CN212905718U - Novel mixed reality glasses - Google Patents

Abstract

The utility model discloses a novel mixed reality glasses relates to mixed reality technical field. The technical characteristics include: the glasses frame comprises a glasses frame and glasses legs; the OLED transparent screen is arranged on the glasses frame; the function integration module at least comprises a signal receiving module, a Bluetooth module and a gesture control module which are arranged in the glasses frame or the glasses legs; the camera module is fixed on the glasses legs; the battery module is used for providing electric energy for the OLED transparent screen, the signal receiving module, the Bluetooth module, the gesture control module and the camera module; the battery fixing module is used for fixing the battery module on the glasses legs; and the peripheral panel is provided with a main battery and a battery charging area, fixes the battery module through the battery charging area and charges the battery module by using the main battery.

Description

Novel mixed reality glasses

Technical Field

The utility model relates to a mix reality technical field, in particular to novel mix reality glasses.

Background

Mixed Reality (MR) is a further development of virtual reality technology that builds an interactive feedback information loop between the real world, the virtual world and the user by presenting virtual scene information in the real scene to enhance the realism of the user experience.

According to the increasing requirements of people on the use experience of the mobile terminal and the PC terminal, the problem that the existing computer is inconvenient to carry and the mobile phone has poor computing capability is gradually found, the MR/AR glasses on the market are too heavy and have peculiar appearance, the devices can not be really integrated into daily life, meanwhile, the MR/AR glasses on the market have the defects of generally small field angle and poor imaging effect, and in order to improve the defects, the design of novel mixed reality glasses is necessary.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve the technical problem among the prior art, provide novel mixed reality glasses.

In order to solve the technical problem, the technical scheme of the utility model is specifically as follows:

novel mixed reality glasses include:

a spectacle frame comprising a spectacle frame and spectacle legs;

an OLED transparent screen mounted on the eyeglass frame;

the function integration module at least comprises a signal receiving module, a Bluetooth module and a gesture control module which are arranged in the glasses frame or the glasses legs;

the camera module is fixed on the glasses legs;

the battery module is used for providing electric energy for the OLED transparent screen, the signal receiving module, the Bluetooth module, the gesture control module and the camera module;

the battery fixing module is used for fixing the battery module on the glasses legs;

and the peripheral panel is provided with a main battery and a battery charging area, and the battery module is fixed through the battery charging area and is charged by the main battery.

Preferably, the glasses frame and the glasses legs are both hollow structures to accommodate and install the signal receiving module, the bluetooth module and the gesture control module.

Preferably, the battery fixing module includes:

the power connection plug is arranged on the battery module and is electrically connected with the battery module;

the first anti-slip ring is sleeved on the power plug;

the first fixed jack structure is arranged on the glasses legs so that the electric connection plug and the first anti-slip ring can be inserted into the glasses legs, and the electric connection plug inserted into the first fixed jack structure is electrically connected with the OLED transparent screen, the signal receiving module, the Bluetooth module, the gesture control module and the camera module.

Preferably, the first fixing receptacle structure includes:

the first sinking groove is formed in the side surface of the glasses leg;

the first jack is coaxially arranged on the bottom surface of the first sinking groove on the glasses leg;

the second anti-skid ring is annularly arranged on the inner side wall of the first sinking groove and can enable the first anti-skid ring to be coaxially inserted, and the second anti-skid ring is in interference fit with the first anti-skid ring;

and the third slip ring is annularly arranged on the inner side wall of the first jack and can enable the power connection plug to be coaxially inserted, and the third slip ring is in interference fit with the power connection plug.

Preferably, the battery charging region includes:

an accommodating groove formed on the peripheral board;

a battery support protrusion disposed on the bottom surface of the receiving groove;

and the second fixed jack structure is arranged on the battery supporting bulge so that an electric plug and the first anti-slip ring are inserted, and the electric plug inserted into the second fixed jack structure is electrically connected with the main battery so that the main battery charges the battery module.

Preferably, the second fixing receptacle structure includes:

the second sinking groove is formed in the upper surface of the battery supporting bulge;

the second jack is coaxially arranged at the bottom surface of the second sinking groove on the battery supporting bulge;

the fourth anti-slip ring is annularly arranged on the inner side wall of the second sinking groove and can enable the first anti-slip ring to be coaxially inserted, and the fourth anti-slip ring is in interference fit with the first anti-slip ring;

and the fifth anti-slip ring is annularly arranged on the inner side wall of the second jack and can enable the power connection plug to be coaxially inserted, and the fifth anti-slip ring is in interference fit with the power connection plug.

