CN113325581B

CN113325581B - VR glasses based on 5G cloud rendering

Info

Publication number: CN113325581B
Application number: CN202110470894.0A
Authority: CN
Inventors: 付静; 齐梦轲
Original assignee: Jiangsu Hongxu Desheng Technology Co ltd
Current assignee: Jiangsu Hongxu Desheng Technology Co ltd
Priority date: 2021-04-29
Filing date: 2021-04-29
Publication date: 2023-07-21
Anticipated expiration: 2041-04-29
Also published as: CN113325581A

Abstract

The invention belongs to the technical field of VR glasses, in particular to a VR glasses based on 5G cloud rendering, which comprises a shell and a fixing belt, wherein the fixing belt is arranged on the outer side of the shell; an observation port is formed in one end, close to the fixing belt, of the shell; a protection pad is arranged outside the observation port; a mobile phone cavity is formed in one end, away from the fixed belt, of the shell; a VR glasses groove is formed in the bottom of the mobile phone cavity; the VR glasses groove is fixedly provided with a VR glasses frame; a lens is fixedly arranged in the VR glasses frame; the right side of the lens is provided with a first lens frame, a first lens is fixedly arranged in the first lens frame, and the first lens is a convex lens; a first sliding block is arranged on two sides of the first glasses frame; the two sides of the shell are provided with sliding grooves; one end of the first sliding block, which is far away from the first mirror bracket, extends out of the sliding groove, and the first sliding block is in sliding connection with the sliding groove; solves the problems of poor using feeling and low comfort level of the myopic crowd in the prior art when using VR glasses.

Description

VR glasses based on 5G cloud rendering

Technical Field

The invention belongs to the technical field of VR glasses, and particularly relates to a VR glasses based on 5G cloud rendering.

Background

The display principle of the VR glasses is that two lenses are arranged in the VR glasses, and the surfaces of the lenses are designed with plano-convex (aspheric), biconvex and concave-convex effects, and the VR glasses have thin edges and thick centers; the convex lens can correct the light source angle of the crystalline lens, so that the human eyes can read again, and the effects of increasing the visual angle, enlarging the picture and enhancing the stereoscopic impression are achieved, thereby enabling the human to feel as being in the scene. With the continuous advancement of 5G technology, the VR (virtual reality) industry is considered as one of the industries that will be actively developed after 5G business. The 5G technology provides a transmission rate of up to 10-50Gbps and has extremely low time delay, so that a scene of a large VR game can be rendered at the cloud and then transmitted to terminal equipment of a player through a network. Through carrying out the picture rendering at the high in the clouds, just can guarantee to provide the terminal with resolution ratio high, high-quality picture, and then effectively improve the giddiness uncomfortable sense that the VR recreation brought for the player. Meanwhile, the game picture rendering can be carried out on the cloud, so that the hardware computing pressure of the user terminal equipment is greatly reduced, and the price of the terminal hardware equipment is also reduced. The 5G cloud rendering scheme of VR not only demonstrates the characteristics of 5G network, but also provides VR manufacturer and operator with a new business model that can link with more industries.

However, the VR glasses are concentrated in the high school crowd, and the investigation shows that the incidence rate of myopia in China is up to 70% in the population above the high school, and if the VR glasses are not worn, the VR glasses cannot see the characters on the screen, and the VR glasses are not more in touch with the eyes, so that the popularity of VR devices is reduced.

At present, domestic VR glasses claim to not influence myopia of 400 degrees or higher. For example, the method of oculus to solve the problem is to provide 3 groups of lenses with different powers, which is equivalent to three groups of glasses with different eyesight in optical principle, but domestic VR glasses mostly only have one group of lenses, so that two methods are often adopted to solve the problem of myopia: one is to wear glasses and then VR glasses, which does solve the myopia problem, but the immersion is greatly impaired because the eyes cannot get close to the lenses and the solution of wearing two pairs of glasses at the same time is also very awkward. The other is that the user does not wear glasses, but brings a screen or a mobile phone close to a lens, which is equivalent to that the user brings the user close to the screen to watch something on the screen, so that the immersion feeling is reduced, because the image at the edge of the screen is equivalent to that of being shifted out of the screen, the user only can see the image at the middle part, and the outer side is cut off, the user with myopia can easily see pixels, the screen window effect is generated in DK1, and in addition, if the myopia degree of the eyes of the user is different, the method cannot solve the problem.

