CN114708766A - VR music simulation stage training equipment - Google Patents

Abstract

The invention discloses VR music simulation stage training equipment which structurally comprises a base, VR glasses, a display screen, a fixing frame, an installation top frame, a winding device, a placing plate, a fence and a training table.

Description

VR music simulation stage training equipment

Technical Field

The invention relates to the technical field of stages, in particular to VR music simulation stage training equipment.

Background

With the rapid development of various living matching technologies, China has entered the era of the rapid development of entertainment culture, and various sports facility matching equipment with new experience, health and environmental protection are produced; for example, the VR stage equipment is connected with a television to sense a motion game, the VR stage equipment utilizes a computer to simulate a virtual world which generates a three-dimensional space, and provides the simulation of senses such as vision, hearing and touch for a user, so that the user can feel experience of the user in his own experience, and can freely interact with things in the space, and when the stage training equipment is used, the improvement is needed:

current VR stage equipment is when carrying out the use, the user can be followed and is placed the board and take VR glasses to dress and simulate the stage training under the normal condition, be connected with a linking wire on the VR glasses, the linking wire can play the control limiting displacement to VR glasses, effectively prescribe a limit to user's training scope on the stage, when the user has used up VR glasses, because VR glasses link to each other with linking wire, VR glasses are placed on placing the board, linking wire can hang down because of dead weight effort, VR glasses meet with linking wire, make VR glasses can receive linking wire decurrent pulling effort and from placing the board and slowly falling down and place the board and drop on ground, lead to the VR glasses can the damage phenomenon that falls, thereby influence the normal use effect of equipment.

Disclosure of Invention

Aiming at the defects in the prior art, the invention is realized by the following technical scheme: the utility model provides a music simulation stage training equipment, its structure includes base, VR glasses, display screen, mount, installation roof-rack, coiling mechanism, places board, rail, training platform, install training platform, mount on the base, training platform externally mounted has the rail, the rail meets with the mount, install the display screen on the mount, place the board, be equipped with the VR glasses on placing the board, the VR glasses meet with the coiling mechanism, the coiling mechanism is established on the installation roof-rack, installation roof-rack and mount fixed connection.

As a further optimization of the invention, the rolling device comprises a connecting wire, a limiting frame, a frame body, sliding blocks, swing clamping blocks, rolling components, sliding ways and conduction buffering components, wherein the connecting wire penetrates through the limiting frame and extends into the frame body, the rolling components are arranged in the frame body, the sliding ways are arranged on two sides of the rolling components and are respectively arranged on two sides of the inner wall of the frame body, the sliding blocks are arranged on the two sliding ways and are connected with the sliding blocks in a sliding mode, the swing clamping blocks are clamped on the two sliding blocks, the swing clamping blocks are in contact with the rolling components, the rolling components are connected with the connecting wire, the connecting wire is connected between the two conduction buffering components, the two conduction buffering components are symmetrically distributed on two sides of the lower end in the frame body, the limiting frame is arranged in the middle of the bottom of the frame body, the limiting frame is connected with the connecting wire, and the connecting wire is connected with VR glasses, the frame body is arranged on the mounting top frame.

The invention further optimizes the content, the conduction buffering piece comprises a plurality of contact pressure rods, sliding guide pieces, a rotary disc, a fixed block and buckles, the contact pressure rods are respectively inserted on the corresponding sliding guide pieces, the sliding guide pieces are annularly arranged on the rotary disc at equal intervals, the rotary disc is movably clamped on the fixed block, the buckles are arranged at the middle position of the other end of the fixed block, the contact pressure rods are in contact with the connecting wires, and the fixed block is buckled on the inner wall of the frame body through the buckles.

The sliding guide piece comprises a resetting support piece, a pressure head, a clamping plate, a sliding block, a moving rod and a sliding groove, wherein the resetting support piece is arranged at the lower end in the sliding groove, the pressure head is arranged at the top of the resetting support piece, the pressure head is fixedly connected with the clamping plate, the other end of the clamping plate is fixedly embedded with the moving rod, the sliding block is arranged on each of two sides of the upper half section of the moving rod, the sliding block is movably connected with the sliding groove, the moving rod is inserted and embedded with the contact pressure rod, and the sliding groove is arranged on the rotary table.

