CN220695826U - Acousto-optic interaction device - Google Patents

Abstract

The utility model provides an acousto-optic interaction device, which comprises an acousto-optic interaction mechanism, wherein the acousto-optic interaction mechanism comprises a first base, a first fixing frame, a second fixing frame and a lamp assembly; the first fixing frame and the second fixing frame are both arranged on the first base, and the lamp assembly is clamped between the first fixing frame and the second fixing frame. A plurality of first through holes are formed in the first fixing frame, a plurality of first rotating rings are arranged in each first through hole, and a first interaction mirror surface is arranged in each first rotating ring. A plurality of second through holes are formed in the second fixing frame, and each second through hole corresponds to each first through hole in position; a plurality of second rotating rings are arranged in each second through hole, and second interaction mirrors are arranged in the second rotating rings. The lamp assembly comprises a plurality of balloon lamps, each balloon lamp is clamped between the first interaction mirror surface and the second interaction mirror surface, and each balloon lamp is internally provided with a sound sensor. The acousto-optic interaction device can provide an immersive game atmosphere for people.

Description

Acousto-optic interaction device

Technical Field

The utility model relates to the technical field of game equipment, in particular to an acousto-optic interaction device.

Background

Existing gaming device interactions are typically accomplished by a person operating a particular tool to change the state of the device, such as: shooting targets in a screen of the game device by operating the water gun; or by manipulating the handles to control the grip to grip a target in the game device, etc. However, none of the above game devices can change the surrounding environment according to human interaction, and the game atmosphere is poor, and thus, it is impossible to provide an immersive game atmosphere to human beings.

Disclosure of Invention

The utility model provides an acousto-optic interaction device capable of changing the surrounding environment according to different actions of people and interaction of people, and providing an immersive game atmosphere.

The utility model adopts the technical scheme that: an acousto-optic interaction device, comprising: the sound-light interaction mechanism comprises a first base, a first fixing frame, a second fixing frame and a lamp assembly; the first fixing frame and the second fixing frame are both arranged on the first base, and the lamp assembly is clamped between the first fixing frame and the second fixing frame; a microcomputer is installed on the first base;

a plurality of first through holes are formed in the first fixing frame, a plurality of first rotating rings are arranged in each first through hole, and a first interaction mirror surface is arranged in each first rotating ring; one of the first rotating rings is provided with a first micro motor which is in communication connection with the microcomputer;

a plurality of second through holes are formed in the second fixing frame, and each second through hole corresponds to each first through hole in position; a plurality of second rotating rings are arranged in each second through hole, and a second interaction mirror surface is arranged in each second rotating ring; one of the second rotating rings is provided with a second micro motor which is in communication connection with the microcomputer;

the lamp assembly comprises a plurality of balloon lamps, each balloon lamp is clamped between the corresponding first interaction mirror surface and the corresponding second interaction mirror surface, each balloon lamp is internally provided with a sound sensor, and each sound sensor is in communication connection with the microcomputer.

Further, a solar cell panel is installed at the top of the first fixing frame, a control panel is arranged on the solar cell panel, and a micro-light sensor is arranged on the control panel; the control panel and the micro-light sensor are both in communication connection with the microcomputer.

Further, a first LED lamp strip is mounted on the periphery of the first fixing frame, the first LED lamp strip surrounds the peripheries of the first through holes, and the first LED lamp strip is in communication connection with the microcomputer.

Further, a second LED lamp strip is arranged on the periphery of the second fixing frame, the second LED lamp strip surrounds the periphery of the second through holes, and the second LED lamp strip is in communication connection with the microcomputer.

Further, each of the first interactive mirror and each of the second interactive mirror are provided with a dichroic film.

Further, each of the first through holes and each of the second through holes are provided with an angle sensor at an inner edge thereof, and each of the angle sensors is in communication connection with the microcomputer.

Further, a speaker is installed on the first base, and the speaker is connected with the microcomputer.

Further, the acousto-optic interaction device further comprises a stage mechanism, wherein the stage mechanism comprises a second base and a stage connected with the second base; and a trolley wheel is arranged at the bottom of the second base.

