WO2021134569A1 - Internal projection floating display - Google Patents

Internal projection floating display Download PDF

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Publication number
WO2021134569A1
WO2021134569A1 PCT/CN2019/130720 CN2019130720W WO2021134569A1 WO 2021134569 A1 WO2021134569 A1 WO 2021134569A1 CN 2019130720 W CN2019130720 W CN 2019130720W WO 2021134569 A1 WO2021134569 A1 WO 2021134569A1
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Prior art keywords
airbag
internal projection
floating display
projector
display
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PCT/CN2019/130720
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French (fr)
Chinese (zh)
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李庆远
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李庆远
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Priority to PCT/CN2019/130720 priority Critical patent/WO2021134569A1/en
Publication of WO2021134569A1 publication Critical patent/WO2021134569A1/en

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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03BAPPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
    • G03B21/00Projectors or projection-type viewers; Accessories therefor
    • G03B21/54Accessories
    • G03B21/56Projection screens
    • G03B21/60Projection screens characterised by the nature of the surface
    • G03B21/62Translucent screens

Definitions

  • the invention relates to an internal projection floating display, in particular to a device that uses a projection device in an aerostat airbag to project the outer surface of the aerostat to realize an aerial display.
  • LED light sources are fixed or rotating.
  • the latter uses the rotating LED point light source to leave the human eye's vision.
  • the LED point light source moves to a specific position, it turns on or off, so as to achieve the equivalent of ordinary display pixel point lighting. Or turn off the effect.
  • Japanese telecommunications operator NTT Docomo invented the world's first spherical-illuminated drone.
  • the four-axis drone achieves high mobility through the spherical centered four-axis drone, and uses the rotating LED point light source to achieve the effect of aerial display on the visual residue of the human eye.
  • it is planned to be used in sports events or high-tech concerts, and to remind the crowd in emergency situations. It is designed for high mobility and can be operated almost anywhere.
  • battery life is a big obstacle.
  • high energy density can be achieved through fuel, the problem is that drones are generally not allowed to fly in densely populated places. If fuel is used, it will be more dangerous.
  • the principle of the UAV with a spherical display is only to use the four-axis UAV with the center of the sphere to move the traditional and fixed hoisting spherical LED display.
  • the embodiment needs to solve the problem of the air flow generated by the rotating LED strip and the flying of the UAV.
  • the live video is extremely noisy. At present, it is only 0.88 meters in diameter. If it is enlarged enough to impress the stadium with tens of thousands or even hundreds of thousands of people, the noise level will be close to that of a manned helicopter, which greatly reduces its practicality, let alone. The danger of an accident.
  • the plane crashes over a dense crowd, causing a fire at the scene, causing the crowd to panic and large-scale stampede, and its harm is close to a terrorist attack. What's more, the drone itself may be hijacked and used by terrorists.
  • an aerostat (Aerostat, including tethered balloons, free balloons, and airships) to provide buoyancy to offset all or part of the gravity of the entire device, and at the same time use one or more projection devices in the aerostat airbag to control the outside of the aerostat.
  • the surface is projected to realize low-altitude display.
  • the aerostat can be fixed to the ground or suspended from beams and other fixed points by ropes or suspension cables, and then provide power through cables parallel to the ropes or suspension cables, and display pictures and control commands. You can also add a rotating function to the projection device to demonstrate dynamic effects.
  • the embodiments of the present invention are mainly described around unpowered, tethered balloons.
  • the embodiments of the present invention are not limited to unpowered balloons.
  • an airship that provides buoyancy through balloons and thrust through other devices can also use the floating display described below to realize the function of low-altitude display.
  • the spherical display drone invented by NTT Docomo a Japanese telecommunications operator, is difficult to achieve its anticipated goal of high mobility due to the current limitation of the energy density of the power battery.
  • many real-world applications do not require mobility.
  • high mobility must be of great significance, but the limitations of the existing technology hinder its commercial pace, not only battery life, noise level and flight control, but also anti-wireless attacks and hijacking. Major difficulties.
  • lighter-than-air aircraft such as balloons and airships
  • aerostats because the invention of airplanes, lighter-than-air aircraft (aerostats), such as balloons and airships, have tended to decline. Because the aerostat is lighter than air and its stagnation time is not limited by fuel, it is advantageous in terms of economy and environmental protection. Since its buoyancy does not depend on power, a low-power engine can be used in the propulsion system, which is not only low in cost but also low in noise. It is also very suitable to be combined with solar power to become a fairly environmentally friendly air transportation tool.
  • the aerostat is highly sensitive to wind. Except for maneuvering and docking in high winds, the difference in flight time between headwind and tailwind is too large, and even in crosswinds, the ground speed will be exhausted by flying without sideslip. Therefore, airplanes replaced aerostats and became the preferred means of transportation.
  • the spherical display can be divided into 6 parts according to the viewing angle.
  • the top part can be ignored (unless it is used for aerial navigation and other applications), and 5 projectors can be installed corresponding to the "left", “right", “bottom”, “front” and “rear” display parts , It can also have less than 5 projection devices, and the projector can be rotated by the power device to achieve dynamic effects.
  • Airships are similar.
  • the airbag positions can be allocated according to 6 display areas, and each airbag has a built-in projector.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Instructional Devices (AREA)

