JP3743813B2 - Camera with strobe - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera with a strobe having an orientation-variable imaging lens.
[0002]
[Prior art]
In a camera with a strobe, the illumination angle of the strobe light emitting unit can be changed corresponding to the driving of the imaging lens unit in the optical axis direction, that is, when the wide angle lens or telephoto lens is used, the illumination angle of the strobe light emitting unit is changed to change Some are designed to match the angle of view.
Further, in many of the electronic still cameras that have been widely used in recent years, an imaging lens unit is rotatably assembled to a camera body so that the orientation of the imaging lens is variable.
Some cameras equipped with such an orientation-variable imaging lens unit are equipped with a strobe. Conventionally, the strobe is fixed not to the camera body side but to a rotating block having an imaging lens unit. It was.
[0003]
[Problems to be solved by the invention]
The reason why the strobe is provided on the rotating block having the imaging lens unit as in the prior art is that, for example, when the strobe is provided on the camera body side, or when the imaging lens unit faces the front, However, if the imaging lens unit is facing up, down, or behind, it will be outside the flash range that is fixed to the front only. This is because no longer can be obtained.
Therefore, although a strobe was incorporated in a rotating block having an imaging lens unit, the rotating block is required to be lighter and smaller for its rotational operability, and from the aspect of promoting weight reduction and size reduction, There is a problem that it is difficult to mount the strobe on the rotating block side.
[0004]
SUMMARY OF THE INVENTION An object of the present invention is to provide a strobe irradiation function that follows a change in the orientation of an imaging lens unit in a camera with a strobe having an imaging lens unit that can change its orientation.
[0005]
[Means for Solving the Problems]
  In order to solve the above problems, the invention described in claim 1A camera having a variable-direction imaging lens unit, a strobe light-emitting unit in which the orientation of the strobe light-emitting unit is variably operated with respect to the camera body in response to the direction-changing operation of the imaging lens unit, and the strobe light-emitting unit A fixed strobe lens that covers the surroundings and a monitor unit for displaying a captured image are provided, and the strobe lens is configured so that a portion facing in the same direction as the display screen of the monitor unit indicates the state of light radiated to the outside. To change,It is characterized by.
[0006]
  Here, the imaging lens unit may be, for example, one that is focused on the CCD, but may be composed only of an optical system, and the variable direction type includes the one that faces the front, the upper, the rear, and the side. It may be one that faces the bottom or the bottom.
  The strobe has a strobe light emitting unit composed of an arc tube and a reflector, and this strobe light emitting unit is housed inside a strobe lens.
  Examples of the camera include an electronic still camera in which the imaging lens unit is focused on the CCD, but an analog camera and a digital conversion camera may be used.
  The monitor unit is typically a liquid crystal display panel, but it may be provided by other display means and used for displaying a reproduced image, but it may be at least for displaying a captured image. Note that changing the state of light means attenuating light, diffusing light, or the like.
[0007]
  As described above, according to the first aspect of the present invention, the strobe light emitting unit in which the direction of the strobe light emitting unit is variably operated with respect to the camera body corresponding to the direction changing operation of the imaging lens unit, and the camera main unit Because the camera is equipped with a strobe lens that does not move, the light from the strobe light emitting part is irradiated toward the subject via the strobe lens that does not move relative to the camera body, following the change in the direction of the imaging lens part. Be made.
  In addition, the part of the strobe lens that is fixed to the camera body and covers the periphery of the strobe light emitting part changes in the same direction as the display screen of the monitor for displaying the captured image, and changes the state of the light radiated to the outside. When shooting the operator himself with the imaging lens unit facing the operator and viewing the display screen of the monitor unit, the light from the strobe light unit changes the light state to the outside by the strobe lens. Irradiated.
Therefore, when photographing a close distance, that is, the quality of the strobe irradiation light at the time of self-photographing is appropriately adjusted such that the light can be soft.
