CN114727537A - Simulation mobile device - Google Patents

Abstract

The application provides an emulated mobile device, comprising: a supporting base; a movable device embedded in the support base, the movable device comprising a sphere, a ball and a conveyor belt; the conveying belt is arranged on the surface of the sphere, and the ball bearings are embedded in the sphere; the conveyor belt is in contact with the balls; wherein the movable device is used for carrying a user and simulating the moving process of the user in the process of using the VR equipment by the user. Can improve the applicable scene of VR equipment through this mode, simultaneously, because the user can move about in limited within range always, also can reduce the condition that user and surrounding environment bump and appear, improve the security of VR equipment in the use.

Description

Simulation mobile device

Technical Field

The application relates to the technical field of simulation equipment, in particular to simulation mobile equipment.

Background

VR (virtual reality) devices are VR head-mounted displays (virtual reality head-mounted display devices) with independent processors, which have independent computing, input, and output functions.

When the VR equipment is used at present, a user has to operate in an open place. In use of a VR device, the user needs to walk or run, but this process can cause the user to collide with the surrounding environment, causing pain on a light level, and injury on a heavy level.

It is thus clear that the use scene to VR equipment is limited at present, and the incident appears in the use easily.

Disclosure of Invention

An object of the embodiment of the application is to provide a simulation mobile device, so as to improve the problem that the use scene of a VR device is limited and safety accidents easily occur in the use process.

The invention is realized by the following steps:

in a first aspect, an embodiment of the present application provides an emulated mobile device, including: a supporting seat; a movable device embedded in the support base, the movable device comprising a sphere, a ball and a conveyor belt; the conveying belt is arranged on the surface of the sphere, and the ball bearings are embedded in the sphere; the conveyor belt and the balls are in contact with each other; wherein the movable device is used for carrying a user and simulating the moving process of the user in the process of using the VR equipment by the user.

The embodiment of the application provides a simulation mobile device, and a movable device is embedded in a supporting seat. The movable device comprises a ball body, a conveyor belt arranged on the surface of the ball body and a ball embedded in the ball body. Through the simulated mobile device, the moving process in a real space can be simulated by the moving on the conveyor belt in the process of using the VR device by a user, a clear place does not need to be specially provided, and the conveyor belt is arranged on the surface of the sphere, so that the moving of the user in any direction can be realized. Therefore, the applicable scene of the VR equipment can be improved through the method, meanwhile, the situation that the user collides with the surrounding environment can be reduced because the user can move in a limited range all the time, and the safety of the VR equipment in the using process is improved.

With reference to the technical solution provided by the first aspect, in some possible implementations, the mobile device further includes: a push rod and an air bag; the push rod is embedded in the ball body; the air bag is arranged at one end of the push rod; volatile liquid is arranged inside the air bag; when the volatile liquid is heated and volatilized, the air bag is heated and expanded, so that the other end of the push rod moves to be in contact with the conveyor belt, and resistance of the conveyor belt in moving is increased.

The movable device provided by the embodiment of the application further comprises a push rod and an air bag. When the user ran on the conveyer belt, the conveyer belt can drive the ball and rotate fast, and the ball rotates fast and can take place quick friction between its and the spheroid, and then makes the gasbag that sets up in the spheroid be heated, and the volatile liquid in the gasbag can gasify and then make the gasbag take place the inflation, the inflation of gasbag can drive the push rod and remove to contact with the conveyer belt, and then increase the frictional force between push rod and the conveyer belt contact, promptly, resistance when the increase conveyer belt removed. Through the mode, the situation that safety accidents occur due to the fact that the conveyor belt cannot normally stop under the action of inertia when a user needs to stop due to the fact that resistance of the conveyor belt is small when the user runs can be avoided.

