CN103176343A

CN103176343A - Third-dimensional (3D) photo shooting device

Info

Publication number: CN103176343A
Application number: CN2013100965185A
Authority: CN
Inventors: 杨浩
Original assignee: SHENZHEN CHINA-P PRINTING Co Ltd
Current assignee: SHENZHEN CHINA-P PRINTING Co Ltd
Priority date: 2013-03-22
Filing date: 2013-03-22
Publication date: 2013-06-26
Anticipated expiration: 2033-03-22
Also published as: WO2014146346A1; CN103176343B

Abstract

The invention relates to a 3D photo shooting device which comprises a camera mounting seat, a path setting unit and a displacement driving unit, wherein the path setting unit drives a leftwards and rightwards extended elastic sheet to be deformed, so that an arc path that the camera mounting seat moves can be supplied; the displacement driving unit comprises a sliding component which can horizontally move along the extending direction of the elastic sheet; a rotating disk is arranged on the sliding component; and the camera mounting seat is arranged on the rotating disk in a matched manner through sliding in the forth and back direction perpendicular to the horizontal moving direction of the sliding component and is clamped on the elastic sheet through at least one group of rollers. Due to matching of the camera mounting seat, the path setting unit and the displacement driving unit, the stability of a camera during shooting is improved; and a plurality of photos with tiny differences can be shot controllably and quickly at different angles.

Description

The 3D photo camera

Technical field

The present invention relates to 3D photograph taking field, relate in particular to a kind of 3D photo camera.

Background technology

The 3D photo utilizes people's binocular stereo vision principle, can allow the people produce the impression of three dimensions depth, thereby bring three-dimensional visual effect, and the image of seeing and real object sensation approach, strong sense of reality.It is that moving type is taken that the shooting of 3D photo at present has a kind of method, after namely aiming at an object and taking a photo, photographer moves a certain distance camera towards certain direction, aiming at same object takes pictures again, therefore two photos can utilize parallax to process by image and form a 3D photo because there is Light Difference in the direction of taking.Shooting process is by photographer's manual control.

This takes the method for 3D photo, is to have the photo of Light Difference by taking two compositions, then synthesizes the 3D photo.Because shooting process is subjected to manual control, there is certain restriction, when adopting this method to take, the spacing distance of twice shooting is difficult to hold the shooting effect that reaches best; In moving process, also there is certain difficulty in the stability of camera; When needs used that multiple pictures is synthetic is treated to the 3D photo, many existed the photo of Light Difference to be difficult to take.

Summary of the invention

The technical problem to be solved in the present invention is, for the defects of prior art, provides that a kind of good stability, controllability are high, simple and convenient and take many 3D photo cameras that have the Light Difference photo in different angles fast.

The technical solution adopted for the present invention to solve the technical problems is: a kind of 3D photo camera is provided, comprise camera mount pad, path setting unit and displacement driver element, wherein, the curved path that provides the camera mount pad to move is provided by the shell fragment that drives a left and right and extend in described path setting unit; Described displacement driver element comprises the slide assemblies that can move along the bearing of trend left and right horizontal of described shell fragment, and described slide assemblies is provided with rotating disc; Described camera mount pad is by perpendicular to being slidably installed on described rotating disc on the fore-and-aft direction of the left and right horizontal moving direction of slide assemblies, and is held on shell fragment by at least one group of roller clip.

According to 3D photo camera of the present invention, described path setting unit further comprises the first motor, by the first motor-driven transmission shaft, being threaded is installed on described transmission shaft two ends with the rotation of transmission shaft simultaneously inwardly or the left and right drive block that outwards moves left and right and the left and right shell fragment mounting blocks being located on the drive block of described left and right and can horizontally rotating with respect to described left and right drive block, the two ends, left and right of described shell fragment are fixedly installed on the shell fragment mounting blocks of described left and right.

According to 3D photo camera of the present invention, described path setting unit further comprises a base plate and is fixed in the left-and-right supporting plate at described base plate two ends, and described transmission shaft is installed on described left-and-right supporting plate.

