KR101980845B1 - Wind Simulation System based on Air Blending Phenomenon for Experience of Virtual Reality - Google Patents

Abstract

The present invention provides a ventilation system using a virtual reality experience air mixing phenomenon capable of providing an environment similar to an actual situation by controlling a wind generating device to blow wind in a wind direction and a wind speed corresponding to the progress of a virtual reality program.
A ventilation system using a virtual reality experience air mixing phenomenon according to the present invention includes a plurality of wind generating devices installed at intervals with a user as a center and capable of changing a wind speed and equipped with a wireless communication unit, And a control server mounted with a clustering engine configured to transmit and receive control signals to and from the device and to control the plurality of wind generating devices in response to the progress of the virtual reality program used by the user to provide wind direction and wind speed do.

Description

Technical Field [0001] The present invention relates to a ventilation system using an air mixing phenomenon for virtual reality,

The present invention relates to a ventilation system using an air mixing phenomenon for virtual reality, and more particularly, to a ventilation system using a virtual reality experience air mixing phenomenon, The present invention relates to a ventilation system using an air mixing phenomenon for virtual reality, which can improve a virtual reality feeling by providing a wind experience environment similar to the situation to a user.

Generally, Virtual Reality refers to a technology that uses a computer to artificially create a specific environment or situation and implement it in a similar manner.

Recently, we have been using virtual reality technology in various fields such as games and sports, education and medical care, and have used training and practice repeatedly in an environment similar to actual situation, so that we can cope effectively in real situations.

A fan or blower is a device used to force the air flow to create a natural wind environment.

To realize virtual reality, we need a fan or blower that can freely implement wind direction and speed.

Korean Patent Publication Nos. 10-0125743 and 10-1686838, 10-1998-0030858, 10-2014-0101579, 10-2015-0075874, 10-2016-0100645 And 10-2016-0125839 disclose various technologies related to a smart fan capable of changing the air volume, the wind speed, and the wind direction according to the position and existence of an object.

The technology of the conventional smart electric fan is related to the control of the wind only, and the technology for the connection with the virtual reality is not disclosed.

In addition, Korean Patent Registration Nos. 10-1723404, 10-1415944, 10-0921668, and 10-0912007 disclose outdoor sports such as golf or bicycle riding indoors, Techniques for providing stereophonic, wind effects, and the like to provide an environment similar to that shown in Fig.

However, in the prior art, only a mechanical form is presented, but no specific technique on how to control the wind speed and the wind direction is disclosed.

It is an object of the present invention to provide a virtual reality experience capable of providing a wind experience environment similar to an actual situation by controlling the wind generating device so that the wind is blown by the wind direction and the wind speed corresponding to the progress of the virtual reality program And an object of the present invention is to provide a ventilation system using air mixing phenomenon.

A ventilation system using a virtual reality experiencing air mixing phenomenon according to an embodiment of the present invention includes a plurality of wind generating devices installed at intervals with a user as a center and capable of changing a wind speed and equipped with a wireless communication unit, And a clustering engine configured to transmit and receive control signals through wireless communication with the plurality of wind generating apparatuses and to control a plurality of wind generating apparatuses in response to the progress of a virtual reality program used by a user to provide wind direction and wind speed And a control server.

The wind generating device can be installed by arranging 2 to 8 windings at intervals of 45 to 180 degrees around the position of the user.

The clustering engine of the control server controls each of the plurality of wind generating apparatuses at different wind speeds to provide a wind direction and a wind speed in accordance with varying air mixing ratio.

According to the ventilation system using the virtual reality experiencing air mixing phenomenon according to the embodiment of the present invention, in the control server equipped with the clustering engine, the wind speeds of the wind generating devices are controlled differently so that the wind direction and the wind speed can be varied It is possible to provide a wind experience similar to the actual environment to the user.