The resetting support part comprises a telescopic plate, support plates, contact pads, elastic parts and connecting rods, wherein the two sides of the telescopic plate are both connected with the connecting rods, the other ends of the two connecting rods are connected with the two sides of the lower end of each support plate, the top of each support plate is connected with the contact pad, the elastic parts are arranged between the contact pads and the support plates, the telescopic plate is installed at the lower end in the sliding groove, and the top of each contact pad is provided with a pressure head.

The winding component comprises a winding guide member, a baffle and a ratchet wheel, wherein four baffle plates are arranged at equal intervals outside the winding guide member, the ratchet wheel is connected to the middle position of the outer side of the winding guide member, the winding guide member is arranged inside the frame body, slide ways are arranged on two sides of the winding guide member, the ratchet wheel is in contact with a swing clamping block, and the winding guide member is connected with a connecting wire.

The rolling guide piece comprises contact arc plates, a rotating rod, top supporting pressing pieces and elastic steel sheets, five contact arc plates are connected with five top supporting pressing pieces to form a circular structure, the five top supporting pressing pieces are arranged on the rotating rod in an equidistant annular mode, the elastic steel sheets are connected to two sides of the five top supporting pressing pieces, a baffle is mounted outside the rotating rod, the rotating rod is mounted inside a frame body, sliding ways are arranged on two sides of the rotating rod, and the contact arc plates and the top supporting pressing pieces are connected with connecting wires.

The top bracing pressing piece comprises a positioning seat, a pressure dividing auxiliary piece, a shell, a pulling strip, an outer limiting plate and an elastic bag, wherein the shell is installed on the positioning seat, the shell is connected with the two outer limiting plates which are symmetrically arranged, the pulling strip is connected between the two outer limiting plates, the pressure dividing auxiliary piece is connected on the inner arc surface of the outer limiting plate, the pressure dividing auxiliary piece is connected with the elastic bag, the elastic bag is arranged in the shell, the outer limiting plate is connected with a contact arc plate, the positioning seat is arranged on a rotating rod, two sides of the positioning seat are connected with elastic steel sheets, and the outer limiting plate is connected with a connecting lead.

As a further optimization of the invention, five top supporting and pressing pieces are equidistantly arranged on the rotating rod in a pentagonal structure.

Advantageous effects

The VR music simulation stage training equipment has the following beneficial effects:

1. according to the invention, the linking wire penetrates through the limiting frame and extends into the frame body to be connected with the winding assembly, the sliding block drives the swinging clamping block to move left and right on the sliding way, the rotation direction of the winding assembly is controlled and adjusted, the winding assembly can rotate left or right conveniently to wind and unwind the linking wire, and the position of the linking wire is limited by the two conducting slow pieces in the winding and unwinding processes of the linking wire, so that the deviation of the linking wire in the rotation process is prevented.

2. According to the invention, the fixed block is arranged on the conduction buffering piece through the buckle through the contact pressure rod, the sliding guide piece, the rotary disc, the fixed block and the buckle, the connecting lead can be in direct contact with the contact pressure rod in the winding process, the contact pressure rod can retract inwards into the sliding guide piece to perform sliding adjustment under the contact pressure of the connecting lead, the retraction and release of the connecting lead are used as the rotating power of the rotary disc, and the position of the rotary disc is limited through the fixed block, so that the rotary disc can move and be adjusted along with the connecting lead.

3. According to the invention, the contact arc plate, the rotating rod, the top supporting pressing piece and the elastic steel sheet are used, five top supporting pressing pieces are inserted into the rotating rod, the two sides of the five top supporting pressing pieces are connected with the contact arc plate, the contact arc plate and the rotating rod are matched to form a circular ring structure, the linking wire can be directly contacted with the top supporting pressing piece and the contact arc plate in the winding process, the top supporting pressing piece and the contact arc plate can be matched to adjust the tightness of the linking wire, so that the linking wire can be stably wound on the rotating rod, the top supporting pressing piece is drawn through the elastic steel sheet, the top supporting pressing piece is pressed to deviate, and the linking wire is effectively wound.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a VR music simulation stage training device of the present invention;

fig. 2 is a schematic view of the internal structure of the winding device of the present invention.

