CN117075351A - Virtual reality imaging device - Google Patents

Abstract

The invention discloses virtual reality imaging equipment, which relates to the technical field of virtual imaging equipment, and comprises a VR glasses body and a wrist strap, wherein a wearing clamp holder is fixedly connected to the VR glasses body, a unidirectional rolling adsorption component is arranged on the VR glasses body, auxiliary supporting anti-dizziness components are symmetrically arranged outside the wearing clamp holder, the virtual reality imaging equipment is used for isolating a lap from the skin of a user, so that the water vapor generated by the heat emitted by the VR glasses during work can be adsorbed, sweat generated by the fact that the face heat cannot be emitted when the user wears the VR glasses for a long time can be absorbed, the cleanliness of the VR glasses body is kept, the effect of pressing an internal closing point can be achieved through the head deflection of the user, dizziness, nausea or vomiting caused by the incompatibility of visual information and movement can be effectively relieved, and the condition that the user wears the VR glasses to feel intense dizziness is reduced.

Description

Virtual reality imaging device

Technical Field

The invention relates to the technical field of virtual imaging equipment, in particular to virtual reality imaging equipment.

Background

The basic principle of the virtual reality technology is to construct a virtual environment in a worn electronic device, wherein VR glasses are used for sealing the vision and hearing of a person to the outside by using a head-mounted display device, so that a user is guided to generate a feeling in the 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 traditional VR glasses can be transmitted to the brain through the visual system of a human body when being worn and watched, the brain considers that the picture change is caused by certain movements of the body, and the ear vestibule organs controlling the body balance and coordination do not feed back the movement information of the body to the brain, so that the brain feels the incompatibility of the visual information and the movements, and when the display speed of the head-wearing virtual equipment cannot keep up with the movement speed of the body, the asynchronous movement is caused, dizziness, nausea or vomiting and other reactions are caused; the VR glasses are usually in close contact with the face of a user when worn, so that the effect of heat dissipation of the face is hindered, the face is easier to sweat due to the fact that the body needs to dissipate heat through sweat evaporation, sweat can drop on the surfaces of the lenses of the VR glasses or be adsorbed on parts such as glasses accessories and sensors, so that peculiar smell is generated on the glasses or metal parts of the glasses frame are corroded, and the VR glasses are damaged; thus, in view of this, the present invention provides a virtual reality imaging apparatus.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides virtual reality imaging equipment, which solves the problems in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a virtual reality imaging device, includes VR glasses body and wrist bandage, fixedly connected with dresses the holder on the VR glasses body, the both sides symmetry of dressing the holder articulates there is the telescopic link, the wrist bandage is located the below of telescopic link, the upper portion symmetry of VR glasses body can be dismantled and is connected with the apron, install one-way rolling adsorption component on the VR glasses body, the outside symmetry of dressing the holder is installed auxiliary stay anti-dazzle and is stunned the subassembly;

the utility model provides a VR glasses, including the one-way rolling adsorption component, the mounting groove of VR glasses body inner chamber is offered including the symmetry, the tank bottom of mounting groove is all rotated and is connected with the spliced pole, the outer wall of spliced pole is pegged graft there is the isolation lap, the outer wall symmetry of VR glasses body is rotated and is connected with the fixed column, the equal fixedly connected with worm of lower extreme of fixed column, the one end and the fixed column outer wall fixedly connected with of spliced pole are kept away from to the isolation lap, one side symmetry rotation of VR glasses body is connected with the back shaft, one side symmetry rotation of VR glasses body is connected with the worm wheel circle, the worm wheel circle meshes with the worm, the ratchet groove has been offered to the inner wall of worm wheel circle, the outer wall fixedly connected with torsional spring axle of back shaft, the outer wall rotation of torsional spring axle is connected with the pawl, the one end fixedly connected with rubber runner of back shaft.