Abstract

An internal projection floating display, comprising: one or more projectors and one or more air bags, wherein the projectors are arranged in the air bags, an outer surface of each air bag is partially or completely semi-transparent, and the projectors can project viewable images on the outer surface of each air bags to realize the function of displaying in the air.

Description

内投影浮空显示器Internal projection floating display 发明领域Field of invention
本发明涉及内投影浮空显示器,具体涉及一种通过利用浮空器气囊内的投影装置,对浮空器外表面进行投影,实现空中展示的装置。The invention relates to an internal projection floating display, in particular to a device that uses a projection device in an aerostat airbag to project the outer surface of the aerostat to realize an aerial display.
背景技术Background technique
市面上有一些球形LED显示器,通过支架或悬索固定于室内或室外,以展示地球等图像。其中的LED光源有固定的,也有旋转的,后者利用旋转的LED点光源对人眼的视觉残留,当LED点光源移动到特定位置点亮或关闭,从而实现相当于普通显示器像素点点亮或关闭的效果。There are some spherical LED displays on the market, which are fixed indoors or outdoors through brackets or suspension cables to display images of the earth. Among them, the LED light source is fixed or rotating. The latter uses the rotating LED point light source to leave the human eye's vision. When the LED point light source moves to a specific position, it turns on or off, so as to achieve the equivalent of ordinary display pixel point lighting. Or turn off the effect.
日本的电信运营商NTT Docomo发明了世界上第一种球形照明无人机,通过球心的四轴无人机实现高机动,利用旋转的LED点光源对人眼的视觉残留实现空中展示的效果,并计划使用于体育赛事或者高科技演唱会,及紧急情况下对人群进行提醒。其设计是为了高度机动性,在几乎任何地方进行操作,然而,当前技术下,电池的续航是很大的障碍。虽然可以通过燃油的方法实现高能量密度,问题是在人流密集的地方,无人机一般都不允许飞行,如果使用燃油,会更加危险。Japanese telecommunications operator NTT Docomo invented the world's first spherical-illuminated drone. The four-axis drone achieves high mobility through the spherical centered four-axis drone, and uses the rotating LED point light source to achieve the effect of aerial display on the visual residue of the human eye. , And it is planned to be used in sports events or high-tech concerts, and to remind the crowd in emergency situations. It is designed for high mobility and can be operated almost anywhere. However, with current technology, battery life is a big obstacle. Although high energy density can be achieved through fuel, the problem is that drones are generally not allowed to fly in densely populated places. If fuel is used, it will be more dangerous.
此外,球形显示的无人机原理只是利用球心的四轴无人机让传统的、固定的吊装球形LED显示器动起来,其实施例需要解决旋转的LED条带产生的气流对无人机飞行的干扰,尽量减少结构重量等技术难题,其现场视频有极大噪音。目前还只是0.88米直径,如果放大到足以令体育场几万乃至几十万人都可以留下深刻印象的程度,其噪音水平恐怕将接近有人操控的直升机,极大降低了其实用性,更遑论发生事故的危险性。如果使用燃油,在密集人群上空坠机,导致现场大火,引起人群恐慌、大规模踩踏,其危害直逼恐怖袭击。更何况无人机本身就有被恐怖分子劫持和利用的可能。In addition, the principle of the UAV with a spherical display is only to use the four-axis UAV with the center of the sphere to move the traditional and fixed hoisting spherical LED display. The embodiment needs to solve the problem of the air flow generated by the rotating LED strip and the flying of the UAV. To minimize the structural weight and other technical problems, the live video is extremely noisy. At present, it is only 0.88 meters in diameter. If it is enlarged enough to impress the stadium with tens of thousands or even hundreds of thousands of people, the noise level will be close to that of a manned helicopter, which greatly reduces its practicality, let alone. The danger of an accident. If fuel is used, the plane crashes over a dense crowd, causing a fire at the scene, causing the crowd to panic and large-scale stampede, and its harm is close to a terrorist attack. What's more, the drone itself may be hijacked and used by terrorists.
