CN106409054A - Somatosensory sensing device with air outlet function and somatosensory simulation system - Google Patents
Somatosensory sensing device with air outlet function and somatosensory simulation system Download PDFInfo
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- CN106409054A CN106409054A CN201611047577.3A CN201611047577A CN106409054A CN 106409054 A CN106409054 A CN 106409054A CN 201611047577 A CN201611047577 A CN 201611047577A CN 106409054 A CN106409054 A CN 106409054A
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B9/00—Simulators for teaching or training purposes
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Abstract
The invention provides a somatosensory sensing device with an air outlet function. The device comprises a wearable body, multiple somatosensory simulation components and a control unit. The wearable body is used for coating the whole body of a user. The multiple somatosensory simulation components are arranged on the wearable body, and each of the somatosensory simulation components at least comprises a wind sensing function module. The control unit is electrically connected to each of the somatosensory simulation components. Since the wearable body for the whole body coating is employed, the wearable body is provided with the somatosensory simulation components, thus each area of the whole body of the user can generate corresponding body sensing according to the needs of an application scene, more than a single body part or multiple body parts are stimulated, and the effective degree of somatosensory simulation and the true sense of a user experience are improved greatly. At the same time, since the multiple somatosensory simulation components can at least simulate a blowing effect, each part of the body of the user can sense the somatosensory stimulation of wind blowing, and the wind sensing requirement and real experience of the user are ensured.
Description
Technical field
The present invention relates to the technical field simulated by human body sensory, more particularly, to a kind of body-sensing mould with air-out function
Intend device and proprioceptive simulation system.
Background technology
Body-sensing, also can claim somesthesia, be tactile, pressure sensation, the sense of heat, the pain sensation and somesthetic sensibility (with regard to muscle and joint position
Put and move, the sensation of body posture and motion and facial expression) general name.Body-sensing technology, is by simulating and monitoring body
Sense, realizes corresponding function or the cooperation with other equipment and interaction.For example, the associated scenario of cooperation film or game, simulation
Vibration, cold sensation etc. are to strengthen the sense of reality of user.Again for example, when you stand in front of a TV, if there being certain body-sensing
Device can detect the action of your hand, if now hand is waved upwards, downwards, to the left and to the right by respectively, for controlling
The functions such as the fast-turn construction of NTSC television system NTSC platform, reversing, time-out and termination, are a kind of very directly with the example of motion sensing manipulation peripheral device
Son, or this four actions are corresponded directly to the reaction of game role, people just can be allowed to obtain game experiencing on the spot in person.
Current proprioceptive simulation device is usually to combine specific application scenarios, is needed by wearable device simulated scenario
Single or a few body-sensing.For example pass through body-sensing glove, the sense of touch of simulation hand;Carried on the back by the body-sensing being provided with sensor
The heart, the sensation of analog vibration, to coordinate the needs of scene of game.Particularly, control unit sends control according to correlation analysiss
Signal, controlling the proprioceptive simulation part of correspondence position to carry out body-sensing stimulates to realize proprioceptive simulation.But, existing proprioceptive simulation
Device can only simulated body local part sensation, the sense of touch of such as hand, vibration of chest part etc., and not with body other
Partial feel to be coordinated;It is especially that existing proprioceptive simulation device lacks the functional module that can produce blowing mostly, use
Family lacks the experiencing machine meeting experiencing wind sense, thus also make user in experience application scene in validity impression strong, reduce
The simulation effective degree of proprioceptive simulation device.
Content of the invention
It is an object of the invention to overcoming the defect of prior art, provide a kind of proprioceptive simulation dress with air-out function
Putting, only entering sector-style sense stimulation in user's body subregion to solve proprioceptive simulation device of the prior art, thus causing wind
Sense stimulates the not high technical problem of effective degree.
The present invention is achieved in that a kind of proprioceptive simulation device with air-out function, including:
Wearable body, for wrapping up user's whole body;
Multiple proprioceptive simulation assemblies, multiple described proprioceptive simulation assemblies may be contained within described wearable body, each institute
State proprioceptive simulation assembly and at least include for producing the wind sense functional module that wind is felt, so that user can be made at least to experience wind
Body-sensing stimulate;
Control unit, described control unit is electrically connected with proprioceptive simulation assembly each described respectively, for one or many
Individual described proprioceptive simulation assembly sends one or more of control instruction.
Specifically, described wind sense functional module include wind sense function circuit board, in described wind sense function circuit board simultaneously
Electrically connect with the gas flow generator to user's blow flow and on described wearable body with described wind sense function circuit board
For being delivered to the aeration structure of user's body by the air-flow that described gas flow generator produces.
Specifically, described wearable body include having envelope shape and can wrap up user's whole body fabric, be coated on described
Breathability internal layer inside fabric, multiple described proprioceptive simulation assemblies are all on described breathability internal layer.
Further, described wearable body includes wrapping up the clothes of trunk and extremity, or described wearable body
Including in order to wrap up the trunk of user and the clothes of extremity, be connected with described clothes with wrap up user's hand glove, Yi Jiyu
Described clothes is connected to wrap up the footmuff of user foot, or described wearable body includes the trunk and the extremity that wrap up user
Clothes and the medicated cap in order to wrap up user's head, or described wearable body includes the trunk and four that wraps up user
The clothes of limb, be connected with described clothes with wrap up user's hand glove, be connected with described clothes with the foot of parcel user foot
Cover and be connected with described clothes to wrap up the medicated cap of user's head.
Specifically, described proprioceptive simulation assembly is dismountable and/or described control unit is dismountable.
Specifically, described wearable body and user's whole body are all in close contact.
Specifically, described control unit and each described proprioceptive simulation assembly electrically connect as described control unit and each
Described proprioceptive simulation assembly is directly connected to.
Specifically, described control unit and the electrically connecting as of proprioceptive simulation assembly each described:Described control unit and one
Partly described proprioceptive simulation assembly is directly connected to, and is indirectly connected with the described proprioceptive simulation assembly of remainder, wherein said
It is indirectly connected with being directly connected to by described a part of described proprioceptive simulation assembly and the described proprioceptive simulation assembly of remainder
Realize.
