JP2016218450A - Photograph creation game machine and imaging method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform photographing while stopping a focal distance of a camera at three points at least.SOLUTION: A photograph creation game machine according to one aspect of the invention comprises: a camera which has a mechanism for adjusting a focal distance and performs a plurality of times of photographing including photographing of a close-up image in which the upper half body of a user is largely photographed and photographing of an image in which the whole body of a user is photographed; and a control unit for adjusting a focal distance of the camera. The photograph creation game machine stops a focal distance adjusted by the control unit at three points at least. The present technique can edit a photographed image captured by photographing the user as a subject and can be applied to a device for printing the edited photographed image onto seal paper.SELECTED DRAWING: Figure 36

Description

  The present technology relates to a photo creation game machine and a shooting method, and more particularly, to a photo creation game machine and a shooting method that enable shooting by stopping the focal length of a camera at at least three locations.

  Conventionally, a photo sticker creating apparatus is known. The photo sticker creating apparatus takes a picture of a user, causes the user to edit the shot image, and provides the edited image on a sticker sheet. Photo sticker creation devices are installed in amusement facilities.

  The flow of one game provided by the photo sticker creating apparatus usually involves shooting a user in the shooting space as a subject, moving the user to the editing space, and then displaying the image according to the operation performed in the editing space. The edited image is printed on the sticker sheet. At the time of shooting in a shooting space, a plurality of images with different shooting ranges, such as an image showing the user's upper body and an image showing the user's whole body, are taken by changing the focal length of the zoom lens.

  Patent Document 1 discloses a photo sticker creation device that captures a whole body image, extracts a face region of a subject from the whole body image, and enlarges it, thereby generating an image showing a large face separately from the whole body image. Yes.

JP 2010-258774 A

  When shooting by changing the focal length of the zoom lens, the wide end and the tele end of the zoom lens are usually used. For example, when the focal length of the zoom lens is 10-22 mm, the focal length of 22 mm, which is the focal length of the telephoto end, is used to capture an image of the user's upper body, and the wide end is used to capture an image of the whole body A focal length of 10 mm is used.

  When shooting is performed with the focal length set to the wide end, the range of the captured image is wide, so the range of the entire body is cut out by trimming and used as the whole body image. When the ratio of the trimming range in the shooting range is small, the pixels of the shot image cannot be effectively used.

  In recent years, when a whole-body image is captured, the ratio of the trimming range in the imaging range tends to be small, and the influence of not being able to effectively use pixels has become conspicuous. For example, when the whole-body image obtained in this way is displayed on a screen such as a smartphone and enlarged, the image looks rough, and the user's satisfaction may be reduced.

  In the technique described in Patent Document 1, a user can obtain a face image in which a large face is captured, but is generated by cutting out from a whole body image, so that the resolution of the original whole body image is low. If there is, the face will not be reflected cleanly.

  The present technology has been made in view of such a situation, and enables photographing by stopping the focal length of a camera at at least three places.

  A photo creation game machine according to an aspect of the present technology is a camera provided with a mechanism for adjusting a focal length, which performs multiple shooting including an up-shooting in which a user's upper body is captured and a whole-body shooting in which the user's whole body is captured A control unit that adjusts the focal length of the camera, a stop unit that stops the focal length adjusted by the control unit in at least three places, and an image captured by the camera is displayed on the display unit A display control unit.

  In one aspect of the present technology, the camera has a focal length of at least three places in a case where a plurality of shootings including an up-shot that shows the upper body of the user and a whole-body shooting that shows the whole body of the user are performed. Stop.

  According to the present technology, it is possible to perform photographing while stopping the focal length of the camera at at least three places.

It is a perspective view which shows the structural example of the external appearance of the photograph sticker production apparatus which concerns on one embodiment of this technique. It is the perspective view which looked at the external appearance of the photograph sticker production apparatus from another angle. It is a figure explaining a user's movement. It is a figure which shows the structural example of a preselection part. It is a figure which shows the structural example of an imaging | photography part. It is a figure which shows the structural example of a background part. It is a figure which shows the structural example of the front of an edit unit. It is a figure which shows the structural example of the side surface of an edit unit. It is a block diagram which shows the example of an internal structure of a photograph sticker production apparatus. It is a block diagram which shows the function structural example of a control part. It is a flowchart explaining a photograph sticker creation game process. It is a figure which shows the example of the trimming performed at the time of imaging | photography of an up image. It is a figure which shows the example of the trimming performed at the time of imaging | photography of a whole body image. It is a figure which shows the example of the sticker paper on which the edit image was printed. It is a perspective view which shows the external appearance of an imaging | photography / display unit. It is a perspective view which shows the external appearance of the imaging | photography / display unit of a state which removed the front panel. It is a perspective view which expands and shows a camera unit. It is another perspective view which expands and shows a camera unit. It is a front view of the camera unit shown in FIG. It is a front view of a rising member. It is a right view of a rising member. It is a left view of a rising member. It is a figure which shows the example of attachment of the zoom ring side pulley. It is a top view of the camera unit shown in FIG. It is a right view of the camera unit shown in FIG. It is a left view of the camera unit shown in FIG. It is a rear view of the camera unit shown in FIG. It is a perspective view which shows the state which removed some members of the camera unit. It is a front view of a zoom ring side stopper. It is a front view of the camera unit shown in FIG. It is a top view of the camera unit shown in FIG. It is a right view of the camera unit shown in FIG. It is a left view of the camera unit shown in FIG. It is a figure explaining operation | movement of the camera unit at the time of rotation of a zoom ring. It is a figure which shows the state of a camera unit. It is a figure which shows the other state of a camera unit. It is a figure explaining an effect. It is a figure which shows the example of the information transmitted / received between an imaging | photography process part and a camera unit control part. It is a flowchart explaining the process at the time of power activation. It is a flowchart explaining a process when there exists an operation command. It is a flowchart explaining the process when abnormality arises. It is a figure which shows the example of a display of an error screen. It is a time chart explaining progress of each processing. It is a figure which shows the right side surface of a camera unit. It is another figure which shows the right side surface of a camera unit. It is a figure which shows the mode at the time of fine adjustment of the angle of a camera. It is a figure which shows the structure of a lens surface vicinity. It is another figure which shows the structure of a lens surface vicinity.

<External structure of photo sticker creation device>
FIG. 1 and FIG. 2 are perspective views showing a configuration example of the appearance of the photographic sticker creating apparatus 1.

  The photo sticker creating apparatus 1 is a game machine that provides a photographed image and an edited image. The photo sticker creating apparatus 1 provides an image to the user by printing the image on a sticker sheet or transmitting the image to a server so that the image can be viewed on the user's mobile terminal. The photo sticker creating apparatus 1 is installed in an amusement facility or store.

  The users of the photo sticker creating apparatus 1 are mainly high school girls and young women. In the photo sticker creating apparatus 1, a plurality of users such as two or three people can mainly enjoy the game per group. Of course, in the photo sticker creating apparatus 1, one user can enjoy the game.

  In the photo sticker creating apparatus 1, the user performs photographing work with himself / herself as a subject. The user synthesizes an image for synthesis such as a handwritten character or a stamp image with an image selected from the captured images obtained by shooting through an editing operation. As a result, the captured image is edited into a rich image. The user receives a sticker sheet on which an edited image that is an edited image is printed, and ends a series of games.

  As shown in FIG. 1, the photo sticker creating apparatus 1 is basically configured by being installed in a state where a photographing unit 11 and an editing unit 12 are in contact with each other. The photographing unit 11 and the editing unit 12 are electrically connected.

  The photographing unit 11 includes a pre-selection unit 20, a photographing unit 21, and a background unit 22. The pre-selection unit 20 is installed on the side surface of the imaging unit 21. The space ahead of the preselection unit 20 is a preselection space in which preselection processing is performed. In addition, the photographing unit 21 and the background unit 22 are set apart by a predetermined distance. A space formed between the imaging unit 21 and the background unit 22 is an imaging space in which imaging processing is performed.

  The pre-selection unit 20 performs guidance for introducing a game provided by the photo sticker creating apparatus 1 as pre-selection processing, and performs various settings in shooting processing performed in the shooting space. The pre-selection unit 20 is provided with a coin slot into which a user inserts a price, a touch panel monitor used for various operations, and the like. The pre-selection unit 20 guides the user in the pre-selection space to the shooting space as appropriate according to the availability of the shooting space.

  The photographing unit 21 is a device for photographing a user as a subject. The photographing unit 21 is located in front of the user who has entered the photographing space. A camera, a touch panel monitor used for various operations, and the like are provided in front of the photographing unit 21 facing the photographing space. If the left side is the left side and the right side is the right side as viewed from the user facing the front in the imaging space, the left side of the imaging unit 21 is configured by the side panel 41A, and the right side is configured by the side panel 41B. Is done. Further, the front surface of the photographing unit 21 is constituted by a front panel 42. The pre-selection unit 20 described above is installed on the side panel 41A. The pre-selection unit 20 may be installed on the side panel 41B, or may be installed on both the side panels 41A and 41B.

  The background portion 22 includes a back panel 51, a side panel 52A, and a side panel 52B. The back panel 51 is a plate-like member located on the back side of the user facing the front. The side panel 52A is a plate-like member attached to the left end of the back panel 51 and having a narrower width than the side panel 41A. The side panel 52B is a plate-like member that is attached to the right end of the back panel 51 and has a narrower width than the side panel 41B.

  The side panel 41A and the side panel 52A are provided on substantially the same plane. The upper portions of the side panel 41A and the side panel 52A are connected by a connecting portion 23A that is a plate-like member. The lower portions of the side panel 41A and the side panel 52A are connected by a connecting portion 23A 'that is a metal member provided on the floor surface. Similarly, the side panel 41B and the side panel 52B are provided on substantially the same plane. The upper portions of the side panel 41B and the side panel 52B are connected by a connecting portion 23B. The lower portions of the side panel 41B and the side panel 52B are connected by a connecting portion 23B '.