[0008]
The invention according to claim 2
The camera with a strobe according to claim 1,
A configuration in which the imaging lens unit and the strobe light emitting unit are integrally and rotatably assembled on the same axis with respect to the camera body;
It is characterized by.
[0009]
Thus, according to the invention described in claim 2, since the imaging lens unit and the strobe light emitting unit described in claim 1 are cameras that are coaxially and integrally assembled with the camera body, the imaging lens unit And the strobe light emitting unit integrally rotate on the same axis, so that the strobe light emitting unit can be directed to the subject in synchronization with the change in the orientation of the imaging lens unit.
[0010]
The invention described in claim 3
The camera with a strobe according to claim 1,
The imaging lens unit is rotatably assembled to the camera body, and the strobe light emitting unit is rotatably assembled to the camera body.
Detecting means for detecting a rotation state of the imaging lens unit;
Driving means for rotationally driving the strobe light emitting unit;
Control means for synchronously driving the strobe light emitting unit by the driving unit based on detection by the detecting unit of the rotation state of the imaging lens unit by manual operation;
Configuration with,
It is characterized by.
[0011]
Thus, according to the third aspect of the present invention, the detection means for detecting the rotation state of the imaging lens unit according to the first aspect, which is rotatably assembled to the camera body, and the rotationally assembled to the camera body. Further, driving means for rotationally driving the strobe light emitting unit according to claim 1 and control means for synchronously driving the strobe light emitting part by the driving means based on detection of the rotation state of the imaging lens unit by the detecting means. Since the camera is provided, when the imaging lens unit is manually rotated, the strobe light emitting unit can be rotated in the same direction as the imaging lens unit in synchronization with the detection result of the rotation state.
[0012]
The invention according to claim 4
The camera with a strobe according to claim 1,
The imaging lens unit is rotatably assembled to the camera body, and the strobe light emitting unit is rotatably assembled to the camera body. The rotation axis of the imaging lens unit and the strobe light emitting unit A configuration provided with an interlocking mechanism that is interposed between the rotating shaft and rotates the strobe light emitting unit in synchronization with the rotation of the imaging lens unit by manual operation;
It is characterized by.
For example, a gear mechanism may be used as the interlocking mechanism, but other structures may be used.
[0013]
Thus, according to the invention described in claim 4, the rotating shaft of the imaging lens unit according to claim 1, which is rotatably assembled to the camera body, and the camera body is rotatably assembled. Since the camera is equipped with an interlocking mechanism that rotates the strobe light emission unit in synchronization with the rotation of the imaging lens unit by manual operation between the rotation axis of the strobe light emission unit described above, the image pickup lens unit is rotated manually. Then, the rotation is transmitted from the rotation shaft to the rotation shaft of the strobe light emitting unit via the interlocking mechanism, and the strobe light emitting unit rotates in the same direction as the imaging lens unit in synchronization.
[0014]
  The invention according to claim 5Claim 1Camera with strobe,The portion of the strobe lens that changes the light state is characterized in that it is formed in a shape that diffuses light more finely than the other portions.
[0015]
  Thus, according to the invention of claim 5,The light changing portion of the strobe lens according to claim 1 is a camera formed in a shape that diffuses light more finely than the other portions. It is possible to make the light of the stroboscope to be soft by softly diffusing by the diffusion shape portion.
[0016]
  The invention described in claim 6Claim 1Camera with strobe,The portion of the strobe lens that changes the light state is characterized in that it is formed in a thick shape that makes it less likely to transmit light than other portions.
[0017]
  Thus, according to the invention of claim 6,Since the portion that changes the light state of the strobe lens according to claim 1 is a camera that is formed in a thick shape that makes it difficult to transmit light than other portions, the light from the strobe light emitting unit is used for taking a self-portrait. The thick shape part of the strobe lens makes it difficult to transmit to the outside, and the strobe irradiation to the operator can be made soft light.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the camera with a strobe according to the present invention will be described below with reference to FIGS.
