CN210181301U - Augmented reality module and augmented reality glasses - Google Patents

Abstract

The utility model provides an augmented reality module and augmented reality glasses. The augmented reality module includes a fixed beam and at least one AR display assembly, wherein one end of the AR display assembly is connected to a first side surface of the fixed beam , the other end extends towards the direction perpendicular to the fixed beam; the first side of the fixed beam is also provided with several fixed structures. For consumers who wear glasses every day, when they need to experience the functions of augmented reality glasses, they only need to install the augmented reality module on the glasses they wear every day. There is no need to take off the glasses that are worn every day, and there is no need to configure additional glasses, which can greatly facilitate different consumers.

Description

Augmented reality module and augmented reality glasses

technical field

The utility model belongs to the technical field of smart glasses, in particular to an augmented reality module and augmented reality glasses.

Background technique

With the continuous development of computer technology and optical technology, technologies such as virtual reality and augmented reality have made rapid progress, and various types and forms of products are increasing day by day.

In the field of augmented reality glasses, various forms of glasses continue to emerge. However, due to differences in structural design, each form of glasses is usually an independent individual. For consumers who wear glasses every day, when they need to wear augmented reality glasses, they usually need to take off the glasses they wear every day, and then wear the augmented reality glasses separately. This brings great inconvenience to consumers.

Utility model content

The purpose of the utility model is to provide an augmented reality module and augmented reality glasses, which aim to solve the technical problem of inconvenience for consumers to wear augmented reality glasses under the prior art.

Some embodiments of the present application provide an augmented reality module, the augmented reality module includes a fixed beam and at least one AR display assembly, wherein one end of the AR display assembly is connected to the first side surface of the fixed beam, and the other end faces toward the fixed beam. extending in a direction perpendicular to the fixed beam;

Several fixing structures are also arranged on the first side of the fixed beam.

Optionally, the fixing structure includes a fixing slot protruding from the first side surface; or,

The first side surface is provided with a positioning groove extending along the length direction of the fixing beam, and the fixing structure includes a fixing buckle arranged in the positioning groove.

Optionally, the fixed beam is a rectangular parallelepiped structure,

Several operation buttons are arranged on the second side of the fixed beam, wherein the second side is opposite to the first side.

Optionally, at least one camera is further included, and the camera is disposed on the third side surface between the first side surface and the second side surface.

Optionally, the augmented reality module further includes a fixing buckle, the first end of the fixing buckle is connected to one side of the fixing groove on the lower side of the fixing beam through the rotation shaft, and the second end is connected by the positioning protrusion. The positioning recess is snapped to the other side of the fixing groove.

Optionally, the width of the fixing groove is greater than the width of the fixing structure.

Optionally, the fixing buckle includes a positioning platform and a positioning recess located between the first end and the second end;

The positioning platform is close to the first end, and a smooth slope is set between one side of the positioning platform and the first end;

The positioning recess is a V-shaped groove with arc surfaces on both sides, one side of which is connected to the other side of the positioning platform, and the positioning protrusion is provided on the outside of the other side;

Wherein the positioning recess and the first end are located on the same side of the positioning platform.

Other embodiments of the present application provide augmented reality glasses, the augmented reality glasses include a glasses body and an augmented reality module, the glasses body includes temples, a frame and lenses, and the augmented reality module has any of the features of the present application The structure described by the augmented reality module;

The augmented reality module is detachably connected to the mirror frame through a fixed structure.

Optionally, the augmented reality glasses further include a fixing buckle, the fixing buckle is sleeved on the frame part between the two nose pads and is clamped into the fixing groove of the augmented reality module.

Optionally, the AR display assembly is located outside the lens and extends in a direction parallel to the lens.

For consumers who wear glasses every day, when they need to experience the functions of augmented reality glasses, they only need to install the augmented reality module on the glasses they wear every day. There is no need to take off the glasses that are worn every day, and there is no need to configure additional glasses, which can greatly facilitate different consumers.

Description of drawings

1-3 are schematic structural diagrams of augmented reality modules according to some embodiments of the present invention;

4 is a schematic structural diagram of a fixing buckle in some embodiments of the present invention;

5-6 are schematic structural diagrams of augmented reality glasses according to some embodiments of the present invention;

10-Augmented reality module, 11-fixed beam, 12-AR display assembly, 13-fixed structure, 14-camera, 15-fixed buckle, 151-rotating shaft, 152-positioning protrusion, 153-positioning platform, 154- V-groove, 16-operation buttons, 17-fixed groove, 20-augmented reality glasses, 21-arms, 22-frame, 23-lens.

Detailed ways

In order to make the purpose, technical solutions and advantages of the present utility model more clearly understood, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain the present invention, and are not intended to limit the present invention.

The definition is as follows: when the user wears augmented reality glasses, the side close to the user's face is the inner side, and the side far from the user's face is the outer side.

