• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The following invention relates to an improved lens apparatus for use in a head up display (HUD), particularly for providing HUD with a depth of field and more particularly with providing a secondary virtual image in a different colour so as to provide a warning message. The partially reflecting combiner has a first surface S
    公开号:AU2013210852A1
    申请号:U2013210852
    申请日:2013-01-09
    公开日:2014-08-07
    发明作者:Ferhat Culfaz;Leslie Charles Laycock;Christopher Stace
    申请人:BAE Systems PLC;
    IPC主号:G02B27-14
    专利说明:
    WO 2013/108010 PCT/GB2013/050028 1 Head Up Display Lens The following invention relates to an improved lens apparatus for use in a head up display (HUD), particularly for providing HUD with a depth of field and more particularly with providing a secondary virtual image in a contrasting or 5 different colour so as to provide a warning message. Before the present invention is described in further detail, it is to be understood that the invention is not limited to the particular embodiments described, as such may, of course, vary. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments 10 only, and is not intended to be limiting, since the scope of the present invention will be limited only by the appended claims. According to a first aspect of the invention there is provided a display device for vehicles comprising, a display which provides system information that is to be displayed to a user, 15 a partially reflecting combiner, which magnifies the system information from the display, and provides a virtual image of said display, wherein said partially reflecting combiner has a first curved surface S1 located closest to the display, and a second curved surface S 2 , located furthest from the display, wherein the radii of curvature of surface S 2
    >S
    1 , so as to provide two 20 non-coincident virtual images. The use of a partially reflective combiner removes the requirement of projecting the image directly onto a windscreen, which latter method typically requires specific alignment of the display to ensure that the virtual images appear in the eye line of the user. 25 The lens surface S1 and S 2 preferably have a curvature that is a smooth arcuate curve, such as a part of a circle or an ellipse. The radii R 1 and R 2 and hence of curvature of surface S 2
    >S
    1 , so as to provide two non-coincident virtual images. Preferably the partially reflecting combiner is a negative meniscus lens. The user is a person or more specifically the eye-line or line of sight of 30 the person.
    WO 2013/108010 PCT/GB2013/050028 2 The combiner may have a thickness (AU) in the range of from 2mm to 6mm, preferably in the range of from 3mm to 5mm. The combiner may be selected from any material which has a high optical transmission in the visible region, typically 400-800 nm, such as, for example glass, polycarbonate or 5 PMMA (polymethyl methacrylate), preferably the refractive index (n) is in the range of from 1.30 to 1.80, more preferably 1.45 to 1.65. The surfaces may include one or more of a texture, coating, dye, light emitting layer, matte finish, diffuse finish, specular finish, and optically smooth finish. 10 The display may be located at a distance (U), in the range of from 100mm to 500mm, from the combiner, more preferably (U) is in the range of from 150 to 300mm. The virtual image may be preferably projected at a distance (V) in the range of from 500mm to 2000mm, such that the virtual image appears outside 15 the vehicle, more preferably V is in the range of from 900mm to 1500mm. The magnification (M) of the lens is in the range of from 3 to 10, more preferably in the range of 3 to 7. If the magnification is too high the virtual image may be distorted. 20 The imaging formula for a concave mirror is 1 1 1 - = - - - 1..... (1) f1, 2 U1,2 V1, 2 Where f1,2 is the focal length of the mirror's reflective surface, substituting for 25 fl, 2 gives : 2 _ 1 1
    R
    1
    ,
    2 U1, 2 V1,2 For Surface S 2 : 30 WO 2013/108010 PCT/GB2013/050028 3 1 1 2 V2 (U, + AU) R 2 R2 (U + AU) -2 [R2 -2(U + AU)] Therefore virtual image separation AV , V1 - V 2 , is given by: 5 V - V2 =AV= RIU _ R 2 (Ul + AU) (R1 - 2U) [R 2 - 2(U 1 + AU)] From Eqn (1) : 2 1 1
    R
    2 U+AU V-AV V-AV-U-AU (U+ AU)(V - AV) U(M -1) -(AV+ AU) (U+ AU)(MU - AV) 10 R2 - 2(U + AU)(MU - AV) -2U(M-1)-(AV+AU) 15 When the volume between S1 and S 2 is filled with a material of refractive index n, a negative meniscus lens is formed which tends to increase the effective radius of curvature of surface S 2 . By ray tracing, the value, R' 2 , centre of curvature, C'2, is given by: 20 R' =R 2 (n-1) (R2 -R) 2 ~n ) ) WO 2013/108010 PCT/GB2013/050028 4 In a preferred arrangement the radius of curvature, R 2 , of surface S 2 may be adjusted to generate a secondary virtual image that appears in front of the primary virtual image generated by surface S1. Preferably, wherein the volume between S1 and S 2 is filled with a material of refractive index n, the effective 5 curvature of R' 2 is given by R' = R 2 (n-1) (R2 - R) 2 ~n ) )
    R