The utility model provides a chinese patent of application number CN201810878191.X discloses a VR glasses that experience effect is good, including wearing unit and display element, it is connected with the display element to wear the unit, the rear end of display element is provided with atomizing unit and vibration unit, atomizing unit includes atomizing lens, signal connection atomizing lens's acoustic control sensor, acoustic control sensor is used for judging whether send atomizing signal, when needs take place atomizing, acoustic control sensor feeds back the signal to atomizing lens in order to realize atomizing, atomizing lens shape cooperation display element's lens, vibration unit is including encircling to establish atomizing unit outlying vibrations frame, vibrations frame has a holding chamber be provided with a plurality of vibrations piece and circular telegram in order to produce magnetic power-on coil, the fixed setting of power-on coil is in on the inner wall of holding chamber, power-on coil circular telegram actuation vibrations piece.

The VR glasses in the scheme have good atomization and vibration effects, but cannot be suitable for myopia people; accordingly, the VR glasses suitable for the myopic people can improve the use feeling and comfort level of the myopic people when the VR glasses are used.

Disclosure of Invention

In order to make up the defects of the prior art, the invention provides VR glasses based on 5G cloud rendering, which are mainly used for solving the problems of poor use feeling and low comfort level of myopic people in the prior art when the VR glasses are used.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to VR glasses based on 5G cloud rendering, which comprise a shell and a fixing belt, wherein the fixing belt is arranged on the outer side of the shell; an observation port is formed in one end, close to the fixing belt, of the shell; a protection pad is arranged outside the observation port; a mobile phone cavity is formed in one end, away from the fixed belt, of the shell; a VR glasses groove is formed in the bottom of the mobile phone cavity; the VR glasses groove is fixedly provided with a VR glasses frame; a lens is fixedly arranged in the VR glasses frame; the right side of the lens is provided with a first lens frame, a first lens is fixedly arranged in the first lens frame, and the first lens is a convex lens; a first sliding block is arranged on two sides of the first glasses frame; the two sides of the shell are provided with sliding grooves; one end of the first sliding block, which is far away from the first mirror bracket, extends out of the sliding groove, and the first sliding block is in sliding connection with the sliding groove; the first slider is fixedly connected with a first adjusting block at one end, far away from the first eyeglass frame, of the first slider, and the first adjusting block is positioned at the outer side of the shell; the right side of the first eyeglass frame is provided with a second eyeglass frame, a second lens is fixedly arranged in the second eyeglass frame, and the second lens is a concave lens; two sides of the second mirror bracket are provided with second sliding blocks; one end of the second sliding block, which is far away from the second mirror bracket, extends out of the sliding groove, and the second sliding block is in sliding connection with the sliding groove; the second slider is fixedly connected with a second adjusting block at one end, far away from the second eyeglass frame, of the second slider, and the second adjusting block is positioned at the outer side of the shell;

in the prior art, in order to see characters and images on a screen when using VR glasses, a myopic person wears the glasses or brings a screen or a mobile phone close to the lenses, and the two methods can weaken the sense of use of the VR glasses by the myopic person;

in the invention, when in use, a user switches the mobile phone to a video playing interface and inserts the mobile phone into the mobile phone cavity, so that the mobile phone screen is aligned to one side of the bottom of the mobile phone cavity; then wearing VR glasses and fixing the VR glasses through a fixing belt; video images on the mobile phone screen sequentially pass through the lens, the first lens and the second lens to enter human eyes; at the moment, a user pushes the first adjusting block and the second adjusting block by hand so that the first adjusting block and the second adjusting block slide in the sliding groove, at the moment, the first lens moves synchronously with the first adjusting block, and the second lens moves synchronously with the second adjusting block, so that the distance between the first lens and the second lens is adjusted until a clear picture can be seen; at the moment, the first lens and the second lens are combined together to be equivalent to a zoom lens, so that the divergence or convergence degree of light entering human eyes can be changed, namely, the diopter adjusting effect is achieved, a myopic person can see a picture clearly without wearing glasses, and the use feeling of VR glasses is improved;

