JP7029657B2 - Shooting equipment and outdoor lighting equipment - Google Patents

Description

The present invention relates to an outdoor lighting device that functions as a shooting device for moving images and still images.

It has become common to watch videos and the like on mobile terminals such as smartphones. Patent Document 1 discloses a communication system capable of viewing live video on a receiving terminal.

Japanese Unexamined Patent Publication No. 2013-02514

By the way, in so-called self-shooting in which a user takes a still image of himself / herself with a camera-equipped mobile terminal held in the user's hand, camera shake is likely to occur because the position of the camera-equipped mobile terminal is not stable. In addition, it is difficult to secure a distance between the user and the camera-equipped mobile terminal.

The present invention provides a photographing device and an outdoor lighting device that allow a user to easily capture a still image or the like of the user himself / herself.

The photographing device according to one aspect of the present invention includes an authentication unit that establishes a wireless communication connection with the mobile terminal by authenticating the mobile terminal, a camera that captures moving images and still images, and the camera that captures images. Still images from the transmission unit that transmits the moving image information for displaying the moving image on the display unit of the mobile terminal for which the wireless communication connection is established, and the mobile terminal that receives the moving image information. A receiving unit that receives shooting instruction information for instructing shooting, a camera that causes the camera to shoot a still image based on the received shooting instruction information, and a mobile terminal that transmits the image information of the shot still image to the transmitting unit. It is provided with a control unit that controls transmission to.

The outdoor lighting device according to one aspect of the present invention is a columnar outdoor lighting device installed on a road surface, and is described above by causing a lighting unit, a camera that captures moving images and still images, and the lighting unit to emit light. It includes a control unit that selectively executes control of a lighting mode that illuminates the surroundings of the outdoor lighting device and control of a camera mode that causes the camera to shoot a moving image and a still image.

According to the photographing device and the outdoor lighting device of the present invention, the user can easily photograph the still image of the user himself / herself.

FIG. 1 is a diagram for explaining an outline of an outdoor lighting device according to an embodiment. FIG. 2 is an external perspective view of the outdoor lighting device according to the embodiment. FIG. 3 is an exploded perspective view of the outdoor lighting device according to the embodiment. FIG. 4 is a block diagram showing a functional configuration of the outdoor lighting device according to the embodiment. FIG. 5 is a block diagram showing a functional configuration of the mobile terminal according to the embodiment. FIG. 6 is a flowchart of the control mode switching operation. FIG. 7 is a flowchart of lighting mode control. FIG. 8 is a sequence diagram showing an outline of control of the camera mode. FIG. 9 is a flowchart of camera mode control. FIG. 10 is a diagram showing an example in which a plurality of outdoor lighting devices are arranged side by side. FIG. 11 is a flowchart of a modification 1 of the control of the camera mode. FIG. 12 is a flowchart of a modification 2 of the control of the camera mode. FIG. 13 is a flowchart of a modification 3 of the control of the camera mode. FIG. 14 is an external perspective view of the outdoor lighting device according to the modified example. FIG. 15 is an exploded perspective view of the outdoor lighting device according to the modified example.

Hereinafter, embodiments will be described with reference to the drawings. It should be noted that all of the embodiments described below are comprehensive or specific examples. The numerical values, shapes, materials, components, arrangement positions and connection forms of the components, steps, the order of steps, etc. shown in the following embodiments are examples, and are not intended to limit the present invention. Further, among the components in the following embodiments, the components not described in the independent claim indicating the highest level concept are described as arbitrary components.

It should be noted that each figure is a schematic view and is not necessarily exactly shown. Further, in each figure, the same reference numerals are given to substantially the same configurations, and duplicate explanations may be omitted or simplified.

(Embodiment)
[Overview]
Hereinafter, the outdoor lighting device according to the embodiment will be described. FIG. 1 is a diagram for explaining an outline of an outdoor lighting device. FIG. 2 is an external perspective view of the outdoor lighting device.

As shown in FIGS. 1 and 2, the outdoor lighting device 100 according to the embodiment is a columnar lighting device installed on a road surface. The outdoor lighting device 100 is specifically a pole light, but the specific embodiment of the outdoor lighting device 100 is not particularly limited.

The outdoor lighting device 100 is installed on a road surface such as a tourist spot. The outdoor lighting device 100 includes a lighting unit 11 that illuminates the surroundings, and usually functions as lighting that illuminates the surroundings. That is, the outdoor lighting device 100 has a lighting mode. On the other hand, the outdoor lighting device 100 includes a camera 12. When the mobile terminal 30 executing a predetermined application is held over the upper surface of the outdoor lighting device 100, the camera 12 is activated, and the outdoor lighting device 100 is in a camera mode in which a commemorative photo can be taken by the camera 12.

When the outdoor lighting device 100 is in the camera mode, the moving image currently being captured by the camera 12 is displayed on the display unit 31 of the mobile terminal 30. Further, when the moving image is displayed, the shooting instruction icon I is also displayed on the display unit 31. When the user taps the shooting instruction icon I, a still image is shot by the camera 12, and the image information of the shot still image is transmitted to the mobile terminal 30.

As described above, the outdoor lighting device 100 according to the embodiment has not only a lighting function but also a so-called self-shooting function, which is particularly useful in tourist spots and the like.

[Structure of outdoor lighting equipment]
Hereinafter, the structure of the outdoor lighting device 100 will be described with reference to FIG. 3 in addition to FIG. FIG. 3 is an exploded perspective view of the outdoor lighting device 100.

The outdoor lighting device 100 is a prismatic pole light. The outdoor lighting device 100 is erected on the road surface. The outdoor lighting device 100 includes a power supply unit 20 fixed to the road surface by a fixing member such as a screw, and a functional unit 10 detachably attached to the upper portion of the power supply unit 20.

