AR display device and wearable device

文档序号:6804 发布日期:2021-09-17 浏览:57次 中文

1. An AR display device, comprising:

the host module comprises a first shell, and one end of the first shell is provided with a lens;

the display module comprises a display screen; and

the assembling component is used for rotatably connecting the display module to the host module;

and the included angle between the central axis of the lens and the plane where the surface of the display screen is located is in multi-degree-of-freedom adjustable arrangement.

2. The AR display device of claim 1,

the host module comprises a camera shooting part, and the camera shooting part is rotatably connected to the first shell;

the lens is a part of the image pickup part; the lens is arranged at one end of the first shell close to the display screen;

the included angle between the central axis of the lens and the plane where the bottom surface of the first shell is located is adjustable.

3. The AR display device of claim 1, wherein the mounting assembly comprises

The first damping piece penetrates through one side wall of the first shell; the inner side wall of the first damping part comprises a first cambered surface, and the outer side wall of the first damping part is fixed to the first shell;

the second damping part is annular, the inner side wall of the second damping part comprises a second cambered surface, and the second damping part is opposite to the first damping part; and

one end of the linkage shaft is fixedly connected to the display module, and the other end of the linkage shaft forms a spherical piece; the first damping piece and the second damping piece are sleeved outside the spherical piece, and the spherical body is abutted to the first cambered surface and/or the second cambered surface.

4. The AR display device of claim 3, wherein the mounting assembly further comprises

The adjusting nut is arranged between the host module and the display module; the adjusting nut comprises a screw hole which is sleeved outside the linkage shaft; one end of the screw hole is provided with an annular plate protruding out of the hole wall;

wherein a portion of the first damping member located outside the first housing is threadedly connected to the adjustment nut; one end of the second damping member is inserted into the first damping member, and the other end thereof is inserted into the screw hole and abuts against the annular plate.

5. The AR display device of claim 4, further comprising

The mounting groove is recessed in one side surface of the first shell; the bottom of the mounting groove is provided with a mounting through hole; the first damping piece is installed in the installation groove and the installation through hole; and

a fixing plate installed into the installation groove and connecting the first damping member to the first housing.

6. The AR display device of claim 5,

the first stop block protrudes out of the surface of the fixing plate; and

the second stop block protrudes out of the surface of one side, facing the first shell, of the adjusting nut;

the sum of the height of the first stop block and the height of the second stop block is greater than the distance between the fixing plate and the adjusting nut;

the orthographic projection of the second stop block and the first stop block are positioned on the same circumference;

the adjusting nut is provided with at least one adjusting hole for embedding the second stop block; the centers of the adjusting holes are positioned on the same circumference.

7. The AR display device of claim 3, wherein the mounting assembly further comprises

The limiting groove is recessed in the surface of the spherical piece; and

and the limiting part protrudes out of the inner side wall of the first damping part and extends into the limiting groove.

8. The AR display device according to claim 7, wherein a central angle corresponding to the opening width of the limiting groove is less than 60 degrees along the axial direction of the linkage shaft; and along the radial direction of the linkage shaft, the central angle corresponding to the opening length of the limiting groove is less than 120 degrees.

9. The AR display device of claim 7, wherein the position limiter is a threaded rod extending through a sidewall of the first damping member.

10. The AR display device of claim 3, wherein the mounting assembly comprises

The channel is arranged in the linkage shaft, and two openings of the channel are respectively arranged at two ends of the linkage shaft; and

and the wire bundle penetrates through the channel, one end of the wire bundle is connected to the first circuit board of the host module, and the other end of the wire bundle is connected to the second circuit board of the display module.

11. The AR display device of claim 3, wherein the mounting assembly comprises

The protective sleeve is positioned in the first shell and sleeved outside one end of the first damping piece; the protective sleeve is provided with a protective sleeve through hole; and

and the sealing ring is sleeved at the end part of the protective sleeve close to the first damping part.

12. The AR display device of claim 1, wherein the host module comprises

The first circuit board is arranged in the first shell, and a lens of the host module is electrically connected to the first circuit board; and

and the standby power supply module is arranged in the first shell and is electrically connected to the first circuit board.

13. The AR display device of claim 1, wherein the display module comprises

A second housing comprising

The rotating part is connected with the host module;

a display part for installing the display screen; and

a connecting part connecting the rotating part and the display part; the central plane of the display part and the central plane of the connecting part form an included angle of 0-70 degrees;

and the second circuit board is arranged in the second shell and is electrically connected to the display screen.

14. The AR display device of claim 13, wherein the display module comprises

And the microphone is arranged on the lower surface of the second shell.

15. The AR display device of claim 1, further comprising a power module electrically connected to the host module.

16. The AR display device of claim 15,

the power module includes:

a battery box including a box cover which can be opened and closed; and

and the battery is detachably arranged in the battery box.

17. The AR display device of claim 1, further comprising:

the communication module is electrically connected to the host module;

the communication module comprises at least one of a WIFI communication unit, a Bluetooth communication unit and a cellular communication unit.

18. A wearable device comprising a clothing, and the AR display apparatus of any of claims 1 to 17.

19. The wearable device of claim 18,

the wearing article is a hat; and

a host module and/or a display module of the AR display device is mounted to the hat;

when the hat is worn on the head of a person, the display screen of the display module is arranged opposite to at least one eye of the person.

20. The wearable device of claim 19, further comprising

A first hanger by which the host module is mounted to the hat.

21. The wearable device of claim 20, wherein the first suspension member comprises

The first sliding rail is arranged on the surface of one side, close to the hat, of the first shell of the host module;

an arc-shaped support arm, one end of which is fixed to the cap;

a first sliding member having one side fixedly connected to the first locking plate and the other side slidably mounted to the first slide rail;

the clamping groove is formed in the surface, facing the first locking plate, of the arc-shaped support arm, is formed in the direction perpendicular to the first sliding rail and is used for embedding the locking part;

the clamping grooves are uniformly distributed at the bottom of the clamping groove;

the first locking plate is connected to the arc-shaped support arm in a sliding mode on one side, and the other side of the first locking plate is connected to the first sliding piece; and

the locking part is arranged on the surface, facing the arc-shaped support arm, of the first locking plate in a protruding mode and corresponds to the clamping groove; when the first locking plate and the arc-shaped support arm are relatively static, the locking part is detachably clamped into one clamping groove.