    1 may be selected in the region of from 330mm to 900mm, more preferably 400mm to 600mm, giving rise to corresponding radii R 2 in the range 10 of from 340mm to 980mm, and more preferably 41 0mm to 710mm. The surface S1 of the combiner provides the first primary virtual image, and surface S 2 , provides the secondary virtual image. The manipulation of the radii of curvature may be used to enhance the secondary virtual image. If the secondary virtual image generated by the secondary reflection is such that it 15 appears in close proximity to the primary virtual image generated by the first surface S1, then the virtual image will appear to have a 3-D effect. For example, if the speed of the vehicle is being displayed, the numerals will appear to have depth, resulting in a more substantial appearance. In one arrangement the separation between the two virtual images AV, 20 may have a separation which provides a 3D perspective, such that the AV may be selected in the region of 1mm to 20mm, more preferably 3mm to 10mm. Where AV is small, then the difference of the radii R 2 and R 1 , of lens surfaces
    S
    2 and S1 will be small, such as, for example 410mm and 400mm respectively. In a preferred arrangement the separation between the two virtual 25 images AV, provides a warning secondary virtual image, where AV may be selected in the region of 30mm to 800mm, more preferably 100mm to 700, yet more preferably 200mm to 600mm This provides a primary virtual image and a warning secondary virtual image, wherein the latter is significantly closer to the user, and hence may serve to provide system information which is of greater WO 2013/108010 PCT/GB2013/050028 5 importance, such as, for example, a warning message, failure of a component, hazard detection etc. When the separation between the two virtual images AV is selected such that it provides a warning secondary virtual image, it may be difficult to visually 5 distinguish from the primary virtual image. It may be desirable to provide the warning secondary virtual image in a colour which visually contrasts with the primary virtual image. In a highly preferred arrangement at least one anti-reflection coating is applied to at least one of surfaces S1 or S 2 . 10 There may be at least one anti reflection coating on surface S1 and at least one anti reflection coating on surface S 2 . In a highly preferred arrangement, the anti-reflection coating on S1 and S 2 are selected, such that S1 is spectrally matched to the display's spectral output, to provide high reflectivity 15 at specific wavelengths and also possesses a reflectance minima in a first narrow wave band. The antireflective coating on surface S 2 is selected to have a reflectance maxima in substantially the same first narrow wave band, and a reflectance minima across the remainder of the visible wavebands, such that said secondary virtual image projected from surface S 2 is presented in the 20 colour as defined by the first narrow waveband, and is additionally presented in front of the primary virtual image from the surface S1. By way of an example only, the coatings on S1 and S 2 may be selected such that the first narrow wave band is selected such that the second surface only permits a red colour to be displayed as a coloured warning secondary 25 virtual image, thus providing a warning or danger information in front of the primary virtual image from surface S1. The anti reflective coating may be selected from any spectrally active coating or multiple thin films and may comprise, such as, for example broad or narrow band filters, comprising dyes, reflective notch films, such as, for 30 example rugate thin films, diffraction gratings, as known in the art. Typical antireflective coatings may consist of alternating high (2.0-2.5) and low (1.38- WO 2013/108010 PCT/GB2013/050028 6 1.46) refractive index layers of dielectric materials. Typical high index materials include Ta 2 0 5 , TiO 2 , Nb 2 0 5 , ZrO 2 and SiN, and low index materials mainly SiO 2 and MgF 2 . The coatings may be deposited to provide layers of quarter-wave (QW) thickness. The broader the band covered, generally the more layers are 5 required in the coating applied to the surface. The display may be selected from any output means such as, for example CRT, LCD, LED, OLED, projection, laser, liquid crystal on silicon (LCOS) device, such LCOS devices being illuminated by narrowband red, green and blue LED sources. 10 In a preferred arrangement the anti reflective coating on S1 and S 2 may be selected such that only a narrow bandwidth of the red light, such as, for example, the red LED from a LCOS device may be partially reflected by the surface coating on S 2 , so as to provide red warning or danger system information, to the user, as the secondary virtual image which appears in the 15 foreground of the primary virtual image. Preferably the antireflective coating on surface S1 can selectively not permit reflectance of only said narrow bandwidth, and so may allow other wavelengths of red light to be partially reflected, so as to permit a primary virtual image with a visually acceptable RGB colour output to the user, rather than the prior art typical monochrome colour output. 20 The display may provide an output from at least one system information, such as for example the vehicles original on board display panel(i.e. dashboard), an OEM or add-on entertainment system, navigation system or communication system. It may be desirable as a retro fit option, to provide a virtual image of the existing vehicle dashboard by using a video camera to 25 capture real time output from the vehicle dashboard and so provide an image on the display panel, and hence to provide a virtual image via the partially reflective combiner. It may be desirable to provide further information from an external source i.e. traffic information or system information from at least two system information sources, the system information may then be overlaid or 30 provided as two discrete messages, typically a warning secondary virtual image.
