CN116149063B - Intelligent VR (virtual reality) head-mounted device capable of reducing influence of external light and method thereof - Google Patents

Abstract

The utility model discloses intelligent VR (virtual reality) head-mounted equipment capable of reducing external light influence and a method thereof, and relates to the relevant field of VR equipment.

Description

Intelligent VR (virtual reality) head-mounted device capable of reducing influence of external light and method thereof

Technical Field

The utility model relates to the field of VR equipment, in particular to intelligent VR head-mounted equipment capable of reducing the influence of external light and a method thereof.

Background

The virtual reality technology (i.e., VR technology), which is specifically a brand-new man-machine interaction means created by means of computing or mobile terminals and the latest sensor technology, whereas the head-mounted VR device is a device for closing the vision and hearing of a person to the outside by using a head-mounted display device, and guides the user to generate a feeling in a virtual environment, the display principle is that left and right eye screens respectively display left and right eye images, and the human eyes generate a stereoscopic impression in the brain after acquiring the information with the difference.

The utility model discloses (bulletin) CN216351569U, which discloses a comfortable VR (virtual reality) head-mounted device with a shading and dust-proof net, and has the beneficial effects that the angle of the shading and dust-proof net is conveniently adjusted by a worker, the operation steps of adjusting the shading and dust-proof net are reduced, the efficiency of adjusting the shading and dust-proof net is further improved, the labor intensity of adjustment is reduced, the shading and dust-proof net is conveniently fixed after adjustment, and the fixing efficiency of the shading and dust-proof net is improved; the utility model discloses (bulletin) CN214041891U, a VR head-mounted device with shading and dust-proof net, which comprises a VR body and a strap, wherein the left end and the right end of the front side of the VR body are respectively vertical and fixedly provided with mounting blocks, the mounting blocks on the left side and the right side are mutually symmetrically arranged, the front side of the VR body is rotationally provided with the shading and dust-proof net, and the left end and the right end of the shading and dust-proof net are respectively rotationally connected with the mounting blocks on the left side and the right side; the utility model provides a CN202211496935.4 discloses a high-efficient face identification equipment and application method thereof for biological feature recognition equipment field, and this equipment not only can provide outer protection for face identification equipment body through warp the light screen to avoid receiving external force and taking place the damage, warp the light screen moreover and can rotate 90 to the top shelter from external interference light, effectively improve the sensitivity of discernment.

The prior art is to squeeze the shading liquid into the cavity to provide shading effect for the transparent glass, and switch the shading function of the transparent glass by leading in or leading out the shading liquid, which is easy to cause the shading liquid to remain in the cavity and to generate pigmentation under long-time contact; meanwhile, part of the prior art adopts a water circulation mode to provide massage and shading for eyes, and the mode needs to arrange power parts such as a water pump and the like on VR wearing equipment, so that the whole weight of the wearing equipment is increased to influence the use experience; the outside of prior art shelters from light-proof member such as part mostly adopts cloth, and the light leak appears in this mode influence wearing and aesthetic property easily, also is difficult to adjust its shading performance to lead to prior art's light-proof member practicality relatively poor.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned shortcomings, the present utility model provides an intelligent VR headset and a method thereof capable of reducing the influence of external light.

The intelligent VR head-mounted device capable of reducing the influence of external light and the method thereof are realized, the device comprises VR equipment, regulating and controlling parts which play a role in regulation are arranged at the left end and the right end of the VR equipment, shading and regulating components which play a role in protection are arranged in the VR equipment, a telescopic rope is fixedly bound in an opening groove at the outer side of the VR equipment, and a shading part and a clamping part which is bound at the outer side end of the telescopic rope are slidably arranged at the outer side of the telescopic rope; the shading adjusting component comprises a clamping plastic part, and the clamping plastic part with a limiting function is fixedly clamped at the rear end of the inner side of the VR equipment; the strip-shaped air bags are adhered to the open slot at the rear end of the clamping plastic part and play a role in buffering; the strip-shaped air bags are positioned at the opening at the bottom of the clamping plastic part and are adhered and fixed with the nose wing air bags which play a role in protecting the nose wings; the blocking head is sealed and adhered at the through hole at the right end of the nose wing air bag and plays a role in exhausting air; the air inlet pipeline at the front end of the strip-shaped air bag is provided with an air pipe with a flow guiding function; the air pipe is arranged at the air outlet at the rear end of the first one-way valve; the extrusion piece is provided with a first check valve pipeline, and the first check valve pipeline is arranged at the rear end of the extrusion piece; the detection part is arranged at the side clamping plate in the clamping plastic part and has a detection function; the strip-shaped air bags and the nose wing air bags are communicated through connecting pipes, and the two sets of nose wing air bags at the bottom sides of the strip-shaped air bags are splayed.

