CN206299956U - A kind of 3D device for filming image - Google Patents

Abstract

A kind of 3D device for filming image disclosed in the utility model, including mainframe, the mainframe is provided with the first video camera, with the camera lens of first video camera towards the second vertical video camera, and the open viewport framework in front end, reflex reflector lens are provided with the viewport framework, two regions will be divided into viewport framework by the reflex reflector lens in viewport framework, installing space was so not only saved but also convenient installation, and the first drive component and the second drive component are set on mainframe, realize aggregation and the aperture of Automated condtrol regulation camera lens, more compact structure is succinct, and control board has wireless communication function, reduce the connection of data wire, avoid cumbersome patching operations, convenient operation, more practical reliability.

Description

A kind of 3D device for filming image

Technical field

The utility model is related to image capture devices field, the 3D filming images dress that especially a kind of twin-lens is automatically adjusted Put.

Background technology

With the development of 3D imaging technique, the filming apparatus of 3D images have progressively been applied to the bat of the industries such as TV or film In taking the photograph, however, existing 3D device for filming image has complex structure, the zoom, aperture size and distance to filming apparatus take The shortcomings of regulation such as third dimension during scape needs the whole regulating member of movement by hand, troublesome poeration；In addition, existing 3D filming images Device needs data wire external controller in operation, and wiring is more and complicated, and operating efficiency is low, and 3D device for filming image is being clapped The scene of taking the photograph is very easy to go wrong, and is investigated one by one, it is necessary to stop shooting when a certain bar circuit goes wrong, and takes Power is time-consuming, influences shooting efficiency.

Utility model content

The problems such as in order to solve existing 3D device for filming image wiring complexity, one kind that the utility model is provided is based on bimirror Head shoots, the 3D device for filming image with Radio Control Function.

To achieve these goals, the technical scheme that the utility model is used is：

A kind of 3D device for filming image, including mainframe, the mainframe are provided with the first video camera and described first and take the photograph The camera lens of camera is provided with reflective towards the second vertical video camera, and the open viewport framework in front end in the viewport framework The camera lens of eyeglass, first video camera and the second video camera towards the viewport framework and is respectively placed in the reflex reflector lens Both sides, the first drive component for adjusting the first camera lens is additionally provided with the mainframe and second is taken the photograph for adjusting Second drive component of camera lens, is provided with the control board of wireless communication module in the mainframe.

Preferably, first drive component includes the first driver and fourth drive, first driver and the Two drivers are connected on the camera lens of first video camera side by side by first connecting rod, and second drive component includes the 3rd Driver and fourth drive, the 3rd driver and fourth drive are connected to described second and take the photograph side by side by second connecting rod On the camera lens of camera.

Preferably, the camera lens of first video camera is located at the open back of the viewport framework, second shooting The camera lens of machine be located at the viewport framework bottom opening at, the reflex reflector lens with the focus of first and second camera lens Line angle at 45 °.

Further, the micromatic setting for adjusting the reflex reflector lens anglec of rotation is installed in the viewport framework, it is described Micromatic setting is rotationally connected with the lens frame at the top of the viewport frame front end including upper end, and positioned at the viewport frame Frame rear end lower and lens frame abut against for the adjusting nut that promotes reflex reflector lens to be rotated up, on the lens frame It is provided with and the torsionspring that lens frame rotates down torsion is provided.

Further, chopping mechanism, the screening are respectively equipped with the opening of back and bottom in the viewport framework Light mechanism is slidably matched the screen component to be formed for polylith screen.

Preferably, first video camera is installed in the horizontal direction of the mainframe by carriage, and described Two video cameras are installed in the vertical direction of the mainframe by carriage, and the carriage includes and the mainframe The slide of connection, the slide is provided with chute, and slide plate is slidably connected with the chute.

Preferably, the rotary components for adjusting the first camera horizon corner, institute are installed in the mainframe Stating rotary components includes the rotating base being connected with the mainframe, and the middle part upper end of the rotating base is provided with rotating disk, The rotating disk lower end passes rotating base and is connected with the rotating driving device for driving rotating disk to rotate.

