CN201757972U - Holographic suspension virtual image system - Google Patents
Holographic suspension virtual image system Download PDFInfo
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- CN201757972U CN201757972U CN2010201590501U CN201020159050U CN201757972U CN 201757972 U CN201757972 U CN 201757972U CN 2010201590501 U CN2010201590501 U CN 2010201590501U CN 201020159050 U CN201020159050 U CN 201020159050U CN 201757972 U CN201757972 U CN 201757972U
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Abstract
A holographic suspension virtual image system is provided hereby, which overcomes the defects seen in traditional virtual image systems of the prior art which require a complex structure and a big image forming box but provides low brightness. A mini-type computer host machine controlling the formation of images and a long-distant video signal receiver are arranged in an image formation control and image display control box. An OLED (Organic Light Emitting Diode) image forming screen is horizontally placed on the image formation control and image display control box. A metallic coating film with a reflection rate ranging from 55% to 75% is provided at the external side of the transparent glasses at an outer image forming screen constituting an image outer forming screen; A metallic coating film with a reflection rate ranging from 85% to 90% is provided at the internal side of the transparent glasses at an inner image forming screen constituting an inner reflection image forming screen. The beneficial effects of the utility model lie in that: the virtual image system has a simple structure, a light weight and is energy-saving, which prevents the occurrence of vague images. Further, the virtual image system can be either installed on a ground or a table or suspended. The introduction of an outer image forming screen and an inner image forming screen are arranged together to form and make the holographic suspension virtual image system capable of shooting images two times, which makes thus gained images deeper, more dimensional, more vivid and more delicate.
Description
Technical field
The utility model belongs to a kind of virtual image system, be particularly related to a kind of reflection of light image-forming principle and organic light emitting display technology utilized, can make people's all angles around this device observe the holography suspension virtual image system of certain objects image three-dimensional contouring.
Background technology
In the prior art, for exhibiting product realistically, way has several, and a kind of is to display out real product, and a kind of is to display out real model, and further more a kind of mode is to utilize computer technology to simulate product, shows on the giant-screen of plane then.Along with continuous advancement in technology, a kind of omnidirectional image-forming system has appearred in the prior art.As Granted publication day be on Dec 26th, 2007, the patent No. is the disclosed a kind of omnidirectional image-forming system of ZL200620048459.X.This system is that imaging on projection screen forms four imaging sources, by four semi-transparent reflection mirror direct reflections, forms virtual image system on four sides by the projector installed at imaging casing inner bottom part projected picture vertically upward.This 360 degree four sides virtual images are called holographic imaging again, dynamic image can be suspended in the centre of four sides virtual image system, allow spectators from around the optional position observe the stereopsis of suspension.Above-mentioned this system is applied in the advertising at present.But, above-mentioned this system is owing to adopt the projector projection pattern, need the distance that an image amplifies, thereby the imaging casing is bigger, floor area is also just bigger, be subjected to the restriction of installation environment in the actual project installation, because system adopts the projection pattern projection, brightness is lower, in order to prevent to be subjected in actual use the influence of ambient light, also need be around above four semi-transparent reflection mirror minute surfaces and below around and the top shading baffle plate is installed, make system architecture complicated.In addition, this system adopts the semi-transparent reflection mirror as direct reflection, because of the semi-transparent reflection mirror has interior reflective surface and two reflectings surface of external reflection face, thereby can form the image stack, causes the diplopia phenomenon, influences imaging effect.
Summary of the invention
Technical problem to be solved in the utility model is, a kind of holography suspension virtual image system that utilizes organic light emitting display is provided, makes the image-generating unit smaller volume, it is little influenced by ambient light, realize that image is more true to nature, exquisiteness and high brightness, reach and make things convenient for application aims.
Technical solution of the present utility model comprises imaging control and display device and holographic suspension tridimensional virtual imaging device, described holographic suspension tridimensional virtual imaging device is fixed on imaging control and display device top, described imaging control and display device have an inside that the control box of imaging control microcomputer main frame and remote video signal receiver is housed, an OLED of horizontal positioned (organic light emitting display) imaging screen on control box, described holographic suspension tridimensional virtual imaging device has a bracing frame that is fixed on the control box, fixed bonding has mirror image external reflection imaging screen on bracing frame, on mirror image external reflection imaging screen, be bonded with mirror image internal reflection imaging screen, between described mirror image external reflection imaging screen and the OLED imaging screen in angle of 45 degrees.