Further, described body-sensing stimulation assembly also includes one or more of following functions module:For producing body surface
The vibrating function module of vibratory stimulation, for producing the contact sensing functions module of tactual stimulation, for producing the grieved stimulation of noinvasive
Pain functional module, for producing the thermal sensation functional module of thermostimulation, for producing the creeping chill functional module of cold stimulation, for producing
The abnormal smells from the patient functional module of raw Odor stimulation, for producing the pressure functional module of compressing sensory stimuli, for producing moistening sensation
The moistening functional module stimulating.
The present invention also provides a kind of proprioceptive simulation system, including central processing unit with the body described above with air-out function
Sense analog,
Wherein, described control unit receives the control signal being sent by central processing unit and is controlled according to described control signal
Described proprioceptive simulation assembly is according to described functional simulation body-sensing set in advance.
The technique effect of the proprioceptive simulation device and proprioceptive simulation system with air-out function of the present invention is:Due to adopting
The wearable body of whole body parcel, is provided with multiple proprioceptive simulation assemblies such that it is able to make user complete in wearable body
Body regional can according to application scenarios need produce corresponding body-sensing, and be not only single or indivedual body part
Accept stimulation, greatly improve the effective degree of proprioceptive simulation and the validity of user's impression.Simultaneously as multiple proprioceptive simulation groups
Part all at least can simulate airflow effects, thus when entering sector-style sense stimulation, each position of user's whole body all can produce wind sense,
Thus improve the effective degree of wind sense stimulation.
Brief description
Fig. 1 is the front view of the proprioceptive simulation device with air-out function of the present invention;
Fig. 2 is the rearview of the proprioceptive simulation device with air-out function of the present invention;
Schematic diagram when Fig. 3 is used in combination with video equipment for the proprioceptive simulation device with air-out function of the present invention;
Fig. 4 is the control block diagram of the proprioceptive simulation device with air-out function of the present invention;
Fig. 5 is the knot of another embodiment of the wearable body of the proprioceptive simulation device with air-out function of the present invention
Structure schematic diagram;
Fig. 6 is the structural representation of the proprioceptive simulation assembly of the proprioceptive simulation device with air-out function of the present invention
Fig. 7 is the structural representation of the thermal sensation functional module of the proprioceptive simulation device with air-out function of the present invention;
Fig. 8 is the structural representation of the creeping chill functional module of the proprioceptive simulation device with air-out function of the present invention;
Fig. 9 is the structural representation of the abnormal smells from the patient functional module of the proprioceptive simulation device with air-out function of the present invention;
Figure 10 is the structural representation of the pressure functional module of the proprioceptive simulation device with air-out function of the present invention;
Figure 11 is the structural representation of the wind sense functional module of the proprioceptive simulation device with air-out function of the present invention.
Specific embodiment
In order that the objects, technical solutions and advantages of the present invention become more apparent, below in conjunction with drawings and Examples, right
The present invention is further elaborated.It should be appreciated that specific embodiment described herein is only in order to explain the present invention, and
It is not used in the restriction present invention.
Refer to Fig. 1 to Fig. 4, and combine Fig. 6, below the reality to the proprioceptive simulation device with air-out function of the present invention
Apply example to be illustrated.
The proprioceptive simulation device 100 with air-out function of the present embodiment, can be used alone, also can be in conjunction with video equipment
200 uses, as common home videos, computer, or the video equipment 200 wearing VR/AR etc.Wherein, VR is as virtual
Reality technology, it is a kind of computer simulation system that can create with the experiencing virtual world, and specifically, it is to utilize computer
Generate a kind of simulated environment, and this simulated environment is a kind of interactively Three-Dimensional Dynamic what comes into a driver's and the entity row of Multi-source Information Fusion
For analogue system, user can be made to be immersed in this simulated environment;AR, as augmented reality, it is that one kind is counted in real time
Calculate the position of camera image and angle and add respective image, video, the technology of 3D model, the target of this technology is to shield
On curtain, virtual world is reflected in real world and carries out interaction.
The proprioceptive simulation device 100 that this has air-out function includes wearable body 10, proprioceptive simulation assembly 20 and controls
Unit 30, is described further to each part of the proprioceptive simulation device 100 with air-out function below:
Wearable body 10, covers user's whole body for parcel;Wherein, the implication of whole body refers to the whole main portion of body
Point, the body part that including but not limited to common long sleeve blouse and trousers are covered.The implication of parcel not only represents that covering is used
Family whole body, and all contact with user's whole body major part position, make user obtain sensation that is besieged and touching, thus connecing in user
When being stimulated by the body-sensing being arranged on proprioceptive simulation assembly 20 in wearable body 10, the validity lifting of user's impression;In order to protect
Comfortableness when card user uses, it is preferred that this wearable body 10 is prepared from using elastomeric material.
Proprioceptive simulation assembly 20, for according to functional simulation body-sensing set in advance, such as simulating tactile sensation, vibration sense
Feel, heating sensation etc.;Wherein, proprioceptive simulation assembly 20 has multiple, is arranged on the diverse location of wearable body 10, and wants
Illustratively, multiple being is more than or equal to two, and the implication of setting refers on wearable body 10, with wearable body
10 have contact, can be connected it is also possible to be not connected to wearable body 10 meanwhile.Each proprioceptive simulation assembly 20 be by
Multiple functional modules form such that it is able to simulate multiple body-sensing a position simultaneously.So, due in wearable body 10
Proprioceptive simulation assembly 20 is set at the positions such as the back of upper corresponding user, front, waist, leg, hand, cervical region, accordingly, permissible
One kind is simulated in the diverse location of user's body by the proprioceptive simulation assembly 20 that diverse location has identical or different function
Or multiple body-sensing;It is preferred that each proprioceptive simulation assembly 20 at least includes the wind sense functional module 28 for producing wind sensation,
Stimulated with the body-sensing that user can be made at least to experience wind, and by wind sense functional module 28, can achieve the blowing of some scenes
Sense, thus, both the range of application of expansible proprioceptive simulation device 100, can improve the experience sense of user again.
Control unit 30, for controlling body-sensing simulated assembly 20 according to described functional simulation body-sensing set in advance;For example,
Control the proprioceptive simulation assembly 20 being located at chest and hand to simulate pain function, or control the proprioceptive simulation assembly being located at hand
20 sensations simulating wind, control the proprioceptive simulation assembly 20 being located at foot to simulate moistening sensation.Wherein, control unit
30 are arranged on wearable body 10, and electrically connect with each proprioceptive simulation assembly 20 respectively.In addition, this control unit 30 also may be used
It is connected with video equipment 200, so that user is in the case of non-stimulated, its sense organ can synchronously experience the content of virtual scene.