Compared with the prior art, the acousto-optic interaction device is characterized in that the sound sensor is arranged in each balloon lamp, and each sound sensor is connected with the microcomputer; when the tourists make different sounds, different signals are sent to the microcomputer through the sound sensor, the microcomputer controls the balloon lamps to emit lights with various colors or different types of lights, so that the light interaction between the tourists and the devices is realized, opportunities for the users to operate the devices, the spaces and the surrounding environments in various modes are provided, a shared game experience is created to arouse public connection, an open platform is provided for the users to participate in the lights, the sounds and the movements, the game atmosphere which is continuously changed is excited in the space, and the experience of the tourists is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the description serve to explain the utility model. In the drawings of which there are shown,

fig. 1: the structure schematic diagram of the acousto-optic interaction device is shown in the specification;

fig. 2: an enlarged view at a in fig. 1;

fig. 3: an enlarged view at B in fig. 1;

fig. 4: the utility model relates to a block schematic diagram of an acousto-optic interaction device.

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the utility model.

As shown in fig. 1 to 3, the acousto-optic interaction device of the present utility model includes an acousto-optic interaction mechanism and a stage mechanism cooperating with the acousto-optic interaction mechanism.

Specifically, the acousto-optic interaction mechanism comprises a first base 1, a first fixing frame 2, a second fixing frame 3 and a lamp assembly; wherein, first mount 2 and second mount 3 are all installed in first base 1, and lamp assembly presss from both sides and establishes between first mount 2 and second mount 3. A microcomputer 4 and a speaker 5 are mounted on the first base 1, wherein the speaker 5 is communicatively connected to the microcomputer 4. A solar panel 6 is arranged at the top of the first fixing frame 2, a control panel 7 is arranged on the solar panel 6, and a micro-light sensor is arranged on the control panel 7; wherein, the solar panel 6 provides working power for the control panel 7 and the micro light sensor; the control panel 7 and the micro light sensor are both communicatively connected to the microcomputer 4. The microcomputer 4 and the speaker 5 are electrically connected with the solar panel 6, and the solar panel 6 provides working power.

Further, a plurality of first through holes 8 are formed in the first fixing frame 2, a plurality of first rotating rings 9 are installed in each first through hole 8, each first rotating ring 9 can rotate in a plurality of axial directions (namely, can freely rotate in any direction), and a first interaction mirror surface 10 is installed in each first rotating ring 9; so that the first interactive mirror 10 can be placed in different directions, enabling a rotation in the form of a gyroscope. A first micro motor is arranged on one of the first rotating rings 9, the first micro motor is electrically connected with the solar panel 6, and the solar panel 6 provides a working power supply; and the first microcomputer is communicatively connected to the microcomputer 4. In addition, the periphery of the first fixing frame 2 is also provided with a first LED lamp strip 11, the first LED lamp strip 11 surrounds the periphery of the first through holes 8, and the first LED lamp strip 11 is in communication connection with the microcomputer 4.

The second fixing frame 3 is provided with a plurality of second through holes 12, and each second through hole 12 corresponds to the position of each first through hole 8. A plurality of second rotating rings 13 are arranged in each second through hole 12, each second rotating ring 13 can rotate in a plurality of axial directions (namely, can freely rotate in any direction), and a second interaction mirror surface 14 is arranged in each second rotating ring 13; so that the second interactive mirror 14 can be placed in different directions, enabling a rotation in the form of a gyroscope. One of the second rotating rings 13 is provided with a second micro motor, the second micro motor is electrically connected with the solar panel 6, and the solar panel 6 provides a working power supply; and the second micro-motor is communicatively connected to the microcomputer 4. In addition, a second LED light strip 15 is further mounted on the periphery of the second fixing frame 3, the second LED light strip 15 surrounds the peripheries of the second through holes 12, and the second LED light strip 15 is in communication connection with the microcomputer 4.