the invention has the function of a zoom lens through the combined design of the first lens and the second lens, and changes the divergence or convergence degree of light rays entering eyes of a person by adjusting the distance between the first lens and the second lens, thereby achieving the effect of adjusting diopter and ensuring that a myopic person can see pictures without wearing glasses.

Preferably, an annular groove is formed in the protection pad; an eye protection air bag is arranged in the annular groove; an inflatable air bag is arranged in the sliding groove and is positioned between the first sliding block and the second sliding block; the inflatable air bag is communicated with the eye protection air bag through an air duct; when the eye protection air bag is used, the eye protection air bag is positioned at the position around the eyes of a user, the user extrudes the inflatable air bag when pushing the first sliding block and the second sliding block, so that gas in the inflatable air bag enters the eye protection air bag along the gas guide pipe, the eye protection air bag is outwards protruded, the eyes of the user are pressed, and the eyes of the user are more comfortable.

Preferably, the fixing strap comprises an upper fixing strap and a side fixing strap, and the upper fixing strap and the side fixing strap are fixedly intersected and connected together; a soft bag is arranged at the intersection position of the upper fixing belt and the side fixing belt, and the soft bag is positioned at the inner side of the fixing belt; the soft bag is connected with a gas pipe which is adhered to the inner side of the upper fixing belt; one end of the air pipe, which is far away from the soft bag, is communicated with the eye protection air bag; when the soft bag is used, the soft bag is tightly attached to the head of a user, so that the contact area between the head and the fixing belt can be increased, and the comfort level is improved; after watching a period of video, eyes of a user feel tired, at the moment, the soft bag is pressed by hands, gas in the soft bag enters the eye protection air bag through the gas pipe, at the moment, the eye protection air bag is further protruded, then the pressure on the soft bag is relieved, the eye protection air bag is enabled to recover the original shape, repeated for a plurality of times, and therefore the position around the eyes is massaged, and the fatigue relieving effect can be achieved.

Preferably, one side of the eye protection air bag is provided with an air hole; a rubber plug is arranged in the air hole, and one end of the rubber plug extends out of the protection pad; two rubber caps are arranged on the rubber plug and are positioned at two sides of the air hole; the bottom of the rubber cap is plugged into the air hole; when the device is used, after a video is watched for a period of time, the rubber plug is pushed to the inner side of the protection pad by one hand, so that the rubber cap positioned at the inner side of the air hole is separated from the air hole, at the moment, the soft bag is extruded by the other hand, and air is continuously blown into the observation hole through the air hole, so that the interior of the observation hole is cooled, and the soft bag is provided with the air tap for unidirectional air inlet, so that the air can be continuously supplemented; because along with the change of temperature in the viewing aperture, water smoke can appear on each group lens surface, and then influence the viewing effect, intermittent air blast can prevent to appear water smoke this moment.

Preferably, a group of ventilation holes are formed in the shell, and the ventilation holes are positioned above the second lens; when the air conditioner is used, most of air entering from the air holes flows out from the air holes, so that the air flow can be accelerated, and the temperature reduction is accelerated; in addition, if water mist is generated, the VR glasses are transversely placed, so that water drops after the water mist is liquefied flow downwards along the mirror surface and then flow out of the air holes, and damage to the VR glasses caused by the fact that the water drops flow into the VR glasses is avoided.

Preferably, a mobile phone baffle is arranged at the top of the mobile phone cavity, the mobile phone baffle is two arc plates with central symmetry, and the arc plates are made of elastic materials; when the mobile phone is used, the mobile phone is inserted into the mobile phone cavity, and the mobile phone is clamped by the arc-shaped plate; because the space exists between the arc plates, the top of the mobile phone cavity is communicated with the outside, and the mobile phone can conveniently dissipate heat.

