CN113031274A - Convenient VR glasses trainer based on cell-phone uses - Google Patents

Abstract

The invention discloses a convenient VR (virtual reality) glasses training device based on a mobile phone, which comprises a VR glasses mechanism, wherein a fixed mounting assembly is rotatably mounted in the VR glasses mechanism; the fixed mounting assembly comprises an annular plate and more than one limiting clamping plate, through holes are uniformly distributed on the inner wall surface of the annular plate at intervals, and each limiting clamping plate is connected to the inside of each through hole through a damping spring arranged at the bottom of the limiting clamping plate; VR glasses mechanism still includes host computer casing and radiator unit, the fixed mounting subassembly rotates to press from both sides and establishes between host computer casing and the radiator unit. The mobile phone cover is simple and complete in structure, convenient to wear easily, convenient and quick to mount or dismount, suitable for mobile phones of various models, wide in application range, firm and stable in placement, good in heat dissipation effect and capable of effectively avoiding damage to the mobile phones after long-term use.

Description

Convenient VR glasses trainer based on cell-phone uses

Technical Field

The invention relates to the technical field of VR glasses, in particular to a convenient VR glasses training device based on a mobile phone.

Background

VR glasses (alias: VR head display) are a virtual reality head-mounted display device, and generally include an external head display device, an integrated head display device and a mobile head display device. VR glasses utilize head-mounted display device to seal people to external vision, sense of hearing, guide user to produce the sensation of a body in virtual environment, and its display principle is that left and right eyes screen shows the image of left and right eyes respectively, and the people's eye produces the third dimension in the mind after obtaining this kind of information that has the difference.

VR was systematically discussed in 1992 reports from the national science foundation funded interactive systems project working group and established and proposed research directions in the field of future virtual reality environments. The virtual reality technology integrates various scientific technologies such as a computer graphics technology, a computer simulation technology, a sensor technology, a display technology and the like, creates a virtual information environment on a multi-dimensional information space, enables a user to have an immersive sense, has perfect interaction capacity with the environment, and is helpful for inspiring ideas. So to speak, the immersive-interactive-idea is three basic characteristics of a VR environment system. The core of the virtual technology is modeling and simulation.

Many VR glasses on the market need use with the help of the cell-phone, put into VR glasses with the cell-phone, download corresponding APP (have its own mobile phone software according to different brands) alright use in the cell-phone. However, when the VR glasses in the current market are used for fixing a mobile phone, the problems that the models are not matched, the placing steps are complicated, the taking and placing are complex and troublesome, and the fixing is unstable often exist, and after the VR glasses are used for a long time, the whole service life of the device can be greatly reduced due to the reciprocating action of snapping the VR glasses.

Disclosure of Invention

The invention aims to solve the technical problem of providing a convenient VR glasses training device based on mobile phone use, which is simple in structure and convenient to mount and dismount the mobile phone.

In order to solve the technical problems, the invention adopts the following technical scheme: a convenient VR glasses training device based on mobile phone use comprises a VR glasses mechanism, wherein a fixed mounting assembly is rotatably mounted inside the VR glasses mechanism;

the fixed mounting assembly comprises an annular plate and more than one limiting clamping plate, the middle of the annular plate is hollow, positioning columns are respectively and annularly distributed on the front side surface and the rear side surface of the annular plate, through holes are uniformly distributed on the inner wall surface of the annular plate at intervals, and each limiting clamping plate is respectively connected to the inside of each through hole through a damping spring arranged at the bottom of the limiting clamping plate;

VR glasses mechanism still includes host computer casing and radiator unit, fixed mounting subassembly rotates to press from both sides and establishes between host computer casing and the radiator unit, radiator unit includes heating panel and two radiator fan, two radiator fan installs respectively through the mounting hole on the heating panel, the outer surrounding ring of heating panel is equipped with the antiskid and bordures, the antiskid is bordured and is gone up the ring distribution and have the locating hole.