22. The wearable device of claim 21, wherein the first suspension further comprises

A second locking plate connected to the first locking plate;

a first rotation groove formed in a surface of the second lock plate adjacent to the first lock plate;

the ball penetrating hole is formed in the bottom of the first rotating groove;

a second rotation groove recessed from a surface of the first lock plate adjacent to the second lock plate, the first rotation groove and the second rotation groove being disposed opposite to each other; and

a locking ball having one end abutting against the second rotation groove and an opposite end passing through the ball passing hole and fixed to the first slider;

wherein a surface of the locking ball is attached to an inner wall of the first rotation groove and/or the second rotation groove.

23. The wearable device of claim 22,

a protrusion protruding from an upper surface or a lower surface of the first locking plate;

the limiting surrounding edge is arranged on the surface, facing the first locking plate, of the second locking plate; the limiting surrounding edge and the protruding part are oppositely arranged, and the protruding part can be embedded in the limiting surrounding edge; and

a fixing rod penetrating through the first locking plate and the second locking plate to adjust a distance between the first locking plate and the second locking plate;

wherein the protrusion and the fixing lever are respectively located at both sides of the first rotation groove.

24. A wearable device, comprising

A cap;

the AR display device of any one of claims 15 to 23; and

a second hanger by which the power module is mounted to the hat.

25. The wearable device of claim 24,

the power supply module and the host module are respectively arranged on the left side and the right side of the hat;

the absolute value of the difference value between the total weight of the host module and the display device and the weight of the power supply module is less than a preset threshold value; and/or the presence of a gas in the gas,

the total weight of the host module, the display device and the power module is less than another preset threshold value.

26. The wearable device of claim 24,

the second suspension member includes:

the second sliding rail is arranged on the surface of one side, close to the cap, of the battery box of the power supply module; and

and the upper end of the arc-shaped plate is fixed to the hat through a group of fasteners, and the lower end of the arc-shaped plate can be slidably mounted to the second sliding rail.

27. A wearable device, comprising

A cap;

the AR display device of claims 17-26; and

a third hanger by which the communication module is mounted to the hat.

28. The wearable device of claim 27,

the third suspension member includes

An arcuate band secured to the hat by a set of fasteners;

wherein the communication module is secured to the arcuate band by another set of fasteners.

Background

Augmented Reality (AR) technology is to provide virtual information for a user through technologies such as images, videos, 3D models and the like while showing a real scene, so as to realize mutual fusion of the virtual information and the real scene.

AR display device belongs to the main hardware carrier of augmented reality technique for with the equipment that reality and virtual combined together, have abundant man-machine interaction form, thereby information interaction that can be more convenient promotes work efficiency. In the course of research and practice on the prior art, the inventors of the present application found that, when the AR display device in the prior art interacts through the display screen, the AR display device may not be able to present AR information (such as images, videos, 3D models, etc.) in a range consistent with the field of view of the wearer due to different physical characteristics of the wearer, thereby affecting the effect of scene interaction.

Disclosure of Invention

The method and the device are used for solving the technical problems that the AR information presentation range and the visual field range of a wearer cannot be adjusted, and the scene interaction effect is reduced.

The application provides an AR display device, includes: the host module comprises a first shell, and one end of the first shell is provided with a lens; the display module comprises a display screen; the assembly component can rotatably connect the display module to the host module; and the included angle between the central axis of the lens and the plane where the surface of the display screen is located is in multi-degree-of-freedom adjustable arrangement.

The application provides an AR display device is through the relative angle of assembly adjustment display screen and host computer module for this AR display device can adapt different wearers' physical characteristics, promotes user experience.

Optionally, the host module includes a camera shooting part, and the camera shooting part is rotatably connected to the first housing; the lens is a part of the image pickup part; the lens is arranged at one end of the first shell close to the display screen; the included angle between the central axis of the lens and the plane where the bottom surface of the first shell is located is adjustable.

Optionally, the assembling component includes a first damping member, a second damping member and a linkage shaft, and the first damping member is disposed through a side wall of the first housing; the inner side wall of the first damping part comprises a first cambered surface, and the outer side wall of the first damping part is fixed to the first shell; the second damping part is annular, the inner side wall of the second damping part comprises a second cambered surface, and the second damping part is opposite to the first damping part; one end of the linkage shaft is fixedly connected to the display module, and the other end of the linkage shaft forms a spherical piece; the first damping piece and the second damping piece are sleeved outside the spherical piece, and the spherical body is abutted to the first cambered surface and/or the second cambered surface.

Optionally, the assembling component further comprises an adjusting nut, which is arranged between the host module and the display module; the adjusting nut comprises a screw hole which is sleeved outside the linkage shaft; one end of the screw hole is provided with an annular plate protruding out of the hole wall; wherein a portion of the first damping member located outside the first housing is threadedly connected to the adjustment nut; one end of the second damping member is inserted into the first damping member, and the other end thereof is inserted into the screw hole and abuts against the annular plate.

Optionally, the AR display device further includes a mounting groove and a fixing plate, wherein the mounting groove is recessed in a side surface of the first housing; the bottom of the mounting groove is provided with a mounting through hole; the first damping piece is installed in the installation groove and the installation through hole; the fixing plate is installed into the installation groove and connects the first damping member to the first housing.

Optionally, the assembly component further comprises a first stopper and a second stopper, wherein the first stopper protrudes out of the surface of the fixing plate; the second stop block protrudes out of the surface of one side, facing the first shell, of the adjusting nut; the sum of the height of the first stop block and the height of the second stop block is greater than the distance between the fixing plate and the adjusting nut; the orthographic projection of the second stop block is in the same circle with the first stop block;

the adjusting nut is provided with at least one adjusting hole for embedding the second stop block; the centers of the adjusting holes are distributed in a concentric circle.

