WO2020019375A1 - Diving goggles having transparent display screen - Google Patents

Abstract

Disclosed by the present invention are diving goggles having a transparent display screen, comprising: an information acquisition component which acquires diving information of a diver, wherein an information transmission part is connected to the information acquisition component, has an optical output end, and outputs the diving information by means of the optical output end; a lens is positioned on the side close to the optical output end; the transparent display screen comprises tempered glass for transparent display, the tempered glass is provided with a permeable reflecting film used for admitting and reflecting light, and the tempered glass is positioned on the side of the lens opposite to the optical output end. The diving information outputted by the information transmission part traverses the lens and is irradiated on the tempered glass. According to the technical solution of the present invention, the lens provides increased focal length for diving information, and light outputted by the information transmission part takes form on the tempered glass for transparent display under the action of the lens, which avoids the situation where a diver has to repeatedly observe a diving computer during driving.

Description

具有透明显示屏的潜水镜  Diving goggles with transparent display Ranch

技术领域Technical field

本申请涉及潜水装置技术领域，特别涉及一种具有透明显示屏的潜水镜。The present application relates to the technical field of diving equipment, and in particular, to a diving mirror with a transparent display screen.

背景技术Background technique

潜水作为一种高级休闲娱乐运动，越来越受到人们的广泛喜爱。现有技术中，人们在进行潜水运动时，往往需要获知气瓶余压，潜水深度、潜水时长以及没有减压的限制，而获取潜水信息的方式往往是通过潜水电脑或全身携带的各种各样的仪器，这样人们就需要隔一段时间看一次手表或各种仪器，给潜水员在进行潜水运动时带来诸多不便。Diving, as an advanced recreational sport, is becoming more and more popular. In the prior art, when diving, people often need to know the remaining pressure of the cylinder, the depth of the dive, the length of the dive, and no restrictions on decompression. This kind of equipment, so people need to watch a watch or various instruments every once in a while, which brings a lot of inconvenience to divers in diving.

发明内容Summary of the Invention

本申请的主要目的是提出一种具有透明显示屏的潜水镜，旨在解决现有技术中的潜水镜不方便观察潜水员潜水信息的问题。The main purpose of this application is to propose a diving goggle with a transparent display screen, which aims to solve the problem that the diving goggles in the prior art are inconvenient to observe divers' diving information.

为实现上述目的，本申请提出一种具有透明显示屏的潜水镜，所述具有透明显示屏的潜水镜包括：信息采集组件，用于采集潜水员的潜水信息；信息传输件，所述信息传输件与所述信息采集组件相连，所述信息传输件具有光输出端，所述信息传输件通过所述光输出端输出所述潜水信息；透镜，用于增大焦距，所述透镜位于靠近所述光输出端的一侧；透明显示屏，所述透明显示屏包括用于透明显示的钢化玻璃，所述钢化玻璃设置有用于光线穿透和反射的穿透反射膜，所述钢化玻璃位于所述透镜背离所述光输出端的一侧，所述信息传输件输出的潜水信息通过所述透镜后照射在所述钢化玻璃上，以供潜水员观察。In order to achieve the above object, the present application proposes a diving goggle with a transparent display screen. The diving goggles with a transparent display screen include: an information acquisition component for collecting diving information of a diver; an information transmission part, the information transmission part Connected to the information acquisition component, the information transmission member has a light output terminal, and the information transmission member outputs the diving information through the light output terminal; a lens is used to increase the focal length, and the lens is located close to the One side of the light output end; a transparent display screen, which includes tempered glass for transparent display, the tempered glass is provided with a transflective film for light transmission and reflection, and the tempered glass is located on the lens On the side facing away from the light output end, the diving information output by the information transmitting member passes through the lens and is irradiated on the tempered glass for the diver to observe.

可选地，所述钢化玻璃设有信息区以及观察区，所述信息区用于潜水员查看潜水信息，所述观察区用于潜水员观察外界环境，所述信息区位于所述观察区的上方。Optionally, the tempered glass is provided with an information area and an observation area, the information area is used for the diver to view the diving information, the observation area is used for the diver to observe the external environment, and the information area is located above the observation area.

