CN204347356U - A kind of bore hole 3D imaging device - Google Patents

A kind of bore hole 3D imaging device Download PDF

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Publication number
CN204347356U
CN204347356U CN201520000116.5U CN201520000116U CN204347356U CN 204347356 U CN204347356 U CN 204347356U CN 201520000116 U CN201520000116 U CN 201520000116U CN 204347356 U CN204347356 U CN 204347356U
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support frame
imaging plate
bore hole
imaging
imaging device
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CN201520000116.5U
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不公告发明人
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TANG LIUHUA
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TANG LIUHUA
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Abstract

The utility model discloses a kind of bore hole 3D imaging device, comprise the first support frame, second support frame and the imaging plate be made up of transparent material, one of them of described first bracing frame and the second bracing frame is Flat computer support, described first support frame is parallel with the second support frame, described imaging plate is liftably connected between the first support frame and the second support frame, and formation rise makes first state of imaging plate inclined shore between the first support frame and the second support frame, and fall and make the first support frame, the second state that imaging plate and the second support frame fold.The two-dimensional visual of panel computer can be become 3D vision by bore hole 3D imaging device of the present utility model, and does not need by 3D glasses, and structure is simple, can fold and launch, be convenient for carrying.

Description

A kind of bore hole 3D imaging device
Technical field
The utility model relates to a kind of bore hole 3D imaging device, particularly relates to a kind of bore hole 3D imaging device being applicable to panel computer.
Background technology
The screen of ordinary flat computer is planar screen, does not have stereoeffect.Along with the development of society, the progress of science and technology and the raising of people's living standard, people for the pursuit of visual perception also become more and more higher, common two-dimensional screen can not meet the demand of people gradually, the substitute is 3D stereo display technique.Current 3D stereo display technique is mainly divided into spectacle and bore hole formula, and wherein, spectacle comprises time division type, light fraction, wavelength-division formula and look fraction, and these four kinds of spectacle 3D stereo display techniques are mainly used in cinema and 3D TV, cannot be suitable for panel computer.If adopt spectacle 3D stereo display technique on panel computer, then must carry with 3D glasses to use to coordinate panel computer, not only use inconvenience, and for itself being the user of myopia, frame one secondary 3D glasses again on spectacles, the comfort level of use can be had a greatly reduced quality.
Bore hole formula is at present mainly based on the three-dimensional imaging of hologram technology, and main application has 45 ° of catoptric imaging technology of holographic showcase, but the image that this imaging technique is formed is little, must rely on special video.And complex structure, can not fold, be inconvenient to carry, so be not also suitable for panel computer.
Summary of the invention
The purpose of this utility model is to provide a kind of bore hole 3D imaging device, the two-dimensional visual of panel computer can be become 3D vision, and not need by 3D glasses, and structure is simple, can fold and launch, be convenient for carrying.
For achieving the above object, the utility model provides a kind of bore hole 3D imaging device, comprise the first support frame, second support frame and the imaging plate be made up of transparent material, one of them of described first bracing frame and the second bracing frame is Flat computer support, described first support frame is parallel with the second support frame, described imaging plate is liftably connected between the first support frame and the second support frame, and formation rise makes first state of imaging plate inclined shore between the first support frame and the second support frame, and fall and make the first support frame, the second state that imaging plate and the second support frame fold.
As further improvement of the utility model, first end and first support frame of described imaging plate are hinged, and the second end and second support frame of described imaging plate are slidably connected.
Further improve as of the present utility model, form sharp angle between the line of travel of described imaging plate when rising and imaging plate, and this sharp angle is 30 °-70 °.
Further improve as of the present utility model, the both sides of the first end of described imaging plate and the two opposite side walls of the first support frame hinged, the two opposite side walls of described second support frame is provided with horizontal concrete chute, and the both sides of the second end of described imaging plate are provided with to be stretched in respective slide slots and can along the slide block of slide.
Further improve as of the present utility model, the both sides of described imaging plate are fixed with a fixed head respectively, described fixed head is higher than the plane of imaging plate, the both sides of the first end of described imaging plate are hinged to the first support frame by fixed head, and the slide block of the second end both sides of described imaging plate is located on corresponding fixed head.
Further improve as of the present utility model, the size of described first support frame and imaging plate is all less than the size of the second support frame, two described fixed heads are between the first support frame and the second support frame, and described first support frame, imaging plate and two fixed heads are accommodated in the second support frame when the second state.
