TWM541404U - Head-up display device with long distance image display - Google Patents
Head-up display device with long distance image display Download PDFInfo
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- TWM541404U TWM541404U TW105219744U TW105219744U TWM541404U TW M541404 U TWM541404 U TW M541404U TW 105219744 U TW105219744 U TW 105219744U TW 105219744 U TW105219744 U TW 105219744U TW M541404 U TWM541404 U TW M541404U
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Description
本創作係有關於一種遠距離顯像的抬頭顯示裝置,此尤指一種可降低駕駛者視覺上昏眩感之抬頭顯示裝置,其係利用反射式擴散片搭配凹面鏡模組來增長反射距離,使獲得較遠的光路距離,讓在同樣的凹面鏡放大倍率下,可得到較遠投影距離的虛像,藉以降低駕駛者視覺上的昏眩感,使獲得一個最佳視覺效果,進而提升行車安全。 The present invention relates to a head-up display device for long-distance imaging, in particular to a head-up display device which can reduce the driver's visual fainting feeling, which uses a reflective diffuser with a concave mirror module to increase the reflection distance and obtain The far distance of the optical path allows the virtual image of the far projection distance to be obtained under the same concave mirror magnification, thereby reducing the driver's visual fainting and obtaining an optimal visual effect, thereby improving driving safety.
現今汽車上使用的抬頭顯示器技術,沒有飛機上的抬頭顯示器複雜;它是一種光學系統,一般由一投射器和一疊像鏡二個主要裝置所組成,該投射器是由一訊號光源、一投影鏡與其他光學元件所組成,該投射器的訊號光源,由一LCD液晶顯示器或一CRT陰極射線管等裝置所構成,從訊號光源發出光線,然后透過該投影器投射到玻璃上的疊像鏡(或特製的透明螢幕上),再由疊像鏡顯示出文字或圖像。 The head-up display technology used in automobiles today is not complicated by the head-up display on the aircraft; it is an optical system, generally consisting of a main device of a projector and a stack of mirrors, the projector is composed of a signal light source, The projection mirror is composed of other optical components. The signal source of the projector is composed of an LCD liquid crystal display or a CRT cathode ray tube, and emits light from the signal source, and then projects the image onto the glass through the projector. The mirror (or a special transparent screen), and then the text or image is displayed by the mirror.
如第一圖所示,為引證案US7936518之抬頭顯示器代表圖式,該抬頭顯示器包括一紅外線發射單元5A,以對一使用者DA發射一紅外線;一鏡子元件3A,以朝向一凹面鏡4A反射自一顯示器2A射出之一可見光LA,且傳送由該使用者DA與該凹面鏡4A所反射的該紅外線;複數個成像單元6A、7A,係面對著該凹面鏡4A,以感應紅外線,且每一個影像皆從不同 的方向而來;以及一影像處理單元8A,該凹面鏡4A係將可見光LA投射於一擋風玻璃板WA上,再進一步虛擬成像VA反射至使用者DA的眼睛。 As shown in the first figure, the head-up display of the reference US7936518 represents a drawing comprising an infrared emitting unit 5A for emitting an infrared ray to a user DA; a mirror element 3A for reflecting from a concave mirror 4A A display 2A emits one of the visible light LA, and transmits the infrared light reflected by the user DA and the concave mirror 4A; a plurality of imaging units 6A, 7A face the concave mirror 4A to sense infrared rays, and each image All from different And the image processing unit 8A, which projects the visible light LA onto a windshield plate WA, and further reflects the virtual image VA to the eyes of the user DA.