Fig. 3 is a schematic view of the internal structure of the conductive buffer of the present invention.

Fig. 4 is a schematic sectional view of the sliding guide according to the present invention.

Fig. 5 is an enlarged structural diagram of a in fig. 4.

Fig. 6 is a schematic view of the internal structure of the winding assembly of the present invention.

FIG. 7 is a schematic view of the internal structure of the jacking pressing member of the present invention.

In the figure: base-1, VR glasses-6, display screen-3, fixed frame-8, mounting top frame-4, rolling device-9, placing plate-7, rail-5, training platform-2, connecting wire-Q1, limiting frame-Y6, frame-E3, slider-R4, swinging fixture block-U7, rolling component-W2, slideway-T5, conduction slow piece-I8, contact pressure bar-R11, sliding guide-T13, turntable-Y15, fixing block-Y14, buckle-T12, reset support-D21, pressure head-H24, clamping plate-G22, slider-K26, moving rod-J25, sliding groove-F23, expansion plate-K31, support plate-C35, contact pad-Z33, elastic piece-L32, connecting rod-X34, The device comprises a rolling guide piece-N42, a baffle-C41, a ratchet-V43, a contact arc plate-E51, a rotating rod-R53, a top supporting and pressing piece-T52, an elastic steel sheet-Y54, a positioning seat-A61, a pressure dividing auxiliary piece-D63, a shell-H66, a pulling strip-F64, an external limiting plate-S62 and an elastic bag-G65.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a VR music simulation stage training equipment, its structure includes base 1, VR glasses 6, display screen 3, mount 8, installation roof-rack 4, coiling mechanism 9, places board 7, rail 5, training platform 2, install training platform 2, mount 8 on the base 1, 2 externally mounted of training platform have rail 5, rail 5 meets with mount 8, install display screen 3 on the mount 8, place board 7, it is equipped with VR glasses 6 on the board 7 to place, VR glasses 6 meets with coiling mechanism 9, coiling mechanism 9 establishes on installation roof-rack 4, installation roof-rack 4 and 8 fixed connection of mount.

Referring to fig. 2, the winding device 9 includes a connecting wire Q1, a limiting frame Y6, a frame E3, a sliding block R4, a swinging block U7, a winding component W2, a sliding way T5, and a conducting buffering component I5, the connecting wire Q5 penetrates through the limiting frame Y5 and extends into the frame E5, the winding component W5 is installed inside the frame E5, the sliding ways T5 are installed on both sides of the winding component W5, the two sliding ways T5 are installed on both sides of the inner wall of the frame E5, the sliding block R5 is installed on both sliding ways T5 and connected with the sliding block R5, the swinging block U5 is fastened on both sliding blocks R5, the swinging block U5 is in contact with the winding component W5, the winding component W5 is connected with the connecting wire Q5, the connecting wire Q5 is connected between the two conducting buffering components I5, the two conducting buffering components I5 are symmetrically distributed inside the frame E5 at the lower end of the frame E5, and the limiting frame Y5 is installed at the middle position, the limiting frame Y6 is connected with a connecting lead Q1, the connecting lead Q1 is connected with VR glasses 6, and the frame body E3 is arranged on the mounting top frame 4.

The limiting frame Y6 is used for being matched with a connecting lead Q1, the connecting lead Q1 penetrates and extends into the limiting frame Y6, the position of the connecting lead Q1 is limited at the middle position inside the limiting frame Y6, and the connecting lead Q1 is effectively prevented from shaking left and right in the winding process.

Referring to fig. 3, the conduction buffering member I8 includes a plurality of contact pressure levers R11, a sliding guide member T13, a rotating disc Y15, a fixed block Y14, and a buckle T12, where the plurality of contact pressure levers R11 are provided, a plurality of contact pressure levers R11 are respectively inserted into the corresponding sliding guide members T13, a plurality of sliding guide members T13 are annularly provided on the rotating disc Y15 at equal intervals, the rotating disc Y15 is movably engaged with the fixed block Y14, the buckle T12 is installed at a middle position of the other end of the fixed block Y14, the contact pressure lever R11 is in contact with the engaging wire Q1, and the fixed block Y14 is fastened to an inner wall of the frame E3 through the buckle T12.