Optionally, the assembling component further includes a limiting groove and a limiting member, and the limiting groove is recessed in the surface of the spherical member; the limiting piece protrudes out of the inner side wall of the first damping piece and extends into the limiting groove.

Optionally, along the axial direction of the linkage shaft, a central angle corresponding to the opening width of the limit groove is smaller than 60 degrees; and along the radial direction of the linkage shaft, the central angle corresponding to the opening length of the limiting groove is less than 120 degrees.

Optionally, the limiting member is a screw rod penetrating through a side wall of the first damping member.

Optionally, the assembling assembly includes a channel and a wire bundle, the channel is disposed in the linkage shaft, and two openings of the channel are respectively disposed at two ends of the linkage shaft; and the wire bundle penetrates through the channel, one end of the wire bundle is connected to the first circuit board of the host module, and the other end of the wire bundle is connected to the second circuit board of the display module.

Optionally, the assembling component includes a protective sleeve and a sealing ring, the protective sleeve is located in the first housing and sleeved outside one end of the first damping member; the protective sleeve is provided with a protective sleeve through hole; the sealing ring is sleeved at the end part of the protective sleeve close to the first damping part.

Optionally, the host module includes a first circuit board and a standby power module, the first circuit board is disposed in the first housing, and a lens of the host module is electrically connected to the first circuit board; the standby power supply module is arranged in the first shell and is electrically connected to the first circuit board.

Optionally, the display module includes a second housing and a second circuit board, the second housing includes a rotating portion, a display portion and a connecting portion, and the rotating portion is connected to the host module; the display part is used for installing the display screen; the connecting part is connected with the rotating part and the display part; the central plane of the display part and the central plane of the connecting part form an included angle of 0-70 degrees;

the second circuit board is arranged in the second shell and is electrically connected to the display screen.

Optionally, the AR display device further includes a power module electrically connected to the host module.

Optionally, the power module comprises a battery box and a battery, and the battery box comprises a box cover capable of being opened and closed; and the battery is detachably mounted in the battery box.

Optionally, the AR display device further includes a communication module electrically connected to the host module;

the communication module comprises at least one of a WIFI communication unit, a Bluetooth communication unit and a cellular communication unit.

Correspondingly, the embodiment of the application also provides wearable equipment, which comprises a wearing article and the AR display device.

Optionally, the wearing article is a hat; a host module and/or a display module of the AR display device is mounted to the hat; when the hat is worn on the head of a person, the display screen of the display module is arranged opposite to at least one eye of the person.

Optionally, the wearable device further comprises a first hanger by which the host module is mounted to the hat.

Optionally, the first suspension member includes a first slide rail, an arc-shaped support arm, a first sliding member, a slot, two or more clamping slots, a first locking plate, and a locking portion, and the first slide rail is disposed on a surface of the first housing of the host module, the surface being close to one side of the hat; one end of the arc-shaped support arm is fixed to the cap; the upper end of the first sliding part is fixedly connected to the middle part of the arc-shaped support arm, and the lower end of the first sliding part is slidably mounted to the first sliding rail; the clamping groove is formed in the surface, facing the first locking plate, of the arc-shaped support arm, is formed in the direction perpendicular to the first sliding rail and is used for embedding the locking part; the more than two clamping grooves are uniformly distributed at the bottom of the clamping groove; one side of the first locking plate is connected to the arc-shaped support arm in a sliding mode, and the other side of the first locking plate is connected to the first sliding piece; the locking part is arranged on the surface of the first locking plate facing the arc-shaped support arm in a protruding mode and corresponds to the clamping groove; when the first locking plate and the arc-shaped support arm are relatively static, the locking part is detachably clamped into one clamping groove.

Optionally, the first hanger further comprises a second locking plate, a first rotation slot, a ball passing hole, a second rotation slot and a locking ball, the second locking plate being connected to the first locking plate; the first rotating groove is formed on the surface, close to the first locking plate, of the second locking plate in a concave mode; the ball penetrating hole is formed in the bottom of the first rotating groove; the second rotating groove is formed on the surface, close to the second locking plate, of the first locking plate, and the first rotating groove and the second rotating groove are oppositely arranged; one end of the locking ball abuts against the second rotating groove, and the opposite end of the locking ball passes through the ball passing hole and is fixed to the first sliding piece;

wherein a surface of the locking ball is attached to an inner wall of the first rotation groove and/or the second rotation groove.

Optionally, the protrusion is protrudingly arranged on the upper surface or the lower surface of the first locking plate; the surface of the second locking plate facing the first locking plate is provided with a limiting surrounding edge; the limiting surrounding edge and the protruding part are oppositely arranged, and the protruding part can be embedded in the limiting surrounding edge; a fixing rod penetrates through the first locking plate and the second locking plate to adjust the distance between the first locking plate and the second locking plate; wherein the protrusion and the fixing lever are respectively located at both sides of the first rotation groove.

Optionally, the host module includes a microphone, and the microphone is disposed on a lower surface of the first housing.

Correspondingly, the embodiment of the application also provides a wearable device, which comprises a hat, the AR display device and a second hanger; the power module is mounted to the hat by the second hanger.

Optionally, the power module and the host module are respectively arranged on the left side and the right side of the hat;

the absolute value of the difference value between the total weight of the host module and the display device and the weight of the power supply module is less than a preset threshold value; and/or the total weight of the host module, the display device and the power module is less than another preset threshold value.

Optionally, the second suspension member includes a second slide rail and an arc-shaped plate, and the second slide rail is disposed on a surface of the battery box of the power module, the surface being close to one side of the hat; the arc-shaped plate is fixed to the hat through a set of fasteners, and the lower end of the arc-shaped plate is slidably mounted to the second sliding rail.