As shown in fig. 1 and 4, the lamp assembly comprises a plurality of balloon lamps 16, each balloon lamp 16 is sandwiched between a corresponding first interaction mirror 10 and a corresponding second interaction mirror 14, and each balloon lamp 16 is internally provided with a sound sensor, and each sound sensor is in communication connection with the microcomputer 4; when the tourist sends different sounds, different signals are sent to the microcomputer 4 through the sound sensor, the microcomputer 4 controls the plurality of balloon lamps 16 to emit light with various colors or light with various types (such as flash, low light, strong light and the like), so that the tourist can realize light interaction through the sound and the device, and the experience of the tourist is improved.

Further, each of the first interactive mirror 10 and each of the second interactive mirror 14 are provided with a dichroic film, so that when a guest passes through the first interactive mirror 10 or the second interactive mirror 14, different interests and interactions are brought into space by using daytime and late light. During daytime, the sun and the surrounding environment are reflected, shadows are cast on the mirrors, and the first interactive mirror 10 or the second interactive mirror 14 is enabled to reflect sunlight and cast into the space by artificially reversing the first interactive mirror 10 or the second interactive mirror 14, so that the color reflected in the space is changed. At night, signals are sent to the microcomputer 4 through the control panel 7 and the micro-light sensor, and the microcomputer 4 controls the balloon lamp 16 to use red, green and blue lights; the first interactive mirror 10 and the second interactive mirror 14 refract the internal backlight, so that a filtered view of the surrounding environment is obtained to create the same effect, and the light and the shadow of the mirrors are mixed. Moreover, the reflection on the first interactive mirror 10 and the second interactive mirror 14 also attracts people to interact with space or peers; as the guest rotates each of the first interactive mirror 10 or the second interactive mirror 14, they create their own endless color links.

Further, the inner edge of each of the first through hole 8 and the second through hole 12 is mounted with an angle sensor, and each of the angle sensors is communicatively connected to the microcomputer 4. When the first interactive mirror 10 or the second interactive mirror 14 rotates, signals are transmitted to the microcomputer 4 through corresponding angle sensors, the microcomputer 4 controls the loudspeaker 5 to play music, meanwhile controls the balloon lamp 16, the first LED lamp strip 11 and the second LED lamp strip 15 to emit corresponding lights, and as the music starts, the microcomputer 4 controls the first microcomputer to drive the first interactive mirror 10 to play at a rotation speed of 5 degrees per minute, or the microcomputer 4 controls the second microcomputer to drive the second interactive mirror 14 to play at a rotation speed of 5 degrees per minute, so that the experience of tourists is further improved.

The stage mechanism comprises a second base 17 and a stage 18 connected with the second base 17; the bottom of the second base 17 is provided with a trolley wheel 19, so that the second base 17 and the stage 18 can move.

In summary, the acousto-optic interaction device of the utility model has the following advantages:

1. by installing a sound sensor in each balloon lamp 16, each sound sensor is communicatively connected to the microcomputer 4; when the tourists make different sounds, different signals are sent to the microcomputer 4 through the sound sensor, the microcomputer 4 controls the plurality of balloon lamps 16 to emit light of various colors or light of various types, so that the light interaction between the tourists and the devices is realized, opportunities for the users to operate the devices, the space and the surrounding environment in various modes are provided for the users, a shared game experience is created to arouse public connection, an open platform is provided for the users to participate in the light, the sound and the movement, the game atmosphere which is continuously changed is excited in the space, and the experience of the tourists is improved.

2. Through setting up first interactive mirror 10 of first micro motor drive, second micro motor drive second interactive mirror 14 to at the inside edge installation angle sensor of every first through-hole 8 and second through-hole 12, when first interactive mirror 10 or second interactive mirror 14 rotate, will signal transmission to microcomputer 4 through corresponding angle sensor, can control speaker 5 broadcast music by microcomputer 4, control balloon lamp 16, first LED lamp area 11 and second LED lamp area 15 send corresponding light simultaneously, along with the music begins, play at 5 rotational speed per minute by first interactive mirror 10 of first micro motor drive or by second interactive mirror 14, make the experience of visitor obtain further promotion.

