CN203054443U - 360 degrees holographic levitation imaging system - Google Patents
360 degrees holographic levitation imaging system Download PDFInfo
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- CN203054443U CN203054443U CN 201220749774 CN201220749774U CN203054443U CN 203054443 U CN203054443 U CN 203054443U CN 201220749774 CN201220749774 CN 201220749774 CN 201220749774 U CN201220749774 U CN 201220749774U CN 203054443 U CN203054443 U CN 203054443U
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Abstract
The utility model discloses a 360 degrees holographic levitation imaging system, and the system is characterized by comprising at least one imaging plate; at least a projector corresponding to the imaging plate is arranged below the imaging plate, an included angle formed between the projector and the imaging plate is angle2, an included angle between the projector and a horizontal surface is angle4, then the angle2 between the projector and the imaging plate angle2=(90 degrees-angle4)/2{0 degree <=angle4<90 degrees}, and an included angle between the imaging plate and the horizontal surface is angle2+angle4. For phantom imaging product under different conditions, the 360 degrees holographic levitation imaging system provides mathematical basis for a placing angle between the projector and the imaging plate, so the projector and the imaging plate are no longer limited by a conventional normal placing mode in which the projector is horizontally placed and an angle of 45 degrees is formed between the imaging plate and the projector; the projector of the utility model needs not to be placed horizontally, the angle between the imaging plate and the projector is not limited at 45 degrees, so the system can satisfy needs of various spaces and fields.
Description
Technical field
The utility model relates to the floating empty imaging system of 360 ° of holographies, particularly a kind of floating empty imaging system of 360 ° of holographies of can comprehensive embodiment visual bore hole 3D viewing effect.
Background technology
Exist on the market 360 ° floating air-drop image devices have arranged significant limitation at device, and common equipment realizes that with the 3Dization making of the set-up mode of imaging plate and projection arrangement screen angle at 45 and animated content 360 ° of holographies float the naked effect of looking of 3D of empty imaging.
Be traditional, projection arrangement is put in a horizontal manner, and imaging plate and projection arrangement angle at 45 is placed in projection arrangement top, and limitation is bigger like this, and projection arrangement is in by visual state, has not had mystique in front the onlooker.
The utility model content
The utility model has overcome above-mentioned the deficiencies in the prior art, a kind of limitation that breaks through traditional imaging plate and projection arrangement fixed angle at 45 is provided, by angle between the two the realization peep-proof is set, the floating empty imaging system of 360 ° of holographies of gain effect visually is provided for product.
The technical solution of the utility model is achieved in that
Empty imaging system is floated in a kind of 360 ° of holographies, comprise at least one imaging plate, below described imaging plate, be provided with at least one corresponding projection arrangement with it, the angle that becomes between projection arrangement and the imaging plate is ∠ 2, the angle of projection arrangement and surface level is ∠ 4,2=(90 °-the ∠ of angle ∠ 4 of projection arrangement and imaging plate then)/and 2 { 4<90 ° of 0 °≤∠ }, imaging plate and horizontal plane angle are: ∠ 2+ ∠ 4.
As preferably, the projection arrangement screen be shaped as rectangle, imaging plate be shaped as isosceles trapezoid, projection arrangement imaging on imaging plate is D ', the width of D ' is the width W of projection arrangement screen, the length of D ' is the length 2T of projection arrangement screen, is P near the inner side edge of imaging plate to the vertical range of D ' and surface level intersecting lens on the projection arrangement screen; The long limit of going up of D ' overlaps with the last base of imaging plate, thereby the waist that the waist of the following long limit of D ' and imaging plate intersects imaging plate is divided into two sections, wherein, the length S=W/cos ∠ 2 of this section waist between the two long limits of D ', the length S ' of another section waist=(P/cos ∠ 4-P * tan ∠ 4-W * sin ∠ 4)/cos ∠ 2, thereby the long S+S ' of being of the minimum waist that can get imaging plate, the base angle of imaging plate is 90 °-∠ 2.By above-mentioned definition and calculating, can rationally determine size, the shape of imaging plate, size according to imaging D ', can save the imaging plate materials of imaging D ' top and the right and left, therefore having adopted such scheme to guarantee can perfect imaging, making material and cost that again can maximized saving imaging plate.
When imaging plate quantity is 3,4 or more for a long time, then need the projection arrangement of quantity equity, can evenly distribute for making projection arrangement, reasonable Arrangement, as preferably, when imaging plate quantity during greater than 2, P 〉=T; When P=T, be the state that a time-out is pushed up on the summit of adjacent two projection arrangements, when P>T, obviously, just can not touch together between the projection arrangement, apparent space is just much well-to-do.
As preferably, the vertical range of growing between the limit to the lower end of D ' near the inner side edge of imaging plate on the projection arrangement screen is T ', T ' 〉=T.When T '=T, projection arrangement two waists of imaging and imaging plate on imaging plate intersect; During as T '<T, imaging can be overflowed imaging plate, causes some picture to be presented on the imaging plate, and when T '>T, image is presented on the imaging plate fully.
As preferably, described imaging plate is acrylic board, is pasted with holographic transparent image pad pasting at acrylic board.