可选地，所述穿透反射膜为半穿透半反射膜。Optionally, the transflective film is a transflective film.

可选地，所述信息区包括两个子信息区，两所述子信息区分别位于所述钢化玻璃上与潜水员的左右眼相对应的位置处。Optionally, the information area includes two sub-information areas, and the two sub-information areas are respectively located on the tempered glass at positions corresponding to the left and right eyes of the diver.

可选地，所述透镜具有相对设置的射入面以及射出面，其中所述射入面为平面，所述射出面为凸面。 Optionally, the lens has an entrance surface and an exit surface opposite to each other, wherein the entrance surface is a flat surface and the exit surface is a convex surface.

可选地，所述射入面的入射角在85°~90°的范围内。Optionally, an incident angle of the incident surface is in a range of 85 ° to 90 °.

可选地，所述具有透明显示屏的潜水镜还包括反射件，所述反射件的反射面朝向所述信息传输件的光输出端设置，所述信息传输件的输出的光线通过所述反射件反射后射入所述射入面。Optionally, the submersible mirror with a transparent display screen further includes a reflecting member, a reflecting surface of the reflecting member is disposed toward a light output end of the information transmitting member, and light output by the information transmitting member passes through the reflection After reflection, the lens is incident on the incident surface.

可选地，所述反射件的入射角在20°~30°的范围内。Optionally, the incident angle of the reflector is within a range of 20 ° to 30 °.

可选地，所述反射件为单面反射镜，所述反射镜面向所述信息传输件的一面涂有反射层。Optionally, the reflecting member is a single-sided reflecting mirror, and a side of the reflecting mirror facing the information transmitting member is coated with a reflecting layer.

可选地，所述具有透明显示屏的潜水镜还包括用于拍照的摄像机。Optionally, the submersible mirror with a transparent display screen further includes a camera for taking pictures.

可选地，所述透明显示屏为合束镜。Optionally, the transparent display screen is a beam combiner.

可选地，所述具有透明显示屏的潜水镜还包括定位装置。Optionally, the submersible mirror with a transparent display screen further includes a positioning device.

本申请技术方案中，通过透镜增大潜水信息的焦距，信息传输件输出的光线在透镜的作用下在透明显示的钢化玻璃上成型，使得潜水信息成像清晰，避免出现潜水员在潜水时需要反复观察潜水电脑的现象，且便于潜水员观察到潜水信息。In the technical solution of the present application, the focal length of the diving information is increased by the lens, and the light output by the information transmission member is formed on the transparent display tempered glass under the action of the lens, so that the imaging of the diving information is clear, and the diver needs to observe repeatedly when diving The phenomenon of a dive computer and makes it easier for divers to observe dive information.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

为了更清楚地说明本申请实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本申请的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图示出的结构获得其他的附图。In order to explain the technical solutions in the embodiments of the present application or the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are merely These are some embodiments of the present application. For those of ordinary skill in the art, other drawings can be obtained according to the structure shown in the drawings without paying creative labor.

图1为本申请具有透明显示屏的潜水镜的原理示意图；FIG. 1 is a schematic diagram of a diving goggle with a transparent display of the present application;

图2为本申请具有透明显示屏的潜水镜的结构示意图。FIG. 2 is a schematic structural diagram of a submersible mirror with a transparent display screen of the present application.

附图标号说明：BRIEF DESCRIPTION OF THE DRAWINGS

标号Label	名称name	标号Label	名称name
1010	传感器sensor	2020	处理器processor
3030	信息传输件Information transmission	4040	反射镜Reflector
5050	透镜lens	6060	钢化玻璃Tempered glass
601601	信息区Information area	602602	观察区Observation area
7070	摄像机Camera

本申请目的的实现、功能特点及优点将结合实施例，参照附图做进一步说明。The implementation, functional features and advantages of the purpose of this application will be further described with reference to the embodiments and the drawings.