The power supply unit 20 is a device that supplies electric power to the functional unit 10. Specifically, the power supply unit 20 has a power supply cable 21 for obtaining electric power from the outside and a convex structure 22 into which the functional unit 10 is inserted. The convex structure 22 is arranged at the upper part of the power supply unit 20 and includes a contact portion 23 formed of a metal material. When the functional unit 10 is inserted into the convex structure 22, the power supply unit 20 and the functional unit 10 are not only mechanically connected but also electrically connected by the contact unit 23. Power is supplied to the functional unit 10 from the power supply unit 20 via the contact unit 23.

The functional portion 10 inserted into the convex structure 22 is fixed by the fixing screw 24. The functional portion 10 is provided with an insertion hole 13 into which the fixing screw 24 is inserted from above, and the insertion hole 13 is closed by the lid 14.

The functional unit 10 operates using the electric power supplied from the power supply unit 20. The functional unit 10 has a rectangular parallelepiped outer shape, and most of the functional unit 10 is an illumination unit 11 that illuminates the surroundings. The illumination unit 11 emits light for illuminating the surroundings in the illumination mode. Further, the illumination unit 11 emits light that illuminates the shooting range of the camera 12 even in the camera mode.

Further, the functional unit 10 includes a camera 12 that captures a moving image and a still image when the outdoor lighting device 100 is in the camera mode. When the camera 12 is viewed from the front, the lighting unit 11 is arranged around the camera 12. As a result, the illumination unit 11 can effectively illuminate the shooting range of the camera 12 even in the camera mode.

[Functional configuration of outdoor lighting equipment]
Next, the functional configuration of the outdoor lighting device 100 will be described. FIG. 4 is a block diagram showing a functional configuration of the outdoor lighting device 100. Note that FIG. 4 also illustrates some of the components already described, such as the power cable 21.

First, the power supply unit 20 will be described. As shown in FIG. 4, the power supply unit 20 includes a power supply control unit 25 and an output unit 26.

The power supply control unit 25 controls to convert the electric power obtained through the power cable 21 into electric power suitable for the operation of the functional unit 10. Specifically, the power supply control unit 25 is a power supply circuit that converts AC power obtained from the power system via the power cable 21 into DC power and outputs it. The power supply circuit includes a rectifier circuit, a switching power supply circuit, and the like.

The output unit 26 outputs the DC power output from the power supply control unit 25 to the input unit 15. The output unit 26 is, for example, an output interface circuit including a protection circuit and the like.

Next, the functional unit 10 will be described. The functional unit 10 includes a lighting unit 11, a camera 12, an input unit 15, a terminal detection unit 16a, an authentication unit 16b, a wireless communication unit 16c, a brightness detection unit 17, a control unit 18, and a storage unit. It is equipped with 19.

The input unit 15 distributes the DC power supplied from the output unit 26 to each of the plurality of components included in the functional unit 10. The DC power is converted into power suitable for the operation of each component and then distributed. The input unit 15 includes, for example, a power conversion circuit such as a DC-DC converter.

The lighting unit 11 illuminates the surroundings of the functional unit 10 based on the control of the control unit 18. The lighting unit 11 includes, for example, a light emitting element such as an LED (Light Emitting Diode), a light emitting control circuit that controls light emission of the light emitting element, and a translucent cover that transmits light emitted by the light emitting element. The illumination unit 11 emits white light, for example. The light emission control circuit may be compatible with a dimming function or a toning function. That is, the brightness and the color temperature of the illumination unit 11 may be adjusted by the control unit 18.

The camera 12 captures a moving image and a still image under the control of the control unit 18. The camera 12 is a camera unit including, for example, an image sensor and a lens. Specific examples of the image sensor include a CMOS (Complementary Metal Oxide Semiconductor) image sensor and a CCD (Chage Coupled Device) image sensor.

The terminal detection unit 16a detects the mobile terminal 30. The terminal detection unit 16a detects the proximity of the mobile terminal 30 to the upper surface of the functional unit 10 by using, for example, short-range wireless communication. For short-range wireless communication, a method having a shorter communicable distance than the wireless communication performed by the wireless communication unit 16c is used. Specifically, the terminal detection unit 16a is an RFID (Radio Frequency Identification) module that detects the short-range wireless communication unit 34 of the mobile terminal 30 and reads the ID of the mobile terminal 30 or the like. The RFID module is, for example, a circuit module having an RFID tag reader function. Specifically, the RFID module includes an NFC (Near Field Radio Communication) module and the like.

The authentication unit 16b authenticates the mobile terminal 30 using the ID of the mobile terminal 30 read by the terminal detection unit 16a, and establishes a wireless communication connection with the mobile terminal 30 using the wireless communication unit 16c. The authentication unit 16b is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit. The authentication unit 16b may be realized by a combination of two or more of a microcomputer, a processor, and a dedicated circuit. The authentication unit 16b may be realized as a part of the control unit 18.

The wireless communication unit 16c performs wireless communication with the mobile terminal 30 after the wireless communication connection with the mobile terminal 30 is established by the authentication unit 16b. Specifically, the wireless communication unit 16c functions as a transmission unit and transmits moving image information to the mobile terminal 30 based on the control of the control unit 18. The moving image information is information for displaying the moving image taken by the camera 12 on the display unit 31 of the mobile terminal 30 in which the wireless communication connection is established.

Further, the wireless communication unit 16c functions as a receiving unit and receives shooting instruction information for instructing shooting of a still image from the mobile terminal 30 receiving the moving image information. In other words, the wireless communication unit 16c receives the shooting instruction information from the mobile terminal 30 whose moving image is displayed on the display unit 31.

The wireless communication unit 16c is realized by, for example, a communication circuit corresponding to a wireless communication standard such as Bluetooth (registered trademark). The communication circuit is, in other words, a communication module. A wireless communication standard other than Bluetooth (registered trademark) may be used, and the wireless communication standard used by the wireless communication unit 16c is not particularly limited. The wireless communication unit 16c may be, for example, a communication circuit corresponding to Wi-Fi (registered trademark).

