CN210691256U - Wearing equipment that display mode switches - Google Patents

Abstract

The utility model discloses a wearing equipment that display mode switches, including wearing glasses, wearing glasses is including wearing the picture frame and locating dress the display screen on the picture frame, be equipped with the treater in wearing glasses, it is equipped with the camera to wear glasses in front, be equipped with orientation module on wearing glasses. The utility model discloses a wearing preceding camera that is equipped with of glasses, the image of shooting through the camera is passed back to the treater, and rethread display screen shows, and the treater is simultaneously as required control display screen display's content, through orientation module, can arrive the position of certain settlement just can be through the automatic fast switch-over that carries out AR and VR or live action image of treater according to wearing glasses to improve wearing equipment's performance.

Description

Wearing equipment that display mode switches

Technical Field

The utility model relates to a wearing equipment technical field, in particular to wearing equipment that display mode switches.

Background

Vr (virtual reality), which is a virtual world with three-dimensional visual sense, and is simulated by various intelligent technologies to provide a simulation environment based on visual sense for a user, so that the user can view a virtual scene in a three-dimensional space as if he were personally on the scene. AR (augmented reality), namely, the augmented reality, superimposes information generated by equipment to the vision of a real environment through various intelligent technologies, and greatly expands the way of information interaction and communication of a man-machine system. With the development of virtual reality technology and augmented reality technology, more and more VR and AR devices appear, wherein some wearing devices applied to mobile phones develop rapidly due to higher cost performance and stronger practicability. However, the switching control of AR/VR is performed manually, for example, AR/VR cannot be performed by an observed object, which is inconvenient to operate, and the switching time is long, which affects the experience, thereby reducing the usability of the wearable device.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a wearing equipment that display mode switches, solved the problem that wearing equipment performance is low.

Aiming at the defects of the prior art, the utility model aims to make AR and VR widely used, for example, in a large area; for example, the glasses equipment can be worn for a long time and even all the weather.

Augmented reality technology, AR for short. Virtual reality technology, VR for short.

This equipment is including wearing glasses, and it has the camera to dress glasses position in the place ahead, and the image that the camera will shoot passes back the treater, and treater rethread wears glasses and is located the display screen display in people's eyes the place ahead and shows, and the treater is simultaneously as required control display screen display's content.

The wearable glasses are internally provided with a positioning module, and the switching is based on position information, and the display mode switching is carried out when a certain position is reached.

Or a position switch is arranged in the wearing glasses, and the display modes are switched when a certain position is reached.

Or a wireless sensor is arranged in the wearing glasses, and switching is carried out when something is detected;

or wear to be equipped with proximity sensor in the glasses, approached and just switched:

or a distance sensor is arranged in the wearable glasses, and the distance between the wearable glasses and the object is detected to be switched.

Or the switching is based on the view seen by the camera, e.g. a door is seen. Entering the pulled curtain; or into the smoke.

Or the switching is based on the brightness of the human body at the periphery. When the processor detects that the surroundings are dark or the brightness of the surroundings of a person is very low through the wearing glasses camera, the AR is switched to the VR. Switching may be triggered by turning off the light or by transporting a person from light to dark. When the front or periphery is bright, the VR switches back to AR.

Or when the person walks, the sensor on the wearing glasses senses the vibration with a certain amplitude, and the live-action shot by the camera is only completely played on the display screen.

Has the advantages that: the equipment for switching the display modes more reasonably is provided, and the applications of AR and VR are wide.

Drawings

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

Fig. 2 is a schematic view of a main view structure of an embodiment of the display mode switching wearable device of the present invention.

Figures and their description:

1. AR, 2, a processor, 3, VR, 4 and wearable glasses; 5. a display screen; 6. a camera is provided.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The display screen switches to display the live-action image, the AR image or the VR image.

Referring to fig. 1-2, the utility model provides a pair of wearing equipment that display mode switches, including wearing glasses 4, wear glasses 4 including wearing the picture frame and locating display screen 5 on the picture frame is dressed, be equipped with treater 2 in wearing glasses 4, 4 front sides of wearing glasses are equipped with camera 6.

This technical scheme is through being equipped with camera 6 in wearing 4 front of glasses, and the image of shooting through camera 6 returns to the treater, and 5 demonstration of rethread display screens come out, and the treater is simultaneously as required control display screen 5 content that shows, observes appointed object just can carry out AR 1 and VR 3's fast switch-over through the treater is automatic through the camera to improve wearing equipment's performance.

The switching between AR and VR may be based on the brightness of the ambient light at the person's location. When the processor detects that the surroundings are dark or the brightness of the surroundings of a person is very low through the camera 6, the AR is switched to the VR; switching can be triggered by turning off the light or by transporting a person from a light location to a dark location, and switching back to AR from VR when there is light on the front or periphery. Or AR and VR are switched based on what is seen by the camera 6, e.g. seeing a door, into a curtain pulled open or into smoke.

Wearing glasses contain thereby can detect the peripheral luminance in person department sensor and treater that switches AR, VR.

And a positioning module is arranged on the wearable glasses 4. Through the orientation module, can just can be through the automatic fast switch-over that carries out AR and VR of treater according to wearing glasses and arriving certain position of setting to improve wearing equipment's performance.