The fixed block Y14 is used to match the turntable Y15, the turntable Y15 is movably clamped on the fixed block Y14, and the position of the turntable Y15 is limited by the fixed block Y14, so that the turntable Y15 can stably rotate.

Referring to fig. 4, the sliding guide T13 includes a reset supporter D21, a pressure head H24, a clamping plate G22, a sliding block K26, a moving rod J25 and a sliding groove F23, the reset supporter D21 is installed at the lower end of the inside of the sliding groove F23, the pressure head H24 is installed at the top of the reset supporter D21, the pressure head H24 is fixedly connected with the clamping plate G22, the other end of the clamping plate G22 is fixedly embedded with the moving rod J25, the sliding blocks K26 are installed at both sides of the upper half section of the moving rod J25, the sliding block K26 is movably connected with the sliding groove F23, the moving rod J25 is inserted into the contact pressure rod R11, and the sliding groove F23 is installed on the turntable Y15.

The above-mentioned catch plate G22 is used for cooperating with the travel bar J25, the travel bar J25 is mounted on the lower end of the travel bar J25, the travel bar J25 slides up and down in the slide groove F23 under the action of the slider K26, the movement position of the travel bar J25 is limited by the catch plate G22, and the travel bar J25 is prevented from moving excessively and separating from the slide groove F23.

Referring to fig. 5, the reposition supporter D21 includes a telescopic plate K31, a support plate C35, a contact pad Z33, a springing member L32, and connecting rods X34, two sides of the telescopic plate K31 are both connected with connecting rods X34, the other ends of the two connecting rods X34 are connected to two sides of the lower end of the support plate C35, the top of the support plate C35 is connected with a contact pad Z33, the springing member L32 is disposed between the contact pad Z33 and the support plate C35, the telescopic plate K31 is mounted at the lower end inside the sliding groove F23, and the top of the contact pad Z33 is provided with a pressing head H24.

The elastic piece L32 is used for matching with the contact pad Z33, the elastic piece L32 is arranged between the contact pad Z33 and the support plate C35, when the movable rod J25 moves downwards, the pressure head H24 presses downwards on the contact pad Z33, the contact pad Z33 is pressed inwards concave and conducts the pressing to the elastic piece L32, the stressed position of the elastic piece L32 is concave downwards, the positions of two sides of the elastic piece L32 which are not stressed are expanded outwards, and the pressure head H24 is effectively wrapped.

Example two

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a VR music simulation stage training equipment, its structure includes base 1, VR glasses 6, display screen 3, mount 8, installation roof-rack 4, coiling mechanism 9, places board 7, rail 5, training platform 2, install training platform 2, mount 8 on the base 1, 2 externally mounted of training platform have rail 5, rail 5 meets with mount 8, install display screen 3 on the mount 8, place board 7, it is equipped with VR glasses 6 on the board 7 to place, VR glasses 6 meets with coiling mechanism 9, coiling mechanism 9 establishes on installation roof-rack 4, installation roof-rack 4 and 8 fixed connection of mount.

Referring to fig. 2, the winding device 9 includes a connecting wire Q1, a limiting frame Y6, a frame E3, a sliding block R4, a swinging block U7, a winding component W2, a sliding way T5, and a conducting buffering component I5, the connecting wire Q5 penetrates through the limiting frame Y5 and extends into the frame E5, the winding component W5 is installed inside the frame E5, the sliding ways T5 are installed on both sides of the winding component W5, the two sliding ways T5 are installed on both sides of the inner wall of the frame E5, the sliding block R5 is installed on both sliding ways T5 and connected with the sliding block R5, the swinging block U5 is fastened on both sliding blocks R5, the swinging block U5 is in contact with the winding component W5, the winding component W5 is connected with the connecting wire Q5, the connecting wire Q5 is connected between the two conducting buffering components I5, the two conducting buffering components I5 are symmetrically distributed inside the frame E5 at the lower end of the frame E5, and the limiting frame Y5 is installed at the middle position, the limiting frame Y6 is connected with a connecting lead Q1, the connecting lead Q1 is connected with VR glasses 6, and the frame body E3 is arranged on the mounting top frame 4.

