CN212321987U - Ultra-thin VR glasses - Google Patents

Abstract

The utility model relates to an ultra-thin VR glasses, which comprises a body, the body includes preceding shell and drain pan, preceding shell with drain pan fixed connection, preceding shell with set up the optical module between the drain pan, the optical module with first mainboard module electricity is connected, first mainboard module one side sets up first wire rod, first wire rod one end with first mainboard module is connected, the first wire rod other end is located the body is outside, the first wire rod other end sets up second mainboard module. This ultra-thin VR glasses separates first mainboard and second mainboard, and makes the second mainboard cut apart with the main part of VR glasses through solitary wire rod for the volume and the weight of whole VR glasses obtain reducing, make the user use more light, also make the heat dissipation of whole machine better, and the life of whole machine is longer.

Description

Ultra-thin VR glasses

Technical Field

The utility model relates to a virtual reality field, concretely relates to ultra-thin VR glasses.

Background

The virtual reality technology, abbreviated as VR in English and also called smart technology, is a brand new technology developed in the 20 th century, and comprises a computer, electronic information and simulation technology, and the basic implementation mode is that the computer simulates a virtual environment so as to provide people with environmental immersion.

Current VR glasses are usually bulky on the market, lead to user very uncomfortable when using, and current thinner VR glasses can appear heat dissipation scheduling problem usually to influence the life of machine, also influence user's use impression.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide ultra-thin VR glasses.

The utility model provides an ultra-thin VR glasses, includes the body, the body includes preceding shell and drain pan, preceding shell with drain pan fixed connection, preceding shell with set up the optics module between the drain pan, the optics module with first mainboard module electricity is connected, first mainboard module one side sets up first wire rod, first wire rod one end with first mainboard module is connected, the first wire rod other end is located the body is outside, the first wire rod other end sets up second mainboard module.

Furthermore, one end, far away from the first wire, of the second mainboard module is provided with a USB port.

Further, still include the mainboard shell, the second mainboard module sets up inside the mainboard shell, the mainboard shell includes the face-piece, the face-piece is oval tubular structure, the face-piece top sets up the upper cover, the face-piece below sets up the lower cover, first line material sets up inside the face-piece.

Furthermore, the optical module comprises a screen and a lens, the lens is located on one side of the bottom shell, the screen is located between the lens and the front shell, and the screen is electrically connected with the first mainboard module.

Furthermore, the face shell is far away from first wire rod one end sets up the end cover, set up hollow perforation on the end cover, the face shell orientation first wire rod one end sets up the mesochite, first wire rod passes the mesochite.

This ultra-thin VR glasses separates first mainboard and second mainboard, and makes the second mainboard cut apart with the main part of VR glasses through solitary wire rod for the volume and the weight of whole VR glasses obtain reducing, make the user use more light, also make the heat dissipation of whole machine better, and the life of whole machine is longer.

Drawings

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

Fig. 2 is an exploded view of the VR glasses of the present invention.

Fig. 3 is a schematic view of a partial structure of the VR glasses of the present invention.

Fig. 4 is a schematic structural diagram of a second motherboard module according to the present invention.

The optical module comprises a body 1, a front shell 2, a bottom shell 3, an optical module 4, a first mainboard module 5, a first wire 6, a second mainboard module 7, a mainboard shell 8, an upper cover 10, a screen 12, an end cover 13 and a lens 15.

Detailed Description

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

Example one

An ultrathin VR glasses comprises a main body 1, the main body 1 is a main body structure of the glasses and comprises a front shell 2 and a bottom shell 3, the front shell 2 is fixedly connected with the bottom shell 3 and forms a cavity structure, an optical module 4 is arranged between the front shell 2 and the bottom shell 3, the optical module 4 is an imaging unit of the equipment and is also an existing imaging equipment in the market, optical imaging in the equipment can be seen through the optical module 4, wherein the optical module 4 is electrically connected with a first mainboard module 5, so that the optical module 4 can control the operation of the first mainboard module 5, one side of the first mainboard module 5 is provided with a first wire 6, the virtual reality glasses can be communicated with an external power supply or the equipment through the first wire 6, the other end of the first wire 6 is positioned outside the glasses main body 1, the other end of the first wire 6 is provided with a second mainboard module 7, the second mainboard module 7 is mainly used for controlling the circuit operation of the whole glasses, make the volume of whole body 1 obtain reducing through connecting second mainboard module 7 to radiating effect is better.

One end of the second main board module 7 far away from the first wire 6 is provided with a USB port, so that the VR glasses can be communicated with external electronic equipment such as a mobile phone through the USB port, and can also be communicated with an external power supply to supply power for the VR glasses.

This VR glasses still includes mainboard shell 8, mainboard shell 8 sets up the outside at second mainboard module 7, play the guard action to second mainboard module 7, wherein, mainboard shell 8 includes the face-piece, the oval tube-shape of face-piece for having hollow structure, the top of face-piece sets up upper cover 10, upper cover 10 and the upper portion looks adaptation of face-piece, the below of face-piece sets up the lower cover, upper cover 10 and lower cover fixed connection, make face-piece and second mainboard module 7 can obtain better protection and fixed through the combination of upper cover 10 and lower cover, first line 6 sets up the inside at the face-piece equally, make whole body 1 can be connected with the second host computer module is stable.

