CN103576303A - Automotive composite reflection and refraction multiple-imaging device - Google Patents

Abstract

The invention relates to an automotive composite reflection and refraction multiple-imaging device. The automotive composite reflection and refraction multiple-imaging device comprises a reflecting surface, a semi-reflecting surface and a concave lens, wherein the reflecting surface faces an observation side, the semi-reflecting surface faces the reflecting surface, an image of at least one light source is reflected by the semi-reflecting surface to form at least one mirror image on the mirror image side of the semi-reflecting surface, the mirror image is reflected by the reflecting surface to form at least one visual mirror image on the mirror image side of the reflecting surface, and the visual mirror image is repeatedly reflected to generate a plurality of visual mirror images. The concave lens is arranged on the observation side. An observer can observe the visual mirror images on the mirror image side of the reflecting surface through refraction of the concave lens from the observation side. The visual mirror images, generated through reflection and refraction, of the light source gradually contract in the longitudinal axis direction, the visual mirror images of the light source do not interfere with one another, the mirror images of the light source are clear, and the obvious 3D depth-of-field effect which inwards contracts layer by layer is achieved.

Description

Automobile-used composite reflection and refraction multiple imaging device

Technical field

The present invention relates to a kind of automobile-used multiple imaging device, particularly a kind of automobile-used composite reflection and refraction multiple imaging device.

Background technology

The schematic diagram of existing automobile-used imaging device, as shown in Figure 1A.Existing automobile-used imaging device 10 comprises: a reflecting surface 11.At least one light source 13,14 is arranged at respectively the periphery of this reflecting surface 11.This reflecting surface 11 is watched side S1 towards one.

Watch side to watch the schematic diagram of existing automobile-used imaging device as shown in Figure 1A by one, as shown in Figure 1B.Observer is watching side S1 only can watch obtaining the luminous point image of at least one light source 13,14, and existing automobile-used imaging device can not produce 3D Deep Canvas.

Summary of the invention

The object of the present invention is to provide a kind of automobile-used composite reflection and refraction multiple imaging device, to produce 3D Deep Canvas.

Technical solution of the present invention is a kind of automobile-used composite reflection and refraction multiple imaging device, comprising: a reflecting surface, a semi-reflective surface and concavees lens.This reflecting surface is watched side towards one.This semi-reflective surface is towards this reflecting surface, the image of at least one light source reflects to form at least one mirror image in an image side of this semi-reflective surface through this semi-reflective surface, at least one mirror image reflects to form at least one visible mirror picture in an image side of this reflecting surface through this reflecting surface again, each visible mirror picture repeats above-mentioned reflection again, produces a plurality of visible mirror pictures.These concavees lens are arranged at this and watch side.Wherein, observer watches side in this, by the refraction of these concavees lens, watch a plurality of visible mirror pictures in this image side of this reflecting surface.

As preferably: described concavees lens are arranged between described reflecting surface and described semi-reflective surface.

As preferably: described reflecting surface has a longitudinal axis, i.e. vertical described reflecting surface, observer is in the described side of watching, watch a plurality of visible mirror pictures in the image side of described reflecting surface, present the direction convergent towards the described longitudinal axis.

As preferably: described semi-reflective surface with respect to described reflecting surface for being obliquely installed.

As preferably: described reflecting surface is a plane reflection face.

As preferably: described semi-reflective surface is a plane semi-reflective surface.

As preferably: described concavees lens have a first surface and a second surface, wherein said first surface is a plane, described second surface is a concave surface, and described first surface arranges described semi-reflective surface, between described second surface and described reflecting surface, has a distance.

As preferably: described concavees lens have a first surface and a second surface, and wherein said first surface is a plane, and described second surface is a concave surface, and described first surface arranges this reflecting surface, have a distance between described second surface and described semi-reflective surface.

As preferably: described at least one light source is arranged between described concavees lens and described reflecting surface.

As preferably: described at least one light source is arranged at the rear of described reflecting surface periphery.

As preferably: the periphery of described reflecting surface comprises at least one hole, to hold described at least one light source.