具体实施方式detailed description

下面将结合本申请实施例中的附图，对本申请实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅仅是本申请的一部分实施例，而不是全部的实施例。基于本申请中的实施例，本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例，都属于本申请保护的范围。The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. Obviously, the described embodiments are only a part of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present application.

需要说明，若本申请实施例中有涉及方向性指示（诸如上、下、左、右、前、后、横、纵……），则该方向性指示仅用于解释在某一特定姿态（如附图所示）下各部件之间的相对位置关系、运动情况等，如果该特定姿态发生改变时，则该方向性指示也相应地随之改变。It should be noted that if there are directional instructions (such as up, down, left, right, front, back, horizontal, vertical, etc.) in this embodiment of the application, the directional instructions are only used to explain in a specific posture ( As shown in the figure), the relative positional relationship, movement, etc. of the components under the direction will change accordingly if the specific posture changes.

另外，若本申请实施例中有涉及“第一”、“第二”等的描述，则该“第一”、“第二”等的描述仅用于描述目的，而不能理解为指示或暗示其相对重要性或者隐含指明所指示的技术特征的数量。由此，限定有“第一”、“第二”的特征可以明示或者隐含地包括至少一个该特征。另外，各个实施例之间的技术方案可以相互结合，但是必须是以本领域普通技术人员能够实现为基础，当技术方案的结合出现相互矛盾或无法实现时应当认为这种技术方案的结合不存在，也不在本申请要求的保护范围之内。In addition, if there are descriptions related to "first", "second", etc. in the embodiments of the present application, the descriptions of "first", "second", etc. are only used for description purposes, and cannot be understood as instructions or hints Its relative importance or implicitly indicates the number of technical features indicated. Therefore, the features defined as "first" and "second" may explicitly or implicitly include at least one of the features. In addition, the technical solutions between the various embodiments can be combined with each other, but must be based on those that can be realized by a person of ordinary skill in the art. When the combination of technical solutions conflicts or cannot be achieved, it should be considered that such a combination of technical solutions does not exist. Is not within the scope of protection claimed in this application.

本申请提出一种具有透明显示屏的潜水镜，一种便于潜水员观察潜水信息的具有透明显示屏的潜水镜。This application proposes a diving goggle with a transparent display screen, and a diving goggle with a transparent display screen that facilitates divers to observe diving information.

参照图1-图2，本申请提出一种具有透明显示屏的潜水镜，所述具有透明显示屏的潜水镜包括：信息采集组件（图中未标注），用于采集潜水员的潜水信息（图未示）；信息传输件30，所述信息传输件30与所述信息采集组件相连，所述信息传输件30具有光输出端（图中未标注），所述信息传输件30通过所述光输出端输出所述潜水信息；透镜50，用于增大焦距，所述透镜50位于靠近所述光输出端的一侧；透明显示屏（图中未标注），所述透明显示屏包括用于透明显示的钢化玻璃60，所述钢化玻璃60设置有用于光线穿透和反射的穿透反射膜（图中未标注），所述钢化玻璃60位于所述透镜50背离所述光输出端的一侧，所述信息传输件30输出的潜水信息通过所述透镜50后照射在所述钢化玻璃60上，以供潜水员观察。Referring to FIGS. 1-2, the present application proposes a diving goggle with a transparent display screen. The diving goggles with a transparent display screen include: an information collection component (not labeled in the figure) for collecting diving information of a diver (FIG. (Not shown); an information transmission member 30, which is connected to the information collection component, the information transmission member 30 has a light output end (not labeled in the figure), and the information transmission member 30 passes the light The output terminal outputs the diving information; a lens 50 is used to increase the focal length, and the lens 50 is located at a side close to the light output terminal; a transparent display screen (not labeled), the transparent display screen includes The tempered glass 60 shown is provided with a transflective film (not labeled) for light transmission and reflection. The tempered glass 60 is located on the side of the lens 50 facing away from the light output end. The diving information output by the information transmitting member 30 passes through the lens 50 and shines on the tempered glass 60 for the diver to observe.