The wireless communication unit 16c directly performs wireless communication with the wireless communication unit 35 of the mobile terminal 30, for example, without going through a communication network such as the Internet or a relay device such as a server. The wireless communication unit 16c may perform wireless communication with the wireless communication unit 35 of the mobile terminal 30 via the Internet, a server, or the like. In this case, the server can store the shooting history of the plurality of outdoor lighting devices 100 for each installation location of the outdoor lighting device 100, so that the installer can utilize the information. For example, the installer can consider adding the outdoor lighting device 100 to a place where the outdoor lighting device 100 is frequently used.

The brightness detection unit 17 is a sensor that detects the ambient brightness of the outdoor lighting device 100. The brightness detection unit 17 may detect the brightness of the shooting range of the camera 12. The brightness detection unit 17 is a sensing circuit including, for example, a photoelectric conversion element such as a photodiode and an amplifier circuit. The sensing circuit is, in other words, a sensing module. The brightness detection unit 17 may be an image processing unit that detects the brightness by image processing a moving image or a still image taken by the camera 12. In this case, the image processing unit is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit. The image processing unit may be realized by a combination of two or more of a microcomputer, a processor, and a dedicated circuit. The image processing unit may be realized as a part of the control unit 18.

The control unit 18 is a control device that controls the lighting unit 11, the camera 12, the authentication unit 16b, the wireless communication unit 16c, and the like. Specifically, when the mobile terminal 30 is detected during the control of the lighting mode, the control unit 18 starts the control of the camera mode instead of the control of the lighting mode. In the control of the camera mode, the control unit 18 causes the camera to shoot a still image based on the shooting instruction information received by the wireless communication unit 16c. Further, the control unit 18 causes the wireless communication unit 16c to transmit the image information of the captured still image to the mobile terminal 30. The image information of the still image is information for displaying the still image taken by the camera 12 on the display unit 31 of the mobile terminal 30. In the following embodiment, the image information of the still image is also simply described as image information.

The control unit 18 is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit. The control unit 18 may be realized by a combination of two or more of a microcomputer, a processor, and a dedicated circuit.

The storage unit 19 is a storage device that stores a control program or the like executed by the control unit 18. The storage unit 19 is realized by, for example, a semiconductor memory. The storage unit 19 may be included in the control unit 18.

[Mobile terminal]
Next, the functional configuration of the mobile terminal 30 will be described. FIG. 5 is a block diagram showing a functional configuration of the mobile terminal 30. As shown in FIG. 5, the mobile terminal 30 includes a display unit 31, an operation reception unit 32, a terminal control unit 33, a short-range wireless communication unit 34, a wireless communication unit 35, and a storage unit 36. ..

The mobile terminal 30 is an information terminal for the user to receive moving image information and still image image information taken by the camera 12 from the outdoor lighting device 100. The mobile terminal 30 is, for example, a tablet terminal or a smartphone.

The operation reception unit 32 receives the user's operation. The operation receiving unit 32 is realized by, for example, a touch panel, a hardware button, or the like. Specifically, the operation receiving unit 32 receives an execution operation of a dedicated application for communicating with the outdoor lighting device 100, a shooting instruction operation, and the like.

The terminal control unit 33 performs control according to the operation based on the operation received by the operation reception unit 32. The terminal control unit 33 is realized by, for example, a microcomputer, but may be realized by a processor or a dedicated circuit. The terminal control unit 33 may be realized by a combination of two or more of a microcomputer, a processor, and a dedicated circuit.

For example, when the operation receiving unit 32 accepts the execution operation of the dedicated application, the terminal control unit 33 executes the dedicated application stored in the storage unit 36. Further, when the operation reception unit 32 receives the shooting instruction operation, the terminal control unit 33 causes the wireless communication unit 35 to transmit the shooting instruction information.

The short-range wireless communication unit 34 is a detection object used by the terminal detection unit 16a of the outdoor lighting device 100 to detect the mobile terminal 30. The short-range wireless communication unit 34 is, for example, an RFID tag, but may be an RFID module or the like.

The wireless communication unit 35 transmits the shooting instruction information to the outdoor lighting device 100 based on the control of the terminal control unit 33. The wireless communication unit 35 receives the moving image information and the still image image information transmitted from the outdoor lighting device 100. Specifically, the wireless communication unit 35 is realized by a communication circuit corresponding to a wireless communication standard such as Bluetooth (registered trademark). The communication circuit is, in other words, a communication module. A wireless communication standard other than Bluetooth (registered trademark) may be used, and the wireless communication standard used by the wireless communication unit 35 is not particularly limited. The wireless communication unit 35 may be, for example, a communication circuit corresponding to Wi-Fi (registered trademark).

The display unit 31 displays a moving image corresponding to the moving image information received by the wireless communication unit 35 based on the control of the terminal control unit 33. While the moving image is being displayed, the shooting instruction icon I is also displayed. Further, the display unit 31 can also display a still image based on the image information received by the wireless communication unit 35 and stored in the storage unit 36. The display unit 31 is realized by a display device such as a liquid crystal panel or an organic EL panel.

The short-range wireless communication unit 34 is a detection target used by the outdoor lighting device 100 to detect the mobile terminal 30. The short-range wireless communication unit 34 is, for example, an RFID tag, but may be an RFID module or the like.

The storage unit 36 is a storage device that stores a dedicated application executed by the terminal control unit 33, moving image information received by the wireless communication unit 35, image information received by the wireless communication unit 35, and the like. Specifically, the storage unit 36 is realized by a semiconductor memory or the like.

[Operation of outdoor lighting equipment]
Next, the operation of the outdoor lighting device 100 will be described. First, the control mode switching operation will be described. FIG. 6 is a flowchart of the control mode switching operation.

The outdoor lighting device 100 is basically in the lighting mode. That is, the control unit 18 controls the lighting mode that illuminates the surroundings of the outdoor lighting device 100 by causing the lighting unit 11 to emit light (S11).

