JP4126153B2 - camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera equipped with an LCD monitor and capable of macro photography, and more particularly, to a camera capable of macro photography with good image quality without increasing the number of components and complicating the configuration.
[0002]
[Prior art]
When shooting with a camera using an illumination light source such as a strobe mounted on the camera body, if the subject is located, for example, 30 cm or more away from the taking lens, the subject is within the light distribution range from the illumination light source. However, in macro photography (close-up photography) where the subject is photographed at a distance closer than the above distance, it is difficult to irradiate light from the illumination light source over the entire photographing range. The image quality is degraded.
In macro photography using various cameras, the distance from the subject to the camera's taking lens is extremely short compared to normal photography. Taking a general camera as an example, the distance is usually 30 cm to infinity in normal shooting, but there are products in which the closest shooting distance is 1 cm in macro shooting. In that case, since it becomes difficult for external light to hit the surface of the subject to be macro-photographed, there may be a case where sufficient light does not enter the surface of the subject. There are also many scenes where people are not blessed with sufficient outside light, such as when shooting indoors. If you say so, there are many cases where you want an illumination light source for macro photography.
Note that an illumination device for macro photography using an external accessory has already been commercialized as a well-known device and is also sold for general use. However, when these are actually used, the dimensions are large, and there are connection cables for connecting the camera body and the lighting device, and the handling is very complicated. Also, the price is not that cheap.
Japanese Patent Laid-Open No. 11-218809, “Close-up Strobe Adapter” (Goko International Corporation, Inc.) is an external device that enables shooting with an appropriate light distribution when the strobe emits light at close range. A configuration is disclosed in which the strobe adapter is arranged so as to cover the light exit surface of the strobe (the adapter is attached to the strobe of the camera during shooting). However, it is inconvenient because it is complicated to attach a separate adapter each time macro shooting is performed, and it is necessary to carry and store the adapter.
[0003]
Next, Japanese Patent Application Laid-Open No. 10-48711 discloses a strobe device and camera that can tilt the light distribution direction toward the optical axis side of the taking lens during macro photography (Minolta Co., Ltd.). A technique is disclosed that is utilized as an illumination light source during macro photography by changing the angle of a strobe reflector during macro photography.
However, the strobe light is emitted at the moment of actual shooting, but is not emitted when the angle is determined immediately before shooting. Therefore, it becomes difficult to monitor while irradiating with sufficient illumination light. Further, at the time of shooting, there is a concern that strong strobe light as an illumination light source may be reflected on the subject surface, or a white stripe phenomenon may occur in which it is too bright to determine what the subject is.
Japanese Patent Application Laid-Open No. 10-313422 (electronic still camera) discloses a technique for guiding a backlight light source of an LCD monitor to an object surface with an optical fiber and utilizing it as an illumination light source. However, the configuration in which the backlight light of the LCD monitor is guided to the subject via another member such as an optical fiber has the disadvantage that the number of parts increases and the illumination efficiency decreases.
[0004]
[Problems to be solved by the invention]
The present invention has been made in view of the above, and is already provided in a camera without using a special accessory such as an adapter, increasing the number of components such as an optical fiber, and without substituting a strobe. The objective is to reduce costs by using functional products to realize an illumination light source for macro photography.
That is, in the present invention, an LCD monitor or the like having a backlight is used as a light source at the time of macro photography, so that an angle adjustment with respect to a subject can be performed at the time of macro photography while always illuminating the LCD monitor having a backlight. It is possible to check the light distribution status while performing. Further, since the strobe is not substituted, the amount of light at the time of shooting is not excessive, and the shooting quality is not deteriorated. Further, since the subject is directly illuminated without using an optical fiber or the like, the illumination efficiency is improved.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, the invention of claim 1 is a camera including a main body including a photographic lens and a display unit having a backlight unit, wherein the display unit includes:Horizontal direction of display surfaceThe central part of the photographic lens of the main bodyOn the same plane as the optical axis centerThe backlight of the display unit can be used as a light source for illumination during macro photography by rotating or swinging the display unit.
  The invention of claim 2 is characterized in that the display unit is detachable from the main body.
  According to a third aspect of the present invention, there is provided a camera including a main body having a photographing lens and a display unit having a backlight unit, wherein the display unit is provided on the main body so as to be slidable in a lateral direction. The display unitHorizontal center of the display surfaceThe shooting lens ofOn the same plane as the optical axis centerThe backlight of the display unit can be used as an illumination light source for macro photography.
  According to a fourth aspect of the present invention, the display unit includes a display unit main body and a backlight unit, and the backlight unit is rotatably supported with respect to the display unit main unit via a link unit. And
  According to a fifth aspect of the present invention, the display unit includes a display unit main body and a backlight unit, and the backlight unit is rotatably supported by a hinge with respect to the display unit main body.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings.