Correspondingly, the embodiment of the application also provides a wearable device, which comprises a hat, the AR display device and a third hanging piece; the communication module is mounted to the hat by the third hanger.

Optionally, the third hanger comprises an arcuate strap secured to the hat by a set of fasteners; wherein the communication module is secured to the arcuate band by another set of fasteners.

AR display device in this embodiment, it utilizes the relative angle between assembly adjustment display screen and the host computer module for this AR display device can adapt different wearers 'physical characteristics, improves wearer's use comfort, in order to promote user experience.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wearable device;

FIG. 2 is a schematic diagram of the structure of an AR display device;

FIG. 3 is a first schematic structural diagram of the display module and the host module;

FIG. 4 is a second schematic structural diagram of the display module and the host module;

FIG. 5 is a schematic structural view of the mounting assembly;

FIG. 6 is a cross-sectional view of the mounting assembly;

FIG. 7 is an exploded view of the assembled components;

FIG. 8 is a schematic view of the construction of a linkage shaft;

FIG. 9 is a schematic view of the adjustment nut;

FIG. 10 is a partial schematic view of a display module and a host module;

FIG. 11 is a partial schematic view of a host module;

FIG. 12 is a schematic view of a host module and mounting assembly;

fig. 13 is a partially exploded view of the first suspension member;

fig. 14 is an exploded view of the first suspension member;

FIG. 15 is a schematic view of a second suspension member and power supply assembly;

FIG. 16 is a partial schematic view one of the power supply assembly;

FIG. 17 is a second partial schematic view of a power module;

FIG. 18 is a schematic structural view of a stop collar;

FIG. 19 is a schematic view of a second suspension member;

fig. 20 is a structural diagram of the third suspension member.

Description of reference numerals:

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In the present application, unless indicated to the contrary, the use of the directional terms "upper" and "lower" generally refer to the upper and lower positions of the device in actual use or operation, and more particularly to the orientation of the figures of the drawings; while "inner" and "outer" are with respect to the outline of the device.

The embodiment of the application provides an AR display device and wearable equipment. The following are detailed below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments.

Example one

The first embodiment of the application provides an AR display device, provides virtual information for the user through AR software and hardware technology, like image, video, 3D model etc. realize fusing virtual information and reality scene each other, have abundant man-machine interactive form to information interaction that can be more convenient. As shown in fig. 1-20, it includes a host module, a display module and a mounting assembly. The host module comprises a first shell 100, and a lens 110 is arranged at one end, close to the display module, of the first shell 100, and is used for collecting real scene information and performing information interaction. In some embodiments, the lens 110 is disposed inside the first casing 100 near one end of the display module, and in some embodiments, the lens 110 is disposed outside the first casing 100 near one end of the display module, which is not limited herein. In some embodiments, the lens 110 disposed at an end of the first housing 100 close to the display module may rotate relative to the first housing, and in other embodiments, the lens 110 disposed at an end of the first housing 100 close to the display module may not rotate relative to the first housing, which is not limited herein. The display module includes a display screen 231 for information interaction. The assembly component is used for rotatably connecting the display module to the host module, wherein an included angle between a central axis of the lens 110 and a plane where the surface of the display screen 231 is located can be adjusted with multiple degrees of freedom. The display module is connected to the host module through the assembling component, in some embodiments, the display module is horizontally connected to the host module, and in other embodiments, the display module is vertically connected to the host module, which is not limited herein. Under the user state, according to the user's demand, utilize the relative angle between assembly adjustment display screen 231 and the host computer module for display screen 231 is located the place ahead of people's eye or keeps away from the place ahead of people's eye, thereby improves information interaction's efficiency, promotes user experience.

In some embodiments, the host module includes a camera portion, and the lens 110 is a part of the camera portion and is used for collecting scene information in the field. The image pickup portion is rotatably coupled to the first housing 100 such that the lens 110 can rotate at a certain angle with respect to the first housing 100. That is, the included angle between the central axis of the lens 110 and the plane where the bottom surface of the first housing 100 is located is adjustable, and the included angle is, for example, in the range of-30 to 30 degrees, and the adjustment range is not limited herein. The capturing orientation of the lens 110 can be adjusted within a certain range by the camera portion rotatably provided with respect to the first housing 100, so that the scene information of the corresponding orientation is captured by the rotation of the camera portion without rotating the head of the wearer. In some embodiments, the image capturing part is rotatably connected to the first housing through a rotating shaft to adjust the position of the lens 110 up and down.

In some embodiments, the host module further includes a circuit board, a battery, a communication unit, and other functional modules, so that the AR display device can perform operations.

In some embodiments, the display module includes a second housing 200 and a second circuit board disposed in the second housing 200, the second circuit board being electrically connected to the display screen 231.

The second housing 200 includes a rotating portion 210, a connecting portion 220 and a display portion 230, which are sequentially disposed, wherein the rotating portion 210 is used for engaging with a host module, and in some embodiments, the rotating portion 210 is used for engaging with the host module through an assembly component; the display portion 230 is used for mounting a display screen 231; the connecting portion 220 is used to connect the rotating portion 210 and the display portion 230. Illustratively, the included angle between the central plane of the display part 230 and the central plane of the connecting part 220 is 0-70 degrees, the included angle is not limited herein, and the connecting part 220 arranged obliquely is used for connecting the rotating part 210 and the display part 230, so that not only can the design of miniaturization and light weight be realized, but also a space for wearing myopia glasses or presbyopic glasses can be provided for a user, so that the user can wear the AR display device and the myopia glasses or presbyopic glasses at the same time; meanwhile, the operation space of the assembly component can be increased, so that the relative position of the display module relative to the host module can be conveniently adjusted.

Further, the display module further includes a microphone 120 located on the lower surface of the second housing 200 to facilitate information interaction. In this application, at least one set of microphones 120 is disposed on the lower surface of the second housing 200, and in some embodiments, 3 sets of microphones 120 are disposed on the lower surface of the second housing 200, wherein 2 sets are disposed on the lower surface of the display part 230, and 1 set is disposed on the lower surface of the connection part 220. The microphone 120 disposed on the lower surface of the second housing 200 is closer to the mouth so as to collect sound information and reduce noise.

