WO2018094948A1 - Somatosensory simulation device with wind blowing function and somatosensory simulation system - Google Patents

Somatosensory simulation device with wind blowing function and somatosensory simulation system Download PDF

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Publication number
WO2018094948A1
WO2018094948A1 PCT/CN2017/079179 CN2017079179W WO2018094948A1 WO 2018094948 A1 WO2018094948 A1 WO 2018094948A1 CN 2017079179 W CN2017079179 W CN 2017079179W WO 2018094948 A1 WO2018094948 A1 WO 2018094948A1
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WIPO (PCT)
Prior art keywords
somatosensory
user
function
control unit
wind
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PCT/CN2017/079179
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French (fr)
Chinese (zh)
Inventor
彭子民
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深圳市行远科技发展有限公司
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Publication of WO2018094948A1 publication Critical patent/WO2018094948A1/en

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    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B9/00Simulators for teaching or training purposes

Definitions

  • the invention relates to the technical field of human body feeling simulation, in particular to a body feeling simulation device and a body feeling simulation system with an air blowing function.
  • Somatosensory also known as somatosensory, is a general term for touch, pressure, temperature, pain, and proprioception (about muscle and joint position and movement, body posture and movement, and facial expression). Somatosensory technology is to simulate and monitor the sense of body, to achieve the corresponding functions or cooperation and interaction with other devices. For example, in conjunction with a scene related to a movie or a game, a vibration, a cold feeling, and the like are simulated to enhance the user's realism.
  • the current somatosensory simulation device generally combines a specific application scenario to simulate a single or a few physical senses required by the scene through the wearable device.
  • the somatosensory glove is used to simulate the touch of the hand; the somatosensory vest with the sensor is placed therein to simulate the feeling of vibration to match the needs of the game scene.
  • the control unit issues a control signal according to the correlation analysis, and controls the somatosensory simulation component of the corresponding position to perform somatosensory stimulation to implement the somatosensory simulation.
  • the conventional somatosensory simulation device can only simulate part of the feeling of the body part, such as the touch of the hand, the vibration of the chest part, etc., but does not cooperate with the feeling of other parts of the body; in particular, most of the existing body feeling simulation devices
  • the lack of functional modules that can generate hair dryers makes the user lack the experience of feeling the wind, which also makes the user feel less realistic in the experience of the application scene, and reduces the simulation effectiveness of the somatosensory simulation device.
  • the object of the present invention is to overcome the deficiencies of the prior art and provide a body-sensing simulation device having an air-discharging function, so as to solve the wind-stimulation stimulation of the body-sensing simulation device in the prior art, thereby causing wind-stimulation stimulation.
  • a body feeling simulation device having an air blowing function includes:
  • a wearable body for wrapping the entire body of the user
  • each of the plurality of somatosensory simulation components being disposed on the wearable body, each of the somatosensory simulation components including at least a wind sense function module for generating a wind blow feeling, so that the user feels at least Somatosensory stimulation to the wind;
  • control unit electrically coupled to each of the somatosensory analog components for issuing one or more control commands to one or more of the somatosensory analog components.
  • the wind function module includes a wind function circuit board, an air flow generator disposed on the wind function circuit board and electrically connected to the wind function circuit board to blow airflow to a user, and
  • the wearable body is provided with a ventilation structure for the airflow generated by the airflow generator to the user's body.
  • the wearable body includes a fabric having an envelope shape and covering the entire body of the user, and a gas permeable inner layer coated on the inner side of the fabric, and the plurality of the somatosensory simulation components are disposed on the gas permeable inner layer. on.
  • the wearable body includes a garment that wraps the torso of the human body and the limbs, or the wearable body includes a garment for wrapping the torso and limbs of the user, a glove attached to the garment to wrap the user's hand, and The garment is attached to wrap a foot cover of the user's foot, or the wearable body includes a garment for wrapping the torso and limbs of the user, and a hat for wrapping the user's head, or the wearable body includes A garment that wraps the user's torso and limbs, gloves that are attached to the garment to wrap the user's hand, a foot cover that is attached to the garment to wrap the user's foot, and a hat that is attached to the garment to wrap the user's head.
  • the somatosensory analog component is detachable and/or the control unit is detachable.
  • the wearable body is in close contact with the entire body of the user.
  • control unit to each of the somatosensory analog components is directly connected to the control unit and each of the somatosensory analog components.
  • the electrical connection between the control unit and each of the somatosensory analog components is: the control unit is directly connected to a part of the somatosensory analog components, and is indirectly connected to the remaining part of the somatosensory analog components, wherein The indirect connection is achieved by a direct connection of the portion of the somatosensory analog component to the remaining portion of the somatosensory analog component.
  • the somatosensory stimulation component further includes one or more of the following functional modules: a vibration function module for generating surface vibration stimulation, a tactile function module for generating tactile stimulation, for generating atraumatic pain stimulation Pain function module, a thermal function module for generating thermal stimulation, a cold sensing function module for generating cold stimulation, an odor function module for generating an odor stimulus, a pressure function module for generating a pressure sensory stimulus, for generating A moist function module that moisturizes the sensation.
  • the present invention also provides a somatosensory simulation system including a central processing unit and a somatosensory simulation device having an air outlet function as described above.
  • the control unit receives a control signal sent by the central processing unit and controls the somatosensory analog component to simulate a sense of body according to the preset function according to the control signal.
  • the technical effect of the somatosensory simulation device and the somatosensory simulation system having the air blowing function of the present invention is that a plurality of somatosensory simulation components are disposed in the wearable body by using the body-wrapable wearable body, thereby enabling the user to have various parts of the whole body. All can produce corresponding sense of body according to the needs of the application scene, and not only single or individual body parts receive stimulation, which greatly improves the effectiveness of the somatosensory simulation and the realism of the user experience.
  • the plurality of somatosensory simulation components can at least simulate the air blowing effect, when the wind stimulation is performed, the wind feeling can be generated in all parts of the user body, thereby improving the effectiveness of the wind stimulation.
  • Figure 1 is a front elevational view of a somatosensory simulation device having an air outlet function of the present invention
  • Figure 2 is a rear elevational view of the somatosensory simulation device having an air outlet function of the present invention
  • FIG. 3 is a schematic view of a body feeling simulation device with an air outlet function in combination with a video device according to the present invention
  • FIG. 4 is a control block diagram of a body feeling simulation device having an air blowing function according to the present invention.
  • FIG. 5 is a schematic structural view of another embodiment of a wearable body of a body feeling simulation device having an air outlet function according to the present invention.
  • FIG. 6 is a schematic structural view of a somatosensory simulation component of a body feeling simulation device having an air outlet function according to the present invention
  • FIG. 7 is a schematic structural view of a thermal function module of a body feeling simulation device having an air outlet function according to the present invention.
  • FIG. 8 is a schematic structural view of a cold sensing function module of a body feeling simulation device having an air blowing function according to the present invention.
  • FIG. 9 is a schematic structural view of an odor function module of a body feeling simulation device having an air outlet function according to the present invention.
  • FIG. 10 is a schematic structural view of a pressure function module of a body feeling simulation device having an air outlet function according to the present invention
  • FIG. 11 is a schematic structural view of a wind function module of a body feeling simulation device having an air blowing function according to the present invention.
  • the somatosensory simulation device 100 having the air blowing function of the present embodiment can be used alone or in combination with the video device 200, such as an ordinary home television, a computer, or a video device 200 such as a VR/AR.
  • VR is virtual reality technology, which is a computer simulation system that can create and experience virtual world. Specifically, it uses computer to generate a simulation environment, which is a multi-source information fusion interaction.
  • AR which is augmented reality technology
  • 3D models the goal of this technology is to reflect the virtual world on the screen and interact with it in the real world.
  • the body feeling simulation device 100 having the air blowing function includes a wearable body 10, a body feeling simulation component 20, and a control unit 30. Further description of each component of the body feeling simulation device 100 having an air outlet function will be further described below:
  • the wearable body 10 is used to cover the entire body of the user; wherein the meaning of the whole body refers to all major parts of the body, including but not limited to the body parts covered by the usual long-sleeved tops and trousers.
  • the meaning of the package not only means covering the whole body of the user, but also contacting most parts of the user's body, so that the user can get the feeling of being surrounded and touched, so that when the user accepts the somatosensory stimulation of the somatosensory simulation component 20 provided in the wearable body 10, the user
  • the realism of the feeling is improved; in order to ensure the comfort of the user, the wearable body 10 is preferably made of an elastic material.
  • the somatosensory simulation component 20 is configured to simulate a somatosensory function according to a preset function, such as a simulated tactile sensation, a vibration sensation, a heating sensation, etc., wherein a plurality of the somatosensory simulation components 20 are disposed at different positions of the wearable body 10, It should be noted that a plurality of them are greater than or equal to two, and the meanings of the settings are that they are located on the wearable body 10 and are in contact with the wearable body 10, and may or may not be connected to the wearable body 10.
  • Each of the individual sense simulation components 20 is composed of a plurality of functional modules, thereby enabling simultaneous simulation of multiple body senses in one location.
  • each body sensation simulation component 20 includes at least a wind-sensing function module 28 for generating a wind-sensing feeling, so that the user can at least feel the body-sounding stimulation of the wind, and the wind-sensing function module 28 can realize the feeling of blowing of some scenes, thereby
  • the application range of the somatosensory simulation device 100 can be expanded, and the user experience can be improved.
  • the control unit 30 is configured to control the somatosensory simulation component 20 to simulate the body sense according to the preset function; for example, control the somatosensory simulation component 20 located in the chest and the hand to simulate the pain sense function, or control the somatosensory simulation component 20 located in the hand. Simulating the feeling of wind blowing, controlling the somatosensory simulation component 20 located at the foot simulates the feeling of wetness.
  • the control unit 30 is disposed on the wearable body 10 and electrically connected to each of the somatosensory analog components 20 respectively. In addition, the control unit 30 can also be connected to the video device 200 so that the user can feel the content of the virtual scene in a non-stimulated manner.
  • control unit may adopt a single-level mode, that is, the control unit directly controls each of the somatosensory analog components; or a multi-level mode, the control unit includes a control main unit and a control sub-unit, and the control main unit and the control sub-unit perform A wired or wireless communication connection, the control sub-unit corresponding to the control somatosensory analog component.
  • the specific architecture of the control unit can be built on an MCU, FPGA or other chip.
  • the plurality of functional modules included in the somatosensory analog component can be implemented by various types of functional sensors or other components.
  • control unit 30 is electrically coupled to each of somatosensory analog components 20 for issuing one or more control commands to one or more of somatosensory analog components 20. That is, the control unit 30 may selectively issue one or more instructions to the somatosensory analog component 20 of one or more locations under different scenarios or requirements, and may apply the same command to multiple somatosensory analog components, or may be different.
  • the somatosensory analog component 20 gets different instructions, even the same individual sense emulation component 20 gets different instructions to cause different modules to execute different instructions.
  • the wearable body 10 of the whole body is wrapped, and the plurality of somatosensory simulation components 20 are disposed on the wearable body 10, the respective body parts of the user can be generated according to the needs of the application scene. Not only the single or individual body parts receive the stimulation, but also greatly enhances the effectiveness of the somatosensory simulation and the realism of the user's feelings.
  • the plurality of somatosensory analog components 20 can at least simulate the blowing effect, so that all parts of the user's body can be The demand feels the somatosensory stimulation of the wind, ensuring the user's requirements for the wind and the real experience.
  • the degree of wind sensation simulated by each of the somatosensory simulation components 20 can be adjusted.
  • the wind stimulation intensity of the somatosensory simulation component 20 of the user's head is set to be large, so that the user's head feels a strong wind feeling, and the body feeling simulation component of the user's leg.
  • the wind stimulation intensity of 20 is set to be relatively small, and the user's leg feels a weak wind feeling.
  • the wind function module 28 includes a wind function circuit board 281 and a wind function circuit.
  • the wind function circuit board 281 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the wind function circuit board 281 is electrically connected to the control unit 30.
  • the airflow generator 282 is a fan, and the fan is a micro fan, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and at the same time, the micro fan has a length range of 8 mm- 20 mm, the width dimension ranges from 8 mm to 20 mm, and the height dimension ranges from 2 mm to 5 mm, and preferably, the preferred dimension of the length, width and height is 10 mm ⁇ 10 mm ⁇ 3 mm.
  • the venting structure includes a passageway disposed on the wearable body 10 and in communication with the airflow generator 282.
  • the control unit 30 controls the operation of the airflow generator 282 through the wind function circuit board 281, and after the airflow generator 282 is activated, it generates airflow and passes through the wearable body 10.
  • the upper passage sends the airflow to the designated location, so that the user can experience the wind stimulation, and the whole operation process is simple and convenient.
  • a preferred embodiment of the wearable body 10 in the present embodiment includes a fabric 11a having an envelope shape and covering the entire body of the user, and coating.
  • a gas permeable inner layer 12a having a gas permeable function inside the fabric 11a is provided on the gas permeable inner layer 12a.
  • the fabric 11a is mainly made of high-strength yarn and weaved by warp and weft so that the fabric 11a It has a plurality of knitted mesh structures to ensure its gas permeability. Moreover, in order to ensure good use of the fabric 11a, the fabric 11a comprises a relatively large gas permeable structure, and a relatively small gas permeable structure which is weak compared to the larger gas permeable structure. Specifically, the larger gas permeable structure of the fabric 11a is utilized.