Further improve as of the present utility model, the both sides of described imaging plate are fixed with a fixed head respectively, described fixed head is higher than the plane of imaging plate, two described fixed heads are between the first support frame and the second support frame, the both sides of the first end of described imaging plate are hinged to the first support frame by fixed head, the slide block of the second end both sides of described imaging plate is located on corresponding fixed head, and two described fixed heads to be accommodated in the second support frame and between the first support frame and the second support frame when the second state.
Further improve as of the present utility model, the base of four sidewalls of described first support frame extends to form the first back up pad for support plate computer respectively inwardly, and the centre of four described the first back up pads is first through holes; Four sidewall bases of described second support frame extend to form the second back up pad for supporting two fixed heads respectively inwardly, and the centre of four described the second back up pads is second through holes, and described first through hole and the second through hole are equiped with slide respectively.
Further improve as of the present utility model, described transparent material is glass or acrylic board or transparent membrane, described transparent material is 20%-80% to the reflectivity of the video source of panel computer, and described transparent material is 50%-95% to the transmittance of the video source of panel computer.
Further improve as of the present utility model, open when being also included in the first state and close when the second state and be wrapped in the pack case outside the first support frame, imaging plate and the second support frame.
Compared with prior art, the beneficial effect of bore hole 3D imaging device of the present utility model is as follows:
(1) because bore hole 3D imaging device is made up of imaging plate, the second support frame and the first support frame, thus not only structure is simple, and the folding of bore hole 3D imaging device can be realized and launch, thus be convenient for carrying, and the imaging plate of inclination by being made up of transparent material, the two-dimensional visual of panel computer can be become 3D vision, and not need by 3D glasses, thus add the convenience of use.
(2) adopt slide block and horizontal concrete chute and articulated manner to realize imaging plate lifting, not only structure is simple, and easily realizes folding and launch operation.
(3) adopt fixed head in the both sides of imaging plate, imaging plate can be made to install more stable, and not affect its imaging effect.
(4) because the size of the first support frame and imaging plate is all less than the size of the second support frame, thus the first support frame and imaging plate can be accommodated in the second support frame after folding completely, the space that bore hole 3D imaging device takies can be reduced, more convenient to carry.
(5) due to imaging plate rise time line of travel and imaging plate between form sharp angle, and this sharp angle is 30 °-70 °, and transparent material is 20%-80% to the reflectivity of the video source of panel computer, be 50%-95% to the transmittance of the video source of panel computer, thus make 3D imaging effect good, stereoscopic sensation and visual effect better.
(6) pack case and be equiped with slide respectively at the first through hole and the second through hole is adopted, thus can waterproof travel fatigue, ensure result of use.
By following description also by reference to the accompanying drawings, the utility model will become more clear, and these accompanying drawings are for explaining embodiment of the present utility model.
Accompanying drawing explanation
Schematic diagram when Fig. 1 is the bore hole 3D imaging device rise in embodiment one.
Fig. 2 is the schematic diagram of the bore hole 3D imaging device in embodiment one when falling.
Schematic diagram when Fig. 3 is the bore hole 3D imaging device rise in embodiment two.
Embodiment
With reference now to accompanying drawing, describe embodiment of the present utility model, element numbers similar in accompanying drawing represents similar element.
Embodiment one
Please refer to Fig. 1-2, described bore hole 3D imaging device comprises the first support frame 1, second support frame 2, imaging plate 3 and pack case 4.Described first support frame 1 is parallel with the second support frame 2, and described first support frame 1 is positioned at the top of the second support frame 2.Described imaging plate 3 is between the first support frame 1 and the second support frame 2, and the first end of described imaging plate 3 connects the first support frame 1, and the second end of described imaging plate 3 connects the second support frame 2.Described pack case 4 is wrapped in outside the second support frame 2, imaging plate 3 and the first support frame 1, dustproof and waterproof.
Described first support frame 1 is for support plate computer.The base of four sidewalls of described first support frame 1 extends to form the first back up pad 11 for support plate computer respectively inwardly, and the centre of four described the first back up pads 11 is first through holes 12.Described upper through hole is equiped with the first slide 13, described first slide 13, described first slide 13 is glass material, thus the video source that panel computer is play can project on imaging plate 3 through this first slide 13, this first slide 13 also has dust-proof effect, thus ensures imaging effect.
Described second support frame 2 is for supporting imaging plate 3.The size of described second support frame 2 is greater than the size of the first support frame 1 and imaging plate 3.Four sidewall bases of described second support frame 2 extend to form the second back up pad 21 for supporting imaging plate 3 respectively inwardly, and the centre of four described the second back up pads 21 is second through holes 22.Described second through hole 22 place is equiped with the second slide 23, and described second slide 23 is glass material, has dustproof effect.The front portion of the sidewall that two of described second support frame 2 are relative is provided with horizontal concrete chute 24, and described horizontal concrete chute 24 is arc structure in rear and front end.