The assembly comprises a first damping piece 410, a second damping piece 420 and a linkage shaft 430, wherein the first damping piece 410 is partially positioned inside the first casing 100, and one end of the first damping piece 410 penetrates out of one side of the first casing 100 close to the display module. The inner side wall of the first damper includes a first arc surface 411, and the outer side wall of the first damper 410 is fixedly connected with the first housing 100 by a fastening screw, and the fixing connection manner is not limited herein. The second damping member 420 is disposed in a ring shape, and the inner sidewall of the second damping member 420 includes a second arc 421. One end of the linkage shaft 430 is fixedly connected with the display module through a fastening screw, the fixed connection mode is not limited herein, and the other end of the linkage shaft forms a ball 431. First damping member 410 and second damping member 420 are disposed opposite to each other, and first damping member 410 and second damping member 420 are disposed outside ball 431, and the outer surface of ball 431 abuts against first cambered surface 411 and/or second cambered surface 421, and in some embodiments, the outer surface of ball 431 abuts against first cambered surface 411 and second cambered surface 421 simultaneously.

Since the first cambered surface 411 and/or the second cambered surface 421 abut against the ball 431, the ball 431 can bear static friction force applied by the first damping member 410 and/or the second damping member 420, so that the ball 431 is static relative to the first damping member 410 and/or the second damping member 420 under the action of the static friction force. In some embodiments, the first cambered surface 411 and the second cambered surface 421 abut against the ball 431, so that the ball 431 can bear static friction force applied by the first damping member 410 and the second damping member 420, and the ball 431 is static relative to the first damping member 410 and the second damping member 420 under the static friction force. Therefore, under the condition that no external force or slight external force exists, the ball 431 is static relative to the first damping piece 410 and the second damping piece 420, so that the ball 431 is static in a required state, the relative position of the display screen 231 and the host module cannot be easily changed in the using process, the stability of the AR display device during use is ensured, and the user experience is improved. When an external force is applied to linkage shaft 430 and linkage shaft 430 is caused to rotate relative to first damping member 410 and/or second damping member 420, the relative position between the host and display screen 231 is adjusted so that the display screen meets the use requirements of the wearer. The first damping part 410 and the second damping part 420 can be used for realizing the rotation of the linkage shaft 430, and simultaneously can also be used for controlling the rotation resistance of the linkage shaft 430 by using static friction force, so that the linkage shaft 430 has multiple technical effects. Meanwhile, the position of the linkage shaft 430 is adjusted by utilizing the spherical hinge of the spherical piece 431, the freedom degree of movement of the linkage shaft 430 can be increased, and multi-angle adjustment between the display module and the host module is realized.

In a further preferred aspect, the assembly further includes an adjusting nut 440, and the adjusting nut 440 is located between the host module and the display module. The adjusting nut 440 has a screw hole 441 extending axially therethrough so as to be able to be sleeved on the outside of the linkage shaft 430, in some embodiments, the adjusting nut 440 is sleeved on the outside of the linkage shaft 430 through the first damping member 410, and a portion of the first damping member 410 extending from the side wall of the first casing 100 is provided with an external thread, and the extending portion is in threaded engagement with the adjusting nut 440. An annular plate 442 protruding from the hole wall is disposed at one end of the screw hole 441 away from the first casing 100, one end of the second damper 420 is inserted into the first damper 410, and the other end of the second damper 420 is inserted into the screw hole 441 and abuts against the annular plate 442.

When the adjusting nut 440 is driven to approach the first casing 100 by the thread fit between the first damping member 410 and the adjusting nut 440, the annular plate 442 applies a pushing force to the second damping member 420 abutting against the annular plate, and in some embodiments, the second damping member 420 has a certain elastic deformation performance, for example, the second damping member 420 is made of nylon material. The second damper 420 can abut against the ball 431 by the thrust of the annular plate 442, so that the fitting area between the second damper 420 and the ball 431 is increased, the fitting gap is reduced, and thus the second damper 420 and the ball 431 are fitted more closely. So that the friction force between the second damping member 420 and the ball 431 is increased, thereby increasing the external force required for the rotation of the linkage shaft 430.

In a preferred embodiment, a mounting groove 130 is recessed in a side wall of the first housing 100 close to the display module, a mounting through hole 131 is formed at the bottom of the mounting groove 130, and a part of the first damping member 410 is mounted in the mounting groove 130, and a part of the first damping member protrudes out of the mounting through hole 131 to be in threaded engagement with the adjusting nut 440. In this application, a fixing plate 450 is further disposed in the mounting groove 130, and the fixing plate 450 is attached to the first damping member 410 and is connected to the first casing 100 by fastening screws or the like, so as to fix the first damping member 410 to the first casing 100.

The fixing plate 450 is used to assist in limiting the relative position of the first damping member 410 and the first casing 100, so that the distance between the display module and the host module is not too long, and the appearance of the AR display device is improved. The first damping part 410 and the fixing plate 450 are embedded in the mounting groove 130, so that the accuracy of the position of the first damping part 410 during fixing is improved, the positions of the first damping part 410 and the fixing plate 450 can be limited, the stability of the first damping part 410 in a use state is guaranteed, meanwhile, the first damping part 410 can be prevented from protruding out of the surface of the first shell 100, and the attractiveness of the AR display device is improved. The AR display device need consider water-proof effects when using, therefore need guarantee the leakproofness between first damping piece 410 and mounting groove 130, utilize the fixed plate 450 to assist the fixed of first damping piece 410, through the corresponding laminating of the lateral wall of guaranteeing fixed plate 450 and mounting groove 130 inner wall, can further strengthen the waterproof performance of host computer module, thereby also reduced the requirement to first damping piece 410 machining precision.