The utility model discloses following beneficial effect has:

the utility model discloses a novel mix reality glasses utilizes the good characteristics of OLED transparent screen light transmissivity, closes glasses and display screen as an organic whole, through the network, directly transmits the processing result for glasses to show on the OLED screen, in order to reach the effect. Other devices can also be connected through a network or bluetooth to increase the range of use. Control the formation of image region and show on OLED transparent screen through the camera, both increased the security and also strengthened experience, can also be used for shooing, the angle of vision of effectively having solved MR/AR glasses on the market is general little, the shortcoming that the imaging effect is not good, it is inconvenient also to have solved the computer simultaneously and carry, the poor problem of cell-phone operational capability, let the user experience better, the OLED transparent screen of both eyes is the separation simultaneously, so make and to realize the 3D effect, so both solved the cell-phone, the problem that the computer can't carry out the 3D formation of image, also can change the imaging depth, can prevent and control partial eyesight problem, still it is more clear to make eyesight problem patient see the content. Simultaneously, the battery module is well fixed by the battery fixing module, so that the battery module can be disassembled for use, and the disassembled battery can be conveniently fixed and charged by utilizing a battery charging area on the peripheral panel, and is also convenient to carry.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of the novel mixed reality glasses of the present invention;

fig. 2 is a cross-sectional view of the glasses frame and the glasses legs d of the novel mixed reality glasses of the present invention;

fig. 3 is a schematic structural view of a battery fixing module of the novel mixed reality glasses according to the present invention;

fig. 4 is a top view of the peripheral board of the novel mixed reality glasses of the present invention;

fig. 5 is a schematic structural diagram of the peripheral board of the novel mixed reality glasses of the present invention.

The reference numerals in the figures denote:

1. a spectacle frame; 2. a spectacle leg; 3. an OLED transparent screen; 4. a signal receiving module; 5. a Bluetooth module; 6. a gesture control module; 7. a camera module; 8. a battery module; 9. a peripheral board; 10. a main battery; 11. connecting a power plug; 12. a first anti-slip ring; 13. a first sink tank; 14. a first jack; 15. a second anti-slip ring; 16. a third slide ring; 17. an accommodating recess; 18. a battery support protrusion; 19. a second sink tank; 20. a second jack; 21. a fourth anti-slip ring; 22. and a fifth anti-slip ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, a novel mixed reality eyewear includes:

the glasses frame comprises a glasses frame 1 and glasses legs 2;

the OLED transparent screen 3 is installed on the glasses frame 1;

the function integration module at least comprises a signal receiving module 4, a Bluetooth module 5 and a gesture control module 6 which are arranged in the glasses frame 1 or the glasses legs 2;

the camera module 7, the camera module 7 is fixed on the glasses leg 2;

the battery module 8 is used for providing electric energy for the OLED transparent screen 3, the signal receiving module 4, the Bluetooth module 5, the gesture control module 6 and the camera module 7 through the battery module 8;

the battery fixing module is used for fixing the battery module 8 on the glasses legs 2;

and a peripheral board 9, wherein the peripheral board 9 is provided with a main battery 10 and a battery charging region, the battery module 8 is fixed through the battery charging region, and the battery module 8 is charged by using the main battery 10.

The glasses frame 1 and the glasses legs 2 are both hollow structures to accommodate and install the signal receiving module 4, the bluetooth module 5 and the gesture control module 6.

The battery fixing module includes:

the power connection plug 11 is arranged on the battery module 8, and the power connection plug 11 is electrically connected with the battery module 8;

the first anti-slip ring 12 is sleeved on the power connection plug 11, and the first anti-slip ring 12 is sleeved on the power connection plug 11;

and the first fixed jack structure is arranged on the glasses legs 2 so that the electric plug 11 and the first anti-slip ring 12 can be inserted, and the electric plug 11, the OLED transparent screen 3, the signal receiving module 4, the Bluetooth module 5, the gesture control module 6 and the camera module 7 which are inserted into the first fixed jack structure are electrically connected.

The first fixed receptacle structure includes:

a first sinking groove 13, wherein the first sinking groove 13 is arranged on the side surface of the glasses leg 2;

the first jack 14, the first jack 14 is coaxially arranged at the bottom of the first sinking groove 13 on the glasses leg 2;

the second anti-skid ring 15 is annularly arranged on the inner side wall of the first sinking groove 13 and can enable the first anti-skid ring 12 to be coaxially inserted, and the second anti-skid ring 15 is in interference fit with the first anti-skid ring 12;

and a third slip ring 16, wherein the third slip ring 16 is annularly arranged on the inner side wall of the first jack 14 and can enable the power connection plug 11 to be coaxially inserted, and the third slip ring 16 is in interference fit with the power connection plug 11.

