CN102164244B - Image shooting device - Google Patents

Abstract

The invention provides an image shooting device. The invention provides a camera (1) advantaged by display of celestial body information via simple operation and excellent operability. As a solving mean, the image shooting device is provided with an image shooting part (22); a display part (25) provided with a display surface (25A); a posture detection part (44) detecting the display part (25) be at a horizontal posture or a vertical posture; a position setting part (46) setting an observation position; a direction detection part (43) detecting directions; a clock (30) detecting date and time; a database part (48) storing celestial body information; an information calculating part (41A), according to celestial body position information, calculating observation information used for observing the celestial body at an observation position; and a display control part (41B), when the display surface (25A) is at a horizontal posture and a vertical posture, displaying control of different observation information on the display surface (25A).

Description

Camera head

Technical field

The present invention relates to the camera head to subject shooting.

Background technology

The landscape being in the time period of the front and back in sunrise moment or sunset moment is different from the landscape that high noon and the sun are in the time period of higher position, and it has impressionistic feature, thus very popular as the subject of the camera heads such as camera.But, such as, for sunset landscape, need to photograph to particular orientation in particular moment.But sunset moment and sunset orientation every day are all in change, and also can change along with photography place difference.Therefore, for user, to the photography of sunset landscape sometimes and be not easy.And the haunting of other celestial bodies such as the moon also has kindred circumstances.

Japan Patent No. 2569097 publication discloses overlapping for the track of sun camera head be shown in photographed images.

In addition, Japanese Unexamined Patent Publication 2008-17223 publication discloses when carrying out starry sky photography, navigational figure is overlapped in the camera head in photographed images.

But, because above-mentioned known camera head needs to carry out complicated operation, thus for user sometimes and be not easy to obtain information needed.In addition, complicated formation taked by above-mentioned known camera head, and operability for user is also bad.

Summary of the invention

The object of the present invention is to provide the camera head that a kind of operability is excellent.

The camera head of embodiment of the present invention has: image pickup part, and it is made a video recording to shot object image, generates photographed images; Display part, it has the display surface showing above-mentioned photographed images; Posture detecting part, it detects above-mentioned display surface and is in flat-hand position or is in vertical posture; And display control unit, it is according to the testing result of above-mentioned posture detecting part, when carrying out when above-mentioned display surface is in above-mentioned flat-hand position and be in above-mentioned vertical posture, above-mentioned display surface shows the control of different information.

The present invention can provide the camera head that a kind of operability is excellent.

Accompanying drawing explanation

Fig. 1 is the synoptic diagram of the camera external appearance representing execution mode, and Fig. 1 (A) is stereogram when observing obliquely from the front, and Fig. 1 (B) is stereogram when observing from oblique rear.

Fig. 2 is the block diagram representing that the camera of execution mode is formed.

Fig. 3 is the flow chart of the camera processing flow process for illustration of execution mode.

Fig. 4 is the key diagram representing the camera operation state (A) of execution mode and an example of display frame (B).

Fig. 5 is the key diagram of an example of the camera display frame representing execution mode.

Fig. 6 is the key diagram representing the camera operation state (A) of execution mode and an example of display frame (B).

Fig. 7 is the key diagram of an example of the camera display frame representing execution mode.

Fig. 8 is the key diagram of an example of the camera operation state representing execution mode.

Fig. 9 is the key diagram of an example of the camera display frame representing execution mode.

Figure 10 is the key diagram of an example of the camera display frame representing execution mode.

Embodiment

As shown in Figure 1, as the camera 1 of the camera head of present embodiment using celestial body as main subject, have and change camera lens 10, fuselage 20, sky body unit 40.

The sky body unit 40 of present embodiment is the annex of camera 1, to user provide in order to the time period before and after haunting at the Sun and the Moon as main subject photograph needed for information and observed information for observing the Sun and the Moon.It body unit 40 can on the camera connector on fuselage 20 top (such as installing the hot shoe of photoflash lamp) 23 disassembled and assembled freely, sky body unit 40 is installed on the enterprising enforcement of fuselage 20 and uses by user as required.Change camera lens 10 also can on fuselage 20 disassembled and assembled freely, the replacing camera lens 10 being suitable for object is installed on fuselage 20 enterprising enforcements use by user.And in camera 1, the display surface 25A of the display part 25 of display photographed images etc. is to be configured at perpendicular to the mode of the optical axis changing camera lens 10 on the back side (face relative with the arranging face changing camera lens 10) of fuselage 20.User, while observing the image browsing be shown on display surface 25A, carries out pressing operation to shutter release button 29A.