1 is a plan view conceptually showing a ventilation system using air mixing phenomenon for virtual reality according to an embodiment of the present invention.
FIG. 2 is a block diagram conceptually showing a ventilation system using an air mixing phenomenon for virtual reality experience according to an embodiment of the present invention.
FIGS. 3 to 5 are plan views for conceptually explaining variations in wind direction and wind speed acting on a user in accordance with an operation of a ventilation system using a virtual reality experience air mixing phenomenon according to an embodiment of the present invention.
6 is a plan view conceptually showing a ventilation system using air mixing phenomenon for virtual reality experience according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, preferred embodiments of a ventilation system using an air mixing phenomenon for virtual reality experience according to the present invention will be described in detail with reference to the drawings.

The present invention can be embodied in various forms and is not limited to the embodiments described below.

Hereinafter, for the purpose of clearly illustrating the present invention, a detailed description of parts that are not closely related to the present invention is omitted, and throughout the description of the present invention, the same or similar components are denoted by the same reference numerals, .

1 and 2, a ventilation system using a virtual reality experiencing air mixing phenomenon according to an embodiment of the present invention includes a plurality of wind generating devices 10, a control server (20).

The wind generating device 10 is installed to be spaced around the user 2.

The wind generating device 10 is installed so as to generate and send wind toward the user.

The wind generating device 10 is installed in a form surrounding the user.

The wind generation device 10 may be constructed using a blower, a fan, or the like.

For example, the wind generating device 10 is installed by arranging 2 to 8 windings at intervals of 45 to 180 degrees around the position of the user 2.

As shown in Fig. 1, it is also possible to dispose four wind generating apparatuses 10 at intervals of 90 degrees around the user 2.

As shown in Fig. 6, it is also possible to dispose two wind generating apparatuses 10 at intervals of 135 degrees around the user 2.

The wind generation device 10 is configured to be capable of changing the wind speed.

The wind generation device 10 is provided with a wireless communication unit.

The control server 20 is equipped with a wireless communication function such as Bluetooth or WiFi so as to enable wireless communication with the wireless communication unit of the wind generation apparatus 10. [

The control server 20 and the wind generating device 10 are configured to transmit and receive a control signal via wireless communication.

The control server 20 installs a virtual reality program or an application for executing a virtual reality program on-line.

The clustering engine installed in the control server 20 is configured to control the wind speed of the wind generating device 10 in accordance with the progress of the virtual reality program used by the user 2. [

The clustering engine installed in the control server 20 is configured to control each of the plurality of wind generating devices 10 at different wind speeds.

It is preferable that the control unit of the wind generation apparatus 10 is configured to be able to control the wind speed of the wind generation apparatus 10 in response to the control signal transmitted from the clustering engine mounted on the control server 20. [

As described above, by controlling each of the plurality of wind generating apparatuses 10 at different wind speeds, various winds are mixed and the wind having a new wind speed and wind direction acts on the user.

The clustering engine installed in the control server 20 varies the mixing ratio of the air generated through the wind generating device 10 in consideration of the arrangement of the wind generating device 10 and the position of the user, So that the wind speed can be controlled.

3, if the wind speed of the south (lower) wind generator 10 is 2 m / s and the wind speed of the west (left) wind generator 10 is 3 m / s, The northwester wind of about 245 degrees in the clockwise direction acts on the wind direction.

4, when the wind speed of the south (lower) wind generating device 10 is 0.6 m / s and the wind speed of the west (left) wind generating device 10 is 5 m / s, A northwest wind in the direction of approximately 260 degrees acts in the clockwise direction.

3, when the position of the user 2 is moved from the center to the southwest as shown in Fig. 5, the wind speed of the south (lower) wind generating device 10 is adjusted to 1.8 m / s, Left) wind-generating device 10 is adjusted to 1.2 m / s, the user 2 feels the wind effect as shown in Fig.

FIG. 2 is a block diagram illustrating a conceptual structure of a ventilation system using an air mixing phenomenon for virtual reality experience according to an embodiment of the present invention.

For example, the control server 20 is connected to a content computer 30 equipped with a virtual reality experience program, and the control server 20, to which the wind information is transmitted when the virtual reality experience program proceeds, To the wind generation device 10 to generate and send wind to the user 2 in response to the virtual reality experience program.