  FIGS. 1A to 1F are explanatory views showing the configuration and operation of a camera capable of macro photography according to an embodiment of the present invention.
  The camera 1 includes a camera body 2 having a photographing lens 3 on the front surface, a release button 4 and the like at an appropriate position on the upper surface, and a rectangular flat-plate LCD monitor swingably supported at an appropriate position on the upper portion of the camera body 2.(Display section)5 etc. The LCD monitor 5 can be swung in any direction by being pivotally supported in the lateral direction A and the vertical direction B by a pivotal support 10 provided immediately above the photographing lens 3 provided on the front end surface of the camera body 2. It is configured. The LCD monitor 5 has a liquid crystal display surface 6 that is illuminated by backlight light from the backlight unit.
  As shown in the enlarged front view of the main part of (e), the pivotal support portion 10 is a biaxial pivotal support mechanism comprising an axis A15 that allows rotation in the lateral direction A and an axis B16 that allows rotation in the vertical direction. Therefore, the projection 17 of the LCD monitor 5 is supported so as to be rotatable in the directions A and B.
  A storage recess 20 for storing the LCD monitor 5 is formed on the upper surface of the camera body 2. When the LCD monitor is not used or when the liquid crystal display surface 6 is set upward, the LCD 20 The monitor is rotated by the pivotal support portion 10 to fit the LCD monitor 5 in the recess 20. On the other hand, when the LCD monitor 5 is used as a monitor in a standing state, the LCD monitor is erected using the pivotal support portion 10 and directed in a desired direction, and then shooting is performed while viewing the display surface 6.
[0008]
Further, in the first embodiment of the present invention, when the subject 21 is macro-photographed as shown in the use state explanatory diagram of FIG. 2, the LCD monitor 5 is used to illuminate the subject 21 located in the field of view of the photographing lens 3. I use it. That is, without using a strobe with a large amount of light, the liquid crystal display surface 6 of the LCD monitor 5 is directed toward the subject 21, and light from the backlight unit having an appropriate amount of light is irradiated to adjust the angle with respect to the subject. It is possible to check the light distribution status while monitoring. Further, this backlight light can be used as an illumination light source during macro photography. The light from the strobe is excessive for the subject at the time of macro photographing, and the photographing image quality is deteriorated. However, the light from the backlight unit is optimal as the light amount at the macro photographing. The monitoring using the liquid crystal display surface 6 is performed while the photographer looks at the liquid crystal display surface 6 from the subject side, and the release button 4 is also operated in the same posture.
When the LCD monitor 5 stored in the storage recess 20 is moved to the posture shown in FIG. 2, the LCD monitor 5 is first erected using the axis B16 as shown in FIG. Then, as shown in (b) and (c), it is rotated in the horizontal direction using the axis A15, and then the liquid crystal display surface 6 is inclined downward so that the liquid crystal display surface 6 faces the subject 21 as shown in (d).
As described above, in the present embodiment, the LCD monitor having the backlight unit is used as the illumination light source at the time of macro photography. Therefore, when macro photography is performed, the display surface 6 is used as the subject with the pivot portion 10 as a fulcrum. The LCD monitor 5 is set to an appropriate position while adjusting the monitor surface so as to illuminate a subject to be photographed with the backlight portion brightened.
As described above, the illumination device (illumination light source) for macro photography used in the conventional camera is provided in the form of an accessory as an accessory, or has a built-in camera body. This is a dedicated illumination light source for macro photography. Therefore, it is a problem in terms of cost and space, and there is room for improvement.
Therefore, in the present invention, by utilizing the LCD monitor already provided as a functional product of the camera, it is possible to use a conventional functional product without taking the form of an external attachment in the form of an accessory. The function at the time of conventional macro photography can be realized at a cost-saving form without taking the cost.
[0009]
Furthermore, in the second embodiment of the present invention, as is apparent from FIG. 1 (f), the horizontal central portion L of the LCD monitor 5 having the backlight portion is set to the optical axis of the photographing lens 3 of the camera body 2. It is arranged so as to coincide with the portion (optical axis center) C, and can be used as an illumination light source for macro photography by rotating and swinging the LCD monitor 5.
The position of the LCD monitor 5 has the center L at a position corresponding to the optical axis C of the photographic lens 3, so that the best result can be obtained in efficiently illuminating the subject. Therefore, the layout is designed so that the center portion L of the liquid crystal display surface 6 comes to the same position as the optical axis portion C of the photographing lens 3 as shown in FIG. When the user performs macro shooting with the LCD monitor 5 having such a structure, as shown in FIG. 2, shooting is performed while observing the liquid crystal display surface 6 of the LCD monitor from the subject 21 side. Shooting settings can be made while observing stocks.
