WO2017120765A1 - Structure for enhancing heat dissipation of vr glasses and vr glasses - Google Patents

Abstract

A structure for enhancing heat dissipation of VR glasses and VR glasses. The VR glasses comprise a VR glasses main body and temples arranged at both sides of the VR glasses main body; the VR glasses further comprise two PCBs (11, 12), the two PCBs (11, 12) are arranged inside the VR glasses main body, a group of heating sources (2, 3) are correspondingly arranged on each PCB (11, 12), and the two PCBs (11, 12) are connected by means of a flexible circuit connection member (4). By means of the VR glasses, the problem of heat emission is solved effectively, and the influence of heat emission on a user is reduced.

Description

Structure and VR glasses for enhancing heat dissipation of VR glasses Technical field

The present invention relates to the field of VR glasses manufacturing technology, and in particular, to a structure for enhancing heat dissipation of VR glasses and VR glasses.

Background technique

Virtual Reality is also known as Virtual Reality (VR), also known as VR Technology VR, also known as Vision Technology or Artificial Environment. It is a virtual world that uses computer simulation to generate a three-dimensional space, providing users with simulations of visual, auditory, tactile and other senses. To allow users to observe things in the three-dimensional space in a timely and unrestricted manner as if they were immersed in the situation. When the user moves the position, the computer can perform complex calculations immediately, and the accurate 3D world video is transmitted back to produce a sense of presence. The technology integrates the latest developments in computer graphics, computer simulation, artificial intelligence, sensing, display and network parallel processing. It is a high-tech simulation system generated by computer technology.

VR glasses can also be called virtual reality glasses, which can provide the wearer with a 360-degree immersive visual experience. In order to improve the user experience, VR glasses are now designed to be thinner, lighter and closer, but with it. The problem is that multiple sets of heat sources of the internal components of the existing VR glasses are integrated on one PCB. Due to the concentrated heat source, the heat dissipation effect is not good, which greatly affects the user experience.

It is urgent to provide a kind of VR glasses to effectively reduce the problem of fever.

Summary of the invention

The invention provides a structure for enhancing heat dissipation of VR glasses and VR glasses, effectively solving the problem of heat generation and reducing the influence of heat on the user.

A structure for enhancing heat dissipation of a VR glasses, the VR glasses comprising a VR eyeglass body and eyeglass temples disposed on opposite sides of the VR lens body;

The structure for enhancing heat dissipation of the VR glasses further includes two PCBs, two PCBs are disposed inside the main body of the VR glasses; a set of heat generating sources are correspondingly disposed on each of the PCBs; and the two PCBs are connected by a flexible circuit connecting member.

Optional,

The two sets of heat sources are respectively at the ends of the two sides of the VR lens body.

Optional,

Two sets of heat sources are respectively adjacent to the sides of the VR lens body and the glasses are connected

At the office.

Optional,

The two sets of heat sources are adjacent to the front side of the VR lens body.

Optional,

The two sets of heat sources include: a video processing chip or a sensor data processing chip.

Optional,

The PCB is mounted on a PCB holder.

The present invention also provides a VR glasses equipped with the above structure for enhancing the heat dissipation of the VR glasses.

It can be seen from the above technical solutions that the embodiments of the present invention have the following advantages:

The structure for enhancing the heat dissipation of the VR glasses and the VR glasses of the present invention include: a structure for enhancing heat dissipation of the VR glasses, the VR glasses including a VR glasses main body and eyeglass temples disposed on both sides of the VR lens main body; The heat dissipation structure of the VR glasses further includes two PCBs, two PCBs are disposed inside the main body of the VR glasses; a set of heat generating sources are respectively disposed on each of the PCBs; the two PCBs are connected by a flexible circuit connecting member, compared with the present According to the technology, since the heat source is dispersed, the heat generation is lower than that of the existing VR glasses. Since the VR glasses have a certain curvature, the heat source is also away from the user's face, thereby reducing the influence of heat on the user.

DRAWINGS

1 is a schematic structural view of a heat dissipation of a VR glasses according to the present invention;

In the figure, 11, the first PCB; 12, the second PCB; 2, the first heat source; 3, the second heat source; 4, the flexible circuit connector.

detailed description

The invention provides a structure for enhancing heat dissipation of VR glasses and VR glasses, effectively solving the problem of heat generation and reducing the influence of heat on the user.

FPGA (Field-Programmable Gate Array), which is a field programmable gate array. It appears as a semi-custom circuit in the field of ASICs, which not only solves the shortcomings of the custom circuit, but also overcomes the shortcomings of the limited number of original programmable device gates.