Preferably, the worm wheel is sleeved outside the supporting shaft, and the pawl is meshed with the ratchet groove. The isolation cotton rolls are arranged into an upper section and a lower section, so that the isolation cotton rolls are prevented from being blocked at the lenses of the VR glasses body, and moisture and sweat generated by long-term wearing of a user can be absorbed conveniently;

preferably, the auxiliary support anti-dazzle assembly comprises convex plates which are symmetrically and fixedly connected to the outer wall of each telescopic rod, the lower parts of the convex plates are fixedly connected with support springs, two convex plates and two support springs are arranged, one support spring is fixedly connected with a first clamping plate at one end, far away from the convex plates, of the support springs, and the other support spring is fixedly connected with a second clamping plate at one end, far away from the convex plates, of the support springs.

Preferably, the outer wall of the telescopic rod close to the lower end is symmetrically and fixedly connected with a mounting block, and one surface of the mounting block penetrates through and is rotatably connected with a pin shaft.

Preferably, the first clamping plate and the second clamping plate are both rotationally connected to the outer wall of the pin shaft, one of the clamping plates is fixedly connected with an upright post at the upper part of the convex plate, the upper end of the upright post is fixedly connected with an L-shaped plate, and a hose is fixedly connected to the L-shaped plate in a penetrating manner.

Preferably, one end of the hose penetrating through the L-shaped plate is communicated with a resuscitation balloon, the wearing clamp holder is symmetrically connected with a pressing plate in a rotating mode, the pressing plate is attached to the outer portion of the resuscitation balloon, and one end of the hose is communicated with a sleeve.

Preferably, the sleeve is fixedly connected to the outside of the wrist strap, the sleeve is communicated with the wrist strap in a penetrating way, the inner wall of the sleeve is fixedly connected with a reset spring, one end of the reset spring is fixedly connected with a ball body, the outer wall of the ball body is fixedly connected with a cross rod, and the cross rod is transversely connected to the inner cavity of the sleeve in a sliding way.

Preferably, the sleeve inner cavity is rotationally connected with a rotating shaft, the outer wall of the rotating shaft is fixedly connected with an auxiliary wheel, one surface of the cross rod is fixedly connected with an anti-slip boss with the outer wall of the auxiliary wheel, the cross rod is attached to the outer wall of the auxiliary wheel, and one end of the rotating shaft is fixedly connected with a crank.

Preferably, one end of the crank is rotatably connected with a connecting rod, an L-shaped sliding rod is transversely connected in a sliding groove of the inner cavity of the sleeve in a sliding way, the L-shaped sliding rod is connected to the connecting rod in a penetrating and rotating way, and one end of the L-shaped sliding rod, far away from the connecting rod, is fixedly connected with a pressing block.

The virtual reality imaging equipment provided by the invention has the following beneficial effects:

the first clamping plate and the second clamping plate are in reset and rebound through the two supporting springs and can be propped up to move to be attached to the shoulder of a user, so that the first clamping plate and the second clamping plate can be fixedly limited on the shoulder of the user, and compared with the traditional mode of singly wearing the VR glasses body, the VR glasses can provide an upward supporting force for the VR glasses body, so that the gravity of wearing the VR glasses body by the head of the user is relieved, the pressure and uncomfortable feeling brought to the head and eyes by wearing the VR glasses can be effectively relieved, and the comfort degree of long-term wearing is improved;

after wearing, the isolation cotton roll can be attached to the skin of a user, so that not only can the water vapor generated by the heat emitted by the VR glasses during working be absorbed, but also sweat generated by the fact that the face heat cannot be emitted when the user wears the VR glasses for a long time can be absorbed, thereby avoiding the situation that sweat possibly drops on the surface of the glasses or is absorbed on parts such as the glasses accessories and the sensors to cause damage of parts, and keeping the cleaning of the VR glasses body;

the isolation cotton rolls adhered to the outer parts of the fixing columns can be rolled up along with rotation of the fixing columns, the isolation cotton rolls just after sweat stain absorption and use can be rolled up and replaced, and new isolation cotton rolls are replaced to the inner wall of the VR glasses body, so that the step of manually replacing the isolation cotton rolls is omitted, the isolation cotton rolls can be directly worn and used for the next user, the time of waiting for replacing the isolation cotton rolls is not needed, the situation that sweat stains and water vapor are absorbed on VR glasses due to the fact that the isolation cotton rolls after sweat stains and water vapor are absorbed cannot be replaced for a long time is avoided, the effect of replacing the isolation cotton rolls in time is achieved, and sanitation of the VR glasses is further guaranteed;

the crank and the connecting rod are matched to push the pressing block to repeatedly press the inner-closing point of the user for multiple times, and the inner-closing point is one of the collateral points of the pericardium meridian of the hand jueyin, so that the effects of adjusting heart rate, relieving pain, stopping dizziness, stopping vomiting and the like are achieved.