Specifically, control unit can adopt the pattern of single level, and that is, control unit directly controls each proprioceptive simulation group
Part;Can also be using multi-level pattern, control unit includes controlling master unit and controls subelement, controls master unit and control
Subelement carries out wired or wireless communication connection, controls subelement corresponding control body-sensing simulated assembly again.Control unit
Concrete framework can be built based on MCU, FPGA or other chips.Multiple functional modules that proprioceptive simulation assembly includes are specifically permissible
To be realized using types of functionality sensor or other components.
Therefore, control unit 30 is electrically connected with each proprioceptive simulation assembly 20 respectively, for one or more body-sensing moulds
Intend the control instruction that assembly 20 sends one or more.I.e.:Control unit 30, can be with selectivity under different scenes or demand
Ground sends one or more instruction to the proprioceptive simulation assembly 20 of one or more positions, can same instruct to multiple body-sensing
Simulated assembly it is also possible to different proprioceptive simulation assemblies 20 obtains different instructions, even same proprioceptive simulation assembly 20
Obtain different instructions to make the different instruction of disparate modules execution therein.
In the above-described embodiments, due to the wearable body 10 using whole body parcel user, and in wearable body 10
Upper arrange multiple proprioceptive simulation assemblies 20 such that it is able to make user's whole body regional can according to application scenarios need produce
Raw corresponding body-sensing, and be not only that single or indivedual body parts accept stimulation, greatly improve the effective degree of proprioceptive simulation
Validity with user's impression.Simultaneously as multiple proprioceptive simulation assemblies 20 all at least can simulate airflow effects, making
The body-sensing that user's body various pieces all can experience wind according to demand stimulates it is ensured that user is for the requirement of wind sense and true
Entity is tested.
Meanwhile, the degree of the wind sense that each proprioceptive simulation assembly 20 simulates out can be adjusted.For example, in simulation
Under the scene of high wind, the wind sense stimulus intensity setting to the proprioceptive simulation assembly 20 of user's head is larger, to use account
Portion feels stronger wind sense, and is correspondingly arranged less to the wind sense stimulus intensity of the proprioceptive simulation assembly 20 of user leg,
User feels leg weaker wind sense.
Refer to Figure 11, as another preferred embodiment of the present invention, it combines the embodiment of above-described embodiment, and
In the present embodiment, wind sense functional module 28 include wind sense function circuit board 281, in wind sense function circuit board 281 and and wind
Sense function circuit board 281 electrically connect with the gas flow generator 282 to user's blow flow and on wearable body 10 for
Deliver to the aeration structure (in figure does not indicate) of user's body by the air-flow that gas flow generator 282 produces.
Wherein, this wind sense function circuit board 281 can adopt flexible PCB, rigid circuit board or flex-rigid wiring board,
And wind sense function circuit board 281 is electrically connected with control unit 30.
Gas flow generator 282 is fan, and this fan is mini-fan, reducing empty by its miniaturization structure
Between occupancy, and be conducive to carrying, and be easily installed setting;Simultaneously, the length dimension scope of mini-fan is 8mm-
20mm, width dimensions scope is 8mm-20mm, and height dimension scope is 2mm-5mm, and it is preferred that the preferred size of its length, width and height
For 10mm × 10mm × 3mm.
Aeration structure includes the path connecting on wearable body 10 and with gas flow generator 282.
Accordingly, when user runs into the scene of blowing, control unit 30 can control air-flow by wind sense function circuit board 281
After generator 282 works, and gas flow generator 282 starts, it can produce air-flow, and can be by the path on wearable body 10
Air-flow wind is delivered to the position specified, so that Consumer's Experience wind sense stimulates, whole operation process is simple and convenient.
Refer to Fig. 5, as another preferred embodiment of the present invention, wherein, wearable body 10 in the present embodiment
Preferred implementation is, it includes having envelope shape and can wrap up the fabric 11a of user's whole body and be coated on inside fabric 11a
And there is the breathability internal layer 12a of airing function, multiple proprioceptive simulation assemblies 20 are all on breathability internal layer 12a.
It is preferred that fabric 11a mainly forms by high-strength yarn and using through knitting device, so that having multiple on fabric 11a
Knitted mesh structure is it is ensured that its breathability.And, in order to ensure that fabric 11a uses well, this fabric 11a includes larger
Depressed structure and the less ventilating structure weak compared to the breathability of larger ventilating structure, specifically, fabric 11a's is larger ventilative
Structure is the flexibility good using warp knit or weft knitting and extensibility feature, has monolayer net at the larger ventilating structure of fabric 11a
The larger structure in hole, e.g., forms tuck stitch or eyelet stitch, such vent canopy is good, and the larger ventilative knot of fabric 11a
The material that structure is adopted is chinlon, terylene or spandex;As for the less ventilating structure of fabric 11a, due to its fabric 11a cabling
Local deformation requirements are little, and ventilative requirement need to be little, therefore only need to just be can achieve with the material of compactness, and fabric 11a's is less
The material that ventilating structure is adopted also is chinlon, terylene or spandex.Additionally, fabric 11a also includes aeration structure in face, for
Logical hot blast or cold wind in fabric 11a face;It is preferred that aeration structure preferably employs space fabric (with weft-knitted space fabric in this face
Based on), this is because sided web close structure degree is different, and sided web is connected by paraphysis between middle, and a paraphysis is close
Degree very little, very well, this kind fabric is well suited for doing the effect of logical cold-hot wind ventilation effect, and this kind fabric is used in VR partial game scene
When, such as when skiing, head-on blow very cold wind, the nozzle of logical cold wind can be accessed by the one side in this fabric, just
Real cold wind effect can be simulated.