  For example, a green chroma key sheet is attached to the surface of the rear panel 51 on the photographing space side. The photo sticker creating apparatus 1 performs chroma key composition in photographing processing and editing processing by photographing a chroma key sheet as a background. As a result, the background image desired by the user is combined with the sheet portion.

  An opening formed by being surrounded by the side panel 41A, the connecting portion 23A, and the side panel 52A serves as an entrance / exit of the imaging space. An opening formed by being surrounded by the side panel 41B, the connecting portion 23B, and the side panel 52B also serves as an entrance / exit of the imaging space.

  A ceiling surrounded by the front surface of the photographing unit 21, the connecting portion 23A, and the connecting portion 23B is formed above the photographing space. A ceiling strobe unit 24 is provided in a part of the ceiling. One end of the ceiling strobe unit 24 is fixed to the connecting portion 23A, and the other end is fixed to the connecting portion 23B. The ceiling strobe unit 24 has a built-in strobe that emits light toward the photographing space in accordance with photographing. In addition to the strobe, a fluorescent lamp is provided inside the ceiling strobe unit 24. The ceiling strobe unit 24 also functions as illumination of the shooting space.

  The editing unit 12 is a device for editing a captured image. The editing unit 12 is connected to the photographing unit 11 such that one side surface is in contact with the front panel 42 of the photographing unit 21.

  If the configuration of the editing unit 12 shown in FIG. 1 is a front side configuration, a configuration used for editing work is provided on each of the front side and the back side of the editing unit 12. With this configuration, two sets of users can perform editing work simultaneously.

  The front side of the editing unit 12 includes a surface 61 and a slope 62 formed above the surface 61. The surface 61 is a surface perpendicular to the floor surface and substantially parallel to the side panel 41A of the photographing unit 21. The slope 62 is provided with a tablet built-in monitor and a touch pen as a configuration used for editing work. On the left side of the slope 62, a columnar support portion 63A that supports one end of the lighting device 64 is provided. A columnar support portion 63B that supports the other end of the lighting device 64 is provided on the right side of the slope 62. A support portion 65 that supports the curtain rail 26 is provided on the upper surface of the support portion 63A.

  A curtain rail 26 is attached above the editing unit 12. The curtain rail 26 is configured by combining three rails 26A to 26C. The three rails 26A to 26C are combined so that the shape when viewed from above becomes a U-shape. One end of the rail 26A and the rail 26B provided in parallel is fixed to the connecting portion 23A and the connecting portion 23B, respectively, and the other end of the rail 26A and the rail 26B is joined to both ends of the rail 26C.

  A curtain is attached to the curtain rail 26 so that the space in front of the editing unit 12 and the space in front of the back are not visible from the outside. A space in front of the editing unit 12 surrounded by the curtain and a space in the rear rear of the editing unit 12 are editing spaces in which the user performs editing operations.

  In addition, the left side surface of the editing unit 12 is provided with a discharge port through which printed sticker paper is discharged. The space in front of the left side surface of the editing unit 12 becomes a print waiting space where the user waits for the printed sticker paper to be discharged.

<About user movement>
Here, the flow of the photo sticker creation game and the accompanying movement of the user will be described.
FIG. 3 is a plan view of the photo sticker creating apparatus 1 as viewed from above.

  First, the user inserts a price into the coin insertion slot in the pre-selected space A0 that is a space in front of the pre-selecting unit 20. Next, the user performs various settings according to the screen displayed on the touch panel monitor. The user performs, for example, selection of a course related to shooting performed in the shooting space as a pre-selection operation.

  The user who has completed the pre-selection operation, as indicated by the white arrow # 1, has a shooting space A1 formed between the shooting unit 21 and the background unit 22 from the entrance G1 between the side panel 41A and the side panel 52A. to go into. A user performs a shooting operation using a camera or a touch panel monitor provided in the shooting unit 21.

  The user who has finished the shooting work exits the shooting space A1 from the doorway G1 as indicated by the white arrow # 2 and moves to the editing space A2-1, or the doorway G2 as indicated by the white arrow # 3. Exits the shooting space A1 and moves to the editing space A2-2.

  The editing space A2-1 is an editing space on the front side of the editing unit 12. On the other hand, the editing space A2-2 is an editing space on the back side of the editing unit 12. Whether the user moves to the editing space A2-1 or the editing space A2-2 is guided by the screen display of the touch panel monitor of the photographing unit 21 or the like. For example, the free one of the two editing spaces is guided as the destination. The user who has moved to the editing space A2-1 or the editing space A2-2 starts editing work. The user of the editing space A2-1 and the user of the editing space A2-2 can perform editing work at the same time.

  After the editing operation is finished, printing of the edited image is started. When printing is started, the user who has finished the editing work in the editing space A2-1 moves from the editing space A2-1 to the print waiting space A3 as indicated by a white arrow # 4. Further, the user who has finished the editing work in the editing space A2-2 moves from the editing space A2-2 to the print waiting space A3 as indicated by the white arrow # 5.

  The user who has moved to the print waiting space A3 waits for the end of image printing. When printing is completed, the user receives the sticker paper discharged from the discharge port provided on the right side of the editing unit 12 and finishes a series of photo sticker creation games.

  Next, the configuration of each device will be described.

<Configuration of preselection unit>
FIG. 4 is a diagram illustrating a configuration example of the preselection unit 20.

  A touch panel monitor 71 is provided above the preselection unit 20. The touch panel monitor 71 includes a monitor such as an LCD (Liquid Crystal Display) and a touch panel laminated thereon. The touch panel monitor 71 has a function of displaying various GUIs (Graphical User Interfaces) and accepting a user's selection operation. The touch panel monitor 71 displays a screen used for pre-selection processing including course selection related to shooting.

  A speaker 72 is provided below the touch panel monitor 71. The speaker 72 outputs guidance voice, BGM (Back Ground Music), sound effects, etc. for the pre-selection process. A coin insertion / return port 73 into which a user inserts coins is provided at a position adjacent to the speaker 72.

<Configuration of the shooting unit>
FIG. 5 is a diagram illustrating a configuration example of the front of the photographing unit 21. The photographing unit 21 is configured to be surrounded by the side panel 41A, the side panel 41B, and the front panel 42.

  An imaging / display unit 81 is provided in the approximate center of the front panel 42. Above the photographing / display unit 81, a zoom lens 91 of a camera attached to the photographing / display unit 81 is provided. A lens hood 92 is provided around the zoom lens 91. A touch panel monitor 93 is provided below the photographing / display unit 81.

  The camera attached to the photographing / display unit 81 is a single-lens reflex camera. The camera has an image sensor such as a CCD (Charge Coupled Device) image sensor or a CMOS (Complementary Metal Oxide Semiconductor) image sensor, and photographs a user in the photographing space A1. A moving image captured by the camera (hereinafter also referred to as a live view image) is displayed on the touch panel monitor 93 in real time. A still image captured by the camera at a predetermined timing such as when shooting is instructed is stored as a captured image. The configuration of the photographing / display unit 81 will be described in detail later.

  The touch panel monitor 93 includes a monitor such as an LCD and a touch panel laminated thereon. The touch panel monitor 93 has a function as a live view monitor that displays a moving image captured by a camera and a function that displays various GUIs and accepts a user's selection operation. The touch panel monitor 93 displays a moving image (live view image) or a still image (captured image) captured by the camera.

  An upper strobe 82 with a curved light emitting surface facing the user is installed above the photographing / display unit 81. The upper strobe 82 irradiates light on the user's face and upper body from the upper front.

On the left side of the photographing / display unit 81, a left strobe 83 with a flat light emitting surface facing the user is installed. The left strobe 83 irradiates light on the user's face and upper body from the left side of the front.
A right strobe 84 with a flat light emitting surface facing the user is installed on the right side of the photographing / display unit 81. The right strobe 84 irradiates light on the user's face and upper body from the front right.

  Also, a foot strobe 85 that irradiates light to the lower body and feet of the user is provided below the photographing / display unit 81.

Although not illustrated, a speaker is provided near the ceiling of the front panel 42, for example.
The speaker outputs guidance voice, BGM, sound effects, etc. for shooting processing.

<Configuration of background part>
FIG. 6 is a diagram illustrating a configuration example of the background portion 22 on the photographing space A1 side.

  A rear upper strobe 101 is installed above the rear panel 51. The rear upper strobe 101 irradiates the user with light from the upper rear side.

  A rear left strobe 102 is installed on the left side of the rear panel 51. The back left strobe 102 irradiates the user from the right side of the back. A rear right strobe 103 is installed on the right side of the rear panel 51. The rear right strobe 103 irradiates the user from the left rear side.

A chroma key sheet 121 is attached to the surface of the rear panel 51 on the photographing space A1 side.
The color of the chroma key sheet 121 is, for example, green.

  Although not shown, for example, a green chroma key sheet is also attached to the surfaces of the side panels 52A and 52B on the photographing space A1 side in the same manner as the chroma key sheet 121.

<Configuration of editing unit>
FIG. 7 is a diagram illustrating a configuration example of the editing unit 12 on the front side (editing space A2-1 side).

  A tablet built-in monitor 131 is provided substantially at the center of the slope 62. On the left side of the tablet built-in monitor 131, a touch pen 132A is provided. On the right side of the tablet built-in monitor 131, a touch pen 132B is provided.

  The tablet built-in monitor 131 enables operation input using the touch pen 132A or the touch pen 132B. On the tablet built-in monitor 131, for example, an editing screen used for editing work is displayed. When two users perform editing work at the same time, the touch pen 132A is used by a user on the left side of the tablet built-in monitor 131, and the touch pen 132B is used by a user on the right side of the tablet built-in monitor 131. .

  FIG. 8 is a diagram illustrating a configuration example of the left side surface of the editing unit 12.