The beneficial effects of the invention are as follows:

1. the invention has the function of a zoom lens through the combined design of the first lens and the second lens, and changes the divergence or convergence degree of light rays entering eyes of a person by adjusting the distance between the first lens and the second lens, thereby achieving the effect of adjusting diopter and ensuring that a myopic person can see pictures without wearing glasses.

2. According to the invention, the soft bag is pressed by hand, so that the gas in the soft bag enters the eye protection air bag through the gas pipe, at the moment, the eye protection air bag is further raised, then the pressure on the soft bag is relieved, the eye protection air bag is restored to the original shape, and repeated for a plurality of times, so that the position around the eye is massaged, and the fatigue relieving effect can be achieved.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an internal structure of the present invention;

FIG. 3 is a block diagram of a rubber plug in the present invention;

in the figure: the device comprises a shell 1, an observation port 11, a protection pad 12, an annular groove 121, an eye protection air bag 122, an inflatable air bag 123, an air duct 124, an air hole 125, a rubber plug 126, a rubber cap 127, a mobile phone cavity 13, a mobile phone baffle 131, a VR glasses groove 14, a VR glasses frame 141, a lens 142, a first glasses frame 15, a first lens 151, a first sliding block 152, a first adjusting block 153, a sliding groove 16, a second glasses frame 17, a second lens 171, a second sliding block 172, a second adjusting block 173, an air vent 18, a fixing belt 2, an upper fixing belt 21, a side fixing belt 22, a soft bag 23 and an air duct 24.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 3, the VR glasses based on 5G cloud rendering according to the present invention includes a housing 1 and a fixing strap 2, wherein the fixing strap 2 is installed at the outer side of the housing 1; an observation port 11 is formed in one end, close to the fixed belt 2, of the shell 1; a protection pad 12 is arranged outside the observation port 11; a mobile phone cavity 13 is formed in one end, away from the fixed belt 2, of the shell 1; a VR glasses groove 14 is formed in the bottom of the mobile phone cavity 13; the VR glasses groove 14 is fixedly provided with a VR glasses frame 141; a lens 142 is fixedly arranged in the VR glasses frame 141; the right side of the lens 142 is provided with a first lens frame 15, a first lens 151 is fixedly arranged in the first lens frame 15, and the first lens 151 is a convex lens; a first slider 152 is installed on two sides of the first frame 15; the two sides of the shell 1 are provided with sliding grooves 16; one end of the first slider 152, which is far away from the first eyeglass frame 15, extends out of the sliding groove 16, and the first slider 152 is in sliding connection with the sliding groove 16; the first slider 152 is fixedly connected with a first adjusting block 153 at one end far away from the first eyeglass frame 15, and the first adjusting block 153 is positioned at the outer side of the shell 1; the right side of the first eyeglass frame 15 is provided with a second eyeglass frame 17, a second lens 171 is fixedly arranged in the second eyeglass frame 17, and the second lens 171 is a concave lens; two sides of the second mirror bracket 17 are provided with second sliders 172; one end of the second slider 172, which is far away from the second frame 17, extends out of the sliding groove 16, and the second slider 172 is in sliding connection with the sliding groove 16; a second adjusting block 173 is fixedly connected to one end, far away from the second eyeglass frame 17, of the second slider 172, and the second adjusting block 173 is positioned on the outer side of the shell 1;

in the prior art, in order to see characters and images on a screen when using VR glasses, a myopic person wears the glasses or brings a screen or a mobile phone close to the lens 142, and both methods weaken the sense of use of the VR glasses by the myopic person;