The material of breathability internal layer 12a is preferably gel, to ensure its skin-friendly and breathability.Gel also known as frozen glue, it
It is a kind of between liquid and solid, to there is a kind of stiff material of the semi-solid state of special elastic, its forming process
It is by biomolecule such as albumen, enzyme, recombiant protein, antibody, nucleic acid, chromatograph and pure through the determination experiments of tens thousand of times and 15
Change, finally extract a kind of a kind of object of similar human skin particular result material.Certainly, this material refines the mistake making
Journey is extremely complex, and it is to be combined using water renewable performance derivatives composite material in natural essential oil by plant extract molecular composition
Form.Additionally, gel is the solid in liquid, its special sense of touch be other materials incomparable, breathe freely, constant temperature, anti-
Worm, anti-mite and high viscoelasticity and ventilating air permeability become rare material by it, this have very much like with human body skin
The material of attribute more by people titled with " artificial skin " good reputation.
Refer to Fig. 1 and Fig. 2, in another preferred embodiment of the present invention, wearable body 10 includes wrapping up human body
The clothes 11 of trunk and extremity, that is, include wrapping up trunk and the jacket part 12 of whole arm and the trousers portion of the whole legs of parcel
Divide 13, in other words, the disjunctor that this wearable body 11 can include long sleeve blouse and trousers or include long sleeves and trousers
Clothes, so that the various pieces of user's body all can accept related body-sensing stimulates the related body-sensing of simulation, improves body-sensing mould
The validity intended and the experience sense of user.
Refer to Fig. 1 and Fig. 2, in another preferred embodiment of the present invention, wearable body 10 is including in order to wrap up
The trunk of user is connected with the clothes 11 of extremity, with clothes 11 with the glove 14 of parcel user's hand and is connected with clothes 11
To wrap up the footmuff 15 of user foot, be equivalent to, wearable body 10 is the disjunctor being made up of clothes 11, glove 14 and footmuff 15
Clothes.That is, not only all major parts of the whole body of general user are all wrapped, and additionally include handss and the part of foot is also wrapped
Wrap up in so that handss and foot can accept identical or different body-sensing with body other parts and stimulate simultaneously, lift body-sensing mould further
The sense of reality intended.Also, it is preferred that in the case of, it is the shape of the Conjuncted clothes of one including the clothes with glove 14 and footmuff 15
Formula, using the teaching of the invention it is possible to provide the preferably verity of proprioceptive simulation, those skilled in the art should also be as it is contemplated that adopting glove 14 and foot
Set 15 is also capable of the embodiment of the present invention with the form of clothes split.
Refer to Fig. 1 and Fig. 2, in another preferred embodiment of the present invention, wearable body 10 includes wrapping up use
The clothes 11 of the trunk at family and extremity and the medicated cap 16 in order to wrap up user's head, are equivalent to, wearable body 10 is by clothing
Take the Conjuncted clothes of 11 and medicated cap 16 composition.As a result, the head of user also can with body accept simultaneously identical or different
Body-sensing stimulate, further lifted user's proprioceptive simulation sense of reality.
Refer to Fig. 1 and Fig. 2, in another preferred embodiment of the present invention, wearable body 10 includes wrapping up use
The trunk at family is connected with the clothes 11 of extremity, with clothes 11 and is connected to wrap up with the glove 14 of parcel user's hand, with clothes 11
The footmuff 15 of user foot and be connected with clothes with wrap up user's head medicated cap 16, be equivalent to, wearable body 10 is served as reasons
Clothes 11, the Conjuncted clothes of glove 14, footmuff 15 and medicated cap 16 composition.Understandably, the not only whole body of general user is all
Major part is all wrapped, the part additionally including handss, foot and head be also wrapped so that handss, foot and head can with body its
His part accepts identical or different body-sensing simultaneously to stimulate, and lifts the sense of reality of proprioceptive simulation further.
It is preferable that each proprioceptive simulation assembly 20 and each control unit 30 are in the above example of the present invention
Dismountable.So, when needing to adjust body-sensing simulated assembly 20 and the position with control unit 30, can flexibly be adjusted
Whole, expand the scope of application of the proprioceptive simulation device 100 with air-out function of the present invention, and save cost.
Referring again to Fig. 1 and Fig. 2, in another preferred embodiment of the present invention, wearable body 10 is equal with user's whole body
It is in close contact.For example with the pattern of tightss, further enhance the laminating degree of wearable body 10 and user's whole body, in body
When sense simulated assembly 20 implements body-sensing stimulation to user's body each several part, proprioceptive simulation is more efficient, and Consumer's Experience is truer.
Refer to Fig. 4, in another preferred embodiment of the present invention, the electricity of control unit 30 and each proprioceptive simulation assembly 20
The specific implementation connecting is that control unit 30 is directly connected by circuit with each proprioceptive simulation assembly 20, i.e. control single
It is provided with electric wire between unit 30 and each proprioceptive simulation assembly 20, to realize directly electrically connecting, simplifies structure, and be conducive to implementing
Control.
Preferably, control unit 30 can be one or more, in the case of control unit more than 30, control unit 30
Including a main control unit and some from control unit, main control unit with all some electrically connect from control unit,
Some directly electrically connect with corresponding proprioceptive simulation part from control unit.
In another preferred embodiment of the present invention, control unit 30 is electrically connected as with each proprioceptive simulation assembly 20:
Control unit 30 is directly connected to a part of proprioceptive simulation assembly 20, and and between the proprioceptive simulation assembly 20 of remainder in succession
Connect, be wherein indirectly connected with the proprioceptive simulation assembly 20 by a part of proprioceptive simulation assembly 20 and remainder is directly connected to reality
Existing.For example, control unit 30 is directly electrically connected by wire with the proprioceptive simulation assembly 20 of chest, the proprioceptive simulation assembly of chest
20 are directly electrically connected with the proprioceptive simulation assembly 20 of shoulder by wire, realize the proprioceptive simulation of control unit 30 and shoulder with this
The electrical connection of assembly 20.
In the embodiment above it is preferable that control unit 30 can be one or more, in the control unit feelings of more than 30
Under condition, control unit 30 include a main control unit and some from control unit, main control unit with all some from
Control unit directly or indirectly electrically connects, some directly or indirectly electrically connect with corresponding proprioceptive simulation part from control unit,
So as to save the conductor length electrically connecting use in the proprioceptive simulation device 100 entirely with air-out function, simplify tool
There is the structure of the proprioceptive simulation device 100 of air-out function, and decrease the fault rate causing due to breakdown of conducting wires.