  A sticker paper discharge port 161 is provided below the left side surface of the editing unit 12. A printer is provided inside the editing unit 12. A plurality of images showing the user are printed on a sticker sheet by a printer in a predetermined layout, and discharged from the sticker paper discharge port 161.

<Internal configuration of photo sticker creation device>
FIG. 9 is a block diagram showing an example of an electrical configuration inside the photo sticker creating apparatus 1. In FIG. 9, the same components as those described above are denoted by the same reference numerals. The overlapping description will be omitted as appropriate.

  The control unit 201 is configured by a CPU (Central Processing Unit) or the like. The control unit 201 executes a program stored in a ROM (Read Only Memory) 206 or a storage unit 202 and controls the overall operation of the photo sticker creating apparatus 1. A storage unit 202, a communication unit 203, a drive 204, a ROM 206, and a RAM (Random Access Memory) 207 are connected to the control unit 201. The control unit 201 is also connected with each configuration of a pre-selection unit 208, an imaging unit 209, editing units 210 </ b> A and 210 </ b> B, and a printing unit 211.

  The storage unit 202 is a non-volatile storage medium such as a hard disk or a flash memory. The storage unit 202 stores various setting information supplied from the control unit 201. Information stored in the storage unit 202 is appropriately read out by the control unit 201.

  The communication unit 203 is a network interface such as the Internet. The communication unit 203 communicates with an external device according to control by the control unit 201. For example, the communication unit 203 transmits the captured image or the edited image selected by the user to the server. The image transmitted from the communication unit 203 is allocated and stored in a predetermined storage area in the server, and is displayed or downloaded on a mobile terminal that has accessed the server.

  A removable medium 205 made of an optical disk, a semiconductor memory, or the like is appropriately attached to the drive 204. The programs and data read from the removable medium 205 by the drive 204 are supplied to the control unit 201 and stored in the storage unit 202 or installed.

  The ROM 206 stores programs and data executed by the control unit 201. The RAM 207 temporarily stores data and programs processed by the control unit 201.

  The preselection unit 208 has a configuration for realizing preselection processing for users in the preselection space A0. The preselection unit 208 includes a touch panel monitor 71, a speaker 72, and a coin processing unit 221.

  The touch panel monitor 71 displays various selection screens according to control by the control unit 201 and accepts user operations on the selection screens. An input signal representing the content of the user's operation is supplied to the control unit 201.

  The coin processing unit 221 detects the insertion of coins into the coin insertion / return port 73. When the coin processing unit 221 detects that a predetermined amount of coins has been inserted, the coin processing unit 221 outputs an activation signal instructing the start of the game to the control unit 201.

  The photographing unit 209 has a configuration that realizes photographing processing for a user in the photographing space A1. The photographing unit 209 includes an illumination device 231, a camera unit control unit 232, a camera unit 233, a touch panel monitor 93, and a speaker 234.

  The illumination device 231 is each strobe in the imaging space A1, and emits light according to an illumination control signal supplied from the control unit 201.

  The camera unit control unit 232 controls the camera unit 233 according to the control by the control unit 201. The camera unit 233 includes a camera 233A and a lens driving motor 233B.

  The camera unit control unit 232 performs imaging by controlling the camera 233 </ b> A, and outputs a captured image obtained by the imaging to the control unit 201.

  The camera unit controller 232 controls the lens driving motor 233B to rotate the zoom ring provided in the lens barrel of the zoom lens attached to the camera 233A and adjust the focal length. Hereinafter, the adjustment of the focal length is also referred to as the movement of the zoom position as appropriate.

  The user can shoot a whole body image that is an image of the entire body of the user and an up image that is an image in which the upper range from the approximate chest of the person is captured centering on the face portion.

  The whole-body image is generated by trimming a part of the range in which the whole body of the user is captured from an image obtained by photographing with a short focal length. On the other hand, the up image is generated by trimming a part of the user's upper body that is larger than the image obtained by shooting with a longer focal length than the whole body image. .

  As will be described later, the focal length at the tele end is used for taking an up image, and the focal length longer than the wide end by a predetermined distance is used for taking a whole body image. Specifically, if the focal length of the zoom lens is 10-22 mm, the focal length of 22 mm, which is the zoom end, is used for taking an up image, and the wide end, 10 mm, is used for taking a whole body image. A longer focal length of 13 mm is used.

  Adjustment of the focal length at the time of capturing a whole body image is performed by physically stopping the rotation of the zoom ring. The focal length adjustment mechanism will be described later.

  The editing unit 210A has a configuration for realizing editing processing for a user in the editing space A2-1. The editing unit 210A includes a tablet built-in monitor 131, touch pens 132A and 132B, and a speaker 241. The editing unit 210B has the same configuration as the editing unit 210A that realizes editing processing for a user in the editing space A2-2. Hereinafter, when the editing units 210A and 210B are not particularly distinguished, they are simply referred to as the editing unit 210.

  The tablet built-in monitor 131 displays an editing screen according to control by the control unit 201 and accepts a user operation on the editing screen. An input signal representing the content of the user's operation is supplied to the control unit 201, and the captured image to be edited is edited.

  The printing unit 211 has a configuration for realizing a printing process for providing a printed sticker sheet to a user in the print waiting space A3. The printing unit 211 is configured to include a printer 251. A sticker sheet unit 252 is attached to the printer 251.

  Based on the print data supplied from the control unit 201, the printer 251 prints the edited image on the sticker paper stored in the sticker paper unit 252 and discharges it to the sticker paper discharge port 161.

<Configuration of control unit>
FIG. 10 is a block diagram illustrating a functional configuration example of the control unit 201. At least a part of the functional units illustrated in FIG. 10 is realized by a predetermined program being executed by the CPU in the control unit 201.

  The control unit 201 includes a pre-selection processing unit 261, an imaging processing unit 262, an editing processing unit 263, and a print processing unit 264.

  The preselection processing unit 261 performs preselection processing by controlling each unit of the preselection unit 208.

  The imaging processing unit 262 includes a sequence management unit 262A, an image processing unit 262B, and a display control unit 262C.

  The sequence management unit 262A receives a user operation input to the touch panel monitor 93, and causes a plurality of images including an up image and a whole body image to be taken in a predetermined order. Before the up image and the whole body image are captured, the sequence management unit 262A controls the lens driving motor 233B to adjust the focal length of the zoom lens 91.

  The image processing unit 262B acquires an image captured by the camera 233A, and generates an up image and a whole body image by trimming a part of the region from the acquired image by trimming. The image processing unit 262B also trims each frame of the moving image captured by the camera 233A to generate a moving image for live view display.

  The display control unit 262C controls display on the touch panel monitor 93. For example, the display control unit 262C displays a moving image generated by the image processing unit 262B in a live view, or displays a captured image of an up image or a whole body image.

  The editing processing unit 263 performs editing processing by controlling each unit of the editing unit 210. The print processing unit 264 performs print processing by controlling the printer 251 of the printing unit 211.

<Operation of photo sticker creation device>
Here, with reference to the flowchart of FIG. 11, operation | movement of the photo sticker production apparatus 1 which provides a photo sticker production game is demonstrated.

  In step S1, the preselection processing unit 261 determines whether or not a predetermined amount of coins has been inserted based on the activation signal supplied from the coin processing unit 221 and waits until it is determined that coins have been inserted. To do.

  If it is determined in step S1 that a coin has been inserted, the process proceeds to step S2. In step S <b> 2, the preselection processing unit 261 performs preselection processing by controlling the preselection unit 208. Specifically, the pre-selection processing unit 261 allows the user to select a course related to shooting performed in the shooting space. The photographing process is performed according to the course selected in the pre-selection process.

  In step S <b> 3, the imaging processing unit 262 performs imaging processing by controlling the imaging unit 209. Specifically, the shooting processing unit 262 displays the moving image of the subject captured by the camera 233A on the touch panel monitor 93 while displaying the captured image based on a still image obtained by shooting at a predetermined timing. Is generated.

  As described above, in the photographing process, an up image and a whole body image are photographed by changing the focal length of the zoom lens. In the following, a case where the range of the focal length of the zoom lens mounted on the camera 233A is 10-22 mm will be described, but it is naturally possible to use a zoom lens of another range. A focal length of 22 mm, which is the telephoto end, is used for taking an up image, and a focal length of 13 mm is used for taking a whole body image.

  FIG. 12 is a diagram illustrating an example of trimming performed when an up image is captured.

  An image P1 shown in FIG. 12A is an image taken with the focal length set as the tele end. The image P1 is a vertically long image, and the area from the top of the heads of the two users in the shooting space A1 to the waist is greatly reflected. As will be described later, the camera 233A is mounted vertically.

  A rectangular area indicated by a frame F1 is an area cut out by trimming. The image processing unit 262B of the photographing processing unit 262 cuts out the rectangular area indicated by the frame F1 from the image P1 by trimming, and generates the up image illustrated in FIG. 12B.

  Before shooting the up image (before shooting the still image used for generating the up image), the touch panel monitor 93 was cut out from each frame of the moving image shot by the camera 233A in the same manner as shown in FIG. Live view is displayed using the image.

  FIG. 13 is a diagram illustrating an example of trimming performed when a whole-body image is captured.

  An image P2 shown in FIG. 13A is an image taken with a focal length of 13 mm, which is a distance on the tele end side by a predetermined distance from the wide end. The image P2 is a vertically long image, and the inside of the shooting space A1 including the whole bodies of two users is shown.

  A rectangular area indicated by a frame F2 is an area cut out by trimming. The image processing unit 262B of the imaging processing unit 262 cuts out the rectangular area indicated by the frame F2 from the image P2 by trimming, and generates the whole body image shown in FIG. 13B.

  Before capturing the whole body image (before capturing the still image used for generating the whole body image), the touch panel monitor 93 was cut out from each frame of the moving image captured by the camera 233A in the same manner as shown in FIG. Live view is displayed using the image.