As described above, in the second embodiment of the present invention, since the central portion of the LCD monitor is positioned so as to coincide with the optical axis portion of the photographing lens 3 of the camera body 2, the illumination light source at the time of macro photographing is arranged. Therefore, it is possible to illuminate the subject as efficiently as possible, and it is possible to perform appropriate illumination during monitoring and macro photography.
[0010]
Next, FIG. 3 is an explanatory view of a camera capable of macro photography according to a third embodiment of the present invention, in which (a) is a perspective view from the front, and (b) is a partial sectional front view.
In a camera (hereinafter referred to as a camera) 1 capable of macro photography according to this embodiment, the LCD monitor 5 is supported by the camera body 2 so as to be slidable in the lateral direction, and at the center of the LCD monitor 5 during macro photography. L is configured to be movable to a position that coincides with the optical axis C of the photographic lens 3 provided on the front surface of the camera body 2, and further the LCD monitor is oscillated via a pivotal portion 10 comprising a biaxial oscillating mechanism. By doing so, it can be used as an illumination light source for macro photography.
That is, in the camera 1 having the LCD monitor 5, the LCD monitor 5 is not disposed at the central portion of the camera body 2 (the optical axis portion of the photographing lens) during normal photographing. Since the LCD monitor 5 is slid to the center of the photographing lens 3 as in the case of the embodiment, the display surface 6 of the LCD monitor can be swung in an arbitrary direction and directed to the subject. It can be used as an illumination device for macro photography.
It is desirable that the central portion L of the LCD monitor 5 used as an illumination light source at the time of macro photographing coincides with the photographing lens optical axis C of the camera body. However, there may be a case where the layout in which the central portion L of the liquid crystal display surface 6 is positioned on the optical axis C of the photographing lens 3 may not be taken, for example, when photographing normally due to camera design restrictions or the like (see FIG. 3 (a)). Therefore, even in such a case, the present invention improves the illumination efficiency of the illumination light source and provides a liquid crystal display surface on the optical axis of the photographing lens 3 when a subject illumination light source is required during macro photography. The pivot portion 10 is slid in the lateral direction so that the six central portions L can be aligned.
[0011]
As a specific example, the structure of the pivotal support portion 10 includes, for example, a guide groove (guide means) 25 provided in a proper position on the upper surface of the camera body 2 and extending in the lateral direction, and a shaft A15 projecting from the lower surface. The LCD monitor is supported by a slide block 26 that is loosely fitted into the slide block 26 and that slides and rotates in the horizontal direction, and the projecting ends of the shaft B16 that penetrates the slide block 26 in the horizontal direction so as to be rotatable in the front-rear direction. And a pivoted portion 27. Therefore, the LCD monitor 5 can be slid in the lateral direction along the guide groove 25 and can swing. Further, as shown in FIG. 3B, when the pivot portion 10 and the LCD monitor 5 are located on the leftmost side, the central portion L of the liquid crystal display surface 6 is in a position coincident with the optical axis portion C of the photographing lens 3. In this state, it is possible to use light from the backlight unit as an illumination light source during macro photography.
The guide groove described as the configuration of the guide means is merely an example. For example, a guide protrusion is provided in place of the guide groove to support the slide block so as to be slidable and rotatable in the lateral direction. It is.
The user can easily perform the operation of sliding or rotating the LCD monitor 5.
[0012]
Next, FIG. 4 is a diagram showing a configuration of a camera capable of macro photography according to a fourth embodiment of the present invention. A flat-plate LCD monitor 5 having a backlight is a pivot comprising the biaxial swing mechanism. The LCD monitor 5 is supported on the camera main body 2 by a support 10 so as to be swingable. The LCD monitor 5 is vertically moved with respect to the LCD monitor main body 30 having a liquid crystal display surface 6 and link means 32. The backlight unit 31 is supported so as to be rotatable in the direction, and the backlight unit 31 can be separated from the LCD monitor main body 30 via the link means 32. The backlight unit is shown in FIG. ) (B) (c) As shown in (d), the LCD monitor main body 30 can be rotated. Reference numeral 6 a denotes a backlight light receiving surface (back surface of the liquid crystal display surface), and reference numeral 31 a denotes an emission surface of the backlight unit 31.
The link means 32 is attached to both ends of the arm 35 so as to be rotatable at appropriate positions of the LCD monitor main body 30 and the backlight unit 31 by hinges 36. From the housed state shown in FIG. Alternatively, the macro shooting state shown in (c) and (d) can be entered.