The battery charging region includes:

an accommodating recess 17, the accommodating recess 17 being formed on the peripheral board 9;

a battery supporting protrusion 18, the battery supporting protrusion 18 being disposed on the bottom surface of the receiving groove 17;

and a second fixed socket structure, which is disposed on the battery support protrusion 18 to allow the power plug 11 and the first anti-slip ring 12 to be inserted, and the power plug 11 inserted into the second fixed socket structure is electrically connected to the main battery 10 to allow the main battery 10 to charge the battery module 8.

The second fixed receptacle structure includes:

a second sinking groove 19, the second sinking groove 19 is opened on the upper surface of the battery supporting projection 18;

the second jack 20, the second jack 20 is coaxially set up in the battery supports the bottom surface of the second heavy groove 19 on the projection 18;

the fourth anti-slip ring 21 is annularly arranged on the inner side wall of the second sinking groove 19 and can enable the first anti-slip ring 12 to be coaxially inserted, and the fourth anti-slip ring 21 is in interference fit with the first anti-slip ring 12;

and the fifth anti-slip ring 22 is annularly arranged on the inner side wall of the second jack 20 and can enable the power connection plug 11 to be coaxially inserted, and the fifth anti-slip ring 22 is in interference fit with the power connection plug 11.

The working principle is as follows:

first, spectacle frame 1 and glasses leg 2 constitute conventional glasses in this device, and utilize spectacle frame 1 to support and fixed OLED transparent screen 3, make OLED transparent screen 3 can regard as conventional transparent spectacle lens to use, can also show the image, utilize the good characteristics of OLED transparent screen 3 light transmissivity, close glasses and display screen as an organic whole, utilize the function integration module simultaneously, control module 6 with signal reception module 4, bluetooth module 5 and gesture and control the module and integrate to have hollow structure's spectacle frame 1 or glasses leg 2 inside, through the network, control module 6's processing result direct transmission to OLED transparent screen 3 to signal reception module 4, bluetooth module 5 or gesture, and show on OLED transparent screen 3, in order to reach the effect. Still control the imaging area through camera module 7 and show on OLED transparent screen 3, both increased the security and also strengthened experience, can also be used for shooing, the angle of vision of effectively having solved MR/AR glasses on the market is general little, the shortcoming that the imaging effect is not good, it is inconvenient that the computer has also been solved simultaneously, the poor problem of cell-phone operational capability, let the user experience better, OLED transparent screen 3 of both eyes is the separation simultaneously, so make and to realize the 3D effect, so both solved the cell-phone, the problem that the computer can't carry out the 3D formation of image, also can change the imaging depth, can prevent and control partial eyesight problem, still it is more clear to make the eyesight problem patient see the content. Meanwhile, the device utilizes the battery module 8 to provide electric energy for the OLED transparent screen 3, the signal receiving module 4, the Bluetooth module 5, the gesture control module 6 and the camera module 7. Simultaneously, the battery module 8 is well fixed by the battery fixing module of the device and can be disassembled for use, and the disassembled battery module 8 can be conveniently fixed and charged by utilizing a battery charging area on the peripheral board 9 and is also convenient to carry. Specifically, the power connection plug 11 on the battery module 8 is inserted into the first jack 14 in the first fixed jack structure, and meanwhile, the third slip ring 16 in the first jack 14 is in interference fit with the power connection plug 11 to fix the power connection plug 11, and meanwhile, the first anti-slip ring 12 is inserted into the first sink groove 13, and meanwhile, the second anti-slip ring 15 is in interference fit with the first anti-slip ring 12 to fix the first anti-slip ring 12. The power connection plug 11 inserted into the first fixed jack structure is electrically connected with the OLED transparent screen 3, the signal receiving module 4, the bluetooth module 5, the gesture control module 6 and the camera module 7, so that the electric energy supply of the battery module 8 to the OLED transparent screen 3, the signal receiving module 4, the bluetooth module 5, the gesture control module 6 and the camera module 7 is realized. When the battery module 8 needs to be charged, the battery module 8 is detached from the battery module 2, placed in the receiving groove 17 of the battery charging area on the peripheral board 9, and the battery module 8 is fixed by the second fixing socket structure provided at the battery supporting protrusion 18, and the battery module 8 is charged by the main battery 10. Specifically, the power connection plug 11 on the battery module 8 is inserted into the second jack 20 in the second fixed jack structure, and meanwhile, the fifth anti-slip ring in the second jack 20 is in interference fit with the power connection plug 11 to fix the power connection plug 11, and meanwhile, the first anti-slip ring 12 is inserted into the second sinking groove 19, and meanwhile, the fourth anti-slip ring 21 is in interference fit with the first anti-slip ring 12 to fix the first anti-slip ring 12. Thus, the battery module 8 is fixed to the battery support protrusion 18 and electrically connected to the main battery 10, and is charged by the main battery 10. All the electric devices of the device are electrically connected according to the working principle of each electric device by persons in the field, and the specific connecting means refers to the working principle that the electric devices are electrically connected in sequence, and the detailed connecting means is known in the field. The OLED transparent screen 3, the camera module 7 and the battery module 2 are products widely applied to the market, the signal receiving module 4 may be a LoRa1280/1281 on the market, the bluetooth module 5 may be a BLE4.0/BLE5.0 on the market, and the Gesture control module 6 may be a Gesture _ recognitionv3.0 on the market. The electrical components are all the existing products on the market.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (6)