Drawings

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

FIG. 2 is a schematic view of the mounting structure of the fixing post and the isolation cotton roll of the present invention;

FIG. 3 is an enlarged schematic view of the area A of FIG. 2 according to the present invention;

fig. 4 is a schematic view of a VR glasses body and groove mounting structure according to the present invention;

FIG. 5 is a schematic view of the overall structure of another view of the present invention;

FIG. 6 is an enlarged view of area B of FIG. 5 according to the present invention;

FIG. 7 is an enlarged view of area C of FIG. 5 according to the present invention;

FIG. 8 is a schematic view of a partial cut-away structure of a sleeve according to the present invention;

FIG. 9 is an enlarged schematic view of the area D of FIG. 8 according to the present invention;

FIG. 10 is an enlarged schematic view of the area E of FIG. 8 according to the present invention;

FIG. 11 is a schematic view of the L-shaped slide bar and pressing block mounting structure of the present invention.

In the figure: 1. VR glasses body; 2. wearing a clamp holder; 3. a telescopic rod; 4. wrist strap; 5. a cover plate;

61. a mounting groove; 62. inserting a column; 63. fixing the column; 64. a worm; 65. isolating the lap; 66. a support shaft; 67. a scroll wheel rim; 68. ratchet grooves; 69. a torsion spring shaft; 610. a pawl; 611. a rubber wheel;

71. a convex plate; 72. a support spring; 73. a first clamping plate; 74. a second clamping plate; 75. a mounting block; 76. a pin shaft; 77. a column; 78. an L-shaped plate; 79. a resuscitation balloon; 710. a hose; 711. a pressing plate; 712. a sleeve; 713. a return spring; 714. a sphere; 715. a cross bar; 716. a rotating shaft; 717. an auxiliary wheel; 718. a crank; 719. a connecting rod; 720. an L-shaped slide bar; 721. pressing the blocks.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, a virtual reality imaging device includes a VR glasses body 1 and a wrist strap 4, wherein a wearing holder 2 is fixedly connected to the VR glasses body 1, two sides of the wearing holder 2 are symmetrically hinged with a telescopic rod 3, the wrist strap 4 is positioned below the telescopic rod 3, a cover plate 5 is symmetrically and detachably connected to the upper portion of the VR glasses body 1, a unidirectional rolling adsorption component is mounted on the VR glasses body 1, and an auxiliary supporting anti-dazzle component is symmetrically mounted outside the wearing holder 2;

referring to fig. 1 to 5 and 10, the unidirectional winding adsorption component comprises a mounting groove 61 symmetrically arranged in an inner cavity of a VR glasses body 1, inserting columns 62 are rotatably connected to the groove bottoms of the mounting groove 61, isolation cotton rolls 65 are inserted into the outer walls of the inserting columns 62, fixing columns 63 are rotatably connected to the outer walls of the VR glasses body 1 symmetrically, a worm 64 is fixedly connected to the lower ends of the fixing columns 63, one ends of the isolation cotton rolls 65 away from the inserting columns 62 are fixedly connected to the outer walls of the fixing columns 63, one side of the VR glasses body 1 is rotatably connected with a supporting shaft 66 symmetrically, one side of the VR glasses body 1 is rotatably connected with a worm wheel ring 67, the worm wheel ring 67 is meshed with the worm 64, ratchet grooves 68 are formed in the inner walls of the worm wheel ring 67, torsion spring shafts 69 are fixedly connected to the outer walls of the supporting shaft 66, rubber rotating wheels 611 are fixedly connected to one ends of the supporting shaft 66, grooves adapted to nose bridges are formed in the inner walls of the VR glasses body 1, the mounting groove 61 is located in the grooves, and the grooves are convenient for users to cooperate with the VR glasses body 1.