Described imaging plate 3 is made up of transparent material, and described transparent material is glass, and described transparent material is 20%-80% to the reflectivity of the video source of panel computer, and described transparent material is 50%-95% to the transmittance of the video source of panel computer.Described imaging plate 3 is liftably connected between the first support frame 1 and the second support frame 2, described imaging plate 3 when rising inclined shore between the first support frame 1 and the second support frame 2, described imaging plate 3 when falling and the first support frame 1 and the second support frame 2 fold.
The both sides of described imaging plate 3 are fixed with a fixed head 31 respectively, and described fixed head 31 is higher than the plane of imaging plate 1.Described imaging plate 3 is when rising, the first end of described imaging plate 3 is upper ends, second end of described imaging plate 3 is lower ends, two described fixed heads 31 are consistent with imaging plate 3 angle of inclination, the upper end of two described fixed heads 31 is positioned at the outside of two opposing sidewalls of the first support frame 1, and the upper end of described two fixed heads 31 is hinged to the rear portion of the respective side walls of the first support frame 1 respectively; The lower end of two described fixed heads 31 is positioned at the inner side of two opposing sidewalls of the second support frame 2, and the lower end outside of these two fixed heads 31 is respectively equipped with a slide block 32, and described slide block 32 stretches in respective slide slots 24 and also can slide along chute 24.Described imaging plate 3 is when falling, whole imaging plate 3 is positioned at the below of the first support frame 1, and parallel first support frame 1 and the second support frame 2, the rear end of described imaging plate 3 is first ends, front end is the second end, described fixed head 31 is parallel with imaging plate 3, two described fixed heads 31 are positioned at the inner side of two opposing sidewalls of the second support frame 2, whole imaging plate 3 is positioned at the second support frame 2, two described fixed heads 31 are also positioned at the outside of two opposing sidewalls of the first support frame 1 simultaneously, the rear end of two described fixed heads 31 is hinged to the rear portion of the respective side walls of the first support frame 1 respectively, described slide block 32 is positioned at the front end outer side of fixed head 31.
Described slide block 32 is round sliders, the circular arc of the rear and front end of its outward flange radian and above-mentioned horizontal concrete chute 24 adapts, thus slide block 32 can not damage the two ends inwall of horizontal concrete chute when sliding, and the friction force of round slider is little, facilitates the descending operation of imaging plate 3.
During use, pack case 4 is opened, pull down the second support frame 2, till making the slide block 32 on two fixed heads 31 move backward to can not move along horizontal concrete chute 24, now fixed head 31 and imaging plate 3 are obliquely installed, by the broadcasting placed face down of panel computer on the first support frame 1, the ordinary two dimensional video that panel computer is play projects on the imaging plate 3 of inclination through the first slide 13, by refraction and the reflection of the imaging plate 3 of inclination, floating skyborne 3D picture can be formed, thus do not need to wear 3D glasses, very convenient use.When not needing to use, then upwards push away the second support frame 2, till making the slide block 32 on two fixed heads 31 move forward to can not move along horizontal concrete chute 24, now fixed head 31 and imaging plate 3 are horizontally disposed with and are positioned at the second support frame 2, and the first support frame 1 is also horizontally disposed with and is positioned at the second support frame 2, namely the first support frame 1, fixed head 31, imaging plate 3 and the second support frame 2 fold completely, thus very conveniently carry.After folding, wire up by pack case 4, thus dustproof and waterproof.
Embodiment two
Please refer to Fig. 3, the difference of the present embodiment and above-described embodiment one is only: described upper through hole does not arrange the first slide 13, and described second through hole 22 place does not arrange the second slide 23, thus saves material, cost-saving.
In addition, the utility model can also have other embodiments, and in other embodiments, the first end both sides of described imaging plate 3 are directly hinged on the first support frame 1, and slide block 32 is directly fixed in the second end both sides of described imaging plate 3.
In other embodiments, described imaging plate 3 also can be articulated and connected at the rear side of the rear side of first end and the first support frame 1, and slide block 32 is directly fixed in the second end both sides of described imaging plate 3.
In other embodiments, also can be positioned at top by the second support frame 2, the unique below of the first support frame 1, second support frame 2 is used as Flat computer support, so the second end of imaging plate 3 is upper end when rising, and first end is lower end, and the second end and the second support frame are slidably connected.
In other embodiments, described transparent material also can be acrylic board or transparent membrane, as long as it is 20%-80% to the reflectivity of the video source of panel computer, is 50%-95% to the transmittance of the video source of panel computer.
More than in conjunction with most preferred embodiment, the utility model is described, but the utility model is not limited to the embodiment of above announcement, and should contain various carry out according to essence of the present utility model amendment, equivalent combinations.