1. Novel mixed reality glasses, its characterized in that includes:

a spectacle frame comprising a spectacle frame (1) and spectacle legs (2);

an OLED transparent screen (3), the OLED transparent screen (3) being mounted on the glasses frame (1);

the function integration module at least comprises a signal receiving module (4), a Bluetooth module (5) and a gesture control module (6) which are arranged inside the glasses frame (1) or the glasses legs (2);

the camera module (7), the said camera module (7) is fixed on the said glasses leg (2);

the battery module (8) is used for providing electric energy for the OLED transparent screen (3), the signal receiving module (4), the Bluetooth module (5), the gesture control module (6) and the camera module (7) through the battery module (8);

a battery fixing module, by which the battery module (8) is fixed on the glasses legs (2);

and the peripheral panel (9), a main battery (10) and a battery charging area are arranged on the peripheral panel (9), and the battery module (8) is fixed through the battery charging area and charged by the main battery (10).

2. The novel mixed reality glasses according to claim 1, wherein the glasses frame (1) and the glasses legs (2) are hollow structures to accommodate and mount the signal receiving module (4), the bluetooth module (5) and the gesture manipulation module (6).

3. The novel mixed reality eyewear of claim 2, wherein the battery securing module comprises:

the power connection plug (11) is arranged on the battery module (8) and is electrically connected with the battery module (8);

the first anti-slip ring (12), the first anti-slip ring (12) is sleeved on the power connection plug (11);

and the first fixed jack structure is arranged on the glasses leg (2) so that an electric plug (11) and the first anti-slip ring (12) can be inserted, and the electric plug (11) inserted into the first fixed jack structure is electrically connected with the OLED transparent screen (3), the signal receiving module (4), the Bluetooth module (5), the gesture control module (6) and the camera module (7).

4. The novel mixed reality eyewear of claim 3, wherein the first fixed jack structure comprises:

a first sinking groove (13), wherein the first sinking groove (13) is formed in the side surface of the glasses leg (2);

the first insertion hole (14), the first insertion hole (14) is coaxially arranged at the bottom surface of the first sinking groove (13) on the glasses leg (2);

the second anti-skid ring (15) is annularly arranged on the inner side wall of the first sinking groove (13) and can enable the first anti-skid ring (12) to be coaxially inserted, and the second anti-skid ring (15) is in interference fit with the first anti-skid ring (12);

and a third slip ring (16), the slip ring (16) is surrounded on the first jack (14) inside wall and can make connect the coaxial insertion of electric plug (11), the slip ring (16) with connect interference fit between electric plug (11).

5. The novel mixed reality eyewear of claim 3, wherein the battery charging region comprises:

a receiving groove (17), the receiving groove (17) being formed on the peripheral board (9);

a battery supporting protrusion (18), the battery supporting protrusion (18) being disposed on the bottom surface of the receiving groove (17);

and the second fixed jack structure is arranged on the battery supporting bulge (18) so that an electric plug (11) and the first anti-slip ring (12) can be inserted, and the electric plug (11) inserted into the second fixed jack structure is electrically connected with the main battery (10) so that the main battery (10) charges the battery module (8).

6. The novel mixed reality eyewear of claim 5, wherein the second fixed jack structure comprises:

the second sinking groove (19) is formed in the upper surface of the battery supporting protrusion (18);

a second receptacle (20), said second receptacle (20) being coaxially formed at a bottom surface of said second recess (19) on said battery support protrusion (18);

the fourth anti-slip ring (21) is annularly arranged on the inner side wall of the second sinking groove (19) and can enable the first anti-slip ring (12) to be coaxially inserted, and the fourth anti-slip ring (21) is in interference fit with the first anti-slip ring (12);

and a fifth anti-slip ring (22), wherein the fifth anti-slip ring (22) is annularly arranged on the inner side wall of the second jack (20) and can enable the electric plug (11) to be coaxially inserted, and the fifth anti-slip ring (22) is in interference fit with the electric plug (11).

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