Preferably, the extrusion comprises: the sealing cover plate is provided with a first one-way valve pipeline which is arranged at a side through hole in the sealing cover plate; the sealing cover plate bolts are arranged at the front end and the rear end of the cylinder body; the front end of the outer side of the cylinder body is fixedly welded with a mounting ring which plays a role in mounting and limiting the cylinder body; the piston plate is arranged in the cylinder body in a sliding manner and provides extrusion force for air pressure; the front end of the piston plate is rotatably provided with a pull rod which plays a role in reciprocating pulling the piston plate; the pull rod is rotatably arranged at the left end of the manual adjusting piece; and the second one-way valve is arranged on the pipeline at the rear side of the top of the cylinder body.

Preferably, the manual adjusting piece comprises an adjusting hand wheel, and a left end transmission rod body of the adjusting hand wheel is arranged at the right end through hole of the mounting ring in a penetrating way; the clamping key is welded on the transmission rod body at the left end of the regulating hand wheel and plays a role of clamping; the clamping ring is arranged at the right end through hole of the mounting ring in a sliding manner and plays a role in clamping the clamping key; the outer side surface of the clamping ring is fixedly adhered with an insulating ring with an insulating effect; the electromagnetic suction plate is respectively arranged at the left end of the clamping ring and the right end of the mounting plate through bolts; the installation plate, the pull rod rotates and installs in installation plate left end draw-in bar department.

Preferably, the detecting piece comprises a current adapter, and the current adapter is mounted at a through hole at the top of the VR equipment through a bolt; the main control board is mounted at the middle side groove of the rear end of the VR equipment through bolts and plays a role in control; the light sensor is mounted on the bolt at the top side of the rear end of the main control board and has a detection function; an ambient light sensor which plays a role in detection is mounted on the middle bolt at the rear end of the main control panel; and the humidity sensor is mounted on the bottom side bolt at the rear end of the main control panel and has a detection function.

Preferably, the shading piece comprises a sliding clamping block, and the outer surface of the telescopic rope is provided with the sliding clamping block with a limiting function in a sliding manner; the elastic plastic part is adhered and fixed on the inner side wall of the sliding clamping block and has an extrusion effect; binding rods are respectively rotatably arranged at the left end and the right end of the sliding clamping block; the flexible rubber plate is bound and fixed at the top of the binding rod; preferably, the light shielding member further includes: a sealing sprue is sealed and stuck at the through hole at the front end of the flexible glue board; the periphery of the inner side wall of the flexible glue board is coated with the special paint; the conductive medium is arranged in the flexible glue board in a flowing mode, and the conductive medium has a conductive effect.

Preferably, the material of the flexible glue board is specifically composed of antistatic TPU material, and the special coating is specifically formed by mixing an organic material with metal salt and glass filaments, wherein the organic material is composed of metal phthalocyanine compounds.

Preferably, the bottom of the flexible glue board is provided with a cable which has a conducting effect together, and the cable output head is inserted into the flexible glue board to be in contact with a conducting medium, wherein the conducting medium can be liquid mercury.

Preferably, the first check valve and the second check valve are respectively in output one-way and input one-way designs, and the current adapter is used for respectively providing electric energy for the electromagnetic suction plate and the main control plate.

Preferably, the method for using the intelligent VR headset capable of reducing the influence of external light includes the following steps:

step one: wearing VR equipment, and controlling the VR equipment to start;

step two: the shading adjusting component is controlled, and an adjusting hand wheel is used for driving air pressure to enter the strip-shaped air bags and the nasal wing air bags through the air pipes so as to shade and support the eyes and the nasal wings;

step three: waking up the detection part while regulating and controlling the pupil distance of the VR equipment;

step four: the light sensor and the ambient light sensor respectively detect ambient light and transmit data to the main control board;

step five: controlling the current adapter to output current to the conductive medium by using the detection data in the fourth step;

step six: the conductive medium can transfer ionization to the special paint inside the flexible glue board, and the special paint changes color to shield light;

step seven: and repeating the fourth step.