Then use Fig. 1 that the formation of camera 1 is described.Further, because the replacing camera lens 10 of camera 1 and fuselage 20 are common apparatus, be thus only simply illustrated.

Change camera lens 10 and there is camera lens 11, focal adjustments/zoom mechanism portion 12, motor 13, lens controller 14, lens union 15.Camera lens 11 is made up of the multiple lens forming image pickup optical system.Focal adjustments/zoom mechanism portion 12 by by lens controller 14 the motor 13 that controls drive, carry out focal adjustments/zoom action.Lens union 15 is the parts for being arranged on the camera lens installation portion 28 of fuselage 20, has electrical connection contact.

Fuselage 20 has system controller 21, image pickup part 22, camera connector 23, display element drive division 24, the display part 25 with display surface 25A, card memory 26, camera storage part 27, camera lens installation portion 28, functional unit 29, clock 30, Department of Communication Force 31.Image pickup part 22 has the imaging apparatuss such as CCD, forms the photographed images obtained via camera lens 11 pairs of shot object image shootings.System controller 21 has the AE control part 21A carrying out time for exposure control, the AF control part 21B carrying out focal adjustments control, carries out the image processing part 21C of photographed images process, and system controller 21 also carries out the control of camera 1 entirety.

Camera connector 23 is such as hot shoe, being the parts for being installed on by annex such as sky body unit 40 grade on fuselage 20, having electrical connection contact.Display part 25, by the driving of display element drive division 24, the display surface 25A of the display element be made up of liquid crystal or organic EL etc. shows photographed images etc.Card memory 26 is can the medium of dismounting on the fuselage 20 of record photographed images etc.Camera storage part 27 be transmitted to when being stored in startup system controller 21, the flash memory of the program needed for work of system controller 21 etc.Camera lens installation portion 28 is for installing the parts changing camera lens 10, having electrical connection contact.Functional unit 29 is that user is used for Switching Power Supply, or sets pattern described later, or determines to obtain the shutter release button 29A etc. of timing of the photographed images be stored in card memory 26.The information of clock 30 time date of formation, i.e. moment and date.Department of Communication Force 31 is connected with external network or external equipment, and transmitting-receiving comprises the data of photographed images.

And sky body unit 40 has posture detecting part 44, configuration part, position 46, orientation detection portion 43, height detection portion 42, radiowave timepiece 47, annex storage part 49, stores database part 48, the accessory controller 41 carrying out the control of day body unit 40 entirety, the accessory connector 45 of positional information of the Sun and the Moon.Accessory controller 41 has the information calculating part 41A calculating observed information, the display control unit 41B carrying out the control showing observed information on display surface 25A, corrects the time correction portion that the haunts 41C in moment of haunting, analyzes photographed images and detect the sky detection portion 41D of sky portion.

And, information calculating part 41A, display control unit 41B and sky detection portion 41D etc. must be not necessarily special hardware, also can be stored in annex storage part 49 and be forwarded to when starting the program that accessory controller 41 performs, in this case be convenient to illustrate, show as in " portion " as inscape.In addition, a part for the inscape of the fuselage 20 illustrated too.And the display control unit 41B that the function as accessory controller 41 is described etc. also can be forwarded to fuselage 20 system controller 21 when starting carrys out action.

Posture detecting part 44 has 3 axle acceleration sensor 44A and acceleration transducer handling part 44B, detects the posture being provided with posture, i.e. the display surface 25A of the fuselage 20 of day body unit 40.3 axle acceleration sensor 44A are such as made up of 3 the MEMS acceleration transducers be disposed in mutually orthogonal directions, by the electrostatic capacitance change between movable electrode and fixed electrode, detect acceleration of gravity direction and vertical direction.Further, as associating of the function with sky body unit 40, as long as posture detecting part 44 can detect that display surface 25A is in flat-hand position or is in vertical posture.