The worm wheel ring 67 is sleeved outside the support shaft 66, the pawl 610 is meshed with the ratchet wheel groove 68, the isolation cotton roll 65 is arranged to be an upper section and a lower section, the blocking of the lens of the VR glasses body 1 is avoided, and the absorption of water vapor and sweat generated by long-term wearing of a user is facilitated.

Referring to fig. 1, 5-9 and 11, the auxiliary support anti-dizziness assembly includes a convex plate 71 symmetrically and fixedly connected to the outer wall of each telescopic rod 3, support springs 72 are fixedly connected to the lower portion of the convex plate 71, the convex plate 71 and the support springs 72 are both provided with two, one end of one support spring 72, which is far away from the convex plate 71, is fixedly connected with a first clamping plate 73, the other end of the other support spring 72, which is far away from the convex plate 71, is fixedly connected with a second clamping plate 74, and the first clamping plate 73 and the second clamping plate 74 are matched and then are used for clamping at the shoulder of a user, so that the VR glasses body 1 is supported conveniently.

The outer wall symmetry fixedly connected with installation piece 75 that telescopic link 3 is close to the lower extreme, the one side of installation piece 75 runs through and rotates to be connected with round pin axle 76, first splint 73 and the equal rotation of second splint 74 are connected with the outer wall of round pin axle 76, the upper portion fixedly connected with stand 77 of one of them flange 71, the upper end fixedly connected with L template 78 of stand 77, run through fixedly connected with hose 710 on the L template 78, hose 710 is set up to the long tube that leaves the surplus, the user stretches hose 710 and can wear wrist strap 4, and sleeve pipe 712 is towards the wrist inboard when wearing.

Referring to fig. 1, 5-9 and 11, one end of a hose 710 penetrating through an L-shaped plate 78 is communicated with a resuscitation balloon 79, a pressing plate 711 is symmetrically and rotationally connected to a wearing holder 2, the pressing plate 711 is attached to the outer portion of the resuscitation balloon 79, one end of the hose 710 is communicated with a sleeve 712, the sleeve 712 is fixedly connected to the outer portion of a wrist strap 4, the sleeve 712 is communicated with the wrist strap 4 in a penetrating manner, a return spring 713 is fixedly connected to the inner wall of the sleeve 712, one end of the return spring 713 is fixedly connected with a ball 714, the outer wall of the ball 714 is fixedly connected with a cross rod 715, the cross rod 715 is transversely and slidably connected to the inner cavity of the sleeve 712, the sleeve 712 is made of hard materials, and the ball 714 is attached to the inner wall of the sleeve 712.

The inner cavity of the sleeve 712 is rotationally connected with a rotating shaft 716, the outer wall of the rotating shaft 716 is fixedly connected with an auxiliary wheel 717, one surface of the cross rod 715 is fixedly connected with anti-slip protrusions with the outer wall of the auxiliary wheel 717, the cross rod 715 is attached to the outer wall of the auxiliary wheel 717, one end of the rotating shaft 716 is fixedly connected with a crank 718, and the friction auxiliary wheel 717 rotates when the cross rod 715 moves due to the fact that the anti-slip protrusions are arranged on one surface of the cross rod 715 and the outer wall of the auxiliary wheel 717.

One end of the crank 718 is rotatably connected with a connecting rod 719, an L-shaped sliding rod 720 is transversely and slidably connected in a sliding groove in the inner cavity of the sleeve 712, the L-shaped sliding rod 720 penetrates through and is rotatably connected to the connecting rod 719, one end, far away from the connecting rod 719, of the L-shaped sliding rod 720 is fixedly connected with a pressing block 721, and the L-shaped sliding rod 720 transversely slides through the sliding groove in the inner cavity of the sleeve 712, so that the reciprocating pushing of the pressing block 721 is realized.