Further, the rotating driving device includes rotary drive motor and swing pinion group, the swing pinion group Including be connected with the rotary drive motor output shaft rotation driving gear and rotation driving gear linkage conversion gear with And the base gear linked with conversion gear, the base gear is connected to the lower end of the rotating disk, the rotation driving electricity Machine is servomotor.

Preferably, the adjusting part for adjusting second camera rotating-angle, the tune are installed in the mainframe Section component includes the sliding seat being connected with the mainframe, and the sliding seat is connected with upper lower adjusting seat, institute by upper lower rotary shaft The first angle drive device for being provided with sliding seat and driving upper lower adjusting seat around upper and lower axis of rotation is stated, the first angle is driven Dynamic device includes the first motor and the first gear screw assembly driven by the first motor, the first gear spiral Component includes the first under drive gear group and intermeshing first gear and second gear, the first gear and second Gear is respectively connected with the first screw-drive mechanism for converting rotational motion into linear motion, the first gear and second gear It is meshed and rotates backward, and upper lower adjusting seat is made around upper and lower axis of rotation by the movement of the first screw-drive mechanism.

Further, the adjusting part also includes left and right adjusting seat, and the upper lower adjusting seat is cut with scissors by left and right rotating shaft Left and right adjusting seat is connect, the axis of the left and right rotating shaft is vertical with the axis of upper lower rotary shaft, driving is provided with the sliding seat left Right adjustment seat around left and right axis of rotation second angle drive device, the second angle drive device include the second motor And by the second gear screw assembly of the second motor driving, the second gear screw assembly includes the second deceleration transmission tooth Wheel group and intermeshing 3rd gear and the 4th gear, the 3rd gear and the 4th gear are respectively connected with rotary motion The second screw-drive mechanism of linear motion is converted to, the 3rd gear and the 4th gear are meshed and rotate backward, and lead to Crossing the movement of the second screw-drive mechanism makes left and right adjusting seat around left and right axis of rotation, first motor and the second driving electricity Machine is servomotor.

The beneficial effects of the utility model：The 3D device for filming image includes two video cameras, the first video camera and second The shooting direction of video camera is set and is mutually perpendicular to, and Liang Ge areas will be divided into viewport framework by the reflex reflector lens in viewport framework Domain, had so not only saved installing space but also convenient installation, and be provided for adjusting the first of the first camera lens on mainframe Drive component and the second drive component for adjusting the second camera lens, realize focusing and the light of automation regulation camera lens Circle, more compact structure is succinct, and control board plate has wireless communication function, reduces the connection of data wire, it is to avoid cumbersome Patching operations, convenient operation, more practical reliability.

Brief description of the drawings

Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.

Fig. 1 is the overall structure diagram of 3D device for filming image of the present utility model；

Fig. 2 is the assembling schematic diagram of 3D device for filming image of the present utility model；

Fig. 3 is the decomposition texture schematic diagram of viewport framework in the utility model；

Fig. 4 is the decomposition texture schematic diagram of carriage in the utility model；

Fig. 5 is the structural representation of rotary components in the utility model；

Fig. 6 is the decomposition texture schematic diagram of rotary components in the utility model；

Fig. 7 is the structural representation of adjusting part in the utility model；

Fig. 8 is the decomposition texture schematic diagram of adjusting part in the utility model.

Specific embodiment

To describe technology contents of the present utility model, structural feature, the objects and the effects in detail, below in conjunction with implementation Mode simultaneously coordinates accompanying drawing to be explained in detail.