Further, the fixed mounting assembly further comprises a threaded rotating shaft, the threaded rotating shaft fixedly penetrates through one corner of the annular plate, and a protruding block is fixed at one end of the bottom of the annular plate.

Further, the back of heating panel is attached to the inoxidizing coating, rotatory hole has been seted up to the one corner that the antiskid is bordured, the screw thread pivot is rotated and is run through rotatory hole works as the screw thread pivot centers on when rotatory hole is rotatory, the annular slab is in rotate between host computer casing and the radiator unit, works as the reference column with when the locating hole joint is matched, the annular slab is fixed between host computer casing and the radiator unit.

Furthermore, VR glasses mechanism still includes the front shroud, the front shroud is fixed radiator unit's preceding terminal surface, just the symmetry is provided with dustproof net on the front shroud, dustproof net is located radiator fan's positive front end.

Furthermore, a left lens and a right lens are symmetrically installed inside the host shell through a connecting seat, a nose bracket is connected between the left lens and the right lens and fixed on the connecting seat, a sponge washer is annularly distributed on the periphery of the rear end face of the host shell, and a focus adjusting knob, a main switch button, a fan switch and an external port are arranged on the side face of the host shell.

Further, the both sides of host computer casing are connected with wireless earphone through the telescopic connection area respectively, the front end of telescopic connection area is through first mount pad fixed connection to the side of host computer casing, the rear end of telescopic connection area is through second mount pad fixed connection to wireless earphone's front end, just be provided with the fixed knob of second and a plurality of second regulation tooth on the telescopic connection area, be provided with earphone switch button and adjust the button on the wireless earphone.

Further, the rear end of wireless earphone is connected with the fixed band subassembly, the fixed band subassembly includes first regulation band and second regulation band, be provided with respectively on first regulation band and the second regulation band and adjust and detain, just the one end of first regulation band and second regulation band is connected to two through fixed the knot respectively the rear end of wireless earphone, the other end of first regulation band and second regulation band is provided with respectively connects box and connector to detain, but connect box and connector detain swing joint.

Further, the upper end of the wireless earphone is rotatably connected with an adjusting head band through a fastening bolt, and a first fixing knob and a plurality of first adjusting teeth are distributed on the adjusting head band.

The invention has the beneficial effects that:

according to the invention, the threaded rotating shaft penetrates through the rotating hole in a rotating mode, when the threaded rotating shaft rotates around the rotating hole, the annular plate rotates between the host shell and the radiating component, when the positioning column is matched with the positioning hole in a clamping mode, the annular plate is fixed between the host shell and the radiating component, so that the fixed mounting component can flexibly rotate on the VR glasses mechanism, the mobile phone can be unfolded and closed conveniently, the mobile phone can be placed and taken conveniently, meanwhile, the mobile phone is placed inside the annular plate, the mobile phone is clamped in each limiting clamping plate, the tightness is limited through the damping spring, the mobile phone is suitable for mobile phones of different models and sizes, the placement is stable, the shock absorption and protection effects are further achieved, the radiating effect is achieved through the radiating fan, and the damage to the service life of the mobile phone.

Drawings

FIG. 1 is a front view of an embodiment of the present invention.

Fig. 2 is a rear view of an embodiment of the present invention.

Fig. 3 is a side view of an embodiment of the present invention.

Fig. 4 is a back view of a heat sink assembly in accordance with an embodiment of the present invention.

Fig. 5 is a schematic view of the overall structure of the fixed mounting assembly according to an embodiment of the invention.

Fig. 6 is a front view of a VR glasses mechanism with a fixed mounting assembly unscrewed according to an embodiment of the present invention.