基於凹面鏡前的物距光路乘上該凹面鏡放大倍率就是虛像成像的距離,然虛像成像距離要遠就需要:(1)使凹面鏡放大倍率提高,但由於凹面鏡的工藝限制,無法達成理想的鏡片,使兩眼所接受到的虛像完全一樣,因此放大倍率越高,成像的誤差就越大,以致於兩眼接受到影像所產生誤差,將會引起觀看者發生頭暈的現象,為了觀賞的舒適度,所以放大倍率通常控制在七倍以內;(2)就是要拉長物距光路,但由於抬頭顯示器通常設置在駕駛前方儀表台內部,其空間有限,雖然為了拉長物距光路,光機與凹面鏡之間會額外設計反射鏡,使光路可以來回反射加長物距,然因長度的限制,一般抬頭顯示器的虛像距離,只能做到距離駕駛眼睛2.5公尺的距離。 Multiplying the object path distance in front of the concave mirror by the concave mirror magnification is the distance of the virtual image imaging. However, the virtual image imaging distance is required to be: (1) the magnification of the concave mirror is improved, but the ideal lens cannot be achieved due to the process limitation of the concave mirror. The virtual image received by both eyes is exactly the same, so the higher the magnification, the larger the error of imaging, so that the error caused by the two eyes receiving the image will cause the viewer to feel dizzy, for the comfort of viewing. , so the magnification is usually controlled within seven times; (2) is to lengthen the object distance light path, but since the head-up display is usually set inside the instrument panel in front of the driving, its space is limited, although in order to lengthen the object distance light path, the optical machine and the concave mirror The mirror is additionally designed so that the light path can reflect the length of the object back and forth. However, due to the limitation of the length, the virtual image distance of the head-up display can only be 2.5 meters away from the driving eye.
按車用導航的功能,主要是在指引駕駛者切換到正確的車道或警示前車距,為了發揮導航的功能,駕駛者時常把注意力從道路上轉移到抬頭顯示器上,這顯然不是一種好的操作方式,倒不如直接把導航的指引符號,直接貼在道路上或貼在欲警示的前車尾上,這樣駕駛者就不需要移轉注意力,可說是對駕駛者投放資訊最理想的方式,而問題的關鍵,在於如何把抬頭顯示器顯示距離拉長,並直接貼在路面上道路上或貼在欲警示的前車尾上,卻是一個有待突破的重要課題。 According to the function of car navigation, it is mainly to guide the driver to switch to the correct lane or to warn the front distance. In order to play the navigation function, the driver often shifts his attention from the road to the head-up display. This is obviously not a good one. It is better to directly put the navigation guide symbol directly on the road or on the front tail of the warning, so that the driver does not need to shift his attention. It can be said that it is ideal for the driver to put information. The key to the problem lies in how to extend the display distance of the head-up display and attach it directly to the road on the road or to the front tail of the road to be warned, but it is an important subject to be broken.
為了解決以上所述的技術瓶頸,業界不斷提出各種解決的技術方案,相關的技術可參酌TW I443377、TW I506299、TW 201624101、CN 201610134321、TW 201410829066、CN201510649759、CN201520418145、TW I446001等專利前案。 In order to solve the above technical bottlenecks, the industry has continuously proposed various technical solutions. The related technologies can be considered as TW I443377, TW I506299, TW 201624101, CN 201610134321, TW 201410829066, CN201510649759, CN201520418145, TW. I446001 and other patents.
以上各專利前案雖然已揭露相關抬頭顯示器的運用技術,但是在使用上普遍存有一些缺失: Although the above patents have disclosed the application technology of the related head-up display, there are some defects in the use:
1、參酌上述的專利前案中,有些是利用單一投影裝置投出直向切割畫面,但是其缺點就是投出的標準距離影像太短,駕駛者觀看時容易產生視覺上的暈眩感,而影響到行車的安全性。 1. In the above-mentioned patents, some of them use a single projection device to cast a straight cut picture, but the disadvantage is that the standard distance image cast is too short, and the driver is likely to have a visual dizziness when viewing. Affect the safety of driving.