Described mirror image external reflection imaging screen comprises four outer imaging screens that are made of clear glass, single outer imaging screen is an isosceles trapezoid, the clear glass that constitutes the outer imaging screen of isosceles trapezoid comprises outer imaging screen clear glass medial surface and outer imaging screen clear glass lateral surface, be coated with reflectivity outside on the surface of imaging screen clear glass lateral surface and be 55%~75% outer metal-plated rete, the outer imaging screen of per two adjacent isosceles trapezoids is bonded to each other and forms rectangular pyramid shape mirror image external reflection imaging screen together, is bonded with plastic bottom board in rectangular pyramid shape mirror image external reflection imaging screen bottom.
Described mirror image internal reflection imaging screen comprises four interior imaging screens that are made of clear glass, imaging screen is an isosceles trapezoid in single, the clear glass that constitutes imaging screen in the isosceles trapezoid comprises interior imaging screen clear glass lateral surface and interior imaging screen clear glass medial surface, on clear glass medial surface surface, be coated with reflectivity and be 85%~90% interior metal-plated rete, imaging screen is bonded to each other and forms rectangular pyramid shape mirror image internal reflection imaging screen together in per two adjacent isosceles trapezoids, be bonded with transmittance at rectangular pyramid shape mirror image internal reflection imaging screen top and be 10% glass loam cake, in each isosceles trapezoid between imaging screen and the glass loam cake angle be 135 to spend.
Compared with prior art, the utility model is owing to adopt imaging control microcomputer main frame and remote video signal receiver and ultra-thin OLED imaging screen to substitute original imaging casing and projector and curtain, simple in structure, in light weight, the image-generating unit volume is little, and it is little influenced by ambient light, can realize landing, desk-top or lift multiple mounting means, thereby convenient in actual project installation, flexibly, energy-conservation in actual use, increase system stability, can reduce maintenance cost.In addition, owing on mirror image external reflection imaging screen lateral surface surface and mirror image internal reflection imaging screen medial surface surface, be coated with the metal-plated rete of strengthening reflex, improved reflectivity, solved imaging diplopia phenomenon, improved image brilliance and sharpness,, realized twice imaging owing to adopt mirror image external reflection imaging screen to become holographic suspension tridimensional virtual imaging device with mirror image internal reflection imaging screen mutual group, improved the depth feelings and the stereoscopic sensation of image, image is more true to nature, fine and smooth.
Description of drawings
Fig. 1 is the utility model system architecture synoptic diagram;
Fig. 2 is the utility model mirror image external reflection imaging screen front view;
Fig. 3 is the vertical view of Fig. 2;
Fig. 4 is the I portion partial enlarged drawing of Fig. 2;
Fig. 5 is the utility model mirror image internal reflection imaging screen front view;
Fig. 6 is the vertical view of Fig. 5;
Fig. 7 is the II portion partial enlarged drawing of Fig. 5;
Fig. 8 is the III portion partial enlarged drawing of Fig. 1;
Fig. 9 is the utility model support frame structure synoptic diagram;
Figure 10 is a control device synoptic diagram of the present utility model.
Among the figure:
1. control box,
1-1. Ultrathin speaker, the 1-2. cooling fan, 1-3. imaging control microcomputer main frame,
1-4. casing, stabilized voltage supply in the 1-5. remote video signal receiver, 1-6. case,
1-7. automatic time switch, 1-8. remote wireless signals receiving antenna, the 1-9. audio output line,
1-10. video output cable, 1-11. first power lead, 1-12. the 3rd power lead,
1-13. the transmission of wireless signals line, 1-14. second source line, the 1-15. data line,
2.OLED imaging screen,
3. bracing frame,
3-1. the control box frame, 3-2. load-bearing base, the 3-3. rood beam, the 3-4. through hole,
4. mirror image external reflection imaging screen,
4-1. outer imaging screen,
4-1-1. outer imaging screen clear glass medial surface, the outer imaging screen clear glass lateral surface of 4-1-2.
4-1-3. outer metal-plated rete,
4-2. plastic bottom board,
5. mirror image internal reflection imaging screen,
5-1. interior imaging screen,
5-1-1. imaging screen clear glass medial surface in the interior imaging screen clear glass lateral surface, 5-1-2.,
5-1-3. interior metal-plated rete,
5-2. the glass loam cake,
6. gib screw.