In this embodiment, the backlight unit 31 of the LCD monitor 5 is rotatably supported with respect to the LCD monitor body 30 so that only the backlight unit used as the illumination device is directed to the subject in an arbitrary posture. I was able to. According to this configuration, the observation part (liquid crystal display surface 6) of the LCD monitor can be oriented in the direction normally used by the user, so that macro photography can be performed without difficulty.
Therefore, since the user can adjust the position of the backlight unit 31 while observing the liquid crystal display surface of the LCD monitor body, it is also possible to take a picture while confirming the light distribution during macro photography. At this time, the LCD monitor main body 30 may be difficult to see due to the absence of the backlight unit 31. As a countermeasure against this, reflected light of external light hitting the LCD monitor body can be used by providing a half mirror-like member or the like on the backlight receiving surface 6a which is the “mating surface” of the backlight unit and the LCD monitor body. And make improvements such as making the monitor easier to see.
In the above configuration, as shown in FIG. 4A, the backlight unit 31 is normally used in close contact with the back side of the LCD monitor main body 30. When an illumination light source is required for macro photography or the like, as shown in (b), the backlight unit 31 of the LCD monitor 5 is rotated via the link means 32, and the backlight emission surface 31a of the backlight unit is moved to the subject. Turn to 21 side. As described above, the backlight unit 31 is used by being fixed at an arbitrary position so that the illumination light source can efficiently strike the subject 21. In the case of macro photography with the backlight light receiving surface 6a exposed, macro photography is performed while observing the liquid crystal display surface 6 of the LCD monitor main body by external light from the backlight light receiving surface 6a of the LCD monitor. Is possible. Although not shown, if the backlight light-receiving surface is provided with a half mirror-like member, the LCD monitor main body 30 with the backlight unit 31 inverted as shown in FIGS. Even when used in close contact with the camera, it is possible to perform macro photography while confirming the subject 21.
[0013]
Next, FIG. 5 is an explanatory diagram of a fifth embodiment of the present invention. The camera capable of macro photography according to this embodiment differs from the fourth embodiment in that the upper part of the LCD monitor main body 30 is the same. Thus, the upper portion of the backlight unit 31 is pivotally supported by the hinge 40 so as to be rotatable in the vertical direction, and only the backlight unit guides the illumination light source toward the subject.
Other configurations are substantially the same as those of the fourth embodiment.
When illuminating the subject 21 during macro photography, the subject is illuminated with the backlight unit 31 directed toward the subject side with the hinge 40 as a fulcrum (FIGS. 5A to 5C). If the backlight light receiving surface 6a on the back side of the LCD monitor also illuminates the light beam of the backlight unit or is provided with a half-mirror-like member on the backlight light receiving surface (not shown), the user can display the LCD. Macro photography is possible while observing the monitor.
In this embodiment, only the backlight unit 31 of the LCD monitor 5 can be separated (posture change) so that only the backlight unit used as the illumination device can be directed to the subject. I made it. According to this improvement, the observation part of the LCD monitor can be set in the direction normally used by the user, so that macro photography can be performed without difficulty.
In the case of the fourth embodiment, the backlight unit is changed to an arbitrary variety of postures by a rotatable structure via the link means, and the structure is directed toward the subject, but in this embodiment, It is a simple rotating structure. Therefore, the structure of the LCD monitor and the backlight portion can be realized in a simple form.
Also in this embodiment, since the position of the backlight unit can be adjusted while observing the LCD monitor, it is possible to take an image while confirming the light distribution during macro photography. At this time, the LCD monitor main body may be difficult to see because there is no backlight. As a countermeasure against this, reflected light of external light hitting the LCD monitor can be used by providing a half mirror-like member on the backlight receiving surface, which is the “mating surface” between the backlight unit and the LCD monitor during normal shooting. In this way, improvements such as making the monitor easier to see may be made.
[0014]
Next, FIG. 6 is a diagram illustrating the configuration and operation of a camera capable of macro photography according to a sixth embodiment of the present invention. The camera according to this embodiment is characterized in that the LCD monitor 5 including the LCD monitor main body 30 and the backlight unit 31 is detachable from the camera main body 2.
The camera 1 according to the present embodiment is characterized in that the LCD monitor 5 is detachably supported by a pivotal support 50 provided at the center of the front end of the camera body 2. In the camera 1, the optical axis of the photographing lens 3 and the central part of the LCD monitor 5 do not coincide with each other due to the camera design. During general photographing, the camera is used in a state as shown in FIG. At the time of macro photography or the like, as shown in FIG. 6B, the LCD monitor 5 is removed from the camera body 2 and arranged at a position where the light beam from the liquid crystal display surface 6a of the LCD monitor 5 strikes the subject 21. To illuminate the subject. In this embodiment, the user holds the LCD monitor.