With reference to the technical solution provided by the first aspect, in some possible implementations, the movable device further includes bristles and a collection box; the bristles are arranged on the inner wall of the supporting seat, and a discharge hole is formed in the inner wall of the supporting seat; the discharge hole is communicated with the collecting box; the bristles are in contact with the conveyor belt; in the moving process of the conveyor belt, the bristles are used for brushing the conveyor belt, so that foreign matters on the conveyor belt are cleaned to the collecting box through the discharge hole.

The mobile device that this application embodiment provided still includes brush hair and collecting box. When the user walked on the conveyer belt, the brush hair on the supporting seat inner wall can brush the surface of conveyer belt, and then brushes down the foreign matter on conveyer belt surface (if the dust that leaves when the user trampled down) and clears up to the collecting box, prevents that follow-up foreign matter from piling up more and leading to the emergence phenomenon of skidding between user's foot and the conveyer belt surface more, avoids the appearance of incident.

With reference to the technical solution provided by the first aspect, in some possible implementations, the mobile device further includes: the pushing block, the first elastic piece, the air outlet hole, the pressure rod and the pressing block; one end of the push block is connected with the air bag, the other end of the push block is connected with the inner wall of the ball body through the first elastic piece, the push block and the first elastic piece are arranged in a channel in the ball body, the air outlet hole is communicated with the channel, the press rod is connected with the air outlet hole in a sliding mode, and the press rod is further fixedly connected with the press block; the pressing block is in contact with the conveying belt; when the user steps on the push rod, the push rod drives the push block to move through the air bag, and in the moving process of the push block, gas in the channel flows to the press rod through the air outlet hole, so that the press rod is driven to move, and the press block is abutted to the conveyor belt.

The movable device provided by the embodiment of the application further comprises a push block, a first elastic piece, an air outlet hole, a pressure rod and a pressure block. When the user stepped on the push rod at every turn, the push rod passed through the gasbag and drives the ejector pad removal, and the ejector pad is at the removal in-process, and the gas in the channel passes through venthole flow direction depression bar, and then drives the depression bar and removes to make briquetting and conveyer belt butt, promptly, the conveyer belt tightly withstands the brush hair. Can increase the clean effect of brush hair through this mode, when user's foot lifted up simultaneously, under the effect of first elastic component, above-mentioned structure can reset again, and then realizes relapseing high-efficient clearance.

With reference to the technical solution provided by the first aspect, in some possible implementations, the movable device further includes a vent groove, a second elastic element, and a slider; the vent groove is communicated with the air outlet hole, the first end of the second elastic piece is connected with one end, away from the air outlet hole, of the vent groove, and the other end of the second elastic piece is connected with one end of the sliding block; the other end of the sliding block is in contact with the conveyor belt; when the user steps on the push rod, the push rod drives the push block to move through the air bag, and in the moving process of the push block, air in the channel flows to the vent groove through the air outlet hole, so that the second elastic piece drives the sliding block to move, and the sliding block is abutted to the conveyor belt.

The movable device provided by the embodiment of the application further comprises a vent groove, a second elastic piece and a sliding block. At the ejector pad at the removal in-process, the gas in the channel passes through venthole flow direction air channel, and then drives the slider through the second elastic component and remove to make slider and conveyer belt butt, so reciprocal messenger's conveyer belt top is in addition to increasing clean effect on the brush hair, can also realize that the brush hair is patted to the conveyer belt, and then slaps the dust of brush hair surface adhesion, makes the dust pass through the discharge opening and gets into the collecting box, convenient subsequent clearance.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the simulating mobile device further includes: a protection mechanism; wherein, protection machanism with the supporting seat is connected.

In the embodiment of the application, the safety of the user can be protected in the walking process of the user by connecting the protection mechanism on the supporting seat.

With reference to the technical solution provided by the first aspect, in some possible implementations, the protection mechanism includes a telescopic rod and a protection belt; the telescopic rod is respectively connected with the protective belt and the supporting seat; wherein the guard band is used for being bound on the user.