[0021]
<First Embodiment>
First, FIG. 1 shows a camera with a strobe as a first embodiment to which the present invention is applied, and is a front view showing a state in which an imaging lens unit is directed forward, and FIG. 2 is a strobe lens portion. FIG.
FIG. 3 is a rear view showing a state in which the monitor unit is opened with the image pickup lens unit facing the operator side, and FIG. 4 is a cutaway side view showing a schematic configuration of the stroboscopic lens unit.
1 to 4, 1 is a camera body, 2 is a monitor unit, 3 is a liquid crystal display panel, 4 is a grip unit, 5 is an imaging lens unit, 6 is a rotating unit, 7 is a strobe, 8 is a strobe lens, 8a is a lens unit, 8b is a light diffusing unit, 9 is a strobe light emitting unit, 9a is an arc tube, and 9b is a reflector.
[0022]
In this embodiment, the camera with a flash to which the present invention is applied is an electronic still camera, and as shown in the figure, the monitor unit 2 for displaying captured images and reproduced images can be opened and closed on one side with respect to the camera body 1. Is assembled.
The monitor unit 2 has a display screen by the liquid crystal display panel 3.
As shown in the figure, the camera body 1 has various operation switches and the like, and also has a grip portion 4 for holding with the right hand. At the top, a central imaging lens portion 5 and a strobe 7 adjacent to the center are provided. It is arranged.
The imaging lens unit 5 is incorporated in a rotating unit 6 that is assembled to the upper part of the camera body 1 so as to be rotatable around a horizontal axis in the horizontal direction.
The strobe 7 has a strobe light emitting unit 9 housed in a strobe lens 8 fixed to the camera body 1 next to the rotating unit 6. The strobe light emitting unit 9 is coaxially integrated with the rotating unit 6. It is provided and is composed of an arc tube 9a and a reflector 9b.
[0023]
Therefore, the imaging lens unit 5 and the strobe light emitting unit 9 are integrally rotated by turning the end 6a of the rotating unit 6 by hand.
As shown in FIG. 2, the strobe lens 8 that covers the front, upper, and rear of the strobe light emitting unit 9 has an inner surface in the range A excluding the back side provided with the monitor unit 2 of the camera body 1 inside. It is formed in a lens unit 8a that effectively radiates light from the strobe light emitting unit 9 to the outside.
Further, as shown in FIG. 4, the strobe lens 8 has a light diffusing portion 8 b in which the inner surface of the range B on the back side provided with the monitor portion 2 of the camera body 1 finely diffuses the light from the strobe light emitting portion 9. Is formed. The light diffusing unit 8b diffuses the light irradiated to the outside, that is, changes the state of the light irradiated to the outside.
The camera body 1 includes a CCD (Charge Coupled Device) (not shown) for capturing an image from the imaging lens unit 5, a storage circuit (not shown) for storing the captured image as digital information, and a storage circuit (not shown). A control circuit is built-in.
[0024]
Next, how to use the above electronic still camera will be described.
First, when performing “other party shooting” similar to normal shooting, such as a person other than the operator himself / herself, scenery, etc., the rotating unit 6 is turned by hand, and the imaging lens unit 5 is moved as shown in FIG. Keep it facing the front.
In such a state where the imaging lens unit 5 is directed to the front, the strobe light emitting unit 9 is integrated with the rotating unit 6 on the same axis, so that the strobe lens 8 has a strobe as shown in FIG. The light emitting unit 9 (the arc tube 9a and the reflecting plate 9b) is also in a state of facing the front.
Therefore, at the time of shooting, irradiation of the subject with the strobe 7 is obtained.
The irradiation function of the strobe 7 on the subject is not limited to the front side, but can be obtained from diagonally downward, diagonally forward to upward, and further diagonally rearward and upward. It is sufficiently obtained in the range A excluding the back side provided with the monitor unit 2.