The pivotal support 50 includes an attaching / detaching mechanism 51. As shown in (c) and (d), the attachment / detachment mechanism 51 includes a left shaft 53 that is supported so as to protrude inward and outward from holes provided in the left and right inner walls of the recess 52 provided in the upper portion of the camera body 2. The right shaft 54, the elastic members 55, 56 that urge the shafts 53, 54 in the projecting direction, and one shaft, for example, the left shaft 53, are integrated with the left shaft 53 to retract against the elastic member 55. And an LCD monitor-side projection 59 having a shaft hole 58 that receives the inner ends of the projecting shafts 53 and 54 and is rotatably supported.
The left shaft 53 and the right shaft 54 are provided with elastic members 55 and 56, respectively. Usually, the shaft hole 58 provided in the LCD monitor has inner end portions of both shafts, and both of the shaft holes of the LCD monitor are provided. Tension is applied in the direction in which the shaft fits. When removing the LCD monitor, the detachable switch 57 is shifted from the right to the left, and the left shaft 53 operating in conjunction therewith is removed from the shaft hole 58 of the LCD monitor. A method of just exchanging toilet paper is adopted as an example. The LCD monitor 5 is connected to the camera body 2 via a monitor cable 60.
According to this embodiment, since the LCD monitor can be attached and detached from the camera body, when performing illumination at the time of macro photography using the LCD monitor, by removing the LCD monitor from the body, This makes it easy to set the position.
[0015]
Next, FIG. 7 is a diagram illustrating the configuration and operation of a camera capable of macro photography according to a seventh embodiment of the present invention. The camera 1 has a camera body 2 having a photographing lens 3 and a backlight. The LCD monitor 5 is a camera capable of macro photography, and uses backlight light from the LCD monitor 5 as an illumination light source during macro photography. Further, the LCD monitor 5 includes an LCD monitor main body 65 that can be attached to and detached from the camera main body 1, and a backlight unit 66 that is rotatably supported by the LCD monitor main body 65.
In this embodiment, the camera in a normal use state is in a state as shown in FIG. 7A, and is in a state as shown in FIG. 7B and FIG.
This embodiment differs from the sixth embodiment in that an LCD monitor 5 configured to be detachable with respect to the camera body 2, an LCD monitor body 65 that can be attached to and detached from the camera body 1, and an LCD monitor body 65 The backlight portion 66 is supported so as to be rotatable with respect to the main body.
Therefore, the structure shown in the sixth embodiment can be used as the configuration of the pivotal support 50 and the attachment / detachment mechanism 51. Further, the structure of the link means 61 for rotatably connecting the backlight unit 66 to the LCD monitor main body 65 is similar to the link means of the embodiment shown in FIG. 4, and the arm 61a and both ends thereof are connected to the LCD monitor. It comprises a main body 65 and a hinge portion 61b pivotally supported on the backlight portion 66. The LCD monitor main body 65 and the camera main body 2 are connected by a monitor cable 60.
The LCD monitor main body 65 can be separated from the backlight portion 66 by the link means 61, and the backlight portion 66 has a structure that can rotate around the link means 61 as a fulcrum. The backlight surface 66a of the backlight unit is directed toward the subject 21, and the illumination light beam strikes the subject, which is used as an illumination light source during macro photography. In addition, by providing a half-mirror-like member on the backlight light receiving surface 6a shown in FIG. 7B, the liquid crystal display surface is used when external light enters or when external light enters the observation surface of the liquid crystal display surface 6. Macro photography is possible while observing
According to this embodiment, the LCD monitor 5 can be detached from the camera body 2 as a whole, and the LCD monitor can be separated from the LCD monitor body 65 by the backlight unit 66. Since it can be detached from the camera body even when it is used, the direction and position of the illumination with respect to the subject is not affected by the position of the camera and can be easily handled. Further, since the backlight unit and the LCD monitor main body can be separated, it is easy for the photographer to observe the LCD monitor even when the backlight unit is illuminated toward the subject.
[0016]
Next, FIG. 8 is a diagram illustrating the configuration and operation of a camera capable of macro photography according to an eighth embodiment of the present invention. This camera 1 has a camera body 2 having a photographing lens 3 and a backlight. The LCD monitor 5 is used, and the LCD monitor 5 is used as an illumination light source during macro photography. Further, the LCD monitor 5 includes an LCD monitor body 70 that is pivotally supported by the pivotal support portion 75 with respect to the camera body 2 and a backlight that is configured to be detachable from the LCD monitor body 70. Part 71. The LCD monitor main body 70 and the backlight unit 71 are connected by a monitor cable 72.