    WO 2013/108010 PCT/GB2013/050028 7 An embodiment of the invention will now be described by way of example only and with reference to the accompanying drawings of which: Figure 1 shows a head up display schematic for a vehicle 5 Figure 2 shows a ray diagram for a partially reflective combiner Figure 3 shows a ray diagram for a partially reflective combiner Figure 4 shows a head up display device in a deployment device Figure 5 shows a graph of spectral output from surface coatings providing monochrome selection. 10 Turning to figure 1, there is provided a display device 9, comprising a display 3, which provides a virtual image to be displayed in the line of sight 7, of the user 4. The display 3 outputs visual data from the vehicle information system 8, such as, for example, a car dashboard, satellite navigation, or an 15 entertainment system. The display 3 projects the image to a partially reflective combiner 1, which provides a virtual image 5, remote from the user 4, outside of the vehicle windscreen 2. The use of a combiner 1, removes the requirement of using the vehicle windscreen 2 as the partially reflective surface, and thus allows the 20 display device 9 to be readily retrofitted to any vehicle, without prior consideration of the optical properties of the vehicle windscreen. Figure 2 provides a ray diagram indicating the path from the object 13(nominally the display), through the combiner 11. The combiner 11, has a first 25 surface S1 and a second surface S 2 , The radius of the first and second surfaces are different and are selected such that S1 provides a first virtual image 151 as the primary virtual image. Light impacting on the second surface S 2 provides a secondary virtual image 152, which lies in in front of the primary virtual image, with respect to the user(not shown). 30 Figure 3 provides a cross section of the lens 21. When the volume between S1 and S 2 is filled with a material of refractive index n, a negative WO 2013/108010 PCT/GB2013/050028 8 meniscus lens is formed which tends to increase the effective radius of curvature of surface S 2 . Therefore the value of R 2 has to be decreased to compensate. By ray tracing, the required new value, R' 2 , centre of curvature, C'2, 25, is given by: (from the imaging formula for a concave mirror provided 5 above) R =R 2 _fn-1(R 2-R) 2 ~n ) ) In one experiment the following lens dimension was prepared where the respective radii was determined by: 10 M =6.6 U 212 mm AU = 4 mm n = 1.52 (BK7 glass) and the desired separation between the primary and secondary virtual images 15 (AV) = 500 mm, to provide a warning secondary virtual image. From this, R 1 can be calculated from 2MU R (M -1) = 500 mm and V = MU = 1400 mm 20 It can be shown that 2 is given: R =R 2 - n-1)(R 2-R) 2 ~n ) ) R - 2(U+AU)(MU-AV) where 2 U(M-1)-(AV+AU)
    R
    2 = 569 mm 25 and R2 =545 mm WO 2013/108010 PCT/GB2013/050028 9 In figure 4 there is provided a HUD system 30 comprising a combiner 31 in a deployment housing 36. The combiner may be deployed to the active position as shown when in use, such that the user 34, is able to view a virtual image 35, which is caused by the display 33, projecting a virtual image of the 5 data from the vehicle information system 38. A draw cord 37 may be activated by a servomotor, to provide raise and lower the combiner 31. In the inactive position the combiner lies in a position which is substantially orthogonal to that shown in figure 4. 10 Figure 5 shows a graph of wavelength vs reflectance, for a preferred arrangement of antireflection coatings, wherein the first coating 51 on surface S1, provides a good "average" reflectance of two broad colour wavebands, in this instance specifically blue and green, but does not allow a narrow band of red light to progress through to the primary virtual image. The first coating 51, 15 will preferably have a very narrow band of non-reflected light, so as to ensure that some degree of red light can be used in the primary virtual image. The second coating 52, is applied to the surface S 2 , the coating has maximum reflectance characteristics in the same narrow wave band, and minimal reflectance in all other visible wavelengths, nominally red in this 20 instance, so as to allow only this narrow band of red light to be projected as the secondary virtual image. Hence when the display emits an image in this narrow waveband red region, the first coating 51 does not reflect this colour image so it does not appear in the primary virtual image. However, the second coating 52, allows this narrow band of red light to be reflected and hence produce the 25 secondary virtual image (as shown in figure 2- 152), that appears closer to the user. Therefore a warning or danger sign may be projected by the display in the narrow waveband red region, such that the warning secondary virtual image shows the warning information as a red secondary virtual image in front of the primary virtual image. 30 Clearly, the antireflection coatings may be selected to allow which ever narrow waveband of colour, to be projected as the secondary virtual image. Red has been selected merely as an example of a colour typically associated with hazards.