in the invention, when in use, a user switches the mobile phone to a video playing interface and inserts the mobile phone into the mobile phone cavity 13, so that the mobile phone screen is aligned to one side of the bottom of the mobile phone cavity 13; then wearing VR glasses and fixing the VR glasses through a fixing belt 2; video images on the mobile phone screen sequentially enter human eyes through a lens 142, a first lens 151 and a second lens 171; at this time, the user pushes the first adjusting block 153 and the second adjusting block 173 by hand, so that the first adjusting block 153 and the second adjusting block 173 slide in the chute 16, at this time, the first lens 151 moves synchronously with the first adjusting block 153, and the second lens 171 moves synchronously with the second adjusting block 173, thereby adjusting the distance between the first lens 151 and the second lens 171 until a clear picture can be seen; at this time, the combination of the first lens 151 and the second lens 171 is equivalent to a zoom lens, so that the divergence or convergence degree of light entering human eyes can be changed, that is, the diopter adjusting effect is achieved, so that a myopic person can see a picture clearly without wearing glasses, and the use feeling of VR glasses is improved;

the invention plays a role of a zoom lens through the combined design of the first lens 151 and the second lens 171, and changes the divergence or convergence degree of light rays entering human eyes by adjusting the distance between the first lens 151 and the second lens 171, thereby achieving the effect of adjusting diopter and ensuring that a myopic person can see images without wearing glasses.

As an embodiment of the present invention, the protection pad 12 is provided with an annular groove 121; an eye protection air bag 122 is arranged in the annular groove 121; an inflatable airbag 123 is installed in the chute 16, and the inflatable airbag 123 is located between the first slider 152 and the second slider 172; the inflatable air bag 123 and the eye protection air bag 122 are communicated through an air duct 124; when the eye protection air bag 122 is used, the eye protection air bag 122 is positioned at the position around the eyes of a user, the user presses the inflatable air bag 123 when pushing the first slider 152 and the second slider 172, so that gas in the inflatable air bag 123 enters the eye protection air bag 122 along the gas guide pipe 124, the eye protection air bag 122 protrudes outwards, the eyes of the user are pressed, and the eyes of the user are more comfortable.

As one embodiment of the present invention, the fixing band 2 includes an upper fixing band 21 and a side fixing band 22, and the upper fixing band 21 and the side fixing band are intersected and connected together; a soft bag 23 is arranged at the intersection position of the upper fixing belt 21 and the side fixing belt 22, and the soft bag 23 is positioned at the inner side of the fixing belt 2; the soft bag 23 is connected with a gas pipe 24, and the gas pipe 24 is adhered to the inner side of the upper fixing belt 21; the end of the air pipe 24 far away from the soft bag 23 is communicated with the eye protection air bag 122; when in use, the soft bag 23 is tightly attached to the head of a user, so that the contact area between the head and the fixing belt 2 can be increased, and the comfort level is improved; after watching a video for a period of time, the eyes of a user feel tired, at this time, the soft bag 23 is pressed by hands, so that gas in the soft bag 23 enters the eye protection air bag 122 through the gas pipe 24, at this time, the eye protection air bag 122 is further protruded, then the pressure on the soft bag 23 is relieved, so that the eye protection air bag 122 is restored to the original shape and repeated for a plurality of times, and the positions around the eyes are massaged, so that the fatigue relieving effect can be achieved.

As an embodiment of the present invention, a wind hole 125 is formed on one side of the eye protection air bag 122; a rubber plug 126 is arranged in the air hole 125, and one end of the rubber plug 126 extends out of the protection pad 12; two rubber caps 127 are arranged on the rubber plug 126, and the rubber caps 127 are positioned on two sides of the air hole 125; the bottom of the rubber cap 127 is plugged into the air hole 125; when the device is used, after a video is watched for a period of time, the rubber plug 126 is pushed to the inner side of the protection pad 12 by one hand, so that the rubber cap 127 positioned at the inner side of the air hole 125 is separated from the air hole 125, at the moment, the soft bag 23 is extruded by the other hand, and air is continuously blown into the observation port 11 through the air hole 125, so that the interior of the observation port 11 is cooled, and the soft bag 23 is provided with a one-way air inlet air nozzle which can continuously supplement air; due to the change of the temperature in the observation port 11, water mist can appear on the surfaces of the lens groups, so that the observation effect is affected, and the intermittent air blowing can prevent the water mist.