The content computer 30 includes a content player 32 for executing a content (virtual reality experience program), and wind information given when the content is played in the content player 32 to the control server 20 And a wind information sending unit (34).

The content computer 30 includes a display unit 40 for displaying an image when a content (virtual reality experience program) is executed, a device unit 50 for providing a motion to the user 2 in response to the content, A user operation detecting unit 60 for detecting the operation of the control server 2 and transmitting the detected operation to the control server 20 is connected.

Each of the wind generating apparatuses 10 includes an instruction receiving unit 12 for receiving a control signal of the control server 20 and an wind speed motor control unit 14 for controlling the motor to change the wind speed.

The control server 20 includes a wind information receiving unit 21 for receiving wind information transmitted from the wind information sending unit 34 of the content computer 30, A motion information compensating unit 22 for receiving and compensating the operation information of the wind information generating unit 10; a placement information database 23 for storing the placement information of the wind generating unit 10; A wind mixing ratio calculating section 24 for calculating a wind mixing ratio for controlling the wind generating apparatus 10 using the compensation data of the motion compensating section 22, And an operation command section (25) for transmitting control signals for controlling each of the wind generating apparatuses (10) at a mixing ratio.

The wind information receiving unit 21, the user motion compensation unit 22, and the wind mixing ratio calculation unit 24 constitute a clustering engine.

The command receiving unit 12 of the wind generation apparatus 10 is configured to receive the control signal of the operation command unit 25 and to control the wind speed motor control unit 14.

Although the preferred embodiments of the ventilation system using the air mixing phenomenon for virtual reality experience according to the present invention have been described above, the present invention is not limited to these embodiments, but may be modified in various ways within the scope of the claims, And this is also within the scope of the present invention.

2-user, 10-wind generator, 12-command receiver, 14-wind speed motor controller
20 - control server, 21 - wind information receiver, 22 - user motion compensation unit
23 - batch information database, 24 - wind mixing ratio calculation section, 25 - operation command section
30 - content computer, 32 - content player, 34 - wind information sending section
40 - display unit, 50 - device unit, 60 - user motion detecting unit

Claims (4)

A plurality of wind generating devices installed at intervals with a user in the center and capable of changing the wind speed and equipped with a wireless communication unit, and a plurality of wind generating devices, which transmit and receive control signals through wireless communication with the plurality of wind generating devices, And a control server in which a clustering engine is mounted, the clustering engine being configured to respectively control a plurality of wind generating devices in response to the progress of a virtual reality program to provide wind direction and wind speed,
The wind generating device is installed by arranging 2 to 8 windings at intervals of 45 to 180 degrees around the user's position,
The clustering engine of the control server is configured to be able to provide the wind direction and the wind speed by controlling each of the plurality of wind generating devices at different wind speeds to vary the air mixing ratio,
A content computer on which a virtual reality experience program is mounted is connected to the control server,
Wherein the content computer includes a content player for executing content (a virtual reality experience program), and a wind information sending unit for transmitting wind information given when content is played in the content player to the control server,
The content computer includes a display unit for displaying an image when a content (virtual reality experience program) is executed, a device unit for providing a motion to the user corresponding to the content, a user A motion detection unit is connected,
Wherein each of the wind generating devices includes an instruction receiving unit for receiving a control signal of the control server and an wind speed motor control unit for controlling the motor to change the wind speed,
The control server includes a wind information receiver for receiving wind information transmitted from the wind information transmitting unit of the contents computer, a user motion compensator for receiving and compensating the user's operation information transmitted from the user motion detector, A wind mixing ratio calculating unit for calculating a wind mixing ratio for controlling the wind generating apparatus by using the wind information of the wind information receiving unit and the compensation data of the user motion compensating unit, And an operation command unit for transmitting a control signal for controlling each of the wind generating devices at the blending ratio calculated by the wind mixing ratio calculating unit. delete delete delete

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