具体地，所述信息采集组件包括用于采集潜水信息的传感器10以及用于处理信息的处理器50，所述传感器10包括深度传感器10和温度传感器10，所述潜水信息包括潜水时间、气体余量、潜水深度。所述信息采集组件将采集到的所述潜水信息传递至所述信息传输件30，由所述信息传输件30进行传递并被潜水员观察到，所述信息传输件30将接收到的所述潜水信息由所述光输出端以光线进行传输，所述信息传输件30为高清显示器。所述传感器10、所述处理器50以及所述信息传输件30均包覆高透环氧树脂膜，用于防水，保证各零部件正常工作。所述透镜50装设于靠近所述信息传输件30的光输出端的一侧，所述透镜50用于增大成像的焦距。所述透明显示屏包括用于实现透明显示的钢化玻璃60，使得所述透明显示屏能承受高水压，保障潜水员的安全，所述钢化玻璃60的前后两个表面上设置有供光线穿透和反射的穿透反射透膜，避免所述光线在穿过所述透镜50后照射在所述钢化玻璃60上出现重影的现象，其中所述穿透反射膜可以通过粘贴或镀膜的方式装设在所述钢化玻璃60的内表面上。在所述透镜50的作用下，使得所述潜水信息位于人眼的观察到的舒适的距离处，便于所述潜水信息被人眼看到。同时，在所述透镜50增大成像焦距的作用下，减小了所述具有透明显示屏的潜水镜的体积，从而提高了所述具有透明显示屏的潜水镜的实用性。所述具有透明显示屏的潜水镜通过弹力带佩戴在潜水员头上，其中所述具有透明显示屏的潜水镜还设有与鼻子相适配的容置空间。Specifically, the information acquisition component includes a sensor 10 for collecting diving information and a processor 50 for processing information. The sensor 10 includes a depth sensor 10 and a temperature sensor 10, and the diving information includes a diving time, a gas balance, and the like. Volume, diving depth. The information acquisition component transmits the collected diving information to the information transmission piece 30, and the information transmission piece 30 transmits and is observed by the diver, and the information transmission piece 30 will receive the diving information Information is transmitted by the light output end by light, and the information transmission member 30 is a high-definition display. The sensor 10, the processor 50, and the information transmission member 30 are all covered with a high-permeability epoxy resin film for waterproofing and ensuring the normal operation of each component. The lens 50 is installed on a side close to the light output end of the information transmission member 30. The lens 50 is used to increase the focal length of the image. The transparent display screen includes tempered glass 60 for achieving transparent display, so that the transparent display screen can withstand high water pressure and ensure the safety of divers. The front and back surfaces of the tempered glass 60 are provided for light penetration. And reflective penetrating and transmissive films to avoid ghosting of the light on the tempered glass 60 after passing through the lens 50, wherein the penetrating and reflective films can be installed by pasting or plating. It is provided on the inner surface of the tempered glass 60. Under the action of the lens 50, the diving information is located at a comfortable distance observed by human eyes, so that the diving information can be seen by human eyes. At the same time, under the effect of increasing the imaging focal length of the lens 50, the volume of the submersible mirror with a transparent display screen is reduced, thereby improving the practicability of the submersible mirror with a transparent display screen. The diving goggles with a transparent display screen are worn on the diver's head by an elastic band, wherein the diving goggles with a transparent display screen are also provided with a receiving space adapted to the nose.

本申请实施例中，由所述信息采集组件采集潜水员在潜水过程中的潜水信息，然后所述潜水信息经由所述信息传输件30传递，在穿过所述透镜50后照射在透明显示的所述钢化玻璃60上，从而被潜水员所观察到，避免出现潜水员在潜水时需要反复观察潜水电脑的现象，潜水信息直接投射所述透明显示屏上，便于潜水员在潜水的过程中更加直观的观察到潜水信息。In the embodiment of the present application, the information acquisition component collects diving information of a diver during a diving process, and then the diving information is transmitted through the information transmission member 30, and after passing through the lens 50, the information is irradiated on a transparent display area. The tempered glass 60 is observed by the divers, avoiding the phenomenon that the divers need to repeatedly observe the dive computer when diving, and the diving information is directly projected on the transparent display screen, which is convenient for the divers to observe more intuitively during the diving process. Dive information.