  • the knitting or weft knitting has good flexibility and stretch characteristics
  • the larger ventilating structure of the fabric 11a has a single-layer mesh structure, for example, forming a tuck tissue or a mesh structure, and the structure has good air permeability
  • the fabric 11a The material used for the larger gas permeable structure is nylon, polyester or spandex; as for the smaller gas permeable structure of the fabric 11a, the requirements for the deformation of the fabric 11a are small, and the requirements for the ventilation are small, so only the tightness is required.
  • the material can be realized, and the material of the smaller gas permeable structure of the fabric 11a is also nylon, polyester or spandex.
  • the fabric 11a further includes an in-plane ventilation structure for passing hot air or cold air in the surface of the fabric 11a; preferably, the in-plane ventilation structure is preferably a spacer fabric (mainly weft-woven fabric), which is due to both sides.
  • the in-plane ventilation structure is preferably a spacer fabric (mainly weft-woven fabric), which is due to both sides.
  • the tightness of the fabric structure is different, the two fabrics are connected by the intermediate spacer wires, and the density of the spacer filaments is small, and the ventilation effect is very good.
  • Such fabrics are very suitable for the effect of cold and hot air, and the fabrics are used in the VR part game scene.
  • the real cold air effect can be simulated by inserting a cold air nozzle on one side of the fabric.
  • the material of the gas permeable inner layer 12a is preferably a gel to ensure its skin-friendliness and gas permeability.
  • Gel also known as jelly, is a thick substance with a special elasticity between a liquid and a solid. It is formed by the process of protein, enzyme, recombinant protein, antibody, nucleic acid, etc. Biomolecules, after tens of thousands of assays and fifteen chromatography and purification, ultimately extract an object that resembles a specific result substance of human skin. Of course, the process of refining this material is very complicated. It is a combination of plant extracting molecules and natural essential oils using water regenerative properties derived composite materials.
  • the gel is a solid in liquid, its special touch is unmatched by other materials. Breathing, constant temperature, insect proof, anti-mite and high viscoelasticity and ventilation and permeability make it a rare substance. Substances with very similar properties to the skin are known as "artificial skin”.
  • the wearable body 10 includes a garment 11 that wraps the torso and limbs of the human body, i.e., includes a garment portion 12 that wraps the torso and all of the arms and wraps all of the legs.
  • Pants portion 13 in other words, the wearable body 11 may include a long sleeve shirt And trousers, can also be a piece of clothing including long sleeves and trousers, so that all parts of the user's body can receive the relevant somatosensory stimulation to simulate the relevant body feeling, improve the realism of the somatosensory simulation and the user's experience.
  • the wearable body 10 is a garment 11 including a torso and limbs for wrapping a user, and a glove 14 connected to the garment 11 to wrap the user's hand. And the foot cover 15 connected to the clothes 11 to wrap the user's foot.
  • the wearable body 10 is a piece of clothing composed of the clothes 11, the glove 14 and the foot cover 15. That is, not only the main parts of the general user's whole body are wrapped, but also the parts including the hands and feet are also wrapped, so that the hands and feet can simultaneously receive the same or different somatosensory stimulations with other parts of the body, further enhancing the somatosensory simulation. Realism.
  • the garment comprising the glove 14 and the foot cover 15 is in the form of an integral piece of garment that provides a better sense of somatosensory simulation, and those skilled in the art will also appreciate the use of gloves 14 Embodiments of the invention can also be implemented in the form of splits of the foot cover 15 and the garment.
  • the wearable body 10 includes a garment 11 for wrapping a torso and limbs of a user, and a hat 16 for wrapping a user's head.
  • the wearable body 10 is a one-piece garment composed of the garment 11 and the hat 16. Thereby, the user's head can also receive the same or different somatosensory stimulations with the body at the same time, further improving the realism of the user's somatosensory simulation.
  • the wearable body 10 includes a garment 11 for wrapping the torso and limbs of the user, a glove 14 attached to the garment 11 to wrap the user's hand, and The clothes 11 are connected to cover the foot cover 15 of the user's foot, and the hat 16 connected to the clothes to wrap the user's head.
  • the wearable body 10 is a combination of the clothes 11, the gloves 14, the foot cover 15 and the hat 16. Body clothes. Understandably, not only the main parts of the general user's whole body are wrapped, but also the parts including the hands, feet and head are also wrapped, so that the hands, feet and heads can receive the same or different somatosensory stimulations simultaneously with other parts of the body. To further enhance the realism of somatosensory simulation.
  • each of the somatosensory analog components 20 and each of the control units 30 are detachable. Then, in the need to adjust the somatosensory analog component 20 and the control unit 30 In the position, it is possible to flexibly adjust and expand the range of application of the body feeling simulation device 100 having the air blowing function of the present invention, and the cost is saved.
  • the wearable body 10 is in intimate contact with the user.
  • the pattern of the tights further enhances the fit of the wearable body 10 to the entire body of the user.
  • the somatosensory simulation component 20 performs somatosensory stimulation on various parts of the user's body, the somatosensory simulation is more effective and the user experience is more realistic.
  • a specific implementation manner of the electrical connection between the control unit 30 and each of the somatosensory analog components 20 is that the control unit 30 is directly connected to each of the somatosensory analog components 20, that is, Electrical wires are provided between the control unit 30 and each of the somatosensory analog components 20 to achieve a direct electrical connection, simplify the structure, and facilitate control.
  • control unit 30 may be one or more.
  • control unit 30 includes one main control unit and several slave control units, one main control unit being electrically connected to all of the plurality of slave control units.
  • a number of slave control units are electrically coupled directly to corresponding somatosensory analog components.
  • the electrical connection between the control unit 30 and each of the somatosensory analog components 20 is such that the control unit 30 is directly connected to a portion of the somatosensory analog component 20 and indirectly connected to the remaining portion of the somatosensory analog component 20,
  • the indirect connection is achieved by a direct connection of a portion of the somatosensory analog component 20 to the remaining portion of the somatosensory analog component 20.
  • control unit 30 is electrically connected directly to the somatosensory analog component 20 of the chest through a wire
  • somatosensory analog component 20 of the chest is directly electrically connected to the somatosensory analog component 20 of the shoulder through the wire, thereby realizing the somatosensory simulation of the control unit 30 and the shoulder. Electrical connection of assembly 20.
  • control unit 30 may be one or more.
  • control unit 30 includes one main control unit and several slave control units, one main control unit and all Directly or indirectly electrically connected from the control unit, a plurality of slave control units are electrically connected directly or indirectly to the corresponding body-sensing analog components, thereby saving the length of the wires used for electrical connection in the entire body-sensing device 100 having the air-discharging function, simplifying the The wind-sensing somatosensory simulates the structure of the device 100 and reduces the failure rate due to wire failure.
  • the somatosensory analog component 20 includes a vibration function module 21, a tactile function module 22, and a pain function module. 23, the following describes the functional modules of the somatosensory analog component 20 in detail:
  • the vibration function module 21 is configured to generate a body surface vibration stimulus to massage or vibrate the user's body.
  • the vibration function module 21 includes a body surface vibration function circuit board and a surface vibration function circuit board. a surface vibration component electrically connected to the surface vibration function circuit board, wherein the surface vibration function circuit board can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the surface vibration function circuit board and the control unit 30 electrical connection; while the surface vibration component uses regular long-term vibration components, so as to ensure that vibration combinations of different frequencies, different time intervals and different durations can be realized, and the work can be carried out in different vibration occasions;
  • the haptic function module 22 is configured to generate a tactile stimuli by stimulating the user's sensation part to make the user haptic feedback.
  • the haptic function module 22 includes a tactile vibration function circuit board and is disposed on the tactile vibration function circuit board.
  • a tactile vibration component electrically connected to the tactile vibration function circuit board, wherein the tactile vibration function circuit board can adopt a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the tactile vibration function circuit board is electrically connected to the control unit 30;
  • the tactile vibration component uses a vibrating component that has a short shaking time and can generate different vibration intensities to achieve different vibration intensities and durations. Accordingly, if the tactile function module 22 is placed in the wearable body 10, the end of the user's finger is wrapped. At the position of the position or other sensing parts, tactile feedback can be realized, such as making the user feel the touch, the object, the archery feedback, etc.;
  • the pain function module 23 is for generating a non-traumatic pain stimulation, so that the user is subjected to a non-invasive tingling sensation.
  • the pain function module 23 includes a tingling function circuit board and is disposed on the tingle function circuit board and The stinging function circuit board is electrically connected to the electric shock device that makes the user feel a tingling feeling by electric shock, wherein the stinging function circuit board can adopt a flexible circuit board, a rigid circuit board or a rigid-flexible circuit board, and the stinging function circuit
  • the board is electrically connected to the control unit 30; and different strengths, different pulse intervals, and different stimulation frequencies can be achieved by the electric shock device, whereby different intense short-term stimuli such as shooting and heavy hits can be simulated.
  • the somatosensory analog component 20 further includes a thermal sensing function module 24 for generating thermal stimulation, Make the user's body part feel the hot touch.
  • the thermal sensing function module 24 can realize the thermal touch of certain scenes, such as sudden traumatic bleeding, sudden contact with the flame, etc., thereby expanding the application range of the body feeling simulation device 100 having the air blowing function, and improving User experience.
  • the thermal function module 24 includes a thermal function circuit board 241 and is disposed on the thermal function circuit board 241. Graphene 242 electrically connected to the thermal function circuit board 241.
  • the thermal function circuit board 241 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the thermal function circuit board 241 is electrically connected to the control unit 30.
  • graphene 242 since it has the advantages of high heat generation speed, high heat dissipation speed, and precise temperature range control, it is advantageous to realize far infrared heat treatment and at the same time reduce the occurrence of burns; and preferably, graphene 242
  • the sheet structure can be used, or the film structure can be used to facilitate the installation; of course, the metal heating wire can be used instead of the graphene 242 according to the actual situation, so as to reduce the production cost.
  • control unit 30 controls the operation of the graphene 242 through the thermal function circuit board 241, and after the graphene 242 operates, it rapidly generates heat to allow the user to experience thermal stimulation.
  • the entire operation process is simple and convenient.
  • the somatosensory analog component 20 further includes a cold sensing function module 25 for generating cold stimulation, Make the user's body feel a cold touch.
  • the cold touch function module 25 can realize the ice touch of some scenes, such as ice, thereby expanding the application range of the body feeling simulation device 100 having the air blowing function and improving the user experience.
  • the cold sensing function module 25 includes a cold sensing function circuit board 251 and is disposed on the cold sensing function circuit board 251.
  • a semiconductor 252 electrically connected to the cold sensing function circuit board 251.
  • the cooling function circuit board 251 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the cold sensing function circuit board 251 is electrically connected to the control unit 30.
  • the semiconductor 252 As a special cold source, it has the following advantages and features in technical applications:
  • the semiconductor 252 has two functions: one for cooling and the other for heating.
  • the cooling efficiency is generally not high, but the heating efficiency is very high, always greater than 1. Therefore, a separate heating system and refrigeration system can be used with one piece.
  • the semiconductor 252 is a current-transducing type piece. Through the control of the input current, high-precision temperature control can be realized. Together with the temperature detection and control means, it is easy to realize remote control, program control and computer control, and it is convenient to form an automatic control system. .
  • semiconductor 252 thermal inertia is very small, cooling and heating time is very fast, in the case of good heat dissipation at the cold end cold end no load, the power can be less than one minute, the cooling sheet can reach the maximum temperature difference.
  • the reverse use of the semiconductor 252 is temperature difference power generation, and it is generally suitable for power generation in the middle and low temperature regions.
  • the single cooling element of the semiconductor 252 has a relatively small power, and when a large power is to be obtained, a plurality of cooling elements of the same type may be used and combined into a stack by a stack or parallel connection to form a refrigeration.
  • the system whereby a larger power semiconductor 252 can be obtained.
  • This structural feature also enables the cooling power of the semiconductor 252 to be in the range of a few milliwatts to tens of thousands of watts.
  • the temperature difference of the semiconductor 252 is large, and can be realized from a positive temperature of 90 ° C to a negative temperature of 130 ° C.
  • the semiconductor 252 can preferentially adopt a sheet structure to facilitate mounting settings.
  • a heat sink and a cooling fan can be added to improve the overall cooling effect.
  • the control unit 30 controls the operation of the semiconductor 252 through the cold sensing function circuit board 251, and after the semiconductor 252 operates, it generates a cold source to make the user experience cold. Sensitive, the whole process is simple and convenient.
  • the somatosensory analog component 20 further includes an odor function module 26 for generating odor stimuli, so that The user smells the smell.
  • an odor function module 26 for generating odor stimuli, so that The user smells the smell.
  • the scent function module 26 includes an odor function circuit board 261, is disposed on the scent function circuit board 261, and is coupled to the scent function circuit board. 261 is electrically connected and can be combined with a plurality of flavored scent sources 262, and an odor filter disposed on the scent function circuit board 261 and electrically connected to the scent function circuit board 261 to direct the odor generated by the scent source 262 to the user's sense of smell. 263.
  • the odor function module 26 further includes a housing having an envelope structure for fixing the components, and the scent function circuit board 261 and the scent source 262 are both disposed inside the housing to be protected by the package of the housing;
  • the housing can be made of plastic to reduce its weight.