The following are all working processes and working principles of the above embodiments:

initial state: firstly, a cover plate 5 detachably connected to the VR glasses body 1 is manually opened, then an isolation cotton roll 65 is inserted into the outer wall of an inserting column 62, one end of the isolation cotton roll 65 is pulled and attached to the inner wall of the VR glasses body 1, then the isolation cotton roll passes through notches formed in two sides of the VR glasses body 1 and is attached to the outer part of a fixing column 63, a pressing block 721 is attached to the inner wall of a wrist strap 4 at the moment, the wrist strap 4 is worn, and the pressing block 721 is attached to a position which is about three finger widths away from a transverse line of a wrist, namely, the position of an inner-closing point of the wrist;

when the pair of VR glasses is used, firstly, the VR glasses body 1 is worn on the head of a user through the wearing clamp holder 2 arranged on the existing VR glasses, the first clamp plate 73 and the second clamp plate 74 can be held by hands to be respectively pulled outwards to be far away from each other, so that the first clamp plate 73 and the second clamp plate 74 rotate around the pin shaft 76 and compress the corresponding supporting springs 72, at the moment, the length of the telescopic rod 3 is adjusted by manually pulling the first clamp plate 73 until the first clamp plate 73 and the second clamp plate 74 are matched with the shoulders of the user, the first clamp plate 73 and the second clamp plate 74 can be loosened, at the moment, the two supporting springs 72 are reset and rebound to push the first clamp plate 73 and the second clamp plate 74 to be reset and matched with the shoulders of the user, and the pair of VR glasses can be fixed and limited on the shoulders of the user.

Further, when the VR glasses body 1 is worn, the VR glasses body 1 and the lower part of the wearing clamp holder 2 are sleeved on the head, so when the VR glasses body 1 is sleeved downwards, the VR glasses body 1 is positioned in front of eyes of a user, as the rubber runner 611 protrudes out of the inner surface of the VR glasses body 1, the rubber runner 611 rubs the skin of the user when the VR glasses body 1 is worn, the left side and the right side of the VR glasses body 1 are provided with the same unidirectional winding adsorption components, the right side rubber runner 611 rotates anticlockwise when the VR glasses body is worn downwards, the other side rubber runner 611 rotates reversely, and is not repeated here, as the rubber runner 611 is fixedly connected with the supporting shaft 66, the supporting shaft 66 is driven to rotate, and the pawl 610 arranged on the upper part of the VR glasses body is driven to rotate anticlockwise, the pawl 610 is extruded by the ratchet groove 68 to rotate around the torsion spring shaft 69, and the torsion spring shaft 69 is formed by the shaft and the torsion spring, so that the torsion spring can repeatedly collide with the pawl 610 after rotation to reset, the pawl 610 can repeatedly rotate and be attached to the inner wall of the ratchet groove 68, so that the worm wheel ring 67 can not be driven to rotate, after the wear, the isolation cotton roll 65 can be attached to the skin of a user, not only can moisture generated by heat emitted during the work of the VR glasses be absorbed, but also sweat generated by incapability of being emitted by the face heat caused by the long-term wearing of the VR glasses by the user can be absorbed, so that sweat can be prevented from dripping on the surface of the glasses or being absorbed on parts such as accessories and sensors of the glasses to cause damage of parts, but also the cleanliness of the VR glasses body 1 can be kept;

it should be noted that after the user wears the VR glasses body 1 to complete the virtual imaging viewing experience, the VR glasses body 1 and the wearing holder 2 are pulled upwards again, at this time, the rubber runner 611 is in friction contact with the skin again to rotate clockwise, the rubber runner 611 on the other side rotates reversely, and drives the supporting shaft 66 to rotate, at this time, the pawl 610 on the outer wall of the supporting shaft 66 is meshed with the ratchet groove 68 in an adaptive manner, and further drives the spiral ring 67 to rotate synchronously, the worm 64 is meshed with the worm 67 to drive the fixed column 63 to rotate, and the fixed column 63 rotates to wind up the isolation cotton roll 65 adhered to the outside of the fixed column, so that the isolation cotton roll 65 which is just absorbed with sweat is used can be wound up and replaced to the inner wall of the VR glasses body 1, thereby omitting the step of manually replacing the isolation cotton roll 65, being capable of directly providing the next user with the time of waiting for replacing the isolation cotton roll 65, and further avoiding the situation that sweat is not absorbed on the VR glasses and the later isolation cotton roll 65 is replaced in time, and achieving the effect of further guaranteeing that the sweat is absorbed on the VR glasses;