2、雖然有些專利前案是可以透過兩個或更多的投影裝置,或以更多的切割畫面,來投出標準距離影像與較長距離影像,但多個投影裝置其設置的位置,大多位在同一個位置,而所提供的影像,也大多是在同一水平面上的橫切割畫面,而少了直向切割畫面,所以不易精準地將導航指引符號,直接貼在道路上或貼在欲警示的前車尾上,使得導航指引效果大打折扣。 2. Although some patents can be used to project standard distance images and long-distance images through two or more projection devices, or with more cut images, the positions of multiple projection devices are mostly Positioned in the same position, and the images provided are mostly horizontally cut on the same horizontal plane, and there is less straight cut image, so it is not easy to accurately align the navigation guide symbols on the road or stick to it. The warning on the front end of the car makes the navigation guide effect greatly reduced.
有鑑於以上習式的缺失,本案創作人歷經無數次研究改良後,終於完成本創作之遠距離顯像的抬頭顯示裝置,即本案之創作目的係在提供一種可降低駕駛者視覺上昏眩感之抬頭顯示裝置,藉以在有限的空間內,可利用本創作的反射式擴散片搭配凹面鏡模組來增長反射距離,以獲得較遠的光路距離,讓在同樣的凹面鏡放大倍率下,可得到較遠投影距離的虛像,以降低駕駛者視覺的昏眩感,進而獲得一個最佳視覺效果,進而提升行車安全。 In view of the lack of the above formulas, the creators of this case have completed the research and improvement of the present, and finally completed the head-up display device of the long-distance imaging of the creation, that is, the purpose of the creation of the case is to provide a visual sense of dizziness for the driver. The head-up display device allows the reflective diffuser with the concave mirror module to increase the reflection distance in a limited space to obtain a far distance of the optical path, so that the same concave mirror magnification can be obtained. The virtual image of the projection distance is used to reduce the driver's visual fainting, thereby obtaining an optimal visual effect, thereby improving driving safety.
為達上述本案之創作目的,本創作之遠距離顯像的抬頭顯示裝置,包含: 一影像投影模組,設置於一車輛的擋風玻璃下方的儀表台;一反射式擴散片,設置於該車輛的頂棚與該擋風玻璃的交界處,該影像投影模組的輸出光源投向該反射式擴散片,並在該反射式擴散片上成像,使該反射式擴散片成為顯示影像的屏幕;一凹面鏡模組,設置於該車輛的擋風玻璃下方的儀表台,該凹面鏡模組將該反射式擴散片的影像放大;藉由上述的構造,使該反射式擴散片與該凹面鏡模組的距離,在不浪費空間的情況下,獲得較遠的光路距離,因而在同樣的凹面鏡放大倍率下,得到較遠投影距離的虛像為其特徵者。 In order to achieve the above-mentioned purpose of the present case, the head-up display device of the long-distance imaging of the present invention includes: An image projection module disposed on a dashboard below a windshield of a vehicle; a reflective diffuser disposed at a boundary between the ceiling of the vehicle and the windshield, the output light source of the image projection module is directed to the a reflective diffuser for imaging on the reflective diffuser to make the reflective diffuser a screen for displaying images; a concave mirror module disposed on the instrument panel below the windshield of the vehicle, the concave mirror module The image of the reflective diffuser is magnified; by the above configuration, the distance between the reflective diffuser and the concave mirror module is obtained without a waste of space, thereby obtaining a far distance of the optical path, and thus the same concave mirror magnification Next, the virtual image that gets the far projection distance is its characteristic.
上述之影像投影模組,為一數位光處理裝置(DLP)。 The image projection module described above is a digital light processing device (DLP).
上述之凹面鏡模組,設置於該儀表台下方,該凹面鏡模組上面以一透明防塵蓋覆蓋。 The concave mirror module is disposed under the instrument panel, and the concave mirror module is covered by a transparent dust cover.
上述之凹面鏡模組,設置於該儀表台上方,該凹面鏡模組設置於一機殼內。 The concave mirror module is disposed above the instrument panel, and the concave mirror module is disposed in a casing.
上述之凹面鏡模組,包含一凹面鏡與一馬達齒輪組,透過該馬達齒輪的轉動,得以調整該凹面鏡的反射角度。 The concave mirror module includes a concave mirror and a motor gear set, and the reflection angle of the concave mirror is adjusted by the rotation of the motor gear.