During normal photographing, the backlight unit 71 is held by a holder unit 73 provided on the LCD monitor main body 70 as shown in FIG. When the backlight unit is used as a light source at the time of macro photography, a backlight as an illumination light source for the subject 21 with the backlight unit 71 removed from the holder unit 73 as shown in FIG. The unit 71 is arranged at an arbitrary position, and the backlight unit is adjusted so as to be appropriately illuminated. In addition, by providing a half-mirror-like member on the backlight light receiving surface, macro shooting is possible while observing the liquid crystal display surface 6 when external light enters or when external light enters the liquid crystal display surface 6. It is.
In this embodiment, only the backlight unit 71 of the LCD monitor can be attached to and detached from the camera body 2, so that the backlight unit alone is more suitable as a lighting device at the time of macro photography than the type integrated with the LCD monitor. It is light and easy to handle. The liquid crystal display surface 6 of the LCD monitor is attached to the camera body, and can be checked by the user during shooting.
[0017]
Next, FIG. 9 is a diagram illustrating the configuration and operation of a camera capable of macro photography according to a ninth embodiment of the present invention, and this embodiment is a configuration example applicable in common to all the other embodiments described above. However, here, description will be made using the example of FIG.
A characteristic configuration of the camera 1 according to this embodiment is that the luminance of the liquid crystal display surface 6 of the LCD monitor 5 with backlight used at the time of macro photography is set in accordance with the condition of the subject or the position of the LCD monitor. The point is that it can be changed to a stage pattern.
For example, every time the user operates the brightness operation button 76 provided in the camera body 2 shown in FIG. 9A (one press), the brightness of the liquid crystal display surface 6 (LCD monitor surface) becomes “brighter”. → light / dark intermediate → dark → OFF → bright →..., And as shown in FIG. 9B, the backlight unit of the LCD monitor 5 having the backlight unit is switched according to the operation content. The brightness switches. The backlight unit and the LCD monitor have an integral structure, and the luminance (density) of the liquid crystal display surface 6 used as an illumination light source during macro photography is switched accordingly. The brightness setting is determined and set by the user who takes the image in consideration of the subject conditions, the shooting environment, the position of the LCD monitor, and the like.
As described above, in this embodiment, the brightness of the entire surface of the liquid crystal display surface 6 (LCD monitor surface) can be adjusted, so that appropriate illumination according to the brightness and environment around the subject 21 can be performed. In addition, even if the angle / distance to the LCD monitor 5 with the backlight and the subject are under various conditions, appropriate illumination can be performed.
In addition, it is possible to provide a mechanism that automatically determines the brightness of the backlight based on information on the camera side based on the information of “AE: automatic exposure” provided as a function of the camera body. It is.
[0018]
Next, FIG. 10 is a modification of the tenth embodiment of the present invention, in other words, the ninth embodiment, and each area of the liquid crystal display surface 6 (LCD monitor surface) used as an illumination light source during macro photography. Is characterized in that it can be set to any number of levels of brightness according to the distance from the subject 21 to the liquid crystal display surface 6. That is, according to the distance from the liquid crystal display surface 6 to the subject, it can be realized that a certain area in the liquid crystal display surface has high luminance and the other areas have low luminance.
Although this embodiment can also be applied to the cameras according to all the above-described embodiments, here, a case where the embodiment is applied to the camera according to the embodiment shown in FIG. 1 will be described.
The LCD monitor 5 provided in this camera can sequentially switch the luminance of the liquid crystal display surface 6 to the patterns shown in FIGS. The operation is performed by the user operating the monitor surface luminance operation button 76 shown in FIG. 9 according to the distance from the liquid crystal display surface 6 to the subject 21, the angle of the monitor surface, or the like. The luminance pattern of the liquid crystal display surface is recorded in advance in the memory of the camera 1 as an image file or the like, and several prepared liquid crystal display surface patterns are obtained by the user operating the monitor surface pattern operation buttons. Select and use. Although not shown, as an alternative method, instead of the user operating the monitor surface pattern operation button, the camera detects the tilt angle of the LCD monitor and automatically switches the appropriate density pattern of the liquid crystal display surface 6. May be.
As described above, in this embodiment, since the amount of light can be changed for each area in the surface of the liquid crystal display surface 6, for example, when the subject is close to the liquid crystal display surface, the distribution of the amount of illumination light hitting the subject is constant. It will be possible to set like this.
It is also possible to provide a mechanism that automatically determines the brightness of the backlight based on information on the camera side based on information on “AE: automatic exposure” provided as a function of the camera body. .