  • the scent function circuit board 261 may be a flexible circuit board, a rigid circuit board or a semi-flexible semi-rigid circuit board, and the scent function circuit board 261 is electrically connected to the control unit 30.
  • the scent source 262 is composed of a plurality of fragrances having different odors, such as jasmine fragrance, rose fragrance, lily fragrance, grass fragrance, apple flavor, etc.; and each fragrance is correspondingly disposed in a sealed container, and the sealed container is provided with a
  • the switching device inside thereof can be electrically opened or closed, and the switching device is electrically connected to the scent function circuit board 261 to be controlled by the scent function circuit board 261. Accordingly, when the user is required to smell the jasmine odor, the control unit 30 issues a work instruction to the scent function circuit board 261, and after receiving the relevant command, the scent function circuit board 261 holds the jasmine fragrance to the scent source 262.
  • the switch device on the sealed container issues a work command to open a sealed container containing jasmine fragrance, thereby releasing the jasmine odor to allow the user to feel the smell.
  • the control unit 30 sends a work instruction to the scent function circuit board 261, and after receiving the relevant command, the scent function circuit board 261 will hold the odor source 262.
  • Jasmine spice seal The switch device on the container and the switch device on the sealed container containing the rose fragrance respectively issue work instructions to respectively open the sealed container containing the jasmine fragrance and the sealed container containing the rose fragrance, thereby releasing the jasmine and The mixed smell of roses to let the user feel the smell.
  • the switch device can adopt an electric valve. Of course, other electric switch devices can also be used, so that the sealed container containing the fragrance can be opened at any time, and the corresponding smell is quickly released.
  • the odor drain 263 is an air pump, and the air pump 273 is a micro air pump, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and the length range thereof is 130 mm-180 mm.
  • the width range is from 50mm to 85mm and the height range is from 100mm to 155mm.
  • the odor drain 263 is a fan, and the fan is a micro fan, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and at the same time, the length of the micro fan
  • the size ranges from 8mm to 20mm, the width ranges from 8mm to 20mm, and the height ranges from 2mm to 5mm.
  • the odor function module 26 includes a guide that also includes one end facing the designated position and the other end connected to the scent drain 263. Leading.
  • the odor function module 26 is provided in plurality, and the plurality of odor function modules 26 are disposed on the wearable body 10 at a position corresponding to the face or the nose of the user, so as to pass through The odor function module 26 simultaneously releases the odor concentration to meet the specified requirements, thereby ensuring that the user can clearly smell the desired odor; wherein, it should be noted that the plurality of fingers herein refers to two or more. That is, the odor function module 26 can be two, three or four, etc., and such an embodiment is also within the scope of protection of the present embodiment.
  • the plurality of scent function modules 26 are electrically connected to each other, and when the plurality of scent function modules 26 are connected, they may be directly connected or indirectly connected, for example, the indirect connection is realized by the control unit 30.
  • the somatosensory simulation component 20 further includes a pressure function module 27 for generating a compression feeling stimulus, Make the user feel oppressed.
  • a pressure function module 27 for generating a compression feeling stimulus, Make the user feel oppressed.
  • the pressure function module 27 includes a compression function circuit board 271, an air bag 272 disposed on the wearable body 10 and swellably squeezing the user, and An air pump 273 is provided on the compression function circuit board 271 and connected to the air bag 272 to supply the air bag 272 with a gas that expands.
  • the pressing function circuit board 271 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the pressing function circuit board 271 is electrically connected to the control unit 30.
  • the air pump 273 is a micro air pump, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and the length range is 130mm-180mm, and the width dimension is 50mm- 85mm, height range from 100mm to 155mm.
  • control unit 30 controls the operation of the air pump 273 through the pressing function circuit board 271, and after the air pump 273 operates, it generates gas to control the inflation of the air bag to press the user, thereby causing the user to generate A sense of oppression.
  • the somatosensory simulation component 20 further includes a moisturizing device for generating moist feeling stimuli.
  • the function module 29 is to make the user feel a wet feeling. By using the humidifying function module 29, certain scenes in which the skin is wet can be realized, thereby expanding the application range of the body feeling simulation device 100 having the air blowing function and improving the user experience.
  • the wet function module 29 comprises a wet material applied to the wearable body 10 and can be changed from a semi-solid state to a flowable liquid state after energization, and the wet material is preferably a gel, wherein after the gel is energized, The gel changes from a semi-solid state to a flowable liquid.
  • the wet material and the gas permeability applied to the wearable body 10 are Layer 12a is the same material.
  • each of the somatosensory analog components 20 and each of the control units 30 are detachable. Then, when it is necessary to adjust the positions of the somatosensory simulation component 20 and the control unit 30, flexible adjustment can be performed, and the applicable range of the body feeling simulation device 100 having the air blowing function of the present invention can be expanded and the cost can be saved.
  • a somatosensory simulation system which includes a central processing unit and a somatosensory simulation device 100 having an air blowing function in each of the above embodiments.
  • the control unit 30 receives the control signal sent by the central processing unit and controls the somatosensory analog component 20 to simulate the body feeling according to the preset function according to the control information.

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Abstract

A somatosensory simulation device with a wind blowing function, comprising a wearable body (10), a plurality of somatosensory simulation components (20), and a control unit (30). The wearable body (10) is used for covering the whole body of a user; the plurality of somatosensory simulation components (20) is disposed on the wearable body (10), and each of the somatosensory simulation components (20) at least comprises a wind sensing function module (28); the control unit (30) is separately electrically connected to each of the somatosensory simulation components (20). The wearable body (10) covering the whole body is used, and the plurality of somatosensory simulation components (20) are provided in the wearable body (10), so that each area of the whole body of a user can generate corresponding somatic sensation according to the requirement of an application scene instead of merely a single or a particular part of the body being stimulated, thereby greatly increasing the availability of the somatosensory simulation and the degree of reality in feeling of the user. In addition, all of the plurality of somatosensory simulation components (20) can simulate a wind blowing effect, so that each part of the user's body can feel the somatosensory stimulation of wind blowing, thereby satisfying the requirement of the user for feeling wind and ensuring user experience.

Description

具有出风功能的体感模拟装置及体感模拟系统Somatosensory simulation device with wind function and somatosensory simulation system 技术领域Technical field
本发明涉及通过人体感觉模拟的技术领域,尤其涉及一种具有出风功能的体感模拟装置及体感模拟系统。The invention relates to the technical field of human body feeling simulation, in particular to a body feeling simulation device and a body feeling simulation system with an air blowing function.
背景技术Background technique
体感,也可称躯体感觉,是触觉、压觉、温觉、痛觉和本体感觉(关于肌肉和关节位置和运动、躯体姿势和运动以及面部表情的感觉)的总称。体感技术,是通过模拟和监测体感,实现对应的功能或与其他设备的配合与互动。例如,配合电影或游戏的相关场景,模拟振动、冷的感觉等以加强用户的真实感。又例如,当你站在一台电视前方,假使有某个体感装置可以侦测你手部的动作,此时若是我们将手部分别向上、向下、向左及向右挥,用来控制电视台的快转、倒转、暂停以及终止等功能,便是一种很直接地以体感操控周边装置的例子,或是将此四个动作直接对应于游戏角色的反应,便可让人们得到身临其境的游戏体验。Somatosensory, also known as somatosensory, is a general term for touch, pressure, temperature, pain, and proprioception (about muscle and joint position and movement, body posture and movement, and facial expression). Somatosensory technology is to simulate and monitor the sense of body, to achieve the corresponding functions or cooperation and interaction with other devices. For example, in conjunction with a scene related to a movie or a game, a vibration, a cold feeling, and the like are simulated to enhance the user's realism. For example, when you stand in front of a TV, if there is a somatosensory device that can detect the movement of your hand, if we move the hand up, down, left, and right, respectively, to control The functions of fast-turning, reversing, suspending, and terminating the TV station are examples of directly controlling the peripheral device with a sense of body, or directly corresponding to the reaction of the game character, so that people can get along. The game experience of its environment.
目前的体感模拟装置一般是结合具体的应用场景,通过穿戴设备模拟场景需要的单个或少数几个体感。例如通过体感手套,模拟手部的触感;通过其中设置传感器的体感背心,模拟振动的感觉,以配合游戏场景的需要。具体的是,控制单元根据相关分析发出控制信号,控制对应位置的体感模拟部件进行体感刺激以实现体感模拟。但是,现有的体感模拟装置只能模拟身体局部的部分感觉,例如手部的触感、胸口部分的振动等,而未与身体其他部分的感觉进行配合;尤其为,现有的体感模拟装置大多缺乏可产生吹风的功能模块,使用户缺少感受风感的体验机会,从而也使用户在体验应用场景时中的真实度感受不强,降低了体感模拟装置的模拟有效度。 The current somatosensory simulation device generally combines a specific application scenario to simulate a single or a few physical senses required by the scene through the wearable device. For example, the somatosensory glove is used to simulate the touch of the hand; the somatosensory vest with the sensor is placed therein to simulate the feeling of vibration to match the needs of the game scene. Specifically, the control unit issues a control signal according to the correlation analysis, and controls the somatosensory simulation component of the corresponding position to perform somatosensory stimulation to implement the somatosensory simulation. However, the conventional somatosensory simulation device can only simulate part of the feeling of the body part, such as the touch of the hand, the vibration of the chest part, etc., but does not cooperate with the feeling of other parts of the body; in particular, most of the existing body feeling simulation devices The lack of functional modules that can generate hair dryers makes the user lack the experience of feeling the wind, which also makes the user feel less realistic in the experience of the application scene, and reduces the simulation effectiveness of the somatosensory simulation device.
发明内容Summary of the invention
本发明的目的在于克服现有技术之缺陷,提供一种具有出风功能的体感模拟装置,以解决现有技术中的体感模拟装置仅在用户身体部分区域进行风感刺激,从而造成风感刺激有效度不高的技术问题。The object of the present invention is to overcome the deficiencies of the prior art and provide a body-sensing simulation device having an air-discharging function, so as to solve the wind-stimulation stimulation of the body-sensing simulation device in the prior art, thereby causing wind-stimulation stimulation. A technical problem that is not efficient.
本发明是这样实现的,一种具有出风功能的体感模拟装置,包括:The present invention is implemented in such a manner that a body feeling simulation device having an air blowing function includes:
可穿戴本体,用于包裹用户全身;a wearable body for wrapping the entire body of the user;
多个体感模拟组件,多个所述体感模拟组件均设置于所述可穿戴本体上,每个所述体感模拟组件至少包括用于产生风吹感觉的风感功能模块,以可使用户至少感受到风吹的体感刺激;a plurality of somatosensory simulation components, each of the plurality of somatosensory simulation components being disposed on the wearable body, each of the somatosensory simulation components including at least a wind sense function module for generating a wind blow feeling, so that the user feels at least Somatosensory stimulation to the wind;
控制单元,所述控制单元分别与每个所述体感模拟组件电连接,用于向一个或多个所述体感模拟组件发出一种或多种的控制指令。And a control unit electrically coupled to each of the somatosensory analog components for issuing one or more control commands to one or more of the somatosensory analog components.
具体地,所述风感功能模块包括风感功能电路板、设于所述风感功能电路板上并与所述风感功能电路板电连接以向用户吹送气流的气流产生器、及设于所述可穿戴本体上以供由所述气流产生器产生的气流送至用户身体的通风结构。Specifically, the wind function module includes a wind function circuit board, an air flow generator disposed on the wind function circuit board and electrically connected to the wind function circuit board to blow airflow to a user, and The wearable body is provided with a ventilation structure for the airflow generated by the airflow generator to the user's body.
具体地,所述可穿戴本体包括具有包络状且可包裹用户全身的织物、涂覆于所述织物内侧的透气性内层,多个所述体感模拟组件均设于所述透气性内层上。Specifically, the wearable body includes a fabric having an envelope shape and covering the entire body of the user, and a gas permeable inner layer coated on the inner side of the fabric, and the plurality of the somatosensory simulation components are disposed on the gas permeable inner layer. on.
进一步地,所述可穿戴本体包括包裹人体躯干和四肢的衣服,或所述可穿戴本体包括用以包裹用户的躯干和四肢的衣服、与所述衣服相连以包裹用户手部的手套、以及与所述衣服相连以包裹用户脚部的脚套,或所述可穿戴本体包括用以包裹用户的躯干和四肢的衣服、以及用以包裹用户头部的帽子,或所述可穿戴本体包括用以包裹用户的躯干和四肢的衣服、与所述衣服相连以包裹用户手部的手套、与所述衣服相连以包裹用户脚部的脚套、以及与所述衣服相连以包裹用户头部的帽子。 Further, the wearable body includes a garment that wraps the torso of the human body and the limbs, or the wearable body includes a garment for wrapping the torso and limbs of the user, a glove attached to the garment to wrap the user's hand, and The garment is attached to wrap a foot cover of the user's foot, or the wearable body includes a garment for wrapping the torso and limbs of the user, and a hat for wrapping the user's head, or the wearable body includes A garment that wraps the user's torso and limbs, gloves that are attached to the garment to wrap the user's hand, a foot cover that is attached to the garment to wrap the user's foot, and a hat that is attached to the garment to wrap the user's head.