As an embodiment of the present invention, the casing 1 is provided with a set of ventilation holes 18, and the ventilation holes 18 are located above the second lens 171; when in use, most of the air entering from the air holes 125 flows out from the air holes 18, so that the air flow can be accelerated, and the temperature is reduced; in addition, if water mist is generated, the VR glasses are transversely placed, so that water drops after the water mist is liquefied flow downwards along the mirror surface and then flow out of the air holes 18, and damage to the VR glasses caused by the water drops flowing into the VR glasses is avoided.

As an embodiment of the present invention, a mobile phone baffle 131 is disposed at the top of the mobile phone cavity 13, the mobile phone baffle 131 is two arc plates with central symmetry, and the arc plates are made of elastic materials; when in use, the mobile phone is inserted into the mobile phone cavity 13, and the mobile phone is clamped by the arc-shaped plate; because of the space between the arc plates, the top of the mobile phone cavity 13 is communicated with the outside, and the mobile phone can conveniently dissipate heat.

The specific working procedure is as follows:

when the mobile phone is used, a user switches the mobile phone to a video playing interface and inserts the mobile phone into the mobile phone cavity 13, so that a mobile phone screen is aligned to one side of the bottom of the mobile phone cavity 13; then wearing VR glasses and fixing the VR glasses through a fixing belt 2; video images on the mobile phone screen sequentially enter human eyes through a lens 142, a first lens 151 and a second lens 171; at this time, the user pushes the first adjusting block 153 and the second adjusting block 173 by hand, so that the first adjusting block 153 and the second adjusting block 173 slide in the chute 16, at this time, the first lens 151 moves synchronously with the first adjusting block 153, and the second lens 171 moves synchronously with the second adjusting block 173, thereby adjusting the distance between the first lens 151 and the second lens 171 until a clear picture can be seen; at this time, the combination of the first lens 151 and the second lens 171 is equivalent to a zoom lens, so that the divergence or convergence degree of light entering human eyes can be changed, that is, the diopter adjusting effect is achieved, so that a myopic person can see a picture clearly without wearing glasses, and the use feeling of VR glasses is improved;

because the eye protection air bag 122 is positioned at the position around the eyes of the user, the user presses the inflatable air bag 123 when pushing the first slider 152 and the second slider 172, so that the gas in the inflatable air bag 123 enters the eye protection air bag 122 along the gas guide pipe 124, and the eye protection air bag 122 protrudes outwards to press the eyes of the user, and the eyes of the user are more comfortable;

meanwhile, the soft bag 23 is tightly attached to the head of a user, so that the contact area between the head and the fixing belt 2 can be increased, and the comfort level is improved; after watching a video for a period of time, the eyes of a user feel tired, at the moment, the soft bag 23 is pressed by hands, so that gas in the soft bag 23 enters the eye protection air bag 122 through the gas pipe 24, at the moment, the eye protection air bag 122 is further protruded, then the pressure on the soft bag 23 is relieved, the eye protection air bag 122 is restored to the original shape, and the process is repeated for a plurality of times, so that the positions around the eyes are massaged, and the fatigue relieving effect can be achieved;

after watching a video for a period of time, pushing the rubber plug 126 towards the inner side of the protection pad 12 by one hand to enable the rubber cap 127 positioned at the inner side of the air hole 125 to be separated from the air hole 125, at the moment, extruding the soft bag 23 by the other hand, continuously blowing air into the observation port 11 through the air hole 125, thereby cooling the inner part of the observation port 11, and arranging a one-way air inlet air tap on the soft bag 23 to continuously supplement air; due to the change of the temperature in the observation port 11, water mist can appear on the surfaces of the lens groups, so that the observation effect is affected, and at the moment, the intermittent air blowing can prevent the water mist;

since most of the air entering from the air holes 125 flows out of the air holes 18, the air flow can be accelerated, so that the temperature reduction is accelerated; in addition, if water mist is generated, the VR glasses are transversely placed, so that water drops after the water mist is liquefied flow downwards along the mirror surface and then flow out of the air holes 18, and the VR glasses are prevented from being damaged due to the fact that the water drops flow into the VR glasses;

in addition, the mobile phone is inserted into the mobile phone cavity 13, and the mobile phone is clamped by the arc-shaped plate; because of the space between the arc plates, the top of the mobile phone cavity 13 is communicated with the outside, and the mobile phone can conveniently dissipate heat.