During the control of the lighting mode, the control unit 18 determines whether or not the mobile terminal 30 running the dedicated application is detected by the terminal detection unit 16a (S12). In other words, the control unit 18 determines whether or not the user of the mobile terminal 30 has brought the mobile terminal 30 in a state where the dedicated application is executed closer to the outdoor lighting device 100. A sticker or the like on which the download destination address of the dedicated application is described may be attached to the outdoor lighting device 100. The address is described by, for example, a two-dimensional bar code. This allows the user to download the dedicated application on the spot. It should be noted that the sticker may contain information such as shooting spot information.

When the control unit 18 determines that the mobile terminal 30 has not been detected by the terminal detection unit 16a (No in S12), the control unit 18 continues to control the lighting mode (S11). On the other hand, when the control unit 18 determines that the mobile terminal 30 has been detected by the terminal detection unit 16a (Yes in S12), the control unit 18 starts controlling the camera mode for causing the camera to shoot a moving image and a still image (S13).

In this way, the control unit 18 selectively executes the control of the illumination mode and the control of the camera mode. Specifically, when the mobile terminal 30 is detected during the control of the lighting mode, the control unit 18 starts the control of the camera mode instead of the control of the lighting mode. As a result, the outdoor lighting device 100 can function not only as a lighting device but also as a shooting device for moving images and still images.

The operation of such an outdoor lighting device 10 is an example. The execution of the dedicated application may be automatically performed based on the position information detected by the position sensor such as the GPS (Global Positioning System) module included in the mobile terminal 30. For example, when the distance from the position of the mobile terminal 30 indicated by the position information detected by the position sensor to the position of the outdoor lighting device 100 is not more than a predetermined distance, the terminal control unit 33 may launch a dedicated application. .. Further, when the distance from the position of the mobile terminal 30 indicated by the position information detected by the position sensor to the position of the outdoor lighting device 100 exceeds a predetermined distance, the terminal control unit 33 terminates the dedicated application being executed. The position of the outdoor lighting device 100 is stored in the storage unit 36 together with the dedicated application when the dedicated application is downloaded.

[Lighting mode control]
Next, the control of the illumination mode of the control unit 18 will be described. FIG. 7 is a flowchart of control of the lighting mode of the outdoor lighting device 100.

The control unit 18 determines whether or not the brightness detected by the brightness detection unit 17 is less than a predetermined brightness when the illumination unit 11 is turned off (S21) (S22). When the control unit 18 determines that the brightness detected by the brightness detection unit 17 is equal to or higher than a predetermined brightness (No in S22), the control unit 18 maintains the extinguished state of the lighting unit 11 (S21). When the control unit 18 determines that the brightness detected by the brightness detection unit 17 is less than a predetermined brightness (Yes in S22), the control unit 18 causes the illumination unit 11 to emit light (S23). In other words, the control unit 18 lights the illumination unit 11.

In the lighting mode, it is not essential that the lighting unit 11 is turned on according to the brightness of the surroundings. The outdoor lighting device 100 may always emit light in the lighting mode.

[Camera mode control]
Next, the control of the camera mode will be described. First, the outline of the control of the camera mode will be described using a sequence diagram. FIG. 8 is a sequence diagram showing an outline of control of the camera mode.

When the operation receiving unit 32 accepts the execution operation of the dedicated application (S31), the terminal control unit 33 of the mobile terminal 30 executes the dedicated application stored in the storage unit 36 (S32). When the mobile terminal 30 running the application is brought closer to the outdoor lighting device 100 by the user, the terminal detection unit 16a detects such a mobile terminal 30 (S33), and the control unit 18 starts controlling the camera mode. do.

In the control of the camera mode, the control unit 18 causes the wireless communication unit 16c to live-stream the moving image being photographed by the camera 12. Live distribution is, in other words, real-time distribution. Specifically, the mobile terminal 30 transmits moving image information for displaying the moving image taken by the camera 12 on the display unit 31 (S34). The transmitted moving image information is received by the wireless communication unit 35 of the mobile terminal 30 (S35), and the display unit 31 displays the moving image based on the received moving image information (S36).

Next, the operation receiving unit 32 receives a shooting instruction operation (S37). Specifically, the operation reception unit 32 accepts a tap operation to the shooting instruction icon described with reference to FIG. Then, the terminal control unit 33 causes the wireless communication unit 35 to transmit the shooting instruction information (S38).

When the control unit 18 of the outdoor lighting device 100 receives the shooting instruction information by the wireless communication unit 16c (S39), the camera 12 causes the camera 12 to shoot a still image (S40), and wirelessly communicates the image information of the shot still image. It is transmitted to the unit 16c (S41). When the image information of the still image is received by the wireless communication unit 35 of the mobile terminal 30 (S42), the terminal control unit 33 stores the image information of the received still image in the storage unit 36 (S43).

Next, the details of the camera mode control of the control unit 18 will be described with reference to the flowchart. FIG. 9 is a flowchart of camera mode control.

First, the control unit 18 establishes a wireless communication connection with the mobile terminal 30 by having the authentication unit 16b authenticate the mobile terminal 30 (S51). Specifically, the authentication unit 16b authenticates the mobile terminal 30 using the ID of the mobile terminal 30 read by the terminal detection unit 16a.

Next, the control unit 18 determines whether or not the brightness detected by the brightness detection unit 17 is less than a predetermined brightness (S52). When the control unit 18 determines that the brightness detected by the brightness detection unit 17 is less than a predetermined brightness (Yes in S52), the control unit 18 causes the lighting unit 11 in the extinguished state to emit light (S53). At this time, the control unit 18 may adjust the brightness of the illumination unit 11 so that the brightness detected by the brightness detection unit 17 becomes a predetermined brightness. On the other hand, when the control unit 18 determines that the brightness detected by the brightness detection unit 17 is equal to or higher than a predetermined brightness (No in S52), the process of step S53 is skipped and the process of step S54 is performed. I do.

