WO2018094991A1 - Air outlet device of somatic sensation simulation apparatus - Google Patents

Abstract

An air outlet device of a somatic sensation simulation apparatus (100). The somatic sensation simulation apparatus (100) comprises a wearable body (10). The air outlet device comprises a circuit board (31), an airflow generator (32) and a ventilation structure (33). The circuit board (31) is provided on the wearable body (10). The airflow generator (32) is provided on and electrically connected to the circuit board (31) to blow air onto the user. The ventilation structure (33) is provided on the wearable body (10) to supply the air generated by the airflow generator (32) to the user's body. When a blowing effect is required, the airflow generator (32) may be controlled, by means of the circuit board (31), to work and to generate airflow, and the airflow is supplied to the user's body by means of the ventilation structure (33), thus allowing the user to experience wind stimulation, and ensuring the user's demand for wind stimulation is satisfied, and providing an authentic experience.

Description

Air outlet device for somatosensory simulator Technical field

The utility model relates to the technical field of human body feeling simulation, in particular to an air outlet device of a somatosensory simulation tool.

Background technique

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.

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.

Utility model content

The utility model aims to overcome the defects of the prior art and provide an air outlet device for a somatosensory simulation tool, so as to solve the wind-sensing simulation of the body-sensing simulation device in the prior art only in the body part of the user, thereby causing the wind feeling simulation. A technical problem that is not efficient.

The utility model is realized as follows, the air outlet device of the somatosensory simulation tool, the somatosensory simulation tool comprises a wearable body for wrapping the whole body of the user, and the air outlet device comprises:

a circuit board, the circuit board is disposed on the wearable body;

An airflow generator, the airflow generator is disposed on the circuit board and electrically connected to the circuit board to blow airflow to a user;

a ventilating structure disposed on the wearable body for airflow generated by the airflow generator to be delivered to a user's body.

Preferably, the circuit board is a flexible circuit board.

Preferably, the circuit board is a rigid circuit board.

Preferably, the circuit board is a rigid-flex circuit board.

Preferably, the circuit board is a single panel.

Preferably, the circuit board is a double panel.

Preferably, the circuit board is a multilayer board.

Specifically, the air outlet device is provided in plurality.

Specifically, the airflow generator is a fan.

Preferably, the venting structure includes a passage in communication with the airflow generator.

The technical effect of the air outlet device of the somatosensory analog appliance of the present invention is that when the wind generating effect needs to be generated, the airflow generator can be controlled by the circuit board to generate airflow by the airflow generator, and the airflow is sent to the airflow structure through the ventilation structure. The user's body, thereby enabling the user to feel the wind stimuli, ensuring the user's requirements for the wind stimuli and the real experience.

DRAWINGS

1 is a schematic view of the air outlet device of the present invention disposed on the front side of the somatosensory simulation tool;

2 is a schematic view showing the air outlet device of the present invention disposed on the back of the somatosensory simulation tool;

3 is a schematic view of the air outlet device of the present invention used in combination with a video device after being installed in a somatosensory simulation device

4 is a schematic diagram of control between the air outlet device and the control unit of the present invention;

Figure 5 is a schematic view showing the structure of the air outlet device of the present invention.

detailed description

In order to make the objects, technical solutions and advantages of the present invention more comprehensible, 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.

Referring to FIG. 1 to FIG. 5, an embodiment of the air outlet device of the somatosensory simulation appliance of the present invention will be described below.

The somatosensory simulation device 100 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.

The somatosensory simulation device 100 includes a wearable body 10 and a control unit 20. Specifically, 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 usual Body parts covered by long-sleeved tops and trousers. The meaning of the package not only means covering the user's whole body, but also contacting most parts of the user's body, so that the user gets surrounded and The feeling of touch, so that when the user accepts the somatosensory stimulation of the somatosensory analog component disposed in the wearable body 10, the realness of the user's feeling is improved; in order to ensure the comfort of the user, the wearable body 10 is preferably Made of elastic material. As for the control unit 20, which is disposed on the wearable body 10, and is electrically connected to each of the somatosensory analog components on the wearable body 10, respectively, for issuing one or more control commands to one or more of the somatosensory analog components. . In addition, the control unit 20 can also be connected to the video device 200, so that the user can feel the content of the virtual scene in a sense of non-stimulation. The air outlet device 30 of the present embodiment includes a circuit board 31, an airflow generator 32, and a ventilation structure 33. The components of the air outlet device 30 are further described below:

The circuit board 31 is disposed on the wearable body 10, and the circuit board 31 is electrically connected to the control unit 20 to facilitate control settings of a person concerned;

The airflow generator 32 is disposed on the circuit board 32 and electrically connected to the circuit board 32 to blow airflow to the user;

The ventilation structure 33 is disposed on the wearable body 10 for the airflow generated by the airflow generator 32 to be delivered to the user's body.

When it is desired to generate an air blowing effect, the airflow generator 32 can be controlled by the circuit board 31 to cause the airflow generator 32 to generate an airflow, and the airflow is sent to the user's body through the ventilation structure 33, thereby enabling the user to feel the wind. The stimuli ensure the user's requirements for the wind stimuli and the real experience.

At the same time, by the arrangement of the air outlet device 30 of the embodiment, the somatosensory simulation tool 100 can realize certain specific air blowing scenes, thereby expanding the application range of the body feeling simulation tool 100 and improving the user experience. .

