CN204807842U - smart glasses - Google Patents

Abstract

The utility model discloses an intelligent glasses, which comprises a glasses body, a supporting seat and a clamping part which is movably clamped between a pair of glasses frames, the support seat is combined with a first near-to-eye optical device and a second near-to-eye optical device, the utility model is provided with a first camera lens and a second camera lens which can detect and track the position of eyeballs, and then the processor is used for calculating and judging the detection result of the eyeballs, so that a user can manually or automatically adjust the first near-to-eye optical device and the second near-to-eye optical device to the better position corresponding to the eyes of the user, thereby the utility model can correspondingly adjust the display position at the corresponding appropriate position of the eyes of the user according to the different distances between the eyeballs of different users, so that the user can watch the correct or better visual display angle when wearing the clothes and the visual comfort when wearing the clothes is improved.

Description

Translated fromChinese

智能眼镜smart glasses

技术领域technical field

本实用新型涉及一种智能眼镜，尤指一种能根据不同使用者眼球之间的不同距离而活动对应调整显示位置于用户眼睛的相对适当处，使得使用者穿戴时能观看正确或较佳的视觉显示角度及提升穿戴时的视觉舒适度的智能眼镜。The utility model relates to a kind of smart glasses, in particular to a kind of glasses which can be adjusted according to the different distances between the eyeballs of different users, so that the display position can be adjusted at a relatively appropriate position of the user's eyes, so that the user can see correctly or better when wearing them. Smart glasses that display angles of vision and enhance visual comfort when worn.

背景技术Background technique

现有的智能型眼镜可能为在一般眼镜的镜框上装设有外挂式投射显示器，或者投射显示器与镜框容设成一体，故中国台湾专利公开第201443510号公开了一种“智能眼镜”，如图1所示，其包含一眼镜本体1，该眼镜本体1设有两个镜框10，该对镜框10分别嵌合有一镜片11，该眼镜本体1可与一智能手机12或一笔记本电脑13连接，于该对镜片11上提供影像，由用户的眼睛所接收。Existing smart glasses may be equipped with an external projection display on the frame of ordinary glasses, or the projection display and the frame are integrated, so China Taiwan Patent Publication No. 201443510 discloses a kind of "smart glasses", as shown in the figure 1, it includes a glasses body 1, the glasses body 1 is provided with two frames 10, the pair of frames 10 are fitted with a lens 11 respectively, the glasses body 1 can be connected with a smart phone 12 or a notebook computer 13, Images are provided on the pair of lenses 11 to be received by the user's eyes.

此一技术方案虽可轻易的显示该影像并由用户眼睛所观看，但由于不同使用者的眼睛之间都有不同的瞳距，而该眼镜本体1、该对镜框10及其相对应的该镜片11为一体相对应的尺寸设计，因此该对镜片11所投射的该影像实际为一固定的方位，因此不同使用者的瞳距不同其所观看到的该影像方位亦不同，容易造成使用者观看上的压力，造成使用者不舒适感及容易疲倦。所以，如何针对以上不足加以改进，即为本案发明人所欲解决的技术困难点。Although this technical solution can easily display the image and be viewed by the user's eyes, since the eyes of different users have different interpupillary distances, the glasses body 1, the pair of mirror frames 10 and the corresponding The lenses 11 are designed with a corresponding size as a whole, so the image projected by the pair of lenses 11 is actually in a fixed orientation, so the orientation of the image viewed by different users is also different due to the different interpupillary distances, which is likely to cause users The pressure on viewing causes the user to feel uncomfortable and get tired easily. Therefore, how to improve the above deficiencies is the technical difficulty that the inventor of this case wants to solve.

实用新型内容Utility model content

有鉴于现有技术中的不足，因此本实用新型的目的在于提供一种能根据不同使用者眼球之间的不同距离而活动对应调整显示位置于用户眼睛的相对适当处，使得使用者穿戴时能观看正确或较佳的视觉显示角度及提升穿戴时的视觉舒适度的智能眼镜。In view of the deficiencies in the prior art, the purpose of this utility model is to provide a device that can adjust the display position to a relatively appropriate position of the user's eyes according to the different distances between the eyeballs of different users, so that the user can wear it Smart glasses for viewing correct or better visual display angles and improving visual comfort when worn.

