CN108957759B - VR glasses - Google Patents

Abstract

The invention discloses VR glasses with good experience effect, which comprise a wearing unit and a display unit, the wearing unit is connected with the display unit, the rear end of the display unit is provided with an atomizing unit and a vibrating unit, the atomization unit comprises an atomization lens and a sound control sensor in signal connection with the atomization lens, the sound control sensor is used for judging whether to send an atomization signal or not, when atomization needs to occur, the sound control sensor feeds back a signal to the atomization lens to realize atomization, the atomizing lens is matched with the lens of the display unit, the vibration unit comprises a vibration frame annularly arranged on the periphery of the atomizing unit, the vibration frame is provided with an accommodating cavity, a plurality of vibration blocks and an electrified coil which is electrified to generate magnetism are arranged in the accommodating cavity, the electrified coil is fixedly arranged on the inner wall of the accommodating cavity, and the electrified coil is electrified and attracted to the vibration block. The invention has at least the following advantages: has better atomization and vibration effects.

Description

VR glasses

Technical Field

The invention relates to the technical field of VR glasses, in particular to VR glasses.

Background

The virtual reality technology is a computer simulation system, can generate a simulation environment, and provides an immersive application experience for a user through three-dimensional dynamic views, entity behavior interaction and other modes. In the correlation technique, through providing the VR glasses that include virtual reality functional component to by the broadcast of user's electronic equipment shutdown virtual reality content such as cell-phone, flat board, can promote visual experience by a wide margin.

However, the existing VR glasses have single functions, cannot well meet diversified visual experiences and requirements of people, and need to be increased and optimized.

Disclosure of Invention

The invention aims to provide VR glasses which have good atomization and vibration effects.

In order to solve the above technical problems, the present invention provides VR glasses including a wearing unit and a display unit, the wearing unit is connected with the display unit, the rear end of the display unit is provided with an atomizing unit and a vibrating unit, the atomization unit comprises an atomization lens and a sound control sensor in signal connection with the atomization lens, the sound control sensor is used for judging whether to send an atomization signal or not, when atomization needs to occur, the sound control sensor feeds back a signal to the atomization lens to realize atomization, the atomizing lens is matched with the lens of the display unit, the vibration unit comprises a vibration frame annularly arranged on the periphery of the atomizing unit, the vibration frame is provided with an accommodating cavity, a plurality of vibration blocks and an electrified coil which is electrified to generate magnetism are arranged in the accommodating cavity, the electrified coil is fixedly arranged on the inner wall of the accommodating cavity, and the electrified coil is electrified and attracted to the vibration block.

Further, be in including setting up the local view cell of display element rear end, the local view cell includes the lens of adjusting luminance of the seamless concatenation of polylith, respectively with every adjust luminance lens signal connection and a plurality of timers of establishing ties, the timer is used for judging whether send the local signal of finding a view, when the timer timing to the default, the timer feeds back the signal to the lens of adjusting luminance in order to realize local framing, every adjust luminance the lens cooperation atomizing lens and can independent operation, every adjust luminance the liquid crystal molecule that sets up in the lens and be different shapes.

Further, including the magnification unit, the magnification unit with the connection can be dismantled to the unit of partly finding a view, the magnification unit is including setting up adjust luminance the slide rail of lens edge, relatively adjust luminance the lens along upper and lower or left and right sides direction slip establish magnifying glass subassembly on the slide rail, with the servo motor that the drive of magnifying glass subassembly is connected.

Further, the magnifying glass component comprises a telescopic connecting rod and a magnifying glass, wherein the telescopic connecting rod is arranged on the sliding rail in a sliding mode, and the magnifying glass is fixedly connected with the telescopic connecting rod.

Further, a heart rate sensor for detecting a heart rate value of a user is included, and the heart rate sensor is in signal connection with the atomizing lens.

Further, the fogging lens includes TPT powered glass.

Further, the atomizing device comprises a spraying unit arranged at the rear side of the atomizing unit, and the spraying unit is used for spraying the fog beads to the intermittent spray head of the cheek of the user.

Furthermore, the intermittent nozzle is connected with a flow regulating valve for regulating the spraying amount.

Further, including setting up the warm braw unit of atomizing unit rear side, the warm braw unit include the electric fan heater, with electric fan heater signal connection's temperature sensor.

Further, wear the unit and include annular fixed band and top fixed band, the both ends fixed connection of annular fixed band the relative both sides face of display element, top fixed band one end fixed connection the top surface of display part, other end fixed connection the intermediate position of annular fixed band.