具体地,所述体感模拟组件为可拆卸的和/或所述控制单元为可拆卸的。In particular, the somatosensory analog component is detachable and/or the control unit is detachable.
具体地,所述可穿戴本体与用户全身均紧密接触。Specifically, the wearable body is in close contact with the entire body of the user.
具体地,所述控制单元与每个所述体感模拟组件的电连接为所述控制单元与每个所述体感模拟组件直接连接。Specifically, the electrical connection of the control unit to each of the somatosensory analog components is directly connected to the control unit and each of the somatosensory analog components.
具体地,所述控制单元与每个所述体感模拟组件的电连接为:所述控制单元与一部分所述体感模拟组件直接连接,并与剩余部分的所述体感模拟组件间接连接,其中所述间接连接通过所述一部分所述体感模拟组件与剩余部分的所述体感模拟组件的直接连接实现。Specifically, the electrical connection between the control unit and each of the somatosensory analog components is: the control unit is directly connected to a part of the somatosensory analog components, and is indirectly connected to the remaining part of the somatosensory analog components, wherein The indirect connection is achieved by a direct connection of the portion of the somatosensory analog component to the remaining portion of the somatosensory analog component.
进一步地,所述体感刺激组件还包括以下功能模块的一种或多种:用于产生体表振动刺激的振动功能模块,用于产生触觉刺激的触感功能模块,用于产生无创伤痛刺激的痛感功能模块,用于产生热刺激的热感功能模块,用于产生冷刺激的冷感功能模块,用于产生气味刺激的气味功能模块,用于产生压迫感觉刺激的压力功能模块,用于产生湿润感觉刺激的湿润功能模块。Further, the somatosensory stimulation component further includes one or more of the following functional modules: a vibration function module for generating surface vibration stimulation, a tactile function module for generating tactile stimulation, for generating atraumatic pain stimulation Pain function module, a thermal function module for generating thermal stimulation, a cold sensing function module for generating cold stimulation, an odor function module for generating an odor stimulus, a pressure function module for generating a pressure sensory stimulus, for generating A moist function module that moisturizes the sensation.
本发明还提供一种体感模拟系统,包括中央处理器和如上述的具有出风功能的体感模拟装置,The present invention also provides a somatosensory simulation system including a central processing unit and a somatosensory simulation device having an air outlet function as described above.
其中,所述控制单元接收由中央处理器发出的控制信号并根据所述控制信号控制所述体感模拟组件按照所述预先设定的功能模拟体感。The control unit receives a control signal sent by the central processing unit and controls the somatosensory analog component to simulate a sense of body according to the preset function according to the control signal.
本发明的具有出风功能的体感模拟装置及体感模拟系统的技术效果为:由于采用了全身包裹的可穿戴本体,在可穿戴本体中设置了多个体感模拟组件,从而能够使用户全身各个区域都能够根据应用场景的需要产生对应的体感,而不仅仅是单一或个别身体部分接受刺激,大大提升了体感模拟的有效度和用户感受的真实度。同时,由于多个体感模拟组件均至少能够模拟出吹风效果,从而在进行风感刺激时,用户全身各个部位均能产生风感,从而提高了风感刺激的有效度。The technical effect of the somatosensory simulation device and the somatosensory simulation system having the air blowing function of the present invention is that a plurality of somatosensory simulation components are disposed in the wearable body by using the body-wrapable wearable body, thereby enabling the user to have various parts of the whole body. All can produce corresponding sense of body according to the needs of the application scene, and not only single or individual body parts receive stimulation, which greatly improves the effectiveness of the somatosensory simulation and the realism of the user experience. At the same time, since the plurality of somatosensory simulation components can at least simulate the air blowing effect, when the wind stimulation is performed, the wind feeling can be generated in all parts of the user body, thereby improving the effectiveness of the wind stimulation.
附图说明 DRAWINGS
图1为本发明的具有出风功能的体感模拟装置的正视图;Figure 1 is a front elevational view of a somatosensory simulation device having an air outlet function of the present invention;
图2为本发明的具有出风功能的体感模拟装置的后视图;Figure 2 is a rear elevational view of the somatosensory simulation device having an air outlet function of the present invention;
图3为本发明的具有出风功能的体感模拟装置与视频设备结合使用时的示意图;3 is a schematic view of a body feeling simulation device with an air outlet function in combination with a video device according to the present invention;
图4为本发明的具有出风功能的体感模拟装置的控制框图;4 is a control block diagram of a body feeling simulation device having an air blowing function according to the present invention;
图5为本发明的具有出风功能的体感模拟装置的可穿戴本体的另一实施方式的结构示意图;5 is a schematic structural view of another embodiment of a wearable body of a body feeling simulation device having an air outlet function according to the present invention;
图6为本发明的具有出风功能的体感模拟装置的体感模拟组件的结构示意图6 is a schematic structural view of a somatosensory simulation component of a body feeling simulation device having an air outlet function according to the present invention;
图7为本发明的具有出风功能的体感模拟装置的热感功能模块的结构示意图;7 is a schematic structural view of a thermal function module of a body feeling simulation device having an air outlet function according to the present invention;
图8为本发明的具有出风功能的体感模拟装置的冷感功能模块的结构示意图;8 is a schematic structural view of a cold sensing function module of a body feeling simulation device having an air blowing function according to the present invention;
图9为本发明的具有出风功能的体感模拟装置的气味功能模块的结构示意图;9 is a schematic structural view of an odor function module of a body feeling simulation device having an air outlet function according to the present invention;
图10为本发明的具有出风功能的体感模拟装置的压力功能模块的结构示意图;10 is a schematic structural view of a pressure function module of a body feeling simulation device having an air outlet function according to the present invention;
图11为本发明的具有出风功能的体感模拟装置的风感功能模块的结构示意图。FIG. 11 is a schematic structural view of a wind function module of a body feeling simulation device having an air blowing function according to the present invention.
具体实施方式detailed description
为了使本发明的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
请参阅图1至图4,并结合图6,下面对本发明的具有出风功能的体感模拟装置的实施例进行阐述。 Referring to FIG. 1 to FIG. 4, and in conjunction with FIG. 6, an embodiment of the somatosensory simulation device having the air blowing function of the present invention will be described below.
本实施例的具有出风功能的体感模拟装置100,可单独使用,也可结合视频设备200使用,如普通的家庭电视、电脑,或者佩戴VR/AR之类的视频设备200。其中,VR即为虚拟现实技术,其是一种可以创建和体验虚拟世界的计算机仿真系统,具体地,它是利用计算机生成一种模拟环境,而该模拟环境是一种多源信息融合的交互式的三维动态视景和实体行为的仿真系统,可使用户沉浸到该模拟环境中;AR,即为增强现实技术,它是一种实时地计算摄影机影像的位置及角度并加上相应图像、视频、3D模型的技术,这种技术的目标是在屏幕上把虚拟世界反映在现实世界并进行互动。The somatosensory simulation device 100 having the air blowing function of the present embodiment can be used alone or in combination with the video device 200, such as an ordinary home television, a computer, or a video device 200 such as a VR/AR. Among them, VR is virtual reality technology, which is a computer simulation system that can create and experience virtual world. Specifically, it uses computer to generate a simulation environment, which is a multi-source information fusion interaction. A three-dimensional dynamic view and physical behavior simulation system that allows users to immerse themselves in the simulation environment; AR, which is augmented reality technology, is a real-time calculation of the position and angle of the camera image plus the corresponding image, The technology of video and 3D models, the goal of this technology is to reflect the virtual world on the screen and interact with it in the real world.
该具有出风功能的体感模拟装置100包括可穿戴本体10、体感模拟组件20及控制单元30,下面对具有出风功能的体感模拟装置100的各部件作进一步说明:The body feeling simulation device 100 having the air blowing function includes a wearable body 10, a body feeling simulation component 20, and a control unit 30. Further description of each component of the body feeling simulation device 100 having an air outlet function will be further described below:
可穿戴本体10,用于包裹覆盖用户全身;其中,全身的含义是指身体的全部主要部分,包括但不限于通常的长袖上衣和长裤所覆盖的身体部分。包裹的含义不仅表示覆盖用户全身,且与用户全身大部分部位均接触,使用户获得被包围和触及的感觉,从而在用户接受设置在可穿戴本体10中体感模拟组件20的体感刺激时,用户感受的真实度提升;为了保证用户使用时的舒适性,较佳地,该可穿戴本体10采用弹性材料制备而成。The wearable body 10 is used to cover the entire body of the user; wherein the meaning of the whole body refers to all major parts of the body, including but not limited to the body parts covered by the usual long-sleeved tops and trousers. The meaning of the package not only means covering the whole body of the user, but also contacting most parts of the user's body, so that the user can get the feeling of being surrounded and touched, so that when the user accepts the somatosensory stimulation of the somatosensory simulation component 20 provided in the wearable body 10, the user The realism of the feeling is improved; in order to ensure the comfort of the user, the wearable body 10 is preferably made of an elastic material.
体感模拟组件20,用于根据预先设定的功能模拟体感,例如模拟触觉感觉,振动感觉,加热感觉等;其中,体感模拟组件20有多个,均设置在可穿戴本体10的不同位置上,而要说明一下,多个即为大于或等于两个,设置的含义是指位于可穿戴本体10上,与可穿戴本体10有接触,同时,可以与可穿戴本体10连接,也可以不连接。每一个体感模拟组件20都是由多个功能模块组成,从而能够在一个位置同时模拟出多种体感。那么,由于在可穿戴本体10上对应用户的背部、胸前、腰部、腿部、手部、颈部等位置处设置体感模拟组件20,据此,可以通过不同位置具有相同或不同功能的体感模拟组件20在用户身体的不同位置模拟出一种或多种体感;较佳地,每个体感模拟组件 20至少包括用于产生风吹感觉的风感功能模块28,以可使用户至少感受到风吹的体感刺激,而借由风感功能模块28,可实现某些场景的吹风感,由此,既可扩展体感模拟装置100的应用范围,又能提高用户的体验感。The somatosensory simulation component 20 is configured to simulate a somatosensory function according to a preset function, such as a simulated tactile sensation, a vibration sensation, a heating sensation, etc., wherein a plurality of the somatosensory simulation components 20 are disposed at different positions of the wearable body 10, It should be noted that a plurality of them are greater than or equal to two, and the meanings of the settings are that they are located on the wearable body 10 and are in contact with the wearable body 10, and may or may not be connected to the wearable body 10. Each of the individual sense simulation components 20 is composed of a plurality of functional modules, thereby enabling simultaneous simulation of multiple body senses in one location. Then, since the body feeling simulation component 20 is disposed on the wearable body 10 at positions corresponding to the user's back, chest, waist, legs, hands, neck, etc., according to this, the body feelings having the same or different functions can be obtained through different positions. The simulation component 20 simulates one or more body sensations at different locations on the user's body; preferably, each body sensation simulation component 20 includes at least a wind-sensing function module 28 for generating a wind-sensing feeling, so that the user can at least feel the body-sounding stimulation of the wind, and the wind-sensing function module 28 can realize the feeling of blowing of some scenes, thereby The application range of the somatosensory simulation device 100 can be expanded, and the user experience can be improved.
控制单元30,用于控制体感模拟组件20按照所述预先设定的功能模拟体感;例如,控制位于胸部和手部的体感模拟组件20模拟出痛感功能,或控制位于手部的体感模拟组件20模拟出风吹的感觉,控制位于脚部的体感模拟组件20模拟出湿润的感觉。其中,控制单元30设置在可穿戴本体10上,且分别与每个体感模拟组件20电连接。另外,该控制单元30也可与视频设备200连接,以使用户在非刺激的情况下,其感官可同步感受到虚拟场景的内容。The control unit 30 is configured to control the somatosensory simulation component 20 to simulate the body sense according to the preset function; for example, control the somatosensory simulation component 20 located in the chest and the hand to simulate the pain sense function, or control the somatosensory simulation component 20 located in the hand. Simulating the feeling of wind blowing, controlling the somatosensory simulation component 20 located at the foot simulates the feeling of wetness. The control unit 30 is disposed on the wearable body 10 and electrically connected to each of the somatosensory analog components 20 respectively. In addition, the control unit 30 can also be connected to the video device 200 so that the user can feel the content of the virtual scene in a non-stimulated manner.
具体的,控制单元可以采用单层次的模式,即控制单元直接控制每个体感模拟组件;也可以采用多层次的模式,控制单元包括控制主单元与控制子单元,控制主单元与控制子单元进行有线或无线的通信连接,控制子单元再对应的控制体感模拟组件。控制单元的具体架构可以基于MCU、FPGA或其他芯片搭建。体感模拟组件包括的多个功能模块具体可以采用各类功能传感器或者其他构件来实现。Specifically, the control unit may adopt a single-level mode, that is, the control unit directly controls each of the somatosensory analog components; or a multi-level mode, the control unit includes a control main unit and a control sub-unit, and the control main unit and the control sub-unit perform A wired or wireless communication connection, the control sub-unit corresponding to the control somatosensory analog component. The specific architecture of the control unit can be built on an MCU, FPGA or other chip. The plurality of functional modules included in the somatosensory analog component can be implemented by various types of functional sensors or other components.