Refer to Fig. 6, as another preferred embodiment of the present invention, it combines the embodiment of above-described embodiment, and
In the present embodiment, proprioceptive simulation assembly 20 includes vibrating function module 21, contact sensing functions module 22 and pain functional module 23,
Below each functional module of proprioceptive simulation assembly 20 is described in detail:
Vibrating function module 21 is for producing body surface vibratory stimulation, so that user's body is massaged or vibrated, preferably
Ground, this vibrating function module 21 include body surface vibration function circuit board and on body surface vibration function circuit board and and body surface
Vibration function circuit board electrical connection body surface vibrations element, wherein, this body surface vibration function circuit board can using flexible PCB,
Rigid circuit board or flex-rigid wiring board, and body surface vibration function circuit board electrically connected with control unit 30;And body surface vibrations
Element adopts regular long-time vibrating elementss, when ensureing to can achieve that different frequency, different time interval, difference continue with this
Between vibrations compound mode, and ensure can be in different vibrations occasion implementations;
Contact sensing functions module 22 is for producing tactual stimulation, by stimulating the perception position of user, so that user's tactile
Feedback, it is preferred that this contact sensing functions module 22 includes tactile vibration function circuit board and on tactile vibration function circuit board
And the tactile vibrations element electrically connecting with tactile vibration function circuit board, wherein, this tactile vibration function circuit board can adopt soft
Property circuit board, rigid circuit board or flex-rigid wiring board, and tactile vibration function circuit board electrically connected with control unit 30;And
Tactile vibrations element using the vibrations time is short and vibrating elementss that can produce different shockproofnesses, to realize different shockproofnesses
And the persistent period, accordingly, if contact sensing functions module 22 is placed on wrapping in wearable body 10 at the position of user's finger end
Or at the position at other perception positions, you can realize touch feedback, so that user is experienced touching, take object, archery feedback
Deng;
Pain functional module 23 is that noinvasive is grieved to stimulate for producing, so that user is subject to hurtless measure sensation of pricking, it is preferred that
This pain functional module 23 includes twinge function circuit board and in twinge function circuit board and electric with twinge function circuit board
Connect to make user experience the electric shock device of sensation of pricking by electric shock, wherein, this twinge function circuit board can adopt flexible circuit
Plate, rigid circuit board or flex-rigid wiring board, and twinge function circuit board electrically connected with control unit 30;And pass through electric shock device
Can achieve different intensity, different pulse spacings, different stimulus frequency, accordingly, the different strong short time can be emulated
Stimulate, such as gunslinging, weight is hit.
Refer to Fig. 7, as another preferred embodiment of the present invention, it combines the embodiment of above-described embodiment, and
In the present embodiment, proprioceptive simulation assembly 20 also includes the thermal sensation functional module 24 for producing thermostimulation, so that user's body portion
Divide and experience hot sense of touch.And by thermal sensation functional module 24, can achieve the hot sense of touch of some scenes, such as suddenly wound bleed,
Suddenly contact flame etc., thus, both ranges of application of the expansible proprioceptive simulation device 100 with air-out function, and can improve
The experience sense of user.
And in order that simplifying structure to thermal sensation functional module 24, and be easily installed on wearable body 10, it is preferred that hot
Sense functional module 24 include thermal sensation function circuit board 241 and in thermal sensation function circuit board 241 and with thermal sensation function circuit board
The Graphene 242 of 241 electrical connections.
Wherein, this thermal sensation function circuit board 241 can adopt flexible PCB, rigid circuit board or flex-rigid wiring board,
And thermal sensation function circuit board 241 is electrically connected with control unit 30.
As for Graphene 242, because it has that electrothermal calefactive rate is fast, radiating rate is fast and can be with precise control of temperature model
The advantage enclosed, so, it is advantageously implemented far infrared heating medicinal, and reduce the generation of scald simultaneously;And it is preferred that Graphene
242 can adopt laminated structure, also can adopt film like structures, in order to installation settings;Certainly, also can be adopted according to practical situation
Replace Graphene 242 with metal heating wire, be beneficial to reduction production cost.
Accordingly, when user runs into the scene of flame, control unit 30 can control graphite by thermal sensation function circuit board 241
Alkene 242 works, and after Graphene 242 work, it can quickly produce heat, so that Consumer's Experience thermal sensation stimulates, whole operation mistake
Journey is simple and convenient.
Refer to Fig. 8, as another preferred embodiment of the present invention, it combines the embodiment of above-described embodiment, and
In the present embodiment, proprioceptive simulation assembly 20 also includes the creeping chill functional module 25 for producing cold stimulation, so that user's body portion
Divide and experience cold sense of touch.By creeping chill functional module 25, can achieve the ice sense of touch of some scenes, such as encounter ice, thus, both may be used
Extension has the range of application of the proprioceptive simulation device 100 of air-out function, can improve the experience sense of user again.
And in order that simplifying structure to creeping chill functional module 25, and be easily installed on wearable body 10, it is preferred that cold
Sense functional module 25 include creeping chill function circuit board 251 and in creeping chill function circuit board 251 and with creeping chill function circuit board
The quasiconductor 252 of 251 electrical connections.
Wherein, this creeping chill function circuit board 251 can adopt flexible PCB, rigid circuit board or flex-rigid wiring board,
And creeping chill function circuit board 251 is electrically connected with control unit 30.
As for quasiconductor 252, as extraordinary low-temperature receiver, technology application has the following advantages that and feature:
1st, do not need any cold-producing medium, can continuously work, do not have polluter there is no rotary part, revolution effect will not be produced
Should, do not have slide unit to be a kind of solid sheet, do not shake during work, noise, life-span length, install easily.
2nd, quasiconductor 252 has two kinds of functions:One is to freeze, and two is heating.Refrigerating efficiency is not typically high, but heats effect
Rate is very high, is always larger than 1.Therefore, discrete heating system and refrigeration system can just be replaced using a sheet.
3rd, quasiconductor 252 is electric current transducing matrix part, by the control of input current, can achieve high-precision temperature control
System, along with temperature measurement and control means it is easy to realize remote control, program control, computer controls, be easy to composition and automatically control be
System.
4th, quasiconductor 252 thermal inertia is very little, the cooling and warming time quickly, in the situation that the good cold end of hot-side heat dissipation is unloaded
Under, less than one minute, cooling piece just can reach maximum temperature difference for energising.
5th, the reverse use of quasiconductor 252 is exactly thermo-electric generation, and, it applies in general to middle low-temperature space and generates electricity.
