JP2004029184A - Photographic system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a photographic system which enables a photographer to preliminarily confirm whether light emission capabilities of a wireless flash device are sufficient at the time of main light emission, and how the proper quantity of light emission at the time of main light emission is. <P>SOLUTION: A photographic system 11 has: wireless flash devices 19A and 19B which exist independently of a photographing apparatus 25 and is not directly connected to the photographing apparatus; and a main flash device 17 which transmits data for starting preparatory light emission and indicating the quantity of light emission of main light emission to wireless flash devices 19A and 19B by radio communication. The main flash device 17 with a monitor 27 is provided with a mode of displaying the proper quantity of mail light emission of wireless flash devices 19A and 19B in the monitor27, which is calculated by preparatory light emission, without main light emission after preparatory light emission. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an imaging system having a wireless flash device.
[0002]
[Prior art]
Conventionally, in a photographing system having a wireless flash device, prior to the main flash, the main flash device and the wireless flash device are individually pre-flashed, and photometry is performed using a photometric sensor to calculate an appropriate light emission amount during the main flash. . Then, information on the calculated light emission amount is transmitted to the wireless flash device.
[0003]
Hereinafter, a specific example of a conventional imaging system will be described with reference to FIGS. 7 includes a camera 1 fixed on a tripod 2, a main flash device 3, and two wireless flash devices 5A and 5B. The main flash device 3 is arranged in front of the subject 7, the wireless flash device 5A is arranged so as to mainly irradiate the left side of the subject 7, and the wireless flash device 5B is arranged behind the subject 7 for the purpose of eliminating the shadow of the background. It is arranged to irradiate.
[0004]
FIG. 8 shows the light emission timing of this imaging system.
FIG. 8A shows the main light emission start timing at the X contact connecting the camera 1 and the main flash device 3. FIG. 8B shows a light emission pulse train in the main flash device 3. FIGS. 8C and 8D show light emission pulses of the wireless flash devices 5A and 5B, respectively.
[0005]
In this photographing system, first, the main flash device 3 performs preliminary light emission according to an instruction from the camera 1. Next, the illuminance due to the preliminary light emission is measured by the camera 1 and stored. Next, in response to an instruction from the camera 1, the main flash device 3 transmits a light emission pulse train to the wireless flash device 5A to cause preliminary flash emission. Next, the illuminance due to the preliminary light emission is measured by the camera 1 and stored. Next, in response to an instruction from the camera 1, the main flash unit 3 transmits a light emission pulse train to the wireless flash unit 5B, and performs preliminary light emission. Next, the illuminance due to the preliminary light emission is measured by the camera 1 and stored. Next, in the camera 1, an appropriate light emission amount of the main flash device 3 and the wireless flash devices 5A and 5B required at the time of main light emission is calculated. Next, in response to an instruction from the camera 1, a light emission pulse train for instructing an appropriate light emission amount at the time of main light emission is transmitted from the main flash device 3 to the wireless flash devices 5A and 5B. Finally, a light emission pulse train for causing the main flash device 3 to perform main light emission is transmitted from the main flash device 3 to the wireless flash devices 5A and 5B according to an instruction from the camera 1, and the main flash device 3 and the wireless flash devices 5A and 5B emit light simultaneously. Is
[0006]
[Problems to be solved by the invention]
However, in the above-described photographing system, there is a problem that the light emission amount at the time of the main light emission instructing the wireless flash devices 5A and 5B may exceed the light emission capability of the wireless flash devices 5A and 5B. Therefore, the photographer has to check whether or not the full flash warning is displayed on the wireless flash devices 5A and 5B after the main flash. When the full flash warning is displayed, the amount of light required for the wireless flash devices 5A and 5B has exceeded the light emitting capability, so that the arrangement of the wireless flash devices 5A and 5B can be changed. It had to be changed to a wireless flash device with higher light emission capability.
[0007]
The present invention has been made to solve such a conventional problem, and it is intended to determine whether or not the light emission capability of a wireless flash device is sufficient at the time of main light emission and how much an appropriate light emission amount is attained at the time of main light emission. It is an object of the present invention to provide a photographing system that allows a user to check in advance.
[0008]
[Means for Solving the Problems]
The photographing system according to claim 1, wherein the at least one wireless flash device is provided independently of the photographing device and is not directly connected to the photographing device; Commanding means for activating light emission and transmitting the light emission amount instruction data of main light emission, wherein the command means has display means, and does not perform the main light emission after the preliminary light emission. A mode in which an appropriate main light emission amount of the wireless flash device calculated by the preliminary light emission is displayed on the display means.