The protection machanism that this application embodiment provided specifically includes telescopic link and boundary belt, can be convenient for the user through the telescopic link and adjust the height of boundary belt according to oneself demand to make the user bind the boundary belt in the most suitable position, also improved user experience when improving user's security. In addition, when user's focus skew, the telescopic link can remind user's focus to take place the skew through the sense of touch top on one's body on the user, prevents that the user from taking place the skew still thoughtlessly not knowing when using the focus, leads to unexpected emergence.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, the protection mechanism further includes: a support rod and a circular ring; the surface of the supporting seat, in which the movable device is embedded, is also provided with a circular groove; the supporting rod is connected with the telescopic rod through a universal joint; the supporting rod is also connected with the circular ring; the ring is disposed in the circular groove.

The protection mechanism provided by the embodiment of the application further comprises a support rod and a circular ring, wherein the support rod is connected with the telescopic rod through a universal joint; the support rod is also connected with the circular ring; the circular ring is arranged in the circular groove in the supporting seat, and the protective structure can rotate or move along with the walking of a user in a matching mode, so that the use experience of the user is improved.

With reference to the technical solution provided by the first aspect, in some possible implementation manners, a sliding groove is further formed in one side of the telescopic rod, which is connected to the supporting rod, and the protection mechanism further includes a limiting column and a limiting plate; one end of the limiting column is arranged in the sliding chute, and the other end of the limiting column is connected with the limiting plate; the limiting plate is also contacted with the inner wall of the supporting seat, so that the limiting is realized; when the gravity center of the user shifts, the telescopic rod drives the limiting column to move, so that the limiting plate is in contact with the conveying belt, and the resistance of the conveying belt is increased.

The protection machanism that this application embodiment provided still includes spacing post and limiting plate, and one side of telescopic link joint support pole still is provided with the spout. Fixing between telescopic link and the supporting seat can be realized through spacing post and limiting plate one, avoids protection machanism to break away from the supporting seat. Secondly when user's focus skew, the telescopic link can be driven the rotation, and then can drive limiting plate and conveyer belt contact through spacing post to increase the frictional force between limiting plate and the conveyer belt, make the conveyer belt slow down, prevent that user's focus from shifting after the conveyer belt still at the quick travel, influence user's adjustment health focus.

In combination with the technical solution provided by the first aspect, in some possible implementation manners, the limiting column is an elastic structure.

In the embodiment of the application, the limiting column with the elastic structure can increase the flexibility and the adjustability of the limiting column in the using process.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a first emulated mobile device according to an embodiment of the present application.

Fig. 2 is a cross-sectional view of a first simulated mobile device provided in an embodiment of the present application.

Fig. 3 is a cross-sectional view of a second simulated mobile device provided in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a first briquetting provided in an embodiment of the present application.

FIG. 5 is a cross-sectional view of a first compact provided in an embodiment of the present application.

Fig. 6 is a schematic structural diagram of a third emulated mobile device according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a first protection mechanism according to an embodiment of the present application.

Fig. 8 is a schematic structural diagram of a second protection mechanism provided in an embodiment of the present application.

Icon: 100-emulating a mobile device; 10-a support seat; 101-a discharge hole; 102-a circular groove; 20-a mobile device; 201-sphere; 202-rolling balls; 203-a conveyor belt; 204-a push rod; 205-an air bag; 206-bristles; 207-collection box; 208-a push block; 209-a first elastic member; 210-air outlet holes; 211-a pressure bar; 212-briquetting; 2121-a receiving channel; 2122-rolling ball; 213-guide column; 214-a vent channel; 215-a second elastic member; 216-a slider; 217-a first magnet; 218-a second magnet; 30-a guard mechanism; 301-a telescopic rod; 3011-a chute; 302-guard band; 303-support bar; 304-a circular ring; 305-a spacing post; 306-a limiting plate.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

In view of the fact that the use scenarios of the prior VR devices are limited and safety accidents easily occur in the use process, the inventor of the present application has made long-term research and provides a simulated mobile device to solve the above problems.