As preferably, described imaging plate is glass plate, is pasted with holographic transparent image pad pasting at glass plate.
As preferably, this system comprises at least three imaging plates, and above-mentioned imaging plate surrounds a back taper body, is equipped with a projection arrangement below every imaging plate.
As preferably, this system comprises four imaging plates, and four imaging plates surround a back taper body.
As preferably, described projection arrangement is display screen or projector.
Adopted the beneficial effects of the utility model of technique scheme to be:
1, be that the phantom imaging product is under different situations, the angle of putting to projection arrangement and imaging plate provides several reason foundations, making it no longer be confined to original projection arrangement level puts, a kind of so traditional general disposing way of imaging plate angle at 45 with it, projection arrangement can level be put, and the angle that imaging plate becomes with it also no longer is confined to 45 °, therefore can adapt to the demand at various spaces and scene.
2, in actual product is used, solve screen by visual limitation, realized peep-proof by the design variation that projection arrangement is become certain inclination angle with surface level, for product provides gain at visual impression.
3, on material used, the utility model can draw under the corresponding product environment by calculating, and the optimum utilization of material has reduced material consumption, also made in the design of imaging plate more rationally effective.
4, solved product before because of the limitation of imaging plate and projection arrangement angulation, the rectangular design of outer rim obtains changing, and has solved the potential safety hazard of the frame of product.
5, in the design of product, under the optimization utilization in conjunction with function and material, product design changes variation, and aesthetic property improves.
Description of drawings
Fig. 1 is the light path principle synoptic diagram of the utility model imaging system;
Fig. 2 is the light path synoptic diagram in actual product is used;
Fig. 3 is the structure applications synoptic diagram in the actual product;
Fig. 4 is the angle synoptic diagram of imaging plate and projection arrangement among the utility model embodiment;
Fig. 5 is the perspective view of Fig. 4.
Embodiment
Embodiment of the present utility model is as follows:
Embodiment: empty imaging system is floated in a kind of 360 ° of holographies, comprise 4 imaging plates, 4 imaging plates surround a back taper body, imaging plate is acrylic board, post holographic transparent image pad pasting at acrylic board, be respectively equipped with at least one corresponding projection arrangement with it below every imaging plate, described projection arrangement is display screen; Image projection on projection arrangement human eye on imaging plate is visible three-dimensional 3D picture.
The phantom imaging product is visually realized true 3D effect, must be based on the virtual image that projection arrangement becomes perpendicular to surface level or be parallel to the face that the people stands; As shown in Figure 1, the solid line of two inclinations in surface level top is represented projection arrangement D and imaging plate B respectively, and projection arrangement D imaging on imaging plate B is D ', and the angle that becomes between projection arrangement D and the imaging plate B is ∠ 2, the angle of projection arrangement D and surface level is ∠ 4, ∠ 3=∠ 4; 2=(90 °-the ∠ of angle ∠ 4 of projection arrangement D and imaging plate B then)/and 2 { 4<90 ° of 0 °≤∠ }, imaging plate B and horizontal plane angle are: ∠ 2+ ∠ 4, the upright angle as between D ' and the imaging plate B is ∠ 1, ∠ 1=∠ 2.As long as the angle of projection arrangement D and imaging plate B satisfies above-mentioned condition, can satisfy the requirement of blur-free imaging.
As Fig. 2, shown in Figure 3, the projection arrangement screen be shaped as rectangle, imaging plate be shaped as isosceles trapezoid, projection arrangement imaging on imaging plate is D ', D ' is dotted rectangle among Fig. 3, the width of D ' is the width W of projection arrangement screen, and the length of D ' is the length 2T of projection arrangement screen, is P near the inner side edge of imaging plate to the vertical range of D ' and surface level intersecting lens on the projection arrangement screen; The long limit of going up of D ' overlaps with the last base of imaging plate, thereby the waist that the waist of the following long limit of D ' and imaging plate intersects imaging plate is divided into two sections, wherein, the length S=W/cos ∠ 2 of this section waist between the two long limits of D ', the length S ' of another section waist=(P/cos ∠ 4-P * tan ∠ 4-W * sin ∠ 4)/cos ∠ 2, thereby the long S+S ' of being of the minimum waist that can get imaging plate, the base angle of imaging plate is 90 °-∠ 2.Thereby the size of imaging plate can be determined in long and base angle by the waist of imaging plate.
In the present embodiment, the inner side edge of close imaging plate is to D ' half T with the vertical range P=projection arrangement screen length of surface level intersecting lens on the projection arrangement screen; The inner side edge of close imaging plate is to half T of the vertical range T '=projection arrangement screen length between the long limit, the lower end of D ' on the projection arrangement screen; Under above-mentioned two conditions, both can satisfy the material of at utmost saving imaging plate, can make just in time complete being presented on the imaging plate of imaging again.