According to 3D photo camera of the present invention, described displacement driver element further comprises the second motor of being installed on described base plate, by the second motor-driven synchronous cog belt, be installed on described base plate and the guide rail parallel with described synchronous cog belt, described slide assemblies is driven by described synchronous cog belt and moves along described guide rail left and right horizontal.

according to 3D photo camera of the present invention, described slide assemblies further comprises the first slide block that is slidably matched with described guide rail, be fixed in installing plate and the turntable fixed head that is fixed on described installing plate on described the first slide block, an end on described turntable fixed head is provided with for the rectangular channel that passes for synchronous cog belt and is provided with the Timing Belt pressing plate described synchronous cog belt is limited in described rectangular channel, the other end of described turntable fixed head is equipped with described rotating disc, described rotating disc top is provided with the second slide block that is slidably matched with the camera mount pad on perpendicular to the direction of described guide rail.

In one embodiment of the present of invention, described displacement driver element further comprises the stroke control mechanism of the stroke that horizontally slips of controlling described slide assemblies, described stroke control mechanism comprises the left and right stroke adjustment piece that is installed on described base plate and slide bar described guide rail parallel and is installed on movably two ends, described slide bar left and right, and described slide assemblies also is provided with and is fixed on the installing plate side and extends to the position indicating piece of described slide bar top and the left and right travel switch that coordinates with described left and right stroke adjustment piece that is positioned at the indicating piece left and right sides, position.

In one embodiment of the present of invention, described displacement driver element further comprises the photoelectric sensor switch that is fixed on the base plate centre position, and described slide assemblies is provided with the sensing chip that coordinates with described photoelectric sensor switch at the opposite side with respect to the position indicating piece.

According to 3D photo camera of the present invention, described camera mount pad comprises a slide unit, described slide unit comprises that the upper surface of the lower surface of slide unit top board and slide unit base plate is respectively equipped with one group of roller clip and is held on shell fragment for the slide unit top board that camera is installed, by the guide rail support side plate that the slide unit base plate on the second slide block of described slide assemblies and a side that the slide unit top board is connected with the slide unit base plate connect that is slidably installed.

According to 3D photo camera of the present invention, described camera mount pad further comprises a spike, and an end of described spike is fixed on the slide unit base plate, and the other end is provided with roller and contacts with base plate.

According to 3D photo camera of the present invention, described slide unit top board is provided with level meter.

Implement 3D photo camera of the present invention, its beneficial effect is: this device is by the cooperation of camera mount pad, path setting unit and displacement driver element, control walk rate and the angle of camera, improve the stability of camera in shooting process, realize controllable, take many photos that have Light Difference in different angles fast.

Description of drawings

The invention will be further described below in conjunction with drawings and Examples, in accompanying drawing:

Fig. 1 is the structural representation of the 3D photo camera of one embodiment of the invention;

Fig. 2 is the structural representation of the path setting unit except shell fragment in Fig. 1;

Fig. 3 is the structural representation of displacement driver element in Fig. 1;

Fig. 4 is the structural representation of the slide assemblies on the displacement driver element in Fig. 3.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be understood that, specific embodiment described herein only is used for explaining the present invention, is not intended to limit the present invention.

Fig. 1 is the structural representation of the 3D photo camera of one embodiment of the invention.As shown in Figure 1, this 3D photo camera mainly is made of camera mount pad 10, path setting unit 20 and displacement driver element 30.Wherein, path setting unit 20 is out of shape by the shell fragment 210 that drives a left and right extension curved path that provides camera mount pad 10 to move; Displacement driver element 30 comprises the slide assemblies 304 that can move along the bearing of trend left and right horizontal of shell fragment 210, and described slide assemblies 304 is provided with rotating disc 3044(referring to Fig. 4); Camera mount pad 10 is by perpendicular to being slidably installed in described rotating disc 3044(referring to Fig. 4 on the fore-and-aft direction of the left and right horizontal moving direction of slide assemblies 304) on, and be held on shell fragment 210 by at least one group of roller clip.Thus, camera mount pad 10 can move left and right by the curved path along shell fragment 210 under the drive of slide assemblies 304, while is due to the effect of the radian of shell fragment 210, camera mount pad 10 by with rotating disc 3044(referring to Fig. 4) be slidably matched and move forward and backward, and realize angular adjustment by the rotation of rotating disc 3044.

Specifically as shown in Figure 1, camera mount pad 10 is used for installing camera (figure does not show), camera mount pad 10 bottoms are provided with guide rail (not showing in figure), camera mount pad 10 is arranged on slide assemblies 304 tops of displacement driver element 30 by this guide rail, and can be along the second slide block 3045(of slide assemblies 304 upper ends referring to Fig. 4) move forward and backward.