  The imaging processing unit 262 performs imaging a plurality of times while changing the focal length in this way, and generates, for example, five captured images including an up image and a whole body image. The number of each of the up image and the whole body image is determined by, for example, the photographing course selected by the pre-selection process.

  Returning to the description of FIG. 11, in step S4, the editing processing unit 263 corresponds to the editing space of the editing space A2-1 and the editing space A2-2, which is the destination of the user who has finished the shooting process. An editing process is performed by controlling the editing unit 210. Specifically, the editing processing unit 263 displays an editing screen on the tablet built-in monitor 131 and allows the user to perform editing operations on the captured images (up image and whole body image) obtained by the imaging process. Then, an edited image is generated.

  In step S <b> 5, the print processing unit 264 performs print processing by controlling the printer 251. Specifically, the print processing unit 264 outputs an edited image obtained by the editing process to the printer 251 and prints it on a sticker sheet.

  When the printing is finished, in step S6, the printer 251 discharges the sticker paper on which the image is printed to the sticker paper discharge port 161, and ends the process.

  FIG. 14 is a diagram illustrating an example of sticker paper.

  On the sticker paper 271, the edited images 272-1 to 272-5 are printed side by side. The edited images 272-1 to 272-3 are images generated by editing the up image, and the edited images 272-4 and 272-5 are edited on the whole body image. It is the image produced | generated by doing. In the example of FIG. 14, each image is shown without a handwritten character, a stamp image, or the like synthesized with the photographed image by editing.

  In the margin of the sticker sheet 271, information such as the model name of the photo sticker creating apparatus 1 and the shooting date / time is printed. The user receives such sticker paper and finishes using the photo sticker creating apparatus 1.

<Configuration of camera unit>
FIG. 15 is a perspective view showing the external appearance of the photographing / display unit 81.

  The photographing / display unit 81 is a substantially box-shaped unit. The photographing / display unit 81 is configured by being surrounded by each surface of a front panel 301, a right side panel 302R, a left side panel 302L (FIG. 16), and a box member 303 which is a box-shaped member.

  The photographing / display unit 81 is attached such that the front panel 301, the right side panel 302R, and the left side panel 302L protrude from the surface of the front panel 42 toward the photographing space A1. The box member 303 is not visible from the imaging space A1.

  The front panel 301 is formed with, in order from the top, an inclined surface 301A that is inclined downward, an inclined surface 301B that is slightly inclined forward with respect to the vertical, and a vertical surface 301C that is a substantially vertical surface.

  A circular opening is formed substantially at the center of the inclined surface 301B, and a lens hood 92 made of resin or the like is provided around the opening. Around the lens hood 92, a decorative plate 92A edged in a wave shape is provided. A lens surface of the zoom lens 91 of the camera 233A is provided in the back of the lens hood 92.

  A laterally long rectangular opening is formed on the slope 301C, and a touch panel monitor 93 is provided inside the opening.

  FIG. 16 is a perspective view showing the external appearance of the photographing / display unit 81 with the front panel 301 removed.

  A thin plate-like partition member 311 is attached substantially horizontally at a position above the touch panel monitor 93 inside the photographing / display unit 81. A camera unit 233 is fixed on the partition member 311. As described above, the camera unit 233 is provided with the camera 233A and the lens driving motor 233B.

  FIG. 17 is an enlarged perspective view showing the camera unit 233.

  A cover member 321 made of a substantially square plate-like member is provided inside the decorative plate 92A. A circular opening is formed in the approximate center of the cover member 321 and the zoom lens 91 of the camera 233A is installed. A transparent cover such as glass is provided in the circular opening.

  In FIG. 17 and subsequent figures, the camera 233A, which is the body of a single-lens reflex camera, is shown with a color. As shown in FIG. 17, the camera 233 </ b> A is attached vertically so that the bottom surface thereof faces the right side surface of the camera unit 233. As a result, the image captured by the camera 233A becomes a vertically long image as described with reference to FIGS. Here, the camera 233A is attached vertically, but it may be attached horizontally. When the camera 233A is mounted sideways, for example, a shooting angle of view suitable for an up image is set. A whole-body image is generated by trimming using an effective angle of view within the range of the shooting angle of view suitable for the up image, and a whole-body image with good image quality is obtained.

  FIG. 18 is another perspective view showing the camera unit 233 in an enlarged manner.

  The camera unit 233 of FIG. 18 shows a state in which the lens hood 92, the decorative plate 92A, and the cover member 321 are removed.

  Below the front face of the camera unit 233, a fixing member 331-1 that is horizontally long and has a substantially L-shaped side view is provided. The camera unit 233 is fixed to the partition member 311 (FIG. 16) by the fixing member 331-1.

  The right side surface of the camera unit 233 is formed by the right side cover 331-2, and the left side surface is formed by the left side cover 331-3. The right side cover 331-2 and the left side cover 331-3 are coupled by a coupling member 331-4 disposed above the camera 233A.

  The back surface of the camera unit 233 is formed by the back cover 331-5 (FIG. 24), and the bottom surface is formed by the bottom cover 331-6.

  The fixing member 331-1, the right side cover 331-2, the left side cover 331-3, the connecting member 331-4, the back cover 331-5, and the bottom cover 331-6 are formed, for example, from a metal plate in a predetermined shape. And bent. As described above, the camera 233A is attached to the camera unit 233 so as to be surrounded by the metal plate.

  A lens driving motor 233B is provided above the right side cover 331-2. A torque limiter 335 is attached to the output shaft of the lens driving motor 233B.

  The torque limiter 335 cuts off the transmission of torque generated by the lens driving motor 233B in response to detecting a torque greater than a predetermined value. That is, when a torque equal to or greater than the predetermined value α (kgf-cm) is detected, the input and the output are separated by the members constituting the torque limiter 335 coming off or sliding. When torque less than a predetermined value α (kgf-cm) is detected, the members are automatically connected and the same torque is transmitted again.

  As will be described later, since the zoom ring side pulley 351 (FIG. 19) is a resin molded product, the tension of the timing belt 352 may change due to its thermal expansion. Since the torque may exceed a predetermined value due to this change in tension, a torque limiter 335 is installed to prevent overload.

A motor-side pulley 336 is provided on the front side of the torque limiter 335 with the attachment member 333 interposed therebetween. The motor-side pulley 336 is attached to the attachment member 334 in a rotatable state, and is rotated by torque generated by the lens driving motor 233B.
The attachment member 334 is fixed to the attachment member 333.

  FIG. 19 is a front view of the camera unit 233 shown in FIG.

Lens Stand 341 The lens stand 341, which is a member that vertically stands the camera 233A, includes a plate member 341-1 and a rising member 341-2. The plate member 341-1 is a substantially square plate-like member having a predetermined thickness, and is fixed to the right side cover 331-2 substantially vertically.
One surface of the plate member 341-1 is in contact with the right surface cover 331-2, and the other surface is in contact with the bottom surface of the camera 233A.

  A rising member 341-2 is attached to the zoom lens side at a position on the front side on the plate member 341-1. The rising member 341-2 is attached to the plate member 341-1 at a substantially right angle in plan view.

  20 to 22 are views showing the rising member 341-2.

  20 to 22 show a front surface, a right side surface, and a left side surface of the rising member 341-2, respectively. The width (thickness direction) of the rising member 341-2 is substantially the same as the width of the plate member 341-1.

  As shown in FIG. 20, the rising member 341-2 is formed with a semicircular cutout 341-2A. The zoom lens 91 is installed along the notch 341-2A. A predetermined clearance (gap) is provided between the inner peripheral surface of the notch 341-2A and the outer peripheral surface of the lens barrel of the zoom lens 91. By providing a clearance between the inner peripheral surface of the notch 341-2A and the outer peripheral surface of the lens barrel of the zoom lens 91, it is possible to prevent the movement of the camera 233A during operation. The right side surface of the rising member 341-2 is fixed to the plate member 341-1.

  As shown in FIGS. 21 and 22, a lens stand side stopper 341-2C protruding to the front side is formed below the rising member 341-2.

  The plate member 341-1 and the rising member 341-2 constituting the lens stand 341 are resin molded products. Since the resin molded product may change its shape due to thermal expansion, for example, the inner peripheral surface of the notch 341-2A of the rising member 341-2 has a thermal expansion coefficient higher than that of the material of the rising member 341-2. A member made of a low material (for example, sulfurized rubber) is adhered and provided.

  The plate member 341-1 and the rising member 341-2 themselves can be molded products made of a material having a low coefficient of thermal expansion such as phenol resin, polyphenylene, polyphenylene oxide, and ABS.

Zoom Zoom Side Pulley 351 Returning to the description of FIG. 19, the zoom ring side pulley 351 is provided at the position of the zoom lens 91 where the zoom ring is provided so as to surround the outer peripheral surface of the zoom ring. The diameter of the zoom ring side pulley 351 is larger than the diameter of the motor side pulley 336.

  The zoom ring-side pulley 351 includes a fixing member 351-1 and a fixing member 351-2 that are semicircular arc members. The fixing members 351-1 and 351-2 are resin members molded by mixing different color pigments into the material. By changing the color for each member, it is possible to clarify the mounting position of the component.

  As shown in FIG. 23, the fixing members 351-1 and 351-2 are fixed to the zoom ring by screwing them while holding the zoom ring of the zoom lens 91. Note that a predetermined clearance is provided between the inner peripheral surface of the fixing members 351-1 and 351-2 and the outer peripheral surface of the zoom ring in order to prevent reluctance during installation or operation of the camera 233 </ b> A.

  Of the fixed member 351-1 and the fixed member 351-2, for example, a protrusion is formed on the inner peripheral surface of the fixed member 351-1. The protrusion formed on the inner peripheral surface of the fixing member 351-1 is engaged with a hole formed in the zoom ring, whereby the zoom ring-side pulley 351 is fixed to the zoom ring.