3. By arranging a layer of dichroic film on each of the first interactive mirror 10 and the second interactive mirror 14, when a tourist passes through the first interactive mirror 10 or the second interactive mirror 14, different interests and interactions are brought into space by utilizing daytime and late light rays; reflecting sun and surrounding environment in daytime, casting shadows on the mirrors, and enabling the first interactive mirror 10 or the second interactive mirror 14 to reflect sunlight and cast into a space by artificially reversing the first interactive mirror 10 or the second interactive mirror 14, so as to change the color reflected in the space; at night, signals are sent to the microcomputer 4 through the control panel 7 and the micro-light sensor, and the microcomputer 4 controls the balloon lamp 16 to use red, green and blue lights; the first interactive mirror 10 and the second interactive mirror 14 refract the internal backlight, so that a filtered view of the surrounding environment is obtained to create the same effect, and the light and the shadow of the mirrors are mixed.

4. By installing a plurality of first rotating rings 9 in each first through hole 8, each first rotating ring 9 can rotate in a plurality of axial directions, and a first interactive mirror 10 is installed in the plurality of first rotating rings 9; so that the first interactive mirror 10 can be placed in different directions, realizing a rotation in the form of a gyroscope; a plurality of second rotating rings 13 are installed in each second through hole 12, each second rotating ring 13 can rotate in a plurality of axial directions, and a second interaction mirror 14 is installed in the plurality of second rotating rings 13; so that the second interactive mirror 14 can be placed in different directions, enabling a rotation in the form of a gyroscope.

Any combination of the various embodiments of the utility model should be considered as being within the scope of the present disclosure, as long as the inventive concept is not violated; within the scope of the technical idea of the utility model, any combination of various simple modifications and different embodiments of the technical proposal without departing from the inventive idea of the utility model should be within the scope of the utility model.

Claims (8)

1. An acousto-optic interactive device, comprising: the sound-light interaction mechanism comprises a first base, a first fixing frame, a second fixing frame and a lamp assembly; the first fixing frame and the second fixing frame are both arranged on the first base, and the lamp assembly is clamped between the first fixing frame and the second fixing frame; a microcomputer is installed on the first base;

a plurality of first through holes are formed in the first fixing frame, a plurality of first rotating rings are arranged in each first through hole, and a first interaction mirror surface is arranged in each first rotating ring; one of the first rotating rings is provided with a first micro motor which is in communication connection with the microcomputer;

a plurality of second through holes are formed in the second fixing frame, and each second through hole corresponds to each first through hole in position; a plurality of second rotating rings are arranged in each second through hole, and a second interaction mirror surface is arranged in each second rotating ring; one of the second rotating rings is provided with a second micro motor which is in communication connection with the microcomputer;

the lamp assembly comprises a plurality of balloon lamps, each balloon lamp is clamped between the corresponding first interaction mirror surface and the corresponding second interaction mirror surface, each balloon lamp is internally provided with a sound sensor, and each sound sensor is in communication connection with the microcomputer.

2. The acousto-optic interaction device according to claim 1, wherein: a solar panel is arranged at the top of the first fixing frame, a control panel is arranged on the solar panel, and a micro-light sensor is arranged on the control panel; the control panel and the micro-light sensor are both in communication connection with the microcomputer.

3. The acousto-optic interaction device according to claim 1, wherein: the periphery of first mount is installed first LED lamp area, first LED lamp area surrounds a plurality of the periphery of first through-hole, just first LED lamp area with microcomputer communication connection.

4. The acousto-optic interaction device according to claim 1, wherein: the periphery of second mount is installed the second LED lamp area, the second LED lamp area surrounds the periphery at a plurality of second through-holes, just the second LED lamp area with microcomputer communication connection.

5. The acousto-optic interaction device according to claim 1, wherein: each first interactive mirror surface and each second interactive mirror surface are provided with a layer of dichroic film.

6. The acousto-optic interaction device according to claim 1, wherein: and each first through hole and each second through hole are provided with an angle sensor at the inner edge, and each angle sensor is in communication connection with the microcomputer.

7. The acousto-optic interaction device according to claim 1, wherein: and a loudspeaker is arranged on the first base and connected with the microcomputer.

8. The acousto-optic interaction device according to claim 1, wherein: the acousto-optic interaction device further comprises a stage mechanism, wherein the stage mechanism comprises a second base and a stage connected with the second base; and a trolley wheel is arranged at the bottom of the second base.