Specifically, camera mount pad 10 comprises slide unit 101, roller 102, level meter 103 and spike 104.Wherein slide unit 101 is arranged on displacement driver element 30, comprises relative slide unit top board 1011 parallel to each other and slide unit base plate 1012, and a side of slide unit top board 1011 and slide unit base plate 1012 is connected by support side plate 1013.Slide unit top board 1011 is used for installing camera; Slide unit base plate 1012 bottoms are provided with the second slide block 3045(of slide assemblies 304 upper ends of guide rail (in figure show) and displacement driver element 30 referring to Fig. 4) be slidably matched, so that camera mount pad 10 can be along the second slide block 3045(of slide assemblies 304 upper ends referring to Fig. 4) move forward and backward.The upper surface of the lower surface of slide unit top board 1011 and slide unit base plate 1012 is respectively equipped with one group of roller 102, the shell fragment 210 that is used for clamping path setting unit 20 is so that the curved path that camera mount pad 10 sets along shell fragment 210 under the drive of displacement driver element 30 moves.Level meter 103 is arranged on slide unit top board 1011, the horizontality when guaranteeing that camera is taken.Spike 104 1 ends are fixed on slide unit base plate 1012, and the other end is provided with roller and contacts with base plate 201, so that certain supporting role to be provided in the process that moves at camera mount pad 10.

Fig. 2 is the structural representation of the path setting unit except shell fragment 20 in Fig. 1.Specifically, path setting unit 20 comprises base plate 201, left-and-right supporting plate 202, the first motors 204 that are fixed on base plate 201 two ends are installed on the back up pad 202 of an end by motor fixing plate 211, motor coupling block 212.Transmission shaft 207 is installed on left-and-right supporting plate 202, and drives the rotation of transmission shafts 207 by being fixed on a pair of gear 205 on motor fixing plate 211,206 by the first motor 204.Transmission shaft 207 two ends are provided with the threaded portion, left and right drive block 208 is parallel to be oppositely arranged on the threaded portion of transmission shaft 207, be threaded with transmission shaft 207, inwardly or outwards move horizontally simultaneously with the screw drive left and right drive block 208 at transmission shaft 207 two ends when transmission shaft 207 rotation.Further, left and right drive block 208 is provided with left and right guide pole 203 and is supported on left-and-right supporting plate 202, for moving horizontally of left and right drive block 208 provides guiding.Vertically be provided with bearing pin on left and right drive block 208, two shell fragment mounting blocks 209 are socketed in respectively on the bearing pin of left and right drive block 208, thereby at left and right drive block 208 with the rotation of transmission shaft 207 during along axially the moving horizontally of transmission shaft 207, band spring plate mounting blocks 209 horizontally rotates around bearing pin, is fixed on shell fragment 210(on shell fragment mounting blocks 209 referring to Fig. 1 thereby drive two ends) be deformed into certain radian.In the present embodiment, the front end of left and right shell fragment mounting blocks 209 extends respectively and is provided with externally threaded erection column, and shell fragment 210 two ends are fixed on by nut on the erection column of left and right shell fragment mounting blocks 209 front ends (referring to Fig. 1).Further as shown in Figure 2, path setting unit 20 also is provided with the front and back banking stop 213 that is connected with shell fragment 210, and front and back banking stop 213 is provided with travel switch 214, is used for controlling the front and back extreme position that shell fragment 201 radians change.

Fig. 3 is the structural representation of displacement driver element 30 in Fig. 1; Fig. 4 is the structural representation of the slide assemblies 304 on the displacement driver element in Fig. 3.