Some embodiments of the present application provide an augmented reality module, as shown in FIGS. 1-3 , comprising a fixed beam 11 and at least one AR display assembly 12 , wherein one end of the AR display assembly 12 is connected to the first side of the fixed beam 11 , and the other One end extends in a direction perpendicular to the fixed beam 11 ; wherein, a plurality of fixing structures 13 are also provided on the first side of the fixed beam 11 .

1-3, the first side is the lower side of the fixed beam 11, and the lower side of the fixed beam 11 is provided with several fixing structures 13, these fixing structures can install the augmented reality module to other devices to achieve corresponding functions.

The fixing structures may be uniformly arranged or non-uniformly arranged.

In FIGS. 1-3 , one end of the AR display assembly 12 is connected to the junction of the lower side and the outer side of the fixed beam 11 , and the other end extends downward; in other embodiments, one end of the AR display assembly 12 may only be connected to the fixed beam 11 . On the lower side of the beam, the other end extends downward.

The AR display assembly in the embodiment of the present application may include a main optical assembly and a display assembly that implement an augmented reality function, such as an opto-mechanical. There may be one or two AR display components in this embodiment of the present application.

Referring to FIG. 2 , the fixing structure is a fixing slot 13 protruding from the first side surface. The fixing slot 13 includes two side walls arranged opposite to each other, and the two side walls can be made of elastic materials.

In other embodiments, the first side surface may be provided with a through groove (not shown in the figure) extending along the length of the fixed beam 11 , for example, the through groove runs through the entire length of the fixed beam 11 . At this time, the fixing structure may include a fixing buckle (not shown in the figure) arranged in the through groove.

In this application, the fixed beam 11 may be a cylindrical structure or a rectangular parallelepiped structure.

Taking the fixed beam 11 as an example of a cuboid structure, the second side of the fixed beam 11 can be provided with several operation buttons 16 , wherein the second side is opposite to the first side. That is, several operation buttons 16 can be provided on the upper side of the fixed beam 11 . Of course, the operation buttons 16 may also be arranged on the outer side surface or the side surfaces of both ends of the fixed beam 11 , which are all within the protection scope of the present application. These operation keys may include, for example, a power key, a volume key, a camera control key, and the like.

In some embodiments, the augmented reality module 10 may further include at least one camera 14, and the camera 14 may be disposed on the third side between the first side and the second side. When the first side is the lower side and the second side is the upper side, the third side is the outer side. Wherein, a camera 14 may be arranged at the center position of the outer side surface of the fixed beam 11 .

In the above embodiment, the fixed beam 11 may be a hollow structure with a cavity inside, and a control module and a power supply module of the augmented reality glasses such as a processor and a battery may be arranged inside the cavity.

The augmented reality module provided by the above-mentioned embodiments of the present application has a basic functional module for realizing augmented reality functions, and a detachable fixing structure is provided on one side thereof, which can be conveniently connected to different types of glasses through the detachable fixing structure to realize Augmented reality glasses feature. The structure is simple and the design is ingenious, which can meet the compatibility requirements of most glasses.

For consumers who wear glasses every day, when they need to experience the functions of augmented reality glasses, they only need to install the augmented reality module on the glasses they wear every day. There is no need to take off the glasses that are worn every day, and there is no need to configure additional glasses, which can greatly facilitate different consumers.

In some embodiments, the augmented reality module in the present application may further include a fixing buckle 15 , as shown in FIGS. 3 and 4 , and correspondingly, a fixing groove is provided on the first side (eg, the lower side) of the fixing beam 11 . The fixing buckle 15 can be rotatably connected to the lower side of the fixed beam through a rotating shaft, for example, rotatably connected to the center position of the lower side of the fixed beam.

Specifically, the fixing buckle may be an S-shaped structure, the first end of the fixing buckle 15 is connected to one side of the fixing groove through the rotation of the rotating shaft, and the second end is clamped to the positioning recess on the other side of the fixing groove through the positioning protrusion 152 slot (not shown in the figure). The fixing buckle 15 includes a positioning platform 153 and a positioning recess 154 located between the first end and the second end; the positioning platform 153 is close to the first end, and a smooth slope is set between the first end and one side of the positioning platform 153; positioning The recess 154 is a V-shaped groove with arc surfaces on both sides, one side is connected to the other side of the positioning platform 153 , and a positioning protrusion 152 is provided on the outside of the other side. The positioning recess and the first end are located on the same side of the positioning platform.

It should be noted that, in the embodiment of the present application, the width of the fixing groove 17 may be greater than the width of the fixing structure 13 . When the augmented reality module and the mirror frame are detachably connected, the fixing structure 13 clamps the mirror frame from both sides; after the positioning platform of the fixing buckle 15 is in contact with the mirror frame, the positioning protrusion on the outer side of the positioning recess is clamped into the fixing groove on the other side. Locate depressions.