[0009]
According to a second aspect of the present invention, in the imaging system according to the first aspect, the instruction unit is the imaging device or a main flash device or a commander directly connected to the imaging device. I do.
4. The photographing system according to claim 3, wherein the photographing system according to claim 1 or 2, further comprising input means for inputting an allowable light emission amount of the wireless flash device, and the display means comprising the wireless flash device. Displaying the difference between the proper main light emission amount of the wireless flash device and the allowable light emission amount input by the input means when the proper main light emission amount is larger than the allowable light emission amount input by the input means. It is characterized by.
[0010]
5. The photographing system according to claim 4, further comprising an input unit for inputting an allowable light emission amount of the wireless flash device, wherein the display unit includes the wireless flash device. If the proper main light emission amount is larger than the allowable light emission amount input by the input means, the movement amount for changing the arrangement of the wireless flash device is displayed.
[0011]
According to a fifth aspect of the present invention, in the imaging system according to any one of the first to fourth aspects, the wireless communication is performed using a light emission pulse train.
According to a sixth aspect of the present invention, in the imaging system according to any one of the first to fifth aspects, the display means sets an appropriate main light emission amount of the wireless flash device in units of a guide number. It is characterized by displaying.
[0012]
According to a seventh aspect of the present invention, in the imaging system according to any one of the first to sixth aspects, the imaging system according to any one of the first to sixth aspects is for recognizing a proper main light emission amount of the wireless flash device displayed on the display unit. Is displayed after a predetermined time has elapsed, and is switched to a standard screen.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings.
[0014]
FIG. 1 shows an embodiment of a photographing system according to the present invention.
The photographing system 11 has a camera 15 fixed on a tripod 13, a main flash device 17, and two wireless flash devices 19A and 19B. The main flash device 17 is arranged in front of the subject 21, the wireless flash device 19A is arranged so as to mainly irradiate the left side of the subject 21, and the wireless flash device 19B illuminates the back of the subject 21 for the purpose of eliminating the shadow of the background. It is arranged to be. The wireless flash devices 19A and 19B are respectively mounted on a stand 23, are not directly connected to the photographing device 25, and exist independently.
[0015]
The camera 15 calculates the proper light emission amount after the preliminary light emission and performs the main light emission, and the wireless flash devices 19A and 19B and the main flash device calculated by the preliminary light emission without performing the main light emission after the preliminary light emission. A changeover switch 29 is provided for switching between a test light emission mode in which the proper main light emission amount of each of the 17 is displayed on a monitor 27 which is a display means provided in the main flash device 17. A release button 30 is provided on the upper surface of the camera 15.
[0016]
Further, below the monitor 27, a plurality of buttons 31 as input means for operating a screen displayed on the monitor 27 are provided. The photographer 33 operates the button 31 while watching the monitor 27 to select between the test light emission mode and the main light emission mode. The light emission timings of the main flash device 17 and the wireless flash devices 19A and 19B in the main light emission mode are the same as those of the conventional device shown in FIG.
[0017]
Next, the light emission timing of the main flash device 17 and the wireless flash devices 19A and 19B in the test flash mode will be described with reference to FIG. FIG. 2A shows a light emission pulse train in the main flash device 17. 2 (b) and 2 (c) show the timing of the preliminary light emission of the wireless flash device 19A and the wireless flash device 19B, respectively.
[0018]
In the photographing system 11, first, the release button 30 of the camera 15 is pressed, and the main flash device 17 performs preliminary light emission according to an instruction from the camera 15. Next, the illuminance due to the preliminary light emission is measured by the camera 15 and stored. Next, the main flash device 17 transmits a light emission pulse train to the wireless flash device 19A by continuously emitting light a plurality of times, thereby causing preliminary light emission. Next, the illuminance due to the preliminary light emission is measured by the camera 15 and stored. Next, the main flash device 17 transmits a light emission pulse train to the wireless flash device 19B by performing continuous light emission a plurality of times, thereby causing preliminary light emission. Next, the illuminance due to the preliminary light emission is measured by the camera 15 and stored. Next, an appropriate amount of light emission of the main flash device 17 and the wireless flash devices 19A and 19B required at the time of main light emission is calculated by the CPU incorporated in the camera 15.