Wherein, thus displacement driver element 30 mainly comprises the second motor 301 of being arranged on base plate 201, the synchronous cog belt 302 that driven by the second motor 301, be arranged on base plate 201 and the guide rail 303 parallel with synchronous cog belt 302, by synchronous cog belt 302 drive the slide assemblies 304 that slides along guide rail 303 left and right horizontal, the stroke control mechanism 305 of the sliding stroke of controlling slide assemblies 304 and be fixed on base plate 201 centre positions and move to the photoelectric sensor switch 306 in base plate centre position with perception slide assemblies 304.As shown in Figure 4, slide assemblies 304 mainly comprises the first slide block 3041, installing plate 3042, turntable fixed head 3043, rotating disc 3044, the second slide block 3045, Timing Belt pressing plate 3046.Wherein, the first slide block 3041 is located at guide rail 303 tops, and slides along guide rail 303.Installing plate 3042 is fixed on the first slide block 3041, turntable fixed head 3043 is fixed on installing plate 3042, an end perpendicular to guide rail 303 directions on turntable fixed head 3043 is provided with rotating disc 3044, and rotating disc 3044 is rotationally connected with turntable fixed head 3043 so that rotating disc 3044 can rotate with respect to turntable fixed head 3043.In the present embodiment, rotating disc 3044 is connected with turntable fixed head 3043 bearings, thereby can rotate with respect to turntable fixed head 3043.Rotating disc 3044 tops are provided with the second slide block 3045, are used for being slidably matched with the guide rail (showing in figure) of camera mount pad 10 slide unit base plate 1012 bottoms, so that camera mount pad 10 is realized moving forward and backward.The other end perpendicular to guide rail 303 directions on turntable fixed head 3043 is provided with rectangular channel, Timing Belt pressing plate 3046 is fixed on rectangular channel top, synchronous cog belt 302 passes this rectangular channel, and be limited in this rectangular channel by Timing Belt pressing plate 3046, slide along guide rail 303 to drive whole slide assemblies 304.

Slide assemblies 304 in the present embodiment also comprises position indicating piece 3047, left and right travel switch 3048 and sensing chip 3049.Position indicating piece 3047 is fixed on the installing plate 3042 of slide assemblies 304 near on a side of rotating disc 3044, and left and right travel switch 3048 is oppositely arranged on position indicating piece 3047 left and right sides along guide rail 303 directions.The other end relative with position indicating piece 3047 on slide assemblies 304 is provided with sensing chip 3049, can determine just that by the sensing chip 3049 on photoelectric sensor switch 306 induction slide assemblies 304 slide assemblies 304 is in the centre position of base plate 201.

Stroke control mechanism 305 mainly comprises slide bar 3051, left and right slide bar fixed block 3052, left and right stroke adjustment piece 3053 and left and right adjusting screw 3054.Wherein, slide bar 3051 is fixed on base plate 201 by left and right slide bar fixed block 3052, and slide bar 3051 two ends, left and right are respectively equipped with the left and right stroke adjustment piece 3053 of movable connection, and left and right adjusting screw 3054 is respectively in order to fixing left and right stroke adjustment piece 3053.Stroke control mechanism 305 coordinates with position indicating piece 3047, left and right travel switch 3048 on slide assemblies 304, in order to indicating the real time position of slide assemblies 304 side-to-side movements, and controls the direction of motion of slide assemblies 304.When thereby the second motor 301 task driven synchronous cog belts 302 drive slide assemblies 304 slide to the right along guide rail 303, right lateral journey switch 3048 on slide assemblies 304 is encountered the right lateral journey regulating block 3053 on stroke control mechanism 305, just can control the second motor 301 switch operating directions, drive synchronous cog belt 302 drive slide assemblies 304 and slide left along guide rail 303.Equally, when the left lateral journey switch 3048 on slide assemblies 304 is encountered left lateral journey regulating block 3053 on stroke control mechanism 305, just can control the second motor 301 switch operating direction again, driving synchronous cog belt 302 drive slide assemblies 304 slides to the right along guide rail 303, so repeatedly, realize the left and right horizontal motion of slide assemblies 304.

Below will introduce in detail the course of work of 3D photo camera shown in Figure 1:

At first, the first motor 204 work of path setting unit 20, by driving a pair of gear 205,206 transmissions, drive the rotation of transmission shaft 207, the axial while along transmission shaft 207 inwardly or outwards moves horizontally left and right drive block 208 with the rotation of transmission shaft 207, band spring plate mounting blocks 209 horizontally rotates around bearing pin, thereby is deformed into certain radian with spring plate 210, to form the path of camera mount pad 10 displacements.Then, the first motor 204 quits work.Then, the second motor 301 of displacement driver element 30 is started working, drive synchronous cog belt 302 and drive slide assemblies 304 along guide rail 303 slips, thereby the curved path that drive camera mount pad 10 provides along shell fragment 210 with the slip of slide assemblies 304 moves horizontally.Simultaneously, camera mount pad 10 can radians formed according to shell fragment 210 moves forward and backward along the second slide block 3045 of displacement driver element 30, and also can radian formed according to shell fragment 210 rotating disc 3044 by displacement driver element 30 rotate.When camera mount pad 10 moves along the radian of shell fragment 210, observe and set the displacement interval of camera mount pad 10 according to position indicating piece 3047 on slide assemblies 304, just can shoot the multiple pictures of degree of there are differences.Camera mount pad 10 rotation by rotating disc 3044 realizes that the radian according to shell fragment 210 changes and adjusts angle, thereby can realize camera auto-alignment subject all the time in moving process.When the left and right travel switch 3048 on slide assemblies 304 was encountered left and right stroke adjustment piece 3053, the second motor 301 switch operating directions drove slide assemblies 304 towards motion in the other direction, thereby drive 10 counter motions of camera mount pad.