因此,控制单元30分别与每个体感模拟组件20电连接,用于向一个或多个体感模拟组件20发出一种或多种的控制指令。即:控制单元30在不同的场景或需求下,可以选择性地给一个或多个位置的体感模拟组件20发出一种或多种指令,可以同一种指令给多个体感模拟组件,也可以不同的体感模拟组件20得到不同的指令,甚至是同一个体感模拟组件20得到不同的指令来使得其中的不同模块执行不同的指令。Accordingly, control unit 30 is electrically coupled to each of somatosensory analog components 20 for issuing one or more control commands to one or more of somatosensory analog components 20. That is, the control unit 30 may selectively issue one or more instructions to the somatosensory analog component 20 of one or more locations under different scenarios or requirements, and may apply the same command to multiple somatosensory analog components, or may be different. The somatosensory analog component 20 gets different instructions, even the same individual sense emulation component 20 gets different instructions to cause different modules to execute different instructions.
在上述实施例中,由于采用全身包裹用户的可穿戴本体10,以及在可穿戴本体10上设置多个体感模拟组件20,从而能够使用户全身各个区域都能够根据应用场景的需要产生对应的体感,而不仅仅是单一或个别身体部分接受刺激,大大提升了体感模拟的有效度和用户感受的真实度。同时,由于多个体感模拟组件20均至少能够模拟出吹风效果,以可使用户身体各个部分均能根据 需求感受到风吹的体感刺激,保证了用户对于风感的要求及真实体验。In the above embodiment, since the wearable body 10 of the whole body is wrapped, and the plurality of somatosensory simulation components 20 are disposed on the wearable body 10, the respective body parts of the user can be generated according to the needs of the application scene. Not only the single or individual body parts receive the stimulation, but also greatly enhances the effectiveness of the somatosensory simulation and the realism of the user's feelings. At the same time, since the plurality of somatosensory analog components 20 can at least simulate the blowing effect, so that all parts of the user's body can be The demand feels the somatosensory stimulation of the wind, ensuring the user's requirements for the wind and the real experience.
同时,各个的体感模拟组件20模拟出来的风感的程度是可以调节的。例如,在模拟靠近强风的场景下,对用户头部的体感模拟组件20的风感刺激强度设置较大,以使用户头部感觉到较强的风感,而对用户腿部的体感模拟组件20的风感刺激强度对应设置得较小,用户腿部感觉到较弱的风感。At the same time, the degree of wind sensation simulated by each of the somatosensory simulation components 20 can be adjusted. For example, in a scene simulating a strong wind, the wind stimulation intensity of the somatosensory simulation component 20 of the user's head is set to be large, so that the user's head feels a strong wind feeling, and the body feeling simulation component of the user's leg. The wind stimulation intensity of 20 is set to be relatively small, and the user's leg feels a weak wind feeling.
请参阅图11,作为本发明的另一优选实施例,其结合上述实施例的实施方式,且在本实施例中,风感功能模块28包括风感功能电路板281、设于风感功能电路板281上并与风感功能电路板281电连接以向用户吹送气流的气流产生器282、及设于可穿戴本体10上以供由气流产生器282产生的气流送至用户身体的通风结构(图中未标示)。Referring to FIG. 11 , as another preferred embodiment of the present invention, in combination with the embodiments of the foregoing embodiments, and in this embodiment, the wind function module 28 includes a wind function circuit board 281 and a wind function circuit. An airflow generator 282 on the board 281 and electrically connected to the wind function circuit board 281 to blow air to the user, and a ventilation structure provided on the wearable body 10 for airflow generated by the airflow generator 282 to be sent to the user's body ( Not shown in the figure).
其中,该风感功能电路板281可采用柔性电路板、刚性电路板或刚柔结合电路板,且风感功能电路板281与控制单元30电连接。The wind function circuit board 281 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the wind function circuit board 281 is electrically connected to the control unit 30.
气流产生器282为风扇,而且该风扇为微型风扇,以可借由其微型化结构,减少空间的占用,以及有利于携带,并便于安装设置;同时地,微型风扇的长度尺寸范围为8mm-20mm,宽度尺寸范围为8mm-20mm,高度尺寸范围为2mm-5mm,而较佳地,其长宽高的优选尺寸为10mm×10mm×3mm。The airflow generator 282 is a fan, and the fan is a micro fan, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and at the same time, the micro fan has a length range of 8 mm- 20 mm, the width dimension ranges from 8 mm to 20 mm, and the height dimension ranges from 2 mm to 5 mm, and preferably, the preferred dimension of the length, width and height is 10 mm × 10 mm × 3 mm.
通风结构包括设于可穿戴本体10上且与气流产生器282连通的通路。The venting structure includes a passageway disposed on the wearable body 10 and in communication with the airflow generator 282.
据此,当用户遇到吹风的场景时,控制单元30会通过风感功能电路板281控制气流产生器282工作,而气流产生器282启动后,其会产生气流,并会通过可穿戴本体10上的通路将气流风送到指定的部位,以使用户体验风感刺激,整个操作过程简单方便。Accordingly, when the user encounters a scene of blowing, the control unit 30 controls the operation of the airflow generator 282 through the wind function circuit board 281, and after the airflow generator 282 is activated, it generates airflow and passes through the wearable body 10. The upper passage sends the airflow to the designated location, so that the user can experience the wind stimulation, and the whole operation process is simple and convenient.
请参阅图5,作为本发明的另一优选实施例,其中,本实施例中的可穿戴本体10的优选实施方式为,其包括具有包络状且可包裹用户全身的织物11a、及涂覆于织物11a内侧且具有透气功能的透气性内层12a,多个体感模拟组件20均设于透气性内层12a上。Referring to FIG. 5, as another preferred embodiment of the present invention, a preferred embodiment of the wearable body 10 in the present embodiment includes a fabric 11a having an envelope shape and covering the entire body of the user, and coating. A gas permeable inner layer 12a having a gas permeable function inside the fabric 11a is provided on the gas permeable inner layer 12a.
较佳地,织物11a主要由高强纱线并采用经纬编织而成,以使织物11a 上具有多个针织网孔结构,保证其透气性。而且,为了保证织物11a良好地使用,该织物11a包括较大透气结构、及相较于较大透气结构的透气性弱的较小透气结构,具体地,织物11a的较大透气结构为利用经编或纬编良好的柔性和伸展性特点,织物11a的较大透气结构处具有单层网孔较大的结构,如,形成集圈组织或网眼组织,该类结构透气性好,而织物11a的较大透气结构所采用的材料为锦纶、涤纶或氨纶;至于织物11a的较小透气结构,由于其织物11a走线的地方变形要求小,透气的要求需小,因此只需用紧密度的材料便可实现,而织物11a的较小透气结构所采用的材料也为锦纶、涤纶或氨纶。此外,织物11a还包括面内通风结构,以用于织物11a面内通热风或冷风;较佳地,该面内通风结构优选采用间隔织物(以纬编间隔织物为主),这是由于两面织物结构紧密度不同,两面织物由中间的间隔丝连接,而间隔丝的密度很小,通风效果很好,这类织物很适合做通冷热风的效果,该类织物用在VR部分游戏场景时,例如滑雪时,迎面吹来寒冷刺骨的风,可以通过在该面料的一面接入通冷风的喷嘴,就可以模拟出真实的冷风效果。Preferably, the fabric 11a is mainly made of high-strength yarn and weaved by warp and weft so that the fabric 11a It has a plurality of knitted mesh structures to ensure its gas permeability. Moreover, in order to ensure good use of the fabric 11a, the fabric 11a comprises a relatively large gas permeable structure, and a relatively small gas permeable structure which is weak compared to the larger gas permeable structure. Specifically, the larger gas permeable structure of the fabric 11a is utilized. The knitting or weft knitting has good flexibility and stretch characteristics, and the larger ventilating structure of the fabric 11a has a single-layer mesh structure, for example, forming a tuck tissue or a mesh structure, and the structure has good air permeability, and the fabric 11a The material used for the larger gas permeable structure is nylon, polyester or spandex; as for the smaller gas permeable structure of the fabric 11a, the requirements for the deformation of the fabric 11a are small, and the requirements for the ventilation are small, so only the tightness is required. The material can be realized, and the material of the smaller gas permeable structure of the fabric 11a is also nylon, polyester or spandex. In addition, the fabric 11a further includes an in-plane ventilation structure for passing hot air or cold air in the surface of the fabric 11a; preferably, the in-plane ventilation structure is preferably a spacer fabric (mainly weft-woven fabric), which is due to both sides. The tightness of the fabric structure is different, the two fabrics are connected by the intermediate spacer wires, and the density of the spacer filaments is small, and the ventilation effect is very good. Such fabrics are very suitable for the effect of cold and hot air, and the fabrics are used in the VR part game scene. At the time of skiing, for example, when the wind blows cold and biting wind, the real cold air effect can be simulated by inserting a cold air nozzle on one side of the fabric.
透气性内层12a的材料优选为凝胶,以保证其亲肤性及透气性。凝胶又名冻胶,它是一种介于液体和固体之间的具有一种特殊弹性的半固体状态的稠厚物质,它的形成过程是将蛋白、酶、重组蛋白、抗体、核酸等生物分子,经过数万次的测定实验和十五个层析及纯化,最终提炼出一种类似人类皮肤特定结果物质的一种物体。当然,这种物质提炼制作的过程非常复杂,它是由植物提取分子组成于天然精油利用水可再生性能衍生复合材料相结合而成。此外,凝胶是液体中的固体,它特殊的触感是其他材料所无法比拟的,透气、恒温、防虫、防螨以及高粘弹性和通风透气性让它成为了稀有物质,这种具有与人体皮肤极为相似属性的物质更被人们冠以“人造皮肤”的美誉。The material of the gas permeable inner layer 12a is preferably a gel to ensure its skin-friendliness and gas permeability. Gel, also known as jelly, is a thick substance with a special elasticity between a liquid and a solid. It is formed by the process of protein, enzyme, recombinant protein, antibody, nucleic acid, etc. Biomolecules, after tens of thousands of assays and fifteen chromatography and purification, ultimately extract an object that resembles a specific result substance of human skin. Of course, the process of refining this material is very complicated. It is a combination of plant extracting molecules and natural essential oils using water regenerative properties derived composite materials. In addition, the gel is a solid in liquid, its special touch is unmatched by other materials. Breathing, constant temperature, insect proof, anti-mite and high viscoelasticity and ventilation and permeability make it a rare substance. Substances with very similar properties to the skin are known as "artificial skin".
请参阅图1和图2,在本发明的另一优选实施例中,可穿戴本体10包括可包裹人体躯干和四肢的衣服11,即包括包裹躯干和全部手臂的上衣部分12和包裹全部腿部的裤子部分13,换言之,该可穿戴本体11可以包括长袖上衣 和长裤,也可以是包括长袖和长裤的连体衣服,从而使得用户身体的各个部分均能接受相关体感刺激模拟相关体感,提高了体感模拟的真实度和用户的体验感。Referring to Figures 1 and 2, in another preferred embodiment of the present invention, the wearable body 10 includes a garment 11 that wraps the torso and limbs of the human body, i.e., includes a garment portion 12 that wraps the torso and all of the arms and wraps all of the legs. Pants portion 13 , in other words, the wearable body 11 may include a long sleeve shirt And trousers, can also be a piece of clothing including long sleeves and trousers, so that all parts of the user's body can receive the relevant somatosensory stimulation to simulate the relevant body feeling, improve the realism of the somatosensory simulation and the user's experience.
请参阅图1和图2,在本发明的另一优选实施例中,可穿戴本体10为包括用以包裹用户的躯干和四肢的衣服11、与衣服11相连以包裹用户手部的手套14、以及与衣服11相连以包裹用户脚部的脚套15,相当于,可穿戴本体10为由衣服11、手套14及脚套15组成的连体衣服。即,不仅一般用户的全身的所有主要部分均被包裹,此外还包括手和脚的部分也被包裹,使得手和脚能够和身体其他部分同时接受相同或不同的体感刺激,进一步提升体感模拟的真实感。而且,优选的情况下,包括带有手套14和脚套15的衣服是一体的连体衣服的形式,能够提供更好的体感模拟的真实性,本领域技术人员也应当能够想到,采用手套14和脚套15与衣服分体的形式也能够实现本发明实施例。Referring to FIG. 1 and FIG. 2, in another preferred embodiment of the present invention, the wearable body 10 is a garment 11 including a torso and limbs for wrapping a user, and a glove 14 connected to the garment 11 to wrap the user's hand. And the foot cover 15 connected to the clothes 11 to wrap the user's foot. The wearable body 10 is a piece of clothing composed of the clothes 11, the glove 14 and the foot cover 15. That is, not only the main parts of the general user's whole body are wrapped, but also the parts including the hands and feet are also wrapped, so that the hands and feet can simultaneously receive the same or different somatosensory stimulations with other parts of the body, further enhancing the somatosensory simulation. Realism. Moreover, preferably, the garment comprising the glove 14 and the foot cover 15 is in the form of an integral piece of garment that provides a better sense of somatosensory simulation, and those skilled in the art will also appreciate the use of gloves 14 Embodiments of the invention can also be implemented in the form of splits of the foot cover 15 and the garment.