Referring to Fig. 1 and 2, a kind of 3D device for filming image, including mainframe 3, the mainframe 3 is provided with the first video camera 1 with the camera lens of first video camera 1 towards the second vertical video camera 2, and the open viewport framework 6 in front end, it is described to regard Be provided with reflex reflector lens in mouthful framework 6, the camera lens of the video camera 2 of first video camera 1 and second towards the viewport framework 6 and The both sides of the reflex reflector lens are respectively placed in, the first drive for adjusting the camera lens of the first video camera 1 is additionally provided with the mainframe 3 Dynamic component, and the second drive component of the camera lens of the second video camera 2 is adjusted, realize that Automated condtrol adjusts camera lens, structure is tighter Gather succinct.Be provided with the mainframe 3 wireless communication module, for controlling the whole control of 3D device for filming image running Circuit board processed, by wireless communication module transmission of control signals, reduces the connection of data wire, it is to avoid cumbersome patching operations, side Convenient to operate, more practical reliability.

In embodiment, first video camera 1 and the second video camera 2 of use are the video camera of tight shot, therefore camera lens Upper only aggregation and aperture regulation, first drive component include the first driver of the regulation lens focus of the first video camera 1 11 pass through with the second driver 12 for adjusting the lens aperture of the first video camera 1, the driver 12 of first driver 11 and second First connecting rod 13 is connected on the camera lens of first video camera 1 side by side.Second drive component includes that regulation second is imaged 3rd driver 21 of the lens focus of machine 2 and the fourth drive 22 of the regulation lens aperture of the second video camera 2, the described 3rd drives Device 21 and fourth drive 22 are connected on the camera lens of second video camera 2 side by side by second connecting rod 23.Wherein, first drive Move device 11, the second driver 12, the 3rd driver 21 and fourth drive 22 to be driven by servomotor, and be built-in with driving and connect Circuit is received, by wireless controller or cable controller each driver can be controlled to be operated accordingly.Above-mentioned zoom drive Device has with scaling driver and match the automatic detection function of camera lens, automatically distribution electric current, rotating speed, motor it is positive and negative Turn, servomotor operation is smooth, during high-speed rotation, will be barely audible the sound, powerful driving force can easily drive various special Industry cinema scene, while the light camera lens of compatible damping.

Referring to Fig. 3, the camera lens of first video camera 1 is located at the open back of the viewport framework 6, and described second takes the photograph The camera lens of camera 2 is located at the bottom opening 64 of the viewport framework 6, the structure of open back not shown in accompanying drawing, described anti- Light eyeglass with the focus line angle at 45 ° of first and second camera lens, the reflex reflector lens for using are plated film light splitting glass lens 61.Further, the fine setting for adjusting the anglec of rotation of plated film light splitting glass lens 61 is installed in the viewport framework 6 to fill Put, the micromatic setting is rotationally connected with the lens frame 62 of the front top of viewport framework 6 including upper end, and is located at The rear end lower of viewport framework 6 and lens frame 62 abut against for promoting what plated film light splitting glass lens 61 were rotated up Adjusting nut 66, the lens frame 62 is provided with and provides the torsionspring 63 that lens frame 62 rotates down torsion.The structure Middle adjusting nut 66 is arranged at the rear end lower of viewport framework 6, it is to avoid adjusting nut 66 is blocked when being arranged on viewport 6 side of framework Upper shoulder shoots the sight line of person there, and avoids adjusting nut 66 exposed in obvious place, so that the entirety of light shield Profile is more attractive in appearance.When being screwed into adjusting nut 66 in towards viewport framework 6, adjusting nut 66 is moved and promotes lens frame obliquely 62 overcome the twisting resistance of torsionspring 63 to be rotated up around rotating shaft, conversely, towards back-out outside viewport framework 6 adjusting nut 66 when, Adjusting nut 66 is moved obliquely, and plated film light splitting glass lens 61 are downward around rotating shaft under the restoring force effect of torsionspring 63 Rotate, the anglec of rotation of plated film light splitting glass lens 61 is can adjust by turning adjusting nut 66.

Be injected into viewport framework 6 from the opening of viewport framework 6 to be shut out the light, be located in the viewport framework 6 Back is with the chopping mechanism that is matched with camera lens, the chopping mechanism are respectively equipped with the opening of bottom is polylith screen 65 Be slidably matched the screen component to be formed.Need not be manually operated, screen component can automatically follow camera lens to slide adjustment position, effectively Shut out the light and inject in viewport framework 6.