为了达到以上目的，本实用新型提供一种智能眼镜，其包含：一眼镜本体，设有两个镜框与两个侧边镜架；一支撑座，该支撑座的一侧边固设有一夹持部，该夹持部活动夹持于该对镜框之间，该支撑座设有一容置空间及其相对应的一第一开口与一第二开口，该容置空间内设有一微控制器；四个警示灯，该每一警示灯电性连接该微控制器，其中两个警示灯固设于该支撑座的表面一侧，另外两个警示灯固设于该支撑座的表面另一侧；一第一近眼光学装置，经由一第一嵌合部活动嵌合于该第一开口，该第一近眼光学装置上设有一朝向该其中一镜框的第一摄像镜头；一第二近眼光学装置，经由一第二嵌合部活动嵌合于该第二开口，该第二近眼光学装置上设有一朝向该其中另一镜框的第二摄像镜头，该第一摄像镜头与该第二摄像镜头电性连接一智能眼镜的主机中的处理器，且该处理器与微控制器电性连接。In order to achieve the above purpose, the utility model provides a kind of smart glasses, which includes: a glasses body, with two frames and two side frames; a support base, one side of the support base is fixed with a clamp part, the clamping part is movably clamped between the pair of mirror frames, the support seat is provided with a receiving space and a corresponding first opening and a second opening, and a microcontroller is provided in the receiving space; Four warning lights, each of which is electrically connected to the microcontroller, two of which are fixed on one side of the surface of the support base, and the other two are fixed on the other side of the surface of the support base A first near-eye optical device is movably fitted in the first opening via a first fitting portion, and a first near-eye optical device is provided with a first camera lens facing one of the frames; a second near-eye optical device is movably fitted in the second opening via a second fitting part, and the second near-eye optical device is provided with a second camera lens facing the other frame, the first camera lens and the second camera lens are electrically connected The processor in the host computer of a smart glasses is electrically connected, and the processor is electrically connected with the microcontroller.

其中该微控制器电性连接一发声元件，且该第一摄像镜头与该第二摄像镜头为感光耦合元件(Charge-coupledDevice,CCD)或图像传感器(CMOS)。Wherein the microcontroller is electrically connected to a sound-generating element, and the first camera lens and the second camera lens are charge-coupled devices (CCD) or image sensors (CMOS).

本实用新型提供另一实施态样，本实用新型还提供了另一种智能眼镜，其包含：一眼镜本体，设有两个镜框与两个侧边镜架；一支撑座，该支撑座的一侧边固设有一夹持部，该夹持部活动夹持于该对镜框之间，该支撑座设有一容置空间及其相对应的一第一开口与一第二开口，该容置空间内设有一微控制器、一第一微型马达与一第二微型马达，该第一微型马达与该第二微型马达固设于该容置空间的两个相对侧，且该第一微型马达与该第二微型马达电性连接该微控制器，该第一微型马达连接一第一齿轮，该第二微型马达连接一第二齿轮，该微控制器电性连接一控制钮，该控制钮固设于该支撑座表面一端；一第一近眼光学装置，经由一第一嵌合部活动嵌合于该第一开口，该第一嵌合部一侧面设有一第一齿条，该第一齿条活动轴接于该第一齿轮；一第二近眼光学装置，经由一第二嵌合部活动嵌合于该第二开口，该第二嵌合部一侧面设有一第二齿条，该第二齿条活动轴接于该第二齿轮，该第一近眼光学装置上设有一朝向该其中一镜框的第一摄像镜头，该第二近眼光学装置上设有一朝向该其中另一镜框的第二摄像镜头，该第一摄像镜头与该第二摄像镜头电性连接一智能眼镜的主机中的处理器，且该处理器与微控制器电性连接。The utility model provides another embodiment. The utility model also provides another kind of smart glasses, which includes: a glasses body with two frames and two side frames; A clamping part is fixed on one side, and the clamping part is movably clamped between the pair of mirror frames. The support seat is provided with a receiving space and a corresponding first opening and a second opening. A microcontroller, a first micro-motor and a second micro-motor are arranged in the space, and the first micro-motor and the second micro-motor are fixed on two opposite sides of the accommodating space, and the first micro-motor The microcontroller is electrically connected to the second micromotor, the first micromotor is connected to a first gear, the second micromotor is connected to a second gear, the microcontroller is electrically connected to a control button, and the control button Fixed on one end of the surface of the support seat; a first near-eye optical device is movably fitted in the first opening through a first fitting part, and a side of the first fitting part is provided with a first rack, and the first The active shaft of the rack is connected to the first gear; a second near-eye optical device is movably fitted in the second opening through a second fitting part, and a second rack is provided on one side of the second fitting part. The movable shaft of the second rack is connected to the second gear, the first near-eye optical device is provided with a first camera lens facing the one of the frames, and the second near-eye optical device is provided with a first camera lens facing the other frame. Two camera lenses, the first camera lens and the second camera lens are electrically connected to a processor in a host of smart glasses, and the processor is electrically connected to a microcontroller.

其中该第一摄像镜头与该第二摄像镜头为感光耦合元件(Charge-coupledDevice,CCD)或图像传感器(CMOS)。Wherein the first camera lens and the second camera lens are a charge-coupled device (CCD) or an image sensor (CMOS).