By means of the technical scheme, the invention at least has the following advantages:

1. the atomization unit is arranged and comprises an atomization lens and a voice control sensor, the voice control sensor is used for collecting a sound decibel value sent by an operator in the experience process, judging whether the collected sound decibel value is within a preset numerical range and exceeds the preset numerical range, and enabling the atomization lens to be powered off through signal feedback to achieve an atomization effect, so that the stimulation degree of a virtual scene to the operator is reduced, and the safety of the experience process is protected; meanwhile, the atomization lens is adopted, so that the transparency and the opaqueness can be rapidly switched, the response is rapid, and the experience effect is good;

2. through being provided with vibrations unit, including vibrations piece and circular telegram coil, through control circular telegram coil break-make with the actuation or release vibrations piece to increase virtual scene and to stir-fry author's excitement, experience is effectual.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of an atomizing unit of the present invention;

FIG. 3 is a schematic structural diagram of a vibration unit of the present invention;

FIG. 4 is a mechanism schematic of the partial viewing unit of the present invention;

fig. 5 is a schematic view of another embodiment of the present invention.

In the above drawings: 1. a display unit; 2. an atomizing unit; 3. vibrating the frame; 4. an accommodating cavity; 5. a vibration block; 6. an electrified coil; 7. a local view finding unit; 8. a slide rail; 9. a telescopic connecting rod; 10. a magnifying glass; 11. an intermittent type spray head; 12. a warm air blower; 13. a temperature sensor; 14. an annular securing strap; 15. a top securing strap; 201. atomizing the lens; 202. a voice-activated sensor; 701. a light-adjusting lens; 702. a timer.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

With reference to fig. 1 to 5, the invention discloses VR glasses, which comprise a wearing unit and a display unit 1, wherein the wearing unit is connected with the display unit 1. In the invention, the wearing unit comprises an annular fixing belt 14 and a top fixing belt 15, two ends of the annular fixing belt 14 are fixedly connected with two opposite side surfaces of the display unit 1, one end of the top fixing belt 15 is fixedly connected with the top surface of the display unit 1, and the other end of the top fixing belt 15 is fixedly connected with the middle position of the annular fixing belt 14. Through foretell mode of setting up, can fix VR glasses in operator's head, configuration optimization better.

The rear end of display element 1 is provided with atomizing unit 2 and vibrations unit, atomizing unit includes atomizing lens 201, signal connection atomizing lens 201's acoustic control sensor 202. In the present invention, it is preferable that the fogging mirror 201 is fitted to a mirror of the display unit 1. The sound control sensor 202 is used for judging whether to send an atomization signal, and when atomization needs to be carried out, the sound control sensor 202 feeds back the signal to the atomization lens 201 to achieve atomization. In the present invention, the fogging mirror 201 preferably includes TPT powered glass. Through the above setting mode, the sound control sensor 202 is configured to collect a sound decibel value emitted by an operator in an experience process, and judge whether the collected sound decibel value is within a preset numerical range, and if the collected sound decibel value exceeds the preset numerical range, the atomization lens 201 is powered off through signal feedback, so that an atomization effect is achieved, the stimulation degree of a virtual scene to the operator is reduced, and the safety of the experience process is protected; adopt atomizing lens 201 simultaneously, can switch between transparent, opaque fast, the response is rapid, experiences effectually. The VR glasses further comprise a heart rate sensor for detecting the heart rate value of a user, and the heart rate sensor is in signal connection with the atomization lens 201. By arranging the heart rate sensor and comparing the heart rate value of the user with a preset value, the atomization lens 201 is switched on and off, so that the safety of the user is further improved on the one hand; on the other hand, the problem of sound production of users suffering from stuttering or language disorder can be effectively solved by detecting the heart rate value, and the function is optimized.

The vibrations unit is established including the ring atomizing unit outlying vibrations frame 3, vibrations frame 3 have a holding chamber 4 be provided with a plurality of vibrations pieces 5 and circular telegram in order to produce magnetic circular telegram coil 6 in the holding chamber 4, circular telegram coil 6 is fixed to be set up on the inner wall of holding chamber 4, circular telegram coil 6 circular telegram actuation vibrations piece 5. Through being provided with the vibrations unit, including vibrations piece 5 and circular telegram coil 6, through control circular telegram coil 6 break-make electricity with the actuation or release vibrations piece 5 to increase virtual scene and to operator's excitement and sense of reality, experience is effectual.

The VR glasses of the present invention further include a local view unit 7 disposed at the rear end of the display unit, where the local view unit includes a plurality of seamlessly spliced dimming lenses 701, and a plurality of timers 702 respectively connected to the dimming lenses 701 in series and in signal connection. The timer 702 is configured to determine whether to send a local view signal, when the timer 702 times to a preset value, the timer 702 feeds the signal back to the light adjusting lens 701 to implement local view, each light adjusting lens 701 cooperates with the atomizing lens 201 and can operate independently, and liquid crystal molecules disposed in each light adjusting lens 701 are in different shapes. Through the above setting mode, the on-off of the dimming lens 701 is controlled by setting the timing length of the timer 702, and the liquid crystal molecules in the dimming lens 701 are in different shapes, so that the local light transmission is adjusted, the virtual scene can be better matched, and the experience effect is enhanced. In the invention, the dimming lens 701 is provided with a plurality of layers, so that the matching requirements under different scenes can be met, and the function is optimized.