[0019]
FIG. 3 shows a standard screen in the test flash mode. “TTL” in the screen means TTL automatic light control. TTL automatic light control is a technology for automatically controlling the amount of light emitted so that the amount of light reaching a film through a photographing lens becomes an appropriate amount. The indication “+1 EV” on the right adjacent to “TTL” is a correction amount in EV units with respect to the standard exposure level. This correction amount can be arbitrarily set by the photographer 33. "MAN" indicates that the wireless flash device 19B performs manual light emission. “GN16” on the right side means that the wireless flash device 19B can emit light up to the guide number 16 at the maximum, and the photographer 33 sets the button 31 as appropriate. Then, when "Start" at the lower right of the screen is selected and executed by the button 31, shooting is started. Note that the guide number is a number indicating the intensity of the allowable light emission amount of the flash device.
[0020]
FIG. 4 shows a screen displayed on the monitor 27 after the preliminary light emission. As shown in the figure, the guide number of the main flash device 17 indicates "20", the guide number of the wireless flash device 19A indicates "8", and the guide number of the wireless flash device 19B indicates "16". Here, the wireless flash device 19B has previously input the allowable light emission amount as “GN16”, but the proper light emission amount required at the time of the main light emission is insufficient by 2 EV. The difference between the light emission amount (GN16) and the appropriate light emission amount is displayed as "-2EV". On the other hand, for the main flash device 17 and the wireless flash device 19A, "OK" is displayed because the appropriate light emission amount is equal to or less than the allowable light emission amount. Then, when “end” on the lower side of the screen is selected and executed by the button 31 arranged below the monitor 27, the standard screen shown in FIG. 3 is displayed. Further, when the “movement amount display” is selected by the button 31 and executed, a screen as shown in FIG. 5 is displayed.
[0021]
FIG. 5 shows the amount of movement for changing the arrangement of the main flash device 17 and the wireless flash devices 19A and 19B displayed on the monitor 27. In the figure, "X direction" corresponds to the flash direction of each of the main flash device 17 and the wireless flash devices 19A and 19B. “−0.43” displayed below “X direction” is a distance that the wireless flash device 19 </ b> B has to move to bring the subject 21 into an appropriate illumination state. That is, it means that the object should be moved by 0.43 meters in the direction away from the subject 21 along the flash direction. In addition, "OK" is displayed because the main flash device 17 and the wireless flash device 19A are below the allowable light emission amount as shown in FIG.
[0022]
In the figure, “Y direction” indicates a direction orthogonal to the flash direction of the main flash device 17 and the wireless flash devices 19A and 19B, that is, the left-right direction of the main flash device 17 and the wireless flash devices 19A and 19B. ing. “0.41” displayed below “Y direction” is a distance that the wireless flash device 19B must move to bring the subject 21 into an appropriate illumination state. In other words, it means that the user should move 0.41 meters to the right. In addition, "OK" is displayed because the main flash device 17 and the wireless flash device 19A are below the allowable light emission amount as shown in FIG.
[0023]
“0.11” displayed below the “Z direction” is a distance that the wireless flash device 19 </ b> B must move in order to bring the subject 21 into an appropriate illumination state. That is, it means that the height of the wireless flash device 19B should be increased by 0.11 meters by extending the stem 23a of the telescopic stand 23. In addition, "OK" is displayed because the main flash device 17 and the wireless flash device 19A are below the allowable light emission amount as shown in FIG.
[0024]
Then, when “Next” at the lower right of the screen is selected and executed by the button 31 arranged below the monitor 27, the standard screen shown in FIG. 3 is displayed. In order to calculate the movement amount, it is necessary to create a database in advance. In creating this database, first, the standard subject, the main flash device 17, and the wireless flash devices 19A and 19B are arranged at standard positions. Next, only the main flash device 17 emits light each time while gradually changing the arrangement of the main flash device 17 in the front-rear, left-right, and height directions. Next, the wireless flash units 19A and 19B emit light in the same manner. Finally, based on this data, an approximate curve indicating the relationship between the change in the arrangement of the main flash device 17 or the wireless flash devices 19A and 19B and the amount of light measured by the camera 15 is obtained and stored as a database.
[0025]
FIG. 6 shows a flow of processing in the test light emission mode in the photographing system 11.
First, in step S11, setting of the photographing device 25 and the like is performed. The power of various devices is turned on, the subject 21 is placed at a predetermined position, and the camera 15, the main flash device 17, and the wireless flash devices 19A and 19B are placed facing the subject 21.
[0026]
Next, in step S12, when the changeover switch 29 of the camera 15 is set to the test light emission mode side, the screen shown in FIG. Here, the photographer 33 inputs predetermined conditions with the button 31.
Next, in step S13, "start" at the lower right of the screen is selected with the button 31, and a test light emission is instructed.