Configuration part, position 46 has the global positioning system (GPS) be made up of GPS reception antenna 46A, GPS acceptance division 46B and GPS lsb decoder 46C.GPS receives the signal from multiple satellite, thus detects the position (longitude and latitude) on earth's surface.And then height (absolute altitude) can also be detected by GPS in configuration part, position 46.Landscape position detected by GPS is set as the observation place of the observed information that day body unit 40 provides by configuration part, position 46.

Orientation detection portion 43 such as has MR sensor geomagnetic sensor 43A and geomagnetic sensor handling part 43B, detects magnetic direction (magnetic pole) and carries out magnetic declination correction, thus detects direct north.

Radiowave timepiece 47 has standard wave reception antenna 47A, standard wave acceptance division 47B, clock decoder 47C, according to from dispatching station date/digital signal of time information carries out the calibration of clock 30.Height detection portion 42 has pressure sensor 42A and pressure sensor handling part 42B, detects the air pressure and height of observing place.That is, height detection portion 42 is by detecting the height in the place after moving in the calibration at known altitude place place.

And the moment of haunting of the Sun and the Moon in specific observation position, such as Tokyo, orientation of haunting and correction coefficient store as the table data corresponding with the day moon by database part 48.Further, these data can conveniently obtain disclosed in being, and consider the diurnal parallax etc. of the apparent radius of celestial body, air are poor, observer's eye-level causes eye difference in height, the sun, will be that the moment definition of-0.9 degree is for haunting apart from horizontal height.

Below descriptive information calculating part 41A, display control unit 41B, haunt time correction portion 41C and sky detection portion 41D.Further, the database part 48 among above-mentioned inscape, information calculating part 41A, display control unit 41B and the time correction portion 41C that haunts are the special inscapes of day body unit 40, and inscape in addition also can be used for other objects in camera head.Therefore, as long as at least receive database part 48, information calculating part 41A, display control unit 41B and the time correction portion 41C that haunts in sky body unit 40.And above-mentioned special inscape is all software, the CPU etc. that thus can be transmitted to fuselage 20 carries out work.In addition, other transducers such as not shown temperature detecting part can also be had in sky body unit 40.

Next according to the flow chart of Fig. 3, the flow process of the observed information Graphics Processing that the camera 1 of present embodiment realizes is described.

< step S11> system initial setting

The fuselage 20 of camera 1 is provided with and changes camera lens 10 and sky body unit 40, power supply is switched on.So the program be stored in camera storage part 27 and annex storage part 49 is forwarded to system controller 21 or accessory controller 41, program starts.Then the initial setting of system is carried out.

< step S12> starts live view

In camera 1, the photographed images generated by image pickup part 22 is shown on display part 25, or is recorded in card memory 26.Carry out continuously making a video recording by the control of system controller 21 and show, thus show live view image and image browsing on display surface 25A.User observes image browsing while confirm composition, or determines to obtain the timing of the photographed images be recorded in card memory 26.

< step S13> selects pattern

In camera 1, as action, except usual photograph mode or play mode etc., a day bulk-mode can also be selected.

Such as when have selected usual photograph mode, in step S14, perform common camera work subprogram.And when have selected day bulk-mode, carry out the action from step S15.

< step S15, S16> detection accessory

System controller 21 detects whether be provided with day body unit 40 as annex.When installing, (S16:Yes) carries out the work from S17, and when not installing, (S16:No) repeats the action from S13.

< step S17> selects celestial body

The sun or the moon can be selected as celestial body in camera 1.That is, database part 48 stores the positional information of the Sun and the Moon.In the subprogram process of S18, calculating/the information of haunting of the display moon when have selected the moon, because the calculating/Graphics Processing of the information of haunting of itself and the sun described later is similar, not thus being described in detail.And the process of following subprogram is not described in detail too.The action from S19 is carried out when have selected the sun.