Referring to FIG. 5, the circuit board 31 of the embodiment may be a flexible circuit board, a rigid circuit board or a rigid-flex circuit board, wherein the rigid circuit board is a common rigid circuit board; and the flexible circuit board is also called a soft board. ", is a printed circuit made of flexible insulating substrate. Flexible circuits provide excellent electrical performance to meet the design needs of smaller and higher density installations, as well as reduce assembly processes and increase reliability. Moreover, the flexible circuit board can be freely bent, wound, folded, can withstand millions of dynamic bending without damaging the wires, can be arbitrarily arranged according to the spatial layout requirements, and can be moved freely in three-dimensional space. Telescopic, so as to achieve the integration of component assembly and wire connection; flexible circuit board can also greatly reduce the size and weight of electronic products, suitable for the development of electronic products to high density, miniaturization, high reliability; as for rigid and flexible combined circuit The board is formed by combining a rigid circuit board and a flexible circuit board.

Alternatively, the circuit board 31 is a single panel, a double panel or a multi-layer board, specifically:

Single-Sided Boards, on the most basic PCB, the parts are concentrated on one side and the wires are concentrated on the other side. Since the wire only appears on one side, this PCB is called a single-sided. Since there is only one side of the single panel, the wiring can not be crossed, but must be around a separate path.

Double-SidedBoards, which have wiring on both sides of the board, but to use the two sides of the wire, you must have proper circuit connections between the two sides. The "bridge" between such circuits is called a via. The via hole is a small hole filled or coated with metal on the PCB, which can be connected to the wires on both sides. Because the area of the double panel is twice as large as that of the single panel, the double panel solves the difficulty of wiring interleaving in a single panel (which can be conducted through the hole to the other side), which is more suitable for circuits that are more complicated than single panels.

Multi-Layer Boards, in order to increase the area that can be wired, the multi-layer board uses more single or double-sided wiring boards. Using a double-sided inner layer, two single-sided outer layers or two double-sided inner layers, two single-sided outer printed circuit boards, alternating between the positioning system and the insulating bonding material and conductive patterns Printed circuit boards that are interconnected according to design requirements become four-layer, six-layer printed circuit boards, also known as multilayer printed wiring boards.

In addition, in order to facilitate the production design, the circuit board 31 has a regular geometric shape; preferably, the longitudinal section of the circuit board 31 is a regular polygon such as a rectangle, a square, an isosceles triangle, an isosceles trapezoid or the like. The longitudinal section refers to a section parallel to the front surface of the wearable body 10, that is, the plane illustrated in FIG.

Referring to FIG. 5 again, as another preferred embodiment of the present invention, in combination with the embodiment of the foregoing embodiment, and in this embodiment, the airflow generator 32 is a fan, and the fan is a micro fan, so as to borrow Due to its miniaturized structure, it reduces space occupation, and is advantageous for carrying and easy to install; Meanwhile, the micro fan has a length ranging from 8 mm to 20 mm, a width ranging from 8 mm to 20 mm, and a height ranging from 2 mm to 5 mm.

Referring to FIG. 1 , as another preferred embodiment of the present invention, in combination with the embodiments of the foregoing embodiments, and in the embodiment, the ventilation structure 33 is disposed on the wearable body 10 and connected to the airflow generator 32. The passage 331 and the passage 331 are not only simple in structure but also convenient in setting, and at the same time, the airflow generated by the airflow generator 32 can be quickly and efficiently sent to a specified position.

In the above embodiment of the present invention, preferably, the air outlet device 30 and the control unit 20 may be provided one or more, and are all detachably disposed on the wearable body 10; The plurality of references herein refers to two or more, that is, the air outlet device 30 may be two, three or four, etc., and such an embodiment is also within the scope of protection of the present embodiment. When the position of the air outlet device 30 and the control unit 20 needs to be adjusted, flexible adjustment can be performed, and the applicable range of the body feeling simulation tool 100 of the present invention can be expanded, and the cost can be saved.

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 replacements, and improvements made within the spirit and principles of the present invention should be included. Within the scope of protection of the present invention.

Claims (10)

1. An air outlet device for a somatosensory simulation appliance, the somatosensory simulation tool comprising a wearable body for wrapping a whole body of a user, wherein the air outlet device comprises:

   a circuit board, the circuit board is disposed on the wearable body;

   An airflow generator, the airflow generator is disposed on the circuit board and electrically connected to the circuit board to blow airflow to a user;

   a ventilating structure disposed on the wearable body for airflow generated by the airflow generator to be delivered to a user's body.
2. The air outlet device of the somatosensory simulation device according to claim 1, wherein the circuit board is a flexible circuit board.
3. The air outlet device of the somatosensory simulation device according to claim 1, wherein the circuit board is a rigid circuit board.
4. The air outlet device of the somatosensory analog device according to claim 1, wherein the circuit board is a rigid-flex circuit board.
5. The air outlet device of the somatosensory simulation device according to claim 1, wherein the circuit board is a single panel.
6. The air outlet device of the somatosensory simulation device according to claim 1, wherein the circuit board is a double panel.
7. The air outlet device of the somatosensory simulation device according to claim 1, wherein the circuit board is a multilayer board.
8. The air outlet device of the somatosensory simulation tool according to claim 1, wherein the plurality of air outlet devices are provided.
9. The air outlet device of the somatosensory simulation tool according to any one of claims 1 to 8, wherein the airflow generator is a fan.
10. An air outlet device for a somatosensory simulator according to any one of claims 1-8, characterized in that: The venting structure includes a passage in communication with the airflow generator.

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