本实用新型设有可侦测、追踪眼球位置的第一摄像镜头与第二摄像镜头，再通过处理器对眼球侦测结果进行运算及判别，使用者即可手动或自动将该第一近眼光学装置与该第二近眼光学装置调整到与用户的眼睛相对应的较佳位置，进而本实用新型能根据不同使用者眼球之间的不同距离而活动对应调整显示位置于用户眼睛的相对适当处，使得使用者穿戴时能观看正确或较佳的视觉显示角度及提升穿戴时的视觉舒适度。The utility model is equipped with a first camera lens and a second camera lens that can detect and track the position of the eyeball, and then calculate and judge the eyeball detection result through a processor, and the user can manually or automatically use the first near-eye optical lens The device and the second near-eye optical device are adjusted to a better position corresponding to the user's eyes, and then the utility model can adjust the display position to a relatively appropriate position of the user's eyes according to the different distances between the eyeballs of different users. This enables the user to view the correct or better visual display angle when wearing it and improves the visual comfort when wearing it.

附图说明Description of drawings

图1为现有技术中的智能眼镜的实施示意图；FIG. 1 is a schematic diagram of the implementation of smart glasses in the prior art;

图2为本实用新型较佳实施例的智能眼镜根据使用者瞳距手动调整最佳影像投射位置的结构立体示意图；Fig. 2 is a schematic perspective view of the structure of the smart glasses according to the preferred embodiment of the present invention to manually adjust the optimal image projection position according to the user's interpupillary distance;

图2A为本实用新型较佳实施例的智能眼镜根据使用者瞳距手动调整最佳影像投射位置的动作前示意图；Fig. 2A is a schematic diagram before the operation of the smart glasses according to the preferred embodiment of the present invention to manually adjust the optimal image projection position according to the user's interpupillary distance;

图2B为本实用新型较佳实施例的智能眼镜根据使用者瞳距手动调整最佳影像投射位置的动作后示意图；Fig. 2B is a schematic diagram of the smart glasses according to the preferred embodiment of the present invention after manually adjusting the optimal image projection position according to the user's interpupillary distance;

图2C为本实用新型较佳实施例的智能眼镜根据使用者瞳距手动调整最佳影像投射位置并利用声音提醒的动作后示意图；Fig. 2C is a schematic diagram of smart glasses according to a preferred embodiment of the present invention after manually adjusting the optimal image projection position according to the user's interpupillary distance and using sound reminders;

图3为本实用新型较佳实施例的智能眼镜根据使用者瞳距自动调整最佳影像投射位置的结构立体示意图；Fig. 3 is a perspective view of the structure of smart glasses in a preferred embodiment of the present invention, which automatically adjusts the optimal image projection position according to the user's interpupillary distance;

图3A为本实用新型较佳实施例的智能眼镜根据使用者瞳距自动调整最佳影像投射位置的动作前示意图；Fig. 3A is a schematic diagram before the operation of the smart glasses according to the user's interpupillary distance to automatically adjust the optimal image projection position according to the preferred embodiment of the present invention;

图3B为本实用新型较佳实施例的智能眼镜根据使用者瞳距自动调整最佳影像投射位置的动作后示意图。3B is a schematic diagram of the smart glasses according to the preferred embodiment of the present invention after the action of automatically adjusting the optimal image projection position according to the user's interpupillary distance.

附图标记说明：1-眼镜本体；10-镜框；11-镜片；12-智能手机；13-笔记本电脑；2-眼镜本体；20-镜框；21-侧边镜架；3-支撑座；3A-端面；30-夹持部；31-容置空间；32-第一开口；33-第二开口；34-微控制器；34A-红警示灯；34B-绿警示灯；35-发声元件；36-第一微型马达；36A-第一齿轮；37-第二微型马达；37A-第二齿轮；38-控制钮；4-第一近眼光学装置；40-第一嵌合部；40A-第一齿条；41-第一摄像镜头；41A-第一范围性图像侦测；5-第二近眼光学装置；50-第二嵌合部；50A-第二齿条；51-第二摄像镜头；51A-第二范围性图像侦测；6-眼睛；7-主机；71-处理器。Description of reference signs: 1-glasses body; 10-frame; 11-lens; 12-smart phone; 13-notebook computer; 2-glasses body; 20-frame; 21-side frame; 3-support seat; 3A -end face; 30-clamping part; 31-accommodating space; 32-first opening; 33-second opening; 34-microcontroller; 34A-red warning light; 34B-green warning light; 35-sounding element; 36-the first micro motor; 36A-the first gear; 37-the second micro motor; 37A-the second gear; 38-control button; 4-the first near-eye optical device; 40-the first fitting part; 40A-the first A rack; 41-the first camera lens; 41A-the first range image detection; 5-the second near-eye optical device; 50-the second fitting part; 50A-the second rack; 51-the second camera lens ; 51A-second range image detection; 6-eye; 7-host; 71-processor.