6th, the corresponding power of single cooling module of quasiconductor 252 is less, and when will obtain relatively high power, can adopt many
The cooling module of individual same type simultaneously makes a combination thereof become pile by the method for pile series and parallel, to form refrigeration system, thus,
Just the quasiconductor 252 of relatively high power can be obtained.And this kind of architectural feature, so that the refrigeration work consumption of quasiconductor 252 can be done
To several milliwatts to the scope of upper myriawatt.
7th, the temperature range of quasiconductor 252 is big, can realize for 130 DEG C to negative temperature from just 90 DEG C of temperature.
Simultaneously, quasiconductor 252 preferentially can adopt laminated structure, in order to installation settings.
When actually used, can additional heat sink and radiator fan, to improve overall refrigeration.
Accordingly, when user runs into the scene of cold ice, control unit 30 can be controlled by creeping chill function circuit board 251 partly to be led
Body 252 works, and after quasiconductor 252 work, it can produce low-temperature receiver, so that Consumer's Experience creeping chill stimulates, the letter of whole operation process
Folk prescription is just.
Refer to Fig. 9, as another preferred embodiment of the present invention, it combines the embodiment of above-described embodiment, and
In the present embodiment, proprioceptive simulation assembly 20 also includes the abnormal smells from the patient functional module 26 for producing Odor stimulation, so that user smells
Abnormal smells from the patient.By abnormal smells from the patient functional module 26, can achieve some specific fragrance scenes, thus, both expansible bodies with air-out function
The range of application of sense analog 100, can improve the experience sense of user again.
And in order that simplifying structure to abnormal smells from the patient functional module 26, and be easily installed on wearable body 10, it is preferred that gas
Function of odor module 26 includes abnormal smells from the patient function circuit board 261, in abnormal smells from the patient function circuit board 261 and with abnormal smells from the patient function circuit board
261 electrical connection and can be combined out multiple fragrance odor sources 262 and in abnormal smells from the patient function circuit board 261 and with abnormal smells from the patient function
Circuit board 261 electrically connects the abnormal smells from the patient drainage device 263 directing to user's olfactory sensation with the abnormal smells from the patient producing odor source 262.
Wherein, abnormal smells from the patient functional module 26 also includes one and has the housing that envelope shape structure for use part is fixedly installed, abnormal smells from the patient
Function circuit board 261 and odor source 262, all located at this enclosure interior, are protected with the parcel by this housing;Meanwhile, this housing can
Using plastics preparation, to mitigate its weight.
In addition, this abnormal smells from the patient function circuit board 261 can be using flexible PCB, rigid circuit board or half soft semi-rigid electricity
Road plate, and abnormal smells from the patient function circuit board 261 is electrically connected with control unit 30.
Odor source 262 is to be made up of multiple spice with different odor, such as jasmine fragrance, rose, Bulbus Lilii spice,
Grass spice, apple spice etc.;And every kind of spice is correspondingly arranged in a sealing container, and this sealing container be equipped with one can electricity
Dynamic open or close its internal switching device, this switching device is electrically connected with abnormal smells from the patient function circuit board 261, with can be by abnormal smells from the patient work(
Work can be controlled by circuit board 261.Accordingly, when needing user to smell jasmine abnormal smells from the patient, control unit 30 can be to abnormal smells from the patient functional circuit
Plate 261 sends work order, and after abnormal smells from the patient function circuit board 261 receives dependent instruction, it can be contained with odor source 262
Switching device in the sealing container of jasmine fragrance sends work order, to open the sealing container being contained with jasmine fragrance, from
And discharge jasmine abnormal smells from the patient, to allow user's impression to smell.And when the mixing abnormal smells from the patient needing user to smell jasmine and Flos Rosae Rugosae, control single
Unit 30 can send work order to abnormal smells from the patient function circuit board 261, and after abnormal smells from the patient function circuit board 261 receives dependent instruction, its
The switching device in sealing container that jasmine fragrance can be contained with odor source 262 and the sealing being contained with rose are held
Switching device on device sends work order respectively, to open the sealing container being contained with jasmine fragrance respectively and to be contained with rose
The sealing container of rare spice, thus discharging the mixing abnormal smells from the patient of jasmine and Flos Rosae Rugosae, to allow user's impression to smell.And it is preferred that this is opened
Close device and can adopt electrically operated valve, certainly, it also can be using other electric opening/closing devices, and the sealing in order to accommodate spice is held
Device can be opened at any time, quickly discharges corresponding abnormal smells from the patient.
Abnormal smells from the patient drainage device 263 is air pump, and this air pump 273 is micro air pump, can reduce by its miniaturization structure
The occupancy in space, and be conducive to carrying, and it is easily installed setting;And, its length dimension scope is 130mm-180mm, wide
Degree size range is 50mm-85mm, and height dimension scope is 100mm-155mm.Also selectively, abnormal smells from the patient drainage device 263 is wind
Fan, and this fan is mini-fan, by its miniaturization structure, can reduce the occupancy in space, and is conducive to carrying, and
It is easily installed setting;Simultaneously, the length dimension scope of mini-fan is 8mm-20mm, and width dimensions scope is 8mm-20mm,
Height dimension scope is 2mm-5mm.
In addition, in order that successfully and abnormal smells from the patient can be drained to specific bit by predetermined trajectory to abnormal smells from the patient drainage device 263
Put place, abnormal smells from the patient functional module 26 includes also including one end that the other end is connected with abnormal smells from the patient drainage device 263 towards specified location
Guide wire.
It is preferable that abnormal smells from the patient functional module 26 is provided with multiple, the plurality of abnormal smells from the patient function mould in the above example of the present invention
Block 26 is divided on wearable body 10 at the corresponding position near user face or nose, with can be by multiple abnormal smells from the patient functions
The odorousness that module 26 discharges simultaneously reaches specifies requirement, ensures that user can clearly smell required abnormal smells from the patient with this;Its
In, it should be noted that herein multiple refer to two or more, that is, this abnormal smells from the patient functional module 26 can be two
Individual, three or four etc., and this kind of embodiment falls within the protection category of the present embodiment.Meanwhile, the plurality of abnormal smells from the patient function mould
Electrically connect between block 26, and when the plurality of abnormal smells from the patient functional module 26 connects, can be to be directly connected to or be indirectly connected with,
For example, realize being indirectly connected with by control unit 30.