进一步地，所述钢化玻璃60设有信息区601以及观察区602，所述信息区601用于潜水员查看潜水信息，所述观察区602用于潜水员观察外界环境，所述信息区601位于所述观察区602的上方。所述信息传输件30发出的光线穿过所述透镜50后照射在所述信息区601，所述观察区602位于潜水员人眼的正前方，潜水员透过所述观察区602观察外部环境。本申请实施例中，所述信息区601为透明显示的所述信息区601，潜水员通过所述信息区601不仅能观测到潜水信息，也能观察到外界环境，其中，所述信息区601的上边缘与所述观察区602的上边缘重合，即所述信息区601与所述观察区602重合在一起，且所述信息区601位于所述观察区602的上方，不阻挡潜水员在前行方向上观察外面环境的视野，同时又能让潜水员轻松的看到潜水信息。本实施例中，所述信息区601包括两个子信息区，两所述子信息区分别位于透明显示的所述钢化玻璃60上与潜水员的左右眼相对应的位置处。两所述子信息区用于显示不同的潜水信息或影像或资讯。Further, the tempered glass 60 is provided with an information area 601 and an observation area 602. The information area 601 is used for divers to view diving information. The observation area 602 is used for divers to observe the external environment. The information area 601 is located in the area. Above the observation area 602. The light emitted by the information transmission member 30 passes through the lens 50 and shines on the information area 601. The observation area 602 is located directly in front of the diver's eyes. The diver observes the external environment through the observation area 602. In the embodiment of the present application, the information area 601 is the information area 601 that is transparently displayed. The diver can not only observe the diving information but also the external environment through the information area 601. The upper edge coincides with the upper edge of the observation area 602, that is, the information area 601 coincides with the observation area 602, and the information area 601 is located above the observation area 602, and does not block the diver in the forward direction. Look up at the field of vision of the outside environment, while allowing divers to easily see the dive information. In this embodiment, the information area 601 includes two sub-information areas, and the two sub-information areas are respectively located on the tempered glass 60 that is transparently displayed at positions corresponding to the left and right eyes of the diver. The two sub-information areas are used to display different dive information or images or information.

进一步地，所述穿透反射膜为半穿透半反射膜（图未示）。所述透明显示屏为合束镜，所述透明显示屏包括透明显示的钢化玻璃60，使得所述具有透明显示屏的潜水镜能够承受高水压。透明显示的钢化玻璃的表面镀膜有半穿透半反射膜，使得光线能在所述钢化玻璃60上发生反射并穿透所述钢化玻璃60，所述钢化玻璃60的表面还设有亲水防雾膜，避免所述钢化玻璃60的表面变得模糊，使得潜水员能清楚的观察到潜水信息和周围环境信息。本申请实施例中，所述穿透反射膜为半穿透半发射膜，便于潜水员观察到潜水信息以及周围的环境。可以理解的是，所述穿透反射膜中穿透与反射的占比还可以为其他种，例如所述穿透反射膜中穿透占比40％，反射占比60％；或者穿透占比70％，反射占比30％，在此不做限制。Further, the transflective film is a transflective film (not shown). The transparent display screen is a combiner lens, and the transparent display screen includes tempered glass 60 for transparent display, so that the diving mirror with a transparent display screen can withstand high water pressure. The surface coating of the transparent display tempered glass has a semi-transmissive and semi-reflective film, so that light can be reflected on the tempered glass 60 and penetrate the tempered glass 60. The surface of the tempered glass 60 is also provided with a hydrophilic protection. The mist film prevents the surface of the tempered glass 60 from becoming blurred, so that the diver can clearly observe the diving information and the surrounding environment information. In the embodiment of the present application, the transflective film is a semi-transmissive and semi-emissive film, which is convenient for divers to observe diving information and the surrounding environment. It can be understood that the penetration and reflection ratio in the transflective film can also be other types, for example, the transmissive and reflective film has a penetration ratio of 40% and a reflection ratio of 60%; The ratio is 70%, and the reflection ratio is 30%. There is no limitation here.