The front, rear, left, right, up and down are all based on fig. 1 in the drawings of the specification, the face of the device facing the observer is defined as front, the left side of the observer is defined as left, and so on, according to the viewing angle of the person.

In the description of the present invention, it should be understood that the terms "center," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present invention.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. VR glasses based on 5G cloud rendering comprise a shell (1) and a fixing belt (2), wherein the fixing belt (2) is arranged on the outer side of the shell (1); the method is characterized in that: an observation port (11) is formed in one end, close to the fixing belt (2), of the shell (1); a protection pad (12) is arranged outside the observation port (11); one end of the shell (1) far away from the fixed belt (2) is provided with a mobile phone cavity (13); a VR glasses groove (14) is formed in the bottom of the mobile phone cavity (13); the VR glasses groove (14) is fixedly provided with a VR glasses frame (141); a lens (142) is fixedly arranged in the VR glasses frame (141); the right side of the lens (142) is provided with a first lens frame (15), a first lens (151) is fixedly arranged in the first lens frame (15), and the first lens (151) is a convex lens; a first sliding block (152) is arranged on two sides of the first eyeglass frame (15); sliding grooves (16) are formed in two sides of the shell (1); one end of the first sliding block (152) far away from the first eyeglass frame (15) extends out of the sliding groove (16), and the first sliding block (152) is in sliding connection with the sliding groove (16); one end of the first sliding block (152) far away from the first eyeglass frame (15) is fixedly connected with a first adjusting block (153), and the first adjusting block (153) is positioned at the outer side of the shell (1); the right side of the first lens frame (15) is provided with a second lens frame (17), a second lens (171) is fixedly arranged in the second lens frame (17), and the second lens (171) is a concave lens; two sides of the second mirror bracket (17) are provided with second sliders (172); one end, far away from the second mirror bracket (17), of the second slider (172) extends out of the sliding groove (16), and the second slider (172) is in sliding connection with the sliding groove (16); one end, far away from the second mirror bracket (17), of the second slider (172) is fixedly connected with a second adjusting block (173), and the second adjusting block (173) is positioned at the outer side of the shell (1);

an annular groove (121) is formed in the protection pad (12); an eye protection air bag (122) is arranged in the annular groove (121); an inflatable airbag (123) is arranged in the sliding groove (16), and the inflatable airbag (123) is positioned between the first slider (152) and the second slider (172); the inflatable air bag (123) is communicated with the eye protection air bag (122) through an air duct (124);

the fixing strap (2) comprises an upper fixing strap (21) and a side fixing strap (22), and the upper fixing strap (21) and the side fixing strap are fixedly intersected and connected together; a soft bag (23) is arranged at the intersection position of the upper fixing belt (21) and the side fixing belt (22), and the soft bag (23) is positioned at the inner side of the fixing belt (2); the soft bag (23) is connected with a gas pipe (24), and the gas pipe (24) is adhered to the inner side of the upper fixing belt (21); one end, far away from the soft bag (23), of the air pipe (24) is communicated with an eye protection air bag (122);

an air hole (125) is formed in one side of the eye protection air bag (122); a rubber plug (126) is arranged in the air hole (125), and one end of the rubber plug (126) extends out of the protection pad (12); two rubber caps (127) are arranged on the rubber plug (126), and the rubber caps (127) are positioned on two sides of the air hole (125); the bottom of the rubber cap (127) is plugged into the air hole (125).

2. The VR glasses based on 5G cloud rendering of claim 1, wherein: a group of ventilation holes (18) are formed in the shell (1), and the ventilation holes (18) are positioned above the second lens (171).

3. The VR glasses based on 5G cloud rendering of claim 1, wherein: the mobile phone is characterized in that a mobile phone baffle (131) is arranged at the top of the mobile phone cavity (13), the mobile phone baffle (131) is two arc-shaped plates with central symmetry, and the arc-shaped plates are made of elastic materials.