The limiting frame Y6 is used for being matched with a connecting lead Q1, the connecting lead Q1 penetrates and extends into the limiting frame Y6, the position of the connecting lead Q1 is limited at the middle position inside the limiting frame Y6, and the connecting lead Q1 is effectively prevented from shaking left and right in the winding process.

Referring to fig. 6, the winding assembly W2 includes a winding guide N42, a baffle C41, and a ratchet V43, four baffles C41 are mounted outside the winding guide N42, a ratchet V43 is connected to the middle position outside the winding guide N42, the winding guide N42 is mounted inside a frame E3, two sides of the winding guide N42 are both provided with slideways T5, the ratchet V43 contacts with a swing fixture block U7, and the winding guide N42 contacts with an engaging wire Q1.

The ratchet V43 is used for cooperating with the winding guide N42, the ratchet V43 is installed on the winding guide N42, the winding guide N42 rotates clockwise, the ratchet V43 rotates along with the winding guide N, the two swing latch blocks U7 slide rightward through the two slide ways T5 under the driving of the two slide blocks R4, so that the swing latch block U7 on the left side can cooperate with the winding guide N42 to rotate the engaging wire Q1 clockwise, and when the winding guide N42 rotates counterclockwise, the two swing latch blocks U7 slide leftward simultaneously, so that the swing latch block U7 on the right side can cooperate with the winding guide N42 to rotate counterclockwise.

Referring to fig. 6, the winding guide N42 includes a contact arc plate E51, a rotating rod R53, a top bracing and pressing member T52, and an elastic steel sheet Y54, five contact arc plates E51 are connected with five top bracing and pressing members T52 to form a circular structure, five top bracing and pressing members T52 are annularly arranged on the rotating rod R53 at equal intervals, two sides of the five top bracing and pressing members T52 are connected with the elastic steel sheet Y54, a baffle C41 is installed outside the rotating rod R53, the rotating rod R53 is installed inside a frame E3, two sides of the rotating rod R53 are provided with slideways T5, and the contact arc plate E51 and the top bracing and pressing member T52 are connected with a connecting wire Q1.

Referring to fig. 6, five top supporting/pressing pieces T52 are equidistantly arranged on the rotating rod R53 in a pentagonal structure.

The contact arc plate E51 is used for being matched with the top bracing pressing piece T52, the top bracing pressing piece T52 and the contact arc plate E51 are matched to form a circular structure, the engaging lead Q1 can be directly contacted with the top bracing pressing piece T52 and the contact arc plate E51 in the rolling process, and the two can be matched to adjust the tightness of the engaging lead Q1, so that the rolling of the engaging lead Q1 is facilitated.

Referring to fig. 7, the top pressing member T52 includes a positioning seat a61, a pressure dividing auxiliary D63, a housing H66, a pulling strip F64, an outer limiting plate S62, and an elastic bag G65, the positioning seat a61 is installed with the housing H66, the housing H66 is connected with two outer limiting plates S62 symmetrically installed, a pulling strip F64 is connected between the two outer limiting plates S62, the inner arc surface of the outer limiting plate S62 is connected with the pressure dividing auxiliary D63, the pressure dividing auxiliary D63 is connected with the elastic bag G65, the elastic bag G65 is disposed inside the housing H66, the outer limiting plate S62 is connected with a contact arc plate E51, the positioning seat a61 is disposed on a rotating rod R53, two sides of the positioning seat a61 are both connected with elastic steel sheets Y54, and the outer limiting plate S62 is connected with a wire Q1.

The pulling strip F64 is used for being matched with the outer limiting plate S62, the pulling strip F64 is connected between the two outer limiting plates S62, the two outer limiting plates S62 are pulled through the pulling strip F64, and the two outer limiting plates S62 are prevented from being outwards stretched and clamped by the pressing force of the connecting lead Q1.