furthermore, when the user wears the VR glasses body 1 for a long time and the dizziness occurs, the user can warp the head, because the wearing holder 2 and the telescopic rod 3 are in hinged relation, the user can not drive the telescopic rod 3 to synchronously warp when the user deflects the head, the user can touch the pressing plate 711 at the same side when the user deflects the head, the pressing plate 711 presses the resuscitation balloon 79 to shrink, the volume of the resuscitation balloon 79 becomes smaller, the internal gas pressure is increased, and the internal gas pressure is transferred into the sleeve 712 through the hose 710, the ball 714 in the sleeve 712 is pushed by the gas and pushes the cross rod 715 to slide in the sleeve, the return spring 713 is pulled, the anti-slip protrusions on the inner wall of the cross rod 715 rub the auxiliary wheel 717 when the cross rod 715 slides, the auxiliary wheel 717 drives the rotating shaft 716 fixedly connected with the auxiliary wheel 717 to rotate, and drives the crank 718 to rotate, when the protruding part of the crank 718 rotates away from the ball 714, the connecting rod 719 which rotates the connecting rod 719 is pushed to be synchronously away from the ball 714, the L-shaped sliding rod 720 is pushed to slide in the sliding groove in the inner cavity of the sleeve 712, the pressing block 721 is pushed to press the inner closed point of the hand of a user, when the convex part of the crank 718 rotates to be close to the ball 714, the L-shaped sliding rod 720 is pulled to slide and reset with the pressing block 721 again through the connecting rod 719, and the resuscitation balloon 79 is automatically reset and expanded to be inflated again along with the fact that the head of the user is not inclined any more, the volume is restored, at the moment, the reset spring 713 rebounds to pull the ball 714 to move and reset, and the cross rod 715 is pulled to move and reset, the auxiliary wheel 717 is rubbed again to rotate, so that the rotating shaft 716 continuously rotates for many times, the effect that the crank 718 and the connecting rod 719 are matched to reciprocally push the pressing block 721 to repeatedly press the inner closed point of the user can be achieved, one of the eight pulse intersecting points has the effects of adjusting heart rate, relieving spasm and pain, stopping dizziness and stopping vomiting and the like, and is a key point for dizziness and vomiting, so that when wearing VR glasses, the effect of pressing the inner closing point can be achieved through the head deflection of a user, the reactions of dizziness, nausea or vomiting caused by the uncoordinated visual information and movement felt by the brain can be effectively relieved, the condition that the user wears the VR glasses to feel strong dizziness and cause vomiting is reduced, and the experience time of the user for feeling virtual reality imaging through the VR glasses can be effectively prolonged.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Virtual reality imaging device, including VR glasses body (1) and wrist bandage (4), its characterized in that: the novel VR glasses are characterized in that the VR glasses body (1) is fixedly connected with a wearing clamp holder (2), two sides of the wearing clamp holder (2) are symmetrically hinged with telescopic rods (3), wrist straps (4) are located below the telescopic rods (3), cover plates (5) are symmetrically and detachably connected to the upper portion of the VR glasses body (1), a unidirectional winding adsorption assembly is mounted on the VR glasses body (1), and auxiliary supporting anti-dazzle components are symmetrically mounted outside the wearing clamp holder (2);

the utility model provides a one-way rolling adsorption component is including symmetrically seting up mounting groove (61) in VR glasses body (1) inner chamber, the tank bottom of mounting groove (61) is all rotated and is connected with inserted column (62), the outer wall of inserted column (62) is pegged graft and is had isolation lap (65), the outer wall symmetry of VR glasses body (1) is rotated and is connected with fixed column (63), the equal fixedly connected with worm (64) of lower extreme of fixed column (63), the one end and the fixed column (63) outer wall fixed connection of inserted column (62) are kept away from to isolation lap (65), the one side symmetry rotation of VR glasses body (1) is connected with back shaft (66), the one side symmetry rotation of VR glasses body (1) is connected with worm wheel circle (67), worm wheel circle (67) meshes with worm (64), ratchet wheel groove (68) have been seted up to the inner wall of worm wheel circle (67), the outer wall fixedly connected with torsional spring axle (69), the outer wall rotation of torsional spring axle (69) is connected with pawl (610), one end fixedly connected with runner (611) of supporting axle (66).