请参阅图1和图2,在本发明的另一优选实施例中,可穿戴本体10包括用以包裹用户的躯干和四肢的衣服11、以及用以包裹用户头部的帽子16,相当于,可穿戴本体10为由衣服11、及帽子16组成的连体衣服。由此,使得用户的头部也能够与身体同时接受相同或不同的体感刺激,进一步提升用户体感模拟的真实感。Referring to FIG. 1 and FIG. 2, in another preferred embodiment of the present invention, the wearable body 10 includes a garment 11 for wrapping a torso and limbs of a user, and a hat 16 for wrapping a user's head. The wearable body 10 is a one-piece garment composed of the garment 11 and the hat 16. Thereby, the user's head can also receive the same or different somatosensory stimulations with the body at the same time, further improving the realism of the user's somatosensory simulation.
请参阅图1和图2,在本发明的另一优选实施例中,可穿戴本体10包括用以包裹用户的躯干和四肢的衣服11、与衣服11相连以包裹用户手部的手套14、与衣服11相连以包裹用户脚部的脚套15、以及与衣服相连以包裹用户头部的帽子16,相当于,可穿戴本体10为由衣服11、手套14、脚套15及帽子16组成的连体衣服。可理解地,不仅一般用户的全身的所有主要部分均被包裹,此外还包括手、脚及头的部分也被包裹,使得手、脚及头能够和身体其他部分同时接受相同或不同的体感刺激,进一步提升体感模拟的真实感。Referring to Figures 1 and 2, in another preferred embodiment of the present invention, the wearable body 10 includes a garment 11 for wrapping the torso and limbs of the user, a glove 14 attached to the garment 11 to wrap the user's hand, and The clothes 11 are connected to cover the foot cover 15 of the user's foot, and the hat 16 connected to the clothes to wrap the user's head. Correspondingly, the wearable body 10 is a combination of the clothes 11, the gloves 14, the foot cover 15 and the hat 16. Body clothes. Understandably, not only the main parts of the general user's whole body are wrapped, but also the parts including the hands, feet and head are also wrapped, so that the hands, feet and heads can receive the same or different somatosensory stimulations simultaneously with other parts of the body. To further enhance the realism of somatosensory simulation.
在本发明的以上实施例中,优选地,每个体感模拟组件20和每个控制单元30均为可拆卸的。那么,在需要调整体感模拟组件20和和控制单元30的 位置时,能够进行灵活的调整,扩大本发明的具有出风功能的体感模拟装置100的适用范围,并节省了成本。In the above embodiments of the present invention, preferably, each of the somatosensory analog components 20 and each of the control units 30 are detachable. Then, in the need to adjust the somatosensory analog component 20 and the control unit 30 In the position, it is possible to flexibly adjust and expand the range of application of the body feeling simulation device 100 having the air blowing function of the present invention, and the cost is saved.
请再参阅图1和图2,在本发明的另一优选实施例中,可穿戴本体10与用户全身均紧密接触。例如采用紧身衣的模式,进一步加强了可穿戴本体10与用户全身的贴合度,在体感模拟组件20对用户身体各部分实施体感刺激时,体感模拟更加有效,用户体验更加真实。Referring again to Figures 1 and 2, in another preferred embodiment of the present invention, the wearable body 10 is in intimate contact with the user. For example, the pattern of the tights further enhances the fit of the wearable body 10 to the entire body of the user. When the somatosensory simulation component 20 performs somatosensory stimulation on various parts of the user's body, the somatosensory simulation is more effective and the user experience is more realistic.
请参阅图4,在本发明另一优选实施例中,控制单元30与每个体感模拟组件20的电连接的具体实现方式为,控制单元30与每个体感模拟组件20直接通过电路连接,即,控制单元30与每个体感模拟组件20之间设有电线,以实现直接的电连接,简化结构,并有利于实施控制。Referring to FIG. 4, in another preferred embodiment of the present invention, a specific implementation manner of the electrical connection between the control unit 30 and each of the somatosensory analog components 20 is that the control unit 30 is directly connected to each of the somatosensory analog components 20, that is, Electrical wires are provided between the control unit 30 and each of the somatosensory analog components 20 to achieve a direct electrical connection, simplify the structure, and facilitate control.
优选地,控制单元30可以是一个或多个,在控制单元30多个的情况下,控制单元30包括一个主控制单元和若干从控制单元,一个主控制单元与所有若干从控制单元电连接,若干从控制单元与对应的体感模拟部件直接电连接。Preferably, the control unit 30 may be one or more. In the case of multiple control units 30, the control unit 30 includes one main control unit and several slave control units, one main control unit being electrically connected to all of the plurality of slave control units. A number of slave control units are electrically coupled directly to corresponding somatosensory analog components.
在本发明的另一优选实施例中,控制单元30与每个体感模拟组件20的电连接为:控制单元30与一部分体感模拟组件20直接连接,并与剩余部分的体感模拟组件20间接连接,其中间接连接通过一部分体感模拟组件20与剩余部分的体感模拟组件20的直接连接实现。例如,控制单元30与胸部的体感模拟组件20直接通过导线电连接,胸部的体感模拟组件20直接通过导线与肩部的体感模拟组件20电连接,以此实现控制单元30与肩部的体感模拟组件20的电连接。In another preferred embodiment of the present invention, the electrical connection between the control unit 30 and each of the somatosensory analog components 20 is such that the control unit 30 is directly connected to a portion of the somatosensory analog component 20 and indirectly connected to the remaining portion of the somatosensory analog component 20, The indirect connection is achieved by a direct connection of a portion of the somatosensory analog component 20 to the remaining portion of the somatosensory analog component 20. For example, the control unit 30 is electrically connected directly to the somatosensory analog component 20 of the chest through a wire, and the somatosensory analog component 20 of the chest is directly electrically connected to the somatosensory analog component 20 of the shoulder through the wire, thereby realizing the somatosensory simulation of the control unit 30 and the shoulder. Electrical connection of assembly 20.
在以上实施例中,优选地,控制单元30可以是一个或多个,在控制单元30多个的情况下,控制单元30包括一个主控制单元和若干从控制单元,一个主控制单元与所有若干从控制单元直接或间接电连接,若干从控制单元与对应的体感模拟部件直接或间接电连接,从而能够节约整个具有出风功能的体感模拟装置100中电连接使用的导线长度,简化了具有出风功能的体感模拟装置100的结构,并减少了由于导线故障引起的故障率。 In the above embodiment, preferably, the control unit 30 may be one or more. In the case of multiple control units 30, the control unit 30 includes one main control unit and several slave control units, one main control unit and all Directly or indirectly electrically connected from the control unit, a plurality of slave control units are electrically connected directly or indirectly to the corresponding body-sensing analog components, thereby saving the length of the wires used for electrical connection in the entire body-sensing device 100 having the air-discharging function, simplifying the The wind-sensing somatosensory simulates the structure of the device 100 and reduces the failure rate due to wire failure.
请参阅图6,作为本发明的另一优选实施例,其结合上述实施例的实施方式,且在本实施例中,体感模拟组件20包括振动功能模块21、触感功能模块22、及痛感功能模块23,下面对体感模拟组件20的各功能模块进行详细说明:Referring to FIG. 6, as another preferred embodiment of the present invention, in combination with the embodiments of the foregoing embodiments, and in the embodiment, the somatosensory analog component 20 includes a vibration function module 21, a tactile function module 22, and a pain function module. 23, the following describes the functional modules of the somatosensory analog component 20 in detail:
振动功能模块21为用于产生体表振动刺激,以使用户身体受到按摩或振动,较佳地,该振动功能模块21包括体表震动功能电路板、及设于体表震动功能电路板上并与体表震动功能电路板电连接的体表震动元件,其中,该体表震动功能电路板可采用柔性电路板、刚性电路板或刚柔结合电路板,且体表震动功能电路板与控制单元30电连接;而体表震动元件采用有规律的长时间振动元件,以此保证可实现不同频率、不同时间间隔、不同持续时间的震动组合方式,并且保证可在不同震动场合实施工作;The vibration function module 21 is configured to generate a body surface vibration stimulus to massage or vibrate the user's body. Preferably, the vibration function module 21 includes a body surface vibration function circuit board and a surface vibration function circuit board. a surface vibration component electrically connected to the surface vibration function circuit board, wherein the surface vibration function circuit board can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the surface vibration function circuit board and the control unit 30 electrical connection; while the surface vibration component uses regular long-term vibration components, so as to ensure that vibration combinations of different frequencies, different time intervals and different durations can be realized, and the work can be carried out in different vibration occasions;
触感功能模块22为用于产生触觉刺激,通过刺激用户的感知部位,以使用户触觉反馈,较佳地,该触感功能模块22包括触觉震动功能电路板、及设于触觉震动功能电路板上并与触觉震动功能电路板电连接的触觉震动元件,其中,该触觉震动功能电路板可采用柔性电路板、刚性电路板或刚柔结合电路板,且触觉震动功能电路板与控制单元30电连接;而触觉震动元件采用震动时间短且可产生不同震动强度的振动元件,以实现不同的震动强度及持续时间,据此,若将触感功能模块22放在可穿戴本体10中裹覆用户手指末端的位置处或者其他感知部位的位置处,即可实现触觉反馈,如使用户感受到触碰、拿物体、射箭反馈等;The haptic function module 22 is configured to generate a tactile stimuli by stimulating the user's sensation part to make the user haptic feedback. Preferably, the haptic function module 22 includes a tactile vibration function circuit board and is disposed on the tactile vibration function circuit board. a tactile vibration component electrically connected to the tactile vibration function circuit board, wherein the tactile vibration function circuit board can adopt a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the tactile vibration function circuit board is electrically connected to the control unit 30; The tactile vibration component uses a vibrating component that has a short shaking time and can generate different vibration intensities to achieve different vibration intensities and durations. Accordingly, if the tactile function module 22 is placed in the wearable body 10, the end of the user's finger is wrapped. At the position of the position or other sensing parts, tactile feedback can be realized, such as making the user feel the touch, the object, the archery feedback, etc.;
痛感功能模块23为用于产生无创伤痛刺激,以使用户受到无创伤刺痛感,较佳地,该痛感功能模块23包括刺痛功能电路板、及设于刺痛功能电路板上并与刺痛功能电路板电连接以通过电击而使用户感受刺痛感的电击器,其中,该刺痛功能电路板可采用柔性电路板、刚性电路板或刚柔结合电路板,且刺痛功能电路板与控制单元30电连接;而通过电击器可实现不同的强度、不同的脉冲间隔、不同的刺激频率,据此,可以仿真不同的强烈短时间刺激,比如枪击、重物击中。 The pain function module 23 is for generating a non-traumatic pain stimulation, so that the user is subjected to a non-invasive tingling sensation. Preferably, the pain function module 23 includes a tingling function circuit board and is disposed on the tingle function circuit board and The stinging function circuit board is electrically connected to the electric shock device that makes the user feel a tingling feeling by electric shock, wherein the stinging function circuit board can adopt a flexible circuit board, a rigid circuit board or a rigid-flexible circuit board, and the stinging function circuit The board is electrically connected to the control unit 30; and different strengths, different pulse intervals, and different stimulation frequencies can be achieved by the electric shock device, whereby different intense short-term stimuli such as shooting and heavy hits can be simulated.
请参阅图7,作为本发明的另一优选实施例,其结合上述实施例的实施方式,且在本实施例中,体感模拟组件20还包括用于产生热刺激的热感功能模块24,以使用户身体部分感受到热触感。而借由热感功能模块24,可实现某些场景的热触感,比如突然创伤流血、突然接触火焰等,由此,既可扩展具有出风功能的体感模拟装置100的应用范围,又能提高用户的体验感。Referring to FIG. 7, as another preferred embodiment of the present invention, in combination with the embodiments of the above embodiments, and in the embodiment, the somatosensory analog component 20 further includes a thermal sensing function module 24 for generating thermal stimulation, Make the user's body part feel the hot touch. The thermal sensing function module 24 can realize the thermal touch of certain scenes, such as sudden traumatic bleeding, sudden contact with the flame, etc., thereby expanding the application range of the body feeling simulation device 100 having the air blowing function, and improving User experience.
而为了使到热感功能模块24简化结构,并便于安装于可穿戴本体10上,较佳地,热感功能模块24包括热感功能电路板241、及设于热感功能电路板241上并与热感功能电路板241电连接的石墨烯242。In order to simplify the structure of the thermal function module 24 and facilitate mounting on the wearable body 10, preferably, the thermal function module 24 includes a thermal function circuit board 241 and is disposed on the thermal function circuit board 241. Graphene 242 electrically connected to the thermal function circuit board 241.
其中,该热感功能电路板241可采用柔性电路板、刚性电路板或刚柔结合电路板,且热感功能电路板241与控制单元30电连接。The thermal function circuit board 241 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the thermal function circuit board 241 is electrically connected to the control unit 30.
至于石墨烯242,由于其具有发热速度快、散热速度快、以及可以精确控制温度范围的优点,故此,有利于实现远红外发热治疗,并同时减少烫伤的发生;而且较佳地,石墨烯242可采用片状结构,亦可采用薄膜状结构,以便于安装设置;当然,亦可根据实际情况,采用金属发热丝代替石墨烯242,以利于降低生产成本。As for the graphene 242, since it has the advantages of high heat generation speed, high heat dissipation speed, and precise temperature range control, it is advantageous to realize far infrared heat treatment and at the same time reduce the occurrence of burns; and preferably, graphene 242 The sheet structure can be used, or the film structure can be used to facilitate the installation; of course, the metal heating wire can be used instead of the graphene 242 according to the actual situation, so as to reduce the production cost.