In another preferred embodiment, a first stopper 451 is disposed on a surface of the fixing plate 450, a second stopper 443 is disposed on a surface of the adjusting nut 440 protruding toward the first housing 100, wherein a sum of a height of the first stopper 451 and a height of the second stopper 443 is greater than a vertical distance between the fixing plate 450 and the adjusting nut 440, and an orthogonal projection of the second stopper 443 is concentric with the first stopper 451, so that the second stopper 443 can abut against the first stopper 451 when the adjusting nut 440 is rotated, thereby limiting an extreme position of the adjusting nut 440 moving away from the first housing 100 to prevent the adjusting nut 440 and the first damper 410 from being disengaged.

In some embodiments, the adjusting nut 440 defines at least one adjusting hole 444 for receiving the second stopper 443, and the centers of the adjusting holes 444 are located on the same circumference. Preferably, when the adjusting nut 440 has a plurality of adjusting holes 444 for inserting the second stopper 443, centers of all the adjusting holes 444 are distributed in a common circle, in the present application, all the adjusting holes 444 are in a uniform circumferential array, and of course, all the adjusting holes 444 may not be in a uniform circumferential array, which is not limited herein. By utilizing different distances between the adjusting holes 444 and the first block 451, the proper adjusting holes 444 are selected to fix the second block 443 according to actual requirements, so that the limit position of the adjusting nut 440 moving in the direction away from the first housing 100 can be controlled, and the requirement of the rotation angle of the adjusting nut 440 can be met. On the other hand, after a long period of use, the second stopper 443 may be worn, so that another adjusting hole 444 may be selected to fit the second stopper 443, and the adjusting nut 440 is prevented from being replaced again.

In another preferred embodiment, the assembly further includes a limiting groove 432 recessed from the surface of the ball 431, and a limiting member 412 engaged with the limiting groove 432, wherein the limiting member 412 is protrudingly disposed on a sidewall of the first damping member 410 and can extend into the limiting groove 432. When the ball 431 rotates relative to the first damping member 410, the limiting member 412 fixedly disposed on the first damping member 410 can move relative to the limiting groove 432, and when the limiting member 412 abuts against a sidewall of the limiting groove 432, the ball 431 is limited from moving in the direction. By means of the matching of the limiting groove 432 and the limiting part 412, the movement range and direction of the ball 431 are limited, so that the accurate adjustment of the angle between the display module and the host module is realized.

Further, along the axial direction of the linkage shaft 430, the central angle corresponding to the opening width of the limiting groove 432 is less than 60 degrees; along the radial direction of the linkage shaft 430, the central angle corresponding to the opening length of the limiting groove 432 is less than 120 degrees. The limiting groove 432 is used for limiting the accurate movement of the ball 431 within the range by the opening range along the radial direction and the axial direction of the linkage shaft 430.

Preferably, the stopper 412 is a screw rod, and is disposed through a sidewall of the first damping member 410. In the process of assembling the AR display device, after the first damping member 410 is sleeved outside the spherical member 431, the screw penetrates through the first damping member 410 and is inserted into the limiting groove 432, and then the first damping member 410 and the spherical member 431 can be assembled. In other embodiments, the length of the screw may be abutted against the side wall of the limiting groove 432, and the screw is not required to be inserted into the bottom of the limiting groove 432. Meanwhile, the screw is used for facilitating assembly and adjusting the length of the limiting member 412 inserted into the limiting groove 432, so that the accuracy limit of the first damping member 410 and the ball 431 during processing can be reduced.

In another preferred scheme, the assembly component comprises a channel 433 which is formed along the axial direction of the linkage shaft 430 in a penetrating manner, and two openings of the channel 433 are respectively arranged at two ends of the linkage shaft 430; and a wire bundle passing through the channel 433, one end of the wire bundle being connected to the first circuit board of the host module, and the other end thereof being connected to the second circuit board of the display module. The host module is electrically connected with the display module through the wiring harness arranged in the channel 433, and the host module is used for supplying power to the display module. Meanwhile, when the linkage shaft 430 rotates relative to the host module, the wire bundle penetrating through the channel 433 can maintain continuous power supply and signal transmission, thereby realizing mechanical connection and electrical connection between the host module and the display module. Meanwhile, the wire harness is arranged inside the linkage shaft 430, so that the waterproof performance of the AR display device can be improved.

In another preferred embodiment, the assembling component includes a protection sleeve 500 disposed inside the first casing 100 and a sealing ring sleeved on an end of the protection sleeve 500, the protection sleeve 500 is sleeved outside one end of the first damping member 410, and a protection sleeve through hole 520 is formed on the protection sleeve 500 for the wire harness to pass through. The opening part of wire harness and protective sheath through-hole 520 is sealing connection in this application, can insert through the line stopper and realize sealing, can seal by direct point gluing, does not do the injecion here to improve AR display device's waterproof performance.

The sealing ring is sleeved on the end portion of the protective sleeve 500 close to the first damping piece 410, so that the end portions of the protective sleeve 500 and the first damping piece 410 are more attached to each other, and the waterproof performance of the AR display device is improved.

In another preferred scheme, the AR display device further includes a power module, and the power module is electrically connected to the host module to supply power to the host module. The power module may be disposed in the first housing of the host, or the power module may be disposed outside the first housing of the host, which is not limited herein. In some embodiments, the power module 600 is disposed outside the first housing of the host, the power module 600 includes a battery box 610 and a battery detachably mounted inside the battery box 610, and an end cover of the battery box 610 is provided with a box cover 620 capable of being opened and closed, so that the battery is detachably mounted inside the battery box 610.

In addition, battery module still includes stop collar 640, and above-mentioned stop collar 640 cover is established in lid 620 and the junction of battery case 610, and stop collar 640 is Contraband type setting in this application. The junction of the box cover 620 and the battery box 610 is concavely provided with an Contraband-shaped groove 630 which is concavely arranged on three side walls of the battery box 610 and the box cover 620, and the limit sleeve 640 can slide in the groove 630. Meanwhile, the outer side wall of the box cover 620 is provided with a groove 621, the stop collar 640 is correspondingly and protrudingly provided with an insertion block 641, and when the insertion block 641 is embedded in the groove 621, the box cover 620 and the battery box 610 can be prevented from being separated.