Referring to fig. 1, an emulated mobile device 100 is provided in an embodiment of the present application, including: a support base 10 and a movable device 20.

Wherein, the support base 10 is a base of the whole simulation mobile device 100. The movable device 20 is embedded in the support base 10. Illustratively, a receiving groove is provided at the top of the support base 10, and the movable device 20 is placed in the receiving groove of the support base 10. It should be noted that the top of the support base 10 is used for carrying a user, and the bottom of the support base 10 is placed on the ground.

Referring to fig. 2, the movable device 20 specifically includes a ball 201, a ball 202, and a belt 203.

The conveyor belt 203 is arranged on the surface of the sphere 201, i.e. the conveyor belt 203 is wrapped outside the sphere 201.

The ball 202 is embedded in the ball 201, that is, the ball 201 is provided with a first receiving groove, and the ball 202 is placed in the first receiving groove of the ball 201. The ball 202 is close to the top of the ball 201, it should be noted that the top of the ball 201 is close to the notch of the receiving groove of the support seat 10, the top of the ball 201 is a plane, and the bottom of the ball 201 is disposed at the bottom of the receiving groove of the support seat 10.

The number of the balls 202 is set according to actual requirements, for example, the number of the balls 202 may be set according to the area of the top of the ball 201, when the area of the top of the ball 201 is larger, the number of the balls 202 may be 25, 16, and the like, and when the area of the top of the ball 201 is smaller, the number of the balls 202 may be 9, and the application is not limited thereto.

Of course, the balls 202 may be uniformly distributed on the top of the sphere 201, or may be distributed on the top of the sphere 201 according to a predetermined rule, which is not limited in the present application. Wherein, the preset rule may be that the balls 202 in the middle are densely distributed and the balls 202 near the top edge are loosely distributed.

The conveyor belt 203 and the rollerball 202 are in contact when the simulated moving apparatus 100 is not in use.

The above-described movable apparatus 20 is used for carrying a user and for simulating the moving process of the user during the use of the VR device by the user. That is, when the simulated mobile device 100 is used, the user may stand on the conveyer belt 203 of the movable apparatus 20, and then the user may walk on the conveyer belt 203 according to the virtual scene of the VR device. For example, when a user plays a game using the VR device, the user may walk on the conveyor belt 203 according to the simulated game map. Since the conveyor belt 203 is disposed on the surface of the sphere 201, the user can walk in any direction.

In summary, the present embodiment provides an emulated mobile device 100, in which a movable apparatus 20 is embedded in a support base 10. The movable device 20 includes a sphere 201, a belt 203 disposed on the surface of the sphere 201, and a ball 202 embedded in the sphere 201. By simulating the mobile device 100, the user can simulate the moving process in real space by walking on the conveyor belt 203 during the process of using the VR device without specially providing an open place, and the walking of the user in any direction can be realized because the conveyor belt 203 is arranged on the surface of the sphere 201. Therefore, the applicable scene of the VR equipment can be improved through the method, meanwhile, the situation that the user collides with the surrounding environment can be reduced because the user can move in a limited range all the time, and the safety of the VR equipment in the using process is improved.

Referring to fig. 3, in an embodiment, the mobile device 20 further includes: a push rod 204 and a bladder 205.

The push rod 204 is embedded in the ball 201. That is, the sphere 201 is provided with a second receiving groove, the push rod 204 is disposed in the second receiving groove of the sphere 201, and the push rod 204 is movable in the second receiving groove of the sphere 201.

An air bag 205 is provided at one end of the push rod 204. It should be noted that one end of the push rod 204 is an end of the push rod 204 close to the bottom of the second receiving groove of the sphere 201. The volatile liquid is arranged inside the air bag 205, and the air bag 205 is a sealing structure.