The utility model has the following advantages: the utility model provides an intelligent VR (virtual reality) head-mounted device capable of reducing the influence of external light and a method thereof by improving the intelligent VR head-mounted device, and compared with the same type of device, the intelligent VR head-mounted device has the following improvement:

according to the intelligent VR head-mounted device capable of reducing the influence of external light and the method thereof, the shading adjusting component is arranged in the VR device, the clamping plastic piece is used for providing clamping actions for the strip-shaped air bags and the nose wing air bags, and the blocking head is used for providing trace pressure relief for the strip-shaped air bags and the nose wing air bags on the premise that the extrusion piece is used for providing air pressure for the strip-shaped air bags and the nose wing air bags, so that shielding and supporting effects are beneficial to providing for the eye sockets and the nose wing of a wearer by the strip-shaped air bags and the nose wing air bags.

According to the intelligent VR head-mounted device capable of reducing the influence of external light and the method thereof, the extrusion piece is arranged at the bottom side of the VR device, the clamping ring and the mounting disc are driven to rotate under the adsorption action of the two groups of electromagnetic suction plates by the adjusting hand wheel, so that the mounting disc drives the piston plate to slide in the cylinder under the action of the pull rod, the air pressure difference is formed through the first one-way valve and the second one-way valve, and the phenomenon that the whole weight of the wearing device is increased due to the fact that a motor and other parts are adopted when a wearer can improve the adjusting effect through manual control after sensing the wearing fitness is avoided.

According to the intelligent VR headset capable of reducing the influence of external light and the method thereof, the detection piece is arranged on the middle side of the rear end of the VR device, the light sensor, the ambient light sensor and the humidity sensor are driven to detect the light and the humidity between the VR device and eyes of a wearer respectively under the control actions of the current distribution of the current adapter and the main control board, the light sensor and the ambient light sensor can identify the specific diffusion phenomenon of the light, and the influence of the external light on the VR device is reduced.

According to the intelligent VR headset capable of reducing the influence of external light and the method thereof, the shading piece is arranged on the outer side of the telescopic rope, the current can be fully contacted with the special paint through the conductivity of the conductive medium, and the flexible rubber plate can be quickly converted into a color sample close to black under the full transparent state under the rapid conversion effect of the organic material and the metal salt in the special paint, so that the flexible rubber plate can block the influence of external light on the top side, the left side and the right side of the VR headset.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic diagram of a rear perspective view of a VR device and shade adjustment assembly of the present utility model;

FIG. 3 is a schematic view of a rear perspective view of a shade adjustment assembly of the present utility model;

FIG. 4 is a schematic perspective cross-sectional view of an extrusion of the present utility model;

FIG. 5 is a schematic view of a three-dimensional exploded view of the manual adjustment of the present utility model;

FIG. 6 is a schematic perspective view of a detecting member according to the present utility model;

FIG. 7 is a schematic perspective view of a shade according to the present utility model;

fig. 8 is a flow chart of the method of the present utility model.

Wherein: VR equipment-1, a regulating part-2, a shading regulating component-3, a telescopic rope-4, a shading part-5, a clamping part-6, a clamping plastic part-31, a strip-shaped air bag-32, a nose wing air bag-33, a blocking head-34, an air pipe-35, a first one-way valve-36, an extrusion part-37, a detecting part-38, a sealing cover plate-371, a cylinder body-372, a mounting ring-373, a piston plate-374, a pull rod-375, a manual regulating part-376, a second one-way valve-377, a regulating hand wheel-3761, a clamping key-3762, a clamping ring-3763, an insulating ring-3764, an electromagnetic suction plate-3765, a mounting plate-3766, a current adapter-381, a main control plate-382, a brightness sensor-383, an ambient light sensor-384, a humidity sensor-385, a sliding clamping block-51, an elastic plastic part-52, a connecting rod-53, a flexible glue plate-54, a sealing sprue-55, a special paint-56 and a conductive medium-57.