As in the process of step S52 and the process of step S53, when the brightness of the periphery of the outdoor lighting device 100 is insufficient in the control of the camera mode, the lighting unit 11 illuminates the surrounding space in the control of the lighting mode. Is used as lighting for taking moving images and still images. The lighting unit 11 is turned off once at the start of control of the camera mode, but may emit light at the start of control of the camera mode.

Next, the control unit 18 activates the camera 12 and transmits the moving image information of the moving image taken by the camera 12 to the wireless communication unit 16c to the mobile terminal 30 for which the wireless communication connection is established in step S51. (S54). In other words, the wireless communication unit 16c live-streams the moving image being photographed by the camera 12 to the mobile terminal 30. The moving image information is information for displaying the moving image on the display unit 31.

After that, the control unit 18 determines whether or not the wireless communication unit 16c has received the shooting instruction information from the mobile terminal 30 receiving the moving image information (S55). The shooting instruction information is information for instructing the shooting of a still image. When the control unit 18 determines that the wireless communication unit 16c has received the shooting instruction information (Yes in S55), the control unit 18 causes the camera 12 to shoot a still image based on the received shooting instruction information (S56). For example, among the frames constituting the moving image during shooting, the camera 12 sets the frame shot immediately after the shooting instruction information is received as the still image, but sets the still image separately from the frame constituting the moving image. You may take a picture. That is, "shooting a still image" includes both a case where the frame constituting the moving image is a still image and a case where a still image is shot separately from the moving image. Then, the control unit 18 causes the wireless communication unit 16c to transmit the image information of the captured still image to the mobile terminal 30 (S57). The determination in step S55 is continued until the shooting instruction information is received (No in S55).

Next, the control unit 18 determines whether or not the number of times the still image is taken is less than a predetermined number (S58). When the number of times the still image is taken is less than a predetermined number (Yes in S58), the control unit 18 re-determines step S55. When the number of times of taking a still image is equal to or more than a predetermined number (No in S58), the control unit 18 stops the camera 12 (S59) and ends the control of the camera mode. The process of step S58 is a process of setting an upper limit on the number of times of taking a still image so that the same user does not monopolize the outdoor lighting device 100. The process of step S58 is not an essential process.

As described above, if the outdoor lighting device 100 provided with the camera 12 separate from the mobile terminal 30 is used for shooting a still image, the camera 12 is fixed and camera shake is less likely to occur. In addition, it is easy to secure the distance between the user and the camera 12. Further, since the moving image currently taken by the camera 12 is displayed in real time on the display unit 31, the user can easily recognize the shooting situation. Therefore, according to the outdoor lighting device 100, the user of the mobile terminal 30 can easily take a still image. In particular, the user can easily take a still image of the user himself / herself.

Further, when the lighting unit 11 emits light in step S53, the control unit 18 causes the camera to take a still image based on the shooting instruction information while causing the lighting unit 11 to emit light. As a result, the control unit 18 can prevent the subject from becoming unclear due to insufficient brightness in the still image.

[Camera mode control variant 1]
By the way, as shown in FIG. 10, it is assumed that a plurality of outdoor lighting devices 100 are arranged side by side. FIG. 10 is a diagram showing an example in which a plurality of outdoor lighting devices 100 are arranged side by side. In the example of FIG. 10, the outdoor lighting device 100a is arranged next to one of the outdoor lighting devices 100, and the outdoor lighting device 100b is arranged next to the other of the outdoor lighting devices 100.

In such a case, the control unit 18 may cause not only the lighting unit 11 of the outdoor lighting device 100 but also the lighting unit 11 of the outdoor lighting device 100a and the lighting unit 11 of the outdoor lighting device 100b to emit light. For example, when the lighting unit 11 of the outdoor lighting device 100 is emitting light and the brightness is insufficient, the control unit 18 is the lighting unit 11 of the outdoor lighting device 100a and the lighting unit of the outdoor lighting device 100b. At least one of 11 may be made to emit light.

Hereinafter, a modification 1 of the control of the camera mode of the control unit 18 will be described. FIG. 11 is a flowchart of a modification 1 of the control of the camera mode. In the following description of the modified example 1, the description will be centered on the differences from the flowchart of FIG.

As shown in FIG. 11, in the first modification, the control unit 18 causes the illumination unit 11 to emit light (S53), and then again, the brightness detected by the brightness detection unit 17 is less than a predetermined brightness. It is determined whether or not there is (S61). If the control unit 18 determines that the brightness detected by the brightness detection unit 17 is less than a predetermined brightness even though the lighting unit 11 is emitting light (Yes in S61), the control unit 18 determines that the brightness is less than the predetermined brightness, and the other outdoors. A command for causing the lighting unit 11 included in the lighting device 100 to emit light is transmitted to the wireless communication unit 16c (S62). The wireless communication unit 16c transmits the command to at least one of the outdoor lighting device 100a and the outdoor lighting device 100b. When the control unit 18 determines that the brightness detected by the brightness detection unit 17 is equal to or higher than a predetermined brightness (No in S61), the control unit 18 skips the process of step S62 and performs the process of step S54. ..

As described above, in the first modification, the control unit 18 is the lighting unit 11 of the outdoor lighting device 100a and the lighting unit 11 of the outdoor lighting device 100a when the brightness is insufficient even when the lighting unit 11 of the outdoor lighting device 100 is emitting light. At least one of the lighting units 11 of the outdoor lighting device 100b is made to emit light. As a result, it is possible to prevent the still image from being taken in a state where the ambient brightness is insufficient. That is, the quality of the still image can be improved.