The volatile liquid arranged in the air bag 205 can be a nontoxic liquid which has a boiling point of 40-60 ℃, is volatile, safe and reliable. For example, the volatile liquid may be petroleum ether.

After the volatile liquid is heated and volatilized, the air bag 205 is heated and expanded, so that the other end of the push rod 204 moves to be in contact with the conveyor belt 203, and the resistance of the conveyor belt 203 during movement is increased. The volatile liquid can be liquefied again after being cooled, and the air bag 205 is sealed in the inner space, so that the volatile liquid can not be contacted with oxygen in the air, and further safety accidents such as explosion can not occur. The other end of the push rod 204 is an end of the push rod 204 close to the conveyor belt 203.

The purpose of setting up push rod 204 and gasbag 205 in mobile device 20 that this application embodiment provided is when the user runs on the conveyer belt, conveyer belt 203 can drive ball 202 and rotate fast, and ball 202's fast rotation can make and take place fast friction between it and the spheroid 201, and then make the gasbag 205 that sets up in the spheroid 201 be heated, and the volatile liquid in the gasbag 205 can gasify and then make gasbag 205 take place to expand, the inflation of gasbag 205 can drive push rod 204 and move to and contact with conveyer belt 203, and then increase the frictional force between push rod 204 and the contact of conveyer belt 203, namely, resistance when increase conveyer belt 203 moves. By means of the mode, safety accidents caused by the fact that the conveyor belt 203 cannot normally stop under the action of inertia when a user needs to stop due to the fact that resistance of the conveyor belt is small when the user runs can be avoided.

Optionally, the mobile device 20 may also include bristles 206 and a collection bin 207.

The bristles 206 are disposed on the inner wall of the support base 10, that is, the bristles 206 are disposed on the groove walls of the receiving groove of the support base 10.

The number of the bristles 206 may be set according to actual requirements, for example, the bristles 206 may be fully paved on the inner wall of the support seat 10, or a group of bristles 206 may be placed at a certain distance, which is not limited in this application.

Correspondingly, the inner wall of the supporting seat 10 is also provided with a discharge hole 101. The collection bin 207 may be provided at the bottom of the support base 10 and the collection bin 207 may be removably connected to the bottom of the support base 10 for ease of cleaning.

The discharge hole 101 is communicated with the collection box 207; the bristles 206 are in contact with the belt 203. In the moving process of the conveyor belt 203, the brush bristles 206 are used for brushing the conveyor belt 203, so that foreign matters on the conveyor belt 203 are cleaned to the collection box 207 through the discharge hole 101.

Foreign matter on the conveyor belt 203 includes, but is not limited to, dust left by the user when stepping on, sweat left by the user, and the like.

It can be seen that when a user walks on the conveyor belt 203, the bristles 206 on the inner wall of the support base 10 can brush the surface of the conveyor belt 203, so that foreign matters on the surface of the conveyor belt 203 are brushed down and cleaned to the collection box 207, thereby preventing the phenomenon of skidding between the feet of the user and the surface of the conveyor belt 203 caused by more piled foreign matters, and avoiding safety accidents.

Optionally, the mobile device 20 may further include: a push block 208, a first elastic element 209, an air outlet 210, a press rod 211 and a press block 212.

One end of the push block 208 is connected with the air bag 205, the other end of the push block 208 is connected with the inner wall of the sphere through a first elastic piece 209, and the push block 208 and the first elastic piece 209 are arranged in a channel inside the sphere. The air outlet hole 210 is communicated with the channel, the pressing rod 211 is connected to the air outlet hole 210 in a sliding mode, and the pressing rod 211 is further fixedly connected with the pressing block 212. The press block 212 is in contact with the conveyor belt 203.

The first elastic member 209 includes, but is not limited to, a spring, rubber, and other elements having elastic properties.

