Summary of the invention
Can not freely regulated technical problem for the Image intake device position that solves the prior art display unit, be necessary to provide a kind of position of Image intake device can freely regulated display unit.
A kind of display unit, it comprises a display floater and an Image intake device shift system.This Image intake device shift system comprises that one is arranged on this a display floater guide rail and Image intake device that is connected with this guide rail on every side.This Image intake device can move around this display floater along this guide rail.
A kind of display unit, it comprises a display floater, a control circuit, an Image intake device shift system, this Image intake device shift system according to the control signal of the control circuit space around this display floater at free filmed image.
Compared with prior art, above-mentioned display unit can be regulated the position of Image intake device according to user's demand, satisfies the user to the multi-faceted demand of filmed image various visual angles.
Embodiment
See also Fig. 2 and Fig. 3, Fig. 2 is the schematic perspective view of display unit first execution mode of the present invention, and Fig. 3 is the enlarged diagram at III place among Fig. 2.This display unit 1 comprises that a show ontology 11 and supports the base 12 of this show ontology 11.
This show ontology 11 comprises that a rectangular display floater 13, accommodates the camera shift system 15 that the frame 14 and of this display floater 13 is arranged on this frame 14.This frame 14 comprises the groove 142 that a rectangle caves in, and this groove 142 is around this display floater 13.This camera shift system 15 comprises a camera 151 and a guide rail 152.This camera 151 is arranged on this guide rail 152, and this guide rail 152 is contained in this groove 142.This camera 151 can move around this display floater 13 along this guide rail 152.
The user can utilize and hold camera 151 and move around this display floater 13 along this guide rail 152, makes this camera 151 terminate in place, user desired position, and then obtains comparatively desirable shooting visual angle.
This guide rail 152 can be replaced by a toughness band (figure does not show), and this toughness band can be considered guide rail.This camera 151 is arranged on this toughness band, and this toughness band is sheathed in this groove 142, and this groove 142 also can be considered guide rail.This toughness band can drive this camera 151 and move around this display floater 13 along the track of this guide rail under the effect of external force, and relies on frictional force to stop at the precalculated position after eliminating external force.
Seeing also Fig. 4, is the schematic perspective view of display unit second execution mode of the present invention.The main difference part of the display unit 2 of present embodiment and the display unit 1 of first execution mode is: the camera shift system 25 of display unit 2 comprises that a camera 251, a cross section are circular an expansion link 255 and a guide rail 252.This expansion link 255 comprises a root 256 and a flexible end 257.This camera 251 is arranged on the flexible end 257 of this expansion link 255.This root 256 articulates with this guide rail 252, and this expansion link 255 can be rotated around the articulated section of its root 256 with guide rail 252 in the plane of parallel display floater 23.The pole that this expansion link 255 is connected with each other for multistage, its inside is cavity, the diameter of this root 256 is greater than the diameter of flexible end 257.When this expansion link 255 was in contraction state, the pole of this flexible end 257 can be contained in the pole of this root 256.
The user can utilize the root 256 of holding this expansion link 255 to move around this display floater 23 in groove 242, terminate in an appropriate location, applying the flexible end 257 that external force makes this expansion link 255 again stretches out from this root 256 or this root 256 of retraction, and then make this camera 251 terminate in place, user desired position, thereby obtain multi-faceted shooting visual angle.When this camera 251 during at the place ahead of this display floater 23 filmed image, can the shield portions show image, but when this display floater 23 be large-scale display floater, its shield portions is relatively very little, and the influence that demonstration causes to image integral body can be ignored.This guide rail 252 also can be replaced by a toughness band.