  The protrusion that engages with the hole formed in the zoom ring is provided on one of the fixing member 351-1 and the fixing member 351-2. Since the fixing member 351-1 and the fixing member 351-2 have different shapes, it is possible to prevent them from being erroneously attached by changing the respective colors.

  The number of protrusions may be plural, or protrusions may be provided on the inner peripheral surfaces of both the fixing member 351-1 and the fixing member 351-2. In this case, a corresponding number of holes are formed on the zoom ring side.

  Moreover, you may make it form a hole in the internal peripheral surface of the fixing member 351-1 and the fixing member 351-2. In this case, a corresponding number of protrusions are formed on the zoom ring side.

Timing belt 352 A timing belt 352 is provided so as to be suspended from the outer periphery of the zoom ring side pulley 351 and the motor side pulley 336. The timing belt 352 has a certain width, and the material thereof is rubber, for example. The motor-side pulley 336 that is pivotally supported by the lens driving motor 233B is a pulley on the side to which a compression load is applied (slack side), and the zoom ring-side pulley 351 is a pulley on the side to which a tensile load is applied (tension side).

  The timing belt 352 slides by driving the lens driving motor 233B and rotating the motor-side pulley 336. As the timing belt 352 slides, the zoom ring of the zoom lens 91 rotates in the circumferential direction together with the zoom ring side pulley 351. The focal length is adjusted using such a mechanism.

  Thus, by rotating the zoom ring using the timing belt 352, the degree of freedom of layout of each member can be increased as compared with the case where the zoom ring is rotated using a gear. That is, since the distance between the zoom lens 91 and the lens driving motor 233B can be freely changed, it is possible to easily cope with a change in the position of other components.

  Other mechanisms can be used as a mechanism for transmitting power to the zoom ring. For example, a flat belt or a V belt can be used. By using a flat belt with high power transmission efficiency, the pulley diameter can be reduced. Further, the V-belt is designed to release the load by slipping when overloaded. For example, a V-belt can be employed when the structure is overloaded.

Zoom ring side stopper 353 On the back side of the zoom ring side pulley 351, a thin zoom ring side stopper 353 is provided. The zoom ring-side stopper 353 is fixed to the zoom ring-side pulley 351 and is a rotating body that rotates in the circumferential direction of the zoom ring together with the zoom ring-side pulley 351.

  As will be described later, the zoom ring rotation of the zoom lens 91 is physically stopped by the zoom ring side stopper 353 and the lens stand side stopper 341-2C described above.

  An attachment member 361 is provided on the back side of the zoom ring side stopper 353. The attachment member 361 is fixed to the rising member 341-2 of the lens stand 341. A zoom sensor 362-1 and a zoom sensor 362-2 are attached to the attachment member 361. The zoom sensor 362-1 and the zoom sensor 362-2 are optical sensors, and detect a light transmitting state or a light shielding state at each position.

  The zoom sensor 362-1 and the zoom sensor 362-2 have a substantially U-shape when viewed from the side, and a recess is formed. The zoom sensor 362-1 and the zoom sensor 362-2 are attached so that the rotation surface of the zoom ring-side stopper 353 is at a position inside the recess. The positions inside the recesses of the zoom sensor 362-1 and the zoom sensor 362-2 are the positions of light detection targets.

Two notches are formed in the zoom ring side stopper 353. When the notch of the zoom ring side stopper 353 is within the detection range of the zoom sensor, the light transmission state is detected.
On the other hand, when the plate-like member itself of the zoom ring side stopper 353 is within the detection range of the zoom sensor, the light shielding state is detected. As described later, it is determined whether or not the zoom state of the zoom lens 91 is normal using the detection results of the zoom sensor 362-1 and the zoom sensor 362-2.

  24 to 27 are views showing the plane, right side, left side, and back of the camera unit 233 shown in FIG. 18, respectively. Portions corresponding to those described with reference to FIGS. 18 and 19 are denoted by the same reference numerals.

  As shown in FIGS. 24 and 27, a small hole 331-5A is formed at a position on the back cover 331-5 on the extension of the plate member 341-1 constituting the lens stand 341. As will be described later, the small holes 331-5A are used for adjusting the mounting position of the camera 233A.

  FIG. 28 is a perspective view showing a state where some members of the camera unit 233 are removed.

  In the example of FIG. 28, the fixing member 331-1, the right side cover 331-2, the left side cover 331-3, the connecting member 331-4, the back cover 331-5, and the bottom cover 331-6 are removed. . Also, the zoom lens 91 is removed from the camera 233A. Hereinafter, the rotation operation of the zoom ring will be described with reference to the camera unit 233 in this state.

  FIG. 29 is a front view of the zoom ring side stopper 353.

  As shown in FIG. 29, the zoom ring-side stopper 353 has a shape in which a plate-like body having a substantially constant width is curved in an arc shape. A concave notch 353A is formed at a position near the right end of the outer peripheral edge of the convex arc shape. Further, a concave notch 353B is formed at a position substantially in the center of the outer peripheral edge. The interval between the notch 353A and the notch 353B is substantially the same as the interval between the zoom sensor 362-1 and the zoom sensor 362-2.

  The lower edge of the zoom ring-side stopper 353 is a contact portion 353C. The contact portion 353C has a function of stopping further rotation of the zoom ring-side pulley 351 counterclockwise when viewed from the front by contacting the lens stand-side stopper 341-2C of the lens stand 341.

  FIG. 30 is a front view of the camera unit 233 shown in FIG.

  The state of the zoom ring side stopper 353 in FIG. 30 is a state in which the notch 353A is present at the position of the zoom sensor 362-1 and the notch 353B is present at the position of the zoom sensor 362-2. In this case, both the zoom sensor 362-1 and the zoom sensor 362-2 are detected to be translucent. Further, the contact portion 353C does not contact the lens stand side stopper 341-2C.

  FIGS. 31 to 33 are diagrams showing the plane, right side, and left side of the camera unit 233 shown in FIG. 28, respectively. As shown in FIGS. 30 and 33, a plate-like member 342 made of metal or the like is provided on the left side surface of the lens stand side stopper 341-2C of the lens stand 341 where the zoom ring side stopper 353 abuts.

  Thus, the member 342 is provided on the left side surface of the lens stand side stopper 341-2C, and the zoom ring side stopper 353 actually contacts the member 342, but the zoom ring side stopper 353 is disposed on the lens stand side. It demonstrates as what contacts stopper 341-2C.

Zooming Rotation Operation FIG. 34 is a diagram for explaining the operation of each unit during the rotation of the zoom ring.

  For example, as shown in FIG. 34, an up image is taken in a state where the zoom sensor 362-1 has a notch 353A in the zoom ring side stopper 353 and the zoom sensor 362-2 has a notch 353B. In this case, the camera unit controller 232 drives the lens driving motor 233B and rotates the motor-side pulley 336 in the clockwise direction.

  As the motor-side pulley 336 rotates, the timing belt 352 slides, and the zoom ring-side pulley 351 and the zoom ring-side stopper 353 rotate clockwise as indicated by the white arrow # 11. The zoom ring rotates in the clockwise direction by the rotation of the zoom ring-side pulley 351, and thereby the focal length of the zoom lens 91 is adjusted to gradually increase in the telephoto end direction.

  When the focal length is adjusted to 22 mm at the telephoto end, the zoom ring 91 stops rotating by the mechanism of the zoom lens 91 itself. Even when the driving of the lens driving motor 233B continues and a load for rotating the zoom ring clockwise is applied, the load is released by the torque limiter 335. That is, the zoom ring of the zoom lens 91 rotates clockwise to the maximum position in the movable range.

  FIG. 35 is a diagram showing a state when the focal length of the zoom lens 91 is adjusted to 22 mm at the telephoto end.

  The camera unit control unit 232 controls the camera 233A in the state shown in FIG. 35, and takes the image shown in FIG. 12A, which is the basis for generating the up image.

  On the other hand, in the state of FIG. 34, when taking a whole body image, the camera unit control unit 232 drives the lens driving motor 233B and rotates the motor side pulley 336 in the counterclockwise direction.

  As the motor-side pulley 336 rotates, the timing belt 352 slides, and the zoom ring-side pulley 351 and the zoom ring-side stopper 353 rotate counterclockwise as indicated by the white arrow # 12. The zoom ring is rotated counterclockwise by the rotation of the zoom ring-side pulley 351, whereby the focal length of the zoom lens 91 is adjusted to gradually shorten in the wide end direction.

  When the focal length is adjusted to 13 mm before 10 mm which is the wide end, the contact portion 353C of the zoom ring side stopper 353 contacts the lens stand side stopper 341-2C, and the rotation of the zoom ring stops. Even when the driving of the lens driving motor 233B continues and a load for rotating the zoom ring counterclockwise is applied, the load is released by the torque limiter 335.

  That is, the counterclockwise rotation of the zoom ring of the zoom lens 91 is stopped by the contact portion 353C of the zoom ring side stopper 353 coming into contact with the lens stand side stopper 341-2C, which is the largest in the movable range of the zoom ring. It will rotate counterclockwise only up to a position before the position.

  FIG. 36 is a diagram illustrating a state of the camera unit 233 when the focal length of the zoom lens 91 is adjusted to 13 mm.

  The camera unit controller 232 controls the camera 233A in the state shown in FIG. 36, and takes an image shown in FIG. 13A, which is a source for generating a whole body image.

  FIG. 37 is a diagram for explaining the effect when a focal length of 13 mm is used to capture a whole body image.

  An image P2 shown in FIG. 37A is the same image as the image described with reference to FIG. 13A. That is, the image P2 is an image taken with a focal length of 13 mm. The image P2 shows the inside of the shooting space A1 including the whole bodies of the two users.