具体实施方式Detailed ways

为了使审查员能清楚了解本实用新型的内容，以下列说明的较佳实施例搭配图式，敬请参阅。In order to enable the examiner to clearly understand the content of the utility model, the preferred embodiments described below are matched with the drawings, please refer to them.

如图2所示，本实用新型提供一种智能眼镜，其包含：一眼镜本体2、一支撑座3、一第一近眼光学装置4、一第二近眼光学装置5、两个红警示灯34A及两个绿警示灯34B。As shown in Figure 2, the utility model provides a kind of smart glasses, which includes: a glasses body 2, a support seat 3, a first near-eye optical device 4, a second near-eye optical device 5, two red warning lights 34A And two green warning lights 34B.

该眼镜本体2设有两个镜框20与两个侧边镜架21，为一般常见的佩戴式眼镜，该对镜框20内可配置无度数或有度数的镜片。The glasses body 2 is provided with two frames 20 and two side frames 21 , which are common wearable glasses. The pair of frames 20 can be equipped with non-prescription or prescription lenses.

该支撑座3的一侧边固设有一夹持部30，为了使该支撑座3平衡，该夹持部30较佳位于该支撑座3中间，该夹持部30可活动夹持于该对镜框20之间，该支撑座3内设有一容置空间31及其相对应连通的一第一开口32与一第二开口33，该容置空间31内设有一微控制器34，该微控制器34较佳设置为固定，又该微控制器34分别与各该红警示灯34A及绿警示灯34B电性连接，用以控制各警示灯的动作。One side of the support base 3 is fixed with a clamping portion 30. In order to balance the support base 3, the clamping portion 30 is preferably located in the middle of the support base 3, and the clamping portion 30 can be movably clamped on the pair of Between the mirror frame 20, the supporting seat 3 is provided with a containing space 31 and a first opening 32 and a second opening 33 which are connected correspondingly. The containing space 31 is provided with a microcontroller 34, the microcontroller The controller 34 is preferably set to be fixed, and the microcontroller 34 is electrically connected to the red warning lights 34A and the green warning lights 34B respectively, so as to control the actions of the warning lights.

该第一近眼光学装置4经由一第一嵌合部40活动嵌合于该第一开口32，使得该第一近眼光学装置4较佳可于该第一开口32可移动的范围内以嵌合的方式左右滑动，该第一近眼光学装置4上设有一朝向该其中一镜框20的第一摄像镜头41，该第一摄像镜头41较佳设置方位为可穿射过该镜框20内的镜片，从而便于感测到用户眼部的位置。The first near-eye optical device 4 is movably fitted in the first opening 32 via a first fitting portion 40, so that the first near-eye optical device 4 can preferably fit within the movable range of the first opening 32 The first near-eye optical device 4 is provided with a first camera lens 41 facing the one of the frame 20, the first camera lens 41 is preferably arranged in such a way that it can pass through the lens in the frame 20, This facilitates sensing the position of the user's eyes.

该第二近眼光学装置5经由一第二嵌合部50活动嵌合于该第二开口33，亦使得该第二近眼光学装置5较佳可于该第二开口33可移动的范围内以嵌合的方式左右滑动，该第二近眼光学装置5上设有一朝向该其中另一镜框20的第二摄像镜头51，该第二摄像镜头51较佳设置方位为可穿射过该镜框20内的镜片，从而便于感测到用户眼部的位置，在本实施例中，该第一摄像镜头41与该第二摄像镜头51较佳为感光耦合元件(Charge-coupledDevice,CCD)或图像传感器(CMOS)，且该第一摄像镜头41与该第二摄像镜头51分别具有一第一范围性图像侦测41A与一第二范围性图像侦测51A，如图2A所示，且该第一摄像镜头41与该第二摄像镜头51电性连接一智能眼镜的主机7中的处理器71，该处理器71亦电性连接该微控制器34。The second near-eye optical device 5 is movably fitted in the second opening 33 through a second fitting portion 50, so that the second near-eye optical device 5 can preferably be fitted within the movable range of the second opening 33. The second near-eye optical device 5 is provided with a second camera lens 51 facing the other frame 20, and the second camera lens 51 is preferably arranged in such a way that it can pass through the lens in the frame 20. lens, so as to facilitate the sensing of the position of the user's eyes. In this embodiment, the first camera lens 41 and the second camera lens 51 are preferably photosensitive coupling devices (Charge-coupled Device, CCD) or image sensors (CMOS ), and the first camera lens 41 and the second camera lens 51 respectively have a first range image detection 41A and a second range image detection 51A, as shown in Figure 2A, and the first camera lens 41 and the second camera lens 51 are electrically connected to a processor 71 in the host computer 7 of the smart glasses, and the processor 71 is also electrically connected to the microcontroller 34 .