Claims (10)

1. a bore hole 3D imaging device, it is characterized in that, comprise: the first support frame, second support frame and the imaging plate be made up of transparent material, one of them of described first bracing frame and the second bracing frame is Flat computer support, described first support frame is parallel with the second support frame, described imaging plate is liftably connected between the first support frame and the second support frame, and formation rise makes first state of imaging plate inclined shore between the first support frame and the second support frame, and fall and make the first support frame, the second state that imaging plate and the second support frame fold.
2. bore hole 3D imaging device as claimed in claim 1, it is characterized in that: first end and first support frame of described imaging plate are hinged, the second end and second support frame of described imaging plate are slidably connected.
3. bore hole 3D imaging device as claimed in claim 2, is characterized in that: form sharp angle between the line of travel of described imaging plate when rising and imaging plate, and this sharp angle is 30 °-70 °.
4. bore hole 3D imaging device as claimed in claim 2, it is characterized in that: the both sides of the first end of described imaging plate and the two opposite side walls of the first support frame hinged, the two opposite side walls of described second support frame is provided with horizontal concrete chute, and the both sides of the second end of described imaging plate are provided with to be stretched in respective slide slots and can along the slide block of slide.
5. bore hole 3D imaging device as claimed in claim 4, it is characterized in that: the both sides of described imaging plate are fixed with a fixed head respectively, described fixed head is higher than the plane of imaging plate, the both sides of the first end of described imaging plate are hinged to the first support frame by fixed head, and the slide block of the second end both sides of described imaging plate is located on corresponding fixed head.
6. bore hole 3D imaging device as claimed in claim 5, it is characterized in that: the size of described first support frame and imaging plate is all less than the size of the second support frame, two described fixed heads are between the first support frame and the second support frame, and described first support frame, imaging plate and two fixed heads are accommodated in the second support frame when the second state.
7. bore hole 3D imaging device as claimed in claim 6, it is characterized in that: the both sides of described imaging plate are fixed with a fixed head respectively, described fixed head is higher than the plane of imaging plate, two described fixed heads are between the first support frame and the second support frame, the both sides of the first end of described imaging plate are hinged to the first support frame by fixed head, the slide block of the second end both sides of described imaging plate is located on corresponding fixed head, two described fixed heads to be accommodated in the second support frame and between the first support frame and the second support frame when the second state.
8. bore hole 3D imaging device as claimed in claim 6, it is characterized in that: the base of four sidewalls of described first support frame extends to form the first back up pad for support plate computer respectively inwardly, the centre of four described the first back up pads is first through holes; Four sidewall bases of described second support frame extend to form the second back up pad for supporting two fixed heads respectively inwardly, and the centre of four described the second back up pads is second through holes, and described first through hole and the second through hole are equiped with slide respectively.
9. the bore hole 3D imaging device as described in any one of claim 1 to 8, it is characterized in that: described transparent material is glass or acrylic board or transparent membrane, described transparent material is 20%-80% to the reflectivity of the video source of panel computer, and described transparent material is 50%-95% to the transmittance of the video source of panel computer.
10. the bore hole 3D imaging device as described in any one of claim 1 to 8, is characterized in that: open when being also included in the first state and close when the second state and be wrapped in the pack case outside the first support frame, imaging plate and the second support frame.
CN201520000116.5U 2015-01-01 2015-01-01 A kind of bore hole 3D imaging device Active CN204347356U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106353996A (en) * 2016-11-04 2017-01-25 京东方科技集团股份有限公司 Holographic display device
CN109036204A (en) * 2018-07-08 2018-12-18 东营职业学院 A kind of video display animation Special stereoscopic phantom imaging equipment
CN109946918A (en) * 2019-04-26 2019-06-28 四川省派瑞克斯光电科技有限公司 3D projection angle control method, device and system
CN110456604A (en) * 2019-07-23 2019-11-15 刘婷婷 A kind of digital virtual imaging device
CN116940075A (en) * 2023-07-25 2023-10-24 广东金鼎移动传媒有限公司 Naked eye 3D imaging equipment based on MOST optical fiber network

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106353996A (en) * 2016-11-04 2017-01-25 京东方科技集团股份有限公司 Holographic display device
CN106353996B (en) * 2016-11-04 2019-03-01 京东方科技集团股份有限公司 A kind of holographic display
CN109036204A (en) * 2018-07-08 2018-12-18 东营职业学院 A kind of video display animation Special stereoscopic phantom imaging equipment
CN109036204B (en) * 2018-07-08 2020-09-22 东营职业学院 Stereo phantom imaging equipment special for movie and animation
CN109946918A (en) * 2019-04-26 2019-06-28 四川省派瑞克斯光电科技有限公司 3D projection angle control method, device and system
CN110456604A (en) * 2019-07-23 2019-11-15 刘婷婷 A kind of digital virtual imaging device
CN116940075A (en) * 2023-07-25 2023-10-24 广东金鼎移动传媒有限公司 Naked eye 3D imaging equipment based on MOST optical fiber network
CN116940075B (en) * 2023-07-25 2024-04-09 广东金鼎移动传媒有限公司 Naked eye 3D imaging equipment based on MOST optical fiber network

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