Detailed Description

The principles and features of the present utility model are described below with reference to fig. 1-8, which are examples for illustration only and are not intended to limit the scope of the utility model. The utility model is more particularly described by way of example in the following paragraphs with reference to the drawings. Advantages and features of the utility model will become more apparent from the following description and from the claims. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for convenience and clarity in aiding in the description of embodiments of the utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Example 1

Referring to fig. 1-8, the intelligent VR headset capable of reducing the influence of external light and the method thereof of the utility model comprise VR equipment 1, wherein regulating and controlling parts 2 playing a role in regulation are arranged at the left end and the right end of the VR equipment 1, a shading and regulating component 3 playing a role in protection is arranged in the VR equipment 1, a telescopic rope 4 is fixedly bound in an opening slot at the outer side of the VR equipment 1, a shading part 5 and a clamping part 6 bound at the outer side end of the telescopic rope 4 are slidably arranged at the outer side of the telescopic rope 4; the shading adjusting component 3 comprises a clamping plastic part 31, the rear end of the inner side of the VR equipment 1 is fixedly clamped with the clamping plastic part 31 playing a role in limiting, a strip-shaped air bag 32 playing a role in buffering is adhered to the opening slot of the rear end of the clamping plastic part 31, protection buffering is provided for eyes of a wearer through the strip-shaped air bag 32, a nose wing air bag 33 playing a role in protecting nose wings is adhered and fixed to the opening of the bottom of the clamping plastic part 31 through the strip-shaped air bag 32, a plugging head 34 playing a role in exhausting is adhered and sealed at the position of a through hole of the right end of the nose wing air bag 33, the air pressure inside the nose wing air bag 33 is slightly discharged through the plugging head 34, an air pipe 35 playing a role in guiding is installed at the air inlet pipeline of the front end of the strip-shaped air bag 32, an air pipe 35 is installed at the air outlet of the rear end of a first one-way valve 36, the first one-way valve 36 is installed at the rear end of a pressing part 37, a detection part 38 playing a role in detecting role is arranged at the middle side clamping plate of the clamping plastic part 31, the strip-shaped air bag 32 and the nose wing air bag 33 are communicated through a connecting pipe, and the two groups of the nose wing air bags 33 playing a role in protecting nose wings of the shape of the nose wing 32, and the eight-shaped air bag 32 are used for providing protection effects for the wearer.

The extrusion 37 includes sealed apron 371, first check valve 36 pipe-line mount is in sealed apron 371 mid-side through-hole department, sealed apron 371 bolt mount is at the front and back both ends of cylinder body 372, cylinder body 372 outside front end welded fastening has the collar 373 that plays the installation spacing effect to it, utilize collar 373 to provide spacing effect for cylinder body 372, cylinder body 372 inside slip is provided with the piston plate 374 that provides the extrusion force to the atmospheric pressure, piston plate 374 front end rotates installs the pull rod 375 that plays the reciprocating pulling effect to it, utilize pull rod 375 to provide the action of pulling for piston plate 374, pull rod 375 rotates to install at manual regulating member 376 left end, cylinder body 372 top rear side pipe-line mount has second check valve 377.

The manual adjusting piece 376 comprises an adjusting hand wheel 3761, a left end transmission rod body of the adjusting hand wheel 3761 is arranged at the right end through hole of the mounting ring 373 in a penetrating mode, a clamping key 3762 playing a clamping role is welded on the left end transmission rod body of the adjusting hand wheel 3761, a clamping ring 3763 playing a clamping role on the clamping key 3762 is slidably arranged at the right end through hole of the mounting ring 373, the transmission effect of the adjusting hand wheel 3761 is improved by utilizing the clamping action between the clamping key 3762 and the clamping ring 3763, an insulating ring 3764 playing an insulating role is fixedly adhered to the outer side face of the clamping ring 3763, the protection effect of the electromagnetic suction plate 3765 is improved by utilizing the insulating ring 3764, the electromagnetic suction plate 3765 is respectively installed at the left end of the clamping ring 3763 and the right end of the mounting plate 3766 through bolts, and the pull rod 375 is rotatably installed at the left end clamping rod of the mounting plate 3766.