上述之凹面鏡模組,為該凹面鏡搭配複數個反射鏡片所組成。 The concave mirror module described above is composed of the concave mirror and a plurality of reflective lenses.
上述之反射向擴散片,更包含一旋轉軸,透過該旋轉軸的轉動,以調整投射在該擋風玻璃下方影像的位置。 The reflection to the diffusion sheet further includes a rotation axis, and the rotation of the rotation shaft is transmitted to adjust a position projected on the image below the windshield.
上述之凹面鏡模組將該反射式擴散片的影像放大並投射到駕駛者的眼睛。 The concave mirror module described above enlarges and projects the image of the reflective diffuser onto the driver's eyes.
上述之凹面鏡模組將該反射式擴散片的影像放大,並投射到該擋風玻璃,藉由該擋風玻璃反射到駕駛者的眼睛。 The concave mirror module enlarges the image of the reflective diffuser and projects it onto the windshield, and the windshield is reflected to the driver's eyes.
本創作之遠距離顯像的抬頭顯示裝置,更包含一反射膜,該反射膜設置於該擋風玻璃。 The head-up display device of the remote imaging of the present invention further comprises a reflective film disposed on the windshield.
本創作之遠距離顯像的抬頭顯示裝置,可以在有限的空間內,利用反射式擴散片搭配凹面鏡模組來增長反射距離,使獲得較遠的光路距離,讓在同樣的凹面鏡放大倍率下,可得到較遠投影距離的虛像為其特徵者。 The head-up display device of the long-distance imaging of the present invention can use a reflective diffuser with a concave mirror module to increase the reflection distance in a limited space, so as to obtain a far distance of the optical path, so that under the same concave mirror magnification, A virtual image that can obtain a far projection distance is a feature.
本創作之遠距離顯像的抬頭顯示裝置,其創作特點係利用虛像成像的原理,透過該凹面鏡模組其凹面鏡的成像,以獲得較遠的光路距離,使在同樣的凹面鏡放大倍率下,獲得到較遠投影距離的虛像,藉此提供最佳視覺效果,以降低駕駛者視覺上的昏眩感,進而提升其行車安全者。 The head-up display device of the remote imaging of the present invention is characterized by the principle of virtual image imaging, and the concave mirror is imaged by the concave mirror module to obtain a far distance of the optical path, so that the same concave mirror magnification is obtained. A virtual image to a far projection distance, thereby providing the best visual effect, to reduce the driver's visual fainting, thereby improving his driving safety.
〔習知〕 [study]
2A‧‧‧顯示器 2A‧‧‧ display
3A‧‧‧鏡子元件 3A‧‧‧Mirror components
4A‧‧‧凹面鏡 4A‧‧‧ concave mirror
5A‧‧‧紅外線發射單元 5A‧‧‧Infrared emitting unit
6A、7A‧‧‧成像單元 6A, 7A‧‧‧ imaging unit
8A‧‧‧影像處理單元 8A‧‧‧Image Processing Unit
DA‧‧‧使用者 DA‧‧‧ users
LA‧‧‧可見光 LA‧‧‧ visible light
VA‧‧‧虛擬成像 VA‧‧ virtual imaging
WA‧‧‧擋風玻璃板 WA‧‧‧windshield
〔本創作〕 [this creation]
1‧‧‧影像投影模組 1‧‧‧Image projection module
2‧‧‧反射式擴散片 2‧‧‧Reflective diffuser
21‧‧‧旋轉軸 21‧‧‧Rotary axis
3‧‧‧凹面鏡模組 3‧‧‧ concave mirror module
31‧‧‧凹面鏡 31‧‧‧ concave mirror
32‧‧‧馬達齒輪組 32‧‧‧Motor gear set
33‧‧‧反射鏡片 33‧‧‧Reflective lenses
34‧‧‧機殼 34‧‧‧Shell
4‧‧‧反射膜 4‧‧‧Reflective film
A‧‧‧儀表台 A‧‧‧ dashboard
A1‧‧‧透明防塵蓋 A1‧‧‧ transparent dust cover
C‧‧‧頂棚 C‧‧‧ ceiling
D‧‧‧虛像 D‧‧‧virtual image
E‧‧‧眼睛 E‧‧‧ eyes
L‧‧‧光路 L‧‧‧Light Road
W‧‧‧擋風玻璃 W‧‧‧windshield
第一圖,為習知抬頭顯示裝置示意圖。 The first figure is a schematic diagram of a conventional head-up display device.