The components in the drawings are labeled as follows: 1. a VR glasses mechanism; 101. a sponge washer; 102. a main housing; 103. a front cover plate; 104. a dust grid; 105. a left lens; 106. a right lens; 107. a connecting seat; 108. a nose bracket; 109. a focus adjustment knob; 1010. a main switch key; 1011. a fan switch; 1012. an external port; 2. a fixing band assembly; 201. a fixing buckle; 202. a first adjustment strap; 203. adjusting buckles; 204. connecting the female buckle; 205. a second adjustment strap; 206. a connector buckle; 3. adjusting the headband; 301. a first fixed knob; 302. a first adjustment tooth; 303. fastening a bolt; 4. a wireless headset; 401. a headset switch button; 402. adjusting a key; 5. a telescopic connecting belt; 501. a first mounting seat; 502. a second mounting seat; 503. a second fixed knob; 504. a second adjustment tooth; 6. a heat dissipating component; 601. a heat dissipation plate; 602. anti-skid edge covering; 603. positioning holes; 604. rotating the hole; 605. a protective layer; 606. mounting holes; 607. a heat radiation fan; 7. fixing the mounting assembly; 701. an annular plate; 702. a positioning column; 703. a threaded shaft; 704. a through hole; 705. a damping spring; 706. a limiting clamping plate; 707. and (4) a convex block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout includes three juxtapositions, exemplified by "A and/or B" including either A or B or both A and B. In addition, "a plurality" means two or more. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

See fig. 1-6.

The invention relates to a convenient VR glasses training device based on a mobile phone, which comprises a VR glasses mechanism 1, wherein a fixed mounting component 7 is rotatably mounted in the VR glasses mechanism 1;

the fixed mounting assembly 7 comprises an annular plate 701 and more than one limiting clamping plate 706, the middle of the annular plate 701 is hollow, positioning columns 702 are respectively and annularly distributed on the front side surface and the rear side surface of the annular plate 701, through holes 704 are uniformly distributed on the inner wall surface of the annular plate 701 at intervals, and each limiting clamping plate 706 is respectively connected to the inside of each through hole 704 through a damping spring 705 arranged at the bottom;

VR glassess mechanism 1 still includes host computer casing 102 and radiator unit 6, fixed mounting subassembly 7 rotates to press from both sides and establishes between host computer casing 102 and the radiator unit 6, radiator unit 6 includes heating panel 601 and two radiator fan 607, two radiator fan 607 installs respectively through mounting hole 606 on the heating panel 601, the outer peripheral ring of heating panel 601 is equipped with the antiskid 602 of borduring, the annular distribution has locating hole 603 on the antiskid 602 of borduring.

According to the invention, the threaded rotating shaft penetrates through the rotating hole in a rotating mode, when the threaded rotating shaft rotates around the rotating hole, the annular plate rotates between the host shell and the radiating component, when the positioning column is matched with the positioning hole in a clamping mode, the annular plate is fixed between the host shell and the radiating component, so that the fixed mounting component can flexibly rotate on the VR glasses mechanism, the mobile phone can be unfolded and closed conveniently, the mobile phone can be placed and taken conveniently, meanwhile, the mobile phone is placed inside the annular plate, the mobile phone is clamped in each limiting clamping plate, the tightness is limited through the damping spring, the mobile phone is suitable for mobile phones of different models and sizes, the placement is stable, the shock absorption and protection effects are further achieved, the radiating effect is achieved through the radiating fan, and the damage to the service life of the mobile phone.

In an embodiment, the fixed mounting assembly 7 further includes a threaded rotating shaft 703, the threaded rotating shaft 703 is fixedly penetrated through a corner of the annular plate 701, and a protruding block 707 is fixed at one end of the bottom of the annular plate 701, so that the annular plate 701 is rotatably mounted inside the VR glasses mechanism 1 through the threaded rotating shaft 703, and the protruding block 707 facilitates smooth screwing in and out of the annular plate 701.