据此,当用户遇到火焰的场景时,控制单元30会通过热感功能电路板241控制石墨烯242工作,而石墨烯242工作后,其会快速产生热量,以使用户体验热感刺激,整个操作过程简单方便。Accordingly, when the user encounters a scene of a flame, the control unit 30 controls the operation of the graphene 242 through the thermal function circuit board 241, and after the graphene 242 operates, it rapidly generates heat to allow the user to experience thermal stimulation. The entire operation process is simple and convenient.
请参阅图8,作为本发明的另一优选实施例,其结合上述实施例的实施方式,且在本实施例中,体感模拟组件20还包括用于产生冷刺激的冷感功能模块25,以使用户身体部分感受到冷触感。借由冷感功能模块25,可实现某些场景的冰触感,比如碰到冰,由此,既可扩展具有出风功能的体感模拟装置100的应用范围,又能提高用户的体验感。Referring to FIG. 8, as another preferred embodiment of the present invention, in combination with the embodiments of the above embodiments, and in the embodiment, the somatosensory analog component 20 further includes a cold sensing function module 25 for generating cold stimulation, Make the user's body feel a cold touch. The cold touch function module 25 can realize the ice touch of some scenes, such as ice, thereby expanding the application range of the body feeling simulation device 100 having the air blowing function and improving the user experience.
而为了使到冷感功能模块25简化结构,并便于安装于可穿戴本体10上,较佳地,冷感功能模块25包括冷感功能电路板251、及设于冷感功能电路板251上并与冷感功能电路板251电连接的半导体252。 In order to simplify the structure of the cold sensing function module 25 and to facilitate mounting on the wearable body 10, preferably, the cold sensing function module 25 includes a cold sensing function circuit board 251 and is disposed on the cold sensing function circuit board 251. A semiconductor 252 electrically connected to the cold sensing function circuit board 251.
其中,该冷感功能电路板251可采用柔性电路板、刚性电路板或刚柔结合电路板,且冷感功能电路板251与控制单元30电连接。The cooling function circuit board 251 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the cold sensing function circuit board 251 is electrically connected to the control unit 30.
至于半导体252,将其作为特种冷源,在技术应用上具有以下的优点和特点:As for the semiconductor 252, as a special cold source, it has the following advantages and features in technical applications:
1、不需要任何制冷剂,可连续工作,没有污染源没有旋转部件,不会产生回转效应,没有滑动部件是一种固体片件,工作时没有震动、噪音、寿命长,安装容易。1. No refrigerant is needed, it can work continuously. There is no rotating source, no rotating parts, no turning effect. No sliding parts are solid pieces. There is no vibration, noise, long life and easy installation.
2、半导体252具有两种功能:一为能制冷,二为加热。制冷效率一般不高,但制热效率很高,永远大于1。因此,使用一个片件就可以代替分立的加热系统和制冷系统。2. The semiconductor 252 has two functions: one for cooling and the other for heating. The cooling efficiency is generally not high, but the heating efficiency is very high, always greater than 1. Therefore, a separate heating system and refrigeration system can be used with one piece.
3、半导体252是电流换能型片件,通过输入电流的控制,可实现高精度的温度控制,再加上温度检测和控制手段,很容易实现遥控、程控、计算机控制,便于组成自动控制系统。3. The semiconductor 252 is a current-transducing type piece. Through the control of the input current, high-precision temperature control can be realized. Together with the temperature detection and control means, it is easy to realize remote control, program control and computer control, and it is convenient to form an automatic control system. .
4、半导体252热惯性非常小,制冷制热时间很快,在热端散热良好冷端空载的情况下,通电不到一分钟,制冷片就能达到最大温差。4, semiconductor 252 thermal inertia is very small, cooling and heating time is very fast, in the case of good heat dissipation at the cold end cold end no load, the power can be less than one minute, the cooling sheet can reach the maximum temperature difference.
5、半导体252的反向使用就是温差发电,而且,其一般适用于中低温区发电。5. The reverse use of the semiconductor 252 is temperature difference power generation, and it is generally suitable for power generation in the middle and low temperature regions.
6、半导体252的单个制冷元件对应的功率较小,而要获取较大功率时,可以采用多个同类型的制冷元件并通过电堆串、并联的方法使其组合成电堆,以形成制冷系统,由此,便可以获得较大功率的半导体252。而此种结构特征,也使到半导体252的制冷功率可以做到几毫瓦到上万瓦的范围。6. The single cooling element of the semiconductor 252 has a relatively small power, and when a large power is to be obtained, a plurality of cooling elements of the same type may be used and combined into a stack by a stack or parallel connection to form a refrigeration. The system, whereby a larger power semiconductor 252 can be obtained. This structural feature also enables the cooling power of the semiconductor 252 to be in the range of a few milliwatts to tens of thousands of watts.
7、半导体252的温差范围大,从正温90℃到负温度130℃都可以实现。7. The temperature difference of the semiconductor 252 is large, and can be realized from a positive temperature of 90 ° C to a negative temperature of 130 ° C.
同时地,半导体252可优先采用片状结构,以便于安装设置。Simultaneously, the semiconductor 252 can preferentially adopt a sheet structure to facilitate mounting settings.
在实际使用时,可附加散热片和散热风扇,以提高整体的制冷效果。In actual use, a heat sink and a cooling fan can be added to improve the overall cooling effect.
据此,当用户遇到寒冰的场景时,控制单元30会通过冷感功能电路板251控制半导体252工作,而半导体252工作后,其会产生冷源,以使用户体验冷 感刺激,整个操作过程简单方便。Accordingly, when the user encounters a scene of ice, the control unit 30 controls the operation of the semiconductor 252 through the cold sensing function circuit board 251, and after the semiconductor 252 operates, it generates a cold source to make the user experience cold. Sensitive, the whole process is simple and convenient.
请参阅图9,作为本发明的另一优选实施例,其结合上述实施例的实施方式,且在本实施例中,体感模拟组件20还包括用于产生气味刺激的气味功能模块26,以使用户闻到气味。借由气味功能模块26,可实现某些特定香味场景,由此,既可扩展具有出风功能的体感模拟装置100的应用范围,又能提高用户的体验感。Referring to FIG. 9, as another preferred embodiment of the present invention, in combination with the embodiments of the above embodiments, and in the present embodiment, the somatosensory analog component 20 further includes an odor function module 26 for generating odor stimuli, so that The user smells the smell. By the odor function module 26, certain specific fragrance scenes can be realized, thereby expanding the application range of the body feeling simulation device 100 having the air blowing function and improving the user experience.
而为了使到气味功能模块26简化结构,并便于安装于可穿戴本体10上,较佳地,气味功能模块26包括气味功能电路板261、设于气味功能电路板261上并与气味功能电路板261电连接且可组合出多种香味的气味源262、及设于气味功能电路板261上并与气味功能电路板261电连接以将气味源262产生的气味引送至用户嗅觉的气味引流器263。In order to simplify the structure of the odor function module 26 and facilitate mounting on the wearable body 10, preferably, the scent function module 26 includes an odor function circuit board 261, is disposed on the scent function circuit board 261, and is coupled to the scent function circuit board. 261 is electrically connected and can be combined with a plurality of flavored scent sources 262, and an odor filter disposed on the scent function circuit board 261 and electrically connected to the scent function circuit board 261 to direct the odor generated by the scent source 262 to the user's sense of smell. 263.
其中,气味功能模块26还包括一具有包络状结构以供部件固定设置的壳体,气味功能电路板261和气味源262均设于该壳体内部,以受到该壳体的包裹保护;同时,该壳体可采用塑料制备,以减轻其重量。Wherein, the odor function module 26 further includes a housing having an envelope structure for fixing the components, and the scent function circuit board 261 and the scent source 262 are both disposed inside the housing to be protected by the package of the housing; The housing can be made of plastic to reduce its weight.
另外的是,该气味功能电路板261可采用柔性电路板、刚性电路板或半柔半刚性电路板,而气味功能电路板261与控制单元30电连接。In addition, the scent function circuit board 261 may be a flexible circuit board, a rigid circuit board or a semi-flexible semi-rigid circuit board, and the scent function circuit board 261 is electrically connected to the control unit 30.
气味源262为由多种具有不同气味的香料组成,如茉莉香料、玫瑰香料、百合香料、青草香料、苹果香料等;且每种香料对应设置在一密封容器内,而该密封容器配设有一可电动打开或关闭其内部的开关装置,该开关装置与气味功能电路板261电连接,以可由气味功能电路板261控制工作。据此,当需要用户嗅到茉莉气味时,控制单元30会向气味功能电路板261发出工作指令,而气味功能电路板261接收到相关指令后,其会向气味源262中盛放有茉莉香料的密封容器上的开关装置发出工作指令,以打开盛放有茉莉香料的密封容器,从而释放茉莉气味,以让用户感受嗅到。而当需要用户嗅到茉莉和玫瑰的混合气味时,控制单元30会向气味功能电路板261发出工作指令,而气味功能电路板261接收到相关指令后,其会向气味源262中盛放有茉莉香料的密封 容器上的开关装置、及盛放有玫瑰香料的密封容器上的开关装置分别发出工作指令,以分别打开盛放有茉莉香料的密封容器、及盛放有玫瑰香料的密封容器,从而释放茉莉和玫瑰的混合气味,以让用户感受嗅到。而较佳地,该开关装置可采用电动阀门,当然,其亦可采用其它电动开关装置,以便于容纳有香料的密封容器可随时打开,快捷地释放相应的气味。The scent source 262 is composed of a plurality of fragrances having different odors, such as jasmine fragrance, rose fragrance, lily fragrance, grass fragrance, apple flavor, etc.; and each fragrance is correspondingly disposed in a sealed container, and the sealed container is provided with a The switching device inside thereof can be electrically opened or closed, and the switching device is electrically connected to the scent function circuit board 261 to be controlled by the scent function circuit board 261. Accordingly, when the user is required to smell the jasmine odor, the control unit 30 issues a work instruction to the scent function circuit board 261, and after receiving the relevant command, the scent function circuit board 261 holds the jasmine fragrance to the scent source 262. The switch device on the sealed container issues a work command to open a sealed container containing jasmine fragrance, thereby releasing the jasmine odor to allow the user to feel the smell. When the user is required to smell the mixed scent of jasmine and rose, the control unit 30 sends a work instruction to the scent function circuit board 261, and after receiving the relevant command, the scent function circuit board 261 will hold the odor source 262. Jasmine spice seal The switch device on the container and the switch device on the sealed container containing the rose fragrance respectively issue work instructions to respectively open the sealed container containing the jasmine fragrance and the sealed container containing the rose fragrance, thereby releasing the jasmine and The mixed smell of roses to let the user feel the smell. Preferably, the switch device can adopt an electric valve. Of course, other electric switch devices can also be used, so that the sealed container containing the fragrance can be opened at any time, and the corresponding smell is quickly released.
气味引流器263为气泵,而且该气泵273为微型气泵,以可借由其微型化结构,减少空间的占用,以及有利于携带,并便于安装设置;而且,其长度尺寸范围为130mm-180mm,宽度尺寸范围为50mm-85mm,高度尺寸范围为100mm-155mm。亦可选择地,气味引流器263为风扇,而且该风扇为微型风扇,以可借由其微型化结构,减少空间的占用,以及有利于携带,并便于安装设置;同时地,微型风扇的长度尺寸范围为8mm-20mm,宽度尺寸范围为8mm-20mm,高度尺寸范围为2mm-5mm。The odor drain 263 is an air pump, and the air pump 273 is a micro air pump, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and the length range thereof is 130 mm-180 mm. The width range is from 50mm to 85mm and the height range is from 100mm to 155mm. Alternatively, the odor drain 263 is a fan, and the fan is a micro fan, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and at the same time, the length of the micro fan The size ranges from 8mm to 20mm, the width ranges from 8mm to 20mm, and the height ranges from 2mm to 5mm.
另外,为了使到气味引流器263顺利地并且可按预设轨道地将气味引流至指定位置处,气味功能模块26包括还包括一端朝向指定位置处而另一端与气味引流器263相连接的导引管。In addition, in order to allow the odour descent 263 to smoothly and audibly direct the odor to the designated position, the odor function module 26 includes a guide that also includes one end facing the designated position and the other end connected to the scent drain 263. Leading.
在本发明的以上实施例中,优选地,气味功能模块26设有多个,该多个气味功能模块26分设于可穿戴本体10上对应靠近用户脸部或者鼻子的位置处,以可通过多个气味功能模块26同时释放的气味浓度达到指定要求,以此保证用户可以清楚地闻到所需的气味;其中,需要说明的是,此处的多个指的是两个或两个以上,亦即,该气味功能模块26可以为两个、三个或四个等,而此种实施方式也属于本实施例的保护范畴。同时,该多个气味功能模块26之间电连接,而该多个气味功能模块26连接时,可以是直接连接,也可以是间接连接,例如,通过控制单元30实现间接连接。In the above embodiment of the present invention, preferably, the odor function module 26 is provided in plurality, and the plurality of odor function modules 26 are disposed on the wearable body 10 at a position corresponding to the face or the nose of the user, so as to pass through The odor function module 26 simultaneously releases the odor concentration to meet the specified requirements, thereby ensuring that the user can clearly smell the desired odor; wherein, it should be noted that the plurality of fingers herein refers to two or more. That is, the odor function module 26 can be two, three or four, etc., and such an embodiment is also within the scope of protection of the present embodiment. At the same time, the plurality of scent function modules 26 are electrically connected to each other, and when the plurality of scent function modules 26 are connected, they may be directly connected or indirectly connected, for example, the indirect connection is realized by the control unit 30.