Referring to Fig. 4, first video camera 1 is installed in the horizontal direction of the mainframe 3 by carriage 7, institute State the second video camera 2 to be installed in the vertical direction of the mainframe 3 by carriage 7, the carriage 7 includes and institute The slide 71 of the connection of mainframe 3 is stated, the slide 71 is provided with chute 711, slide plate is slidably connected with the chute 711 72, the first video camera 1 and the second video camera 2 are connected on the slide plate 72 of corresponding carriage 7.

Referring to Fig. 5 and 6, in embodiment, it is provided with the mainframe 3 and is turned for adjusting the level of the first video camera 1 The rotary components 4 at angle, the rotary components 4 include the rotating base 41 being connected with the mainframe 3, the rotating base 41 Middle part upper end is provided with rotating disk 42, and the lower end of the rotating disk 42 passes rotating base 41 and is connected with driving rotating disk 42 and rotates Rotating driving device.The corresponding both sides of the rotating base 41 are separately installed with the slide bar 45 being slidably connected with it, The axis of the slide bar 45 is vertical with the pivot of rotating disk 42, and the rotating base 41 is connected with driving rotating base 41 edge The sliding driving device that slide bar 45 is slided.Further, the rotating driving device includes rotary drive motor 43 and rotary teeth Wheel group, the swing pinion group includes the rotation driving gear 431 being connected with the output shaft of the rotary drive motor 43 and rotation The conversion gear 432 of the linkage of driving gear 431 and the base gear 433 linked with conversion gear 432, the base gear 433 lower ends for being connected to the rotating disk 42, the rotary drive motor 43 is servomotor.Need to adjust the first video camera 1 During the angle of camera lens, driving gear 431 is driven by rotary drive motor 43, drives the conversion gear teeth to rotate by driving gear 431, Rotated by the dynamic base gear 433 of conversioning wheel cingulum again, so that the rotating disk 42 being fixedly installed on base gear 433 is rotated, Realize that angle lenses are adjusted, degree of regulation is high, Stability Analysis of Structures reliability.

The sliding driving device includes the balladeur train group slided motor 44 and driven by slip motor 44 Part, the balladeur train component includes and slides the first spur gear 441 and the first spur gear that the output shaft of motor 44 is connected 441 engagement the second spur gears 442 and engaged with the second spur gear 442 for coordinating external member linkage rotation base 41 to slide The 3rd capable spur gear 443, in embodiment, the external member is the first tooth bar 46, and tooth bar 46 is fastened in frame, is slided Motor 44 is servomotor.As such, it is desirable to when adjusting the displacement of taking lens, slide motor 44 and drive the first straight-tooth Wheel 441, the first spur gear 441 engagement linkage the second spur gear 442 and the 3rd spur gear 443, the 3rd spur gear 443 and the first tooth Bar 46 produces relative displacement, is moved along slide bar 45 so as to base 41 is rotated, and realizes the displacement regulation of taking lens.

Further, the rolling bearing of abrasionproof is provided between the rotating base 41 and rotating disk 42, it is to avoid rotation bottom Mutually worn and torn between seat 41 and rotating disk 42, the service life of rotating disk 42 can be extended.

Rotating base 41 is arranged on the horizontal direction position of mainframe 3 during installation, and the first video camera 1 is directly or indirectly pacified In rotating disk 42, disk 42 is rotated by rotating driving device and is rotated, rotating base is driven by sliding driving device 41 slide along slide bar 45, are moved so as to disk 42 is rotated, and realize the anglec of rotation regulation of the camera lens of the first video camera 1 and mobile position Transposition section, wherein rotating driving device drive with sliding driving device by servomotor, and degree of regulation is high, fast response time, The more stable reliability of service behaviour, is not influenceed by operating personnel's oneself factor, easy to operate.