The working principle of the intelligent VR headset capable of reducing the influence of external light and the method thereof based on the embodiment 1 is as follows:

when the equipment is used, the equipment is firstly placed in a working area, and then the device is connected with an external power supply, so that the power supply required by the work of the equipment can be provided; the user firstly adjusts and binds the length of the telescopic rope 4 through the clamping piece 6, so that the VR equipment 1 is worn on the head of the user, after the wearing is finished, the lens barrel in the VR equipment 1 is adjusted through the adjusting piece 2 on the side edge of the VR equipment 1, and then the VR equipment 1 is started; when the VR device 1 is started, electric energy is provided for the detection piece 38 through the VR device 1, currents are respectively output to the electromagnetic suction plate 3765 and the cables at the bottom sides of the plurality of groups of flexible glue plates 54 under the control action of the detection piece 38, a wearer can press and apply torsion to the adjusting hand wheel 3761 at the moment, the adjusting hand wheel 3761 drives the clamping key 3762 to be clamped with the clamping ring 3763 under the action of the pressing force, so that the adjusting hand wheel 3761 can synchronously drive the clamping ring 3763 to rotate under the clamping action of the clamping key 3762, and at the moment, the two groups of electromagnetic suction plates 3765 at the left end of the clamping ring 3763 and the right end of the mounting plate 3766 are electrified and magnetized to be mutually adsorbed, so that the adjusting hand wheel 3761 can drive the mounting plate 3766 to provide tension to the pull rod 375; because the mounting plate 3766 and the pull rod 375 are in eccentric circle insertion design, the mounting plate 3766 can provide reciprocating pulling action for the piston plate 374 under the traction action of the pull rod 375, the clamping connection is arranged at the mounting plate 3766 and can drive the mounting plate 3766 to rotate under the electromagnetic adsorption action so as to realize air pressure adjustment when the VR equipment 1 works, the phenomenon of false touch when the VR equipment 1 is idle is avoided, the pull rod 375 can enable the piston plate 374 to realize air pressure output in the cylinder 372 under the limiting action of the first check valve 36 and the second check valve 377, so that air pressure is output to the strip-shaped air bag 32 and the nose wing air bag 33 in sequence, trace air delivery can be carried out on the strip-shaped air bag 32 and the nose wing air bag 33, the strip-shaped air bag 32 and the nose wing air bag 33 are prevented from being inflated through external inflation equipment, and a wearer can adjust the air pressure in the air pressure according to the contact between the piston plate and the strip-shaped air bag 32 and the nose wing air bag 33; the strip-shaped air bags 32 and the nose wing air bags 33 are respectively inflated to support and shield eyes and nose wings of a wearer, and then air pressure in the strip-shaped air bags 32 and the nose wing air bags 33 can be properly discharged through the blocking heads 34, so that the air pressure values of the strip-shaped air bags 32 and the nose wing air bags 33 can be adjusted, and the wearing adaptability and the shielding effect on external ambient light can be improved.

Example 2

Referring to fig. 1 to 8, compared with the embodiment 1, the present embodiment further includes a detecting element 38, the detecting element 38 includes a current adapter 381, the current adapter 381 is mounted on a through hole at the top of the VR device 1 by bolts, and the VR device 1 is utilized to provide a current distribution effect for the current adapter 381; the main control board 382 with a control function is mounted on the bolt at the middle side groove of the rear end of the VR device 1, the bright sensor 383 with a detection function is mounted on the bolt at the top side of the rear end of the main control board 382, the ambient light sensor 384 with a detection function is mounted on the bolt at the middle side of the rear end of the main control board 382, the humidity sensor 385 with a detection function is mounted on the bolt at the bottom side of the rear end of the main control board 382, and data transmission and control effects are provided for the bright sensor 383, the ambient light sensor 384 and the humidity sensor 385 through the main control board 382.

The first check valve 36 and the second check valve 377 are respectively in output unidirectional design and input unidirectional design, and the current adapter 381 respectively provides electric energy for the electromagnetic suction plate 3765 and the main control plate 382, so that the guiding and guiding effects of the first check valve 36 and the second check valve 377 are improved.

In this embodiment:

here, the main control board 382 can control the light sensor 383, the ambient light sensor 384 and the humidity sensor 385 to perform sensing monitoring on the light and humidity between the VR device 1 and the eyes of the wearer, the light source emitted by the lens barrel of the VR device 1 is parallel to the light detected by the light sensor 383 and the ambient light sensor 384, the external ambient light is perpendicular to the light detected by the light sensor 383 and the ambient light sensor 384 or is oblique, the light sensor 383 and the ambient light sensor 384 respectively provide sensing data detection on the two light sources, and the detection data is output to the VR device 1 through the main control board 382 and displayed on the panel of the VR device 1, so that the detection effect on the external ambient light is improved.