  The imaging processing unit 262 (image processing unit 262B) of the control unit 201 generates a whole body image by cutting out a rectangular region indicated by the frame F2 by trimming.

  An image P3 shown in FIG. 37B is an image obtained by photographing the same subject as the subject of the image P2 with a focal length of 10 mm. In the image P3, a range wider than the range shown in the image P2 inside the shooting space A1 is shown. Compared with how the image P2 is captured, the whole bodies of the two people are small.

  When generating a whole body image in which the same range as the whole body image generated based on the image P2 is generated based on the image P3, the region to be cut out by trimming is a region indicated by a frame F3, and is cut out for the entire image P3 The area ratio is reduced. Since the ratio of the cutout area to the entire photographed image is small, the pixels cannot be effectively used.

  As shown in FIG. 37A, by generating a whole-body image based on an image captured using a focal length in front of the wide end instead of the wide end, a large ratio of the cutout region to the entire captured image is ensured. Therefore, effective use of pixels can be achieved.

<About abnormality detection>
Here, abnormality detection when the zoom position is moved (focal length adjustment) will be described. Abnormalities that can occur include, for example, a zoom timer abnormality and a zoom sensor abnormality.

  The zoom timer abnormality is detected when the movement of the zoom position is not normally completed within a specified time. A time such as several seconds is set as the specified time.

  For example, when the power supply to the lens driving motor 233B is insufficient, the motor is locked, etc., the movement of the zoom position is not normally completed within a specified time, and a zoom timer abnormality is detected. In response to the shortage of power supply, the wiring is reviewed when the cause is a disconnection, and the power supply is replaced when the cause is a malfunction of the power supply. Further, when the motor lock occurs, the torque limiter 335 is replaced when the cause is a malfunction of the torque limiter 335, and when the cause is a malfunction of the gear in the lens driving motor 233B. There is a replacement of the lens driving motor 233B.

  The specified time is set in consideration of the rotation rate of the user who uses the photo sticker creating apparatus 1. If it takes too much time to move the zoom position and the rotation rate deteriorates, profitability will be affected. The specified time is set in a range where there is no such influence.

  For example, the output of the lens driving motor 233B is set so that the movement of the zoom position ends within a specified time. When the output of the lens driving motor 233B is fixed, the specified time is set longer.

  In order to ensure a long prescribed time, a background image, an angle of view, and the like may be selected for each shooting. In addition, when there are three types of shooting angle of view such as an up image and two types of whole body images, they may be taken in the order that the entire time required to move the zoom position is short. The specified time can be set to, for example, around 4 seconds.

  The zoom timer abnormality is detected, for example, when the lens driving motor 233B is not an encoder type motor. The encoder type motor is a motor having a function of converting a mechanical displacement amount of rotation into an electric signal and outputting the electric signal. Based on the electric signal, it is possible to specify the rotation speed of the motor.

  The zoom sensor abnormality is detected when the detection results of the zoom sensors 362-1 and 362-2 represent a result set in advance as representing an abnormal state. Hereinafter, the zoom sensor 362-1 is appropriately referred to as a 13 mm side sensor, and the zoom sensor 362-2 is referred to as a 22 mm side sensor.

For example, a zoom sensor abnormality is detected in the following cases.
(1) When the 13mm side sensor and the 22mm side sensor both detect the translucent state at the start of zoom position movement.
(2) The following conditions are not met when the zoom position stops moving.
When movement to 13mm is stopped: The 13mm side sensor detects the translucent state and the 22mm side sensor detects the light blocking state.
When the movement to 22mm is stopped: The 22mm side sensor detects the translucent state and the 13mm side sensor detects the light blocking state.

  Thus, the presence or absence of an abnormality in the zoom sensor is determined at respective timings before and after the zoom position starts moving.

  When an abnormality is detected, the driving of the lens driving motor 233B is stopped. Abnormality detection is realized by transmitting and receiving various types of information between the imaging processing unit 262 of the control unit 201 and the camera unit control unit 232.

  FIG. 38 is a diagram illustrating an example of information transmitted and received between the imaging processing unit 262 and the camera unit control unit 232.

  As illustrated in FIG. 38, an operation command is transmitted from the imaging processing unit 262 to the camera unit control unit 232. The camera unit control unit 232 executes the instructed operation in response to the operation command being output from the imaging processing unit 262.

  In addition, a status response is output from the camera unit control unit 232 to the imaging processing unit 262. The status response is information used for notification of the operation result.

  For example, when the movement of the zoom position is instructed, the camera unit control unit 232 starts the operation after confirming the state of the zoom sensor, and stops each mechanism after a predetermined time has elapsed. The camera unit control unit 232 confirms the state of the zoom sensor after the mechanism stops, and notifies the imaging processing unit 262 of the operation state according to the response state.

Examples of the types of operation commands output by the imaging processing unit 262 include the following.
-No operation command-Move to zoom position 22mm-Move to zoom position 13mm-Reset (zoom reset)
・ Zoom sensor status reading ・ Error recovery

  The operation command “no operation command” is used when the camera processing unit 262 outputs a motion command, and when the camera unit control unit 232 outputs a state response “being operated” described later, It is output to the unit controller 232.

  The operation command “move to zoom position 22 mm” represents that the zoom position is moved to the telephoto end of 22 mm. When the operation command “move to zoom position 22 mm” is output, the camera unit control unit 232 detects the state of the zoom sensor before the movement and confirms whether or not the movement is necessary. When the movement is necessary, the camera unit control unit 232 drives the lens driving motor 233B to move the zoom position to 22 mm and stops driving. The camera unit control unit 232 confirms the state of the zoom sensor after driving is stopped.

  The operation command “move to zoom position 13 mm” represents that the zoom position is adjusted to 13 mm, which is the position before the wide end. When the operation command “move to zoom position 13 mm” is output, the camera unit control unit 232 detects the state of the zoom sensor before the movement and confirms whether or not the movement is necessary. When the movement is necessary, the camera unit control unit 232 drives the lens driving motor 233B to move the zoom position to 13 mm and stops driving. The camera unit control unit 232 confirms the state of the zoom sensor after driving is stopped.

  As a specific example, a case where a whole body image is taken after taking an up image will be described. In this case, the imaging processing unit 262 outputs an operation command “move to zoom position 13 mm” to the camera unit control unit 232.

  The camera unit control unit 232 that has received the operation command “move to the zoom position 13 mm” detects which position the zoom position is based on the states of both the 13 mm side sensor and the 22 mm side sensor. When the zoom position is at 13 mm (when the focal length is 13 mm), the camera unit control unit 232 outputs a signal indicating that it is at the 13 mm position to the imaging processing unit 262. On the other hand, when the zoom position is at 22 mm (when the focal length is 22 mm), the camera unit controller 232 drives the lens driving motor 233B to move the zoom position to 22 mm.

  Thereafter, the camera unit controller 232 detects whether or not the zoom position is at the position of 22 mm based on the states of both the 13 mm side sensor and the 22 mm side sensor. When the zoom position is at the position of 22 mm, the camera unit control unit 232 outputs a state response to that effect to the imaging processing unit 262. At this time, a status response of “normal operation completion” described later is used.

  On the other hand, when the zoom position is at a position other than 22 mm, if there is an abnormality as described above, an abnormality signal is output to the imaging processing unit 262. At this time, a state response of “zoom timer abnormality” or “zoom sensor abnormality” described later is used.

  Further, the camera unit control unit 232 measures the time from the start of the operation. If the operation is not normally completed when the specified time has elapsed, the camera unit control unit 232 outputs a status response to the imaging processing unit 262 as a time-out error. At this time, a state response of “zoom timer abnormality” described later is used.

  The “reset” operation command represents returning the zoom position to a preset home position. After the photo sticker creating apparatus 1 is turned on, the photographing processing unit 262 outputs a “reset” operation command to the camera unit control unit 232 as an initial operation. The reset operation is performed only by control from the imaging processing unit 262, and is not performed by the camera unit control unit 232 alone.

  When the power is turned on, the camera unit control unit 232 receives the “reset” operation command output from the imaging processing unit 262, confirms the state of the zoom sensor, and then moves the zoom position to the home position.

  When the 22 mm position is the home position, the camera unit controller 232 moves 22 mm → 13 mm → 22 mm when the zoom position is 13 mm, and moves 13 mm → 22 mm when the zoom position is 22 mm. When the zoom position is at a position other than 13 mm and 22 mm, the camera unit control unit 232 moves the camera unit from 22 mm → 13 mm → 22 mm.

  On the other hand, when the position of 13 mm is the home position, the camera unit controller 232 moves 13 mm → 22 mm → 13 mm when the zoom position is 22 mm, and moves 22 mm → 13 mm when the zoom position is 13 mm. . When the zoom position is at a position other than 13 mm and 22 mm, the camera unit control unit 232 moves 13 mm → 22 mm → 13 mm.

  The operation command “read zoom sensor state” represents that the states of the zoom sensors 362-1 and 362-2 are detected. When an operation command “read zoom sensor state” is output from the imaging processing unit 262, the camera unit controller 232 notifies the state (translucent state / light-shielded state) of each zoom sensor as a state response.

  The “error recovery” operation command represents recovery from a specific abnormality such as a zoom sensor abnormality. When the “error recovery” operation command is output from the imaging processing unit 262, the camera unit control unit 232 performs a recovery process and outputs a status response of “normal operation completion” from a state in which an abnormal status response is output. Shifts to the state of outputting.

On the other hand, the types of state responses output by the camera unit control unit 232 include, for example, the following.
・ Operating ・ Normal operation completed ・ In offline mode ・ Zoom timer error ・ Zoom sensor error

The status response “in operation” is continuously output from the camera unit control unit 232 to the imaging processing unit 262 until the instructed operation is normally completed after receiving the operation command.
However, if an abnormality is detected within 1 second after receiving the operation command, an “in operation” state response is output for 1 second, and then an “abnormal” state response is output. In addition, when an operation command other than “Reset” is output and an unnecessary operation command is output in the current state, a “response in operation” status response is output after a “response in operation” status response is output for 1 second. Is done.