Above-mentioned definition principle provides several reason foundations for the floating empty imaging series products of holography designing and developing, and by defined data, can require make the imaging device of different imaging angles according to design needs and actual environment in product design; As Fig. 4, shown in Figure 5, floating the air-drop image devices with 360 ° at four sides is example, this system comprises four imaging plate B, four imaging plate B surround a back taper body, every imaging plate B below has a projection arrangement D respectively, described projection arrangement D is integrated in the base 8, and above-mentioned four imaging plate B surround the positive center that a back taper body stands on base 8, according to product ergonomics and location, the peak terrain clearance 150cm of projection arrangement, consider that the peep-proof designing and calculating draws projection arrangement same level face and becomes 16 ° of angles, draw 53 ° of imaging plate B and horizontal plane angles at last, can make under the maximized prerequisite of effective imaging area and take into account the solution peep-proof, a plurality of problems such as dangerous corner angle processing, and more how may for product appearance design provides.Based on the product appearance design of 37 ° of angles, solved the existing potential safety hazard in top tray right angle under 45 ° of situations between above-mentioned projection arrangement and the imaging plate, also accomplished certain peep-proof effect, saved the imaging plate material simultaneously, the utilization factor maximization.
Claims (9)
1. empty imaging system is floated in 360 ° of holographies, it is characterized in that: comprise at least one imaging plate, below described imaging plate, be provided with at least one corresponding projection arrangement with it, the angle that becomes between projection arrangement and the imaging plate is ∠ 2, the angle of projection arrangement and surface level is ∠ 4,2=(90 °-the ∠ of angle ∠ 4 of projection arrangement and imaging plate then)/and 2 { 4<90 ° of 0 °≤∠ }, imaging plate and horizontal plane angle are: ∠ 2+ ∠ 4.
2. empty imaging system is floated in 360 ° of holographies according to claim 1, it is characterized in that: the projection arrangement screen be shaped as rectangle, imaging plate be shaped as isosceles trapezoid, projection arrangement imaging on imaging plate is D ', the width of D ' is the width W of projection arrangement screen, the length of D ' is the length 2T of projection arrangement screen, is P near the inner side edge of imaging plate to the vertical range of D ' and surface level intersecting lens on the projection arrangement screen; The long limit of going up of D ' overlaps with the last base of imaging plate, thereby the waist that the waist of the following long limit of D ' and imaging plate intersects imaging plate is divided into two sections, wherein, the length S=W/cos ∠ 2 of this section waist between the two long limits of D ', the length S ' of another section waist=(P/cos ∠ 4-P * tan ∠ 4-W * sin ∠ 4)/cos ∠ 2, thereby the long S+ S ' of being of the minimum waist that can get imaging plate, the base angle of imaging plate is 90 °-∠ 2.
3. the floating empty imaging system of 360 ° of holographies according to claim 2 is characterized in that: when imaging plate quantity during greater than 2, and P 〉=T.
4. empty imaging system is floated in 360 ° of holographies according to claim 2, it is characterized in that: the inner side edge near imaging plate on the projection arrangement screen is T ' to the vertical range between the long limit, the lower end of D ', T ' 〉=T.
5. empty imaging system is floated in 360 ° of holographies according to claim 1, and it is characterized in that: described imaging plate is acrylic board, is pasted with holographic transparent image pad pasting at acrylic board.
6. empty imaging system is floated in 360 ° of holographies according to claim 1, and it is characterized in that: described imaging plate is glass plate, is pasted with holographic transparent image pad pasting at glass plate.
7. empty imaging system is floated in 360 ° of holographies according to claim 1, and it is characterized in that: this system comprises at least three imaging plates, and above-mentioned imaging plate surrounds a back taper body, is equipped with a projection arrangement below every imaging plate.
8. empty imaging system is floated in 360 ° of holographies according to claim 7, and it is characterized in that: this system comprises four imaging plates, and four imaging plates surround a back taper body.
9. empty imaging system is floated in 360 ° of holographies according to claim 1, and it is characterized in that: described projection arrangement is display screen or projector.
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CN 201220749774 CN203054443U (en) | 2012-12-31 | 2012-12-31 | 360 degrees holographic levitation imaging system |
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CN 201220749774 CN203054443U (en) | 2012-12-31 | 2012-12-31 | 360 degrees holographic levitation imaging system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103091965A (en) * | 2012-12-31 | 2013-05-08 | 浙江恩佐瑞视科技有限公司 | 360 degrees holographic floating imaging system |
CN109782521A (en) * | 2018-11-21 | 2019-05-21 | 惠州市华阳多媒体电子有限公司 | A kind of polymorphic vehicle-mounted line holographic projections carrier |
-
2012
- 2012-12-31 CN CN 201220749774 patent/CN203054443U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103091965A (en) * | 2012-12-31 | 2013-05-08 | 浙江恩佐瑞视科技有限公司 | 360 degrees holographic floating imaging system |
CN103091965B (en) * | 2012-12-31 | 2015-03-18 | 浙江恩佐瑞视科技有限公司 | 360 degrees holographic floating imaging system |
CN109782521A (en) * | 2018-11-21 | 2019-05-21 | 惠州市华阳多媒体电子有限公司 | A kind of polymorphic vehicle-mounted line holographic projections carrier |
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C14 | Grant of patent or utility model | ||
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Granted publication date: 20130710 Termination date: 20191231 |