该对红警示灯34A及该对绿警示灯34B分别电性连接该微控制器34，该其中一红警示灯34A与该其中一绿警示灯34B固设于该支撑座3的表面一侧，其较佳位置使得用户其中一眼睛可观看到，该其中另一红警示灯34A与该其中另一绿警示灯34B固设于该支撑座3的表面另一侧，其较佳位置亦使得用户其中另一眼睛可观看到。The pair of red warning lights 34A and the pair of green warning lights 34B are electrically connected to the microcontroller 34 respectively, and one of the red warning lights 34A and one of the green warning lights 34B are fixed on the surface side of the support base 3 , Its preferred position allows one of the eyes of the user to see it. The other red warning light 34A and the other green warning light 34B are fixed on the other side of the surface of the support base 3. The preferred position also allows the user to One of the other eyes can see.

如图2与图2A所示，本实施例运用于手动调整，其中当使用者佩戴该眼镜本体2，该第一近眼显示设备4或该第二近眼显示设备5可能并未对准使用者的一双眼睛6，此时，通过本实用新型设有朝向使用者脸部且可感测眼球位置的第一摄像镜头41或第二摄像镜头51，该第一摄像镜头41或该第二摄像镜头51即可将侦测到的眼球影像转换为电子信号并回传至主机7的处理器71进行运算与判别，如运算结果未落在一预定的感应数据范围内，该处理器71即可发送一对应的控制信号给该微控制器34，从而使微控制器34可令该对红警示灯34A电性导通发光，即表示该第一近眼光学装置4及该第二近眼光学装置5并未对准该对眼睛6的适当位置，如此可告知用户作调校的动作；用户依照实际佩戴时的实际视觉观察，通常能直接判断该第一近眼光学装置4与该第二近眼光学装置5与用户的该对眼睛6的相对位置作调整，于本实施例中该第一近眼光学装置4及该第二近眼光学装置5如较偏置于该支撑座3的两个相对外侧，使用者可手动调整，使第一近眼光学装置4或第二近眼光学装置5分别相对第一开口32或第二开口33嵌合滑动，由于嵌合具有摩擦力，该第一近眼光学光置4或该第二近眼光学装置5不调整移动时即可因摩擦力而不动。As shown in Figure 2 and Figure 2A, this embodiment is applied to manual adjustment, wherein when the user wears the glasses body 2, the first near-eye display device 4 or the second near-eye display device 5 may not be aligned with the user's A pair of eyes 6, at this time, the utility model is provided with the first camera lens 41 or the second camera lens 51 facing the user's face and can sense the position of the eyeball, the first camera lens 41 or the second camera lens 51 The detected eyeball image can be converted into an electronic signal and sent back to the processor 71 of the host 7 for calculation and judgment. If the calculation result does not fall within a predetermined sensing data range, the processor 71 can send a The corresponding control signal is sent to the micro-controller 34, so that the micro-controller 34 can make the pair of red warning lights 34A conduct and emit light, which means that the first near-eye optical device 4 and the second near-eye optical device 5 are not connected. Align the appropriate position of the pair of eyes 6, so that the user can be notified of the adjustment action; the user can usually directly judge the relationship between the first near-eye optical device 4 and the second near-eye optical device 5 according to the actual visual observation when wearing it. The relative position of the pair of eyes 6 of the user is adjusted. In this embodiment, if the first near-eye optical device 4 and the second near-eye optical device 5 are located on two relative outer sides of the support seat 3, the user can Manually adjust, so that the first near-eye optical device 4 or the second near-eye optical device 5 is fitted and slid relative to the first opening 32 or the second opening 33 respectively, because the fitting has friction, the first near-eye optical device 4 or the second near-eye optical device 4 The second near-eye optical device 5 can not move due to friction when it is not adjusted to move.

如图2B所示，其中当该第一近眼光学装置4于该支撑座3上的移动且依照该第一摄像镜头41的该第一范围性图像侦测41A，或该第二近眼光学装置5于该支撑座3上的移动依照该第二摄像镜头51的该第二范围性图像侦测51A，而当分别侦测对应到该使用者的该对眼睛6的适当位置时，则处理器71的运算及判别结果会显示用户已调到正确位置，此时处理器71可发送一对应的控制信号给微控制器34，从而使该微控制器34可令该对绿警示灯34B导通同时令该对红警示灯34A熄灭，即告知使用者已调整该第一近眼光学装置4与该第二近眼光学装置5达到与用户的该对眼睛6为相对较佳的正确位置，实为本实用新型的特点。As shown in FIG. 2B, when the first near-eye optical device 4 moves on the support base 3 and according to the first range image detection 41A of the first camera lens 41, or the second near-eye optical device 5 The movement on the support base 3 is in accordance with the second range image detection 51A of the second camera lens 51, and when the proper positions of the pair of eyes 6 corresponding to the user are respectively detected, the processor 71 The result of calculation and judgment will show that the user has adjusted to the correct position. At this time, the processor 71 can send a corresponding control signal to the micro-controller 34, so that the micro-controller 34 can make the pair of green warning lights 34B conduction at the same time. Make the pair of red warning lights 34A go out, that is to inform the user that the first near-eye optical device 4 and the second near-eye optical device 5 have been adjusted to reach a relatively better correct position with the pair of eyes 6 of the user. new type of features.