The following description is made on the working principle in the above technical solution:

when the invention is used, the frame body E3 is arranged on the installation top frame 4, the installation top frame 4 is fixedly connected with the fixed frame 8, and both sides of the installation top frame 4 are connected with the LED illuminating lamps, which can effectively play a role of illumination, when a user stands on the training table 2, when needing to use VR glasses 6, the VR glasses 6 placed on the placing plate 7 are taken down, the length of the connecting lead Q1 is adjusted, the connecting lead Q1 is pulled downwards, the rolling guide N42 rotates clockwise, the ratchet V43 on the rolling guide N42 rotates along with the connecting lead, two swinging fixture blocks U7 on both sides inside the frame body E3 slide rightwards through two slide ways T5 under the drive of two sliders R4, so that the left swinging fixture block U7 can cooperate with the guide N42 to rotate the connecting lead Q1 clockwise, the rolling guide Q1 moves downwards through the rolling connecting N42, both sides of the lower end inside the frame body E3 are connected with the Y fixing block 14 through the fastener T12, when the connecting wire Q1 moves, the two sides of the connecting wire Q1 generate opposite pressure on the connecting wire Q1 by the rotating disc Y15, the contact pressure lever R11 on the rotating disc Y15 contacts with the connecting wire Q1, the contact pressure lever R11 is fixedly connected with the moving rod J25, the contact pressure lever R11 drives the moving rod J25 to move inwards by the contact pressure of the connecting wire Q1, the moving rod J25 drives the slider K26 to slide and adjust inside the sliding groove F23, the moving rod J25 drives the pressure head H24 and the clamping plate G22 to move downwards simultaneously in the downward moving process, the pressure head H24 directly contacts with the contact pad Z33 in the downward moving process, the contact pad Z33 is recessed inwards after being pressed, the pressing force is transmitted to the elastic piece L32, the elastic piece L32 transmits the pressure to the pressure force C35 when being stressed, the pressure on the two sides of the supporting plate C35 moves downwards, the connecting rod X34 at the lower end of the connecting rod X34 is adjusted and then swings and the supporting plate 31 to retract along with the telescopic plate 59 35, after the telescopic plate K31 retracts to move, the stress position of the elastic piece L32 can be sunken downwards, the unstressed positions on the two sides of the elastic piece L32 can be expanded outwards, the connecting lead Q1 rotates continuously, the extension and retraction of the connecting lead Q1 is used as the rotating power of the rotary table Y15, the position of the rotary table Y15 is limited through the fixing block Y14, so that the rotary table Y15 can rotate and adjust along with the connecting lead Q1, the connecting lead Q1 can be conducted downwards through the limiting frame Y6, the connecting lead Q1 can extend outwards, and a user can wear VR glasses 6 to perform stage training on the training table 2 conveniently;