[0025]
When performing “self-portrait” to photograph the operator himself, the rotating unit 6 is turned by hand, and the imaging lens unit 5 is directed to the back, that is, the operator himself as shown in FIG. Put it in a state.
When the imaging lens unit 5 is directed to the operator side as described above, the strobe light emitting unit 9 (the arc tube 9a and the reflector 9b) is also synchronized with the operator side inside the strobe lens 8 as shown in FIG. It is in a state facing.
In other words, the strobe light emitting unit 9 (the arc tube 9a and the reflecting plate 9b) faces the light diffusion unit 8b that finely diffuses the light on the inner surface of the strobe lens 8.
Therefore, in the case of “self-photographing”, the light diffusing unit 8b changes the quality of the light emitted from the strobe light emitting unit 9 to the outside, that is, for photographing the operator himself. Appropriate light, that is, soft irradiation light can be obtained.
[0026]
<Modification>
5 and 6 show modified examples of the strobe lens, and are broken side views as seen from the same direction as in FIGS.
That is, in this modification, in the stroboscopic lens 10 having a shape covering the front, upper and rear of the stroboscopic light emitting unit 9, as shown in FIG. 5, the range A excluding the back side provided with the monitor unit 2 of the camera body 1. This portion is formed in a thin portion 10a that transmits light from the internal strobe light emitting portion 9 and effectively radiates the light to the outside.
As shown in FIG. 6, the strobe lens 10 has a thick portion that makes it difficult to transmit light from the strobe light emitting unit 9 in the range B on the back side including the monitor unit 2 of the camera body 1. 10b. The thick portion 10b attenuates the light applied to the outside, that is, changes the light applied to the outside.
[0027]
In addition, a reflective film is provided on the inner surface of the rear surface range B provided with the monitor unit 2 of the stroboscopic camera body 1 or the rear side range B of the stroboscopic lens camera body 1 provided with the monitor unit 2. It is good also considering a part as a light-shielding part.
[0028]
<Second Embodiment>
FIG. 7 shows a camera with a strobe as a second embodiment to which the present invention is applied. FIG. 7 is a front view showing a state in which the imaging lens unit is directed forward, and FIG. 8 is a longitudinal section at the strobe lens portion. FIG. 5 is a cutaway side view with the inside omitted.
FIG. 9 is an enlarged view of the configuration of the strobe lens and the internal strobe light emitting unit. FIG. 9A shows the strobe light emitting unit facing forward, and FIG. 9B shows the strobe light emitting unit facing upward. FIG. 9C is a partially broken side view showing a state in which the strobe light emitting portion faces downward.
7 to 9, 11 is a camera body, 12 is a lens block, 13 is an imaging lens unit, 14 is a strobe, 15 is a strobe lens, 16 is a strobe light emitting unit, 16a is a light emitting tube, 16b is a reflector, Reference numeral 16c denotes a reflector stay, 17 denotes a lens block rotation shaft, 18 denotes rotation detection means, 19 denotes a pulse motor (drive means), and 20, 21 and 22 denote gears.
[0029]
In this embodiment as well, the camera with a flash to which the present invention is applied is an electronic still camera, and a lens block 12 is rotatably assembled to a side surface portion of a camera body 11 as shown in the figure.
An imaging lens unit 13 is incorporated in the lens block 12.
The camera body 11 is provided with a monitor unit (not shown) on the back side, and a strobe 14 in the vicinity of the upper lens block 12. The strobe 14 protrudes forward from the camera body 11 and houses a strobe light emitting portion 16 in a strobe lens 15 having a shape covering the lower, front, upper, and rear sides. Has been. As shown in the figure, the strobe lens 15 has a lens portion on the inner surface of the camera body 11 except for the back side provided with the monitor portion, as in the first embodiment. The inner surface of the range on the back side provided with 11 monitor units is a light diffusion unit.