< step S19> obtains master data

Have selected the solar time, information calculating part 41A obtains the master data of the observed information for calculating sunrise and sunset.That is, configuration part, position 46 detect/set observation place, detect date-time by clock 30 or radiowave timepiece 47, forward from database part 48 to information calculating part 41A the same day sun such as in the direction of haunting in Tokyo, go out to have no time and the data of correction coefficient.

The judgement of < step S20> sunrise/sunset

Information calculating part 41A judges it is the observed information of display sunrise or the observed information of display sunset according to the moment now.That is, during moment before the sunrise moment being in Tokyo, the observed information of sunrise is shown by the subprogram process of S21, when being in the moment after the sunrise moment, by the observed information of the processes and displays sunset from S22.

< step S22> calculates the sunset moment

Information calculating part 41A, according to sunset moment T0 and correction coefficient A, the B of the Tokyo on the same day obtained from database part 48 (east longitude 139.7 degree, north latitude 35.7 degree), calculates the sunset moment T at observation position place by known method.Such as when observation position is east longitude λ, north latitude φ, calculate the sunset moment T in this place according to following approximate expression.

T＝T0+A(139.7-λ)+B(35.7-φ)

Such as A is 3.9, B is 2.9.That is from Tokyo longitude often eastwards advance 1 degree then the sunset moment shifts to an earlier date 3.9 points, latitude often northwards advance 1 degree then the sunset moment shifts to an earlier date 2.9 points.

< step S23> calculates sunset orientation

Information calculating part 41A with calculating the sunset moment in the same manner as, according to obtain from database part 48 the same day Tokyo sunset orientation and correction coefficient, by the sunset orientation of known method calculating observation position.

< step S24> detects posture

The display surface 25A in posture detecting part 44 detection display portion 25 is in flat-hand position or is in vertical posture.

< step S25, S26> detection orientation/display sunsetting

As shown in Fig. 4 (A), when the posture of the display surface 25A of the camera 1 that user OP keeps be approximate horizontal, be the horizontal direction HD orthogonal with gravity direction GD, display control unit 41B, as shown in Fig. 4 (B), display surface 25A shows sunsetting by arrow 25Y figure.

By above-mentioned display mode, user intuitively can hold sunsetting.In the example shown in Fig. 4 (B), arrow 25Y indicate user OP towards direction, the i.e. upper direction of display surface 25A be the direction differed widely with sunsetting.

And in the present invention, display surface 25A is that flat-hand position represents user OP easily from the state of top view display surface 25A, be in respect to the horizontal plane in the scope of first retainer, the state of the scope of such as ± 30 degree.In like manner, vertical posture refer to be in relative to vertical be first retainer scope in, the state of the scope of such as ± 30 degree.As long as be in above-mentioned scope, user just can easily visual confirmation display surface 25A.

Display control unit 41B, in order to show sunsetting, as shown in Fig. 5 (A), first calculates the imaginary line 25N of the north orientation representing display surface 25A.Imaginary line 25N calculates according to the orientation now detected by orientation detection portion 43, and reflection in real time shows.And as shown in Fig. 5 (B), based on the azimuth angle theta A representing the sunset orientation that information calculating part 41A calculates, show arrow 25Y.Further, now to the north of azimuth angle theta A be 0 degree, to the west of be 90 degree.

Further, during display sunsetting, preferably not display navigation image.Its reason is, when display surface is in level, image browsing is the ground image of user underfooting, can hinder the visual confirmation that user shows orientation.Certainly the demand expecting shooting underfooting can also be there is, therefore can carry out following control and carry out corresponding this situation, namely by the operation of the functional units such as shutter release switch 29, remove the display of sunsetting, or make the display of sunsetting become translucent and overlappingly with image browsing to show.

< step S27> shows the sunset moment

Learned the user of sunsetting to change direction of observation when the display by S25 and make the posture of display surface 25A of the camera 1 kept become roughly vertical shown in Fig. 6 (A), namely roughly gravity direction GD when, display control unit 41B is by the co-operation with system controller, as shown in Fig. 6 (B), the dynamical mean sun line 25S overlap when carving TR (25T), sunset rhumb line SD at sunset by correcting and correct sunset moment TR on display surface 25A is shown on live view image.And the imaginary drawing picture of the shape corresponding with the monthly age also can be used when the moon.