如图2C所示，在本实施例中，该微控制器34进一步电性连接一发声元件35，藉此，当使用者将第一近眼光学装置4或第二近眼光学装置5调整到正确位置时，除了灯号的指示之外，该微控制器34尚可令该发声元件35发出声响，而可达到更佳的提示效果。As shown in FIG. 2C, in this embodiment, the microcontroller 34 is further electrically connected to a sounding element 35, whereby when the user adjusts the first near-eye optical device 4 or the second near-eye optical device 5 to the correct position At this time, in addition to the indication of the light signal, the microcontroller 34 can also make the sounding element 35 make a sound, so as to achieve a better prompting effect.

如图3所示，本实施例运用于自动调整的智能眼镜，其包含该眼镜本体2、该支撑座3、该第一近眼光学装置4及该第二近眼光学装置5。As shown in FIG. 3 , the present embodiment is applied to self-adjusting smart glasses, which include the glasses body 2 , the support base 3 , the first near-eye optical device 4 and the second near-eye optical device 5 .

该眼镜本体2同样的设有该对镜框20及该对侧边镜架21为佳，该支撑座3通过该夹持部30夹持于该对镜框20之间，该支撑座3设有该容置空间31及其相对应的该第一开口32与该第二开口33，该容置空间31内设有该微控制器34、一第一微型马达36与一第二微型马达37，该第一微型马达36与该第二微型马达37固设于该容置空间31的两个相对侧，且该第一微型马达36与该第二微型马达37电性连接该微控制器34，该第一微型马达36连接一第一齿轮36A，该第二微型马达37连接一第二齿轮37A，如图3A所示，该微控制器34同样电性连接一智能眼镜的主机7中的处理器71，该处理器71电性连接一控制钮38，该控制钮38固设于该支撑座3表面一端面3A上，该控制钮38用以启动自动调整功能，该第一近眼光学装置4经由该第一嵌合部40活动嵌合于该第一开口32，该第一嵌合部40一侧面设有一第一齿条40A，该第一齿条40A活动轴接于该第一齿轮36A上，又该第二近眼光学装置5经由该第二嵌合部50活动嵌合于该第二开口33，该第二嵌合部50一侧面设有一第二齿条50A，该第二齿条50A活动轴接于该第二齿轮37A，该第一近眼光学装置4上设有朝向该其中一镜框20的该第一摄像镜头41，该第二近眼光学装置5上设有朝向该其中另一镜框20的该第二摄像镜头51，该第一摄像镜头41与该第二摄像镜头51电性连接该主机7中的处理器71。The glasses body 2 is also preferably provided with the pair of frames 20 and the pair of side frames 21. The support base 3 is clamped between the pair of frames 20 by the clamping portion 30. The support base 3 is provided with the The accommodating space 31 and its corresponding first opening 32 and the second opening 33 are provided with the microcontroller 34 , a first micromotor 36 and a second micromotor 37 in the accommodating space 31 . The first micromotor 36 and the second micromotor 37 are fixed on two opposite sides of the accommodating space 31, and the first micromotor 36 and the second micromotor 37 are electrically connected to the microcontroller 34. The first micromotor 36 is connected to a first gear 36A, and the second micromotor 37 is connected to a second gear 37A. As shown in FIG. 3A , the microcontroller 34 is also electrically connected to the processor in the host computer 7 of a smart glasses. 71, the processor 71 is electrically connected to a control button 38, the control button 38 is fixed on an end surface 3A of the surface of the support base 3, the control button 38 is used to start the automatic adjustment function, and the first near-eye optical device 4 passes through The first fitting part 40 is movably fitted in the first opening 32, and a side surface of the first fitting part 40 is provided with a first rack 40A, and the first rack 40A is movably connected to the first gear 36A. , and the second near-eye optical device 5 is movably fitted in the second opening 33 via the second fitting part 50, and a side of the second fitting part 50 is provided with a second rack 50A, and the second rack 50A The movable shaft is connected to the second gear 37A, the first near-eye optical device 4 is provided with the first camera lens 41 facing the one of the frames 20, and the second near-eye optical device 5 is provided with a camera lens 41 facing the other frame 20. The second camera lens 51 of 20, the first camera lens 41 and the second camera lens 51 are electrically connected to the processor 71 in the host computer 7 .