Refer to Figure 10, as another preferred embodiment of the present invention, it combines the embodiment of above-described embodiment, and
In the present embodiment, proprioceptive simulation assembly 20 also includes the pressure functional module 27 for producing compressing sensory stimuli, so that user
Feel constriction.By the setting of pressure functional module 27, can achieve that some needs are wound around the scene at body part position of tying tight,
The such as winding of Serpentiss/rattan, binding etc., thus, both application models of the expansible proprioceptive simulation device 100 with air-out function
Enclose, the experience sense of user can be improved again.
And in order that simplifying structure to pressure functional module 27, and it is easily installed on wearable body 10, pressure functional
Module 27 includes oppressing function circuit board 271, on wearable body 10 and the inflatable extruding air bag 272 of user and setting
And it is connected with air bag 272 in compressing function circuit board 271 to provide the air pump 273 of the gas making that it expands to air bag 272.
Wherein, this compressing function circuit board 271 can adopt flexible PCB, rigid circuit board or flex-rigid wiring board,
And compressing function circuit board 271 is electrically connected with control unit 30.
In addition, this air pump 273 is micro air pump, so that the occupancy in space by its miniaturization structure, can be reduced, and favorably
In carrying, and it is easily installed setting;And, its length dimension scope is 130mm-180mm, and width dimensions scope is 50mm-
85mm, height dimension scope is 100mm-155mm.
So, when user runs into compressing scene, control unit 30 can control air pump by oppressing function circuit board 271
273 work, and after air pump 273 work, it can produce gas, to control the inflation of air bag to oppress user, so that arriving user
Produce constriction.
Refer to Fig. 6, and combine Fig. 5, as another preferred embodiment of the present invention, it combines the enforcement of above-described embodiment
Mode, and in the present embodiment, proprioceptive simulation assembly 20 also includes the moistening functional module 29 for producing moistening sensory stimuli,
So that user feels moistening sensation.By moistening functional module 29, can achieve the scene of some skin wet, thus, both can expand
Exhibition has the range of application of the proprioceptive simulation device 100 of air-out function, can improve the experience sense of user again.
It is preferred that moistening functional module 29 can be become by semi-solid state after including being coated on wearable body 10 and being energized
Become the wetted material of flowable liquid condition, and wetted material is preferably gel, wherein, after gel energising, gel is solid by half
Body state becomes flowable liquid body, when this material seal is in the sleeve top of wearable body 10, in some VR trip
In play scene, run into lancination and bullet hits, human body surface can feel sense of touch of bleeding, therefore, can be gone with such phase-change material
Simulate this kind of sensation.And, in order to simplify structure and cost-effective, this wetted material be coated on wearable body 10
Breathability internal layer 12a be same material.
It is preferable that each proprioceptive simulation assembly 20 and each control unit 30 are in the above example of the present invention
Dismountable.So when needing to adjust body-sensing simulated assembly 20 and the position with control unit 30, can flexibly be adjusted
Whole, expand there is the scope of application of proprioceptive simulation device 100 of air-out function and saving cost of the present invention.
In an alternative embodiment of the invention, additionally provide a kind of proprioceptive simulation system, it includes central processing unit and upper
State the proprioceptive simulation device 100 in each embodiment with air-out function,
Wherein, control unit 30 receives the control signal being sent by central processing unit and controls body-sensing mould according to control information
Intend assembly 20 according to functional simulation body-sensing set in advance.
The foregoing is only preferred embodiments of the present invention, its structure is not limited to the above-mentioned shape enumerated, all
Any modification, equivalent and improvement of being made within the spirit and principles in the present invention etc., should be included in the protection of the present invention
Within the scope of.
Claims (10)
1. a kind of proprioceptive simulation device with air-out function is it is characterised in that include:
Wearable body, for wrapping up user's whole body;
Multiple proprioceptive simulation assemblies, multiple described proprioceptive simulation assemblies may be contained within described wearable body, each described body
Sense simulated assembly at least includes the wind sense functional module for producing wind sensation, so that user can be made at least to experience the body of wind
Sense stimulates;
Control unit, described control unit is electrically connected with proprioceptive simulation assembly each described respectively, for one or more institutes
State the control instruction that proprioceptive simulation assembly sends one or more.
2. there is the proprioceptive simulation device of air-out function as claimed in claim 1 it is characterised in that:Described wind sense functional module
Electrically connect including wind sense function circuit board, in described wind sense function circuit board and with described wind sense function circuit board with to
The gas flow generator of family blow flow and on described wearable body for being given by the air-flow that described gas flow generator produces
Aeration structure to user's body.
3. there is the proprioceptive simulation device of air-out function as claimed in claim 1 it is characterised in that:Described wearable body bag
Include the fabric that there is envelope shape and user's whole body can be wrapped up, be coated on breathability internal layer inside described fabric, multiple described bodies
Sense simulated assembly is all on described breathability internal layer.
4. there is the proprioceptive simulation device of air-out function as claimed in claim 1 it is characterised in that:Described wearable body bag
Include the clothes of parcel trunk and extremity, or described wearable body includes wrapping up the trunk of user and the clothing of extremity
Take, be connected with described clothes to wrap up the glove of user's hand and to be connected to wrap up the footmuff of user foot with described clothes,
Or described wearable body includes wrapping up the trunk of user and the clothes of extremity and the cap in order to wrap up user's head
Son, or described wearable body included wrapping up the clothes with extremity for the trunk of user, is connected to wrap up use with described clothes
The glove of family hand, it is connected with described clothes to wrap up the footmuff of user foot and to be connected to wrap up user with described clothes
Medicated cap of head etc..
5. there is the proprioceptive simulation device of air-out function as claimed in claim 1 it is characterised in that:Described proprioceptive simulation assembly
It is dismountable for dismountable and/or described control unit.
6. there is the proprioceptive simulation device of air-out function as claimed in claim 1 it is characterised in that:Described wearable body with
User's whole body is all in close contact.
7. there is the proprioceptive simulation device of air-out function as claimed in claim 1 it is characterised in that described control unit with every
The described control unit that electrically connects as of individual described proprioceptive simulation assembly is directly connected to proprioceptive simulation assembly each described.