  The state response of “normal operation completion” is output from the camera unit control unit 232 to the imaging processing unit 262 when the operation is normally completed.

  The state response “in offline mode” is output when the mode of the substrate of the camera unit control unit 232 is other than the normal mode and the inspection mode.

  The state response of “zoom timer abnormality” is output from the camera unit control unit 232 to the imaging processing unit 262 when the above-described zoom timer abnormality is detected.

  The state response of “zoom sensor abnormality” is output from the camera unit control unit 232 to the imaging processing unit 262 when the above-described zoom sensor abnormality is detected.

  Here, processing performed by the imaging processing unit 262 and the camera unit control unit 232 using the operation command and state response as described above will be described.

  First, the processing at power-on will be described with reference to the flowchart of FIG.

  In step S <b> 21, the imaging processing unit 262 of the control unit 201 issues (outputs) a “reset” operation command.

  In step S <b> 22, the camera unit control unit 232 determines whether a “reset” operation command has been received. When it is determined in step S22 that the “reset” operation command has not been received, in step S23, the camera unit control unit 232 determines whether or not the “zoom sensor state read” operation command has been received.

  If it is determined in step S23 that an operation command of “zoom sensor state reading” has been received, in step S24, the camera unit control unit 232 detects the states of the zoom sensors 362-1 and 362-2. . In addition, the camera unit control unit 232 outputs information representing the state of each zoom sensor to the imaging processing unit 262 as a state response.

  After the state response is output in step S24, or when it is determined in step S23 that an operation command of “zoom sensor state reading” has not been received, the processing from step S22 is performed.

  On the other hand, when it is determined in step S22 that the “reset” operation command has been received, in step S25, the camera unit control unit 232 performs the above-described reset operation to move the zoom position. Further, the camera unit control unit 232 outputs a state response of “in operation” to the imaging processing unit 262.

  In step S26, the camera unit control unit 232 determines whether or not the reset operation has been normally completed. If the camera unit control unit 232 determines that the reset operation has been normally completed, in step S27, the camera unit control unit 232 sends a state response of “operation normal completion” to the imaging processing unit. To 262. At this time, the subsequent processing is performed assuming that the state of the camera unit 233 is normal.

  On the other hand, if it is determined in step S26 that the reset operation has not been completed normally, the process ends, and the subsequent process is performed assuming that the state of the camera unit 233 is abnormal. For example, the photographing processing unit 262 displays an error screen notifying that an abnormality has occurred.

  Next, with reference to the flowchart of FIG. 40, a description will be given of processing in a case where there are operation commands of “move to zoom position 22 mm” and “move to zoom position 13 mm”. The operation command “move to zoom position 22 mm” is output before taking an up image. The operation command “move to zoom position 13 mm” is output before the whole body image is captured.

  In step S31, the camera unit control unit 232 determines whether or not an operation command has been received, and waits until it is determined that the operation command has been received.

  If it is determined in step S31 that the operation command “move to zoom position 22 mm” or “move to zoom position 13 mm” has been received, in step S32, the camera unit controller 232 drives the lens driving motor 233B to zoom. Move position. Further, the camera unit control unit 232 outputs a state response of “in operation” to the imaging processing unit 262.

  In step S33, the camera unit control unit 232 determines whether or not the operation has been normally completed. If the camera unit control unit 232 determines that the operation has been normally completed, in step S34, the camera unit control unit 232 sends a state response of “operation normal completion” to the imaging processing unit 262. Output for. At this time, the subsequent processing is performed assuming that the state of the camera unit 233 is normal.

  On the other hand, if it is determined in step S33 that the operation has not been completed normally, the process ends, and the subsequent process is performed assuming that the state of the camera unit 233 is abnormal. For example, the photographing processing unit 262 displays an error screen notifying that an abnormality has occurred.

  Next, a process when a zoom timer abnormality or a sensor abnormality occurs will be described with reference to a flowchart of FIG.

  In step S <b> 41, the camera unit control unit 232 outputs a “zoom timer abnormality” state response or a “sensor abnormality” state response. The camera unit controller 232 stops the operation of the lens driving motor 233B.

  In step S <b> 42, the camera unit control unit 232 determines whether a “reset” operation command has been received. When it is determined in step S42 that the “reset” operation command has not been received, in step S43, the camera unit control unit 232 determines whether or not the “zoom sensor state read” operation command has been received.

  If it is determined in step S43 that an operation command for “zoom sensor state reading” has been received, in step S44, the camera unit control unit 232 detects the states of the zoom sensors 362-1 and 362-2. . In addition, the camera unit control unit 232 outputs information representing the state of each zoom sensor to the imaging processing unit 262 as a state response.

  After the state response is output in step S44, or when it is determined in step S43 that the operation command for “zoom sensor state reading” has not been received, the processing after step S42 is performed.

  On the other hand, if it is determined in step S42 that the “reset” operation command has been received, in step S45, the camera unit control unit 232 performs the above-described reset operation to move the zoom position. Further, the camera unit control unit 232 outputs a state response of “in operation” to the imaging processing unit 262.

  In step S46, the camera unit control unit 232 determines whether or not the reset operation has been normally completed. If the camera unit control unit 232 determines that the reset operation has been normally completed, in step S47, the camera unit control unit 232 sends a state response of “operation normal completion” To 262. At this time, the subsequent processing is performed assuming that the state of the camera unit 233 is normal.

  On the other hand, if it is determined in step S46 that the reset operation has not been completed normally, the process ends, and the subsequent process is performed assuming that the state of the camera unit 233 is abnormal. For example, the imaging processing unit 262 displays an error screen notifying that an abnormality has occurred.

  FIG. 42 is a diagram illustrating a display example of an error screen.

  The display control unit 262C of the imaging processing unit 262 that has received the “zoom timer abnormality” state response output from the camera unit control unit 232 causes the touch panel monitor 93 to display an error screen as shown in FIG. On the error screen in FIG. 42A, a message notifying that a zoom timer abnormality has occurred is displayed.

  The display control unit 262C of the imaging processing unit 262 that has received the “zoom sensor abnormality” state response output from the camera unit control unit 232 causes the touch panel monitor 93 to display an error screen as illustrated in FIG. A message notifying that a zoom sensor abnormality has occurred is displayed on the error screen of FIG. 42B.

  In addition, regarding the display of the error screen when the zoom sensor abnormality is detected, a predetermined time of α seconds is secured from when the zoom sensor reacts until the error display is performed. This is because it is considered that the zoom sensor does not react due to variations in assembly, and the rotation is stopped by the above-described stopper particularly when a whole body image is taken.

  FIG. 43 is a time chart for explaining the progress of each process when an abnormality occurs.

  The pre-selection process in the pre-selection space A0, the shooting process in the shooting space A1, and the editing process in the editing spaces A2-1 and A2-2 are performed in parallel for different users (user groups). Is possible. Here, for convenience of explanation, it is assumed that the pre-selection process, the photographing process, and the editing process are started at the same time.

  For example, when each process is started at time t1, as described above, the user in the pre-selected space A0 selects a shooting course or the like. In addition, the user who has already completed the pre-selection process and is in the imaging space A1 takes an up image and a whole body image. For example, the user in the editing space A2-1 has finished the shooting process, and edits the shot image generated by the shooting process.

  It is assumed that “zoom timer abnormality” or “zoom sensor abnormality” has occurred at time t2. In this case, the imaging processing unit 262 displays the error screen as described above on the touch panel monitor 93. A user who has been shooting in the shooting space A1 looks at the error screen and takes measures such as notifying the administrator of the photo sticker creating apparatus 1 that an abnormality has occurred.

  On the other hand, the pre-selection process and the editing process are continued even after an abnormality occurs in the photographing process. That is, even when “zoom timer abnormality” and “zoom sensor abnormality” occur in the photographing process, the pre-selection process and the editing process are continued without being affected by the influence.

  For example, the user who has completed the pre-selection work at time t3 waits in the pre-selection space A0 without moving to the shooting space A1 according to the screen displayed on the touch panel monitor 71. On the touch panel monitor 71, for example, a message for notifying that the user is waiting in the pre-selected space A0 until the abnormal state is resolved is displayed.

  In addition, the user who has finished the editing work at time t4 moves to the print waiting space A3 according to the screen displayed on the tablet built-in monitor 131, and waits until printing is completed. When printing is finished and the sticker paper on which the edited up image and whole body image are printed is discharged, the user receives it and finishes using the photo sticker creating apparatus 1.

  When the photo sticker creating apparatus 1 is a seal machine in which the shooting space and the editing space are the same space, a series of game flows are to be edited after shooting in the same space. If an abnormality occurs, the game may be interrupted, and if an abnormality occurs during the editing operation, the editing operation may be continued as it is.

  In this way, it is possible to continue the pre-selection process and the editing process without being affected by the abnormality that has occurred in the photographing process. Of course, the pre-selection process and the editing process may be interrupted in response to the occurrence of an abnormality in the photographing process. Further, an editing process and a post-selection process, which are processes after the shooting process, may be performed in response to the occurrence of an abnormality in the shooting process.

  In the above, since the lens driving motor 233B is not an encoder-type motor, a time limit is provided, and the zoom is performed when the operation is not completed even when the time limit (specified time) has elapsed since the start of the movement of the zoom position. The processing is performed on the assumption that a timer abnormality has occurred, but an encoder-type motor may be employed to detect the occurrence of abnormality based on a signal output from the motor. Some encoder-type motors have an optical or magnetic structure.

  When the lens driving motor 233B is an encoder type motor, an electric signal indicating the number of rotations of the motor is supplied from the lens driving motor 233B to the camera unit controller 232. The camera unit controller 232 detects the amount of torque generated by the lens driving motor 233B based on the electrical signal, and manages the amount of torque.

