the variable filter at the time of photographing without using the macro photographing function. A strobe-equipped camera according to any one of claims 1 to 5. A diffusing plate for diffusing incident light; and the variable filter is provided so as to be able to insert / retreat with the diffusing plate integrally with an irradiation optical path of a light emitting unit of the strobe device,
Further, in order to retract the variable filter and the diffusion plate from the irradiation optical path when the macro photographing function is not used, an insertion / removal operation unit for selectively performing insertion / retraction of the variable filter and the diffusion plate with respect to the irradiation optical path is included. The strobe-equipped camera according to any one of claims 1 to 6, wherein: In a strobe light control device that adjusts and controls irradiation light of a strobe device that illuminates a subject using a camera having a macro shooting function for shooting a close subject,
A variable filter that is inserted into the irradiation light path of the light emitting unit of the strobe device and that can limit and adjust the amount of transmitted light;
A strobe light control device for a camera, comprising: a filter control means for controlling the amount of light transmitted through the variable filter to variably control the amount of light applied to the subject at least at the time of photographing by the macro photographing function of the camera. . The variable filter,
First and second polarizers inserted into an irradiation optical path of a light emitting unit of the strobe device;
2. A relative rotation means for relatively rotating at least one of the first and second polarizing plates around an optical axis of the irradiation optical path as an axis to control the amount of transmitted light. A flash light control device for a camera according to the above. The variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the vertical direction, and selectively transmits the plurality of segments so that the distribution density of the effective segments in the horizontal direction changes. 9. The strobe light control device for a camera according to claim 8, further comprising a liquid crystal filter for controlling a light amount. The variable filter has a liquid crystal panel divided into a plurality of strip-shaped segments extending in the horizontal direction, and selectively transmits the plurality of segments so as to change the distribution density of the effective segments in the vertical direction. 9. The strobe light control device for a camera according to claim 8, further comprising a liquid crystal filter for controlling a light amount. The variable filter has a liquid crystal panel divided into a large number of segments in a two-dimensional matrix, and selectively activates the large number of segments so that the two-dimensional distribution density of the effective segments changes to reduce the amount of transmitted light. 9. The strobe light control device for a camera according to claim 8, further comprising a liquid crystal filter for controlling. The filter control means includes means for applying the variable filter only at the time of photographing by the macro photographing function to limit the amount of transmitted light, and not applying the variable filter at the time of photographing without using the macro photographing function. A flash light control device for a camera according to claim 8. A diffusing plate for diffusing incident light; and the variable filter is provided so as to be able to insert / retreat with the diffusing plate integrally with an irradiation optical path of a light emitting unit of the strobe device,
Further, in order to retract the variable filter and the diffusion plate from the irradiation optical path when the macro photographing function is not used, an insertion / removal operation unit for selectively performing insertion / retraction of the variable filter and the diffusion plate with respect to the irradiation optical path is included. The strobe light control device for a camera according to any one of claims 8 to 13, characterized in that:

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