Utilize automobile-used composite reflection of the present invention and refraction multiple imaging device, observer watches side can watch via the visible mirror picture of at least one light source of reflection and refraction in this, and the visible mirror picture of at least one light source is towards a y direction convergent, the visible mirror of at least one light source looks like not interfere with one another, its mirror image is clear, thereby form, is significantly the 3D Deep Canvas that level inside contracts.

Accompanying drawing explanation

Figure 1A is the schematic diagram of existing automobile-used multiple imaging device;

Figure 1B is for to watch side to watch the schematic diagram of automobile-used multiple imaging device shown in Figure 1A by one;

Fig. 2 is the first embodiment schematic diagram of the automobile-used composite reflection of the present invention and refraction multiple imaging device;

Fig. 3 is for to watch side to watch the schematic diagram of automobile-used composite reflection shown in Fig. 2 and refraction multiple imaging device by one;

Fig. 4 is the second embodiment schematic diagram of the automobile-used composite reflection of the present invention and refraction multiple imaging device;

Fig. 5 is the 3rd embodiment schematic diagram of the automobile-used composite reflection of the present invention and refraction multiple imaging device;

Fig. 6 is the 4th embodiment schematic diagram of the automobile-used composite reflection of the present invention and refraction multiple imaging device;

Fig. 7 is the 5th embodiment schematic diagram of the automobile-used composite reflection of the present invention and refraction multiple imaging device.

[main element symbol description]

10 existing automobile-used multiple imaging devices

11 reflectings surface

13,14 light sources

The automobile-used composite reflection of 20 first embodiment and refraction multiple imaging device

21 reflectings surface

22 semi-reflective surface

23 concavees lens

24,25 light sources

26, the mirror image of 27,28,29 semi-reflective surface

31, the visible mirror picture of 32,33,34 reflectings surface

36,37,38, the 39 visible mirror pictures through concavees lens

The automobile-used composite reflection of 40 second embodiment and refraction multiple imaging device

41,42 light sources

The automobile-used composite reflection of 50 the 3rd embodiment and refraction multiple imaging device

51 reflectings surface

52,53 light sources

The automobile-used composite reflection of 60 the 4th embodiment and refraction multiple imaging device

61 concavees lens

62,63 light sources

The automobile-used composite reflection of 70 the 5th embodiment and refraction multiple imaging device

71 semi-reflective surface

231 first surfaces

232 second surfaces

511,512 holes

611 first surfaces

612 second surfaces.

Embodiment

The first embodiment of the automobile-used composite reflection of the present invention and refraction multiple imaging device, as shown in Figure 2.The automobile-used composite reflection of first embodiment of the invention and refraction multiple imaging device 20 comprise: a reflecting surface 21, a semi-reflective surface 22 and concavees lens 23.This reflecting surface 21 is watched side S1 towards one.This semi-reflective surface 22, towards this reflecting surface 21.These concavees lens 23 are arranged at this and watch side S 1.Preferably, these concavees lens 23 are arranged between this semi-reflective surface 22 and this reflecting surface 21.

In the present embodiment, at least one light source 24,25 is arranged between these concavees lens 23 and this reflecting surface 21, and this reflecting surface 21 is a plane reflection face, and this semi-reflective surface 22 is a plane semi-reflective surface.These concavees lens 23 have a first surface 231 and a second surface 232, and this first surface 231 is a plane, and this second surface 232 is a concave surface, these first surface 231 these semi-reflective surface 22 of contact, and 21 of this second surface 232 and this reflectings surface have a distance.

The image of at least one light source 24,25 reflects to form at least one mirror image 26,27,28,29 in the image side of this semi-reflective surface 22 through this semi-reflective surface 22, and in the present embodiment, this image side of this semi-reflective surface 22 is watched side S1 for this.At least one mirror image 26,27,28,29 again through this reflecting surface 21 reflect to form at least one visible mirror as 31,32,33,34 in the image side S2 of this reflecting surface 21, this image side S2 watches side S1 with respect to this.Each visible mirror picture repeats above-mentioned reflection again, produces a plurality of visible mirrors as 31,32,33,34.