Embodiment
As Fig. 1 and shown in Figure 8, the technical solution of the utility model comprises imaging control and display device and holographic suspension tridimensional virtual imaging device, described holographic suspension tridimensional virtual imaging device is fixed on imaging control and display device top, described imaging control and display device have an inside that the control box 1 of imaging control microcomputer main frame and remote video signal receiver is housed, control box 1 upper surface forms a downward groove, an OLED of horizontal positioned (organic light emitting display) imaging screen 2 in this groove, described holographic suspension tridimensional virtual imaging device has one to be fixed on bracing frame 3 on the control box 1 by gib screw 6, fixed bonding has mirror image external reflection imaging screen 4 on bracing frame 3, on mirror image external reflection imaging screen 4, be bonded with mirror image internal reflection imaging screen 5, between described mirror image external reflection imaging screen 4 and the OLED imaging screen 2 in angle of 45 degrees.
As shown in Figure 9, support frame as described above 3 has one to be used for the control box frame 3-1 that is connected with control box 1, around control box frame 3-1, be processed with the through hole 3-4 that is used to install and fix screw 6, connect and support load-bearing base 3-2 by rood beam 3-3 at bracing frame 3 middle parts, this load-bearing base 3-2 is used for bonding and supports holographic suspension tridimensional virtual imaging device.
Shown in Fig. 2 figure to 4, described mirror image external reflection imaging screen 4 comprises four outer imaging screen 4-1 that are made of clear glass, single outer imaging screen 4-1 is an isosceles trapezoid, the clear glass that constitutes the outer imaging screen 4-1 of isosceles trapezoid comprises outer imaging screen clear glass medial surface 4-1-1 and outer imaging screen clear glass lateral surface 4-1-2, between outer imaging screen clear glass medial surface 4-1-1 and the outer imaging screen clear glass lateral surface 4-1-2 is the thickness of outer imaging screen clear glass, be coated with reflectivity on the surface of outer imaging screen clear glass lateral surface 4-1-2 and be 55%~75% outer metal-plated rete 4-1-3, to improve reflectivity, and then the sharpness of raising image, the outer imaging screen 4-1 of per two adjacent isosceles trapezoids is bonded to each other and forms rectangular pyramid shape mirror image external reflection imaging screen 4 together, be bonded with lighttight plastic bottom board 4-2 in rectangular pyramid shape mirror image external reflection imaging screen 4 bottoms, preventing that OLED imaging screen 2 images from entering the virtual image internal system from the bottom, between outer imaging screen 4-1 of isosceles trapezoid and the lighttight plastic bottom board 4-2 in angle of 45 degrees.
As shown in Figs. 5 to 7, described mirror image internal reflection imaging screen 5 comprises four interior imaging screen 5-1 that are made of clear glass, picture screen 5-1 is an isosceles trapezoid in the single one-tenth, the clear glass that constitutes imaging screen 5-1 in the isosceles trapezoid comprises interior imaging screen clear glass lateral surface 5-1-1 and interior imaging screen clear glass medial surface 5-1-2, between interior imaging screen clear glass lateral surface 5-1-1 and the interior imaging screen clear glass medial surface 5-1-2 is the thickness of clear glass, on interior imaging screen clear glass medial surface 5-1-2 surface, be coated with reflectivity and be 85%~90% interior metal-plated rete 5-1-3, in case the stop ring environmental light enters the virtual image internal system from top, and further improve the sharpness of image, imaging screen 5-1 is bonded to each other and forms rectangular pyramid shape mirror image internal reflection imaging screen 5 together in per two adjacent isosceles trapezoids, be bonded with transmittance at rectangular pyramid shape mirror image internal reflection imaging screen 5 tops and be 10% glass loam cake 5-2, to stop ambient light to enter the virtual image internal system from the top relatively largely, angle is 135 degree between interior imaging screen 5-1 of each isosceles trapezoid and the glass loam cake 5-2.
As shown in figure 10, imaging control microcomputer main frame 1-3 and the remote video signal receiver 1-5 that is connected with imaging control microcomputer main frame 1-3 by data line 1-15 are housed in the casing 1-4 inside of described control box 1, described imaging control microcomputer main frame 1-3 is connected with 0LED imaging screen 2 by video output cable 1-10, be connected with 8 Ultrathin speaker 1-1 by audio output line 1-9, described remote video signal receiver 1-5 connects remote wireless signals receiving antenna 1-8 by transmission of wireless signals line 1-13, described imaging control microcomputer main frame 1-3 and remote video signal receiver 1-5 are connected by stabilized voltage supply 1-6 in the first power lead 1-11 and second source line 1-14 and the case and automatic time switch 1-7 thereof respectively, simultaneously, also 8 cooling fan 1-2 are housed in control box casing 1-4 inside by the 3rd power lead 1-12.