[0027]
Next, in step S14, the main flash device 17 emits light, and the camera 15 performs photometry. Next, when a predetermined time elapses after the main flash device 17 emits light, the camera 15 causes the main flash device 17 to transmit an identification code unique to the wireless flash device 19A. Upon receiving this signal, the wireless flash device 19A is ready to receive a light emission pulse train transmitted from the main flash device 17 after the unique identification code is transmitted. Next, a light emission pulse train is transmitted from the main flash device 17 to the wireless flash device 19A. Then, the wireless flash device 19A emits light, and the camera 15 performs photometry. The details of the unique identification code described above are described in Japanese Patent Application No. 2001-040089.
[0028]
Next, in step S15, an identification code unique to the wireless flash device 19B is transmitted from the main flash device 17, and the wireless flash device 19B that has received this signal is transmitted from the main flash device 17 after the unique identification code is transmitted. The light emitting pulse train can be received. Next, a light emission pulse train is transmitted from the main flash device 17 to the wireless flash device 19B. Then, the wireless flash device 19B emits light, and the camera 15 performs photometry.
[0029]
Next, in step S16, based on the data measured by the camera 15 when the main flash device 17 and the wireless flash devices 19A and 19B emit light, the camera 15 can use the proper main flash device 17 and wireless flash device 19A, The light emission amount of 19B is calculated.
Next, in step S17, the monitor 27 indicates whether or not the main flash device 17 and the wireless flash devices 19A and 19B can properly emit light during the main light emission. At this time, the screen of FIG. 4 is displayed.
[0030]
Next, in step S18, it is determined whether or not the proper main light emission amounts of the main flash device 17 and the wireless flash devices 19A and 19B are each equal to or less than the allowable light emission amount. When all of the main flash device 17 and the wireless flash devices 19A and 19B are equal to or less than the allowable light emission amount, "end" at the lower side of the screen is selected by the button 31 and executed. Then, the screen of the monitor 27 is switched to the standard screen shown in FIG. 3, and a series of processing ends. On the other hand, if at least one of the main flash device 17 and the wireless flash devices 19A and 19B is not equal to or less than the allowable light emission amount, the “movement amount display” on the lower side of the screen is selected and executed. Then, the process proceeds to step S19.
[0031]
In step S19, a screen indicating the moving amount of the arrangement change of the wireless flash device 19B shown in FIG. 5 is displayed.
Next, in step S20, the arrangement of the wireless flash device 19B is changed. When the change of the arrangement is completed, "next" displayed at the lower right of the screen shown in FIG. Then, the process returns to step S12, and the standard screen of the test light emission mode shown in FIG. 3 is displayed.
[0032]
The photographing system of this embodiment is provided with wireless flash units 19A and 19B and a main flash unit 17 for starting preliminary light emission and transmitting main light emission amount instruction data to the wireless flash devices 19A and 19B by wireless communication. In addition, a test flash mode is provided in which the main flash device 17 and the proper flash amounts of the wireless flash devices 19A and 19B calculated by the preliminary flash without performing the main flash after the preliminary flash are displayed on the monitor 27. An appropriate main light emission amount can be confirmed without performing this operation. For this reason, it is possible to check in advance after preliminary light emission whether the main flash device 17 and the wireless flash devices 19A and 19B have sufficient light emission capability during main light emission. Further, at this time, even if any of the main flash device 17 and the wireless flash devices 19A and 19B exceeds the allowable light emission amount, it can be suppressed to the allowable light emission amount or less by changing the photographing conditions and arrangement. . Alternatively, the main flash device 17 and the wireless flash devices 19A and 19B can be changed to a flash device having a larger maximum light emission amount.
[0033]
Further, in the photographing system of this embodiment, when the proper main light emission amount of the main flash device 17 and the wireless flash devices 19A and 19B exceeds the allowable light emission amount, the monitor 27 displays the allowable main light emission amount and the proper main light emission amount. In the case where the light emission amount required for the main flash device 17 and the wireless flash devices 19A and 19B exceeds the allowable light emission amount, it is easy to recognize how much light emission amount is insufficient. When the main flash device 17 and the wireless flash devices 19A and 19B are replaced with other flash devices, it is possible to prevent unnecessary use of a large flash device having a large maximum light emission amount.
[0034]
In the above-described embodiment, the example in which the monitor 27 is provided in the main flash device 17 has been described. However, the monitor 27 may be provided in the camera 15 or the wireless flash devices 19A and 19B.
Further, in the above-described embodiment, an example has been described in which the main flash device 17 transmits the light emission pulse train to the wireless flash devices 19A and 19B. May be transmitted. Note that the commander is a device that transmits a light emission pulse train to the wireless flash devices 19A and 19B, like the main flash device 17, but does not have a function of illuminating the subject 21.