请参阅图10,作为本发明的另一优选实施例,其结合上述实施例的实施方式,且在本实施例中,体感模拟组件20还包括用于产生压迫感觉刺激的压力功能模块27,以使用户感到压迫感。借由压力功能模块27的设置,可实现 某些需要缠绕勒紧身体部分部位的场景,比如蛇/藤条的缠绕、捆绑等,由此,既可扩展具有出风功能的体感模拟装置100的应用范围,又能提高用户的体验感。Referring to FIG. 10, as another preferred embodiment of the present invention, in combination with the embodiment of the above embodiment, and in the embodiment, the somatosensory simulation component 20 further includes a pressure function module 27 for generating a compression feeling stimulus, Make the user feel oppressed. By the setting of the pressure function module 27, it can be realized Some scenes that need to be wrapped around the body part, such as the winding/bundling of snakes/rats, can expand the application range of the body-sensing simulator 100 having the air-discharging function and improve the user experience.
而为了使到压力功能模块27简化结构,并便于安装于可穿戴本体10上,压力功能模块27包括压迫功能电路板271、设于可穿戴本体10上且可膨胀挤压用户的气囊272、及设于压迫功能电路板271上并与气囊272连接以向气囊272提供使其膨胀的气体的气泵273。In order to simplify the structure of the pressure function module 27 and facilitate installation on the wearable body 10, the pressure function module 27 includes a compression function circuit board 271, an air bag 272 disposed on the wearable body 10 and swellably squeezing the user, and An air pump 273 is provided on the compression function circuit board 271 and connected to the air bag 272 to supply the air bag 272 with a gas that expands.
其中,该压迫功能电路板271可采用柔性电路板、刚性电路板或刚柔结合电路板,且压迫功能电路板271与控制单元30电连接。The pressing function circuit board 271 can be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, and the pressing function circuit board 271 is electrically connected to the control unit 30.
另外,该气泵273为微型气泵,以可借由其微型化结构,减少空间的占用,以及有利于携带,并便于安装设置;而且,其长度尺寸范围为130mm-180mm,宽度尺寸范围为50mm-85mm,高度尺寸范围为100mm-155mm。In addition, the air pump 273 is a micro air pump, so that the miniaturized structure can reduce the space occupation, and is convenient for carrying and easy to install; and the length range is 130mm-180mm, and the width dimension is 50mm- 85mm, height range from 100mm to 155mm.
那么,当用户遇到压迫场景时,控制单元30会通过压迫功能电路板271控制气泵273工作,而气泵273工作后,其会产生气体,以控制气囊的充气而压迫用户,从而使到用户产生压迫感。Then, when the user encounters the pressing scene, the control unit 30 controls the operation of the air pump 273 through the pressing function circuit board 271, and after the air pump 273 operates, it generates gas to control the inflation of the air bag to press the user, thereby causing the user to generate A sense of oppression.
请参阅图6,并结合图5,作为本发明的另一优选实施例,其结合上述实施例的实施方式,且在本实施例中,体感模拟组件20还包括用于产生湿润感觉刺激的湿润功能模块29,以使用户感到湿润感觉。借由湿润功能模块29,可实现某些皮肤湿润的场景,由此,既可扩展具有出风功能的体感模拟装置100的应用范围,又能提高用户的体验感。Referring to FIG. 6 and in conjunction with FIG. 5, as another preferred embodiment of the present invention, in combination with the embodiments of the above embodiments, and in the present embodiment, the somatosensory simulation component 20 further includes a moisturizing device for generating moist feeling stimuli. The function module 29 is to make the user feel a wet feeling. By using the humidifying function module 29, certain scenes in which the skin is wet can be realized, thereby expanding the application range of the body feeling simulation device 100 having the air blowing function and improving the user experience.
较佳地,湿润功能模块29包括涂覆于可穿戴本体10上且通电后可由半固体状态变成可流动的液体状态的湿润材料,而湿润材料优选为凝胶,其中,凝胶通电后,凝胶由半固体状态变成可流动的液体状体,当该材料密封于可穿戴本体10的袖子上部时,在某些VR游戏场景中,遇到刀刺和子弹击中,人体表面会感到流血触感,因此,用该类相变材料可以去模拟这类感觉。而且,为了简化结构,以及节省成本,该湿润材料与涂覆于可穿戴本体10上的透气性内 层12a为同一材料。Preferably, the wet function module 29 comprises a wet material applied to the wearable body 10 and can be changed from a semi-solid state to a flowable liquid state after energization, and the wet material is preferably a gel, wherein after the gel is energized, The gel changes from a semi-solid state to a flowable liquid. When the material is sealed to the upper part of the sleeve of the wearable body 10, in some VR game scenes, when the knife and bullet are hit, the surface of the human body feels It is bleeding, so this type of phase change material can be used to simulate this feeling. Moreover, in order to simplify the structure and save cost, the wet material and the gas permeability applied to the wearable body 10 are Layer 12a is the same material.
在本发明的以上实施例中,优选地,每个体感模拟组件20和每个控制单元30均为可拆卸的。那么在需要调整体感模拟组件20和和控制单元30的位置时,能够进行灵活的调整,扩大本发明的具有出风功能的体感模拟装置100的适用范围并节省了成本。In the above embodiments of the present invention, preferably, each of the somatosensory analog components 20 and each of the control units 30 are detachable. Then, when it is necessary to adjust the positions of the somatosensory simulation component 20 and the control unit 30, flexible adjustment can be performed, and the applicable range of the body feeling simulation device 100 having the air blowing function of the present invention can be expanded and the cost can be saved.
本发明的另一个实施例中,还提供了一种体感模拟系统,其包括中央处理器和上述各个实施例中具有出风功能的体感模拟装置100,In another embodiment of the present invention, a somatosensory simulation system is provided, which includes a central processing unit and a somatosensory simulation device 100 having an air blowing function in each of the above embodiments.
其中,控制单元30接收由中央处理器发出的控制信号并根据控制信息控制体感模拟组件20按照预先设定的功能模拟体感。The control unit 30 receives the control signal sent by the central processing unit and controls the somatosensory analog component 20 to simulate the body feeling according to the preset function according to the control information.
以上所述仅为本发明较佳的实施例而已,其结构并不限于上述列举的形状,凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明的保护范围之内。 The above is only the preferred embodiment of the present invention, and the configuration is not limited to the above-listed shapes, and any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the present invention. Within the scope of protection of the invention.

Claims (10)

  1. 一种具有出风功能的体感模拟装置,其特征在于,包括:A somatosensory simulation device having an air blowing function, comprising:
    可穿戴本体,用于包裹用户全身;a wearable body for wrapping the entire body of the user;
    多个体感模拟组件,多个所述体感模拟组件均设置于所述可穿戴本体上,每个所述体感模拟组件至少包括用于产生风吹感觉的风感功能模块,以可使用户至少感受到风吹的体感刺激;a plurality of somatosensory simulation components, each of the plurality of somatosensory simulation components being disposed on the wearable body, each of the somatosensory simulation components including at least a wind sense function module for generating a wind blow feeling, so that the user feels at least Somatosensory stimulation to the wind;
    控制单元,所述控制单元分别与每个所述体感模拟组件电连接,用于向一个或多个所述体感模拟组件发出一种或多种的控制指令。And a control unit electrically coupled to each of the somatosensory analog components for issuing one or more control commands to one or more of the somatosensory analog components.
  2. 如权利要求1所述的具有出风功能的体感模拟装置,其特征在于:所述风感功能模块包括风感功能电路板、设于所述风感功能电路板上并与所述风感功能电路板电连接以向用户吹送气流的气流产生器、及设于所述可穿戴本体上以供由所述气流产生器产生的气流送至用户身体的通风结构。The body feeling simulation device with an air blowing function according to claim 1, wherein the wind sensing function module comprises a wind function circuit board, is disposed on the wind function circuit board and has the wind feeling function. The circuit board is electrically connected to a flow generator for blowing airflow to the user, and a ventilation structure provided on the wearable body for airflow generated by the airflow generator to be delivered to the user's body.
  3. 如权利要求1所述的具有出风功能的体感模拟装置,其特征在于:所述可穿戴本体包括具有包络状且可包裹用户全身的织物、涂覆于所述织物内侧的透气性内层,多个所述体感模拟组件均设于所述透气性内层上。The body feeling simulation device with an air blowing function according to claim 1, wherein the wearable body comprises a fabric having an envelope shape and covering the entire body of the user, and a gas permeable inner layer coated on the inner side of the fabric. A plurality of the somatosensory analog components are disposed on the gas permeable inner layer.
  4. 如权利要求1所述的具有出风功能的体感模拟装置,其特征在于:所述可穿戴本体包括包裹人体躯干和四肢的衣服,或所述可穿戴本体包括用以包裹用户的躯干和四肢的衣服、与所述衣服相连以包裹用户手部的手套、以及与所述衣服相连以包裹用户脚部的脚套,或所述可穿戴本体包括用以包裹用户的躯干和四肢的衣服、以及用以包裹用户头部的帽子,或所述可穿戴本体包括用以包裹用户的躯干和四肢的衣服、与所述衣服相连以包裹用户手部的手套、与所述衣服相连以包裹用户脚部的脚套、以及与所述衣服相连以包裹用户头部的帽子等。The somatosensory simulation device according to claim 1, wherein the wearable body comprises a garment that wraps a human torso and limbs, or the wearable body includes a body and a limb for wrapping the user. a garment, a glove attached to the garment to wrap the user's hand, and a foot cover attached to the garment to wrap the user's foot, or the wearable body includes a garment for wrapping the user's torso and limbs, and a hat that wraps the user's head, or the wearable body includes a garment for wrapping the torso and limbs of the user, a glove attached to the garment to wrap the user's hand, and the garment is attached to wrap the user's foot a foot cover, and a hat attached to the garment to wrap the user's head.
  5. 如权利要求1所述的具有出风功能的体感模拟装置,其特征在于:所述体感模拟组件为可拆卸的和/或所述控制单元为可拆卸的。 A somatosensory simulation device having an air outlet function according to claim 1, wherein said somatosensory analog component is detachable and/or said control unit is detachable.
  6. 如权利要求1所述的具有出风功能的体感模拟装置,其特征在于:所述可穿戴本体与用户全身均紧密接触。The somatosensory simulation device with an air outlet function according to claim 1, wherein the wearable body is in close contact with the entire body of the user.
  7. 如权利要求1所述的具有出风功能的体感模拟装置,其特征在于,所述控制单元与每个所述体感模拟组件的电连接为所述控制单元与每个所述体感模拟组件直接连接。The somatosensory simulation device with air blowing function according to claim 1, wherein an electrical connection between the control unit and each of the somatosensory analog components is directly connected to the control unit and each of the somatosensory analog components. .
  8. 如权利要求1所述的具有出风功能的体感模拟装置,其特征在于,所述控制单元与每个所述体感模拟组件的电连接为:所述控制单元与一部分所述体感模拟组件直接连接,并与剩余部分的所述体感模拟组件间接连接,其中所述间接连接通过所述一部分所述体感模拟组件与剩余部分的所述体感模拟组件的直接连接实现。The somatosensory simulation device with an air blowing function according to claim 1, wherein the electrical connection between the control unit and each of the somatosensory analog components is: the control unit is directly connected to a part of the somatosensory analog components. And indirectly connected to the remaining portion of the somatosensory analog component, wherein the indirect connection is achieved by direct connection of the portion of the somatosensory analog component to the remaining portion of the somatosensory analog component.
  9. 如权利要求1-8任一项所述的具有出风功能的体感模拟装置,其特征在于:所述体感模拟组件还包括以下功能模块的一种或多种:用于产生体表振动刺激的振动功能模块,用于产生触觉刺激的触感功能模块,用于产生无创伤痛刺激的痛感功能模块,用于产生热刺激的热感功能模块,用于产生冷刺激的冷感功能模块,用于产生气味刺激的气味功能模块,用于产生压迫感觉刺激的压力功能模块,用于产生湿润感觉刺激的湿润功能模块。The somatosensory simulation device with an air blowing function according to any one of claims 1-8, wherein the somatosensory simulation component further comprises one or more of the following functional modules: for generating surface vibration stimulation. a vibration function module, a tactile function module for generating a tactile stimulus, a pain function module for generating a non-traumatic pain stimulus, a thermal function module for generating a thermal stimulus, and a cold sensing function module for generating a cold stimulus, for An odor-stimulated odor function module for generating a pressure function module for compressive sensory stimulation, a moist function module for generating a moist sensory stimulus.
  10. 一种体感模拟系统,包括中央处理器和如权利要求1-9中任一项所述的具有出风功能的体感模拟装置,A somatosensory simulation system comprising a central processing unit and a somatosensory simulation device having an air outlet function according to any one of claims 1-9.
    其中,所述控制单元接收由中央处理器发出的控制信号并根据所述控制信号控制所述体感模拟组件按照所述预先设定的功能模拟体感。 The control unit receives a control signal sent by the central processing unit and controls the somatosensory analog component to simulate a sense of body according to the preset function according to the control signal.
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