进一步地，所述透镜50具有相对设置的射入面（图中未标注）以及射出面（图中未标注），其中所述射入面为平面，所述射出面为凸面。本申请实施例中， 所述透镜50为凸透镜50，用于增大成像的焦距，减小所述具有透明显示屏的潜水镜的体积，使得潜水员能在人眼的阅读距离清楚的看到潜水信息。本实施例中，所述透镜50的射入面为平面，所述透镜50的射出面为凸面，从所述信息传输件30的光输出端射出的光线与所述射入面的入射角在85°~90°的范围内，便于所述光线在所述透镜50内进行传播，使得所述潜水信息更加清晰。可选地，所述光线与所述透镜50的入射面的夹角相垂直，在此状态下，被潜水员所观察到所述潜水信息较为清晰。可以理解的是，所述透镜50还有其他结构，例如所述透镜50为射入面与射出面均为凸面的双凸透镜50；或者所述透镜50为多个凸面透镜50叠加制成。本申请实施例中，所述透镜50的射入面为平面，所述透镜50的射出面为凸面。Further, the lens 50 has an incident surface (not labeled) and an emitting surface (not labeled) opposite to each other, wherein the incident surface is a flat surface and the emitting surface is a convex surface. In the embodiment of the present application, The lens 50 is a convex lens 50 for increasing the focal length of the imaging and reducing the volume of the diving goggles with a transparent display screen, so that the diver can clearly see the diving information at the reading distance of the human eye. In this embodiment, the incidence surface of the lens 50 is a flat surface, and the emission surface of the lens 50 is a convex surface. The incident angle between the light emitted from the light output end of the information transmission member 30 and the incidence surface is The range of 85 ° to 90 ° is convenient for the light to propagate in the lens 50 and makes the diving information clearer. Optionally, the included angle between the light and the incident surface of the lens 50 is perpendicular, and in this state, the diving information is more clearly observed by the diver. It can be understood that the lens 50 has other structures. For example, the lens 50 is a biconvex lens 50 having a convex surface on both the entrance surface and the exit surface; or the lens 50 is made by stacking a plurality of convex lenses 50. In the embodiment of the present application, the incidence surface of the lens 50 is a flat surface, and the emission surface of the lens 50 is a convex surface.

进一步地，所述具有透明显示屏的潜水镜还包括反射件，所述反射件的反射面朝向所述信息传输件30的光输出端设置，所述信息传输件30的输出的光线通过所述反射件反射后射入所述射入面。通过增加所述反射件，使得从所述信息传输件30射出光线经过所述反射件后射入所述透镜50中，避免所述信息传输件30直接与所述透镜50相对，通过光线在所述反射件上进行反射，减小所述具有透明显示屏的潜水镜的体积。可以理解的是，所述反射件用于改变光线的传导路径，其结构还有其他种，例如，所述反射件为用于改变光线路径的棱镜。本申请实施例中，所述反射件的入射角在20°~30°的范围内。所述信息传输件30输出的光线与所述反射件的入射角优选为25°。本实施例中，所述反射件为单面反射镜40，所述反射镜40面向所述信息传输件30的一面涂有反射层（图未示）。所述反射镜40靠近所述信息传输件30的光输出端的一面涂有反射层，从所述信息传输件30的光输出端射出来的光线直接由单面反射镜40反射后射入所述透镜50中，避免出现多余的反射光线，从而使得所述潜水信息的成像更加清晰。本实施例中，所述反射镜40紧靠所述透镜50设置。Further, the submersible mirror with a transparent display screen further includes a reflecting member, a reflecting surface of the reflecting member is disposed toward a light output end of the information transmitting member 30, and a light output by the information transmitting member 30 passes through the The reflecting member is incident on the incident surface after being reflected. By adding the reflecting member, the light emitted from the information transmitting member 30 passes through the reflecting member and enters the lens 50, thereby preventing the information transmitting member 30 from directly facing the lens 50. Reflection is performed on the reflecting member to reduce the volume of the submersible mirror with a transparent display screen. It can be understood that the reflection member is used to change the light transmission path, and there are other types of structures. For example, the reflection member is a prism used to change the light path. In the embodiment of the present application, an incident angle of the reflecting member is in a range of 20 ° to 30 °. The incident angle between the light output from the information transmitting member 30 and the reflecting member is preferably 25 °. In this embodiment, the reflecting member is a single-sided reflecting mirror 40, and a side of the reflecting mirror 40 facing the information transmitting member 30 is coated with a reflecting layer (not shown). A side of the reflecting mirror 40 near the light output end of the information transmitting member 30 is coated with a reflective layer, and the light emitted from the light output end of the information transmitting member 30 is directly reflected by the single-sided reflecting mirror 40 and enters the reflecting mirror 40. In the lens 50, unnecessary reflected light is avoided, so that the imaging of the diving information is more clear. In this embodiment, the reflecting mirror 40 is disposed close to the lens 50.