In an embodiment, a protective layer 605 is attached to the back surface of the heat dissipation plate 601, a rotation hole 604 is formed in one corner of the anti-slip covering edge 602, the threaded rotating shaft 703 rotates to penetrate through the rotation hole 604, when the threaded rotating shaft 703 rotates around the rotation hole 604, the annular plate 701 rotates between the host housing 102 and the heat dissipation assembly 6, and when the positioning column 702 is in clamping fit with the positioning hole 603, the annular plate 701 is fixed between the host housing 102 and the heat dissipation assembly 6, so that the fixed mounting assembly 7 flexibly rotates on the VR glasses mechanism 1, and the VR glasses mechanism is convenient to unfold and close, and a mobile phone can be placed and taken conveniently.

In an embodiment, the VR glasses mechanism 1 further includes a front cover plate 103, the front cover plate 103 is fixed on the front end surface of the heat dissipation assembly 6, and the front cover plate 103 is symmetrically provided with dustproof grids 104, and the dustproof grids 104 are located at the front end of the heat dissipation fan 607, so that the design effectively protects the heat dissipation assembly 6 and prevents dust from blocking the apparatus.

In an embodiment, a left lens 105 and a right lens 106 are symmetrically installed inside the host housing 102 through a connecting seat 107, a nose bracket 108 is connected between the left lens 105 and the right lens 106, the nose bracket 108 is fixed on the connecting seat 107, a sponge washer 101 is annularly distributed on the periphery of the rear end face of the host housing 102, and a focus adjusting knob 109, a main switch button 1010, a fan switch 1011 and an external port 1012 are arranged on the side face of the host housing 102, so that the VR glasses mechanism 1 is complete in structure and complete in function.

In an embodiment, the both sides of host computer casing 102 are connected with wireless earphone 4 through telescopic connection area 5 respectively, the front end of telescopic connection area 5 is through first mount pad 501 fixed connection to the side of host computer casing 102, the rear end of telescopic connection area 5 is through second mount pad 502 fixed connection to the front end of wireless earphone 4, just be provided with second fixed knob 503 and a plurality of second on the telescopic connection area 5 and adjust tooth 504, be provided with earphone switch button 401 and adjust button 402 on the wireless earphone 4, design like this, through wireless earphone 4 helps forming the immersive experience of integral type, and wears the convenience, easily adjusts wireless earphone 4 and different user head positions.

In an embodiment, the rear end of the wireless headset 4 is connected with the fixing band assembly 2, the fixing band assembly 2 comprises a first adjusting band 202 and a second adjusting band 205, the first adjusting band 202 and the second adjusting band 205 are respectively provided with an adjusting buckle 203, one end of the first adjusting band 202 and one end of the second adjusting band 205 are respectively connected to the two rear ends of the wireless headset 4 through a fixing buckle 201, the other end of the first adjusting band 202 and the other end of the second adjusting band 205 are respectively provided with a connecting female buckle 204 and a connecting male buckle 206, and the connecting female buckle 204 and the connecting male buckle 206 are movably connected.

In an embodiment, the upper end of the wireless earphone 4 is rotatably connected with an adjusting head band 3 through a fastening bolt 303, and a first fixing knob 301 and a plurality of first adjusting teeth 302 are distributed on the adjusting head band 3, so that the design is helpful for further reinforcing the stability of the device worn on the head, and the tightness is adjustable.

It should be understood that the examples and embodiments described herein are for illustrative purposes only and are not intended to limit the scope of the present disclosure, and that various modifications or changes in light thereof will be suggested to persons skilled in the art and are to be included within the spirit and purview of this disclosure.

Claims (8)

1. The utility model provides a convenient type VR glasses trainer based on cell-phone uses which characterized in that: the glasses comprise a VR glasses mechanism (1), wherein a fixed mounting component (7) is rotatably mounted in the VR glasses mechanism (1);

the fixed mounting assembly (7) comprises an annular plate (701) and more than one limiting clamping plate (706), the middle of the annular plate (701) is hollowed, positioning columns (702) are respectively and annularly distributed on the front side surface and the rear side surface of the annular plate (701), through holes (704) are uniformly distributed on the inner wall surface of the annular plate (701) at intervals, and each limiting clamping plate (706) is connected to the inside of each through hole (704) through a damping spring (705) arranged at the bottom of the limiting clamping plate;

VR glassess mechanism (1) still includes host computer casing (102) and radiator unit (6), fixed mounting subassembly (7) are rotated and are pressed from both sides and establish between host computer casing (102) and radiator unit (6), radiator unit (6) include heating panel (601) and two radiator fan (607), two radiator fan (607) are installed through mounting hole (606) respectively on heating panel (601), the outer surrounding ring of heating panel (601) is equipped with anti-skidding and bordures (602), the annular distribution has locating hole (603) on anti-skidding bordures (602).