如图3与图3A所示，本实施例运用于自动调整，其中当使用者佩戴该眼镜本体2，该第一近眼光学装置4或该第二近眼光学装置5可能并未对准使用者的该对眼睛6，此时使用者只需要按压该控制钮38，该主机7中的处理器71即可接收第一摄像镜头41或第二摄像镜头51所传回的眼球影像的电子信号并进行运算与判别，该处理器71可再产生一对应的修正位置的控制信号给微处理器34，使该微控制器34输出控制该第一微型马达36及该第二微型马达37，该第一微型马达36带动该第一齿轮36A，该第一齿轮36A带动该第一齿条40A，该第一嵌合部40藉以连动该第一近眼光学装置4，同时该第二微型马达37带动该第二齿轮37A，该第二齿轮37A带动该第二齿条50A，该第二嵌合部50藉以连动该第二近眼光学装置5，使得该第一近眼光学装置4及该第二近眼光学装置5位移至用户的该对眼睛6的相对适当位置，此时，如图3B所示，该处理器71可产生一对应的控制信号给微处理器34，从而使该微控制器34可令第一微型马达36及第二微型马达37停止动作，使本实用新型可实现自动调整功能；此外，值得一提的是，由于该第一齿轮36A与该第一齿条40A及该第二齿轮37A与该第二齿条50A都是利用相耦接而具有摩擦力，该第一近眼光学装置4或该第二近眼光学装置5不调整移动时即可不动。As shown in FIG. 3 and FIG. 3A, this embodiment is applied to automatic adjustment, wherein when the user wears the glasses body 2, the first near-eye optical device 4 or the second near-eye optical device 5 may not be aligned with the user's For the pair of eyes 6, the user only needs to press the control button 38 at this time, and the processor 71 in the host computer 7 can receive the electronic signal of the eyeball image sent back by the first camera lens 41 or the second camera lens 51 and perform Computation and judgment, the processor 71 can generate a corresponding control signal for correcting the position to the microprocessor 34, so that the microcontroller 34 outputs and controls the first micromotor 36 and the second micromotor 37, the first micromotor 37 The micromotor 36 drives the first gear 36A, the first gear 36A drives the first rack 40A, the first fitting part 40 is used to drive the first near-eye optical device 4, and the second micromotor 37 drives the first near-eye optical device 4 at the same time. The second gear 37A, the second gear 37A drives the second rack 50A, the second fitting part 50 is used to link the second near-eye optical device 5, so that the first near-eye optical device 4 and the second near-eye optical device The device 5 is displaced to the relative appropriate position of the pair of eyes 6 of the user. At this time, as shown in FIG. 3B , the processor 71 can generate a corresponding control signal to the microprocessor 34, so that the microcontroller 34 can make The first micromotor 36 and the second micromotor 37 stop moving, so that the utility model can realize the automatic adjustment function; 37A and the second rack 50A are coupled to have frictional force, and the first near-eye optical device 4 or the second near-eye optical device 5 can not move without adjustment.

如图2、图2C、图3及图3A所示，本实用新型设有可侦测、追踪眼球位置(eye-balltracking)的第一摄像镜头41与第二摄像镜头51，再通过处理器71对眼球侦测结果进行运算及判别，使用者即可手动或自动将该第一近眼光学装置4与该第二近眼光学装置5调整到与用户的眼睛6相对应的较佳位置，进而使本实用新型能根据不同使用者眼球之间的不同距离而活动对应调整显示位置于用户眼睛的相对适当处，使得使用者穿戴时能观看正确或较佳的视觉显示角度及提升穿戴时的视觉舒适度。As shown in Fig. 2, Fig. 2C, Fig. 3 and Fig. 3A, the utility model is provided with a first camera lens 41 and a second camera lens 51 capable of detecting and tracking eyeball tracking (eye-ball tracking), and then through a processor 71 By calculating and judging the eyeball detection results, the user can manually or automatically adjust the first near-eye optical device 4 and the second near-eye optical device 5 to a better position corresponding to the user's eyes 6, so that the The utility model can adjust the corresponding display position according to the different distances between the eyes of different users, so that the user can watch the correct or better visual display angle when wearing it and improve the visual comfort when wearing it. .

以上所论述仅为本实用新型较佳实施例而已，并非用以限定本实用新型的保护范围；故在不脱离本实用新型的精神与范畴内所作的等效形状、构造或组合的变换，皆应涵盖于本实用新型的保护范围内。The above discussion is only a preferred embodiment of the present utility model, and is not intended to limit the scope of protection of the present utility model; therefore, any transformation of equivalent shape, structure or combination made without departing from the spirit and scope of the present utility model shall not be limited. Should be covered within the scope of protection of the present utility model.