第二圖,為本創作之第一實施例示意圖。 The second figure is a schematic diagram of the first embodiment of the creation.
第三圖,為本創作其第一實施例的另一實施例示意圖。 The third figure is a schematic view of another embodiment of the first embodiment of the present invention.
第四圖,為本創作其第一實施例在擋風玻璃加設反射膜的實施例示意圖。 The fourth figure is a schematic view of an embodiment in which a reflective film is added to the windshield according to the first embodiment of the present invention.
第五圖,為本創作其第一實施例之凹面鏡模組的另一實施例示意圖。 Fig. 5 is a schematic view showing another embodiment of the concave mirror module of the first embodiment of the present invention.
第六圖,為本創作之第二實施例示意圖。 The sixth figure is a schematic diagram of a second embodiment of the present invention.
第七圖,為本創作其第二實施例在擋風玻璃加設反射膜 的實施例示意圖。 The seventh figure is a second embodiment of the creation of a reflective film on the windshield Schematic diagram of an embodiment.
第八圖,為本創作其第二實施例之凹面鏡模組的另一實施例示意圖。 Figure 8 is a schematic view showing another embodiment of the concave mirror module of the second embodiment of the present invention.
第九圖,係本創作之擋風玻璃設置反射膜的另一實施例示意圖。 The ninth drawing is a schematic view of another embodiment of the windshield reflective film of the present invention.
請參閱第二圖所示,係為本創作之遠距離顯像的抬頭顯示裝置其第一實施例,包含:一影像投影模組1,設置於一車輛的擋風玻璃W下方的儀表台A上方,並將影像投射出,該影像投影模組1為一數位光處理裝置(Digital Light Processing,縮寫:DLP,該影像投影裝置1是利用一種使用在投影儀和背投電視中的顯像技術));一反射式擴散片2,設置於該車輛的頂棚C與該擋風玻璃W的交界處,該影像投影模組1的輸出光源的光路L投向該反射式擴散片2,並在該反射式擴散片2上成像,使該反射式擴散片2成為顯示影像的屏幕,該反射向擴散片2更包含一旋轉軸21,透過該旋轉軸21的轉動可以調整投射在該擋風玻璃W下方影像的位置;一凹面鏡模組3,設置於該儀表台A上方,該凹面鏡模組3包含一凹面鏡31與一馬達齒輪組32,透過該馬達齒輪32的轉動,得以調整該凹面鏡31的反射角度,該凹面鏡模組3將該反射式擴散片2的影像放大,並投射出反射到駕駛者的眼睛E;藉由上述的構造,使該反射式擴散片2與該凹面鏡模組3的距 離,在不浪費空間的情況下,獲得較遠的光路距離,其中虛像成像的原理是透過該凹面鏡31的成像,凹面鏡成像公式:1/p+1/q=1/f;f:焦距,q:物距,p:像距,因而在同樣的凹面鏡31放大倍率下,獲得較遠的投影距離的虛像D為其特徵者。 Referring to the second figure, the first embodiment of the head-up display device for remote imaging of the present invention comprises: an image projection module 1 disposed on the instrument panel A below the windshield W of a vehicle. The image projection module 1 is a digital light processing device (DLP), which utilizes a developing technology used in a projector and a rear projection television. a reflective diffuser 2 is disposed at a boundary between the ceiling C of the vehicle and the windshield W, and an optical path L of the output light source of the image projection module 1 is directed to the reflective diffuser 2, and The reflective diffuser 2 is formed on the reflective diffuser 2 to form a screen for displaying images. The reflective diffuser 2 further includes a rotating shaft 21, and the rotation of the rotating shaft 21 can be adjusted and projected on the windshield W. a concave mirror module 3 is disposed above the instrument panel A. The concave mirror module 3 includes a concave mirror 31 and a motor gear set 32. The rotation of the motor gear 32 can adjust the reflection of the concave mirror 31. angle The imaging module 3 the concave mirror reflection-type diffusion sheet 2 is enlarged and projected into the driver's eyes reflected E; With the configuration described above, so that the reflection-type diffusion sheet 2 of the module and from the concave mirror 3 Off, without a waste of space, obtain a far distance of the optical path, wherein the principle of virtual image imaging is through the imaging of the concave mirror 31, the concave mirror imaging formula: 1 / p + 1 / q = 1 / f; f: focal length, q: object distance, p: image distance, and thus at the same concave mirror 31 magnification, the virtual image D which obtains a far projection distance is a feature.