In the present embodiment, these concavees lens 23 are arranged between this semi-reflective surface 22 and this reflecting surface 21, the image of at least one light source 24,25 is except the reflection via above-mentioned, through these concavees lens 23, can carry out first stage refraction, to produce a plurality of visible mirrors, as 31,32,33,34, towards central authorities, be convergent, that is this reflecting surface 21 has a longitudinal axis C, vertical this reflecting surface 21, the visible mirror of at least one light source towards this longitudinal axis C direction refraction convergent, is formed at this image side S2 of this reflecting surface 21 as 31,32,33,34.

In the present embodiment, this first stage refraction of these concavees lens 23 and this semi-reflective surface 22 refers to the refraction effect of first stage, not be limited to and can only carry out unirefringence, that is, in this first stage refraction, by these concavees lens 23 and this semi-reflective surface 22, the image of at least one light source 24,25 is through repeatedly reflecting and reflecting convergent, a plurality of visible mirrors that form at least one light source as 31,32,33,34 in this image side S2 of this reflecting surface 21.

Yet, observer in this watch side S1 not watch through the visible mirror of this at least one light source of first stage refraction as 31,32,33,34.Because observer watches side S1 in this, if will watch in the visible mirror picture of this image side S2 of this reflecting surface 21, need to pass through again these concavees lens 23.Therefore, observer watches side S1 in this, and the subordinate phase by these concavees lens 23 reflects, watch the visible mirror of at least one light source as 36,37,38,39 in this image side S2 of this reflecting surface 21.

Similarly, the visible mirror of at least one light source of this subordinate phase refraction for dwindling towards this longitudinal axis C refraction, is formed at this image side S2 of this reflecting surface 21 as 36,37,38,39.And, this subordinate phase refraction of these concavees lens 23 refers to the refraction effect of subordinate phase, not be limited to and can only carry out unirefringence, that is, in this subordinate phase refraction, be by the visible mirror of this at least one light source in first stage refraction as 31,32,33,34, by the repeatedly refraction convergent of these concavees lens 23, a plurality of visible mirrors that form at least one light source as 36,37,38,39 in this image side S2 of this reflecting surface 21.

Watch side to watch the automobile-used composite reflection of first embodiment of the invention and the schematic diagram of refraction multiple imaging device by one, as shown in Figure 3.Observer watches side S1 in this, can watch the visible mirror of at least one light source of dwindling through two-stage refraction as 36,37,38,39.The visible mirror of at least one light source does not interfere with one another as 36,37,38,39, and its mirror image is clear, thereby form, is significantly the 3D Deep Canvas that level inside contracts.

In addition, automobile-used composite reflection of the present invention and refraction multiple imaging device only utilize this semi-reflective surface 22 and this concavees lens 23 can reach two-stage refraction effect, must not set up other device and can effectively shorten these concavees lens 23 and the distance of 21 of this reflectings surface, thereby reduce the size of automobile-used composite reflection of the present invention and refraction multiple imaging device integral body.

The second embodiment of the automobile-used composite reflection of the present invention and refraction multiple imaging device, as shown in Figure 4.The automobile-used composite reflection of second embodiment of the invention and refraction multiple imaging device 40 and the automobile-used composite reflection of the first embodiment and refraction multiple imaging device 20 differences are, at least one light source 41,42 is arranged at this reflecting surface 21 rear around, that is be arranged at this image side S2 of this reflecting surface 21, make the image of at least one light source 41,42 via reflection and the refraction of this reflecting surface 21, this semi-reflective surface 22 and this concavees lens 23, form a plurality of visible mirror pictures of at least one light source in this image side of this reflecting surface.Similarly, the automobile-used composite reflection of second embodiment of the invention and refraction multiple imaging device 40 have above-mentioned composite reflection and refraction effect.

The 3rd embodiment of the automobile-used composite reflection of the present invention and refraction multiple imaging device, as shown in Figure 5.The automobile-used composite reflection of third embodiment of the invention and refraction multiple imaging device 50 and the automobile-used composite reflection of the first embodiment and refraction multiple imaging device 20 differences are, the periphery of this reflecting surface 51 comprises at least one hole 511,512, to hold at least one light source 52,53.At least one light source 52,53 is arranged at the periphery hole 511,512 of this reflecting surface 51, thereby shortens the distance of 51 of these concavees lens 23 and this reflectings surface, and then reduces the size of automobile-used composite reflection of the present invention and refraction multiple imaging device integral body.Similarly, the automobile-used composite reflection of third embodiment of the invention and refraction multiple imaging device 50 have above-mentioned composite reflection and refraction effect.