HDMI (High Definition Multimedia Interface), a high-definition multimedia interface, is a digital video/audio interface technology. It is a dedicated digital interface suitable for image transmission. It can transmit audio and video signals at the same time. The maximum data transmission speed is 4.5GB/s. .

The invention provides a structure for enhancing heat dissipation of VR glasses and VR glasses, effectively solving the problem of heat generation and reducing the influence of heat on the user.

A structure for enhancing heat dissipation of a VR glasses according to the present invention, the VR glasses including a VR glasses main body and eyeglass temples disposed on both sides of the VR lens main body;

The structure for enhancing heat dissipation of the VR glasses further includes two PCBs, two PCBs are disposed inside the main body of the VR glasses; a set of heat generating sources are correspondingly disposed on each of the PCBs; and the two PCBs are connected by a flexible circuit connecting member.

It should be noted that two sets of heat sources may be respectively at the ends of the two sides of the VR lens body.

The specific two sets of heat sources are respectively close to the joints of the two sides of the VR lens main body and the glasses temple, and the two sets of heat sources are close to the front surface of the VR glasses main body. The distribution of the above heat sources effectively alleviates the discomfort of the user's eyes and further improves the user experience.

The two sets of heat sources may include: a video processing chip, such as HDMI, including but not limited to a 7619 chip, and a sensor data processing chip, and may also include an FPGA supporting the chip.

It should be noted that the two PCBs are mounted on the PCB bracket.

The following describes the structure of the above-mentioned enhanced VR glasses heat dissipation with a specific application example:

In the present invention, a structure for enhancing heat dissipation of a VR glasses, the VR glasses include a VR glasses main body and eyeglass temples disposed on two sides of the VR glasses main body; the structure for dissipating heat of the VR glasses further includes two PCBs, two The PCB is disposed inside the main body of the VR glasses; a set of heat generating sources are correspondingly disposed on each of the PCBs; and the two PCBs are connected by a flexible circuit connecting member.

It should be noted that two sets of heat sources may be respectively at the ends of the two sides of the VR lens body.

The specific two sets of heat sources are respectively close to the joints of the two sides of the VR lens main body and the glasses temple, and the two sets of heat sources are close to the front surface of the VR glasses main body.

The two sets of heat sources may include: a video processing chip, such as an HDMI and sensor data processing chip, and may also include an FPGA supporting the chip.

It should be noted that the two PCBs are mounted on the PCB bracket.

Since the VR glasses have a certain curvature, the heat source is also away from the user's face, thereby reducing the influence of heat on the user.

The present invention also provides a VR glasses equipped with the above structure for enhancing the heat dissipation of the VR glasses.

A person skilled in the art can clearly understand that for the convenience and brevity of the description, the specific working process of the device described above can refer to the corresponding process in the foregoing method embodiments, and details are not described herein again. In the several embodiments provided herein, it should be understood that the disclosed apparatus can be implemented in other ways.

The above embodiments are only used to illustrate the technical solutions of the present invention, and are not intended to be limiting; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that The technical solutions are described as being modified, or equivalent to some of the technical features, and the modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (6)

A structure for enhancing heat dissipation of a VR glasses, the VR glasses comprising a VR eyeglass body and eyeglass temples disposed on opposite sides of the VR lens body; The two PCBs are disposed, and two PCBs are disposed inside the VR glasses main body; a set of heat generating sources are correspondingly disposed on each of the PCBs; the two PCBs are connected by a flexible circuit connecting member. The structure for enhancing heat dissipation of VR glasses according to claim 1, wherein the two sets of heat sources are respectively at ends of the VR glasses main body. The structure for enhancing heat dissipation of VR glasses according to claim 2, wherein the two sets of heat sources are respectively adjacent to the joints of the two sides of the VR lens body and the eyeglasses of the glasses. The structure for enhancing heat dissipation of VR glasses according to claim 1, wherein two sets of heat sources are adjacent to a front surface of the VR glasses main body. The structure for enhancing heat dissipation of VR glasses according to any one of claims 1 to 4, characterized in that The two sets of heat sources include: a video processing chip or a sensor data processing chip. The structure for enhancing heat dissipation of VR glasses according to any one of claims 1 to 4, characterized in that The PCB is mounted on a PCB holder. A VR glasses characterized by being equipped with the structure for dissipating heat of the VR glasses according to any one of claims 1 to 6.

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