Referring to Fig. 7 and 8, in embodiment, it is provided with for adjusting the corner of the second video camera 2 in the mainframe 3 Adjusting part 5, the adjusting part 5 includes the sliding seat 51 being connected with the mainframe 3, and the sliding seat 51 by turning up and down Axle 511 is connected with lower adjusting seat 52, the upper lower adjusting seat 52 of driving is provided with the sliding seat 51 and is rotated around upper lower rotary shaft 511 First angle drive device, the first angle drive device include the first motor and by the first motor drive First gear screw assembly, the first gear screw assembly includes the first under drive gear group 541 and intermeshing First gear 542 and second gear 543, the first gear 542 and second gear 543 are respectively connected with and convert rotational motion into First screw-drive mechanism of linear motion, the first gear 542 and second gear 543 are meshed and rotate backward, and lead to Crossing the movement of the first screw-drive mechanism spiral makes lower adjusting seat 52 be rotated around upper lower rotary shaft 511, first screw-drive mechanism It is the first spiral differential first 544.

Further, the adjusting part 5 also includes left and right adjusting seat 53, and the upper lower adjusting seat 52 passes through left/right rotation Axle 521 is hinged left and right adjusting seat 53, and the axis of the left and right rotating shaft 521 is vertical with the axis of upper lower rotary shaft 511, the sliding seat The second angle drive device for driving left and right adjusting seat 53 to be rotated around left and right rotating shaft 521 is installed, the second angle is driven on 51 Dynamic device includes the second motor 54 and the second gear screw assembly driven by the second motor 54, the second gear Screw assembly includes the second under drive gear group 551 and intermeshing 3rd gear 552 and the 4th gear 553, described 3rd gear 552 and the 4th tooth 553 take turns the second screw-drive mechanism for being respectively connected with and converting rotational motion into linear motion, institute State the 3rd gear 552 and the 4th gear 553 is meshed and rotates backward, and a left side is made by the movement of the second screw-drive mechanism spiral Right adjustment seat 53 is rotated around left and right rotating shaft 521, and second screw-drive mechanism is the second spiral differential first 554, and described first drives Dynamic motor and the second motor 54 are servomotor.

Above-mentioned adjusting part 5 is installed on the vertical direction position of mainframe 3, and the second video camera 2 is mounted directly or indirectly to On left and right adjusting seat 53, first angle drive device drives upper lower adjusting seat 52 to rotate to adjust shooting mirror around upper lower rotary shaft 511 The vertical direction angle of head, second angle drive device drives left and right adjusting seat 53 to rotate to adjust shooting around left and right rotating shaft 521 The horizontal direction angle of camera lens, wherein, coordinated by the servomotor in adjusting part and the second tooth bar 57 and drive sliding seat 51 Traversing, second tooth bar 57 is fixed on mainframe 3, and the upper and lower ends of sliding seat 51 are additionally provided with guide groove and are placed in guide groove Slide bar 56 is oriented to, the adjusting part can be moved left and right to adjust displacement along slide bar 56 is oriented to, so as to realize many of taking lens To angular adjustment.Above-mentioned first angle drive device drives with second angle drive device by servomotor, degree of regulation Height, fast response time, the more stable reliability of service behaviour is not influenceed by operating personnel's oneself factor, easy to operate.

The above, simply preferred embodiment of the present utility model, the utility model is not limited to above-mentioned implementation The structure of mode, as long as it reaches technique effect of the present utility model with identical means, should all belong to guarantor of the present utility model Shield scope.

Claims (10)

1. a kind of 3D device for filming image, including mainframe, the mainframe is provided with the first video camera and first shooting The camera lens of machine is provided with reflective mirror towards the second vertical video camera, and the open viewport framework in front end in the viewport framework The camera lens of piece, first video camera and the second video camera towards the viewport framework and is respectively placed in the reflex reflector lens Both sides, it is characterised in that：The first drive component for adjusting the first camera lens is additionally provided with the mainframe and is used for The second drive component of the second camera lens is adjusted, the control circuit of wireless communication module is provided with the mainframe Plate.

2. 3D device for filming image according to claim 1, it is characterised in that：First drive component includes that first drives Dynamic device and fourth drive, first driver and the second driver are connected to first shooting side by side by first connecting rod On the camera lens of machine, second drive component includes the 3rd driver and fourth drive, the 3rd driver and 4 wheel driven Dynamic device is connected on the camera lens of second video camera side by side by second connecting rod.