During work, vedio data signal in the remote computer main control system that transmits by remote wireless signals receiving antenna 1-8 receiving remote wireless signal transmitter, be transferred to remote video signal receiver 1-5 through transmission of wireless signals line 1-13, this signal passes to imaging control microcomputer main frame 1-3 at once and is identified processing, then, pass to 0LED imaging screen 2 by video output cable 1-10, after 2 imagings of 0LED imaging screen to 4 projections of rectangular pyramid shape mirror image external reflection imaging screen, by 4 reflections of rectangular pyramid shape mirror image external reflection imaging screen, form four sides tridimensional virtual imaging, enter projection in the mirror image external reflection imaging screen 4 once more to 5 projections of mirror image internal reflection imaging screen, secondary is by 5 reflections of rectangular pyramid shape mirror image internal reflection imaging screen, form the tridimensional virtual imaging of secondary four sides, mirror image external reflection imaging screen 4 merges together with twice tridimensional virtual imaging of mirror image internal reflection imaging screen 5, form the holographic virtual three-dimensional imaging of great depth 360 degree, and be presented in the centre of virtual image system, can make spectators from around the optional position observe the extremely strong suspension virtual three-dimensional image of stereo space sense.
Claims (3)
1. holographic suspension virtual image system, comprise imaging control and display device and holographic suspension tridimensional virtual imaging device, described holographic suspension tridimensional virtual imaging device is fixed on imaging control and display device top, it is characterized in that, described imaging control and display device have an inside that the control box (1) of imaging control microcomputer main frame and remote video signal receiver is housed, an OLED imaging screen of horizontal positioned (2) on control box (1), described holographic suspension tridimensional virtual imaging device has a bracing frame (3) that is fixed on the control box (1), go up fixed bonding at bracing frame (3) mirror image external reflection imaging screen (4) is arranged, on mirror image external reflection imaging screen (4), be bonded with mirror image internal reflection imaging screen (5), between described mirror image external reflection imaging screen (4) and the OLED imaging screen (2) in angle of 45 degrees.
2. according to the described a kind of holographic suspension image system of claim 1, it is characterized in that, described mirror image external reflection imaging screen (4) comprises four outer imaging screens (4-1) that are made of clear glass, single outer imaging screen (4-1) is an isosceles trapezoid, the clear glass that constitutes the outer imaging screen (4-1) of isosceles trapezoid comprises outer imaging screen clear glass medial surface (4-1-1) and outer imaging screen clear glass lateral surface (4-1-2), be coated with reflectivity outside on the surface of imaging screen clear glass lateral surface (4-1-2) and be 55%~75% outer metal-plated rete (4-1-3), the outer imaging screen (4-1) of per two adjacent isosceles trapezoids is bonded to each other and forms rectangular pyramid shape mirror image external reflection imaging screen (4) together, is bonded with plastic bottom board (4-2) in rectangular pyramid shape mirror image external reflection imaging screen (4) bottom.
3. according to the described a kind of holographic suspension image system of claim 1, it is characterized in that, described mirror image internal reflection imaging screen (5) comprises four interior imaging screens (5-1) that are made of clear glass, imaging screen (5-1) is an isosceles trapezoid in single, the clear glass that constitutes imaging screen (5-1) in the isosceles trapezoid comprises interior imaging screen clear glass lateral surface (5-1-1) and interior imaging screen clear glass medial surface (5-1-2), on interior imaging screen clear glass medial surface (5-1-2) surface, be coated with reflectivity and be 85%~90% interior metal-plated rete (5-1-3), imaging screen (5-1) is bonded to each other and forms rectangular pyramid shape mirror image internal reflection imaging screen (5) together in per two adjacent isosceles trapezoids, be bonded with transmittance at rectangular pyramid shape mirror image internal reflection imaging screen (5) top and be 10% glass loam cake (5-2), in each isosceles trapezoid between imaging screen (5-1) and the glass loam cake (5-2) angle be 135 to spend.