发明概述Summary of the invention
可以设想通过浮空器(Aerostat,包括系留气球、自由气球、飞艇)提供浮力以抵消整个装置全部或部分重力,同时利用浮空器气囊内的一个或多个投影装置,对浮空器外表面进行投影,实现低空展示。浮空器可通过绳索或悬索固定于地面或悬吊于横梁以及其它固定点,然后通过和绳索或悬索并列的线缆提供电力,及显示画面和控制指令。还可以给投影装置增加旋转的功能,以演示动态的效果。It is conceivable to use an aerostat (Aerostat, including tethered balloons, free balloons, and airships) to provide buoyancy to offset all or part of the gravity of the entire device, and at the same time use one or more projection devices in the aerostat airbag to control the outside of the aerostat. The surface is projected to realize low-altitude display. The aerostat can be fixed to the ground or suspended from beams and other fixed points by ropes or suspension cables, and then provide power through cables parallel to the ropes or suspension cables, and display pictures and control commands. You can also add a rotating function to the projection device to demonstrate dynamic effects.
然而,应当理解,本发明内容可能不包含本发明的所有方面和实施例该发明内容并不意味着以任何方式进行限制或限制,并且本文公开的本发明将被下列之一理解:本领域普通技术人员包括对其的明显改进和修改。However, it should be understood that the content of the present invention may not include all aspects and embodiments of the present invention. The content of the present invention is not meant to be restricted or restricted in any way, and the present invention disclosed herein will be understood by one of the following: The technical staff includes obvious improvements and modifications.
具体实施方式Detailed ways
现在将在下文中更充分地描述本发明。然而,本发明可以以许多不同的形式实施,并且不应被解释为限于本文所阐述的实施例。但愿,提供这些实施例使得本公开将是彻底和完整的,并且将向本领域技术人员充分地传达本发明的范围。The present invention will now be described more fully hereinafter. However, the present invention can be implemented in many different forms and should not be construed as being limited to the embodiments set forth herein. Hopefully, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the present invention to those skilled in the art.
应当理解,在不脱离所附权利要求书中阐述的精神和范围的情况下,可以对元件的功能和布置进行各种改变。因此,实施例是本发明的示例或实现,而不是唯一的实现。各种出现“一个实施例”,“实施例”或“一些实施例”不一定都指代相同的实施例。虽然可以在单个实施例的上下文中描述本发明的各种特征,但是特征也可以单独地或以任何合适的组合提供。相反的,尽管为了清楚起见,本文中可以在单独的实施例的上下文中描述本发明,但是本发明也可以在单个实施例或实施例的任何组合中实现。It should be understood that various changes can be made to the function and arrangement of elements without departing from the spirit and scope set forth in the appended claims. Therefore, the embodiments are examples or implementations of the present invention, rather than the only implementations. The various appearances of "one embodiment," "an embodiment," or "some embodiments" do not necessarily all refer to the same embodiment. Although various features of the invention may be described in the context of a single embodiment, the features may also be provided individually or in any suitable combination. Conversely, although the invention may be described herein in the context of separate embodiments for the sake of clarity, the invention may also be implemented in a single embodiment or any combination of embodiments.
除非另有定义,本文使用的所有术语(包括技术和科学术语)具有与本发明所属领域的普通技术人员通常理解的相同的含义。将进一步理解的是,诸如在通常使用的字典中定义的那些术语应当被解释为具有与它们在相关技术和本公开的上下文中的含义一致的含义,并且将不被解释为理想化的或过度正式的意义,除非本文中明确地这样定义。Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention belongs. It will be further understood that terms such as those defined in commonly used dictionaries should be interpreted as having meanings consistent with their meanings in the context of related technologies and the present disclosure, and will not be interpreted as idealized or excessive The formal meaning, unless explicitly defined as such in this article.