When the outdoor lighting device 100 under control of the camera mode receives the above command from another outdoor lighting device such as the outdoor lighting device 100a, the outdoor lighting device 100 gives priority to the control of its own camera mode and does not obey the command. good. In this case, the control unit 18 of the outdoor lighting device 100 is controlling the camera mode by blinking the lighting unit 11 of the outdoor lighting device 100, and cannot participate in the shooting of the still image by the outdoor lighting device 100a. You may notify that.

[Camera mode control modification 2]
The brightness of the lighting unit 11 may be adjusted by the user of the mobile terminal 30. Hereinafter, a modification 2 of the control of the camera mode of the control unit 18 will be described. FIG. 12 is a flowchart of a modification 2 of the control of the camera mode. In the following description of the modified example 2, the description will be centered on the differences from the flowchart of FIG.

As shown in FIG. 12, in the second modification, after the control unit 18 causes the wireless communication unit 16c to transmit the moving image information of the moving image (S54), the wireless communication unit 16c instructs the brightness from the mobile terminal 30. It is determined whether or not the information has been received (S71). The brightness instruction information is information that indicates the brightness of the lighting unit 11. When the control unit 18 determines that the wireless communication unit 16c has received the brightness instruction information (Yes in S71), the control unit 18 causes the illumination unit 11 to emit light with the brightness based on the received brightness instruction information (S72). The process of step S72 includes a process of turning off the light emitting unit 11 during light emission, a process of turning off the light emitting unit 11, and a process of adjusting the brightness of the light emitting unit 11. The determination in step S71 is continuously performed until the shooting instruction information is received (No in S71, No in S55).

As described above, in the second modification, the wireless communication unit 16c receives the brightness instruction information indicating the brightness of the lighting unit 11 from the mobile terminal 30, and the control unit 18 receives the received brightness instruction information. Based on this, the brightness of the lighting unit 11 is controlled. As a result, the user of the mobile terminal 30 can shoot a still image with a desired brightness.

[Camera mode control variant 3]
In the above embodiment, the control unit 18 starts the light emission of the illumination unit 11 before the shooting instruction information is received. However, the control unit 18 may start the light emission of the illumination unit 11 after receiving the shooting instruction information.

For example, the illumination unit 11 may emit light instantaneously immediately before shooting a still image. That is, the control unit 18 may operate the illumination unit 11 with a flash. Hereinafter, a modification 3 of the control of the camera mode of the control unit 18 will be described. FIG. 13 is a flowchart of a modification 3 of the control of the camera mode. In the following description of the modified example 3, the description will be centered on the differences from the flowchart of FIG.

As shown in FIG. 13, in the modification 3, the brightness detected by the brightness detection unit 17 after receiving the shooting instruction information (Yes in S55) is less than the predetermined brightness. Whether or not it is determined (S81). When the control unit 18 determines that the brightness detected by the brightness detection unit 17 is less than a predetermined brightness (Yes in S81), the lighting unit 11 instantaneously emits light (S82), and the lighting unit 11 emits light. The camera 12 is made to take a still image almost at the same time as the instantaneous light emission of (S56). When the control unit 18 determines that the brightness detected by the brightness detection unit 17 is equal to or higher than a predetermined brightness (No in S81), the control unit 18 skips the process of step S82 and performs the process of step S56. ..

As described above, in the modification 3, the control unit 18 starts the light emission of the illumination unit 11 after receiving the shooting instruction information. As a result, the light emitting time of the illumination unit 11 is shortened, and the power consumption in controlling the camera mode is reduced.

[Modification of the structure of outdoor lighting equipment]
The structure of the outdoor lighting device 100 is not limited to the above structure. FIG. 14 is an external perspective view of the outdoor lighting device according to the modified example. FIG. 15 is an exploded perspective view of the outdoor lighting device according to the modified example.

The outdoor lighting device 100c shown in FIGS. 14 and 15 is a columnar pole light. The outdoor lighting device 100c is erected on the road surface. The outdoor lighting device 100c includes a power supply unit 20c fixed to the road surface by a fixing member such as a screw, and a functional unit 10c detachably attached to the upper portion of the power supply unit 20c.

The power supply unit 20c is a device that supplies electric power to the functional unit 10c. Specifically, the power supply unit 20c has a power supply cable 21c for obtaining electric power from the outside and a columnar convex structure 22c into which the functional unit 10c is inserted. The columnar convex structure 22c is arranged in the upper part of the power supply unit 20c and includes a contact portion 23c formed of a metal material. The contact portion 23c is formed on the outer peripheral surface of the columnar convex structure 22c and has a long shape along the circumferential direction. When the functional unit 10c is turned into the columnar convex structure 22c, the power supply unit 20c and the functional unit 10c are not only mechanically connected but also electrically connected by the contact unit 23. Power is supplied to the functional unit 10c from the power supply unit 20c via the contact unit 23c.

The functional portion 10c inserted into the columnar convex structure 22c is fixed by the fixing screw 24c. The functional portion 10c is provided with an insertion hole 13c into which the fixing screw 24c is inserted from above, and the insertion hole 13c is closed by the lid 14c.

The functional unit 10c operates using the electric power supplied from the power supply unit 20c. The functional unit 10c has a columnar outer shape, and most of the functional unit 10c is an illumination unit 11c that illuminates the surroundings. The illumination unit 11c emits light for illuminating the surroundings in the illumination mode. Further, the illumination unit 11c emits light that illuminates the shooting range of the camera 12c even in the camera mode.

Further, the functional unit 10c includes a camera 12c that captures a moving image and a still image when the outdoor lighting device 100c is in the camera mode. When the camera 12c is viewed from the front, the lighting unit 11c is arranged around the camera 12c. As a result, the illumination unit 11c can effectively illuminate the shooting range of the camera 12c even in the camera mode.

The functional configuration of the functional unit 10c is the same as that of the functional unit 10, and the functional configuration of the power supply unit 20c is the same as that of the power supply unit 20.