See also Fig. 5 and Fig. 6, Fig. 5 is the schematic perspective view of display unit the 3rd execution mode of the present invention, and Fig. 6 is the schematic perspective view of the camera shift system of display unit among Fig. 5.The difference of the display unit 3 of present embodiment and the display unit 2 of second execution mode is: this display unit 3 further comprises a control circuit (figure does not show) and a plurality of buttons 30.These a plurality of buttons 30 are arranged on the frame 34, are used to regulate this control circuit.Control circuit can send control signal under the control of these a plurality of buttons 30.The camera shift system 35 of display unit 3 comprises that a camera 351, a cross section are circular expansion link 355, a toughness band 352, a drive system 390.This camera 351 is connected with the flexible end 357 of this expansion link 355.The root 356 of this expansion link 355 is connected with this toughness band 352.
This drive system 390 comprises a tape drive 391, an expansion link Rotation Controllers 392, an expansion link expansion controller (invisible) and a camera Rotation Controllers (invisible).After receiving the control signal of being sent by control circuit, this drive system 390 works.This tape drive 391 comprises a motor 3911 and four rotating shafts 3912.This motor 3911 is connected with a rotating shaft 3912 and carries out control signal institute information conveyed, controls the direction of rotation and the rotating cycle of this rotating shaft 3912.This four rotating shaft 3912 be arranged on the inboard of this toughness band 352 and with its tight contact.Rotate under the driving of this motor 3911 with the rotating shaft 3912 that this motor 3911 is connected, and then drive this toughness band 352 and this expansion link 355 and this camera 351 and move around this display floater 33.Also can be considered this expansion link 355 and this camera 351 along specific guide rail, promptly this toughness band 352 or specific guide rail are that groove (not indicating) moves.This expansion link Rotation Controllers 392 is arranged on the outside of this toughness band 352, it comprise one with the minor axis 3925 of its pivot joint.This minor axis 3925 is connected with the root 356 of this expansion link 355.This expansion link Rotation Controllers 392 receives and can drive this minor axis 3925 after control signals and rotate in the plane of parallel this display floater 33, and then drives this expansion link 355 and this camera 351 rotates in the plane of parallel this display floater 33.This expansion link expansion controller is arranged in the root 356 of this expansion link 355, and it receives and can drive flexible end 357 after control signal and stretch out or this root 356 of retraction from this root 356.This camera Rotation Controllers is arranged in this flexible end 357, and it can drive this camera 351 around these flexible end 357 rotations after receiving control signal.
The control signal that this control circuit sends can show adjustable range by the display menu of this display floater 33.On the basis of existing menu option, set up a camera position and regulate menu option; Utilize button 30 to enter and four sub-options occur after this camera position is regulated menu, be respectively toughness band location options, expansion link rotation option, the flexible option of expansion link and camera rotation option; Utilize button 30 to select behind the one option its relevant parameters to be regulated, thereby send some this drive systems 390 that control signal to.
The toughness band 352 of drive system 390 also can be and is arranged on this display floater 33 guide rail on every side in the display unit 3 of the present invention, this camera 351 and this expansion link 355 are arranged on this guide rail, and move around display floater 33 in external force or this guide rail of motor driver driving action lower edge.
The toughness band of the camera shift system of display unit of the present invention and guide rail can be arranged in the groove of this frame, also can be arranged on the outside of this frame, move around this frame, and then drive this camera and move.The minor axis 3925 of this expansion link Rotation Controllers 392 can be ball-type axle chain, and this expansion link 355 is rotated freely in the space around this ball-type axle chain, is implemented in the arbitrarily angled filmed image at the back of this display unit 3.This camera can be the device that obtains image, and it is not limited to camera and also can be photo-sensitive cell etc., so this camera shift system is the video capturing device shift system; This camera Rotation Controllers is the Image intake device Rotation Controllers; This menu option is the Image intake device location options.
Display unit of the present invention can be regulated the position of this camera automatically according to the signal of user's needs and setting thereof, be implemented in the dead ahead any direction of display floater, any direction and the angle shot image at any direction and back thereof around it, satisfy user's various visual angles, multi-faceted shooting demand.
Display unit of the present invention can be liquid crystal indicator, plasma display system or CRT display etc.