参考术语如“左”、“右”、“顶”、“底”、“前”和“后”旨在用于在相对于描绘实施例中的具体特征,结构或元件的取向本发明的实施例。显然,关于设备的实际使用的这种方向性术语没有特定的含义,因为设备可以由用户或多个用户在多个方向中使用。Reference terms such as "left", "right", "top", "bottom", "front", and "rear" are intended to be used in the implementation of the present invention in relation to the specific features, structures, or orientations of the depicted embodiments example. Obviously, such directional terms regarding the actual use of the device have no specific meaning, because the device can be used by a user or multiple users in multiple directions.
本发明实施例主要围绕无动力、系留气球进行描述。然而,本发明实施例并不限于无动力气球。例如,通过气球提供浮力,通过其它装置提供推力的飞艇,也可以利用下面描述的浮空显示器,实现低空展示的功能。The embodiments of the present invention are mainly described around unpowered, tethered balloons. However, the embodiments of the present invention are not limited to unpowered balloons. For example, an airship that provides buoyancy through balloons and thrust through other devices can also use the floating display described below to realize the function of low-altitude display.
日本的电信运营商NTT Docomo发明的球形显示无人机,由于目前动力电池能量密度的局限,而难以实现其预想的高机动的目标。另外一方面,很多现实应用并不需要机动性。当然,如果不需要付出代价,高机动性肯定有重大意义,只不过现有技术的局限性,阻碍了其商用的步伐,不止电池续航,噪音水平和飞行控制,乃至防无线攻击和劫持都是重大困难。The spherical display drone invented by NTT Docomo, a Japanese telecommunications operator, is difficult to achieve its anticipated goal of high mobility due to the current limitation of the energy density of the power battery. On the other hand, many real-world applications do not require mobility. Of course, if you don’t need to pay a price, high mobility must be of great significance, but the limitations of the existing technology hinder its commercial pace, not only battery life, noise level and flight control, but also anti-wireless attacks and hijacking. Major difficulties.
自从飞机发明以后,轻于空气的飞行器(浮空器),如气球、飞艇都趋于衰落了。浮空器由于其轻于空气,滞空时间不受燃料的限制,故在经济和环保的原理上占优。由于其浮力不依靠动力,因此推进系统采用低功率的发动机即可,不仅成本低而且噪音低。它也很适合跟太阳能发电结合成为相当环保的空中运输工具。Since the invention of airplanes, lighter-than-air aircraft (aerostats), such as balloons and airships, have tended to decline. Because the aerostat is lighter than air and its stagnation time is not limited by fuel, it is advantageous in terms of economy and environmental protection. Since its buoyancy does not depend on power, a low-power engine can be used in the propulsion system, which is not only low in cost but also low in noise. It is also very suitable to be combined with solar power to become a fairly environmentally friendly air transportation tool.
但因为按表面积放大小于体积的原理,其轻于空气的优点,必须造得大才会具有效益。而庞大的体积造成空气阻力比飞机大很多,其速度比重于空气的航空器中最慢的直升机还低,通常在每小时一百公里以下的,即使是宣称最快的齐柏林飞艇,或现代飞艇都不超过都一百五十公里时速。这甚至慢于现代的汽车或火车等陆上交通工具,仅比船舶快一点而己。But because of the principle that the surface area is enlarged and smaller than the volume, its advantage of being lighter than air, it must be made larger to be effective. The huge volume causes air resistance to be much greater than that of airplanes, and its speed is lower than that of the slowest helicopter among the air-heavier aircraft, usually below 100 kilometers per hour, even the claimed fastest Zeppelin or modern airship. It does not exceed the speed of 150 kilometers per hour. This is even slower than modern land vehicles such as cars or trains, and only slightly faster than ships.