Claims (5)

Translated fromChinese

1.一种智能眼镜，其特征在于，包含：1. A kind of smart glasses, is characterized in that, comprises:一眼镜本体，设有两个镜框与两个侧边镜架；A glasses body with two frames and two side frames;一支撑座，该支撑座的一侧边固设有一夹持部，该夹持部活动夹持于该对镜框之间，该支撑座设有一容置空间及其相对应的一第一开口与一第二开口，该容置空间内设有一微控制器；A support base, one side of the support base is fixed with a clamping portion, the clamping portion is movably clamped between the pair of mirror frames, the support base is provided with an accommodating space and a corresponding first opening and a second opening, a microcontroller is arranged in the accommodating space;四个警示灯，该每一警示灯电性连接该微控制器，其中两个警示灯固设于该支撑座的表面一侧，另外两个警示灯固设于该支撑座的表面另一侧；Four warning lights, each of which is electrically connected to the microcontroller, two of which are fixed on one side of the surface of the support base, and the other two are fixed on the other side of the surface of the support base ;一第一近眼光学装置，经由一第一嵌合部活动嵌合于该第一开口，该第一近眼光学装置上设有一朝向该其中一镜框的第一摄像镜头；A first near-eye optical device is movably fitted in the first opening via a first fitting portion, and a first camera lens facing one of the frames is provided on the first near-eye optical device;一第二近眼光学装置，经由一第二嵌合部活动嵌合于该第二开口，该第二近眼光学装置上设有一朝向该其中另一镜框的第二摄像镜头，该第一摄像镜头与该第二摄像镜头电性连接一智能眼镜的主机中的处理器，且该处理器与微控制器电性连接。A second near-eye optical device is movably fitted in the second opening via a second fitting part, and a second camera lens facing the other frame is provided on the second near-eye optical device, and the first camera lens and The second camera lens is electrically connected to a processor in a host of smart glasses, and the processor is electrically connected to a microcontroller.2.根据权利要求1所述的智能眼镜，其特征在于，该微控制器电性连接一发声元件。2. The smart glasses according to claim 1, wherein the microcontroller is electrically connected to a sound-generating element.3.根据权利要求1所述的智能眼镜，其特征在于，该第一摄像镜头与该第二摄像镜头为感光耦合元件或图像传感器。3 . The smart glasses according to claim 1 , wherein the first camera lens and the second camera lens are photosensitive coupling devices or image sensors.4.一种智能眼镜，其特征在于，包含：4. A kind of smart glasses, is characterized in that, comprises:一眼镜本体，设有两个镜框与两个侧边镜架；A glasses body with two frames and two side frames;一支撑座，该支撑座的一侧边固设有一夹持部，该夹持部活动夹持于该对镜框之间，该支撑座设有一容置空间及其相对应的一第一开口与一第二开口，该容置空间内设有一微控制器、一第一微型马达与一第二微型马达，该第一微型马达与该第二微型马达固设于该容置空间的两个相对侧，且该第一微型马达与该第二微型马达电性连接该微控制器，该第一微型马达连接一第一齿轮，该第二微型马达连接一第二齿轮，该微控制器电性连接一控制钮，该控制钮固设于该支撑座表面一端；A support base, one side of the support base is fixed with a clamping portion, the clamping portion is movably clamped between the pair of mirror frames, the support base is provided with an accommodating space and a corresponding first opening and A second opening, a microcontroller, a first micro-motor and a second micro-motor are arranged in the accommodating space, the first micro-motor and the second micro-motor are fixed on two opposite sides of the accommodating space side, and the first micro-motor and the second micro-motor are electrically connected to the microcontroller, the first micro-motor is connected to a first gear, the second micro-motor is connected to a second gear, and the microcontroller is electrically a control button is connected, and the control button is fixed on one end of the surface of the support seat;一第一近眼光学装置，经由一第一嵌合部活动嵌合于该第一开口，该第一嵌合部一侧面设有一第一齿条，该第一齿条活动轴接于该第一齿轮；A first near-eye optical device is movably fitted in the first opening via a first fitting part, and a side surface of the first fitting part is provided with a first rack, and the first rack is movable and connected to the first gear;一第二近眼光学装置，经由一第二嵌合部活动嵌合于该第二开口，该第二嵌合部的一侧面设有一第二齿条，该第二齿条活动轴接于该第二齿轮，该第一近眼光学装置上设有一朝向该其中一镜框的第一摄像镜头，该第二近眼光学装置上设有一朝向该其中另一镜框的第二摄像镜头，该第一摄像镜头与该第二摄像镜头电性连接一智能眼镜的主机中的处理器，且该处理器与微控制器电性连接。A second near-eye optical device is movably fitted in the second opening via a second fitting part, and a second rack is provided on one side of the second fitting part, and the movable shaft of the second rack is connected to the first Two gears, the first near-eye optical device is provided with a first camera lens towards the one of the frames, the second near-eye optical device is provided with a second camera lens towards the other frame, the first camera lens and the other frame The second camera lens is electrically connected to a processor in a host of smart glasses, and the processor is electrically connected to a microcontroller.5.根据权利要求4所述的智能眼镜，其特征在于，该第一摄像镜头与该第二摄像镜头为感光耦合元件或图像传感器。5 . The smart glasses according to claim 4 , wherein the first camera lens and the second camera lens are photosensitive coupling devices or image sensors.