CN211236453U - Consumption level AR intelligence glasses - Google Patents

Abstract

The utility model discloses a consumption level AR intelligence glasses aims at providing one kind and just can see the film and play the recreation as long as wear glasses, need not the consumption level AR intelligence glasses of cell-phone of holding in both hands. It includes the casing, the lateral surface of casing is provided with the external tapping, the rear surface mounting of casing has the display screen module, the display screen module is connected with the external tapping electricity, the front surface mounting of casing has image acquisition module, the inside sensor that is fixed with of casing, image acquisition module and sensor all are connected with the external tapping electricity, the inside data processing module that is fixed with of casing, image acquisition module and sensor all are connected with the data processing module electricity. The utility model has the advantages that: the user can watch the film only by wearing the glasses, so that the traditional mode that the user holds the mobile phone by two hands is liberated; the whole design is light, and the head can be worn without being tired; the double-camera design creates a very good development environment for background APP application.

Description

Consumption level AR intelligence glasses

Technical Field

The utility model belongs to the technical field of the relevant technique of glasses and specifically relates to indicate a consumption level AR intelligence glasses.

Background

With the development of computer technology, augmented reality technology is a technology for calculating the position and angle of a camera image in real time and adding a corresponding image, and the technology aims to sleeve a virtual world on a screen in the real world and interact with the virtual world, and the technology is proposed earliest in 1990. Along with the improvement of the operational capability of portable electronic products, the application of augmented reality is wider and wider. At present, when people watch movies and play games with mobile phones, the traditional mode of holding the mobile phones with two hands is still kept, which is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome and play the recreation with the cell-phone among the prior art and when watching the film, need take the cell-phone in hand not enough, provide one kind as long as wear glasses and just can see the film and play the recreation, need not the consumption level AR intelligent glasses that the cell-phone was held to both hands.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a consumption level AR intelligence glasses, includes the casing, the lateral surface of casing is provided with the external tapping, the rear surface mounting of casing has the display screen module, the display screen module is connected with the external tapping electricity, the preceding surface mounting of casing has image acquisition module, the inside sensor that is fixed with of casing, image acquisition module and sensor all are connected with the external tapping electricity, the inside data processing module that is fixed with of casing, image acquisition module and sensor all are connected with the data processing module electricity.

The outer side surface of the shell is provided with an external interface, the rear surface of the shell is provided with a display screen module, the front surface of the shell is provided with an image acquisition module, the interior of the shell is fixedly provided with a sensor, the image acquisition module and the sensor are both electrically connected with the external interface, the interior of the shell is fixedly provided with a data processing module, the image acquisition module and the sensor are both electrically connected with the data processing module, the external interface is connected with a mobile phone through a tpye-c wire, when the tpye-c is plugged, glasses can automatically synchronize with the pictures of the mobile phone, the FOV is displayed into a 50-degree high-definition picture, the tpye-c wire is very soft and thin, the wire is 3mm in size under the condition of not influencing signals, the audio of the transmitted image is stable, no noise exists, the image can not shake, the display screen module is used for acquiring the images of the mobile phone, the images, the display screen frame rate is fast, and image acquisition module is two cameras and gathers the image design, and the sensor uses nine sensors, and nine sensors are respectively: triaxial gyroscope, triaxial accelerometer, triaxial magnetic inductor, the sensor has cooperated backstage software APP algorithm, APP software functionality is more powerful, when playing game or other APP applications, can the depth detection, the head is trailed, for example, the head moves tracking from top to bottom and moves, combine APP software to realize powerful application scene, data processing module mainly used handles the image that image acquisition module gathered and the data that the sensor gathered, the capital equipment is the CPU treater, this module can deploy at server or little computer, this glasses adopts the shell of independently researching and developing design, 0.39 cun display screen module in the Jing east, data processing chip, sensor chip, the hardware circuit board of independently designing, the integration is together, overall design is lighter, wear to remove the head, can not be tired.

Preferably, the display screen module comprises a display screen body, the display screen module is electrically connected with the external interface, a display screen mounting groove matched with the display screen body is arranged in the shell, the display screen body is mounted in the display screen mounting groove, the back side wall of the display screen mounting groove is provided with a glass mounting groove matched with the display screen body, a glass lens is mounted in the glass mounting groove, the back surface of the shell is provided with a first sponge body frame which is fixed outside the glass mounting groove, an experiencer can observe the image of the display screen through the glass lens after wearing glasses, can increase experience person's comfort, the display screen body uses the smallest Beijing east display screen in China, and 0.39 cun 1920X1080 resolution ratio display screen module is the minimum in China, and the display screen that resolution ratio is high shows the picture high definition, and color saturation is very good, and the picture colour is more true.