Optical module 4 specifically includes screen 12 and lens 15, lens 15 is located the one side towards host computer drain pan 3, screen 12 sets up with lens 15 relatively, can directly watch the formation of image on the screen 12 through lens 15, and is specific, screen 12 is located between lens 15 and the preceding shell, and the user's eye contacts with the drain pan 3 of VR glasses, watches the optical imaging in optical module 4, and wherein screen 12 is connected with first mainboard module 5 electricity, can play the effect of control screen 12 operation through first mainboard module 5.

Example two

An ultrathin VR glasses comprises a main body 1, the main body 1 is a main body structure of the glasses and comprises a front shell 2 and a bottom shell 3, the front shell 2 is fixedly connected with the bottom shell 3 and forms a cavity structure, an optical module 4 is arranged between the front shell 2 and the bottom shell 3, the optical module 4 is an imaging unit of the equipment and is also an existing imaging equipment in the market, optical imaging in the equipment can be seen through the optical module 4, wherein the optical module 4 is electrically connected with a first mainboard module 5, so that the optical module 4 can control the operation of the first mainboard module 5, one side of the first mainboard module 5 is provided with a first wire 6, the virtual reality glasses can be communicated with an external power supply or the equipment through the first wire 6, the other end of the first wire 6 is positioned outside the glasses main body 1, the other end of the first wire 6 is provided with a second mainboard module 7, the second mainboard module 7 is mainly used for controlling the circuit operation of the whole glasses, make the volume of whole body 1 obtain reducing through connecting second mainboard module 7 to radiating effect is better.

One end of the second main board module 7 far away from the first wire 6 is provided with a USB port, so that the VR glasses can be communicated with external electronic equipment such as a mobile phone through the USB port, and can also be communicated with an external power supply to supply power for the VR glasses.

This VR glasses still includes mainboard shell 8, mainboard shell 8 sets up the outside at second mainboard module 7, play the guard action to second mainboard module 7, wherein, mainboard shell 8 includes the face-piece, the oval tube-shape of face-piece for having hollow structure, the top of face-piece sets up upper cover 10, upper cover 10 and the upper portion looks adaptation of face-piece, the below of face-piece sets up the lower cover, upper cover 10 and lower cover fixed connection, make face-piece and second mainboard module 7 can obtain better protection and fixed through the combination of upper cover 10 and lower cover, first line 6 sets up the inside at the face-piece equally, make whole body 1 can be connected with the second host computer module is stable.

Optical module 4 specifically includes screen 12 and lens 15, lens 15 is located the one side towards host computer drain pan 3, screen 12 sets up with lens 15 relatively, can directly watch the formation of image on the screen 12 through lens 15, and is specific, screen 12 is located between lens 15 and the preceding shell, and the user's eye contacts with the drain pan 3 of VR glasses, watches the optical imaging in optical module 4, and wherein screen 12 is connected with first mainboard module 5 electricity, can play the effect of control screen 12 operation through first mainboard module 5.

The one end that first wire rod 6 was kept away from to the face-piece sets up end cover 13, end cover 13 covers the well kenozooecium at the face-piece, make the one end of keeping away from first wire rod 6 of face-piece can obtain sealing, make second mainboard module 7's structure more stable, the middle part of end cover 13 sets up hollow perforation, this hollow perforation sets up with the USB mouth that sets up on second mainboard module 7 relatively, make this second mainboard module 7 accessible USB mouth communicate with outside electronic equipment and power. The face-piece sets up the mesochite towards first wire rod 6 one end, the mesochite is similar with end cover 13's structure, the mesochite covers at the face-piece well kenozooecium, make the face-piece can obtain sealing towards the well kenozooecium of the one end of first wire rod 6, make the structure of first wire rod 6 and second mainboard module 7 more stable, and first wire rod 6 passes the mesochite, set up the round hole with first wire rod 6 adaptation on the mesochite, make the more stable of first wire rod 6.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description in any form, and although the present invention has been disclosed with reference to the preferred embodiment, it is not limited to the present invention, and any skilled person in the art can make modifications or changes equivalent to the equivalent embodiment of the above embodiments without departing from the scope of the present invention.

Claims (5)

1. The utility model provides an ultra-thin VR glasses, its characterized in that, includes the body, the body includes preceding shell and drain pan, preceding shell with drain pan fixed connection, preceding shell with set up the optics module between the drain pan, the optics module orientation preceding shell one side sets up first mainboard module, the optics module with first mainboard module electricity is connected, first mainboard module one side sets up first wire rod, first wire rod one end with first mainboard module is connected, the first wire rod other end is located the body is outside, the first wire rod other end sets up second mainboard module.

2. The ultra-thin VR glasses of claim 1, wherein a USB port is disposed at an end of the second motherboard module away from the first wire.

3. The ultra-thin VR glasses of claim 2, further comprising a motherboard housing, wherein the second motherboard module is disposed inside the motherboard housing, and wherein the motherboard housing comprises a face shell, the face shell is an oval cylinder, an upper cover is disposed above the face shell, a lower cover is disposed below the face shell, and the first wire is disposed inside the face shell.

4. The ultra-thin VR glasses of claim 3, wherein the optics module includes a screen and a lens, the lens is located on a side of the bottom shell, the screen is located between the lens and the front shell, and the screen is electrically connected to the first motherboard module.

5. The ultra-thin VR glasses of claim 4 wherein the end of the face shell distal from the first wire has an end cap with a hollow bore therethrough, the face shell having a center shell toward the end of the first wire, the first wire passing through the center shell.

Images