8. there is the proprioceptive simulation device of air-out function as claimed in claim 1 it is characterised in that described control unit with every
The electrically connecting as of individual described proprioceptive simulation assembly:Described control unit is directly connected to a part of described proprioceptive simulation assembly, and
It is indirectly connected with the described proprioceptive simulation assembly of remainder, wherein said be indirectly connected with by described a part of described body-sensing mould
Plan assembly is directly connected to realization with the described proprioceptive simulation assembly of remainder.
9. the proprioceptive simulation device with air-out function as described in any one of claim 1-8 it is characterised in that:Described body-sensing
Simulated assembly also includes one or more of following functions module:For producing the vibrating function module of body surface vibratory stimulation, use
In the contact sensing functions module producing tactual stimulation, for producing the grieved pain functional module stimulating of noinvasive, for producing Spurs
Sharp thermal sensation functional module, for producing the creeping chill functional module of cold stimulation, for producing the abnormal smells from the patient functional module of Odor stimulation,
For producing the pressure functional module of compressing sensory stimuli, for producing the moistening functional module of moistening sensory stimuli.
10. a kind of proprioceptive simulation system, have air-out work(including central processing unit with as claimed in any one of claims 1-9 wherein
The proprioceptive simulation device of energy,
Wherein, described control unit receives the control signal being sent by central processing unit and according to described control signal controls
Proprioceptive simulation assembly is according to described functional simulation body-sensing set in advance.
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CN201611047577.3A CN106409054A (en) | 2016-11-22 | 2016-11-22 | Somatosensory sensing device with air outlet function and somatosensory simulation system |
PCT/CN2017/079179 WO2018094948A1 (en) | 2016-11-22 | 2017-03-31 | Somatosensory simulation device with wind blowing function and somatosensory simulation system |
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CN201611047577.3A CN106409054A (en) | 2016-11-22 | 2016-11-22 | Somatosensory sensing device with air outlet function and somatosensory simulation system |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107422851A (en) * | 2017-06-20 | 2017-12-01 | 歌尔科技有限公司 | Virtual reality somatosensory device |
WO2018094947A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市超级人生科技有限公司 | Somatic sensation simulation device having compression function, and somatic sensation simulation system |
WO2018094948A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市行远科技发展有限公司 | Somatosensory simulation device with wind blowing function and somatosensory simulation system |
WO2018094991A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市超级人生科技有限公司 | Air outlet device of somatic sensation simulation apparatus |
WO2018094933A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市超级人生科技有限公司 | Wearable somatic sensation simulation device, somatic sensation simulation method and somatic sensation simulation system |
CN114758557A (en) * | 2022-01-20 | 2022-07-15 | 徐州九鼎机电总厂 | Immersive special vehicle driving comprehensive training simulation system |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109717526A (en) * | 2019-03-05 | 2019-05-07 | 北京安墨烯科技有限责任公司 | A kind of outdoor type graphene electric heating clothes and preparation method thereof |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140070957A1 (en) * | 2012-09-11 | 2014-03-13 | Gianluigi LONGINOTTI-BUITONI | Wearable communication platform |
CN204790729U (en) * | 2015-07-10 | 2015-11-18 | 阮恩铭 | Virtual reality helmet and system |
CN106061456A (en) * | 2013-12-31 | 2016-10-26 | 伊夫徳发明未来科技有限公司 | Wearable devices, systems, methods and architectures for sensory stimulation and manipulation, and physiological data acquisition |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8299905B2 (en) * | 2005-02-10 | 2012-10-30 | Quentin King | System for applying tactile stimulation to the controller of unmanned vehicles |
CN2882295Y (en) * | 2005-09-23 | 2007-03-28 | 中国科学院理化技术研究所 | Human body cooling air conditioning suit based on micro/nano fan array drive |
CN103544346B (en) * | 2013-10-16 | 2017-01-25 | 徐彦之 | Method and system for implementing virtual perception |
CN103735395B (en) * | 2014-01-20 | 2016-02-03 | 东南大学 | One has thermo aesthesia and pallesthetic object wearing device |
CN104808341A (en) * | 2015-04-09 | 2015-07-29 | 青岛歌尔声学科技有限公司 | Head-wearing virtual reality equipment |
CN106373452A (en) * | 2016-11-22 | 2017-02-01 | 深圳市行远科技发展有限公司 | Body feeling simulator capable of air cooling stimulation |
CN106390447B (en) * | 2016-11-22 | 2018-01-12 | 深圳市超级人生科技有限公司 | Proprioceptive simulation equipment with passive stimulatory function |
CN106409054A (en) * | 2016-11-22 | 2017-02-15 | 深圳市行远科技发展有限公司 | Somatosensory sensing device with air outlet function and somatosensory simulation system |
CN106406545A (en) * | 2016-11-22 | 2017-02-15 | 包磊 | Somatosensory stimulation generation device |
-
2016
- 2016-11-22 CN CN201611047577.3A patent/CN106409054A/en active Pending
-
2017
- 2017-03-31 WO PCT/CN2017/079179 patent/WO2018094948A1/en active Application Filing
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140070957A1 (en) * | 2012-09-11 | 2014-03-13 | Gianluigi LONGINOTTI-BUITONI | Wearable communication platform |
CN106061456A (en) * | 2013-12-31 | 2016-10-26 | 伊夫徳发明未来科技有限公司 | Wearable devices, systems, methods and architectures for sensory stimulation and manipulation, and physiological data acquisition |
CN204790729U (en) * | 2015-07-10 | 2015-11-18 | 阮恩铭 | Virtual reality helmet and system |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2018094947A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市超级人生科技有限公司 | Somatic sensation simulation device having compression function, and somatic sensation simulation system |
WO2018094948A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市行远科技发展有限公司 | Somatosensory simulation device with wind blowing function and somatosensory simulation system |
WO2018094991A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市超级人生科技有限公司 | Air outlet device of somatic sensation simulation apparatus |
WO2018094933A1 (en) * | 2016-11-22 | 2018-05-31 | 深圳市超级人生科技有限公司 | Wearable somatic sensation simulation device, somatic sensation simulation method and somatic sensation simulation system |
CN107422851A (en) * | 2017-06-20 | 2017-12-01 | 歌尔科技有限公司 | Virtual reality somatosensory device |
CN114758557A (en) * | 2022-01-20 | 2022-07-15 | 徐州九鼎机电总厂 | Immersive special vehicle driving comprehensive training simulation system |
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