When the user steps on the push rod 204, the push rod 204 drives the push block 208 to move through the air bag 205. In the moving process of the pushing block 208, the gas in the channel flows to the pressing rod 211 through the gas outlet 210, and then the pressing rod 211 is driven to move, so that the pressing block 212 is abutted to the conveyor belt.

That is, the belt 203 may be held tightly against the bristles 206 each time the user steps on the pusher 204. By adopting the mode, the cleaning effect of the bristles 206 can be increased, and meanwhile, when the feet of a user are lifted, the structures (namely the push block 208, the air outlet 210, the pressure rod 211 and the pressure block 212) can be reset under the action of the first elastic piece 209, so that repeated and efficient cleaning is realized.

Referring to fig. 4 and fig. 5, as an alternative embodiment, the pressing block 212 may specifically include: housing channel 2121 and ball 2122.

Ball 2122 is placed in housing channel 2121 and ball 2122 contacts conveyor belt 203. By providing the housing channel 2121 and the rolling ball 2122 in the pressing block 212 to facilitate the sliding of the conveyor belt 203, the excessive friction force between the conveyor belt 203 and the bottom of the ball 201 is avoided, so that the user is difficult to walk on the conveyor belt 203.

In addition, to prevent the push block 208 from shifting during movement, the movable device 20 may further include a guide post 213. The guide column 213 is fixedly connected with the push block 208, and the guide column 213 is slidably connected with the inner wall of the ball 201.

Optionally, the movable device 20 further includes a vent groove 214, a second elastic member 215, and a slider 216.

The vent slot 214 communicates with the outlet aperture 210. A first end of the second elastic member 215 is connected to an end of the vent groove 214 away from the air outlet 210, and the other end of the second elastic member 215 is connected to an end of the slider 216. The other end of the slider 216 is in contact with the conveyor belt 203.

The second elastic member 215 includes, but is not limited to, a spring, rubber, and other elements having elastic properties.

When a user steps on the push rod 204, the push rod 204 drives the push block 208 to move through the air bag 205, and during the moving process of the push block 208, air in the channel flows to the vent groove 214 through the air outlet 210, and then drives the slide block 216 to move through the second elastic element 215, so that the slide block 216 abuts against the conveyor belt 203.

That is, when the user stepped on push rod 204 to make slider 216 and conveyer belt 203 butt, reciprocating so make conveyer belt 203 top in the brush hair 206 except increasing the cleaning effect in, can also realize conveyer belt 203 and pat the brush hair, and then beat the dust of brush hair 206 surface adhesion, make the dust pass through discharge opening 101 and get into collecting box 207, make things convenient for subsequent clearance.

In addition, in the embodiment of the present application, the movable device 20 is suspended in the supporting base 10. Specifically, the movable device 20 further includes a first magnet 217 and a second magnet 218.

The first magnet 217 is disposed inside the supporting base 10, the second magnet 218 is disposed inside the ball 201, and the first magnet 217 and the second magnet 218 are disposed opposite to each other. The first magnet 217 and the second magnet 218 are strong magnets, and thus, in this way, the movable device 20 can be suspended in the support base 10.

Since the movable device 20 is suspended in the support base 10, the user can walk on the conveyor belt 203 more smoothly.

Of course, in other embodiments, the inner wall of the supporting seat 10 may be provided with a smooth structure, so as to directly place the mobile device 20 in the supporting seat 10. The present application is not limited thereto.

Referring to fig. 6, in an embodiment, the emulating mobile device further includes: a guard mechanism 30.

Wherein, the protection mechanism 30 is connected with the support seat 10.

In the embodiment of the present application, the safety of the user can be protected during the walking process of the user by connecting the protection mechanism 30 to the support base 10.

Referring to fig. 7, optionally, the protection mechanism 30 includes a retractable rod 301 and a protection belt 302. The telescopic rod 301 is connected with the protective belt 302 and the supporting seat 10 respectively.