Adopt above-mentioned display mode, the moment being suitable for photographing both can correctly confirm by user in digital form, also can confirm the landscape that can carry out making a video recording at this moment.

Wherein, correction sunset moment TR refers to and has carried out the moment after correcting by the time correction portion 41C that haunts to the sunset moment T that information calculating part 41A calculates.That is, when the sun, sunset moment T is exactly the moment that the elevation angle θ E of sun top is roughly 0 degree (-0.9 degree), and when the moon, falling moment T is exactly the moment that the elevation angle θ E at moon center is roughly 0 degree.But for the user that object is to take scenery picture, compare the moment that the sun submerges under horizontal line completely, be more wish such as moment of first few minutes photograph.

Therefore, in camera 1, sunset moment T is corrected to by the time correction portion 41C that haunts can from observation place at least to the correction sunset moment TR that the entirety picture of the sun is made a video recording.Now, the time correction portion 41C that haunts carries out with the angle of visual field ω of photographed images, namely changes correction corresponding to the focal length F of camera lens 10.Namely, as shown in Fig. 7 (A), when to change camera lens 10 be the larger wide-angle lens of the angle of visual field ω of photographed images, be corrected to shown in Fig. 6 (B) and want the Zao moment than using during standard lens, as shown in Fig. 7 (B), when to change camera lens 10 be the less telephoto lens of the angle of visual field ω of photographed images, be corrected to than the moment late during use standard lens.

The length in degree, i.e. moment of the correction that the time correction portion 41C that haunts carries out or the amount of movement of imaginary drawing picture all can be set by user, and such as when with angle of visual field ω for benchmark, preferably use angle of visual field ω 5 ~ 60% scope.As long as the natural imaginary landscape desired by user just can be obtained in above-mentioned scope.

And then, because camera 1 has sky detection portion 41D, the observed information being more suitable for photographing thus can also be pointed out.That is, in intermountain region or metropolitan area, due to block by the subject on the earth's surface such as mountain range or building, to be revealed in the aerial moment different from the moment taking horizontal line as benchmark as shooting object for the sun.In camera 1, by the observed altitude on mountain range from observation position viewing that sky detection portion 41D detects, change the position be shown in as 25S overlap by dynamical mean sun on live view image, namely change the correction sunset moment TR calculated by the time correction portion 41C that haunts.

Such as shown in Fig. 8, when mountain M is in sunsetting, as shown in Fig. 9 (A), sky detection portion 41D (1) judges whether the line SD top, sunsetting of photographed images exists the low low contrast portion of contrast.Then (2) judge whether the bottom in low contrast portion exists the border of light and shade.(3) when there is the border of light and shade, calculating in the position of center such as 1/n of the image from the angle of visual field being ω and being parallel to horizontal sky boundary line.So elevation angle theta X now calculates by following formula.

θX＝(1/n)×ω

In camera 1, the time correction portion 41C that haunts corrects the correction sunset moment TR gone out for benchmark with horizontal line HL further according to elevation angle theta X.Therefore, camera 1 also can point out the observed information being more suitable for photographing in intermountain region etc.

< step S28> confirms pattern

When not changing pattern, camera 1 repeats the process from S24.And when changing pattern, carried out the process of selected pattern by the process from S13.

As described above, camera 1 shows the camera head excellent with the operability of the relevant information of haunting of the Sun and the Moon as target celestial body by shirtsleeve operation.

Further, the moment of haunting etc. of celestial body also can change owing to observing the height (absolute altitude) in place.In camera 1, can detect by height detection portion 42 or configuration part, position 46 height observing place, thus information calculating part 41A is undertaken and highly corresponding correction by known method.

In addition, in the above description, the situation being fixed on fuselage 20 back side for display part 25 is illustrated, and also can be the display part that can rotate relative to fuselage 20.In this case, the transducer be disposed on rotating part becomes detection display face and is in flat-hand position or is in the posture detecting part of vertical posture.