特别的,浮空器对风的敏感程度很高。除了在大风中的机动和靠港问题,其逆风和顺风飞行时间的差异太大,甚至在侧风时因进行无侧滑飞行会使地速消耗殆尽。因此,飞机取代了浮空器,成为首选运输工具。In particular, the aerostat is highly sensitive to wind. Except for maneuvering and docking in high winds, the difference in flight time between headwind and tailwind is too large, and even in crosswinds, the ground speed will be exhausted by flying without sideslip. Therefore, airplanes replaced aerostats and became the preferred means of transportation.
然而,对于那些并不迫切需要高机动,以展示为目标的应用而言,浮空器比飞机更适合。毕竟,快速的变化会影响展示的效果,我们都有一个短视频反复看很多遍的经历。其次,面向密集人群的展示,也需要巨型的展示面,这正好可以利用浮空器本身需要按表面积放大小于体积的原理,而需要造得大才具有效益的“缺点”。第三,对于无动力的气球而言,通过绳索或悬索(有条件之时)固定于地面或悬吊于横梁,即可极大抵消其对风的敏感程度很高的缺点。当然,对于台风天气,必须收回无动力气球。但此气象条件,飞机航班也无法继续运营。就连高速铁路这样的陆地运输也同样如此。However, for those applications where high maneuverability is not urgently needed and for display purposes, aerostats are more suitable than airplanes. After all, rapid changes will affect the effect of the display, and we all have the experience of watching a short video many times. Secondly, for the display of dense crowds, a huge display surface is also needed. This can just use the principle that the aerostat itself needs to be enlarged according to the surface area to be smaller than the volume, and it needs to be made large to be beneficial. Third, for an unpowered balloon, its shortcoming of high sensitivity to wind can be greatly offset by fixing it to the ground or hanging from a beam by ropes or suspension cables (when possible). Of course, for typhoon weather, the unpowered balloon must be retracted. However, under this weather condition, the flight cannot continue to operate. Even land transportation such as high-speed rail is the same.
对于单气囊的气球,只要在球心安装投影仪,并保证气囊/气球外表面半透明、具有良好投影效果即可。通常可以根据视角,将球形显示器分为6个部分。对于空中展示和地面观众,顶部可以忽略(除非用于空中导航等应用),既可以安装5个投影仪对应“左”、“右”、“底”、“前”和“后”个展示部分,也可以少于5个投影装置,通过动力装置旋转投影仪以实现动态效果。飞艇与之类似。对于多气囊,为了更好的展示效果,和避免投影穿过多个气囊,可以根据6个展示区域分配气囊位置,每个气囊内置一个投影仪。For single-airbag balloons, you only need to install a projector on the center of the sphere and ensure that the outer surface of the airbag/balloon is translucent and has a good projection effect. Generally, the spherical display can be divided into 6 parts according to the viewing angle. For aerial display and ground audience, the top part can be ignored (unless it is used for aerial navigation and other applications), and 5 projectors can be installed corresponding to the "left", "right", "bottom", "front" and "rear" display parts , It can also have less than 5 projection devices, and the projector can be rotated by the power device to achieve dynamic effects. Airships are similar. For multiple airbags, in order to better display the effect and avoid projection through multiple airbags, the airbag positions can be allocated according to 6 display areas, and each airbag has a built-in projector.
以上描述仅是本发明的实施例,并不意在限制本发明的范围。根据本公开的权利要求书和说明书的各种变化和修改仍在所要求保护的发明的范围内。此外,每个实施例和权利要求书未必包含了所公开的所有优点或特可收紧机械夹性。此外,摘要和标题仅用于便于搜索专利文献,并且不旨在以任何方式限制所要求保护的发明的范围。The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention. Various changes and modifications according to the claims and specification of the present disclosure are still within the scope of the claimed invention. In addition, each embodiment and claims may not include all the disclosed advantages or special tightening mechanical clamping properties. In addition, the abstract and title are only used to facilitate searching of patent documents and are not intended to limit the scope of the claimed invention in any way.