2. The virtual reality imaging apparatus of claim 1, wherein: the outside of back shaft (66) is located to worm wheel circle (67) cover, pawl (610) and ratchet groove (68) mesh, and wherein keep apart lap (65) are set up to upper and lower two sections, avoid blockking in the lens department of VR glasses body (1), and be convenient for adsorb produced steam and sweat stain of user's long-term wearing.

3. The virtual reality imaging apparatus of claim 1, wherein: the auxiliary stay anti-dazzle assembly comprises convex plates (71) which are symmetrically and fixedly connected to the outer wall of each telescopic rod (3), supporting springs (72) are fixedly connected to the lower portions of the convex plates (71), two supporting springs (72) are arranged on the convex plates (71), one supporting spring (72) is fixedly connected with a first clamping plate (73) at one end, far away from the convex plates (71), of the supporting springs, and a second clamping plate (74) is fixedly connected to the other supporting spring (72) at one end, far away from the convex plates (71).

4. A virtual reality imaging device according to claim 3, characterized in that: the telescopic rod is characterized in that the outer wall, close to the lower end, of the telescopic rod (3) is symmetrically and fixedly connected with a mounting block (75), and one surface of the mounting block (75) penetrates through and is rotatably connected with a pin shaft (76).

5. The virtual reality imaging apparatus of claim 4, wherein: the novel lifting device is characterized in that the first clamping plate (73) and the second clamping plate (74) are both rotationally connected to the outer wall of the pin shaft (76), one of the protruding plates (71) is fixedly connected with an upright post (77), the upper end of the upright post (77) is fixedly connected with an L-shaped plate (78), and a hose (710) is fixedly connected to the L-shaped plate (78) in a penetrating mode.

6. The virtual reality imaging apparatus of claim 5, wherein: the utility model discloses a resuscitation device, including L template (78) and hose (710), hose (710) one end intercommunication that runs through L template (78) has resuscitation balloon (79), wearing symmetrical rotation on holder (2) is connected with and supports clamp plate (711), support clamp plate (711) laminating in the outside of resuscitation balloon (79), the one end intercommunication of hose (710) has sleeve pipe (712).

7. The virtual reality imaging apparatus of claim 6, wherein: the wrist strap is characterized in that the sleeve (712) is fixedly connected to the outer portion of the wrist strap (4), the sleeve (712) is communicated with the wrist strap (4) in a penetrating mode, a reset spring (713) is fixedly connected to the inner wall of the sleeve (712), a ball body (714) is fixedly connected to one end of the reset spring (713), a cross rod (715) is fixedly connected to the outer wall of the ball body (714), and the cross rod (715) is transversely connected to the inner cavity of the sleeve (712) in a sliding mode.

8. The virtual reality imaging apparatus of claim 7, wherein: the inner cavity of the sleeve (712) is rotationally connected with a rotating shaft (716), the outer wall of the rotating shaft (716) is fixedly connected with an auxiliary wheel (717), one surface of the cross rod (715) is fixedly connected with an anti-slip boss on the outer wall of the auxiliary wheel (717), the cross rod (715) is attached to the outer wall of the auxiliary wheel (717), and one end of the rotating shaft (716) is fixedly connected with a crank (718).

9. The virtual reality imaging apparatus of claim 8, wherein: one end of the crank (718) is rotatably connected with a connecting rod (719), an L-shaped sliding rod (720) is transversely connected in a sliding groove in the inner cavity of the sleeve (712) in a sliding way, the L-shaped sliding rod (720) is connected to the connecting rod (719) in a penetrating and rotating way, and one end, far away from the connecting rod (719), of the L-shaped sliding rod (720) is fixedly connected with a pressing block (721).