The VR glasses comprise an amplifying unit, the amplifying unit is detachably connected with the local view finding unit, the amplifying unit comprises a slide rail 8 arranged at the edge of the light adjusting lens 701, an amplifying lens component arranged on the slide rail 8 in a sliding manner along the vertical or horizontal direction relative to the light adjusting lens 701, and a servo motor (shown in the figure) in driving connection with the amplifying lens component. The magnifier assembly comprises a telescopic connecting rod 9 arranged on the sliding rail 8 in a sliding mode and a magnifier 10 fixedly connected with the telescopic connecting rod 9. Through the arrangement mode, under a specific scene, the servo motor drives the magnifier 10 to move so as to magnify local characteristics, the experience degree of a user is enhanced, and the structure is optimized.

The VR glasses of the present invention further include a spraying unit disposed at a rear side of the atomizing unit, the spraying unit being used for an intermittent nozzle 11 for spraying a bead toward a cheek of a user. In the present invention, it is preferable that the intermittent head 11 is connected with a flow rate adjusting valve for adjusting the amount of the spray. The VR glasses comprise a warm air unit arranged on the rear side of the atomizing unit, wherein the warm air unit comprises a warm air blower 12 and a temperature sensor 13 in signal connection with the warm air blower 12. Through foretell setting mode, can further increase the authenticity that the user experienced, the function optimization.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (9)

1. The utility model provides a VR glasses, is including wearing unit and display element, it is connected with the display element to wear the unit, its characterized in that: the rear end of the display unit is provided with an atomization unit and a vibration unit, the atomization unit comprises an atomization lens and a sound control sensor in signal connection with the atomization lens, the sound control sensor is used for judging whether an atomization signal is sent or not, when atomization needs to occur, the sound control sensor feeds back the signal to the atomization lens to achieve atomization, the atomization lens is matched with the lens of the display unit, the vibration unit comprises a vibration frame annularly arranged on the periphery of the atomization unit, the vibration frame is provided with an accommodating cavity, a plurality of vibration blocks and an electrified coil which is electrified to generate magnetism are arranged in the accommodating cavity, the electrified coil is fixedly arranged on the inner wall of the accommodating cavity, and the electrified coil is electrified to attract the vibration blocks;

including setting up the local view cell of display element rear end, the local view cell includes the seamless concatenation of polylith lens, respectively with every of adjusting luminance lens signal connection and a plurality of timers of establishing ties, the timer is used for judging whether send the local signal of finding a view, when the timer timing to the default, the timer with signal feedback to adjust luminance the lens in order to realize local finding a view, every adjust luminance the cooperation of lens atomizing lens and can independent operation, every the liquid crystal molecule that sets up in the lens of adjusting luminance is different shapes.

2. The VR glasses of claim 1, including a magnifying unit detachably connected to the local view unit, the magnifying unit including a slide rail disposed at an edge of the dimming lens, a magnifier assembly slidably disposed on the slide rail in up-down or left-right directions relative to the dimming lens, and a servo motor drivingly connected to the magnifier assembly.

3. The VR glasses of claim 2, wherein the magnifier assembly includes a retractable link slidably disposed on the slide track, and a magnifier fixedly coupled to the retractable link.

4. The VR glasses of claim 1, comprising a heart rate sensor to detect a heart rate value of a user, the heart rate sensor in signal communication with the fogging lenses.

5. The VR glasses of claim 4, wherein the frosted lens includes TPT powered glass.

6. The VR glasses of claim 1, comprising a spray unit disposed behind the atomization unit, the spray unit to provide an intermittent spray of beads toward the cheek of the user.

7. The VR glasses of claim 6, wherein a flow control valve is coupled to the intermittent spray head for adjusting the amount of spray.

8. The VR glasses of claim 1, comprising a warm air unit disposed behind the atomizing unit, the warm air unit comprising a warm air blower, a temperature sensor in signal connection with the warm air blower.

9. The VR glasses of claim 1, wherein the wearing unit includes an annular fixing band and a top fixing band, two ends of the annular fixing band are fixedly connected to two opposite sides of the display unit, and one end of the top fixing band is fixedly connected to a top surface of the display portion, and the other end of the top fixing band is fixedly connected to a middle position of the annular fixing band.

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