Even when the ninth and tenth embodiments are applied to the liquid crystal display surfaces of the cameras shown in FIGS. 4, 5, 7, and 8, the luminance of the backlight unit is set as shown in FIG. 9B or FIG. Thus, it is configured to be changeable.
[0019]
Next, FIG. 11 is a flowchart showing the control procedure of the eleventh embodiment of the present invention. In the camera according to this embodiment, the LCD monitor 5 having a backlight or the backlight units 31, 66, 71 of the LCD monitor is used as a lighting device at the time of macro shooting in a “use or not use” mode or “always” It is characterized in that it can be selected such as “Use or release only (when capturing images)” mode. Specifically, such switching is performed by an operation using a switch.
In the camera 1 shown in the description of each embodiment above, a selection switch 80 is provided on an LCD monitor having a backlight or a camera body having a backlight unit.
FIG. 12 illustrates a usage example of the selection switch 80.
Switching of the selection switch 80 is divided into the following two patterns.
Unused mode: During macro shooting, the backlight (including the backlight portion) of the LCD monitor 5 is turned off and is not used as an illumination light source.
Use mode:
(2-1) Always use: During macro shooting, the backlight of the LCD monitor is turned on to illuminate the subject even when the subject is monitored.
(2-2) Use only during release: During macro shooting, the backlight of the LCD monitor is off while the user is preparing to shoot the subject. Only when an image is actually captured (for example, when a user performs a release operation), the backlight of the LCD monitor is turned on to illuminate the subject.
Actually, a program having such contents is assembled in a memory provided in advance in the control unit of the camera body.
According to this embodiment, in all of the above embodiments, the backlight can be used for subject irradiation only when illumination during macro photography is required, thereby saving power and extending the battery life of the camera. Can do. In addition, since lighting is not always required even during macro shooting, the user can select it if lighting is not required depending on the shooting scene.
The present invention can be applied not only to an ordinary camera but also to a digital camera and a photographing device (such as a video camera) provided with an LCD monitor.
[0020]
【The invention's effect】
  As described above, according to the present invention, a functional product already provided in the camera can be used without using a special accessory such as an adapter, increasing the number of components such as an optical fiber, or substituting a strobe. By utilizing this to realize an illumination light source for macro photography, the cost can be reduced. That is, in the present invention, an LCD monitor or the like having a backlight is used as a light source at the time of macro photography. Therefore, the angle adjustment with respect to the subject can be performed at the time of macro photography while always illuminating the LCD monitor having a backlight. It is possible to check the light distribution status while performing. Further, since the strobe is not substituted, the amount of light at the time of shooting is not excessive, and the shooting quality is not deteriorated. Further, since the subject is directly illuminated without using an optical fiber or the like, the illumination efficiency is improved.
  That is, according to the first aspect of the present invention, it is not necessary to provide an illumination light source again by using an LCD monitor already provided as a functional part of the camera as an illumination light source at the time of macro photography. There is no space for mounting, the cost can be reduced compared to the case of re-installing the illumination light source, and it can be used as a built-in type.
  Also, the optical axis of the taking lenscenterAnd LCD monitorHorizontal direction of LCDIn the centerCoplanar positionBy doing so, the subject can be efficiently illuminated. In addition, since the pivoting part of the LCD monitor is equipped with a swing mechanism, it can be placed with the monitor facing the photographer during normal shooting. it can.
  In the invention of claim 2, since the LCD monitor having the backlight is detachable from the camera body, the position of the LCD monitor used as the illumination light source at the time of macro photography is not affected by the position of the camera body at the time of photography. Can be decided. For example, lighting is very easy to illuminate the subject so as to illuminate the subject in a right or left oblique posture. Since the position of the camera body is constrained by the distance to the subject, the position of the object-to-illumination light source may be constrained if the LCD monitor that serves as the illumination light source is fixed to the camera body in some form. This structure can solve these problems. Although it is an effect derived from the object of the present invention, when viewing (viewing) a photograph taken using the LCD monitor as an original monitor, the monitor can be oriented in various directions without being restricted by the position of the camera body. . The LCD monitor has directivity when observing, and is difficult to see unless viewed from the front. In the present invention, using such an LCD monitor, for example, even when giving a business presentation, it is easy to direct only the monitor to the viewer. Easy to point. Therefore, it becomes a monitor that is very easy for viewers to see, and the product value is high.