The strobe light emitting unit 16 includes an arc tube 16a and a reflecting plate 16b. The reflecting plate 16b is rotatable, and the center of rotation is supported by the reflecting plate stay 16c.
[0030]
As described above, the rotation state of the lens block rotation shaft 17 (shown by a dotted line in FIG. 7) is detected in the camera body 11 at the side surface thereof by the horizontal axis incorporated to make the lens block 12 rotatable. While providing rotation detection means 18 (see the dotted line portion in FIG. 7), a pulse motor 19 (see the dotted line portion in FIG. 7), which is a drive means for rotating the reflection plate 16b of the strobe light emitting portion 16, is provided.
Similarly, as shown by a dotted line in FIG. 7, the pulse motor 19 is provided with a drive gear 20 on its motor shaft, and the reflecting plate 16b is driven to rotate through the drive gear 20 and a gear (not shown) meshing with the drive gear 20. It has become.
Then, the control unit by the CPU (not shown) built in the camera body 11 is configured so that the strobe light emitting unit 16 is in the same direction as the imaging lens unit 13 corresponding to the orientation of the imaging lens unit 13 by manual rotation of the lens block 12. Constitute.
That is, the control unit outputs a drive signal to the pulse motor 19 based on the detection signal of the rotation state of the lens block rotating shaft 17 by the rotation detection unit 18, and the strobe light emitting unit via the drive gear 20 and a gear (not shown). The control is performed to rotate the sixteen reflecting plates 16b until the reflecting surface thereof is oriented in the same direction as the imaging lens unit 13.
[0031]
Next, how to use the electronic still camera will be described.
First, when performing “other party shooting”, the imaging lens unit 13 is directed by turning the lens block 12 with the lens block 12 facing the front or turning the lens block 12 with the lens block 12 in the same orientation as the camera body 11. Is directed upward or downward.
It is also possible to use the camera body 11 by turning it with respect to the lens block 12 with the imaging lens unit 13 facing the front.
When the camera body 11 and the lens block 12 are rotated relative to each other in this way, the rotation state of the lens block rotation shaft 17 at that time is detected by the rotation detection means 18, and the detection signal is sent to the control means. A drive signal is output to the pulse motor 19 to rotate the reflection plate 16b of the strobe light emitting unit 16 via the drive gear 20 and a gear (not shown).
That is, inside the strobe lens 14, the reflecting plate 16 b of the strobe light emitting unit 16 is rotated until its reflecting surface is oriented in the same direction as the imaging lens unit 13 (FIGS. 9A, 9 B, and 9 C). reference).
Therefore, at the time of shooting, irradiation of the subject by the strobe 14 can be obtained.
Note that the strobe lens 15 projects forward from the camera body 11 as shown in FIG.
[0032]
When performing “self-portrait”, the lens block 12 is turned by hand so that the imaging lens unit 13 faces the operator on the back side.
When the imaging lens unit 13 is directed to the operator side in this way, the control unit drives the pulse motor 19 based on the detection signal from the rotation detection unit 18 in the rotation state of the lens block rotation shaft 17 at that time, and the strobe light is emitted. The part 16 (the arc tube 16a and the reflecting plate 16b) is also in a state of facing the operator side.
Therefore, soft irradiation by the strobe 14 can be obtained also during “self-portrait”.
[0033]
By the way, for example, when the strobe is below the imaging lens unit, it is difficult to obtain a natural image at the time of shooting.
However, in the second embodiment described above, the strobe 14 captures an image when photographing either the rear side provided with the monitor unit of the camera body 11 or the front side without the monitor unit (the opposite side of the monitor unit). Since it is located above the lens unit 13, good photographing can be performed.
[0034]
<Modification>
Instead of the method of rotating the strobe light emitting unit 16 following the detection of the rotation state of the lens block 12 as described above, a method of rotating the strobe light emitting unit 16 in conjunction with the lens block 12 may be used.