[Effects, etc.]
As described above, the outdoor lighting device 100 is a columnar outdoor lighting device installed on the road surface. The outdoor lighting device 100 controls a lighting unit 11, a camera 12 that captures moving images and still images, a lighting mode that illuminates the surroundings of the outdoor lighting device 100 by causing the lighting unit 11 to emit light, and a moving image on the camera 12. It includes a control unit 18 that selectively executes control of a camera mode for capturing an image and a still image.

As a result, the outdoor lighting device 100 can function not only as a lighting device but also as a shooting device for moving images and still images.

Further, for example, the outdoor lighting device 100 further includes a terminal detection unit 16a for detecting the mobile terminal 30. When the mobile terminal 30 is detected during the control of the lighting mode, the control unit 18 starts the control of the camera mode instead of the control of the lighting mode.

As a result, the outdoor lighting device 100 can shift from the lighting mode to the camera mode triggered by the detection of the mobile terminal 30.

Further, for example, the outdoor lighting device 100 further includes an authentication unit 16b and a wireless communication unit 16c. In the control of the camera mode, the control unit 18 establishes a wireless communication connection with the mobile terminal 30 by having the authentication unit 16b authenticate the mobile terminal 30, and the wireless communication unit 16c is used to capture a moving image taken by the camera 12. Is transmitted to the display unit 31 of the mobile terminal 30 to which the wireless communication connection is established, and the wireless communication unit 16c captures a still image from the mobile terminal 30 receiving the moving image information. When the instruction shooting instruction information is received, the camera 12 is made to shoot a still image based on the received shooting instruction information, and the image information of the shot still image is transmitted to the mobile terminal 30 by the wireless communication unit 16c. The wireless communication unit 16c is an example of a transmission unit and a reception unit.

As a result, the user of the mobile terminal 30 can easily take a still image. In particular, the user can easily take a still image of the user himself / herself.

Further, the present invention may be realized as a photographing device corresponding to the functional unit 10. Such a photographing device is photographed by an authentication unit 16b that establishes a wireless communication connection with the mobile terminal 30 by authenticating the mobile terminal 30, a camera 12 that captures moving images and still images, and a camera 12. The mobile terminal 30 that transmits the moving image information for displaying the moving image on the display unit 31 of the mobile terminal 30 for which the wireless communication connection is established and receives the moving image information instructs to take a still image. The wireless communication unit 16c that receives the shooting instruction information and the camera 12 are made to shoot a still image based on the received shooting instruction information, and the image information of the shot still image is transmitted to the mobile terminal 30 by the wireless communication unit 16c. A control unit 18 that controls transmission is provided.

As a result, the user of the mobile terminal 30 can easily take a still image. In particular, the user can easily take a still image of the user himself / herself.

Further, for example, the photographing device further includes a lighting unit 11 that illuminates the surroundings of the photographing device. The control unit 18 causes the camera 12 to shoot a still image based on the shooting instruction information while causing the lighting unit 11 to emit light.

As a result, the photographing device can acquire a still image in a state where the photographing range of the camera 12 is brightened.

Further, for example, the photographing device further includes a brightness detecting unit 17 that detects the brightness around the photographing device. The control unit 18 causes the illumination unit 11 to emit light when the detected brightness is less than a predetermined brightness.

As a result, the photographing device can shoot a still image in a state where the shooting range of the camera 12 is brightened when the brightness around the shooting device is insufficient.

Further, for example, the wireless communication unit 16c further receives brightness instruction information indicating the brightness of the lighting unit 11 from the mobile terminal 30. The control unit 18 controls the brightness of the lighting unit 11 based on the received brightness instruction information.

As a result, the user of the mobile terminal 30 can take a still image with a desired brightness by operating the mobile terminal and transmitting the brightness instruction information.

Further, for example, the control unit 18 starts light emission of the lighting unit 11 before the shooting instruction information is received.

As a result, the control unit 18 can perform control such as adjusting the brightness around the photographing device before photographing the still image.

Further, for example, the control unit 18 starts light emission of the lighting unit 11 after receiving the shooting instruction information.

As a result, it is possible to reduce the power consumption caused by the light emission of the lighting unit 11 as compared with the case where the lighting unit 11 emits light before the shooting instruction information is received.

Further, for example, the control unit 18 causes the wireless communication unit 16c to transmit a command for causing the lighting unit 11 included in the other imaging device to emit light to the other imaging device.

As a result, the illumination unit 11 of the other photographing device emits light, so that the still image is suppressed from being photographed in a state where the ambient brightness is insufficient. That is, the quality of the still image is improved.

Further, for example, the photographing device further includes a brightness detecting unit 17 that detects the brightness around the photographing device. When the brightness detected while the lighting unit 11 is emitting light is less than a predetermined brightness, the control unit 18 issues a command to cause the lighting unit 11 included in another photographing device to emit light, the wireless communication unit 16c. To send to another shooting device.

As a result, when the brightness is insufficient even when the illumination unit 11 is emitting light, the illumination unit 11 of another photographing device emits light, so that a still image is taken in a state where the ambient brightness is insufficient. Is suppressed. That is, the quality of the still image is improved.

(Other embodiments)
Although the outdoor lighting device according to the embodiment has been described above, the present invention is not limited to the above embodiment.

For example, in the above embodiment, the power supply unit converts AC power obtained from the power system into DC power and supplies it to the functional unit, but the power supply unit is not limited to such a configuration. The power supply unit may supply AC power to the functional unit. Further, the power supply unit may include a storage battery and supply the electric power charged in the storage battery to the functional unit. The power supply unit may include a power generation unit such as a solar panel and supply the generated power to the functional unit.

When the power supply unit includes a power generation unit such as a solar panel, the control unit included in the functional unit may detect the ambient brightness based on the power generation of the power supply unit. In this case, the control unit can acquire information indicating the generated power from the power supply unit, and can determine that the lower the generated power, the darker the surroundings. That is, the control unit can determine the necessity of lighting at the time of shooting and the brightness of the lighting based on the generated power.