    权利要求:
    Claims (13)
    [1] 1. A display device for vehicles comprising, a display which provides system information that is to be displayed to a user, 5 a partially reflecting combiner, which magnifies the system information from the display, and provides a virtual image of said display, wherein said partially reflecting combiner has a first curved surface S1 located closest to the display, and a second curved 10 surface S 2 , located furthest from the display, wherein the radii of curvature of surface S 2 >S 1 , so as to provide two non-coincident virtual images.
    [2] 2. A display device according to claim 1 wherein the partially 15 reflecting combiner is a negative meniscus lens.
    [3] 3. A display device according to claim 1 or claim 2, wherein the radius of curvature, R 2 , of surface S 2 is adjusted to generate a secondary virtual image that appears in front of the primary virtual image generated by surface S1. 20
    [4] 4. A display device according to any one of the preceding claims wherein the volume between S1 and S 2 is filled with a material of refractive index n, wherein the effective curvature of R' 2 is given by R' = R 2 n-1) (R2 - R) 2 ~n ) ) 25
    [5] 5. A display device according to any one of the preceding claims wherein at least one anti-reflection coating is applied to at least one of surfaces S1 or S 2 . WO 2013/108010 PCT/GB2013/050028 11
    [6] 6. A display device according to claim 5 wherein there is at least one anti reflection coating on surface S1 and at least one anti reflection coating on surface S 2 .
    [7] 7. A display device according to any one of claims 5 to 6, wherein 5 the anti-reflection coating on S1 is selected, such that S1 has a reflectance minima in a first narrow wave band,
    [8] 8. A display device according to any one of claims 6 or 7 wherein coating S 2 is selected to have a reflectance maxima in substantially the first narrow wave band, such that said virtual 10 image projected from surface S 2 is presented in front of the primary virtual image from the surface Si.
    [9] 9. A display device according to any one of claims 6 to 8 wherein the first narrow band, is selected to provide a warning secondary virtual image, to provide a warning or danger information in front 15 of the primary virtual image.
    [10] 10.A display device according to any one of the preceding claims wherein the secondary virtual image and primary virtual image are separated by a distance in the range of from 200mm to 600mm.
    [11] 11.A display device according to any one of the preceding claims 20 wherein the display is selected from a liquid crystal on silicon (LCOS) device, illuminated by narrowband red, green and blue LED sources.
    [12] 12. A display device according to any one of claims 5 to 11, wherein the anti reflective coating on S1 and S 2 are selected such that only 25 the narrowband red LED from a LCOS device is reflected by the surface coating on S 2 , so as to provide red warning or danger information to the driver.
    [13] 13.A display device according to any one of the preceding claims wherein the curvature of surface S 2 >S 1 . 30
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    同族专利:
    公开号 | 公开日
    GB201200929D0|2012-02-29|
    GB2498715A|2013-07-31|
    EP2805202A1|2014-11-26|
    US20150029410A1|2015-01-29|
    AU2013210852B2|2015-05-21|
    WO2013108010A1|2013-07-25|
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    法律状态:
    2015-09-17| FGA| Letters patent sealed or granted (standard patent)|
    2018-08-02| MK14| Patent ceased section 143(a) (annual fees not paid) or expired|
    优先权:
    申请号 | 申请日 | 专利标题
    GB1200929.6A|GB2498715A|2012-01-20|2012-01-20|Head up display providing two non-coincident virtual images|
    GB1200929.6||2012-01-20||
    PCT/GB2013/050028|WO2013108010A1|2012-01-20|2013-01-09|Head up display lens|
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