上述之凹面鏡模組3因設置在該儀表台A上較高位置處,使該凹面鏡31反射的光路L,可以不經過該擋風玻璃W的反射,而直接將影像由該凹面31放大反射到駕駛者的眼睛E;此外,本創作其反射的光路L,也可以如第三圖所示,即將該凹面鏡模組3設置在該儀表台A上較低位置處,讓該凹面鏡模組3投射的光路L,使經過該擋風玻璃W再反射到駕駛者的眼睛E。 The concave mirror module 3 is disposed at a higher position on the instrument panel A, so that the optical path L reflected by the concave mirror 31 can directly reflect the image from the concave surface 31 without being reflected by the windshield W. The eye E of the driver; in addition, the optical path L of the reflection of the present invention may also be as shown in the third figure, that is, the concave mirror module 3 is disposed at a lower position on the instrument panel A, and the concave mirror module 3 is projected. The light path L is reflected by the windshield W to the driver's eye E.
如第四圖所示者,本創作之遠距離顯像的抬頭顯示裝置,更包含一反射膜4,該反射膜4設置於該擋風玻璃W,以提高虛像D的反射率,該反射膜4可以設置於該擋風玻璃W內側或設置於該擋風玻璃W中(如第九圖所示)。 As shown in the fourth figure, the head-up display device of the remote imaging of the present invention further includes a reflective film 4 disposed on the windshield W to improve the reflectivity of the virtual image D. 4 may be disposed inside the windshield W or disposed in the windshield W (as shown in the ninth figure).
如第五圖所示,係本創作其第一實施例之凹面鏡模組3的另一實施例示意圖,其中為該凹面鏡模組3設置於一機殼34內,該凹面鏡模組3係由該凹面鏡31搭配複數個反射鏡片33所組成,藉以加長該光路L的距離與反射該影像投影模組1投射出的影像。 As shown in FIG. 5, a schematic view of another embodiment of the concave mirror module 3 of the first embodiment is shown. The concave mirror module 3 is disposed in a casing 34. The concave mirror module 3 is The concave mirror 31 is composed of a plurality of reflective lenses 33, thereby lengthening the distance of the optical path L and reflecting the image projected by the image projection module 1.