Example 3

Referring to fig. 1-8, the intelligent VR headset capable of reducing external light influence comprises a shading piece 5, wherein the shading piece 5 comprises a sliding clamping block 51, the outer surface of a telescopic rope 4 is slidably provided with the sliding clamping block 51 with a limiting function, an elastic plastic piece 52 with an extrusion function is fixedly adhered to the inner side wall of the sliding clamping block 51, clamping effects are provided between the sliding clamping block 51 and the telescopic rope 4 by using elasticity of the elastic plastic piece 52, binding rods 53 are rotatably arranged at the left end and the right end of the sliding clamping block 51 respectively, flexible glue plates 54 are fixedly bound at the top of the binding rods 53, sealing nozzles 55 are hermetically adhered at through holes at the front end of the flexible glue plates 54, special paint 56 is coated on the periphery of the inner side wall of the flexible glue plates 54, the inner side wall of the flexible glue plates 54 is provided with a shielding effect by using the special paint 56, and conductive mediums 57 with a conductive function are arranged inside the flexible glue plates 54 in a flowing mode.

The flexible glue board 54 is made of antistatic TPU material, and the special paint 56 is made of organic material, metal salt and glass fiber, wherein the organic material is made of metal phthalocyanine compound; the bottom of the flexible glue board 54 is provided with a cable with a conducting effect, and the cable output head is inserted into the flexible glue board 54 to be in contact with the conducting medium 57, wherein the conducting medium 57 can be liquid mercury specifically, and the conducting effect of the conducting medium 57 is improved.

In this embodiment:

firstly, when the wearing action is carried out, a worker can bind the telescopic ropes 4 on the clamping pieces 6, adapt to the head circumference of a wearer by adjusting the length of the telescopic ropes 4, and unfold and insert the flexible glue plates 54 on the outer sides of the telescopic ropes 4 through the sliding clamping blocks 51 and the elastic plastic pieces 52, at the moment, as the three telescopic ropes 4 are bound on the top and the left and the right sides of the VR equipment 1, the flexible glue plates 54 can be fixed on the three telescopic ropes 4 on the outer sides of the VR equipment 1 under the clamping action of the elastic materials of the elastic plastic pieces 52 and the telescopic ropes 4, and can shield the top sides, the left and the right sides of the VR equipment 1 under the straightening action of the flexible glue plates 54 by the binding rods 53, and the flexible glue plates 54 are in butt joint with sockets of the current adapters 381 through cables;

second, when the current adapter 381 outputs the current to the plurality of sets of flexible glue boards 54 through the cable, the current can fully contact the special paint 56 through the high-efficiency conductivity and fluidity of the conductive medium 57 inside the current adapter, and the organic material, the metal salt molecules and the electrons in the special paint 56 can be quickly converted into a color sample close to black in a fully transparent state by utilizing the electric principle under the ionization effect of the special paint 56, so that the flexible glue boards 54 can block the influence of external light on the top side, the left side and the right side of the VR device 1.

Example 4

Referring to fig. 1 to 8, the application method of the intelligent VR headset capable of reducing the influence of external light of the present utility model includes the following steps:

step one: wearing VR equipment 1, and controlling the VR equipment 1 to start;

step two: the shading adjusting component 3 is adjusted and controlled, and an adjusting hand wheel 3761 is utilized to drive air pressure to enter the strip-shaped air bags 32 and the nose wing air bags 33 through the air pipes 35 so as to shade and support eyes and nose wings;

step three: the detection piece is awakened while the pupil distance of VR equipment 1 is regulated;

step four: the light sensor 383 and the ambient light sensor 384 detect ambient light and transmit data to the main control board 382, respectively;

step five: controlling the current adapter 381 to output current to the conductive medium 57 by using the detection data of the fourth step;

step six: the conductive medium 57 can transfer ionization to the special paint 56 inside the flexible glue board 54, and cause the special paint 56 to change color to shield light;

step seven: and repeating the fourth step.