Other embodiments of the present application provide augmented reality glasses, as shown in FIGS. 5 and 6 , the augmented reality glasses include a glasses body and an augmented reality module, wherein the glasses body includes temples 21 , a frame 22 and lenses 23 , and the augmented reality glasses The module 10 has the structure described in any of the above embodiments; the augmented reality module 10 is detachably mounted on the mirror frame 22 through the fixing structure.

In the above augmented reality glasses, the AR display component is located outside the lens 23 and extends downward along a direction parallel to the lens 23 .

In some embodiments, the augmented reality glasses 20 may further include a fixing buckle 15 . The fixing buckle 15 is sleeved on the frame portion between the two nose pads and is clamped into the fixing groove on the first side of the augmented reality module 10 . After the augmented reality module is fixed on the top of the mirror frame through the fixing structure, the mirror frame is then fixed into the fixing slot of the augmented reality module through the fixing buckle, which can double guarantee the installation and fixation of the augmented reality module and the mirror frame.

Specifically, the fixing buckle is an S-shaped structure, the first end of the fixing buckle 15 is connected to one side of the fixing groove on the fixing beam 11 through the rotating shaft, and the second end is clamped to the other side of the fixing groove through the positioning protrusion 152 side positioning grooves (not shown in the figure). The fixing buckle 15 includes a positioning platform 153 and a positioning recess 154 located between the first end and the second end; It is a smooth inclined surface; the positioning recess 154 is a V-shaped groove with arc surfaces on both sides, one side is connected to the other side of the positioning platform 153, and a positioning protrusion 152 is provided on the outside of the other side.

The fixed buckle 15 is rotatably connected to the fixed beam through a rotating shaft. During the assembly process, the augmented reality module is installed with the mirror frame through the fixed structure; after that, the positioning platform of the fixed buckle is contacted with the mirror frame, the fixed buckle is pressed, and the positioning protrusion is pressed in by the elastic action of the V-shaped groove of the fixed buckle. Fix the positioning groove inside the beam to achieve double protection for detachable installation. During the disassembly process, press the fixed buckle, and remove the positioning protrusion from the positioning groove inside the fixed beam with the help of the elastic effect of the V-shaped groove of the fixed buckle to release the limiting effect of the fixed buckle on the frame; Take it out from the structure, so as to realize the separation of the augmented reality module and the mirror frame.

The above are only some embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present utility model shall be included in the present utility model. within the scope of the new protection.

Claims (10)

1. An augmented reality module is characterized by comprising a fixed cross beam and at least one AR display component, wherein one end of the AR display component is connected to a first side face of the fixed cross beam, and the other end of the AR display component extends towards a direction perpendicular to the fixed cross beam;

the first side of the fixed cross beam is also provided with a plurality of fixed structures.

2. Augmented reality module according to claim 1,

the fixing structure comprises a fixing clamping groove protruding out of the first side face; or,

the first side sets up and follows the constant head tank that fixed cross beam length direction extends, fixed knot constructs including set up in fixed knot in the constant head tank.

3. The augmented reality module of claim 1, wherein the fixed beam is a cuboid-shaped structure,

the second side surface of the fixed cross beam is provided with a plurality of operation keys, wherein the second side surface is opposite to the first side surface.

4. The augmented reality module of claim 3, further comprising at least one camera disposed on a third side between the first and second sides.

5. The augmented reality module of any one of claims 1-4, further comprising a fixing buckle, wherein a first end of the fixing buckle is rotatably connected to one side of a fixing groove on the lower side of the fixing beam through a rotating shaft, and a second end of the fixing buckle is clamped to a positioning recess on the other side of the fixing groove through a positioning protrusion.

6. The augmented reality module of claim 5, wherein the width of the securing slot is greater than the width of the securing structure.

7. The augmented reality module of claim 6, wherein the fixed clasp comprises a positioning platform and a positioning recess between the first end and the second end;

a smooth inclined surface is arranged between the positioning platform and the first end, which is close to the first end, and one side edge of the positioning platform;

the positioning recess is a V-shaped groove with two arc-shaped surfaces, one side surface of the positioning recess is connected to the other side edge of the positioning platform, and the positioning protrusion is arranged outside the other side surface;

wherein the positioning recess and the first end are located on the same side of the positioning platform.

8. Augmented reality glasses, characterized in that the augmented reality glasses comprise a glasses body and an augmented reality module, wherein the glasses body comprises glasses legs, a glasses frame and lenses, and the augmented reality module is the augmented reality module of any one of the preceding claims 1-7;

wherein the augmented reality module is detachably connected to the mirror frame through a fixing structure.

9. The augmented reality glasses of claim 8 further comprising a fixing buckle, wherein the fixing buckle is sleeved on the frame part between the two nose pads and is clamped into the fixing groove of the augmented reality module.

10. The augmented reality glasses of claim 8 wherein the AR display component is located outside the lens and extends in a direction parallel to the lens.

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