As preferred, the inside signal converter that is provided with of casing, signal converter's one end and external interface electricity are connected, signal converter's the other end and display screen body electricity are connected, signal converter gathers the cell-phone image and converts high-speed mipi signal into through the DP signal, image display is more high-definition, the display screen frame rate is fast, cell-phone image transmission uses advanced hardware decoding mode, need not to install APP software in the cell-phone, as long as insert the cell-phone just can go out the image, it is simple and convenient to use, it gets into the hands very easily to operate for the consumer.

As preferred, the lower surface of casing is equipped with the nose and holds in the palm, the middle and back portion at the casing lower surface is fixed to the nose support, the both sides of casing rear surface all are equipped with the mirror leg, the one end and the casing fixed connection of mirror leg, the inside of the mirror leg other end is fixed with the speaker, the side of mirror leg be fixed with speaker assorted cavernosum frame two, the nose holds in the palm and is used for fixed glasses, the speaker adopts high definition audio digital signal I2S audio frequency, the sound of high definition audio digital signal I2S audio frequency is clear to be passed through and not have the noise, tone quality sounds clearly to pass through, cavernosum frame two can increase experience.

Preferably, a hub is arranged in the shell, the hub is electrically connected with an external interface, the image acquisition module, the sensor and the loudspeaker are all electrically connected with the hub, the hub adopts a model of USB2.0HUB, and one USB interface can be expanded into a plurality of USB interfaces.

Preferably, the data processing module comprises a singlechip, the image acquisition module comprises a first camera and a second camera, the first camera and the second camera are respectively arranged at two sides of the front surface of the shell, the first camera and the second camera are both electrically connected with the singlechip, the first camera and the second camera are both electrically connected with the concentrator, the singlechip adopts STM32F103CBT 632-bit high-performance MCU processing equipment with the working frequency up to 72MHz, the STM32F103CBT6 MCU is used for managing the whole glasses software operating logic, a display screen driving program and nine-axis sensor driving, the mobile phone communication adopts a high-speed USB interface, the first camera is a 500W RGB camera, the second camera is a 200W RGB camera, objects are identified by photographing, the speed is high, high-definition images are collected, the single chip microcomputer processes the images collected by the first camera and the second camera, the SLAM depth collection algorithm collects the current depth distance by using the double cameras, and the positioning tracking is carried out by combining a nine-axis sensor.

The utility model has the advantages that: the user can watch the film only by wearing the glasses, so that the traditional mode that the user holds the mobile phone by two hands is liberated; the whole design is light, and the head can be worn without being tired; the double cameras are designed to be background APP, so that a very good development environment is created; the whole hardware design circuit board is smaller, the hardware design is more challenging, and the PCB circuit board is smaller in design and strong in stability performance under the condition of ensuring complete functions; the minimum 0.39 inch display screen is used, the resolution is up to 1920X1080, and the display screen belongs to the minimum display screen with high resolution in China.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a structural connection diagram of the present invention.

In the figure: 1. the mobile phone comprises an external interface, a shell, a concentrator, an image acquisition module, a camera I, a camera 6, a data processing module, a single chip microcomputer 7, a sensor 8, a camera II, a display screen module 10, a display screen body 11, a display screen installation groove 12, a glass installation groove 13, a glass lens 14, a sponge body frame I, a nose support 16, a sponge body frame II, a loudspeaker 18, a loudspeaker 19, a glasses leg 20 and a signal converter.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

In the embodiment shown in fig. 1 and 2, the consumer-grade AR smart glasses comprise a shell 2, an external interface 1 is arranged on the outer side surface of the shell 2, a display screen module 10 is mounted on the rear surface of the shell 2, the display screen module 10 is electrically connected with the external interface 1, an image acquisition module 4 is mounted on the front surface of the shell 2, a sensor 8 is fixed inside the shell 2, the image acquisition module 4 and the sensor 8 are both electrically connected with the external interface 1, a data processing module 6 is fixed inside the shell 2, and the image acquisition module 4 and the sensor 8 are both electrically connected with the data processing module 6.

As shown in fig. 1, the display screen module 10 includes a display screen body 11, a display screen mounting groove 12 matched with the display screen body 11 is arranged inside the casing 2, the display screen body 11 is installed in the display screen mounting groove 12, a glass mounting groove 13 matched with the display screen body 11 is arranged on the rear side wall of the display screen mounting groove 12, a glass lens 14 is installed in the glass mounting groove 13, a first sponge frame 15 is arranged on the rear surface of the casing 2, and the first sponge frame 15 is fixed outside the glass mounting groove 13.

As shown in fig. 1 and 2, a signal converter 20 is disposed inside the housing 2, one end of the signal converter 20 is electrically connected to the external interface 1, and the other end of the signal converter 20 is electrically connected to the display screen body 11.