Wherein the guard band 302 is used to bind to the user. In the embodiment of the present application, the guard band 302 may be bound to the waist of the user. Of course, the protective band 302 may also be bound to the shoulder, arm, or thigh of the user, which is not limited in this application.

The height of the protection belt 302 can be conveniently adjusted by the telescopic rod 301 according to the needs of the user, for example, when the user binds the protection belt 302 to the waist of the user, the length of the telescopic rod can be adjusted by the user according to the height of the user, so that the protection belt 302 can be bound comfortably.

In the embodiment of the present application, the number of the telescopic rods 301 is 4. In other embodiments, the number of the telescopic rods 301 may also be 1, 3, 5, and the like, which is not limited in the present application.

Therefore, the protection belt can be bound at the most appropriate position by the user through the telescopic rod 301 and the protection belt 302, so that the safety of the user is improved, and the user experience is also improved. In addition, when the center of gravity of the user shifts, the telescopic rod 301 is pushed against the user body through touch, so that the user is reminded of shifting the center of gravity, and the situation that the center of gravity of the user shifts and is still unknown when the user uses the device is prevented, so that accidents are caused.

Optionally, the 30-guard mechanism further comprises a support bar 303 and a ring 304.

The surface of the support base 10 in which the movable device 20 is embedded is also provided with a circular groove 102 (shown in fig. 6). That is, the top of the support seat 10 is provided with a circular groove 102.

The support rod 303 is connected with the telescopic rod 301 through a universal joint; the support bar 303 is also connected with a ring 304; the circular ring 304 is disposed in the circular groove 102.

In this way, the protection mechanism 30 can also rotate or move in coordination with the walking of the user, thereby improving the user experience.

Referring to fig. 3 and 8, optionally, a sliding slot 3011 is further disposed on one side of the telescopic rod 301 connected to the supporting rod 303.

Correspondingly, the guard mechanism 30 further includes a spacing post 305 and a spacing plate 306.

One end of the limiting column 305 is arranged in the chute 3011, and the other end of the limiting column 305 is connected with the limiting plate 306; the limiting plate still contacts with the inner wall of supporting seat 10, and then realizes spacingly.

Wherein, when user's focus skew, telescopic link 301 drives spacing post 305 and removes for limiting plate 306 and conveyer belt 203 contact, and then increase the resistance of conveyer belt 203.

It can be seen that the protection mechanism 30 provided by the embodiment of the present application further includes a limiting post 305 and a limiting plate 306, and a sliding groove 3011 is further provided on one side of the telescopic rod 301 connected to the supporting rod 303. The fixing between the telescopic rod 301 and the supporting seat 10 can be realized through the first limiting column 305 and the first limiting plate 306, and the protection mechanism 30 is prevented from being separated from the supporting seat 10. Secondly, when user's focus skew, telescopic link 301 can be driven rotatoryly, and then can drive limiting plate 306 and conveyer belt 203 contact through spacing post 305 to increase the frictional force between limiting plate 306 and the conveyer belt 203, make conveyer belt 203 slow down, prevent that user's focus from shifting back conveyer belt 203 still at the quick travel, influence user's adjustment health focus.

Optionally, the restraint posts 305 are resilient structures.

The elastic structure of the position-limiting column 305 may be realized by providing a third elastic member inside the position-limiting column 305, which is not limited in this application.

The third elastic member includes, but is not limited to, a spring, rubber, and other elements having elastic properties.

In the present embodiment, the elastic structure of the position-limiting post 305 can increase the flexibility and adjustability of the position-limiting post 305 during use.

As an embodiment, the guard mechanism 30 may also include only a connecting rod. The connecting rod is fixedly connected with the supporting seat 10. The user may hold the connecting rod by hand while standing on the movable device 20 for walking to protect the safety of the user.