3. 3D device for filming image according to claim 1, it is characterised in that：The camera lens of first video camera is located at institute State at the open back of viewport framework, the camera lens of second video camera is located at the bottom opening of the viewport framework, described Reflex reflector lens with the focus line angle at 45 ° of first and second camera lens.

4. 3D device for filming image according to claim 3, it is characterised in that：It is provided with for adjusting in the viewport framework The micromatic setting of the reflex reflector lens anglec of rotation is saved, the micromatic setting is rotationally connected with the viewport frame front end including upper end The lens frame at top, and positioned at the viewport back-end framework bottom and lens frame abut against for promoting reflex reflector lens The adjusting nut being rotated up, the lens frame is provided with and provides the torsionspring that lens frame rotates down torsion.

5. the 3D device for filming image according to claim 3 or 4, it is characterised in that：Back is located in the viewport framework And it is respectively equipped with chopping mechanism at the opening of bottom, the chopping mechanism is slidably matched the screen component to be formed for polylith screen.

6. 3D device for filming image according to claim 1, it is characterised in that：First video camera passes through carriage It is installed in the horizontal direction of the mainframe, second video camera is installed on the vertical of the mainframe by carriage On direction, the carriage includes the slide being connected with the mainframe, and the slide is provided with chute, sliding on the chute It is dynamic to be connected with slide plate.

7. the 3D device for filming image according to claim 1 or 6, it is characterised in that：Be provided with the mainframe for The rotary components of the first camera horizon corner are adjusted, the rotary components include the rotation bottom being connected with the mainframe Seat, the middle part upper end of the rotating base is provided with rotating disk, and the rotating disk lower end passes rotating base and is connected with driving The rotating driving device that rotating disk is rotated.

8. 3D device for filming image according to claim 7, it is characterised in that：The rotating driving device includes that rotation is driven Dynamic motor and swing pinion group, the swing pinion group include the rotation driving tooth being connected with the rotary drive motor output shaft Wheel and the conversion gear and the base gear with conversion gear linkage of rotation driving gear linkage, the base gear connection In the lower end of the rotating disk, the rotary drive motor is servomotor.

9. 3D device for filming image according to claim 1, it is characterised in that：It is provided with for adjusting in the mainframe The adjusting part of second camera rotating-angle, the adjusting part includes the sliding seat being connected with the mainframe, the cunning Dynamic seat is connected with upper lower adjusting seat by upper lower rotary shaft, the upper lower adjusting seat of driving is provided with the sliding seat and is turned around upper lower rotary shaft Dynamic first angle drive device, the first angle drive device includes the first motor and is driven by the first motor First gear screw assembly, the first gear screw assembly includes the first under drive gear group and intermeshing the One gear and second gear, the first gear and second gear are respectively connected with and convert rotational motion into the first of linear motion Screw-drive mechanism, the first gear and second gear are meshed and rotate backward, and are moved by the first screw-drive mechanism It is dynamic to make lower adjusting seat around upper and lower axis of rotation.

10. 3D device for filming image according to claim 9, it is characterised in that：The adjusting part also includes left and right Adjustment seat, the upper lower adjusting seat is hinged left and right adjusting seat, axis and the upper lower rotary shaft of the left and right rotating shaft by left and right rotating shaft Axis it is vertical, the second angle drive device for driving left and right adjusting seat around left and right axis of rotation is installed on the sliding seat, The second angle drive device includes the second motor and the second gear screw assembly driven by the second motor, institute Stating second gear screw assembly includes the second under drive gear group and intermeshing 3rd gear and the 4th gear, described 3rd gear and the 4th gear are respectively connected with the second screw-drive mechanism for converting rotational motion into linear motion, the described 3rd Gear and the 4th gear are meshed and rotate backward, and make left and right adjusting seat around left/right rotation by the movement of the second screw-drive mechanism Axle is rotated, and first motor and the second motor are servomotor.