In addition, in the above description, as information calculating part 41A, the sun is gone out to have no time the computational methods waited, describe system loading less and the method that processes can be carried out at short notice.But according to the hope of user, such as, as selection function, also can the higher known computational methods of service precision.

Such as, when being the sun, the celestial coordinate position of fastening with 365.25 days around ecliptic one week.Therefore first the equatorial coordinates value (right ascension α, declination β) corresponding with the moon sun is calculated according to stored table or according to the calculating formula for calculating equatorial coordinates value.Then equatorial coordinates value (right ascension α, declination β), the longitude λ of observation place, latitude is used with moment (local sidereal time) SG, thus such as calculate elevation angle E and azimuth A by following known formula.By obtaining the condition that elevation angle E is 0 degree, calculate busy etc.

Elevation angle: sin (E)=sin (φ) × sin (β)+cos (φ) × cos (β) × cos (SG-α)

Azimuth: sin (A)=cos (β) × sin (SG-α)/cos (E)

In addition, be described herein the situation of the feature observation position using Tokyo as the Calculation Basis waited that goes out to have no time, also can prestore the information in multiple city or place in database part 48, use the information in the place nearest apart from observation place.The information corresponding with the main field of employment of user can also be applied like that according to North America specification, European requirements or Australian specification.Can also obtain by Department of Communication Force 31 etc. the information making a reservation for the place used to use.

In addition, the date-time that it body unit 40 does not use the position that detected by GPS and clock 30 to detect by means of only configuration part, position 46 processes, and can also show the process such as the observation information of any date-time of the anywhere such as selected by city name by configuration part, user use location 46.Such as Figure 10 is certain place of display at the monthly display surface 25A of sunsetting of a day.

And be explained above the camera 1 that the information of the Sun and the Moon is provided as celestial body, also can be the camera of the information of the sun only providing user's demand more.In addition, as camera head, being not limited only to have the camera 1 changing camera lens 10, such as, can also be to carry out the compact camera of lens changing, the mobile phone of band camera or smart phone etc.The formation of above-mentioned camera head is more single.And then can also be all or part of camera head of the inscape that day body unit 40 is set in fuselage 20.

Otherwise camera of the present invention can also provide the observed information relevant to planet, fixed star, artificial satellite or comets such as the Venus as celestial body.User such as can obtain these celestial body information by Department of Communication Force 31.

And describing with the example of celestial body for main subject in the above description, main subject also can be building or personage.

That is, the camera of camera head alternatively has: make a video recording to shot object image and generate the image pickup part of photographed images; There is the display part of the display surface showing above-mentioned photographed images; Detect the posture detecting part that above-mentioned display surface is in flat-hand position or is in vertical posture; And according to the testing result of above-mentioned posture detecting part, when carrying out when above-mentioned display surface is in above-mentioned flat-hand position and be in above-mentioned vertical posture, above-mentioned display surface shows the display control unit of the control of different information, and above-mentioned main subject is building or personage.

When display surface 25A is flat-hand position, image browsing is the image of underfooting, thus can be judged as that user does not carry out the wish of photographing.Therefore display orientation, moment or the information such as number of photographing on display surface 25A.And when display surface 25A is vertical posture, photographic information such as display shutter speed or aperture etc.

In addition, when display surface 25A is flat-hand position, also can show user towards direction, namely display surface 25A is vertical posture time as the building of main subject, the information of such as Tokyo Tower.

That is, the invention is not restricted to above-mentioned execution mode, various change, change etc. can be implemented in the scope not changing purport of the present invention.

Claims (15)

1. a camera head, is characterized in that, has:

Image pickup part, it takes shot object image, generates photographed images;

Display part, it has the display surface showing above-mentioned photographed images;

Posture detecting part, it detects above-mentioned display surface and is in flat-hand position or is in vertical posture, above-mentioned flat-hand position refers to that being in is with respect to the horizontal plane the state in the scope of first retainer, and above-mentioned vertical posture refers to the state be in relative to vertical in the scope being first retainer;

Configuration part, position, it sets observation place;

Orientation detection portion, its detection orientation;

Clock, it detects date-time;

Database part, it stores the positional information of main subject;

Information calculating part, it is according to the positional information of above-mentioned main subject, calculates the observed information being used for observing above-mentioned main subject from above-mentioned observation place; And

Display control unit, it is according to the testing result of above-mentioned posture detecting part, when carrying out when above-mentioned display surface is in above-mentioned flat-hand position and be in above-mentioned vertical posture, above-mentioned display surface shows the control of different above-mentioned observed informations.