It should be noted that, as those skilled in the art can clearly understand, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In this document, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. An emulated mobile device, comprising:

a supporting seat;

a movable device embedded in the support base, the movable device comprising a sphere, a ball and a conveyor belt; the conveying belt is arranged on the surface of the sphere, and the ball bearings are embedded in the sphere; the conveyor belt and the balls are in contact with each other;

wherein the movable device is used for carrying a user and simulating the moving process of the user in the process of using the VR equipment by the user.

2. The emulated mobile device of claim 1, wherein the movable apparatus further comprises: a push rod and an air bag;

the push rod is embedded in the ball body; the air bag is arranged at one end of the push rod; volatile liquid is arranged inside the air bag;

when the volatile liquid is heated and volatilized, the air bag is heated and expanded, so that the other end of the push rod moves to be in contact with the conveyor belt, and resistance of the conveyor belt in moving is increased.

3. The simulated mobile device of claim 2 wherein said mobile device further comprises a bristle and collection bin;

the bristles are arranged on the inner wall of the supporting seat, and a discharge hole is formed in the inner wall of the supporting seat; the discharge hole is communicated with the collecting box; the bristles are in contact with the conveyor belt;

in the moving process of the conveyor belt, the bristles are used for brushing the conveyor belt, so that foreign matters on the conveyor belt are cleaned to the collecting box through the discharge hole.

4. The emulated mobile device of claim 3, wherein the movable means further comprises: the pushing block, the first elastic piece, the air outlet hole, the pressure rod and the pressing block;

one end of the push block is connected with the air bag, the other end of the push block is connected with the inner wall of the ball body through the first elastic piece, the push block and the first elastic piece are arranged in a channel in the ball body, the air outlet hole is communicated with the channel, the press rod is connected with the air outlet hole in a sliding mode, and the press rod is further fixedly connected with the press block; the pressing block is in contact with the conveying belt;

when the user steps on the push rod, the push rod drives the push block to move through the air bag, and in the moving process of the push block, gas in the channel flows to the press rod through the air outlet hole, so that the press rod is driven to move, and the press block is abutted to the conveyor belt.

5. The simulated mobile apparatus of claim 4 wherein said movable device further comprises a vent channel, a second resilient member and a slider;

the vent groove is communicated with the air outlet hole, the first end of the second elastic piece is connected with one end, away from the air outlet hole, of the vent groove, and the other end of the second elastic piece is connected with one end of the sliding block; the other end of the sliding block is in contact with the conveyor belt;

when the user steps on the push rod, the push rod drives the push block to move through the air bag, and in the moving process of the push block, air in the channel flows to the vent groove through the air outlet hole, so that the second elastic piece drives the sliding block to move, and the sliding block is abutted to the conveyor belt.

6. The emulated mobile device of claim 1, further comprising: a protection mechanism;

wherein, protection machanism with the supporting seat is connected.

7. The simulated mobile device of claim 6 wherein the guard mechanism comprises a telescoping rod and a guard band;

the telescopic rod is respectively connected with the protective belt and the supporting seat;

wherein the guard band is used for being bound on the user.

8. The emulated mobile device of claim 7, wherein the guard mechanism further comprises: a support rod and a circular ring; the surface of the supporting seat, in which the movable device is embedded, is also provided with a circular groove;

the supporting rod is connected with the telescopic rod through a universal joint; the supporting rod is also connected with the circular ring; the ring is disposed in the circular groove.

9. The simulated mobile equipment of claim 8, wherein a sliding groove is further formed in one side of the telescopic rod, which is connected with the supporting rod, and the protection mechanism further comprises a limiting column and a limiting plate;

one end of the limiting column is arranged in the sliding chute, and the other end of the limiting column is connected with the limiting plate; the limiting plate is also contacted with the inner wall of the supporting seat, so that the limiting is realized;

when the gravity center of the user shifts, the telescopic rod drives the limiting column to move, so that the limiting plate is in contact with the conveying belt, and the resistance of the conveying belt is increased.

10. The simulated mobile device of claim 9 wherein said restraint posts are resilient structures.

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