进一步地，所述具有透明显示屏的潜水镜还包括用于拍照的摄像机70。本申请实施例中，所述摄像机70用于潜水员在进行潜水运动时对美好的事物进行拍照，记录潜水运动的美好时刻，提高潜水运动的乐趣性。在所述摄像机70拍摄到鱼时，所述摄像机70提取影像中鱼类的信息特征，从而确定鱼所述的种类并在所述信息区601进行显示。同时，所述具有透明显示屏的潜水镜还包括定位装置（图未示），所述定位装置用于确定用户在潜水过程中的位置，所述钢化玻璃60显示有潜水员的前进方向的潜水信息，根据潜水员所处的位置，对潜水员进行线路规划。 Further, the diving mirror with a transparent display screen further includes a camera 70 for taking pictures. In the embodiment of the present application, the camera 70 is used for a diver to take pictures of beautiful things during diving, record beautiful moments of diving, and improve the fun of diving. When a fish is captured by the camera 70, the camera 70 extracts information characteristics of the fish in the image, thereby determining the type of fish and displaying it in the information area 601. At the same time, the diving goggles with a transparent display screen also includes a positioning device (not shown), which is used to determine the position of the user during the diving process. The tempered glass 60 displays diving information of the diver's forward direction. According to the diver's location, plan the route for the diver. Ranch

以上所述仅为本申请的优选实施例，并非因此限制本申请的专利范围，凡是在本申请的构思下，利用本申请说明书及附图内容所作的等效结构变换，或直接/间接运用在其他相关的技术领域均包括在本申请的专利保护范围内。The above is only a preferred embodiment of the present application, and does not limit the patent scope of the present application. Any equivalent structural transformation made by using the description and drawings of the present application under the concept of the present application, or directly / indirectly used in Other related technical fields are included in the patent protection scope of this application.

Claims (12)

1. 一种具有透明显示屏的潜水镜，其中，所述具有透明显示屏的潜水镜包括： A diving mirror with a transparent display screen, wherein the diving mirror with a transparent display screen includes:

   信息采集组件，用于采集潜水员的潜水信息；Information collection component, used to collect diving information of divers;

   信息传输件，所述信息传输件与所述信息采集组件相连，所述信息传输件具有光输出端，所述信息传输件通过所述光输出端输出所述潜水信息；An information transmission part, which is connected to the information acquisition component, the information transmission part has a light output end, and the information transmission part outputs the diving information through the light output end;

   透镜，用于增大焦距，所述透镜位于靠近所述光输出端的一侧；A lens for increasing a focal length, the lens being located on a side close to the light output end;