The 4th embodiment of the automobile-used composite reflection of the present invention and refraction multiple imaging device, as shown in Figure 6.The automobile-used composite reflection of the automobile-used composite reflection of fourth embodiment of the invention and refraction multiple imaging device 60 and the first embodiment and refraction multiple imaging device 20 differences are, these concavees lens 61 have a first surface 611 and a second surface 612, this first surface 611 is a plane, this second surface 612 is a concave surface, this first surface 611 arranges this reflecting surface 21, and 22 of this second surface 612 and this semi-reflective surface have a distance.At least one light source 62,63 is arranged between these concavees lens 61 and this semi-reflective surface 22.Similarly, the automobile-used composite reflection of fourth embodiment of the invention and refraction multiple imaging device 60 have above-mentioned composite reflection and refraction effect.

The 5th embodiment of the automobile-used composite reflection of the present invention and refraction multiple imaging device, as shown in Figure 7.The automobile-used composite reflection of the automobile-used composite reflection of fifth embodiment of the invention and refraction multiple imaging device 70 and the first embodiment and refraction multiple imaging device 20 differences are, with respect to this reflecting surface 21, this semi-reflective surface 71 is for being obliquely installed, in the present embodiment, this semi-reflective surface 71 is the left low dip setting of right height, in other embodiments, can be being obliquely installed of other modes such as right low left high.Similarly, the automobile-used composite reflection in fifth embodiment of the invention and refraction multiple imaging device 70 have above-mentioned composite reflection and refraction effect.

But above-described embodiment is only explanation principle of the present invention and effect thereof, but not in order to limit the present invention.Therefore, those skilled in the art modify to above-described embodiment and change still not de-spirit of the present invention.Interest field of the present invention should be as listed in claim.

Claims (11)

1. automobile-used composite reflection and a refraction multiple imaging device, comprising:

One reflecting surface, watches side towards one;

One semi-reflective surface, towards described reflecting surface, the image of at least one light source reflects to form at least one mirror image in the image side of described semi-reflective surface through described semi-reflective surface, described at least one mirror image reflects to form at least one visible mirror picture in the image side of described reflecting surface through described reflecting surface again, each visible mirror picture repeats above-mentioned reflection again, produces a plurality of visible mirror pictures; And

One concavees lens, watch side described in being arranged at;

Wherein, observer is in the described side of watching, by the refraction of described concavees lens, watch a plurality of visible mirror pictures in this image side of described reflecting surface.

2. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said concavees lens are arranged between described reflecting surface and described semi-reflective surface.

3. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said reflecting surface has a longitudinal axis, vertical described reflecting surface, observer is in the described side of watching, watch a plurality of visible mirror pictures in the image side of described reflecting surface, described a plurality of visible mirrors look like to present the direction convergent towards the described longitudinal axis.

4. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein, described semi-reflective surface with respect to described reflecting surface for being obliquely installed.

5. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said reflecting surface is a plane reflection face.

6. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said semi-reflective surface is a plane semi-reflective surface.

7. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said concavees lens have a first surface and a second surface, described first surface is a plane, described second surface is a concave surface, described first surface arranges described semi-reflective surface, between described second surface and described reflecting surface, has a distance.

8. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said concavees lens have a first surface and a second surface, described first surface is a plane, described second surface is a concave surface, described first surface arranges this reflecting surface, between described second surface and described semi-reflective surface, has a distance.

9. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said at least one light source is arranged between described concavees lens and described reflecting surface.

10. automobile-used composite reflection as claimed in claim 1 and refraction multiple imaging device, wherein said at least one light source is arranged at the rear of described reflecting surface periphery.

11. automobile-used composite reflections as claimed in claim 1 and refraction multiple imaging device, the periphery of wherein said reflecting surface comprises at least one hole, to hold described at least one light source.

Images