And a proximity sensor is arranged on the wearable glasses 4. When the detection object approaches, the AR and the VR are switched according to the set instruction, the detection object is not abraded or damaged, the detection object can be used in the environment of water, oil and the like, and the detection effect is not influenced by dirt of the detection object, oil, water and the like.

And wireless sensors are arranged on the wearable glasses 4. Switching between AR and VR is performed upon detection of an object set by the device.

And the wearable glasses 4 are provided with vibration sensors. When people walk, the vibration sensor detects vibration with a certain amplitude, and the real scene shot by the camera is only completely played on the display screen.

Distance sensors are arranged on the wearable glasses 4. AR and VR switching is performed upon detecting a predetermined distance from the object.

This equipment is located the place ahead and has the camera including wearing glasses, and the image that the camera will shoot passes processor 2 back, and the display screen that the treater rethread worn glasses and is located people's eyes the place ahead shows, and the content that the display screen shows is controlled simultaneously as required to the treater.

The wearable glasses are internally provided with a positioning module, the switching is based on position information, and AR 1 and VR3 are switched when the glasses reach a certain position.

Or a position switch is arranged in the wearable glasses, and switching between AR and VR is carried out when a certain position is reached.

Or wear and be equipped with wireless sensor in the glasses, detected the object that equipment set for just switch.

Or wear and be equipped with proximity sensor in the glasses, the sensing equipment who has fixed in advance in having close the surrounding environment just switches:

or a distance sensor is arranged in the wearable glasses, and switching is performed when a preset distance from an object is detected.

Or the switching is based on the preset scene of the equipment seen by the camera, such as seeing a door; entering the pulled curtain; into the smoke.

Or the switching is based on the brightness of the human body at the periphery. When the processor detects that the surroundings are dark or the brightness of the surroundings of the person is very low through the sensor wearing the glasses, the AR is switched to the VR. Switching may be triggered by turning off the light or by transporting a person from light to dark. When the front or periphery is bright, the VR switches back to AR. Other sensors such as light sensitive sensors may also be used.

Or when the person walks, the wearing glasses sense the vibration with a certain amplitude, for example, the vibration sensor is used, and the real scene shot by the camera is only completely played on the display screen.

The switching is determined by the motion state of the person wearing the glasses device, and the wearing glasses device can be connected with a vibration sensor, an acceleration sensor and a displacement sensor for sensing, and the switching is determined according to the static state or the motion, the moving speed and the like of the person.

Or the switching is determined by the mode of travel of the person wearing the eyewear equipment, such as walking, cycling, sitting, driving.

There are various methods for determining the travel mode of the person wearing the glasses device, for example, images captured by a camera wearing the glasses device can be used for identification.

The display screen switches to display the live-action image, the AR image or the VR image.

The method can be simply implemented, the AR system also uses a display screen, the VR system also uses a display screen, the AR system and the VR system are both connected to the same display screen, in addition, the AR system and the VR system respectively have various components and are installed on the same wearable glasses equipment, the processor is connected with the AR system and a power line of the VR system, the processor is also connected with the camera and the display screen, the processor cuts off the power supply of the AR system which originally works after sensing that light is changed from light to dark through photosensitive sensors such as a photosensitive resistor and the like, and is switched on to switch on the power supply of the VR system, so that the AR system originally works and transmits the displayed content to the display screen, the VR system works and transmits the displayed content to the display screen, and when the VR system works, the VR system transmits the virtual scene stored in the VR system to the display screen. When the AR system works, the AR system can call the scene shot by the camera and process the scene to be displayed on the display screen.

To sum up, the utility model discloses a wearing preceding camera that is equipped with of glasses, the image of shooting through the camera returns to the treater, and rethread display screen shows, and the treater is control the content that the display screen shows as required simultaneously, through orientation module, can just can be through the automatic fast switch-over that carries out AR and VR of treater according to the position that wearing glasses reachd certain settlement to improve wearing equipment's performance.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (9)

1. The utility model provides a wearing equipment that display mode switches, its characterized in that, including wearing glasses, wearing glasses are including wearing the picture frame and locating display screen on the wearing picture frame, be equipped with the treater in the wearing glasses, the preceding camera that is equipped with of wearing glasses.

2. The wearing device for switching display modes according to claim 1, wherein: and the wearable glasses are provided with positioning modules.

3. The wearing device for switching display modes according to claim 1 or 2, wherein: and the wearable glasses are provided with proximity sensors.

4. The wearing device for switching display modes according to claim 1 or 2, wherein: the wearable glasses are provided with wireless sensors.

5. The wearing device for switching display modes according to claim 1 or 2, wherein: and the wearable glasses are provided with vibration sensors.

6. The wearing device for switching display modes according to claim 1 or 2, wherein: distance sensors are arranged on the wearable glasses.

7. The wearing device for switching display modes according to claim 1 or 2, wherein: the wearable glasses include a sensor for detecting the brightness of the light around the person.

8. The wearing device for switching display modes according to claim 1 or 2, wherein: the wearing glasses are provided with sensors for sensing the motion state of the person.

9. The wearing device for switching display modes according to claim 1 or 2, wherein: wearing glasses has the sensor of sensing people's mode of going out.

Images