[0035]
Further, in the above-described embodiment, an example has been described in which the light emission pulse train is transmitted from the main flash device 17 to the wireless flash devices 19A and 19B, but the camera 15 may be transmitted to the wireless flash devices 19A and 19B. Alternatively, the light emission pulse train may be transmitted between the wireless flash device 19A and the wireless flash device 19B. In short, any communication path may be followed as long as the main flash device 17 and the wireless flash devices 19A and 19B can emit light.
[0036]
In the above-described embodiment, the example in which the button 31 as the input unit is provided in the main flash device 17 has been described, but the button 31 may be provided in the camera 15. Also, instead of operating with the button 31, a cable may be connected to the camera 15 or the main flash device 17 to operate from a personal computer or a mobile phone.
Further, in the above-described embodiment, the display shown in FIG. 4 for confirming the proper main light emission amounts of the main flash device 17 and the wireless flash devices 19A and 19B selects “end” or “movement amount display”. In the above, an example in which the screen is switched has been described. However, the screen may be deleted after a predetermined time has elapsed, and the screen may be switched to the standard screen illustrated in FIG.
[0037]
【The invention's effect】
As described above, the imaging system of the present invention includes the wireless flash device and the command means for starting the preliminary light emission and transmitting the light emission amount instruction data of the main light emission by wireless communication with the wireless flash device. In addition, a mode is provided in which the display unit displays the appropriate flash amount at the time of main flash of the wireless flash device calculated by the preliminary flash without performing the main flash after the preliminary flash, so that proper main flash can be performed without performing the main flash. You can check the quantity. That is, the photographer can confirm in advance by the display means after preliminary light emission whether or not the light emission capability of the wireless flash device is sufficient during the main light emission and how much the proper light emission amount is at the time of the main light emission.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing one embodiment of a photographing system of the present invention.
FIG. 2 is an explanatory diagram showing light emission timings in a test light emission mode of the photographing system of FIG. 1;
FIG. 3 is an explanatory diagram showing a standard screen in a test flash mode displayed on the monitor of FIG. 1;
FIG. 4 is an explanatory diagram showing a test result in a test light emission mode displayed on the monitor of FIG. 1;
FIG. 5 is an explanatory diagram showing a movement amount of a change in arrangement of a main flash device and a wireless flash device in a test flash mode displayed on the monitor of FIG. 1;
FIG. 6 is an explanatory diagram showing a processing flow in a test light emission mode of the imaging system of FIG. 1;
FIG. 7 is an explanatory diagram showing one embodiment of a conventional photographing system.
FIG. 8 is an explanatory diagram showing light emission timing of the imaging system of FIG. 7;
[Explanation of symbols]
11 shooting system 15 camera 17 main flash device 19A, 19B wireless flash device 25 shooting device 27 monitor 31 button

Claims (7)

At least one wireless flash device that is independent of the shooting device and is not directly connected to the shooting device;
Command means for starting the preliminary light emission and transmitting the light emission amount instruction data of the main light emission by wireless communication with the wireless flash device,
An imaging system having
The command means has a display means, and has a mode of displaying on the display means an appropriate main light emission amount of the wireless flash device calculated by the preliminary light emission without performing the main light emission after the preliminary light emission. An imaging system characterized in that: The photographing system according to claim 1,
The photographing system, wherein the command means is the photographing device or a main flash device or a commander directly connected to the photographing device. In the photographing system according to claim 1 or 2,
Input means for inputting an allowable light emission amount of the wireless flash device,
The display means, when the proper main light emission amount of the wireless flash device is larger than the allowable light emission amount input by the input means, the allowable light amount input by the input means and the proper main light emission amount of the wireless flash device. An imaging system for displaying a difference from a light emission amount. In the photographing system according to claim 1 or 2,
Input means for inputting an allowable light emission amount of the wireless flash device,
The display means displays the movement amount for changing the arrangement of the wireless flash device when the proper main light emission amount of the wireless flash device is larger than the allowable light amount input by the input means. And a shooting system. The photographing system according to any one of claims 1 to 4,
The radio communication is performed by using a light emission pulse train. The photographing system according to any one of claims 1 to 5,
The photographing system, wherein the display means displays an appropriate main light emission amount of the wireless flash device in units of a guide number. The imaging system according to any one of claims 1 to 6,
A photographing system, wherein the display for recognizing an appropriate main light emission amount of the wireless flash device displayed on the display means is deleted after a predetermined time has elapsed, and the display is switched to a standard screen.

Images