Claims (10)

  1. 一种内投影浮空显示器,包含了:一个或多个投影仪和一个或多个气囊,具有如下特征:所述投影仪内置于所述的气囊,所述气囊外表面一部分或全部半透明,所述投影仪可以在所述气囊外表面投射可观看的影像。An internal projection floating display, comprising: one or more projectors and one or more airbags, and has the following characteristics: the projector is built in the airbag, and part or all of the outer surface of the airbag is translucent, The projector can project a viewable image on the outer surface of the airbag.
  2. 一种内投影浮空显示器,包含了:一个或多个投影仪和一个或多个气囊,具有如下特征:所述投影仪内置于所述的气囊,所述气囊外表面一部分或全部半透明,所述投影仪可以在所述气囊外表面投射可观看的影像。An internal projection floating display, comprising: one or more projectors and one or more airbags, and has the following characteristics: the projector is built in the airbag, and part or all of the outer surface of the airbag is translucent, The projector can project a viewable image on the outer surface of the airbag.
  3. 如权利要求2所述内投影浮空显示器,进一步包含了一个或多个线缆,以提供电力、显示的影象、其它控制指令和数据。The internal projection floating display of claim 2, further comprising one or more cables to provide power, displayed images, other control commands and data.
  4. 如权利要求2所述的内投影浮空显示器,具有如下特征:通过所述的线缆系留于地面或其它固定点。The internal projection floating display according to claim 2 has the following characteristics: it is tied to the ground or other fixed points by the cable.
  5. 一种内投影浮空显示器,包含了:一个或多个投影仪和一个或多个气囊,具有如下特征:所述投影仪内置于所述的气囊,所述气囊外表面一部分或全部半透明,所述投影仪可以在所述气囊外表面投射可观看的影像。An internal projection floating display, comprising: one or more projectors and one or more airbags, and has the following characteristics: the projector is built in the airbag, and part or all of the outer surface of the airbag is translucent, The projector can project a viewable image on the outer surface of the airbag.
  6. 如权利要求5所述内投影浮空显示器,进一步包含了一个或多个动力装置,驱动所述投影仪旋转以改变投射影像的位置。The internal projection floating display of claim 5, further comprising one or more power devices for driving the projector to rotate to change the position of the projected image.
  7. 如权利要求5所述内投影浮空显示器,进一步包含了一个或多个线缆,以提供电力、显示的影象、其它控制指令和数据。The internal projection floating display of claim 5, further comprising one or more cables to provide power, displayed images, other control commands and data.
  8. 如权利要求5所述的内投影浮空显示器,具有如下特征:通过所述的线缆系留于地面或其它固定点。The internal projection floating display according to claim 5, which has the following characteristics: the cable is tied to the ground or other fixed points.
  9. 一种内投影浮空显示器,包含了:一个或多个投影仪和一个或多个气囊,具有如下特征:所述投影仪内置于所述的气囊,所述气囊外表面一部分或全部半透明,所述投影仪可以在所述气囊外表面投射可观看的影像。An internal projection floating display, comprising: one or more projectors and one or more airbags, having the following characteristics: the projector is built in the airbag, and part or all of the outer surface of the airbag is translucent, The projector can project a viewable image on the outer surface of the airbag.
  10. 如权利要求9所述内投影浮空显示器,进一步包含了一个或多个动力装置,驱动所述投影仪旋转以改变投射影像的位置。9. The internal projection floating display of claim 9, further comprising one or more power devices for driving the projector to rotate to change the position of the projected image.
PCT/CN2019/130720 2019-12-31 2019-12-31 Internal projection floating display WO2021134569A1 (en)

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