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| CN2010201590501U CN201757972U (en) | 2010-04-15 | 2010-04-15 | Holographic suspension virtual image system |
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| CN2010201590501U CN201757972U (en) | 2010-04-15 | 2010-04-15 | Holographic suspension virtual image system |
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Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102708767A (en) * | 2012-05-22 | 2012-10-03 | 杨洪江 | Central-computer based holographic system for showing advertisement movably and statically in multiple dimensions |
| TWI452549B (en) * | 2011-10-12 | 2014-09-11 | Univ Southern Taiwan | A structure combining the fictitious image and the real object |
| CN104062749A (en) * | 2014-06-24 | 2014-09-24 | 李红深 | Device for carrying out twice imaging through one video source and imaging method |
| CN104914662A (en) * | 2014-03-11 | 2015-09-16 | 纬创资通股份有限公司 | Size-adjustable three-dimensional imaging device |
| CN105372917A (en) * | 2015-12-15 | 2016-03-02 | 重庆触视科技有限公司 | Fast installation holographic projection support device |
| CN105830990A (en) * | 2016-03-12 | 2016-08-10 | 东漫(上海)电子科技有限公司 | Holographic ecological tank |
| CN106846944A (en) * | 2017-03-28 | 2017-06-13 | 郑州本格计算机科技有限公司 | A kind of interactive mode holography early education system and method based on Bluetooth communication |
| CN107817003A (en) * | 2016-09-14 | 2018-03-20 | 西安航通测控技术有限责任公司 | A kind of external parameters calibration method of distributed large scale space positioning system |
| CN108492751A (en) * | 2018-02-05 | 2018-09-04 | 中国科学院长春光学精密机械与物理研究所 | A kind of image suspension display device and 3D display device |
| CN110176191A (en) * | 2019-05-22 | 2019-08-27 | 京东方科技集团股份有限公司 | Coach number presentation device and platform guide system |
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2010
- 2010-04-15 CN CN2010201590501U patent/CN201757972U/en not_active Expired - Fee Related
Cited By (13)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI452549B (en) * | 2011-10-12 | 2014-09-11 | Univ Southern Taiwan | A structure combining the fictitious image and the real object |
| CN102708767B (en) * | 2012-05-22 | 2014-09-17 | 杨洪江 | Central-computer based holographic system for showing advertisement movably and statically in multiple dimensions |
| CN102708767A (en) * | 2012-05-22 | 2012-10-03 | 杨洪江 | Central-computer based holographic system for showing advertisement movably and statically in multiple dimensions |
| CN104914662B (en) * | 2014-03-11 | 2017-12-08 | 纬创资通股份有限公司 | Size-adjustable three-dimensional imaging device |
| CN104914662A (en) * | 2014-03-11 | 2015-09-16 | 纬创资通股份有限公司 | Size-adjustable three-dimensional imaging device |
| CN104062749A (en) * | 2014-06-24 | 2014-09-24 | 李红深 | Device for carrying out twice imaging through one video source and imaging method |
| CN105372917A (en) * | 2015-12-15 | 2016-03-02 | 重庆触视科技有限公司 | Fast installation holographic projection support device |
| CN105830990A (en) * | 2016-03-12 | 2016-08-10 | 东漫(上海)电子科技有限公司 | Holographic ecological tank |
| CN107817003A (en) * | 2016-09-14 | 2018-03-20 | 西安航通测控技术有限责任公司 | A kind of external parameters calibration method of distributed large scale space positioning system |
| CN106846944A (en) * | 2017-03-28 | 2017-06-13 | 郑州本格计算机科技有限公司 | A kind of interactive mode holography early education system and method based on Bluetooth communication |
| CN106846944B (en) * | 2017-03-28 | 2019-04-09 | 郑州本格计算机科技有限公司 | A kind of holographic early education system and method for interactive mode based on Bluetooth communication |
| CN108492751A (en) * | 2018-02-05 | 2018-09-04 | 中国科学院长春光学精密机械与物理研究所 | A kind of image suspension display device and 3D display device |
| CN110176191A (en) * | 2019-05-22 | 2019-08-27 | 京东方科技集团股份有限公司 | Coach number presentation device and platform guide system |
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| GR01 | Patent grant | ||
| ASS | Succession or assignment of patent right |
Owner name: SHENYANG REQM FEIYANG ADVERTISEMENT CO., LTD. Free format text: FORMER OWNER: SHENYANG RUIKE SHANGCHENG ADVERTISEMENT MEDIA CO., LTD. Effective date: 20120331 |
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| C41 | Transfer of patent application or patent right or utility model | ||
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Effective date of registration: 20120331 Address after: 110003 Heping North Street 69, Heping District, Liaoning, Shenyang Patentee after: Advertising Co., Ltd. Shenyang Rick flying Address before: 110003 Heping North Street 69, Heping District, Liaoning, Shenyang Patentee before: Shenyang Ruike Shangcheng Advertisement Media Co., Ltd. |
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| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110309 Termination date: 20190415 |
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| CF01 | Termination of patent right due to non-payment of annual fee |