after the training is finished, a user can place the VR glasses 6 on the placing plate 7, the rolling guide N42 is rotated counterclockwise, the ratchet wheel V43 on the rolling guide N42 is rotated along with the rotation, the two swing fixture blocks U7 on two sides inside the frame E3 are driven by the two slide blocks R4 to slide leftward through the two slide ways T5 at the same time, so that the swing fixture block U7 on the right side can cooperate with the rolling guide N42 to rotate the engaging wire Q1 counterclockwise, the engaging wire Q1 can extend into the frame E3 along with the limiting frame Y6, the position of the engaging wire Q1 is limited by the two turntables Y15, so that the engaging wire Q1 can be limited at a middle position, the two turntables Y15 can rotate outward at the same time under the action of the engaging wire Q1, which is helpful for conducting the wire Q1 upward, when the rotating rod R53 rotates, the housing H66 and the contact arc plate E51 are connected to form a structure, and the engaging wire Q1 is connected in the rolling process, the elastic pressing device can be directly contacted with an outer limiting plate S62 and a contact arc plate E51, a pulling strip F64 is connected between the two outer limiting plates S62, the outer limiting plate S62 is effectively restrained, the outer limiting plate S62 can retract inwards under the pressing force of a connecting wire Q1 and transmits the pressing force to a pressure division auxiliary D63, a plurality of elastic pressing balls are arranged inside the pressure division auxiliary D63 and can effectively divide pressure, so that the pressure division auxiliary D63 can be uniformly stressed, the pressure division auxiliary D63 can bend inwards under the pressure to press an elastic bag G65 inside a shell H66, the elastic bag G65 can be compressed inwards under the pressure, the inside of an 82A 61 is in a compact state and can effectively support the shell H66, when the gas inside of the elastic bag G65 is compressed to a certain limit, the elastic force can be generated to push the pressure division D63 and the outer limiting plate S62 outwards, the outer limiting plate S3652 is contacted with the contact arc plate E51 and moves upwards along with the contact arc plate S3646, effectively adjust linking wire Q1's elasticity, help carrying out the winding rolling to linking wire Q1, linking wire Q1 is in the rolling, draw back positioning seat A61 through elastic steel piece Y54, prevent that the skew appears after positioning seat A61 pressurized, make five top sprag casting die T52 can carry out the equidistance even support to linking wire Q1, help carrying out the rolling with linking wire Q1, linking wire Q1 is the rolling back that makes progress, can upwards carry up VR glasses thereupon, prevent VR glasses 6 because linking wire Q1 decurrent power of pulling and from placing board 7 and fall on ground, thereby avoid VR glasses 6 can appear falling the damage phenomenon, effectively protect VR glasses 6, make VR glasses 6 can normally use.

In summary, the novel VR music simulation stage training device is formed by combining a base, VR glasses, a display screen, a fixing frame, an installation top frame, a winding device, a placing plate, a fence and a training table, a linking wire penetrates through a limiting frame and extends into a frame body to be connected with a winding component, a sliding block drives a swing clamping block to move left and right on a sliding rail, the rotation direction of the winding component is controlled and adjusted, the winding component can rotate left or right to wind and release the linking wire conveniently, the position of the linking wire is limited by two conduction buffering pieces in the winding and releasing process of the linking wire, deviation in the rotation process of the linking wire is prevented, and the linking wire is wound and released beneficially.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a VR music simulation stage training equipment, its structure includes base (1), VR glasses (6), display screen (3), mount (8), installation roof-rack (4), coiling mechanism (9), places board (7), rail (5), training platform (2), its characterized in that:

the training table (2) and the fixing frame (8) are mounted on the base (1), a fence (5) is mounted outside the training table (2), the fence (5) is connected with the fixing frame (8), a display screen (3) and a placing plate (7) are mounted on the fixing frame (8), VR glasses (6) are arranged on the placing plate (7), the VR glasses (6) are connected with a winding device (9), the winding device (9) is arranged on the mounting top frame (4), and the mounting top frame (4) is fixedly connected with the fixing frame (8);

the winding device (9) comprises a connection lead (Q1), a limiting frame (Y6), a frame body (E3), a sliding block (R4), a swinging clamping block (U7), a winding component (W2), a slideway (T5) and a conduction buffering component (I8), wherein the connection lead (Q1) extends into the frame body (E3), the frame body (E3) is provided with the winding component (W2), the two slideways (T5) are arranged on the frame body (E3), the slideway (T5) is connected with the sliding block (R4) in a sliding manner, the sliding block (R4) is clamped with the swinging clamping block (U4), the swinging clamping block (U4) is in contact with the winding component (W4), the winding component (W4) is connected with the lead (Q4), the connection lead (Q4) is connected with the conduction buffering component (I4), the two conduction buffering components (I4) are arranged on the frame body (E4), and the limiting frame body (E4) is provided with the Y4), the limiting frame (Y6) is connected with a connecting lead (Q1), the connecting lead (Q1) is connected with VR glasses (6), and the frame body (E3) is arranged on the mounting top frame (4).