   透明显示屏，所述透明显示屏包括用于透明显示的钢化玻璃，所述钢化玻璃设置有用于光线穿透和反射的穿透反射膜，所述钢化玻璃位于所述透镜背离所述光输出端的一侧，所述信息传输件输出的潜水信息通过所述透镜后照射在所述钢化玻璃上，以供潜水员观察。A transparent display screen, which includes tempered glass for transparent display, the tempered glass is provided with a transflective film for light transmission and reflection, and the tempered glass is located on the lens facing away from the light output end On one side, the diving information output by the information transmission member passes through the lens and is irradiated on the tempered glass for the diver to observe.
2. 如权利要求1所述的具有透明显示屏的潜水镜，其中，所述钢化玻璃设有信息区以及观察区，所述信息区用于潜水员查看潜水信息，所述观察区用于潜水员观察外界环境，所述信息区位于所述观察区的上方。The diving mirror with a transparent display screen according to claim 1, wherein the tempered glass is provided with an information area and an observation area, the information area is used for the diver to view the diving information, and the observation area is used for the diver to observe the external environment , The information area is located above the observation area.
3. 如权利要求2所述的具有透明显示屏的潜水镜，其中，所述穿透反射膜为半穿透半反射膜。The submersible mirror with a transparent display screen according to claim 2, wherein the transflective film is a transflective film.
4. 如权利要求2所述的具有透明显示屏的潜水镜，其中，所述信息区包括两个子信息区，两所述子信息区分别位于所述钢化玻璃上与潜水员的左右眼相对应的位置处。The diving mirror with a transparent display according to claim 2, wherein the information area includes two sub-information areas, and the two sub-information areas are respectively located on the tempered glass at positions corresponding to the left and right eyes of the diver .
5. 如权利要求1所述的具有透明显示屏的潜水镜，其中，所述透镜具有相对设置的射入面以及射出面，其中所述射入面为平面，所述射出面为凸面。 The submersible mirror with a transparent display screen according to claim 1, wherein the lens has an incident surface and an exit surface opposite to each other, wherein the incident surface is a flat surface and the exit surface is a convex surface. Ranch
6. 如权利要求5所述的具有透明显示屏的潜水镜，其中，所述射入面的入射角在85°~90°的范围内。The submersible mirror with a transparent display screen according to claim 5, wherein an incident angle of the incident surface is in a range of 85 ° to 90 °.
7. 如权利要求6所述的具有透明显示屏的潜水镜，其中，所述具有透明显示屏的潜水镜还包括反射件，所述反射件的反射面朝向所述信息传输件的光输出端设置，所述信息传输件的输出的光线通过所述反射件反射后射入所述射入面。The submersible mirror with a transparent display screen according to claim 6, wherein the submersible mirror with a transparent display screen further comprises a reflecting member, and a reflecting surface of the reflecting member is disposed toward a light output end of the information transmitting member, The light output by the information transmitting member is reflected by the reflecting member and incident on the incident surface.
8. 如权利要求7所述的具有透明显示屏的潜水镜，其中，所述反射件的入射角在20°~30°的范围内。The submersible mirror with a transparent display screen according to claim 7, wherein an incident angle of the reflecting member is in a range of 20 ° to 30 °.
9. 如权利要求7所述的具有透明显示屏的潜水镜，其中，所述反射件为单面反射镜，所述反射镜面向所述信息传输件的一面涂有反射层。The submersible mirror with a transparent display screen according to claim 7, wherein the reflecting member is a single-sided reflecting mirror, and a side of the reflecting mirror facing the information transmitting member is coated with a reflecting layer.
10. 如权利要求1所述的具有透明显示屏的潜水镜，其中，所述具有透明显示屏的潜水镜还包括用于拍照的摄像机。The diving goggles with a transparent display screen according to claim 1, wherein the diving goggles with a transparent display screen further comprise a camera for taking pictures.
11. 如权利要求1所述的具有透明显示屏的潜水镜，其中，所述透明显示屏为合束镜。The submersible mirror with a transparent display screen according to claim 1, wherein the transparent display screen is a combining lens.
12. 如权利要求1所述的具有透明显示屏的潜水镜，其中，所述具有透明显示屏的潜水镜还包括定位装置。 The submersible mirror with a transparent display screen according to claim 1, wherein the submersible mirror with a transparent display screen further comprises a positioning device.