That is, as shown by a dotted line in FIG. 7, a gear 21 is provided on the lens block rotating shaft 17, and a gear 22 that meshes with the gear 21 is provided. It is configured to rotate.
As a result, the above-described camera body 11 and the lens block 12 are interlocked with the relative rotation, and the strobe light emitting unit 16 is synchronously oriented in the same direction as the imaging lens unit 13.
[0035]
In the above description, the strobe light emitting unit always follows the direction of the imaging lens unit. However, a mode changeover switch capable of selecting a strobe use mode or a strobe non-use mode may be provided.
In this manner, a strobe mode changeover switch is provided, and when it is not necessary to use the strobe, the strobe light emitting unit may be fixed so as not to follow the rotation of the imaging lens unit.
[0036]
In each of the embodiments described above, an electronic still camera is used. However, the present invention is not limited to this, and an analog camera has an image recording function by digital conversion and an image reproducing function by a monitor. It may be a camera.
In addition, the specific structure and design of each part are arbitrary, and it is needless to say that specific detailed structures and the like can be appropriately changed.
[0037]
【The invention's effect】
  As described above, according to the camera with a strobe according to the first aspect of the present invention, the direction of the strobe light emitting unit variably operates with respect to the camera body in response to the direction changing operation of the imaging lens unit. The light from the strobe light emitting unit can be irradiated toward the subject via a strobe lens that does not move relative to the camera body.
Also, in the strobe lens fixed to the camera body, the part facing in the same direction as the display screen of the monitor for displaying the captured image changes the state of the light radiated to the outside. When shooting the operator himself while looking at the display screen of the monitor unit, the light from the strobe flash unit is irradiated outside by changing the light state with the strobe lens. In other words, there is an advantage that it can be appropriately adjusted, for example, the quality of the light emitted from the strobe when taking a self-portrait can be soft light.
[0038]
According to the camera with a stroboscope according to the second aspect of the present invention, since the imaging lens unit and the stroboscopic light emitting unit are coaxially and integrally assembled with the camera body, the effect obtained by the invention of the first aspect is obtained. In addition, the integrated coaxial rotation of the imaging lens unit and the strobe light emitting unit provides an advantage that the strobe light emitting unit can be directed to the subject in synchronization with a change in the orientation of the imaging lens unit.
[0039]
According to the camera with a stroboscope according to the third aspect of the invention, the detection means for detecting the rotation state of the imaging lens unit, the driving unit for rotationally driving the stroboscopic light emitting unit, and the detection of the rotation state of the imaging lens unit are synchronized. In addition to the effect obtained by the invention according to claim 1, when the imaging lens unit is manually rotated, the flash unit is synchronized in accordance with the detection result of the rotation state. There is an advantage that the light emitting unit can be rotated in the same direction as the imaging lens unit.
[0040]
According to the camera with a strobe according to the invention described in claim 4, since the interlocking mechanism is interposed between both rotation shafts of the imaging lens part and the strobe light emitting part, in addition to the effect obtained by the invention according to claim 1, When the imaging lens unit is manually rotated, there is an advantage that the strobe light emitting unit can be rotated in the same direction as the imaging lens unit in synchronization with the interlocking mechanism.
[0041]
  According to the camera with a strobe according to the invention of claim 5,The part that changes the light state of the strobe lens is shaped to diffuse light more finely than other parts, so when taking a selfie, the light from the strobe light emitting part is diffused more finely by the diffusion shape part of the strobe lens Thus, as in the first aspect of the invention, it is possible to make the light of the stroboscopic irradiation on the operator himself a soft light.
[0042]
  According to the camera with a strobe according to the invention of claim 6,The part that changes the light state of the strobe lens is formed in a thick shape that makes it less likely to transmit light than other parts, so the light from the strobe light emitting part is used by the thick shape part of the strobe lens when taking a selfie. By making it difficult to transmit to the outside, as in the first aspect of the invention, it is possible to irradiate the strobe to the operator himself with soft light.