2. The VR music simulation stage training apparatus of claim 1, wherein: the conduction buffering piece (I8) comprises a contact pressure lever (R11), a sliding guide piece (T13), a rotary disc (Y15), a fixed block (Y14) and a buckle (T12), wherein the contact pressure lever (R11) is inserted into the sliding guide piece (T13), the sliding guide piece (T13) is arranged on the rotary disc (Y15), the rotary disc (Y15) is movably clamped on the fixed block (Y14), the buckle (T12) is arranged on the fixed block (Y14), the contact pressure lever (R11) is in contact with a connecting wire (Q1), and the fixed block (Y14) is buckled on a frame body (E3) through the buckle (T12).

3. The VR music simulation stage training apparatus of claim 2, wherein: the sliding guide piece (T13) comprises a reset support piece (D21), a pressure head (H24), a clamping plate (G22), a sliding block (K26), a moving rod (J25) and a sliding groove (F23), wherein the reset support piece (D21) is installed on the sliding groove (F23), the reset support piece (D21) is provided with the pressure head (H24), the pressure head (H24) is fixedly connected with the clamping plate (G22), the clamping plate (G22) is fixedly embedded with the moving rod (J25), the moving rod (J25) is provided with the sliding block (K26), the sliding block (K26) is movably connected with the sliding groove (F23), the moving rod (J25) is inserted and embedded with a contact pressure rod (R11), and the sliding groove (F23) is arranged on a rotary table (Y15).

4. The VR music stage simulation training device of claim 3, wherein: the resetting support piece (D21) comprises a telescopic plate (K31), a support plate (C35), a contact pad (Z33), a bouncing piece (L32) and a connecting rod (X34), wherein the telescopic plate (K31) is connected with the connecting rod (X34), the connecting rod (X34) is connected to the support plate (C35), the support plate (C35) is connected with the contact pad (Z33), the bouncing piece (L32) is arranged between the contact pad (Z33) and the support plate (C35), the telescopic plate (K31) is installed on a sliding groove (F23), and a pressure head (H24) is arranged on the contact pad (Z33).

5. The VR music simulation stage training apparatus of claim 1, wherein: the winding component (W2) comprises a winding guide piece (N42), a baffle (C41) and a ratchet wheel (V43), wherein the baffle (C41) is installed on the winding guide piece (N42), the ratchet wheel (V43) is connected to the winding guide piece (N42), the winding guide piece (N42) is installed on a frame body (E3), the ratchet wheel (V43) is in contact with a swing clamping block (U7), and the winding guide piece (N42) is connected with a connecting wire (Q1).

6. The VR music stage simulation training device of claim 5, wherein: the winding guide piece (N42) comprises a contact arc plate (E51), a rotating rod (R53), a top supporting and pressing piece (T52) and an elastic steel sheet (Y54), wherein the contact arc plate (E51) is connected with the top supporting and pressing piece (T52), five top supporting and pressing pieces (T52) are arranged on the rotating rod (R53), the top supporting and pressing piece (T52) is connected with the elastic steel sheet (Y54), a baffle (C41) is arranged on the rotating rod (R53), the rotating rod (R53) is arranged on a frame body (E3), and the contact arc plate (E51) and the top supporting and pressing piece (T52) are connected with a connecting lead (Q1).

7. The VR music stage simulation training device of claim 6, wherein: the top supporting and pressing piece (T52) comprises a positioning seat (A61), a partial pressure auxiliary piece (D63), a shell (H66), a traction strip (F64), an outer limit plate (S62) and an elastic bag (G65), wherein the shell (H66) is installed on the positioning seat (A61), the shell (H66) is connected with the outer limit plate (S62), the outer limit plate (S62) is connected with the traction strip (F64), the outer limit plate (S62) is connected with the partial pressure auxiliary piece (D63), the partial pressure auxiliary piece (D63) is connected with the elastic bag (G65), the elastic bag (G65) is arranged on the shell (H66), the outer limit plate (S62) is connected with a contact arc plate (E51), the positioning seat (A61) is arranged on a rotating rod (R53), the positioning seat (A61) is connected with an elastic steel sheet (Y54), and the outer limit plate (S62) is connected with a lead (Q1).

8. The VR music stage simulation training device of claim 6, wherein: five top supporting and pressing pieces (T52) are arranged on the rotating rod (R53) in a pentagonal structure at equal intervals.

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