如第六圖所示,係本創作之遠距離顯像的抬頭顯示裝置其第二實施例,包含:一影像投影模組1,設置於一車輛的擋風玻璃W下方的儀表台A下方,並將影像光源投射出,該影像投影模組1為一數位光處理裝置 (Digital Light Processing,縮寫:DLP,該影像投影裝置1是利用一種使用在投影儀和背投電視中的顯像技術);一反射式擴散片2,設置於該車輛的頂棚C與該擋風玻璃W的交界處,該影像投影模組1的輸出影像光源的光路L投向該反射式擴散片2,並在該反射式擴散片2上成像,使該反射式擴散片2成為顯示影像的屏幕,該反射向擴散片2更包含一旋轉軸21,透過該旋轉軸21的轉動,可以調整投射在該擋風玻璃W下方影像的位置;一凹面鏡模組3,設置於該儀表台A下方,該凹面鏡模組3上面以一透明防塵蓋A1覆蓋,該凹面鏡模組3包含一凹面鏡31與一馬達齒輪組32,透過該馬達齒輪32的轉動,得以調整該凹面鏡31的反射角度,該凹面鏡模組3將該反射式擴散片2的影像放大並投射到駕駛者的眼睛E;藉由上述的結構組成,使該反射式擴散片2與該凹面鏡模組3的距離,在不浪費空間的情況下,獲得較遠的光路距離,其中虛像成像的原理是透過該凹面鏡31的成像,凹面鏡成像公式:1/p+1/q=1/f;f:焦距,q:物距,p:像距,一般放大倍率可以讓虛像放大,也可以同比率讓虛像距離變遠,因而在同樣的凹面鏡31放大倍率下,以獲得較遠投影距離的虛像D為其特徵者。 As shown in the sixth figure, the second embodiment of the head-up display device of the present invention includes: an image projection module 1 disposed under the instrument panel A below the windshield W of a vehicle. And projecting the image light source, the image projection module 1 is a digital light processing device (Digital Light Processing, abbreviated as DLP, the image projection apparatus 1 utilizes a development technique used in a projector and a rear projection television); a reflective diffusion sheet 2 disposed on the ceiling C of the vehicle and the wind shield At the junction of the glass W, the optical path L of the output image light source of the image projection module 1 is directed to the reflective diffusion sheet 2, and is imaged on the reflective diffusion sheet 2, so that the reflective diffusion sheet 2 becomes a screen for displaying images. The reflection to the diffusion sheet 2 further includes a rotating shaft 21, and the position of the image projected under the windshield W can be adjusted by the rotation of the rotating shaft 21; a concave mirror module 3 is disposed under the instrument panel A, The concave mirror module 3 is covered by a transparent dustproof cover A1. The concave mirror module 3 includes a concave mirror 31 and a motor gear set 32. The reflection angle of the concave mirror 31 is adjusted by the rotation of the motor gear 32. The concave mirror mold The group 3 enlarges and projects the image of the reflective diffuser 2 to the driver's eye E; by the above-mentioned structural composition, the distance between the reflective diffuser 2 and the concave mirror module 3 is not wasted space. In the case of obtaining a farther optical path distance, the principle of virtual image imaging is through the imaging of the concave mirror 31, the concave mirror imaging formula: 1/p+1/q=1/f; f: focal length, q: object distance, p: The image magnification, the general magnification can enlarge the virtual image, and can also make the virtual image distance farther at the same ratio, so that the virtual image D with a far projection distance is the characteristic under the same concave mirror 31 magnification.
如第七圖所示者,本創作之遠距離顯像的抬頭顯示裝置,更包含一反射膜4,該反射膜4設置於該擋風玻璃W,以提高虛像D的反射率,該反射膜4設置於該擋風玻璃W內側或設置於該擋風玻璃W中(如第九圖所示)。 As shown in the seventh figure, the head-up display device of the remote imaging of the present invention further includes a reflective film 4 disposed on the windshield W to improve the reflectivity of the virtual image D. 4 is disposed inside the windshield W or disposed in the windshield W (as shown in FIG. 9).
如第八圖所示者,為本創作其第二實施例之凹面鏡模組3的 另一實施例示意圖,其中該凹面鏡模組3係由該凹面鏡31搭配複數個反射鏡片33所組成,藉以加長該光路L的距離與反射該影像投影模組1投射出的影像。 As shown in the eighth figure, the concave mirror module 3 of the second embodiment of the present invention is In another embodiment, the concave mirror module 3 is composed of the concave mirror 31 and a plurality of reflective lenses 33, thereby lengthening the distance of the optical path L and reflecting the image projected by the image projection module 1.