As shown in fig. 1, a nose support 16 is arranged on the lower surface of the casing 2, the nose support 16 is fixed on the middle rear part of the lower surface of the casing 2, both sides of the rear surface of the casing 2 are provided with temples 19, one end of each of the temples 19 is fixedly connected with the casing 2, a loudspeaker 18 is fixed inside the other end of each of the temples 19, and two sponge frames 17 matched with the loudspeaker 18 are fixed on the side surfaces of the temples 19.

As shown in fig. 1 and 2, a hub 3 is disposed inside the housing 2, the hub 3 is electrically connected to the external interface 1, and the image capture module 4, the sensor 8, and the speaker 18 are electrically connected to the hub 3.

As shown in fig. 1 and 2, the data processing module 6 comprises a single chip microcomputer 7, the image acquisition module 4 comprises a first camera 5 and a second camera 9, the first camera 5 and the second camera 9 are respectively installed on two sides of the front surface of the shell 2, the first camera 5 and the second camera 9 are electrically connected with the single chip microcomputer 7, and the first camera 5 and the second camera 9 are electrically connected with the concentrator 3.

When an experiencer wants to watch a movie by using the product, only the mobile phone is required to be provided with a tpye-c 3.1 interface dp for signal output, and when the tpye-c is inserted into the external interface 1, the glasses can automatically synchronize with a mobile phone picture to display a 50-degree FOV high-definition picture. The high-speed mipi signal converted by the signal converter 20 has the advantages of higher image display definition and high display screen frame rate, and can bring better film watching experience to the experiencer.

When experiencer wants to play gesture recognition game with this product, can follow tracks through sensor 8 degree of depth detection head, for example the head moves about from top to bottom and tracks, combines APP software to realize powerful application scene. And the first camera 5 and the second camera 9 in the image acquisition module 4 can acquire gesture images and send the gesture images to the single chip microcomputer 7 in the data processing module 6, gesture algorithm is carried out, the current gesture is analyzed, and a more real scene is experienced in the AR glasses. The single chip microcomputer 7 adopts an SLAM depth acquisition algorithm, acquires the current depth distance by utilizing the first camera 5 and the second camera 9, and performs positioning tracking by combining the sensor 8, so that a more excellent environment is created for APP background software development, and more real experience is brought to testers.

Claims (6)

1. The utility model provides a consumer-grade AR intelligence glasses, characterized by, includes casing (2), the lateral surface of casing (2) is provided with external tapping (1), the rear surface mounting of casing (2) has display screen module (10), display screen module (10) and external tapping (1) electricity are connected, the preceding surface mounting of casing (2) has image acquisition module (4), casing (2) inside is fixed with sensor (8), image acquisition module (4) and sensor (8) all are connected with external tapping (1) electricity, casing (2) inside is fixed with data processing module (6), image acquisition module (4) and sensor (8) all are connected with data processing module (6) electricity.

2. The consumer-grade AR intelligent glasses according to claim 1, wherein the display screen module (10) comprises a display screen body (11), a display screen mounting groove (12) matched with the display screen body (11) is formed in the shell (2), the display screen body (11) is mounted in the display screen mounting groove (12), a glass mounting groove (13) matched with the display screen body (11) is formed in the rear side wall of the display screen mounting groove (12), glass lenses (14) are mounted in the glass mounting groove (13), a sponge frame I (15) is arranged on the rear surface of the shell (2), and the sponge frame I (15) is fixed outside the glass mounting groove (13).

3. The consumer-grade AR smart glasses according to claim 2, wherein a signal converter (20) is arranged inside the shell (2), one end of the signal converter (20) is electrically connected with the external interface (1), and the other end of the signal converter (20) is electrically connected with the display screen body (11).

4. The consumer-grade AR intelligent glasses according to claim 1, wherein a nose support (16) is arranged on the lower surface of the shell (2), the nose support (16) is fixed to the middle rear portion of the lower surface of the shell (2), glasses legs (19) are arranged on two sides of the rear surface of the shell (2), one ends of the glasses legs (19) are fixedly connected with the shell (2), a loudspeaker (18) is fixed to the inner portion of the other end of each glasses leg (19), and a second sponge frame (17) matched with the loudspeaker (18) is fixed to the side faces of each glasses leg (19).

5. The consumer-grade AR smart glasses according to claim 4, wherein a hub (3) is arranged inside the shell (2), the hub (3) is electrically connected with the external interface (1), and the image acquisition module (4), the sensor (8) and the speaker (18) are electrically connected with the hub (3).

6. The consumer-grade AR intelligent glasses according to claim 5, wherein the data processing module (6) comprises a single chip microcomputer (7), the image acquisition module (4) comprises a first camera (5) and a second camera (9), the first camera (5) and the second camera (9) are respectively installed on two sides of the front surface of the shell (2), the first camera (5) and the second camera (9) are both electrically connected with the single chip microcomputer (7), and the first camera (5) and the second camera (9) are both electrically connected with the concentrator (3).

Images