2. camera head according to claim 1, is characterized in that, above-mentioned main subject is celestial body.

3. camera head according to claim 2, is characterized in that, above-mentioned information calculating part calculates the direction and haunt the moment as above-mentioned observed information of haunting of above-mentioned celestial body,

When above-mentioned display surface is in flat-hand position, above-mentioned display control unit display is as the direction of haunting of the above-mentioned celestial body of above-mentioned observed information; When above-mentioned display surface is in vertical posture, the display of above-mentioned display control unit is as the haunting the moment of above-mentioned celestial body of above-mentioned observed information.

4. camera head according to claim 3, is characterized in that, above-mentioned information calculating part, according to above-mentioned date-time information, calculates the haunt direction or haunt moment of above-mentioned celestial body on this date.

5. camera head according to claim 3, is characterized in that, above-mentioned celestial body is the sun or the Sun and the Moon.

6. camera head according to claim 5, it is characterized in that, above-mentioned camera head has the time correction portion that haunts, and the above-mentioned time correction that haunts is that the correction at least taking the entirety picture of above-mentioned celestial body from above-mentioned observation place is haunted the moment by this time correction portion that haunts.

7. camera head according to claim 6, is characterized in that, above-mentioned camera head has sky detection portion, and this sky detection portion detects sky portion from above-mentioned photographed images,

The above-mentioned testing result of time correction portion according to above-mentioned sky detection portion of haunting, carries out above-mentioned correction.

8. camera head according to claim 6, is characterized in that, the above-mentioned time correction portion that haunts carries out the above-mentioned correction corresponding with the angle of visual field of above-mentioned photographed images.

9. the camera head according to claim 6 or 7, is characterized in that, show above-mentioned celestial body above-mentioned haunt the moment time, above-mentioned correction the haunted imaginary drawing picture overlap of above-mentioned celestial body in moment of above-mentioned display control unit is shown in above-mentioned photographed images.

10. camera head according to any one of claim 1 to 8, is characterized in that, configuration part, above-mentioned position has global positioning system, and the position detected by above-mentioned global positioning system is set as above-mentioned observation place by configuration part, above-mentioned position.

11. camera heads according to any one of claim 3 to 8, is characterized in that, above-mentioned camera head has the height detection portion detecting height,

Above-mentioned information calculating part, according to the height detected by above-mentioned height detection portion, corrects the direction and haunting the moment of haunting of above-mentioned celestial body.

12. camera heads according to claim 11, it is characterized in that, configuration part, above-mentioned position has global positioning system, the position detected by above-mentioned global positioning system is set as above-mentioned observation place by configuration part, above-mentioned position, and above-mentioned global positioning system has the function in above-mentioned height detection portion.

13. camera heads according to any one of claim 3 to 8, is characterized in that, the positional information of the above-mentioned celestial body that above-mentioned database part stores is the information in haunt direction and the moment of haunting of the above-mentioned celestial body at certain observation positions place,

Above-mentioned information calculating part is in haunt direction or the moment sum of haunting of the above-mentioned celestial body on this date according to the difference of longitude of the difference of the latitude of the latitude of above-mentioned certain observation positions and above-mentioned observation place and the product of the first correction coefficient, the longitude of above-mentioned certain observation positions and above-mentioned observation place and the product of the second correction coefficient and above-mentioned certain observation positions, calculates the above-mentioned observed information being used for observing above-mentioned celestial body from above-mentioned observation place.

14. camera heads according to any one of claim 1 to 8, it is characterized in that, with have in the unit of fuselage disassembled and assembled freely of above-mentioned image pickup part and above-mentioned display part, be at least accommodated with above-mentioned database part, above-mentioned information calculating part and above-mentioned display control unit.

15. camera heads according to claim 1, is characterized in that, above-mentioned main subject is building or personage.