The utility model provides intelligent VR head-wearing equipment capable of reducing external light influence and a method thereof by improvement, clamping action is provided for a strip-shaped air bag 32 and a nose wing air bag 33 through a clamping plastic piece 31, micro pressure relief is provided for the strip-shaped air bag 32 and the nose wing air bag 33 by a blocking head 34 on the premise that an extrusion piece 37 provides air pressure for the strip-shaped air bag 32 and the nose wing air bag 33, shielding and supporting effects are provided for the eye sockets and the nose wings of a wearer by the strip-shaped air bag 32 and the nose wing air bag 33, a clamping ring 3763 and a mounting disc 3766 are driven to rotate under the adsorption action of two groups of electromagnetic suction plates 3765 by an adjusting hand wheel 3761, so that the mounting disc 3766 drives a piston plate 374 to slide in a cylinder 372 under the action of a pull rod 375 and air pressure difference is formed by a first one-way valve 36 and a second one-way valve 377, the wearer can sense the wearing fitness and then manually adjust the wearing fitness to improve the adjusting effect, at the same time, the phenomenon that the whole weight of the wearing equipment is increased due to the adoption of a motor and other parts is avoided, the current distribution of the current adapter 381 and the control action of the main control board 382 are utilized to drive the light sensor 383, the ambient light sensor 384 and the humidity sensor 385 to respectively detect the light and the humidity between the VR equipment 1 and the eyes of the wearer, the light sensor 383 and the ambient light sensor 384 can identify the specific diffusion phenomenon of the light, the influence of the external light on the VR equipment 1 is reduced, the current can be fully contacted with the special paint 56 through the conductivity of the conductive medium 57, the flexible glue plate 54 can be quickly converted into a color sample close to black under the full transparent state under the quick conversion action of organic materials and metal salts in the special paint 56, thereby enabling the flexible glue board 54 to block the influence of external light on the top and left and right sides of the VR device 1.

The basic principle and main characteristics of the utility model and the advantages of the utility model are shown and described above, standard parts used by the utility model can be purchased from market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of the parts adopt conventional means such as mature bolt rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the description is omitted.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a reducible outside light influences's intelligent VR head-mounted device, includes VR equipment (1), both ends all are equipped with regulation and control piece (2) that play the regulation effect about VR equipment (1), the inside shading regulation subassembly (3) that play the guard action that are equipped with of VR equipment (1), VR equipment (1) outside open slot ligature is fixed with flexible rope (4), flexible rope (4) outside slip is provided with shading piece (5) and ligature joint piece (6) in flexible rope (4) outside end department; the shading adjustment assembly (3) comprises: the clamping plastic piece (31) is clamped and fixed at the rear end of the inner side of the VR equipment (1), and the clamping plastic piece (31) has a limiting function; the strip-shaped air bags (32) are adhered to the open slots at the rear ends of the clamping plastic parts (31) to play a role in buffering; the nose wing air bags (33) are arranged at the openings at the bottoms of the clamping plastic parts (31) in a sticking manner, and the nose wing air bags (33) with the function of protecting the nose wings are fixedly adhered to the bottom openings of the clamping plastic parts (31); the blocking head (34) is sealed and adhered at the through hole at the right end of the nose wing air bag (33), and the blocking head (34) has an exhaust function; the air pipe (35) is arranged at the front end of the strip-shaped air bag (32) and is provided with an air pipe (35) with a flow guiding function; the first one-way valve (36), the air pipe (35) is arranged at the air outlet at the rear end of the first one-way valve (36) in a pipeline manner; an extrusion piece (37), wherein the first one-way valve (36) is arranged at the rear end of the extrusion piece (37) in a pipeline manner; the detection piece (38) is arranged at the side clamping plate in the clamping plastic piece (31) and is used for detecting the detection piece (38); the strip-shaped air bags (32) and the nose wing air bags (33) are communicated through connecting pipes, and the two sets of nose wing air bags (33) at the bottom sides of the strip-shaped air bags (32) are in a splayed shape; the extrusion (37) comprises: the sealing cover plate (371) is provided with a first one-way valve (36) in a pipeline manner, and the first one-way valve is arranged at a middle side through hole of the sealing cover plate (371); the sealing cover plates (371) are mounted at the front end and the rear end of the cylinder body (372) through bolts; the mounting ring (373) is welded and fixed at the front end of the outer side of the cylinder body (372) and is provided with the mounting ring (373) which plays a role in mounting and limiting; a piston plate (374), wherein the piston plate (374) for providing extrusion force to air pressure is arranged in the cylinder (372) in a sliding way; a pull rod (375), wherein the pull rod (375) playing a reciprocating pulling role on the front end of the piston plate (374) is rotatably arranged at the front end of the piston plate; the manual adjusting piece (376) is rotatably arranged at the left end of the manual adjusting piece (376); a second one-way valve (377) is arranged on the rear side pipeline at the top of the cylinder body (372); the manual adjustment (376) includes: the left end transmission rod body of the adjusting hand wheel (3761) is arranged at the right end through hole of the mounting ring (373) in a penetrating way; the clamping key (3762) is welded on the transmission rod body at the left end of the regulating hand wheel (3761), and the clamping key (3762) has a clamping function; the clamping ring (3763) is arranged at the right end through hole of the mounting ring (373) in a sliding manner, and the clamping ring (3763) plays a role in clamping the clamping key (3762); an insulating ring (3764), wherein the insulating ring (3764) with an insulating function is adhered and fixed on the outer side surface of the clamping ring (3763); the electromagnetic suction plate (3765) is respectively arranged at the left end of the clamping ring (3763) and the right end of the mounting disc (3766) through bolts; the pull rod (375) is rotatably arranged at the clamping rod at the left end of the mounting plate (3766); the light shielding member (5) includes: the sliding clamping block (51) is arranged on the outer surface of the telescopic rope (4) in a sliding manner, and the sliding clamping block (51) has a limiting effect; the elastic plastic part (52) is adhered and fixed on the inner side wall of the sliding clamping block (51), and the elastic plastic part (52) has an extrusion function; binding rods (53), wherein the left end and the right end of the sliding clamping block (51) are respectively provided with the binding rods (53) in a rotating way; the flexible glue plate (54) is bound and fixed at the top of the binding rod (53); a sealing sprue (55), wherein the sealing sprue (55) is sealed and stuck at the through hole at the front end of the flexible glue plate (54); the periphery of the inner side wall of the flexible glue plate (54) is coated with the special paint (56); and a conductive medium (57), wherein the conductive medium (57) playing a role in electric conduction is arranged in the flexible glue board (54) in a flowing mode.