In some embodiments, the host module includes a first circuit board disposed in the first housing 100 and a standby power module, wherein the standby power module is electrically connected to the first circuit board, and the first circuit board is electrically connected to the lens 110. When the battery of the power module 600 is replaced, the standby power module can provide continuous power supply for the host module and the display module in a short time, so that the operation state is maintained.

In another preferred scheme, the AR display device further includes a communication module, and the communication module is electrically connected to the host module, so as to facilitate information interaction. The communication module may be disposed in the first housing of the host, or the communication module may be disposed outside the first housing of the host, which is not limited herein. The communication module comprises at least one of a WIFI communication unit, a Bluetooth communication unit and a cellular communication unit, specifically, communication units such as 4G and 5G. In some embodiments, the communication module 300 is disposed outside the first housing of the host.

In some embodiments, the outer surface of the first casing 100 is provided with control keys, a removable memory card socket 141(SD card, etc.), and the like, thereby improving convenience in use of the AR display device.

Carry out two

A wearable device, which comprises all the technical features of the AR display device in the first embodiment, and further comprises a wearing article connected with the AR display device.

When the wearing article is a hat, the host module and/or the display module in the AR display device are mounted on the hat, which may be mounted on the outer surface of the hat or inside the hat. When the cap is worn on the head of the user, the display screen 231 of the display module is arranged opposite to at least one eye of the wearer, so that the comfort level of the wearer for using the AR display device is improved.

The wearable device further comprises a first suspension member, and the host module is mounted on the hat through the first suspension member. The host module can be directly mounted on the hat through the first suspension member, or can be mounted on the hat through the fixing member connected with the hat through the first suspension member, which is not limited herein. In some embodiments, the host module is mounted to an outer surface of the hat by a first hanger. In some embodiments, specifically, the first hanging member includes an arc-shaped arm 830, a first rail 810, a first sliding member 820 engaged with the first rail 810, and a first locking plate 840, wherein one end of the arc-shaped arm 830 is fixedly connected to the cap by a fastening screw, and in order to make the arc-shaped arm 830 fit to the outer surface of the cap, the upper end of the arc-shaped arm 830 is disposed in an arc shape in this application and fits to the outer surface of the cap.

The first slide rail 810 is mounted on the side wall of the cap near the first housing 100 of the host module by fasteners such as fastening screws, and the first slide rail 810 is fixed along a straight line in the present application. One side of the first slider 820 is connected to the first locking plate 840, and the other opposite side is slidably mounted to the first slide rail 810. One side of the first locking plate 840 is slidably connected to the free end of the arc-shaped support arm 830, the other side is connected to the first sliding member 820, the sliding connection between the first sliding member 820 and the first sliding rail 810 is utilized to adjust the front and back position of the host module relative to the hat, and the sliding connection between the first locking plate 840 and the arc-shaped support arm 830 is utilized to adjust the up and down position of the host module relative to the hat, so as to adjust the front and back and up and down position of the lens 110 disposed on the first housing 100 and the display module connected to the host module relative to the hat.

Arc support arm 830 has seted up draw-in groove 831 on the surface towards first locking plate 840, and above-mentioned draw-in groove 831 is seted up along the direction of the first slide rail 810 of perpendicular to, and first slide rail 810 is fixed along the horizontal direction in this application, and draw-in groove 831 is seted up along vertical direction. At least one clamping groove 832 is arranged at the bottom of the clamping groove 831, and the clamping grooves 832 are uniformly distributed at the bottom of the clamping groove 831 in the application. The first locking plate 840 is protrusively provided with a locking portion 843 on a surface facing the arc-shaped arm 830, the locking portion 843 is provided corresponding to the detent groove 832, and the locking portion 843 can be fitted into the detent groove 832 when the first locking plate 840 and the arc-shaped arm 830 are relatively stationary. Thereby ensuring that the adjustment position of the first locking plate 840 relative to the arc-shaped support arm 830 is more stable to ensure that the first locking plate 840 does not slide relative to the arc-shaped support arm 830 under the action of no external force or slight external force. The at least one clamping groove 832 is embedded with the locking part 843, so that the adjustment displacement of the first locking plate 840 can be controlled more accurately, and the displacement range of the host module relative to the up-down adjustment position of the hat is enlarged.

In addition, when a plurality of locking portions 843 are provided on the first locking plate 840, the locking portions 843 are arranged in a direction parallel to the locking grooves 831, and the distance between the centers of two adjacent locking portions 843 is equal to the distance between the centers of two adjacent locking grooves 832, so that the locking portions 843 can be correspondingly fitted in the locking grooves 832 when the first locking plate 840 and the arc-shaped support arm 830 are relatively stationary.

In a further preferred embodiment, the first suspension further comprises a second locking plate 850 and a locking ball 860, wherein the second locking plate 850 is connected with the first locking plate 840, and in this embodiment the first locking plate 840 is detachably connected with the second locking plate 850. A surface of second lock plate 850 facing first lock plate 840 is concavely provided with first rotation groove 851, while a surface of first lock plate 840 facing second lock plate 850 is concavely provided with second rotation groove 842, so that first rotation groove 851 and second rotation groove 842 are oppositely disposed. Further, the second lock plate 850 is provided with a ball insertion hole 852 at the bottom of the first rotation groove 851, and the lock ball 860 is positioned between the first lock plate 840 and the second lock plate 850, and has one end abutting against the second rotation groove 842 and the other end inserted through the ball insertion hole 852 and fixed to the first slider 820. The surfaces of the locking balls 860 are fitted to the inner walls of the first and/or second rotation grooves 851 and 842, so that there is a friction between the first and/or second locking plates 840 and 850 and the locking balls 860, and thus the rotation of the locking balls 860 can be restricted without an external force or a slight external force by using the friction, to ensure that the relative positions of the host module and the cap are not changed. The locking ball 860 embedded between the first rotation groove 851 and the second rotation groove 842, one end of the locking ball 860 is fixed on the first sliding member 820, and when a rotation force is applied to the first sliding member 820, the locking ball 860 can rotate between the first locking plate 840 and the second locking plate 850, so that the first shell 100 is driven to move by rotating the first sliding member 820, the host module can be adjusted with multiple degrees of freedom relative to the hat, and the lens 110 and the display module can be adjusted with multiple degrees of freedom relative to the hat.