2. The portable VR glasses training device for mobile phone based use as in claim 1, wherein: the fixed mounting assembly (7) further comprises a threaded rotating shaft (703), the threaded rotating shaft (703) fixedly penetrates through one corner of the annular plate (701), and a protruding block (707) is fixedly arranged at one end of the bottom of the annular plate (701).

3. The portable VR glasses training device for mobile phone based use as in claim 1 or 2, wherein: the back of the heat dissipation plate (601) is attached with a protective layer (605), a rotating hole (604) is formed in one corner of the anti-skidding wrapping edge (602), the threaded rotating shaft (703) rotates to penetrate through the rotating hole (604), when the threaded rotating shaft (703) rotates around the rotating hole (604), the annular plate (701) rotates between the host shell (102) and the heat dissipation assembly (6), and when the positioning column (702) is matched with the positioning hole (603) in a clamping mode, the annular plate (701) is fixed between the host shell (102) and the heat dissipation assembly (6).

4. The portable VR glasses training device for mobile phone based use as in claim 1, wherein: VR glasses mechanism (1) still includes front shroud (103), front shroud (103) are fixed the preceding terminal surface of radiator unit (6), just the symmetry is provided with dustproof net (104) on front shroud (103), dustproof net (104) are located radiator fan (607) just the front end.

5. The portable VR glasses training device for mobile phone based use as in claim 1, wherein: the utility model discloses a computer mainframe shell, including host computer casing (102), connecting seat (107), nose bracket (108), sponge packing ring (101) are distributed to the peripheral annular of rear end face of host computer casing (102), the side of host computer casing (102) is provided with focus adjust knob (109), master switch button (1010), fan switch (1011) and external port (1012), left lens (105) and right lens (106) are installed through connecting seat (107) symmetry in the inside of host computer casing (102), be connected with nose bracket (108) between left side lens (105) and right lens (106), just nose bracket (108) are fixed on connecting seat (107).

6. The portable VR glasses training device for mobile phone based use as in claim 1, wherein: the both sides of host computer casing (102) are connected with wireless earphone (4) through telescopic connection area (5) respectively, the front end of telescopic connection area (5) is through first mount pad (501) fixed connection to the side of host computer casing (102), the rear end of telescopic connection area (5) is through second mount pad (502) fixed connection to the front end of wireless earphone (4), just be provided with fixed knob (503) of second and a plurality of second regulation tooth (504) on telescopic connection area (5), be provided with earphone switch button (401) and adjust button (402) on wireless earphone (4).

7. The portable VR glasses training device of claim 1 or 6 for use with a cell phone, wherein: the rear end of wireless earphone (4) is connected with fixed band subassembly (2), fixed band subassembly (2) are including first regulation band (202) and second regulation band (205), be provided with respectively on first regulation band (202) and the second regulation band (205) and adjust and detain (203), just the one end of first regulation band (202) and second regulation band (205) is connected to two through fixed knot (201) respectively the rear end of wireless earphone (4), the other end of first regulation band (202) and second regulation band (205) is provided with respectively connects box (204) and connector and detains (206), connect box (204) and connector and detain (206) swing joint.

8. The portable VR glasses training device of claim 6 for use with a cell phone, wherein: the upper end of wireless earphone (4) is connected with regulation bandeau (3) through fastening bolt (303) rotation, it has first fixed knob (301) and a plurality of first regulation tooth (302) to distribute on regulation bandeau (3).

Images