  According to the third aspect of the present invention, the LCD monitor has an optical axis with respect to the photographic lens.Horizontal direction of LCDIn the middleLocated on the same plane as the optical axis centerBy being configured to be movable, the design of the camera (appearance design and design layout) is not constrained by the constraints that always match the LCD monitor and the “optical axis of the photographic lens”, increasing design freedom. . In addition, users can select a camera from designs that they have a degree of freedom at the time of purchase. In addition, when an LCD monitor is used as a light source for macro photography (though the efficiency is slightly reduced), when it is desired to illuminate from an oblique direction, aiming at the lighting effect of the photograph taken by the user at the time of photography, etc. Since there is a degree of freedom in selecting the monitor position, it becomes possible to enjoy free lighting.
[0021]
  In the invention of claim 4, since the liquid crystal display surface is directed to the user side and only the backlight portion serving as the illumination light source can be directed to the subject, the illumination light source setting during macro photography while the user observes the monitor screen Can be performed, and it becomes very easy to use. In addition, the backlight part is a link means consisting of an arm and a hinge and can be rotated, so the position of the backlight part that becomes the illumination light source can be selected in various ways, and the setting of the illumination light source corresponds to the conditions and environment of the subject It becomes easy to use and becomes very easy to use.
  In the fifth aspect of the invention, since the liquid crystal display surface faces the user side and only the backlight portion serving as the illumination light source can be directed to the subject, the setting of the illumination device during macro photography while the user observes the monitor screen Becomes possible and becomes very easy to use. Compared with the type of Claim 4, since it is a simple structure using only the hinge, it can be provided to the user at low cost..
[Brief description of the drawings]
FIGS. 1A to 1F are explanatory views showing the configuration and operation of a camera capable of macro photography according to an embodiment of the present invention.
FIG. 2 is a diagram showing how to use the camera in the embodiment of FIG. 1;
3A and 3B are explanatory diagrams of a camera capable of macro photography according to a third embodiment of the present invention, in which FIG. 3A is a perspective view from the front, and FIG.
FIGS. 4A to 4D are diagrams showing a configuration and operation of a camera capable of macro photography according to a fourth embodiment of the present invention. FIGS.
FIGS. 5A to 5C are explanatory views of the configuration and operation of a fifth embodiment of the present invention.
FIGS. 6A to 6D are diagrams illustrating the configuration and operation of a sixth embodiment of the present invention.
FIGS. 7A, 7B, and 7C are diagrams illustrating the configuration and operation of a camera capable of macro photography according to a seventh embodiment of the present invention.
FIGS. 8A and 8B are diagrams illustrating the configuration and operation of a camera capable of macro shooting according to an eighth embodiment of the present invention.
FIGS. 9A and 9B are diagrams illustrating the configuration and operation of a camera capable of macro photography according to a ninth embodiment of the present invention.
FIGS. 10A, 10B and 10C are explanatory views of a tenth embodiment of the present invention.
FIG. 11 is a flowchart showing a control procedure according to an eleventh embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Camera, 2 Camera body, 3 Shooting lens, 4 Release button, 5 LCD monitor, 6 Liquid crystal display surface, 6a Backlight light-receiving surface, 10 Pivoting part, 15, 16 axis | shaft, 20 Recess, 25 Guide groove (guide means) , 26 slide block, 27 pivoted part, 30 LCD monitor body, 31 backlight part, 31a backlight emission surface, 32 link means, 35 arm, 36 hinge, 40 hinge, 50 pivot part, 51 attaching / detaching mechanism, 53 left axis , 54 Right shaft, 55, 56 Elastic member, 57 Detachable switch, 58 Shaft hole, 59 LCD monitor side protrusion, 60 Monitor cable, 61 Link means, 61a Arm, 61b Hinge, 65 LCD monitor main body, 66 Backlight section, 80 Selection switch.

Claims (5)

A camera including a main body having a photographing lens and a display unit having a backlight unit,
The central portion in the horizontal direction of the display surface of the display unit is disposed on the same plane as the optical axis center of the photographing lens of the main body, and rotates or swings the display unit as an illumination light source during macro photography. A camera characterized in that the backlight of the display unit can be used.   The camera according to claim 1, wherein the display unit is detachable from the main body. A camera including a main body having a photographing lens and a display unit having a backlight unit,
The display unit is provided in the main body so as to be slidable in the horizontal direction, and is configured to be movable on the same plane as the optical axis center of the photographing lens with respect to the horizontal center of the display surface of the display unit. A camera characterized in that the backlight of the display unit can be used as an illumination light source for macro photography.   The display unit includes a display unit main body and a backlight unit, and the backlight unit is rotatably supported with respect to the display unit main unit via a link unit. Or the camera as described in any one of 3.   The said display part consists of a display part main body and a backlight part, and the backlight part is rotatably supported by the hinge with respect to the display part main body. The camera according to any one of the above.

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