In another preferred aspect, a protruding portion 841 is protrusively provided on an upper surface or a lower surface of the first locking plate 840, while a limiting surrounding edge 853 is provided on a surface of the second locking plate 850 facing the first locking plate 840, the limiting surrounding edge 853 being provided corresponding to the protruding portion 841, and the protruding portion 841 can be embedded inside the limiting surrounding edge 853. A fixing rod 870 passes through between the first locking plate 840 and the second locking plate 850, and the fixing rod 870 and the position limiting surrounding edge 853 are respectively located at both sides of the first rotating groove 851. In the present application, the fixing of one ends of the first locking plate 840 and the second locking plate 850 can be realized by the engagement of the position-limiting surrounding edge 853 and the protruding portion 841, and the fixing rod 870 may be a bolt. The fixing rod 870 penetrates the first locking plate 840 and the second locking plate 850, thereby achieving the fixed connection of the other ends of the first locking plate 840 and the second locking plate 850. The detachable connection of the first locking plate 840 and the second locking plate 850 can be achieved by the engagement of the projection 841 and the position restricting skirt 853, and the fixing rod 870, thereby restricting the position of the locking ball 860 by the first locking plate 840 and the second locking plate 850 so that it is rotationally moved between the first rotation groove 851 and the second rotation groove 842. The distance between the first locking plate 840 and the second locking plate 850 can be adjusted by the fixing rod 870, so that the contact area and the contact gap between the first rotation groove 851 and the second rotation groove 842 and the surface of the locking ball 860 can be changed, thereby adjusting the frictional force between the first locking plate 840, the second locking plate 850, and the locking ball 860.

EXAMPLE III

A wearable device, which includes all the technical features of the first embodiment, and is different from the first embodiment in that it includes a hat, an AR display device in the first embodiment, and a second suspension member, wherein the second suspension member is used to connect a power module 600 to the hat, wherein the power module 600 may be directly connected to the hat through the second suspension member, or may be connected to the hat through a fixing member of the second suspension member, which is not limited herein.

The power module 600 and the host module are respectively arranged at the left side and the right side of the hat; the absolute value of the difference between the total weight of the host module and the display device and the weight of the power module 600 is less than a preset threshold; and/or the total weight of the host module, the display device and the power module 600 is less than another preset threshold value, so that the weight distribution on the hat is relatively uniform, and the use experience of the wearer is improved.

The second hanging member includes a second sliding rail 910, and an arc plate 920 engaged with the second sliding rail 910, wherein the second sliding rail 910 is fixed to the side wall of the battery box 610 near the cap by fastening members such as fastening screws. The upper end of the arc plate 920 is fixedly connected with the hat through a fastening member such as a fastening screw, or fixedly connected with a fixing member on the hat through a fastening member such as a fastening screw, and the other end of the arc plate is slidably mounted to the second slide rail 910. The power module 600 moves back and forth relative to the hat by the cooperation of the arc plate 920 and the second slide rail 910.

The second slide rail 910 includes: the slide rail comprises a slide rail body 911, wherein the middle of one side of the slide rail body 911 is fixed to a battery box 610, and a first gap 913 is formed between the upper edge of the slide rail body 911 and the battery box 610; a second gap 914 is formed between the lower edge thereof and the battery case 610. The middle part of one side of the slide rail body 911 away from the battery box 610 is provided with a slide groove 912, and the slide groove 912 is arranged along a straight line.

The arc plate 920 includes a plate 931, the plate 931 protrudes from a surface of the plate 931, and a first hook 932 is disposed toward a side of the second sliding rail 910, and the first hook 932 is bent downward to be inserted into the first gap 913. The plate 931 protrudes from a surface of the plate 931, and a second hook 933 is provided toward a side of the second slide 910, and the first hook 932 is bent upward to be inserted into the second gap 914.

In addition, an arc protrusion 934 is protrudingly provided on a surface of the plate body 931 facing one side of the second slide rail 910, and the arc protrusion 934 can abut against a bottom of the sliding groove 912 to limit a moving direction of the arc plate 920, so that the plate body 931 moves along the sliding groove 912.

Example four

A wearable device comprising all the technical features of the first embodiment, and the difference between the first embodiment and the second embodiment is that the wearable device further comprises a hat, an AR display device and a third hanger, wherein the third hanger is used for connecting the communication module 300 and the hat. The communication module 300 may be mounted on the outer surface of the cap or may be mounted inside the cap. The communication module 300 may be directly connected to the hat through the third hanging member, or may be connected to the hat through a fixing member connected to the hat through the third hanging member, which is not limited herein

The third hanger includes an arc-shaped band 700, and the arc-shaped band 700 is fixedly attached to the cap by a fastening member such as a fastening screw. Wherein the outer side of the arc-shaped band 700 is detachable from the arc-shaped band 700 by means of a fastener. Arc area 700 is the arc setting in this application to the surface of laminating cap, in order to improve communication module 300 installation stability.

In addition, the mutual combination scheme among the implementation of the first embodiment, the implementation of the second embodiment, the implementation of the third embodiment and the implementation of the fourth embodiment is also within the protection scope of the present application.

The AR display device and the wearable device provided by the embodiments of the present application are described in detail above, and specific examples are applied herein to illustrate the principles and embodiments of the present application, and the description of the embodiments above is only used to help understand the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

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