綜上所述,本創作之遠距離顯像的抬頭顯示裝置,可以在有限的空間內,利用反射式擴散片搭配凹面鏡模組來增長反射距離,使獲得較遠的光路距離,讓在同樣的凹面鏡放大倍率下,可得到較遠投影距離的虛像,以降低駕駛者視覺上的昏眩感,並獲得一個最佳視覺效果,進而提升行車安全,藉以有效解決現有抬頭顯示器所存缺失,且本創作所用之技術手段,又為先前技術所無,故而本創作具有專利之新穎性及進步性要件者。 In summary, the head-up display device of the long-distance imaging of the present invention can use a reflective diffuser with a concave mirror module to increase the reflection distance in a limited space, so as to obtain a far distance of the optical path, so that in the same Under the magnification of the concave mirror, the virtual image of the far projection distance can be obtained, so as to reduce the driver's visual fainting and obtain an optimal visual effect, thereby improving the driving safety, thereby effectively solving the existing missing display, and the use of the original The technical means is not the prior art, so this creation has the patent novelty and progressive requirements.
在本創作內容中所提出之具體實施例,僅用以方便說明本創作之技術內容,而非將本創作狹義地限制於上述實施例,凡在不超出本創作之精神與下述之申請專利範圍的情況下,所作的種種變化實施,仍屬於本創作之範圍。 The specific embodiments set forth in the present disclosure are only used to facilitate the description of the technical content of the present invention, and the present invention is not limited to the above embodiments in a narrow sense, and the patent application below does not exceed the spirit of the present invention. In the context of the scope, the implementation of the various changes is still within the scope of this creation.
1‧‧‧影像投影模組 1‧‧‧Image projection module
2‧‧‧反射式擴散片 2‧‧‧Reflective diffuser
21‧‧‧旋轉軸 21‧‧‧Rotary axis
3‧‧‧凹面鏡模組 3‧‧‧ concave mirror module
31‧‧‧凹面鏡 31‧‧‧ concave mirror
32‧‧‧馬達齒輪組 32‧‧‧Motor gear set
A‧‧‧儀表台 A‧‧‧ dashboard
C‧‧‧頂棚 C‧‧‧ ceiling
D‧‧‧虛像 D‧‧‧virtual image
E‧‧‧眼睛 E‧‧‧ eyes
L‧‧‧光路 L‧‧‧Light Road
W‧‧‧擋風玻璃 W‧‧‧windshield
Claims (10)
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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DE202018103176U1 (en) | 2018-06-06 | 2018-07-04 | E-Lead Electronic Co., Ltd. | Display device for an enlarged display |
TWI631027B (en) * | 2016-12-27 | 2018-08-01 | 怡利電子工業股份有限公司 | Head-up display device for long-distance imaging |
DE202018106156U1 (en) | 2018-10-26 | 2018-11-08 | E-Lead Electronic Co., Ltd. | Embedded head-up display device |
CN114637118A (en) * | 2022-04-01 | 2022-06-17 | 业成科技(成都)有限公司 | Head-up display and operation method thereof |
US20230071032A1 (en) | 2021-09-08 | 2023-03-09 | E-Lead Electronic Co., Ltd. | Head-Mounted Fixing Device |
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2016
- 2016-12-27 TW TW105219744U patent/TWM541404U/en unknown
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI631027B (en) * | 2016-12-27 | 2018-08-01 | 怡利電子工業股份有限公司 | Head-up display device for long-distance imaging |
DE202018103176U1 (en) | 2018-06-06 | 2018-07-04 | E-Lead Electronic Co., Ltd. | Display device for an enlarged display |
DE202018106156U1 (en) | 2018-10-26 | 2018-11-08 | E-Lead Electronic Co., Ltd. | Embedded head-up display device |
US20230071032A1 (en) | 2021-09-08 | 2023-03-09 | E-Lead Electronic Co., Ltd. | Head-Mounted Fixing Device |
US11747631B2 (en) | 2021-09-08 | 2023-09-05 | E-Lead Electronic Co., Ltd. | Head-mounted fixing device |
CN114637118A (en) * | 2022-04-01 | 2022-06-17 | 业成科技(成都)有限公司 | Head-up display and operation method thereof |
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