[Brief description of the drawings]
FIG. 1 is a front view showing a camera with a strobe as a first embodiment to which the present invention is applied, and showing a state in which an imaging lens unit faces forward.
FIG. 2 is a cutaway side view showing a schematic configuration of the camera of FIG.
3 is a rear view showing a state where the monitor unit is opened with the imaging lens unit facing the operator side in the camera of FIG. 1; FIG.
4 is a cutaway side view showing a schematic configuration of the camera of FIG. 3 cut longitudinally at a stroboscopic lens portion. FIG.
FIG. 5 is a cutaway side view showing a modification of the strobe lens, as viewed from the same direction as in FIG.
6 shows a modification of the strobe lens, and is a cutaway side view seen from the same direction as FIG. 4. FIG.
FIG. 7 is a front view illustrating a camera with a strobe as a second embodiment to which the present invention is applied, and illustrating a state in which an imaging lens unit is directed forward.
FIG. 8 is a cutaway side view showing the camera of FIG. 7 with the strobe lens section cut vertically and the inside omitted.
9 is an enlarged view of the configuration of the stroboscopic lens of FIG. 8 and the internal stroboscopic light emitting part. FIG. 9A is a partially broken side view showing the stroboscopic light emitting part facing forward, and FIG. FIG. 4C is a partially broken side view showing a state in which the strobe light emitting portion is facing upward; FIG.
[Explanation of symbols]
1 Camera body
2 Monitor section
3 LCD panel
4 Grip part
5 Imaging lens
6 Rotating part
7 Strobe
8 Strobe lens
8a Lens part
8b Light diffusion part
9 Flash unit
9a arc tube
9b Reflector
10 Strobe lens
10a Thin section
10b Thick part
11 Camera body
12 Lens block
13 Imaging lens
14 Strobe
15 Strobe lens
16 Strobe flash unit
16a arc tube
16b reflector
16c reflector stay
17 Lens block rotation axis
18 Rotation detection means
19 Driving means
20, 21, 22 Gear

Claims (6)

A camera having a variable-direction imaging lens unit, a strobe light-emitting unit in which the orientation of the strobe light-emitting unit is variably operated with respect to the camera body in response to the direction-changing operation of the imaging lens unit; A fixed strobe lens that covers the surroundings and a monitor unit for displaying a captured image are provided, and the strobe lens is configured so that a portion facing in the same direction as the display screen of the monitor unit indicates the state of light radiated to the outside. A camera with a flash, characterized by its ability to change.   The camera with a strobe according to claim 1, wherein the imaging lens unit and the strobe light emitting unit are coaxially and rotatably assembled to the camera body.   The imaging lens unit is rotatably attached to the camera body, the strobe light emitting unit is rotatably attached to the camera body, and detecting means for detecting a rotation state of the imaging lens unit; Drive means for rotationally driving the strobe light emitting part; and control means for synchronously driving the strobe light emitting part by the driving means based on detection by the detection means of the rotation state of the imaging lens part by manual operation. The camera with a strobe according to claim 1, further comprising:   The imaging lens unit is rotatably assembled to the camera body, and the strobe light emitting unit is rotatably assembled to the camera body. The rotation axis of the imaging lens unit and the strobe light emitting unit The strobe according to claim 1, further comprising an interlocking mechanism that is interposed between the rotating shaft and that rotates the strobe light emitting unit in synchronization with the rotation of the imaging lens unit by manual operation. With camera. 2. The camera with a strobe according to claim 1 , wherein the portion of the strobe lens that changes the light state is formed in a shape that diffuses light more finely than other portions. 2. The camera with a strobe according to claim 1 , wherein a portion of the strobe lens that changes the light state is formed in a thick shape that makes it less likely to transmit light than other portions.

Images