  For example, the camera unit control unit 232 drives the lens driving motor 233B on the assumption that the movement of the zoom position is completed when the amount of torque after starting the movement of the zoom position falls within a predetermined range. Stop.

  As described above, the stop position of the zoom ring can be controlled based on the signal output from the lens driving motor 233B.

  When controlling the stop position of the zoom ring based on a signal output from the lens driving motor 233B, there is a risk that the amount of torque may vary, and in this case, an error in the stop position becomes large. Even when an encoder-type motor is used as the lens driving motor 233B, it is possible to reduce the error of the stop position by using the above-described mechanism such as a stopper together and physically stopping the rotation of the zoom ring. Become.

<Installation of camera 233A>
When the camera 233A is assembled, the camera 233A is installed on the lens stand 341 at a predetermined angle. Since the shooting range changes according to this angle, it is necessary to install the camera 233A as designed. The angle is adjusted using a leveling device or the like.

  FIG. 44 is a view showing the right side surface of the camera unit 233. 44, a part of the configuration shown in FIG. 32 is omitted.

  As shown in FIG. 44, a hole 341-1A and holes 341-1B to 341-1D smaller than the hole 341-1A are formed in the plate member 341-1. The hole 341-1B is formed at a position near the front of the camera unit 233, and the hole 341-1C and the hole 341-1D are formed at a position near the back of the camera unit 233.

  The hole 341-1A is a hole for fixing the camera 233A. The screw that passes through the hole 341-1A is fixed to a screw hole for fixing a tripod provided on the bottom surface of the camera 233A.

  On the other hand, the holes 341-1B to 341-1D are holes for adjusting the angle of the camera 233A. The diameters of the holes 341-1B to 341-1D are slightly longer than the diameter of the screw that passes through the hole 341-1A, and when the screw is inserted, there is a slight gap between the inner periphery of each hole and the screw. Provided. A screw hole is formed at the position of the bottom surface of the camera 233A corresponding to the positions of the holes 341-1B to 341-1D.

  The screw holes for fixing the tripod provided on the bottom surface of the camera 233A are deeper than the screw holes provided corresponding to the holes 341-1B to 341-1D. As shown in FIG. 45, the camera 233A is fixed using a deep screw hole, and the angle of the camera 233A can be adjusted using three shallow screw holes.

  By making it possible to easily adjust the angle when the camera 233A is attached, it is possible to prevent variations in the shooting range from device to device and to provide a user with a stable shooting range image. .

  In FIG. 44, the attachment member 333 has a hole 333A and a hole 333B. The holes 333A and 333B are used for screwing the rising member 341-2 to the plate member 341-1.

<Angle adjustment mechanism (installation at the time of shipment)>
When the photo sticker creating apparatus 1 is shipped, the angle of the camera 233A mounted in the camera unit 233 is finely adjusted as described above. For fine adjustment of the angle, small holes 331-5A (FIGS. 24 and 27) formed in the back cover 331-5 are used. As described above, the plate member 341-1 constituting the lens stand 341 is disposed in the axial direction of the small hole 331-5A.

  FIG. 46 is a diagram showing a state during fine adjustment of the angle of the camera 233A.

  As shown in FIG. 46, the person who performs the adjustment inserts a thin rod-shaped object such as a hexagon wrench W into the small hole 331-5A. The angle of the plate member 341-1 is changed by pushing the hex wrench W in a state where the tip of the hex wrench W is in contact with the back surface of the plate member 341-1, thereby fixing the hex wrench W to the plate member 341-1. The angle of the camera 233A can be adjusted.

  A plurality of small holes may be provided so that the angle of the plate member 341-1 can be changed. In addition, the position where the small hole is provided is arbitrary as long as the rod-shaped object can be directly pressed against the lens stand 341 or the camera 233A.

  Thus, the person who performs the adjustment can easily finely adjust the angle of the camera 233A when the photo sticker creating apparatus 1 is shipped. Thereby, it becomes possible to provide the user with an image of a stable photographing range.

<Foreign matter contamination prevention mechanism>
In the camera unit 233, there is a mechanism for rotating the zoom ring of the camera 233A, and a lubricant such as lubricating oil or grease is used in order to reduce the friction and wear thereof. The lubricant is vaporized by heat generated when the lens driving motor 233B is driven. The vaporized components are combined with moisture in the air in the camera unit 233, and the lens surface / glass surface of the camera 233A is condensed.

  When the temperature drops in such a state, white substances adhere to the lens surface and the glass surface, and the entire image becomes whitish. In the photo sticker creating apparatus 1, a mechanism for preventing foreign matters such as a lubricant component from entering the lens surface / glass surface of the camera 233 </ b> A is provided.

  FIG. 47 is a diagram showing a configuration of the zoom lens 91 in the vicinity of the lens surface.

  As shown in FIG. 47, the tip of the zoom lens 91 is fixed to the cover member 321, but the sealing member 401 is pushed between the cover member 321 and the zoom lens 91. The sealing member 401 includes a lens fit cushion 401-1 shown with a color and a spacer cushion 401-2 shown with a hatch. The lens fit cushion 401-1 and the spacer cushion 401-2 are, for example, O-rings.

  Here, the O-ring is a mechanical part for sealing whose cross section is O-shaped (circular). There are rubber hollow O-shaped metal hollow O-rings (metal hollow O-rings) and resin O-rings. The purpose of the O-ring is to prevent entry of substances such as liquids and gases, and to seal the inside substances from leaking out. The detailed purpose is to prevent leakage of various substances such as oil, water, air, gas, etc. by providing a groove in one of the two parts and attaching an O-ring to the groove and compressing it appropriately. it can.

  The sealing member 401 may be configured by a member having a shape other than the O shape. It is also possible to configure the sealing member 401 by using a plurality of members instead of a single member, such as connecting semicircular members. The structure of the sealing member 401 can be freely changed according to the positional relationship between the zoom lens 91 and the lens hood 92 as long as the structure can ensure airtightness.

  As for the cross-sectional shape of the sealing member 401, various shapes can be adopted as shown in FIGS.

  The material of the lens fit cushion 401-1 and the spacer cushion 401-2 may be any material other than rubber or resin, as long as it causes its use.

  Examples of the resin material that can be used include polystyrene foam, polyethylene foam, rigid polyurethane foam, rigid vinyl chloride foam, urea foam, phenol foam, acrylic foam, cellulose acetate foam, and other foamable synthetic resins.

  In addition to foaming synthetic resins, polystyrene resins, polyethylene resins, hard polyurethane resins, soft polyurethane resins, hard vinyl chloride resins, urea resins, phenol resins, acrylic resins, cellulose acetate resins, and other non-foaming synthetic resins Can also be adopted.

  By sealing the lens surface and the glass surface of the zoom lens 91 using the sealing member 401, it is possible to suppress deterioration in image quality.

  In addition, the heat generated by driving the lens driving motor 233B or the like causes deformation of a resin structure such as a zoom lens molded by a thermoplastic resin, and a gap is generated around the lens surface of the zoom lens 91. Sometimes. By using the sealing member 401, foreign matter can be prevented from entering around the lens surface even when a gap is generated.

<Modification>
In the above, the rotation of the zoom ring is stopped at the focal length in front of the wide end when capturing the whole body image, but the rotation of the zoom ring is stopped at the focal length in front of the tele end when capturing the up image. You may make it make it. That is, it is possible to set the number of places where rotation is physically stopped within the movable range of the zoom ring to two places instead of one place.

  Further, although there are two types of shooting angle of view, such as an up image and a whole body image, it is also possible to shoot images having more types of angle of view.

  For example, when shooting three types of images, when shooting the image with the widest angle of view and the image with the narrowest angle of view, the rotation of the zoom ring is physically stopped at the focal length before the wide end / tele end respectively. Shooting is performed, and at the time of shooting an image with an intermediate angle of view, the zoom ring is stopped at a predetermined focal length and shooting is performed. The position where the rotation of the zoom ring is physically stopped may be one place, and the zoom ring may be stopped at two predetermined positions to perform photographing.

  In the above description, the zoom ring is rotated using the pulley and the timing belt. However, the zoom ring may be rotated using a gear or a cam.

  Embodiments of the present technology are not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present technology.

  DESCRIPTION OF SYMBOLS 1 Photo sticker production apparatus, 201 Control part, 232 Camera unit control part, 233 Camera unit, 233A Camera, 233B Lens drive motor

Claims (4)

A camera provided with a mechanism for adjusting the focal length, which performs a plurality of times of shooting including an up shot of the upper body of the user and a whole body shot of the whole body of the user;
A control unit for adjusting the focal length of the camera;
A stopping unit that stops the focal length adjusted by the control unit at least in three places;
A photo creation game machine comprising: a display control unit that displays an image captured by the camera on a display unit. The stop unit stops the rotation of the zoom ring of the camera so as to stop at the focal length before the wide end,
An image processing unit for trimming, by trimming, a part of the image of the user from an image captured by the camera in a state in which the rotation of the zoom ring is stopped by the stop unit at a focal length before the wide end; The photo creation game machine according to claim 1. A sensor for detecting a rotation state of the zoom ring;
The control unit determines whether the rotation state of the zoom ring is a normal state based on the state detected by the sensor at each timing before and after the rotation of the zoom ring starts. And
The photo creation game machine according to claim 2, wherein the display control unit displays information indicating that an abnormality has occurred on the display unit when the control unit determines that the display unit is not in the normal state. A camera provided with a mechanism for adjusting the focal length, and a control unit for adjusting the focal length of the camera, which performs a plurality of times of shooting including an up shot of the upper body of the user and a whole body of the user. A photo creation game machine comprising:
The focal length adjusted by the control unit is stopped at at least three locations,
An imaging method including a step of displaying an image captured by the camera on a display unit.

Images