Claims

1. 3D photo camera, it is characterized in that, comprise camera mount pad, path setting unit and displacement driver element, wherein, the curved path that provides described camera mount pad to move is provided by the shell fragment that drives a left and right and extend for described path setting unit; Described displacement driver element comprises the slide assemblies that can move along the bearing of trend left and right horizontal of described shell fragment, and described slide assemblies is provided with rotating disc; Described camera mount pad is by perpendicular to being slidably installed on described rotating disc on the fore-and-aft direction of the left and right horizontal moving direction of slide assemblies, and is held on described shell fragment by at least one group of roller clip.

2. 3D photo camera according to claim 1, it is characterized in that, described path setting unit further comprises the first motor, by the first motor-driven transmission shaft, being threaded is installed on described transmission shaft two ends with the rotation of transmission shaft simultaneously inwardly or the left and right drive block that outwards moves left and right and the left and right shell fragment mounting blocks being located on the drive block of described left and right and can horizontally rotating with respect to described left and right drive block, the two ends, left and right of described shell fragment are fixedly installed on the shell fragment mounting blocks of described left and right.

3. 3D photo camera according to claim 2, is characterized in that, described path setting unit further comprises a base plate and be fixed in the left-and-right supporting plate at described base plate two ends, and described transmission shaft is installed on described left-and-right supporting plate.

4. 3D photo camera according to claim 3, it is characterized in that, described displacement driver element further comprises the second motor of being installed on described base plate, by the second motor-driven synchronous cog belt, be installed on described base plate and the guide rail parallel with described synchronous cog belt, described slide assemblies is driven by described synchronous cog belt and moves along described guide rail left and right horizontal.

5. 3D photo camera according to claim 4, it is characterized in that, described slide assemblies further comprises the first slide block that is slidably matched with described guide rail, be fixed in installing plate and the turntable fixed head that is fixed on described installing plate on described the first slide block, an end on described turntable fixed head is provided with for the rectangular channel that passes for synchronous cog belt and is provided with the Timing Belt pressing plate described synchronous cog belt is limited in described rectangular channel, the other end of described turntable fixed head is equipped with described rotating disc, described rotating disc top is provided with the second slide block that is slidably matched with the camera mount pad on perpendicular to the direction of described guide rail.

6. 3D photo camera according to claim 5, it is characterized in that, described displacement driver element further comprises the stroke control mechanism of the stroke that horizontally slips of controlling described slide assemblies, described stroke control mechanism comprises and is installed on described base plate and slide bar described guide rail parallel, and the left and right stroke adjustment piece that is installed on movably two ends, described slide bar left and right, described slide assemblies also is provided with the position indicating piece that is fixed on the installing plate side and extends to described slide bar top, and the left and right travel switch that coordinates with described left and right stroke adjustment piece that is positioned at the indicating piece left and right sides, position.

7. 3D photo camera according to claim 6, it is characterized in that, described displacement driver element further comprises the photoelectric sensor switch that is fixed on the base plate centre position, and described slide assemblies is provided with the sensing chip that coordinates with described photoelectric sensor switch at the opposite side with respect to the position indicating piece.

8. 3D photo camera according to claim 5, it is characterized in that, described camera mount pad comprises a slide unit, described slide unit comprises that the upper surface of the lower surface of slide unit top board and slide unit base plate is respectively equipped with one group of roller clip and is held on shell fragment for the slide unit top board that camera is installed, by the guide rail support side plate that the slide unit base plate on the second slide block of described slide assemblies and a side that the slide unit top board is connected with the slide unit base plate connect that is slidably installed.

9. 3D photo camera according to claim 8, is characterized in that, described camera mount pad further comprises a spike, and an end of described spike is fixed on the slide unit base plate, and the other end is provided with roller and contacts with base plate.

10. 3D photo camera according to claim 9, is characterized in that, described slide unit top board is provided with level meter.