2. The intelligent VR headset of claim 1, wherein the external light effects are reduced by: the detection member (38) includes: a current adapter (381), wherein the current adapter (381) is mounted at a through hole at the top of the VR equipment (1) through bolts; a main control board (382), wherein a main control board (382) with a control function is mounted on a bolt at a middle side groove at the rear end of the VR equipment (1); a light sensor (383) which plays a role in detection is arranged on the bolt at the top side of the rear end of the main control board (382); an ambient light sensor (384), wherein the ambient light sensor (384) which plays a role in detection is mounted on the middle bolt at the rear end of the main control board (382); and the humidity sensor (385) is arranged at the bottom side bolt of the rear end of the main control panel (382) and is used for detecting the humidity sensor (385).

3. The intelligent VR headset of claim 1, wherein the external light effects are reduced by: the flexible glue board (54) is made of antistatic TPU material, and the special paint (56) is formed by mixing organic material, metal salt and glass fiber, wherein the organic material is made of metal phthalocyanine compound.

4. The intelligent VR headset of claim 1, wherein the external light effects are reduced by: the bottom of the flexible glue plate (54) is provided with a cable which has a conducting effect together, and the cable output head is inserted into the flexible glue plate (54) to be in contact with a conducting medium (57), wherein the conducting medium (57) can be liquid mercury.

5. The intelligent VR headset of claim 2, wherein the external light effects are reduced by: the first check valve (36) and the second check valve (377) are respectively in an output check design and an input check design, and the current adapter (381) respectively provides electric energy for the electromagnetic suction plate (3765) and the main control plate (382).

6. The method for using the intelligent VR headset capable of reducing external light effects according to claim 2, wherein the method comprises the steps of: the method comprises the following steps:

step one: wearing VR equipment (1) and controlling the VR equipment (1) to start up;

step two: the shading adjusting component (3) is controlled, and an adjusting hand wheel (3761) is used for driving air pressure to enter the strip-shaped air bags (32) and the nose wing air bags (33) through the air pipes (35) so as to shade and support eyes and nose wings;

step three: waking up the detection part while regulating and controlling the pupil distance of the VR equipment (1);

step four: a light sensor (383) and an ambient light sensor (384) detect ambient light and transmit data to the main control board (382), respectively;

step five: controlling the current adapter (381) to output current to the conductive medium (57) by using the detection data of the fourth step;

step six: the conductive medium (57) can transfer ionization to the special paint (56) in the flexible glue board (54) and enable the special paint (56) to change color to shield light;

step seven: and repeating the fourth step.

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