Further, as described in the above embodiment, the functional unit is removable from the power supply unit. Here, a functional unit other than the functional unit having the lighting function and the photographing function may be attached to the power supply unit. For example, a functional unit having a sound output function may be attached.

Further, in the above embodiment, an example in which the photographing device is realized as a functional unit that is a part of the outdoor lighting device has been described, but the present invention may be realized as a single photographing device.

Further, in the above embodiment, the components such as the control unit, the authentication unit, and the terminal control unit are realized by being configured with dedicated hardware or by executing a software program suitable for each component. You may. Each component may be realized by a program execution unit such as a CPU or a processor reading and executing a software program recorded on a recording medium such as a hard disk or a semiconductor memory.

In addition, general or specific embodiments of the present invention may be realized in a recording medium such as a system, an apparatus, a method, an integrated circuit, a computer program, or a computer-readable CD-ROM. Further, it may be realized by any combination of a system, an apparatus, a method, an integrated circuit, a computer program and a recording medium. For example, the present invention may be realized as a control method for an outdoor lighting device, or may be realized as a program for causing a computer or the like to execute the control method. The present invention may be realized as a computer-readable non-temporary recording medium in which the program is recorded.

In addition, it is realized by a form obtained by applying various modifications to each embodiment that a person skilled in the art can think of, or by arbitrarily combining the components and functions in each embodiment within the range not deviating from the gist of the present invention. Also included in the present invention.

10, 10c Functional unit (shooting device)
11, 11c Lighting unit 12, 12c Camera 16b Authentication unit 16c Wireless communication unit (transmitter, receiver)
17 Brightness detection unit 18 Control unit 30 Mobile terminal 100, 100a, 100b, 100c Outdoor lighting device

Claims (10)

An authentication unit that establishes a wireless communication connection with the mobile terminal by authenticating the mobile terminal,
A camera that shoots moving and still images,
A transmission unit that transmits moving image information for displaying the moving image taken by the camera on the display unit of the mobile terminal for which the wireless communication connection has been established, and a transmission unit.
A receiving unit that receives shooting instruction information for instructing shooting of a still image from the mobile terminal receiving the moving image information, and a receiving unit.
It is provided with a control unit that causes the camera to shoot a still image based on the received shooting instruction information and controls the transmission unit to transmit the image information of the shot still image to the mobile terminal.
The control unit stops the camera when the number of times the still image is taken reaches a predetermined number.
The control unit causes the transmission unit to transmit a command for causing the lighting unit included in the other imaging device to emit light to the other imaging device.
Shooting equipment. Further, it is provided with a lighting unit that illuminates the surroundings of the photographing device.
The imaging device according to claim 1, wherein the control unit causes the camera to capture the still image based on the imaging instruction information while causing the lighting unit to emit light. Further, it is provided with a brightness detection unit that detects the brightness of the surroundings of the photographing device.
The photographing device according to claim 2, wherein the control unit emits light when the detected brightness is less than a predetermined brightness. The receiving unit further receives brightness instruction information indicating the brightness of the lighting unit from the mobile terminal.
The photographing device according to claim 2, wherein the control unit controls the brightness of the lighting unit based on the received brightness instruction information. The photographing apparatus according to any one of claims 2 to 4, wherein the control unit starts light emission of the lighting unit before receiving the photographing instruction information. The photographing device according to claim 2, wherein the control unit starts light emission of the lighting unit after receiving the photographing instruction information. It ’s a shooting device,
An authentication unit that establishes a wireless communication connection with the mobile terminal by authenticating the mobile terminal,
A camera that shoots moving and still images,
A transmission unit that transmits moving image information for displaying the moving image taken by the camera on the display unit of the mobile terminal for which the wireless communication connection has been established, and a transmission unit.
A receiving unit that receives shooting instruction information for instructing shooting of a still image from the mobile terminal receiving the moving image information, and a receiving unit.
A control unit that causes the camera to shoot a still image based on the received shooting instruction information, and controls the transmission unit to transmit the image information of the shot still image to the mobile terminal.
A lighting unit that illuminates the surroundings of the photographing device is provided.
The control unit
While making the lighting unit emit light, the camera is made to shoot the still image based on the shooting instruction information.
A photographing device that causes the transmitting unit to transmit a command for causing the lighting unit included in the other photographing device to emit light to the other photographing device. Further, it is provided with a brightness detection unit that detects the brightness of the surroundings of the photographing device.
When the brightness detected while the lighting unit is emitting light is less than a predetermined brightness, the control unit gives a command to the transmitting unit to emit light of the lighting unit included in the other photographing device. The imaging device according to claim 6 or 7 , which is transmitted to the other imaging device. The photographing apparatus according to any one of claims 2 to 8 , wherein the lighting unit is arranged so as to surround the periphery of the camera when the camera is viewed from the front. A columnar outdoor lighting device installed on the road surface.
Lighting unit and
A camera that shoots moving and still images,
A control unit that selectively executes control of a lighting mode that illuminates the surroundings of the outdoor lighting device by causing the lighting unit to emit light, and control of a camera mode that causes the camera to capture moving images and still images.
A terminal detector that detects mobile terminals and
It is equipped with an authentication unit, a transmitter unit, and a receiver unit.
When the mobile terminal is detected during the control of the lighting mode, the control unit starts the control of the camera mode instead of the control of the lighting mode, and in the control of the camera mode, the control unit starts the control of the camera mode.
By having the authentication unit authenticate the mobile terminal, a wireless communication connection with the mobile terminal is established.
The transmitting unit is made to transmit moving image information for displaying the moving image taken by the camera on the display unit of the mobile terminal for which the wireless communication connection has been established.
When the receiving unit receives shooting instruction information instructing shooting of a still image from the mobile terminal receiving the moving image information, the camera captures a still image based on the received shooting instruction information. An outdoor lighting device that causes the transmission unit to transmit image information of a captured still image to the mobile terminal.

Images